Transcript
TopPage
FO-IS125N
SERVICE MANUAL No. 00ZFIS125NSME
FACSIMILE MODEL FO-IS125N MODEL FO-IS125N
SELECTION CODE DESTINATION U.S.A. U
CONTENTS CHAPTER 1. GENERAL DESCRIPTION [1] Caution........................................................... 1-1 [2] Specifications ................................................. 1-3 [3] Operation panel.............................................. 1-5 [4] Transmittable documents ............................... 1-6 [5] Installation ...................................................... 1-7 [6] Clearing paper jams ..................................... 1-11 CHAPTER 2. ADJUSTMENTS [1] Adjustments ................................................... 2-1 [2] Diagnostics and service soft switch ............... 2-7 [3] Troubleshooting ........................................... 2-56 [4] Error code table............................................ 2-57
CHAPTER 5. CIRCUIT DESCRIPTION [1] Circuit description ..........................................5-1 [2] Circuit description of control PWB .................5-2 [3] Circuit description of power supply PWB......5-26 [4] Circuit description of CIS unit ......................5-27 [5] Circuit description of operation panel PWB...................................5-27 [6] Data flow chart.............................................5-28 [7] Troubleshooting ...........................................5-29
CHAPTER 3. MECHANICAL DESCRIPTION [1] Mechanical description................................... 3-1 [2] Disassembly and assembly procedures....... 3-13
CHAPTER 6. CIRCUIT SCHEMATICS AND PARTS LAYOUT [1] Control PWB circuit .......................................6-1 [2] Power Supply PWB circuit...........................6-16 [3] High Voltage PWB circuit.............................6-18 [4] Operation Panel/ Hook Switch PWB circuit .............................6-21
CHAPTER 4. DIADRAMS [1] Block diagram ................................................ 4-1 [2] Wiring diagram ............................................... 4-2 [3] Point-to-point diagram.................................... 4-3
CHAPTER 7. OTHER [1] Protocol .........................................................7-1 [2] Power on sequence.......................................7-2 [3] Rewriting version up the FLASH ROM ..........7-3 Parts Guide
Parts marked with " " are important for maintaining the safety of the set. Be sure to replace these parts with specified ones for maintaining the safety and performance of the set.
This document has been published to be used for after sales service only. The contents are subject to change without notice.
FO-IS125N
CHAPTER 1. GENERAL DESCRIPTION FO-IS125N
Service Manual
[1] Caution 1. Laser caution This laser facsimile is a class 1 laser product that complies with 21CFR 1040.10 and 1040.11 of the CDRH or IEC60825-1 standard. This means that this machine dose not produce a hazardous laser radiation. The use of controls, adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. This laser radiation isn't a danger to the skin, but when an exact focusing of the laser beam is achieved on the eyes retina, there is danger of spot damage to the retina. The following cautions must be observed to avoid exposure of the laser beam to your eyes at the time of servicing. 1) When a problem in the laser optical unit has occurred, the whole optical unit must be exchanged as a unit, not an individual part. 2) Do not look into the machine with the main switch turned on after removing the toner/developer unit and drum cartridge. 3) Do not look into the laser beam exposure slit of the laser optical unit with the connector connected when removing and installing the optical system. 4) The cover of Laser Printer Unit contains the safety interlock switch. Do not defeat the safety interlock by inserting wedges or other items into the switch slot. Laser Wave Length Laser Pulse Times Laser Output Power
: 780 nm +15/-10 nm : 12.00 µs/7 mm : 0.15 mW ± 0.04mW
2. Life of consumable Section Toner cartridge Drum cartridge Paper feed Fuser Paper transport Unit
Part Replacement cartridge (FO-25ND) Replacement cartridge (FO-25DR) Transfer roller (Refer to the P/G No. 1-27) (NROLR2565XHZZ) Fusing unit (Refer to the P/G No. 6-901) (CFRM-2265XH04) Feed roller (Refer to the P/G No. 3-25) (NROLR2562XHZZ) FO-IS125N
Estimated Life 3,000 prints (at Letter/5% chart) 20,000 prints (at Letter/5% chart) 50,000 prints
Replaced by User User Service Engineer
50,000 prints
Service Engineer
Cleaning as needed
-
5 years or 50,000 prints of early either
-
1–1
FO-IS125N 3. Caution for Battery replacement
(French) ATTENTION Il y a danger d'explosion s' il y a remplacement incorrect de la batterie. Remplacer uniquement avec une batterie du même type ou d'un type recommandé par le constructeur. Mettre au rébut les batteries usagées conformément aux instructions du fabricant. (Swedish) VARNING Explosionsfare vid felaktigt batteribyte. Använd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera använt batteri enligt fabrikantens instruktion. (German) Achtung Explosionsgefahr bei Verwendung inkorrekter Batterien. Als Ersatzbatterien dürfen nur Batterien vom gleichen Typ oder vom Hersteller empfohlene Batterien verwendet werden. Entsorgung der gebrauchten Batterien nur nach den vom Hersteller angegebenen Anweisungen.
(Danish) ADVARSEL ! Lithiumbatteri-Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandoren. (English) Caution ! Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Discard used batteries according to manufacturer's instructions. (Finnish) VAROITUS Paristo voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti.
4. Precautions for using Lead-Free Solder
1. Employing lead-free solder This model employs lead-free solder. This is indicated by the "LF" symbol printed on the PWB and in the service manual. The suffix letter indicates the alloy type of the solder. Example:
Indicates lead-free solder of tin, silver and copper. 2. Using lead-free solder When repairing a PWB with the "LF" symbol, only lead-free solder should be used. (Using normal tin/lead alloy solder may result in cold soldered joints and damage to printed patterns.) As the melting point of lead-free solder is approximately 40°C higher than tin/lead alloy solder, it is recommended that a dedicated bit is used, and that the iron temperature is adjusted accordingly. 3. Soldering As the melting point of lead-free solder (Sn-Ag-Cu) is higher and has poorer melting point (flow), to prevent damage to the land of the PWB, extreme care should be taken not to leave the bit in contact with the PWB for an extended period of time. Remove the bit as soon as a good flow is achieved. The high content of tin in lead free solder will cause premature corrosion of the bit. To reduce wear on the bit, reduce the temperature or turn off the iron when it is not required. Leaving different types of solder on the bit will cause contamination of the different alloys, which will alter their characteristics, making good soldering more difficult. It will be necessary to clean and replace bits more often when using lead-free solder. To reduce bit wear, care should be taken to clean the bit thoroughly after each use.
1–2
FO-IS125N
[2] Specifications Print specifications Toner cartridge yield* (continuous printing, 5% page coverage, letter paper): Drum cartridge yield* (continuous printing, 5% page coverage, letter paper): Paper tray capacity:
Initial starter cartridge (included with machine): Approx. 1500 pages Replacement cartridge (FO-25ND): Approx. 3000 pages Initial starter cartridge (included with machine): 20,000 pages (average) Replacement cartridge (FO-25DR): 20,000 pages (average) Letter: Approx. 250 sheets (20-lb. copier paper at room temperature; maximum stack height should not be higher than the line on the tray) Legal: 100 sheets Recommended paper weight: 20-lb. Copy Bond Printer type: Laser Print resolution: 600 x 600 dpi (dots per inch) Effective printing width: 8.2" (208 mm) max. PC print speed: 12 ppm (pages per minute) *The yields may vary depending on coverage and operating conditions.
Fax specifications Memory capacity*: Modem speed: Transmission time*: Compatibility: Compression scheme: Applicable telephone line: Reception modes: Scanning resolution:
Approximately 500 average pages 33,600 bps with auto fallback to lower speeds. Approx. 3 seconds ITU-T (CCITT) Super G3, G3 mode MR, MH, MMR Public switched telephone network AUTO, MANUAL Horizontal: 203 lines/inch (8 lines/mm) Vertical: Standard: 98 lines/inch (3.85 lines/mm) Fine /Halftone: 196 lines/inch (7.7 lines/mm) Super fine: 391 lines/inch (15.4 lines/mm) Halftone (grayscale): 64 levels Contrast control: Automatic/Dark selectable *Based on Sharp Standard Chart at standard resolution, excluding time for protocol signals (i.e.,ITU-T phase C time only).
Network and general specifications Automatic document feeder: Input document size:
Effective scanning width: Storable transmission destinations: Telephone function: Copy function: Network interface: Network frame type: Network protocol: Supported operating systems: Scan to E-mail: Scan to Network Folder: Global Address Search: User authentication: File formats: Display: Power requirements: Power consumption: Operating temperature: Humidity:
Letter/A4: 30 sheets max. (20-lb. paper) Legal: 5 sheets max. Automatic feeding: Width: 5.8" to 8.5" (148 to 216 mm) Length (30 sheets): 5.5" to 11" (140 to 279 mm) Length (5 sheets): 5.5" to 14" (140 to 356 mm) Manual feeding: Width: 2.75" to 8.5" (70 to 216 mm) Length: 5.5" to 14" (140 to 356 mm) 8.2" (208 mm) max. Rapid Keys: 36 Speed Dial numbers: 114 Yes (cannot be used if power fails) Single/Multi/Sort (up to 99 copies per page) 10 Base-T, 100 Base-TX IEEE802.2/IEEE802.3 Ethernet II TCP/IP Windows® 2000, XP, Vista (Printer driver also supports Windows® Server 2003) Yes Yes Yes (requires LDAP server) Yes TIFF (G4), PDF (G4) LCD display, 20 digits x 2 lines 120 V AC, 60 Hz Standby: 8.6 W, Maximum: 690 W 50 - 86°F (10 - 30°C) 25 - 85% RH
1–3
FO-IS125N Dimensions (without attachments):
Weight (with attachments):
Width: 16.8" (426 mm) Depth: 16.1" (410 mm) Height: 8.2" (208 mm) Approx. 15.6 lbs. (7.1 kg)
As a part of our policy of continuous improvement, SHARP reserves the right to make design and specification changes for product improvement without prior notice. The performance specification figures indicated are nominal values of production units. There may be some deviations from these values in individual units.
Tradmark information • Microsoft, Windows and Internet Explorer are trademarks of Microsoft Corporation in the U.S.A. and other countries.
1–4
FO-IS125N
[3] Operation panel
1 2 3 4
SPEAKER
HOLD
5 6
8 9 10 11 12 13 14
7
SPEED DIAL REDIAL
GLOBAL ADDRESS
FUNCTION
RECEPTION
RESOLUTION
RELEASE
INFO
SYMBOL
15
16
Note: Affix the Rapid Key labels as shown above.
1. SPEAKER key: Press to listen to the line and fax tones through the speaker when faxing. Note: This is not a speakerphone. It cannot be used for speaking. 2. HOLD key: Press to put a phone call on hold. 3. SPEED DIAL key: Press to select a fax or e-mail destination stored in a 3-digit Speed Dial number. 4. REDIAL key: Press to automatically redial the last number dialed. 5. SCAN TO E-MAIL key: Press to send a document to
an e-mail recipient. 6. SCAN TO FOLDER key: Press to send a document to
a folder on a computer on the same network as the machine, or to an FTP server. 7. Display: This displays messages to help you operate the machine. 8. GLOBAL ADDRESS key: Press to search for a destination in a global address book on an LDAP server. 9. LINE IN USE light key: This lights up when the machine is using the phone line to send or receive a fax. 10. SECURE key: Press to set up and use the security functions of the machine. 11. RECEPTION key: Press to select the reception mode (AUOT or MANUAL) for receiving faxes. The selected mode will appear the the display. 12. FUNCTION key: Press this key followed by the arrow keys to select special functions and settings.
Letter keys
1 23
5
4
DEL
B'CAST
6
INFO
DUPLEX
17 18 19 20 21 22
23
13. COPY/HELP key: When a document is in the feeder,
press to make a copy. At any other time, press to print the Help List. 14. STOP key: Press to cancel an operation before it is completed. 15. Number key: Use these keys to dial numbers, and enter numbers when storing transmission destinations. 16. Rapid keys/Letter keys: A fax number, e-mail address, on network folder can be stored in each of these keys for one-touch selection (attach the Rapid Key labels). When entering text, the keys are used as letter keys. 17. BROADCAST key: Press to send to multiple fax or email destinations. 18. INFO key: Press to check various types of machine information. 19. DUPLEX key: Use to scan two-sided documents for transmission and copying. 20. RESOLUTION key: When a document is in the feeder, press to adjust the scanning resolution for transmission. 21. RELEASE key: When a fax has been received to memory instead of being printed out because the Secure Fax function has been activated, press this key to enter the Secure code and print out the fax. 22. START key: Press after dialing to send a fax. 23. Arrow key: Use to scroll through and select settings, and to search for stored destinations.
1. DEL key: Press to delete the character marked by the cursor. When the cursor is to the right of a line of text, press to backspace and clear characters. (The cursor can be moved by pressing
or
.) To delete all entered characters, hold
down until all characters are cleared. 2. Caps Lock key: Press to enter upper case letters. Press again to return to lower case letter entry. 3. SHIFT key: Hold down while pressing a letter key to temporarily change case. 4. Letter keys: Use to enter letters. 5. @ key, .com key: Press to conveniently enter "@" and ".com" when entering an e-mail address.
6. SYMBOL key: Hold down while pressing a letter key to enter the symbol that appears on the right side of the key.
1–5
FO-IS125N
[4] Transmittable documents
4. Cautions on Transmitting Documents
1. Document Sizes Normal size
Width Length
148 - 216 mm 140 - 297 mm
(Max.) (Max.) A4 size
(Min.)
356mm
•
Ink, glue, and correcting fluid on documents must be dry before the documents can be transmitted.
•
All clips, staples and pins must be removed from documents before transmission.
•
Patched (taped) documents should be copied first on a copier and then the copies used for transmission.
•
All documents should be fanned before insertion into the feeder to prevent possible double feeds.
Number of pages that can be placed into the feeder at as follows: Letter/A4: 30 sheets max. (20lb. paper)
216mm [Normal size]
Legal: 5 sheets max.
216mm [Special size]
Use document carrier sheet for smaller documents. •
Documents written in yellow, greenish yellow, or light blue ink cannot be transmitted.
5. Automatic Document Feeder Capacity
297mm
140mm 70mm [Special size]
•
•
Temperature: 50 ~ 86°F (10 ~ 30°C)
•
Humidity: 25 ~ 85%
NOTE: •
When you need to send or copy more pages than the feeder limit, place additional pages in feeder when last page in feeder is being scanned.
•
Place additional pages carefully and gently in feeder. If force is used, double-feeding or a document jam may result.
With special sizes, only one sheet can be fed into the machine at a time. Insert next page into feeder as current page is being scanned.
2. Paper Thickness & Weight
Weight indication Thickness indication Document size
Indication Metric system indication Metric system indication Document size Range
Number of ADF sheets
Document size Weight
Paper quality
Kind
Product specifications Lower Limit Upper Limit 52g/m2 80g/m2 0.06mm
6. Readable Width & Length The readable width and length of a document are slightly smaller than the actual document size.
0.1mm
Note that characters or graphics outside the effective document scanning range will not be read.
Minimum (148mm x 70mm) A4 (210mm x 297mm) Letter (216mm x 279mm) Legal (216mm x 356mm) Minimum ~ Letter/A4 size 30sheets Legal 5 sheets More than 90 kg Below 135 kg 1 sheet Paper of fine quality/bond paper/ Kent paper
•
Readable width 8.2” (208mm), max
3. Document Types •
Readable width
Normal paper Documents handwritten in pencil (No. 2 lead or softer), fountain pen, ball-point pen, or felt-tipped pen can be transmitted.
•
This is the length of the document sent minus 0.16”(4mm) from the top and bottom edges.
Documents of normal contrast duplicated by a copying machine can also be transmitted. •
Diazo copy (blue print)
•
Diazo copy documents of a normal contrast may be transmitted.
•
Carbon copy
Readable length
0.16"(4mm)
Readable length
A carbon copy may be transmitted if its contrast is normal.
0.16"(4mm)
1–6
FO-IS125N
[5] Installation
3. Attaching the tray 1) Attach the paper tray.
1. Site selection Take the following points into consideration when selecting a site for this model. ENVIRONMENT •
The machine must be installed on a level surface.
•
Keep the machine away from air conditioners, heaters, direct sunlight, and dust.
•
Provide easy access to the front, back, and sides of the machine. In particular, keep the area in front of the machine clear, or the original document may jam as it comes out after scanning.
•
The temperature should be between 50 - 86°F (10 - 30°C).
•
The humidity should be between 25% and 80% (without condensation).
ELECTRICITY AC 120 V, 60Hz, grounded AC (3-prong) outlet is required.
2) Attach the document feeder tray and the received document tray.
Caution! •
Connection to a power source other than that specified will cause damage to the equipment and is not covered under the warranty.
•
If your area experiences a high incidence of lightning or power surges, we recommend that you install a surge protector for the power and telephone lines. Surge protectors can be purchased at most telephone specialty stores.
Insert the trays at an angle and rotate back.
If the machine is moved from a cold to a warm place... Condensation may form on the reading glass if machine is moved from a cold to a warm place, this will prevent proper scanning of documents for transmission. Turn on the power and wait approximately 2 hours before using machine. TELEPHONE JACK A standard telephone jack must be located near the machine. This is the telephone jack commonly used in most homes and offices. •
The language is unclear in this part. Perhaps it could say: 3) Attach the document exit tray.
"Plugging the fax machine into a jack which is not a standard analog telephone jack, may result in damage to the machine or your telephone system."
After inserting the tray, flip out the extension.
2. Connecting the handset
1–7
FO-IS125N 4. Connecting the power cord
7. Connecting the machine to your network
Plug the power cord into a 120 V, 60 Hz, grounded AC (3-prong) outlet.
To use the Scan to E-mail and Scan to Folder functions, and to use the machine as a printer, you must connect the machine to an Ethernet network. In addition, to use Scan to E-mail, the network must have an Internet connection. A typical setup is shown below.
•
Do not plug the power cord into any other kind of outlet. This will damage the machine and is not covered under the warranty.
The machine is connected using an Ethernet cable (not included). Please purchase a 10Base-T/100Base-TX straight-through (regular) cable. Connect one end of the cable to the LAN port on the machine. Connect the other end to a LAN port on your switch or hub. Cable/DSL modem
Internet LAN cable WAN port LAN cable LAN cable
5. Connecting the telephone line cord
LAN cable
LAN ports (Hub/Switch)
Insert one end of the line cord into the socket on the back of the machine marked TEL. LINE. Insert the other end into a wall telephone socket.
Router
•
If you are uncertain which port to connect the cable to, see the manual for the router, switch or hub.
•
The connections can be made with all devices powered on. To communicate on your network, the machine must have an IP address. To set the machine’s IP address and configure other network settings.
8. Installing the toner cartridge and drum cartridge The laser printer in the machine uses a toner cartridge and a drum cartridge. •
The starter toner cartridge included with the machine can print approximately 1500 letter-size pages at 5% page coverage.
•
When replacing the toner cartridge, use a SHARP FO-25ND toner cartridge. One cartridge can print about 3000 letter-size pages at 5% coverage.
•
The drum cartridge can print approximately 20,000 letter-size pages. When replacing the drum cartridge, use a SHARP FO25DR drum cartridge.
Follow the steps below to install the toner cartridge and the drum cartridge. Note: The quality of the toner cartridge is guaranteed for 18 months after the date of manufacture indicated on the package. The quality of the drum cartridge is guaranteed for 24 months after the date of manufacture indicated on the package.
The machine is initially set for tone dialing. If you are on a pulse dial line, change the “DIAL MODE” setting.
6. Affixing the rapid key labels
1) Open the top cover of the machine.
Affix each strip of Rapid Key labels above each row of letter keys as shown in the panel illustration.
Caution! The fusing unit inside the print compartment becomes very hot during operation. Do not touch the inside of the print compartment after the machine has been in operation.
1–8
FO-IS125N 2) Press the release (
1
) and open the front cover (
2
7) Grasp the cartridge handle and insert the toner cartridge into the print compartment, sliding it along the guides.
).
2
1
3) Open the side cover.
Grasp this handle to insert the cartridge. •
Make sure the cartridge “clicks” into place.
•
Do not touch the roller in the toner cartridge.
8) Close the side cover ( cover (
3
1
), the front cover (
2
), and the top
).
4) Remove the new drum cartridge from its packaging.
3
5) Insert the drum cartridge into the print compartment, sliding it along the guides.
Grasp this handle to push the cartridge in.
1 2
•
Make sure the side cover is completely closed. Otherwise, light may enter the print compartment and damage the drum.
•
The display will show: [TONER EXCHANGED?] / [1 = NEW, 2 = OLD]
9) If you installed a new toner cartridge, press •
Do not touch or allow other objects to contact the drum (the green cylinder). This may damage the drum. If fingerprints, dust, or other contaminants get on the drum, wipe it gently with a clean cloth.
•
Exposure to light for more than several minutes will damage the drum. Be sure to insert the drum cartridge promptly into the machine.
•
If you find it necessary to leave the cartridge out of the machine for more than several minutes, wrap the cartridge in black paper.
to select NEW
(this will reset the toner counter to zero). •
If you temporarily removed and then replaced an old toner cartridge for maintenance or other reason,
press to con-
tinue using the previous toner count. (Note: Be sure to press or the machine will not alert you when the toner cartridge is out of toner.) 10)Press
6) Remove the new toner cartridge from its packaging. Shake the cartridge side to side four or five times to distribute the toner evenly within the cartridge.
START
.
11)If you installed a new drum cartridge, reset the drum counter as explained below.
1–9
FO-IS125N 9. Resetting the drum counter
3) Push the paper plate back.
Each time you install a new drum cartridge, follow the steps below to reset the drum counter to zero. 1) Press
and then
INFO
2) Press
until [LIFE] appears in the display.
, then
until [CLEAR DRUM COUNTER]
appears. • 3) Press
START
.
10. Manually resetting the toner counter When a new toner cartridge is installed, the toner counter is reset in Step 9 on the previous page. The procedure below is normally not necessary; however, it can be used in the event that you need to reset the toner counter manually. 1) Press
and then
INFO
2) Press
until [LIFE] appears in the display.
, then
until [CLEAR TONER COUNTER]
appears. 3) Press
START
.
11. Loading printing paper You can load letter or legal size paper in the paper tray. Maximum number of sheets (20-lb. copy bond paper at room temperature) Letter: Approx. 250 sheets Legal size: 100 sheets Caution! Do not use the blank side of paper that has already been printed on. 1) Fan the paper, and then tap the edges against a flat surface to even the stack.
2) Pull the paper plate forward
1
adjust it to the width of the paper the tray, print side up
3
1
. Squeeze the paper guide and . Insert the stack of paper into
2
.
3
2
•
Maximum stack height should not be higher than the line on the paper guide.
1 – 10
If you loaded legal size paper (or you changed the paper size), change the paper size setting as explained.
FO-IS125N
[6] Clearing paper jams
4) Close the operation panel, pressing down firmly on both sides to make sure it clicks into place.
1. Clearing a jammed document If the original document doesn’t feed properly during transmission or copying, or [DOCUMENT JAMMED] appears in the display, first try pressing
START
. If the document doesn't feed out, remove it as
explained below. 1) Open the operation panel.
2. Clearing jammed printing paper 1) Open the top cover of the machine.
2) Rotate the lever so that it points straight up and pull it up ( Remove the document (
2
1
).
).
2
• 1
Caution! The fusing unit inside the print compartment becomes very hot during operation. Do not touch the inside of the print compartment after the machine has been in operation.
2) Press the release (
1
) and open the front cover (
2
).
2
1
3) Make sure the left end of the roller is inserted correctly in its holder (
1
), and then push the right end of the roller down (
rotate the lever back down (
3
2
) and
2
). 1
1
3) Push the two heater roller release levers down to release the heater roller.
2
3
1 – 11
FO-IS125N 4) If the jammed paper is protruding from the front of the machine, gently pull it out. Take care not to tear the paper or leave any torn pieces of paper in the print compartment.
•
If this clears the jam, go to Step 5.
•
If you are unable to clear the jam in this way, go to Step 4.
•
Take care not to touch or allow other objects to contact the drum (the green cylinder). This may damage the drum.
5) If the jammed page cannot be pulled out directly, open the side cover and rotate the white knob in the direction shown to feed out the jammed paper.
6) After the jammed paper has been removed, push the two heater roller release levers back up (
1
), close the side cover (
you opened it), close the front cover ( top cover (
4
2
) (if
) and then the close the
3
).
3
1
2
1 – 12
FO-IS125N
CHAPTER 2. ADJUSTMENTS FO-IS125N
Service Manual
[1] Adjustments 1. General description Since the following adjustments and settings are provided for this model, make adjustments and/or setup as necessary.
2. Adjustments of output voltage (FACTORY ONLY) 1. Install the power supply unit in the machine. 2. Set the recording paper and document. 3. When the document is loaded, power is supplied to the output lines. Confirm that outputs are within the limits below.
Output
CNPW
CNLNJ
CNTEL
CNSP
CNLAN
2.1. Output voltage settings
10
CONTROL PWB(TOP SIDE) CNFM CNSL
CNTXM
CNMM
CNPM
CNLSR
CNHV
CNCIS
CNPOUT
CNRTH
CNPIN
CNPN CNTNR
23.04V~24.96V
+24VMAIN
23.04V~24.96V (INTERLOCK SWITCH OFF: 0V)
Ach
STAND BY 4.3V~5.9V RATED Connector
1
Voltage limits
+24VSUB
4.3V~6.3V CNPW
Pin No.
CN3
1
+24VSUB
2
MG
3
MG
4
+24VMAIN
5
+24VMAIN
6
DG
7
Ach(4VD)
8
DG
9
HEATER ON
10
ZC
Connector
CN5
Pin No.
POWER SUPPLY PWB(TOP SIDE)
10 CN3 1
CN1 CN2 2
1
INTERLOCK SWITCH
2
3 1
1
+24VMAIN
2
N.C.
3
+24VS
Connector 1
AC NEUTRAL
2
N.C.
3
AC LIVE
Pin No.
FUSING UNIT
2–1
CN1
Pin No.
Connector
CN5
THERMAL FUSE-2
1
CN2
1
+24VSUB
2
+24VMAIN
FO-IS125N 3. High voltage power check 3.1. General Note: Since the parts of this PWB cannot be supplied, change it as a unit.
CAUTION DO NOT TOUCH! (VR1, VR51)
CAUTION HIGH VOLTAGE AREA MAX. 4000V (THICK LINE)
CAUTION DO NOT TOUCH! (VR31)
CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous.
CAUTION HIGH VOLTAGE AREA MAX. 4000V (THICK LINE)
CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous.
2–2
FO-IS125N 3.2. MC Voltage Check Point
GND (-) (J3 or Chassis Frame)
MC Voltage Check Point (-) (There is danger of an electric shock!) Use Measuring instrument: Input Resistance : more than 100 MΩ Maximum Voltage : more than 2 kV VOLTAGE MC : - 950 V ± 20 V (PRINTING) MC : - 850 V ± 20 V (CLEANING)
CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous.
1) MC Voltage
Time(s) Type
Tolerance
-570V
± 67V
-950V
± 20V
-1330V ± 67V Voltage(v)
300Hz
2–3
FO-IS125N 3.3. TC Voltage Check Point
GND (-) (J3 or Chassis Frame)
TC Voltage Check Point (+) (There is danger of an electric shock!) Use High Voltage Tester: Requirement of Measuring instrument: Input Resistance : more than 100 MΩ Maximum Voltage : more than 5 kV VOLTAGE TC (+) : + 3600 V ± 72 V (PRINTING) TC (-) : - 500 V ± 50 V (CLEANING)
CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous.
1) TC Voltage
Voltage(v) Type
Tolerance
-3980V -3600V -3220V
Time(s) 300Hz
2–4
± 72V
FO-IS125N 3.4. SV/DV Voltage Check Point and SV (-) Voltage Adjustment Volume
GND (-) (J3 or Chassis Frame)
DV Voltage Check Point (+) VOLTAGE DV (+) : + 300 V ± 5 V (CLEANING) DV (-) : - 200 V ± 5 V (PRINTING)
SV Voltage Check Point (+) VOLTAGE SV (+) : + 300 V ± 15 V (CLEANING) SV (-) : - 400 V ± 15 V (PRINTING) CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous.
2–5
FO-IS125N 4. IC Protectors Replacement
5. Power Supply Unit Replacement
ICPs (IC Protectors) are installed to protect the Optical (LSU) unit, Printer motor drive circuit, Solenoid drive circuit and Scanner motor drive circuit. ICPs protect various ICs and electronic circuits from an overcurrent condition.
[SECONDARY]
The location of ICPs are shown below: F2
CN3
F101
[PRIMARY]
F500/F501/F600:Bottom side
F1
F301 T1 TRANSFORMER
CNLAN CNPN
CNPOUT
CNTNR
F300:Top side
1
1) F1 (K7135AS007): AC250V/10A is installed in order to protect overcurrent by heater circuit breakdown.
CNSP
CNPIN
2) F2 (K7144AR005): HTM250V/4A is installed in order to protect overcurrent by primary circuit breakdown.
CNTEL
3) F101 (K7144AR005): HTM250V/4A is installed in order to protect overcurrent by breakdown of +24V line.
CNRTH
4) F301 (K7144AR002): HTM250V/2A is installed in order to protect overcurrent by breakdown of Ach line.
CNCIS
CNHV
CNLSR
Caution: Don’t use fuse except for rating above.
CONTROL PWB(TOP SIDE)
6. Volume Adjustment You can adjust the volume of the speaker, handset, and ringer using the up and down arrow keys. 1. Speaker volume
F300 1) Press
CNPM
2) Press
F500 CNMM F600 CNTXM
F501
CNSL
•
CNLNJ
SPEAKER
. or
to select HIGH, MIDDLE, or LOW.
To turn off the speaker, press again.
2. Handset
CNFM
1) When talking through the handset, press
CNPW
or
to
select HIGH, MIDDLE, or LOW. •
1) F300 (KAB5002 251) is installed in order to protect IC’s from an overcurrent generated in the IC302 circuit. If F300 is open, replace it with a new one.
Note: The volume reverts to MIDDLE each time you replace the handset.
3. Ringer
2) F500 (KAB2402 402) is installed in order to protect IC’s from an overcurrent generated in the Printer motor drive circuit. If F500 is open, replace it with a new one.
1) Press
or
OFF. (Make sure
3) F501 (KAB5002 321) is installed in order to protect IC’s from an overcurrent generated in the Solenoid driver circuit. If F501 is open, replace it with a new one.
to select HIGH, MIDDLE, LOW or SPEAKER
has not been pressed, the handset is
not lifted, and a document is not loaded in the feeder.) •
4) F600 (KAB3202 801) is installed in order to protect IC’s from an overcurrent generated in the Scanner motor drive circuit. If F5 is open, replace it with a new one.
The ringer will ring once at the selected level.
2) If you selected “OFF OK?” to turn off the ringer, press
Replacement parts KAB3202 801 (Sharp code: QFS-L1037YCZZ) KAB5002 251 (Sharp code: QFS-L2021XHZZ) KAB2402 402 (Sharp code: QFS-L2025XHZZ) KAB5002 321 (Sharp code: QPRTR2001XHZZ)
2–6
START
.
FO-IS125N
[2] Diagnostics and service soft switch 1. Entering the diagnostic mode
2. Diagnostic items description 2.1. SOFT SWITCH MODE
9 Press FUNCTION display will appear alternately.
8
7 , and the following
In this mode, the soft switches are set and the soft switch list is printed.
2.1.1 Operation
: ROM version
ROM:TF78
Soft switch mode screen
Then press the START key. Select the desired item with the UP key and the DOWN key or select with the rapid key. Enter the mode with the START key.
SOFT SWITCH MODE SW123=00100100
(Diag • specifications) FUNCTION
UP
9
8
DIAG MODE
7
ROM:TF78
COUNTRY NAME
Switch No. 1 2 3 4 5 6 7 8: Data No.
START
START
SOFT SWITCH MODE
START
ROM & RAM CHECK
2.1.2 Switch number selection and data setting
START
AGING MODE
START
PANEL KEY TEST
1. Enter three digits of a soft switch number to set the switch number. Of a switch number of unexacting soft switch is entered, key error buzzer sounds to reject the input.
START
CHECK PATTERN
START
SIGNAL SEND MODE
START
SIGNAL SEND MODE2
START
MEMORY CLEAR
START
SHADING MODE
START
AUTO FEEDER MODE
START
FLASH MEM. CHECK
START
MEMORY SET MODE
START
CIS ADJUST
START
SHARP CHART MODE
START
5% CHART
START
ASF AGING
START
PASSCODE LIST
START
LIFE SET MODE
START
LIFE CLR MODE
SW12 =
SW1 =
SW =
[2] key
[1] key
SW123=00100100 [3] key
Cursor position
2. Press [START] key moves the cursor to the data number 1 of the former soft switch. If the switch number is the final, pressing [START] key will exit the soft switch mode. SW124=00000000
SW123=01100000
[START] key
SW125=00000000 [START] key
3. Data number selection a) Pressing [>] or [#] key moves the cursor to the right. If the cursor is on data number 8, pressing [>] or [#] key shifts the cursor to data number 1 of the next switch number. If the switch number is the final, pressing [>] or [#] key will exit the soft switch mode. SW123=01100000
SW123=01100000 [>] or [#] key
SW124=00000000
With the cursor on data 8 [>] or [#] key
[>] or [#] key
SW124=00000000
b) Pressing [<] or [ ] key moves the cursor to the left. If the cursor is on data number 1, pressing [<] or [ ] key shifts the cursor to data number 8 of the former switch number. If the switch number is 001, pressing [<] or [ ] key do not move the cursor.
DOWN
SW124=00000000
SW124=00000000 [<] or [ ] key
SW123=01100000
With the cursor on data 1 [<] or [ ] key
[<] or [ ] key
SW123=01100000
c) Pressing [UP] or [4] key moves the cursor to the data number 1 of the next soft switch. If the switch number is 001, pressing [UP] or [4] key shifts the cursor to data number 1. SW125=00000000
SW124=00000000 [UP] or [4] key
SW123=01100000 [UP] or [4] key
d) Pressing [DOWN] or [6] key moves the cursor to the data number 1 of the former soft switch. If the switch number is the final, pressing [down] or [6] key will exit the soft switch mode. SW123=01100000
SW124=00000000 [DOWN] or [6] key
2–7
SW125=00000000 [DOWN] or [6] key
FO-IS125N 2.4. PANEL KEY TEST
e) Pressing [8] key moves the cursor to the data number 1 of the 10th former soft switch. SW103=00000000
SW113=00011010
SW123=01100000 [8] key
This is used to check whether each key is normally operated or not. After the test, the test result will be printed.
[8] key
Press any key except [STOP] key. At this time, the name of each key will be displayed every push of the key.
f) Pressing [2] key moves the cursor to the data number 1 of the 10th next soft switch.
[2] key
PANEL KEY TEST
SW143=01100000
SW133=01000000
SW123=01100000
1
[2] key
[1] key
[2]Key
2.1.3 Data setting 2
Press the [1] key, and the data to the position of the cursor will be changed to 1. Press the [0] key, and the data to the position of the cursor will be changed to 0.
To finish this mode, press [STOP] key
2.1.4 Outputting method of soft switch list
2.1.5 Storage of data
ALL KEY OK !!
In the following cases, the data if the soft switches set will be stored. It is shifted to set the next soft switch by pressing [START] key.
•
If is shifted to set the former soft switch with the [<] or [UP] or [4] key.
•
It is shifted to set the next soft switch with the [>] or [DOWN] or [6] key.
•
If is shifted to set the 10th former soft switch with the [8] key.
•
It is shifted to set the 10th next soft switch with the [2] key.
Then the screen will be all displayed in black (refer to (2))and the test result will be printed. b) If any key skipped, the following message will be displayed.
KEY ERROR !!
2.2. ROM & RAM CHECK
A key name that is not pressed yet is displayed so that this test can be continued.
To check the sum value of Firmware or RAM. No. 1 2
Main
Device ROM (PROGRAM FLASH) SDRAM
Go to a) or b).
a) When all keys can be inputted, the following message will be displayed.
In the soft switch mode, press [COPY/HELP] key, and the soft switch list will be printed.
•
..... (other key)
SPEAKER [SPEAKER] key
Alarm Buzzer 1 time 3 times
At that time, pressing the [STOP] key will exit this mode. And the result will be printed.
Remarks
After pressing the [STOP] key, the whole black screen appears and the LED lights.
2.2.1 Display DIAG MODE ROM & RAM CHECK
WAIT A MOMENT
SDRAM : OK
Start checking by pressing [START] key
2.5. CHECK PATTERN PRINTING
1 sheet of check patterns is printed.
2.2.2 Result printing
DIAG MODE CHECK PATTERN
After checking, the results print starts.
2.3. AGING MODE A total of 10 sheets of check patterns are printed at 1-hour intervals. This mode is exited when executed to the end (after 9 hours) or by pressing the [STOP] key. DIAG MODE AGING MODE
Start by pressing the [START] key
1 sheet of check pattern is printed
AGING MODE Display during the aging mode interval
2–8
Start by pressing the [START] key
PRINTING
FO-IS125N 2.6. SIGNAL SEND MODE
2.8. MEMORY CLEAR
The specified signals are transmitted in the following sequence to check the modem.
Clear the back-up memory including the soft switches, registration data. After executing this mode, the memory clear report is printed.
1. Press the [START] key, and no signals with the loop state starts.
Note: The printer/scanner life information is not cleared.
[1] [2] [3] [4] [5] [6]
No signals (making the loop) 14400BPS (V. 17) 12000BPS (V. 17) 9600BPS (V. 17) 7200BPS (V. 17) 9600BPS (V. 29)
[7] [8] [9] [10] [11] [12]
7200BPS (V. 29) 4800BPS (V. 27ter) 2400BPS (V. 27ter) 300BPS (FLAG) 2100Hz (CED) 1100Hz (CNG)
Start by pressing the [START] key
DIAG MODE MEMORY CLEAR
MEMORY CLEARING
PRINTING
2.9. SHADING MODE Shading waveforms are stored.
DIAG MODE SIGNAL SEND MODE
Set a shading sheet and press the [START] key to start shading.
[START] Key [START] Key
[START] Key
V. 17
CML ON
SIG SEND MODE
Start by pressing the [START] key
DIAG MODE SHADING MODE
14400bps
TOTAL SHADING
[START] Key [START] Key
V. 17
7200bps
V. 17
[START] Key
9600bps
V. 17
[START] Key
9600bps
Inserting and discharging the document can check the auto feeder.
[START] Key
[START] Key
V. 29
2.10. AUTO FEEDER MODE
12000bps
V. 29
V. 27ter
7200bps
1. The information of document sensor (A4 sensor) and ORG sensor is displayed when the documents are inserted to the Auto Feeder. Press the [START] key, and feeding documents is started.
4800bps
[START] Key [START] Key
2100 Hz (CED TONE)
[START] Key
V. 27ter
FLAG (300bps)
2400bps
[START] Key
DIAG MODE AUTO FEEDER MODE
1100 Hz (CNG)
[START] key without document
AUTO FEEDER MODE A4 (A4 ) 1
2. Press [STOP] key to exit the mode.
1. When pressing the [START] key, it turns into the no-signal state (make loop). Then signals are sent in the following order by pressing the [START] key. No signals (making the loop) 33600bps (V. 34bis) 31200bps (V. 34bis) 28800bps (V. 34) 26400bps (V. 34) 24000bps (V. 34) 21600bps (V. 34) 19200bps (V. 34)
[9] [10] [11] [12] [13] [14] [15] [16] [17]
[START] Key
V. 34
24000bps
[START] Key
28800bps
V. 34
V. 34
21600bps
[START] Key
V. 34
12000bps
[START] Key
V. 34
9600bps
V. 34
[START] Key
V. 8
ANSam
[START] Key
V. 34
14400bps
V. 21
Be sure to clear the memory after execution. DIAG MODE FLASH MEM. CHECK [START] key
FLASH CHECK PRESS START or STOP [START] key Start
WAIT A MOMENT 33600bps [START] Key
PRINTING
31200bps
19200bps [START] Key
16800bps
[START] Key
[START] Key
V. 34
The result is printed after completion of check.
[START] Key
[START] Key
V. 34
Read/write of the flash memory is checked.
16800bps (V. 34) 14400bps (V. 34) 12000bps (V. 34) 9600bps (V. 34) 7200bps (V. 34) 4800bps (V. 34) 2400bps (V. 34) 0-300bps (V. 21) ANSam
V. 34
CML ON
V. 34
2.11. FLASH MEM. CHECK
[START] Key
[START] Key
[START] Key
26400bps
AUTO FEEDER MODE ( ) 1
Used to display the number of fed sheets.
A V.34 & V.8 related signal send mode. The check of the modem and other devices is performed by sending these specific signals.
V. 34
AUTO FEEDER MODE A4 (A4 ORG) 1
Only the sensor that is activated is displayed.
2.7. SIGNAL SEND MODE2
DIAG MODE SIGNAL SEND MODE2
AUTO FEEDER MODE ( ) 0
Set document
2. Pressing the [START] key during transmitting CNG signal, or pressing the [STOP] key will stop the output of signal and exit the mode.
[1] [2] [3] [4] [5] [6] [7] [8]
[START] key without document
V. 34
7200bps
[START] Key
0 - 300bps
V. 34
4800bps [START] Key
2400bps
2. When pressing the [START] after sending the ANSam signal or the [STOP] key while executing the mode, the signal output is stopped and the indication before starting the next mode (MEMORY CLEAR) appears.
2–9
Next daig mode [STOP] key
FO-IS125N 2.12. MEMORY SET MODE
2.17. PASSCODE LIST
It is possible to read or write the memory contents.
Used to print the passcode (SECURE FAX, etc.).
When 8 digits of physical address are entered, the data of that address is displayed. When 2 digits of data are entered after entering 8 digits of address and a key is pressed, the contents can be rewritten.
2.18. LIFE SET MODE
Rewriting is enabled only in the range of addresses 00000000 to 007FFFFF.
A mode for checking or setting the life value of each operation. Enter the count value (10-digit number) of the set life using the numeric keypad.
If the memory is rewritten, the machine may malfunction. DIAG MODE MEMORY SET MODE
DIAG MODE LIFE MODE
[START/MEMORY] key
MEMORY SET MODE xxxxxxxx= [ ]
[START] Key
Address entry screen
LIFE=0000000099 [DOWN] Key
The contents of the memory are displayed in hex number and character code.
[DOWN] Key
LIFE=0000000231
[DOWN] Key
[START] Key
DRUM
LIFE=0000000231
[DOWN] Key
Press the [STOP] key on the address entry screen to exit the mode.
[START] Key
LIFE=0000000231
TONER PAGE [DOWN] Key
2.13. CIS ADJUST
[START] Key
DOT COUNT=1234567890
TONER DOTCOUNT
In this mode, the position of Scanner motor is moved from the home position up to the specified value. And document reading lamp is turned on.
This counter shows the printer usage status (number of printed sheets after starting use, etc.). The counter cannot be reset by normal memory clear. Therefore, if the memory contents on the control PWB are destroyed when repairing it, this counter setting must be cleared in addition to normal memory clear.
DIAG MODE CIS ADJUST [START] key
Press the [STOP] key to exit the mode.
CIS ADJUST MODE [START] key
2.19. LIFE CLR MODE
The motor will move to the specified position and the reading lamp is lit on.
A mode for clearing the life value.
Press the [STOP] key to exit the mode.
2.14. SHARP CHART MODE
DIAG MODE LIFE CLR MODE
SHARP CHART is printed continuously. Start by pressing the [START] key
[START] Key
SHARP CHART AGING TOTAL PAGE 1
CLEARED [DOWN] Key
[START] Key
[DOWN] Key
[START] Key
SCAN
2.15. 5% CHART
CLEARED
PRINT
5% CHART is printed continuously.
[DOWN] Key Start by pressing the [START] key
5% CHART AGING TOTAL PAGE 1
CLEARED [START] Key
DRUM [DOWN] Key
Press the [STOP] key for interruption.
CLEARED [START] Key
TONER When clearing "TONER", "TONER PAGE" and "TONER DOT COUNT" are also cleared.
2.16. ASF AGING The recording paper is fed continuously. Start by pressing the [START] key
[START] Key
ALL
Press the [STOP] key for interruption.
DIAG MODE ASF AGING
JAM=0000000001 [START] Key
PRINT
• Change of memory contents: 2-digit entry in hex number • Move down the address of the referenced memory by one: [<] or [UP] key • Move up the address of the referenced memory by one: [>] or [DOWN] key • Dump list print: [COPY/HELP] key • Back to the address entry screen: [STOP] key
DIAG MODE 5% CHART
[START] Key
SCAN JAM
Character Hex number code
DIAG MODE SHARP CHART MODE
[START] Key
SCAN
Entry of memory address (8 digits)
MEMORY SET MODE 1234ABCD=4C [L]
PRINTING
Start by pressing the [START] key
DIAG MODE PASSCODE LIST
ASF AGING
Press the [STOP] key for interruption.
2 – 10
CLEARED
FO-IS125N 3. How to make soft switch setting To enter the soft switch mode, press the following key entries in sequence.
Press FUNCTION 9
8
7
START
START
0
0
1
DATA No. 1 2 3 4 5 6 7 8 SW001 = 0 0 0 0 0 0 0 0 SW001 = 1 0 0 0 0 0 0 0 SW001 = 1 0 0 0 0 0 0 0 SW001 = 1 0 0 0 0 0 0 0 SW001 = 1 0 0 0 0 0 0 0
Press 1 or 0 key. Press
or < key.
Press
or > key.
Bit1 - 8 are set.
Press
SW002 = 0 0 0 0 0 0 0 0 SW300 = 0 0 0 0 0 0 0 0
START
key during setting.
Soft SW002 - SW300 are set. To finish the settings halfway between SW001 and SW300, press the STOP key. In this case, the setting being done to the SW No. on display will be nullified while settings done to the preceding SW No. remain in effect. When the COPY/HELP key is pressed, the contents of soft switches are printed.
The soft switch mode is terminated.
2 – 11
FO-IS125N 4. Soft switch description 4.1. Soft switch SW NO.
DATA NO.
ITEM Receive mode
SW 1
SW 2
SW 3
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7
SW 4
8 1 2 3 4 5 6 7 8 1 2 3 4 5
No.1 No.2 Reserved Reserved Reserved Reserved Sort copy function Reserved Forced 4800BPS reception CED tone signal interval
Yes (Sort)
No
Yes No.2 No.3
Reserved Reserved Reserved Footer print Reserved Reserved CSI transmission Action when RTN is received Reserved Pulse format DIS receive acknowledgement during G3 transmission Non-modulation carrier for V29 transmission mode Default file format for network scan Protocol monitor Line monitor Reserved Sender's information transmit Reserved Reserved H2 mode ECM mode ECM MMR mode Signal transmission level
Switch setting and function 1 0 AUTO MANU. 0 0 0 1
75ms 0 0
500ms 0 1
No 750ms 1 0
1000ms 1 1
Yes
No
Not transmitted No communication error
Transmitted Communication error
N+1 Twice Yes
N NSF: Once DIS: Twice No
PDF Yes Yes
TIFF No No
No
Yes
No No No
Yes Yes Yes
Binary input No. = 8 4 2 1 2 3 4 5 (Data No.) EX 1 1 0 1
SW 5
Initial setting 0 0 1 0 0 0 0 0 0
Remarks RECEPTION key
OPTION
0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 1
e-mail setting
eg. -13dBm 6 7 8
Reserved Reserved Key tone
Off
On
2 – 12
0 1 0
OPTION
FO-IS125N SW NO.
DATA NO. 1 2 3 4
Switch setting and function
ITEM
1
Initial setting 0 1 0 1
0
Recall interval (FAX)
Binary input No. = 8 4 2 1 1 2 3 4 (Data No.) EX 0 1 0 1
Remarks Setting: N = 1 to 9
eg. 3 minutes SW 6
5 6 7 8
Recall times (FAX)
0 0 1 1
Binary input No. = 8 4 2 1 5 6 7 8 (Data No.) EX 0 0 1 1
Setting: N = 1 to 9
eg. 5 times
SW 7
SW 8
SW 9
SW 10
SW 11
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5
Reserved Reserved Dial mode Reserved Reserved CNG detection Number of CNG detection Time format Modem speed(Except V.34 mode)
Pulse
Tone
Yes 3 pulses 24hours
No 2 pulses 12hours-AM/PM No.2 No. 3 0 0 0 1 0 1 0 0
V.29 9600bps V.29 7200bps V.27ter 4800bps V.27ter 2400bps Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Polling key setting Polling security Date format Reserved Reserved Reserved Reserved Reserved Communication results printout
Yes Yes Month-Day-Year
Reserved Activate receive fax to e-mail
3 4 5 6 7 8
Activate secure receive Reserved Reserved Call restriction Reserved Reserved
On
Off
On
Off
2 – 13
No. 4 1 1 0 0
No No Day-Month-Year
No. 6 0 0 0 1 1
Error Only Error/Memory Transmission Not Printed Every Time
6 7 8 1 2
No. 1 0 0 0 0
0 0 0 1 0 1 0 0
No. 7 0 0 1 0 1
No. 8 1 0 0 0 0
1 0 0 0 0 0 0 0 1 1 0 0 1 0 1 1 0 0 0 0 0
OPTION ENTRY mode
OPTION
0 0 1 0 0 0 0 0 0 0 0
Fax to e-mail/ Folder SECURITY
SECURITY
FO-IS125N SW NO.
DATA NO. 1 2
Switch setting and function
ITEM
1
Reserved Reserved 25sec 0 1
5sec 1 0
5sec 1 0
100ms 110ms 120ms 135ms 140ms 150ms 180ms 200ms
No. 1 0 0 0 0 1 1 1 1 No. 4 0 0 0 0 1 1 1 1
No. 2 0 0 1 1 0 0 1 1 No. 5 0 0 1 1 0 0 1 1 33/67
No. 3 0 1 0 1 0 1 0 1 No. 6 0 1 0 1 0 1 0 1
800ms 840ms 880ms 900ms 1000ms Not used Not used Not used
No. 1 0 0 0 0 1 1 1 1
No. 2 0 0 1 1 0 0 1 1 No
No. 3 0 1 0 1 0 1 0 1
EOL detection timer SW 12
3 4 5 6 7 8
No. 3 No. 4
70ms 90ms 95ms 100ms 110ms 120ms 140ms 150ms DTMF OFF time
4 5 6 7 8
SW 14
SW 15
SW 16
13sec 0 0
Reserved Reserved Reserved Reserved DTMF ON time
1 2 3 SW 13
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
0
Make/Break ratio in DP Reserved Inter digit pause time
Change to PB from DP by " Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
40/60
" Key
Yes
2 – 14
Initial setting 0 0 0 0 0 0 0 0 0
0 1 1
0 1 0 1 0
0 0 0 1 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 17
SW 18
SW 19
SW 20
SW 21
SW 22
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
Switch setting and function
ITEM Reserved Reserved Reserved Reserved Reserved Reserved Automatic reduce of receive Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Send hold DTMF output level (High)
1
100%
Auto
Yes
No
Binary input 16 8 4 2 1 1 2 3 4 5 (Data No.) EX 0 1 1 0 1 eg. Signal transmission level is set to -10dBm
No. =
Reserved Reserved Reserved DTMF output level (Low)
Binary input 16 8 4 2 1 1 2 3 4 5 (Data No.) EX 1 0 0 0 1 eg. Signal transmission level is set to -10dBm
No. =
Reserved Reserved Reserved Dial tone detection frequency 280 - 520Hz 380 - 500Hz 300 - 600Hz Reserved Reserved Reserved Reserved Reserved
1 2 3 Busy tone detection frequency
4 5 6 7 8
0
520 - 640Hz 300 - 600Hz 380 - 500Hz 520 - 640Hz Reserved Reserved Reserved
2 – 15
No. 1 0 0 1 0 0 1 1 1 No. 4 0 0 1 1
No. 2 0 0 0 1 1 0 1 1 No. 5 0 1 0 1
No. 3 0 1 0 0 1 1 0 1
Initial setting 1 0 0 0 0 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 1 0 0
0 1 1 0 1 0 0 0
1 0 0 0 1 0 0 0
0 0 1
0 0 0 0 0
Remarks
OPTION
SECURITY
FO-IS125N SW NO.
DATA NO.
Switch setting and function
ITEM
1
Initial setting
0
Number of rings for auto-receive (0:No ring receive)
SW 23
SW 24
SW 25
SW 26
SW 27
SW 28
Binary input No. = 8 4 2 1 1 2 3 4 (Data No.) EX 0 1 0 0
1 2 3 4
eg. Number of rings for auto-receive is set to 1. Distinctive ring
5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
0 1 0 0
No. 5 0 0 1 0 1 0 1
OFF STD RING1 RING2 RING3 RING4 RING5 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 16
No. 6 0 0 0 1 1 0 0
No. 7 0 0 0 0 0 1 1
No. 8 0 1 0 0 0 0 0
0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 29
SW 30
SW 31
SW 32
SW 33
SW 34
SW 35
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 17
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 1 0 0
Remarks
FO-IS125N SW NO.
SW 36
DATA NO. 1 2 3 4 5 6 7 8 1 2
SW 37
3 4
Switch setting and function
ITEM Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Delay timer before line connect in auto dial Delay timer after line connect in auto dial
1
No. 1 No. 2 No. 3 No. 4
Calling time No. 5 No. 6
5 6 CNG timing
SW 38
SW 39
SW 40
7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2
SW 41
3 4 5 6 7 8
Dial tone detection (before auto dial) Busy tone detection (after auto dial) Recall control (for FCC Part68) Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Paper Size
No. 7 No. 8 On On On
No. 7 No. 8 Reserved Dial pause Line density selection
Activity report print Daylight saving Print setting of received fax for Fax to e-mail Reserved
0sec 0 0 1.7sec 0 0 45sec 0 0 3.5sec 0 0
0
1.5sec 0 1 3.0sec 0 1 90sec 0 1 1.5sec 0 1
LETTER 0 0
A4 0 1
4sec STANFINE DARD No. 3 0 0 No. 4 0 1 Yes (When memory full) No Print at error
3.0sec 1 0 3.6sec 1 0 55sec 1 0 3.0sec 1 0 Off Off Off
LEGAL 1 0 2sec S-FINE
Initial setting 0 0 0 0 0 0 0 0 0 0
4.0sec 1 1
0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1
LETTER 1 1
STANDARD 1 1 0 1 No (First data is cleared when memory full) Yes Always print
0 0 0 0
0 0 0 1 0 0
2 – 18
Remarks
OPTION
OPTION LETTER/ LEGAL only
OPTION FINE/STANDARD only OPTION OPTION Fax to e-mail/ Folder
FO-IS125N SW NO.
SW 42
DATA NO. 1 2 3 4
No. 3 No. 4 Speaker volume
7 8 1 2 3 4 5 6 7 8 1 2 3
No. 5 No. 6
SW 46
SW 47
4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
OFF 0 0 LOW 0 0
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved CI signal min. off time
0
LOW 0 1 LOW 0 1
MIDDLE 1 0 MIDDLE 1 0
HIGH 1 1 HIGH 1 1
Initial setting 0 0 0 1 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0
No. 4 0 0 0 0 1 1 1 1
200ms 300ms 350ms 400ms 500ms 700ms 1200ms Not used
SW 44
SW 45
1
Reserved Reserved Ringer volume
5 6
SW 43
Switch setting and function
ITEM
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 19
No. 5 0 0 1 1 0 0 1 1
No. 6 0 1 0 1 0 1 0 1
1 0 1 0 1 0 0 0 1 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 1 1 0 0 0
Remarks
FO-IS125N SW NO.
SW 48
SW 49
SW 50
SW 51
SW 52
SW 53
SW 54
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 20
0
Initial setting 0 0 1 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 1 1 0 0 0 1 1 0 1 1 0 1 1 0 0 1 0 0 0 1 1 0 0 1 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 55
SW 56
SW 57
SW 58
SW 59
SW 60
SW 61
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
Switch setting and function
ITEM Reserved Reserved Digital cable equalizer for reception Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved CNG detection time after ringing
1
Yes
No
No. 5 No. 6
20sec 0 0
10sec 0 1
30sec 1 0
No limit 1 1
No. 4 No. 5
60min. 0 0
30min. 0 1
5min. 1 0
1min. 1 1
Reserved Reserved Reserved Reserved Reserved Pop server access interval
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved CED detection time MH fixed Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
0
500ms Yes
1000ms No
2 – 21
Initial setting 0 0 0 0 1 0 0 0 0 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 62
SW 63
SW 64
SW 65
SW 66
SW 67
SW 68
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
Switch setting and function
ITEM Digital cable equalizer for transmission Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
1 Effective
0 Not effective
Initial setting 0 0 0 0 0 0 0 0 0 1 0 0 0 1 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 1 0 0 0 1 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0
2 – 22
Remarks
FO-IS125N SW NO.
SW 69
SW 70
SW 71
SW 72
SW 73
SW 74
SW 75
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 23
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 76
SW 77
SW 78
SW 79
SW 80
SW 81
SW 82
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
Switch setting and function
ITEM Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Error criterion Toner empty print Reserved Drum life over Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
1
0
10~20% Print
5~10% Not print
Printer error
Printer warning
2 – 24
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 83
SW 84
SW 85
SW 86
SW 87
SW 88
SW 89
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 25
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 90
SW 91
SW 92
SW 93
SW 94
SW 95
SW 96
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 26
0
Initial setting 0 0 0 0 0 0 0 0 1 0 1 0 0 0 0 1 0 0 0 1 0 1 0 0 0 1 0 1 0 1 0 1 0 1 0 0 1 0 0 0 0 0 1 0 0 1 0 0 1 1 0 0 0 0 1 0
Remarks
FO-IS125N SW NO.
SW 97
SW 98
SW 99
SW 100
SW 101
SW 102
SW 103
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 27
0
Initial setting 0 1 1 0 1 1 0 0 0 1 0 0 1 0 0 0 0 1 0 1 0 0 1 0 0 1 1 0 0 1 0 0 0 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 104
SW 105
SW 106
SW 107
SW 108
SW 109
SW 110
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 28
0
Initial setting 0 0 0 0 0 0 0 0 1 0 1 1 0 0 0 0 0 0 1 0 1 1 1 0 0 0 0 1 0 0 0 0 0 0 0 0 0 1 0 0 1 1 0 0 0 1 0 0 0 0 0 0 0 1 0 0
Remarks
FO-IS125N SW NO.
SW 111
SW 112
SW 113
SW 114
SW 115
SW 116
SW 117
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 29
0
Initial setting 0 0 1 1 0 0 0 0 1 0 0 1 0 1 0 0 0 0 0 1 1 0 1 0 0 0 0 0 0 0 0 0 1 1 1 0 0 0 0 0 0 0 1 0 0 0 1 1 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 118
SW 119
SW 120
SW 121
SW 122
SW 123
SW 124
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 30
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 1 0 0 0 0 0 0 0 0 0 0 1 0 1 0 1 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 125
SW 126
SW 127
SW 128
SW 129
SW 130
SW 131
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 31
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 1 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 132
SW 133
SW 134
SW 135
SW 136
SW 137
SW 138
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 32
0
Initial setting 0 0 0 1 1 0 0 1 0 1 0 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 139
SW 140
SW 141
SW 142
SW 143
SW 144
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
ITEM Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Connect configuration for LAN controller
Switch setting and function 1
Default (Auto) Full duplex 100M Full duplex 10M Auto Half duplex 100M Half duplex 10M
Reserved Reserved Reserved Reserved Reserved
2 – 33
0
No. 1 0 0 0 0 1 1
No. 2 0 0 1 1 0 0
No. 3 0 1 0 1 0 1
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 1 1 0 0 0 0 0
0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
DATA NO.
Switch setting and function
ITEM
1
Initial setting
0
1 - 15 seconds
Detect time of LAN link on
SW 145
SW 146
SW 147
SW 148
Binary input No. = 8 4 2 1 1 2 3 4 (Data No.) EX 0 1 0 0 = 4seconds
1 2 3 4
0 0 0 0
Note: "0 0 0 0" = 1 UGEQPF
1 - 15 seconds
Detect time of LAN link off
5 6 7 8 1
2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
Binary input No. = 8 4 2 1 5 6 7 8 (Data No.) EX 0 1 0 0 = 4seconds
0 0 0 0 0
Note: "0 0 0 0" = 1 UGEQPF Reserved Default resolution for network scan No. 2 No. 3
Standard 0 0
Fine
S-Fine
0 1
1 0
0 1 0 0 0 0 0 0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved DST start time-Month (1-12)
OPTION
Binary input No. = 8 4 2 1 1 2 3 4 (Data No.) EX 0 0 1 1
1 2 3 4
0 0 1 1
Set value: 1~12 DST start time-Week
5 6 7 8
Remarks
No. 5 No. 6 No. 7 No. 8
1st week 0 0 0 1
2 – 34
2st week 0 0 1 0
3st week 0 0 1 1
4st week 0 1 0 0
Last week 0 1 0 1
OPTION 0 0 1 0
FO-IS125N SW NO.
DATA NO.
Switch setting and function
ITEM
1
DST start time-Day of week
SW 149
No. 1 0 0 0 0 1 1 1
Sunday Monday Tuesday Wednesday Thursday Friday Saturday
1 2 3
No. 2 0 0 1 1 0 0 1
Initial setting
0 No. 3 0 1 0 1 0 1 0
OPTION
0 0 0
DST start time-Hour
Binary input 16 8 4 2 1 4 5 6 7 8 (Data No.) EX 0 0 0 1 0 Set value: 0~23
No. =
4 5 6 7 8
0 0 0 1 0 1 0 1 1
DST end time-Month (1-12)
SW 150
Binary input No. = 8 4 2 1 1 2 3 4 (Data No.) EX 1 0 1 1
1 2 3 4
OPTION
Set value: 1~12 DST end time-Week No. 5 No. 6 No. 7 No. 8
5 6 7 8
1st week 0 0 0 1
DST end time-Day of week
SW 151
Remarks
Sunday Monday Tuesday Wednesday Thursday Friday Saturday
1 2 3
2st week 0 0 1 0 No. 1 0 0 0 0 1 1 1
3st week 0 0 1 1 No. 2 0 0 1 1 0 0 1
4st week 0 1 0 0 No. 3 0 1 0 1 0 1 0
Last week 0 1 0 1
OPTION 0 0 0 1 OPTION
0 0 0
DST end time-Hour
Binary input 4 5 6 7 8 1 2 3 4
SW 152
No. =
16 8 4 2 1 4 5 6 7 8 (Data No.) EX 0 0 0 0 1 Set value: 0~23
FTP mode set User control Authentication method Authorized transmission To be authenticated
5 6 Notice to the sender
7 8
Enable Yes Login name & password Yes Fax and Fax only e-mail No. 5 0 0 No. 6 0 1 After After auth. auth. and after sending fax No. 7 0 0 No. 8 0 1
2 – 35
Disable No User number No e-mail Fax and only e-mail 1 1 0 1 No After notice auth.
1 0
1 1
0 0 0 0 1 0 0 0 0
SECURITY SECURITY SECURITY SECURITY
0 0 SECURITY
0 0
FO-IS125N SW NO.
DATA NO.
ITEM Automatic elimination
SW 153
SW 154
SW 155
SW 156
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3
SW 157
4 5 6 7 8
Search method by right and left key Warning when login fails Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved V.34 mode function V.34 mode function in case of manual communication V.34 control channel communication speed Reserved Reserved Reserved Reserved Reserved V.34 mode transmission speed
No. 1 No. 2 Fax data Enable
Switch setting and function 1 0 After 3 After 24 Not After 3 hours hours deleted hours 0 0 1 1 0 1 0 1 All data Disable
Initial setting
SECURITY
On On
Off Off
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 1 0 0 0 1 1
2400bps
1200bps
0 0 0 0 0 0
Sending speed = 2400(bps) x n Example:
SW 158
1 2 3 4
2400(bps) x 12 = 28800(bps) 2400(bps) is set for N=0. 33600(bps) is set for N=15.
1 1 1 0
V.34 mode receiving speed
Receving speed = 2400(bps) x n 5 6 7 8
Example: 2400(bps) x 12 = 28800(bps) 2400(bps) is set for N=0. 33600(bps) is set for N=15.
2 – 36
Remarks
1 1 1 0
OPTION
FO-IS125N SW NO.
SW 159
SW 160
SW 161
SW 162
SW 163
SW 164
SW 165
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 37
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 0 1 1 0 1 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 166
SW 167
SW 168
SW 169
SW 170
SW 171
SW 172
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 38
0
Initial setting 1 0 0 0 1 0 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 173
SW 174
SW 175
SW 176
SW 177
SW 178
SW 179
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 39
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 180
SW 181
SW 182
SW 183
SW 184
SW 185
SW 186
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 40
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 1 0 1 0 0 1 0 0 1 1 0 1 1 0 0 0 1
Remarks
FO-IS125N SW NO.
SW 187
SW 188
SW 189
SW 190
SW 191
SW 192
SW 193
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 41
0
Initial setting 0 1 0 0 1 1 0 1 0 0 1 0 0 1 0 0 0 1 1 0 0 0 1 0 0 1 0 1 0 1 1 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 1 0 1 0 1 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 194
SW 195
SW 196
SW 197
SW 198
SW 199
SW 200
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 42
0
Initial setting 0 0 1 1 0 0 0 0 0 1 0 1 0 0 1 1 1 0 1 0 0 0 1 1 0 1 1 0 1 0 0 0 1 1 0 1 0 1 0 1 0 0 0 0 1 1 0 0 0 0 1 1 0 0 1 0
Remarks
FO-IS125N SW NO.
SW 201 l SW 210
SW 211 l SW 221
SW 222
SW 223
SW 224
SW 225
SW 226
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 43
0
Initial setting 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 1 0 1 1 0 0 0 0 0 0 1 1 1 1 1 1 0 1 1 0 0 1 0 0 1 1
Remarks
FO-IS125N SW NO.
SW 227
SW 228 l SW 229
SW 230
SW 231
SW 232
SW 233 l SW 238
SW 239 l SW 240
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 44
0
Initial setting 0 1 0 0 0 1 1 0 0 0 1 0 0 0 0 1 0 1 1 0 0 0 0 0 0 0 0 0 1 0 1 1 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 241
SW 242
SW 243
SW 244
SW 245
SW 246
SW 247 l SW 249
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Pre-heat timing Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
Switch setting and function 1
After closing data file
2 – 45
0
Receiving print request
Initial setting 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 1 0 0 0 0 1 1 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0
Remarks
FO-IS125N SW NO.
SW 250
SW 251 l SW 255
SW 256 l SW 257
SW 258
SW 259
SW 260
SW 261
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 46
0
Initial setting 0 0 1 1 1 1 0 0 1 1 1 1 1 1 1 1 1 0 1 0 1 1 1 1 1 0 1 0 1 0 1 0 0 0 1 0 1 0 0 0 0 1 0 1 0 0 0 0 0 1 1 0 0 1 0 0
Remarks
FO-IS125N SW NO.
SW 262
SW 263
SW 264
SW 265
SW 266
SW 267
SW 268
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 47
0
Initial setting 0 0 1 0 1 0 0 0 0 1 0 1 0 0 0 0 0 0 0 1 0 1 0 0 0 0 0 1 1 0 0 0 0 0 1 1 1 1 0 0 0 0 0 1 1 0 1 0 0 0 1 0 1 0 0 0
Remarks
FO-IS125N SW NO.
SW 269
SW 270
SW 271
SW 272
SW 273
SW 274
SW 275 l SW 290
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 48
0
Initial setting 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 1 1 1 1 1 1 1
Remarks
FO-IS125N SW NO.
SW 291
SW 292
SW 293
SW 294
SW 295
SW 296
SW 297
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 49
0
Initial setting 1 0 1 0 1 1 1 1 1 1 1 1 1 0 1 0 1 1 1 1 1 0 1 0 1 1 1 1 1 0 1 0 1 0 1 0 1 0 1 0 0 0 0 1 1 0 0 0 0 0 0 1 1 0 0 0
Remarks
FO-IS125N SW NO.
SW 298
SW 299 l SW 290
DATA NO. 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
ITEM
Switch setting and function 1
Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved
2 – 50
0
Initial setting 0 0 0 1 0 0 0 1 0 0 0 0 0 0 0 0
Remarks
FO-IS125N 4.2. Soft switch function description
SW3 No. 8 Default file format for network scan
SW1 No. 1, No. 2 Receive mode
SW setting the default of the compression format and the file type required for generating the image data from network scanned data.
Used to select the reception mode (AUTO or MANUAL) for receiving faxes.
SW4 No. 1 Protocol monitor
Used for sort copy.
Normally set to "0". If set to "1", communication can be checked, in case of troubles, without using a G3 tester or other tools. When communication FSK data transmission or reception is made, the data is taken into buffer. When communication is finished, the data analyzed and printed out. When data is received with the line monitor (SW-4 No. 8) set to "1" the reception level is also printed out.
SW1 No. 8 Reserved
SW4 No. 2 Line monitor
SW2 No. 1 Forced 4800bps reception
Normally set to "0". If set to "1", the transmission speed and the reception level are displayed on the LCD. Used for line tests.
SW1 No. 3 ~ No. 6 Reserved
SW1 No. 7 Sort copy function
SW4 No. 3 Reserved
When line conditions warrant that receptions take place at 4800 BPS repeatedly. It may improve the success of receptions by setting at 4800BPS. This improves the receiving document quality and reduces handshake time due to fallback during training.
SW4 No. 4 Sender’s information transmit When it is set at 0, sender’s name, sending page number and so on are automatically printed in the recording paper on the receiving side during transmission. Thus, the sender can be known on the receiving side.
SW2 No. 2, No. 3 CED tone signal interval For international communication, the 2100Hz CED tone may act as an echo suppressor switch, causing a communication problem. Though this soft switch is normally set to "0", it should be set to "1" so as to change the time between CED tone and DIS signal from 75ms to 500ms to eliminate the communication problem caused by echo.
SW4 No. 5, No. 6 Reserved
SW4 No. 7 H2 mode
SW2 No. 4 ~ No. 6 Reserved
Used to determine reception of H2 mode (15 sec transmission mode). When set to OFF, H2 mode reception is inhibited even though the transmitting machine has H2 mode function.
SW2 No. 7 Footer print
SW4 No. 8 ECM mode
When set to "1", the date of reception, the sender machine No, and the page No. are automatically recorded at the end of reception.
Used to determine ECM mode function. SW5 No. 1 ECM MMR mode
SW2 No. 8 Reserved
MMR (Modified MR) selects presence of the compression function. SW5 No. 2 ~ No. 5 Signal transmission level
SW3 No. 1 Reserved
Used to control the signal transmission level in the range of -0dB to 31dB.
SW3 No. 2 CSI transmission
SW5 No. 6, No. 7 Reserved
CSI signal contains the sender’s phone number registered in the machine. If this switch is set to "1", no sender’s name will be printed at the receiving side.
SW-5 No. 8 Key tone
SW3 No. 3 Action when RTN is received
Used to select whether or not to sound the key tone.
The operation is set when the RTN signal is received in the G3 transmission mode.
SW6 No. 1 ~ No. 4 Recall interval (FAX)
SW3 No. 4 Reserved
Choice is made for a recall interval for speed and rapid dial numbers. Use a binary number to program this. If set to 0 accidentally, 1 will be assumed.
SW3 No. 5 Pulse format
SW6 No. 5 ~ No. 8 Recall times (FAX)
Used to set the pulse number when actually dialing for the dialed number (N).
Choice is made as to how many recall times should be made. Use a binary number to program this.
SW3 No. 6 DIS receive acknowledgement during G3 transmission
SW7 No. 1, No. 2 Reserved
Used to make a choice of whether reception of NSF (DIS) is acknowledged after receiving two NSFs (DISs) or receiving one NSF (two DISs). It may be useful for overseas communication to avoid an echo suppression problem, if set to 1.
SW7 No. 3 Dial mode Switch the type according to the telephone circuit connected to the facsimile.
SW3 No. 7 Non-modulation carrier for V29 transmission mode
SW7 No. 4, No. 5 Reserved
Though transmission of a non-modulated carrier is not required for transmission by the V29 modem according to the CCITT recommendation, it may be permitted to send a non-modulated carrier before the image signal to avoid an echo suppression problem. It may be useful for overseas communication to avoid an echo suppression problem, if set to 1.
SW7 No. 6 CNG detection When setting to "1", the CNG signal detection function.
2 – 51
FO-IS125N SW7 No. 7 Number of CNG detection
SW12 No. 3, No. 4 EOL (End of Line) detection timer
Used for detection of CNG in 2 or 3 pulses.
Used to make a choice of whether to use the 25-second or 13-second timer for detection of End of line This is effective to override communication failures with some facsimile models that have longer End of line detection.
SW7 No. 8 Time format When this switch is set to "0", time is displayed in 12-hour system. When set to "1", 24-hour system.
SW12 No. 5 ~ No. 8 Reserved
SW8 No. 1 ~ No. 4 Modem Speed (Except V.34 mode) Used to determine the initial modem speed. The default is 14400BPS(V.17). It may be necessary to program it to a slower speed when frequent line fallback is encountered, in order to save the time required for the fallback procedure.
SW13 No. 1 ~ No. 3 DTMF ON time Used to set the ON time of the DTMF signal when setting the tone dial. SW13 No. 4 ~ No. 6 DTMF OFF time
SW8 No. 5 ~ No. 8 Reserved
Used to set the OFF time of the DTMF signal when setting the tone dial. SW13 No. 7 Make/Bread ratio in DP
SW9 No. 1 ~ No. 5 Reserved
Used to set the pulse make/break ratio when setting the pulse dial. SW13 No. 8 Reserved
SW-9 No. 6 Polling key setting Used to specify whether to enable or disable the polling key. SW-9 No. 7 Polling security
SW14 No. 1 ~ No. 3 Inter digit pause time
Used to specify whether to allow the polling request from the other party's machine without conditions or to allow only the request from the authorized other party's machine.
Used to set the pause time between the dial data when setting the pulse dial. SW14 No. 4 Change to PB from DP by "
SW9 No. 8 Date format
"key
Used to set the function for switching to the tone dial by entering " to ON or OFF when setting the pulse dial.
Used to select date display/print formats. 0: DAY-Month-Year
"
SW14 No. 5 ~ No. 8 Reserved
1: Month-Day-Year SW10 No. 1 ~ No. 5 Reserved
SW15 No. 1 ~ No. 8 Reserved
SW10 No. 6 ~ No. 8 Communication results printout
SW16 No. 1 ~ No. 8 Reserved
It is possible to obtain communication results after each transaction. Normally, the switch is set (No. 6: 0, No. 7: 0, No. 8: 1) so that the communication result is produced only a communication error is encountered. If No. 6 was set to 1, No. 7 was set to 1 and No. 8 was set to 0, the communication result will be produced every time a communication is done, even if the communication was successful. If No. 6 was set to 0, No. 7 to 1 and No. 8 to 0, the communication result will be produced every transmission. Setting No. 6 to 1 No. 7 to 0 and No. 8 to 0 will disable this function. No transaction report will be printed. If No. 6 was set to 0, No. 7 to 0 and No. 8 to 0, the communication result is produced only after a memory transmission or when a communication error is encountered.
SW17 No. 1 ~ No. 6 Reserved
SW17 No. 7 Automatic reduce of receive If set to 1, it is reduced automatically when receiving. SW18 No. 1 ~ No. 8 Reserved
SW19 No. 1 ~ No. 7 Reserved
SW11 No. 1 Reserved SW19 No. 8 Send hold SW11 No. 2 Activate receive fax to e-mail
Set the send hold function to ON or OFF.
The receive fax to e-mail function ON/OFF is set.
SW20 No. 1 ~ No. 5 DTMF output level (High)
SW11 No. 3 Activate secure receive
To set the level to output high group DTMF signals. -15 to 0 dBm (0.5dBm unit)
The Secure receive function ON/OFF is set.
SW20 No. 6 ~ No. 8 Reserved
SW11 No. 4, No. 5 Reserved
SW21 No. 1 ~ No. 5 DTMF output level (Low)
SW11 No. 6 Call Restriction
To set the level to output low group DTMF signals. -15 to 0 dBm (0.5dBm unit)
Used to set the call restriction function to ON or OFF. SW11 No. 7, No.8 Reserved
SW21 No. 6 ~ No. 8 Reserved
SW12 No. 1, No. 2 Reserved
SW22 No. 1 ~ No. 3 Dial tone detection frequency To select frequency range of signals to be detected as Dial Tone.
2 – 52
FO-IS125N SW22 No. 4, No. 5 Busy tone detection frequency
SW41 No. 3, No. 4 Line density selection
To select frequency range of signals to be detected as Busy Tone.
Used to set the transmission mode which is automatically selected when the Resolution key is not pressed. In the copy mode, however, the fine mode is automatically selected unless the Resolution key is manually set to another mode.
SW22 No. 6 ~ No. 8 Reserved
SW41 No. 5 Activity report print
SW23 No.1 ~ No. 4 Number of rings for auto-receive (0: No ring receive)
This soft switch is used to select: whether or not to print out the activity report when the memory is full. An activity report can be printed when the following key entry command is mode.
When the machine is set in the auto receive mode, the number of rings before answering can be selected. It may be set from zero to nine rings using a binary number. If the soft switch was set to 1, a direct connection is made to the facsimile. If it was above 9, receive rings are set to 9.
"FUNCTION ", "↓", "↓", "→" After producing the activity report, all the data in the memory will be cleared. When the switch function is set to "0" (no), the data in the memory will be deleted from the oldest as it reaches the maximum memory capacity.
SW23 No.5 ~ No. 8 Distinctive ring When the ringing setting is turned off, all of the CI signal are received. When any of the standard, and ring patterns 1 through 5 is selected for the ringing setting, only the selected CI signal is received.
SW41 No. 6 Daylight saving The daylight saving function ON/OFF is set.
CI signal patterns The CI signal patterns consists of the standard pattern, and ring patterns 1 through 7. The standard pattern is the conventional one.
SW41 No. 7 Print setting of received fax for Receive Fax to e-mail
SW24 ~ SW36 No. 1 ~ No. 8 Reserved
0: Received FAX is always printed when Receive Fax to e-mail function worked.
SW37 No. 1, No. 2 Delay timer before line connect in auto dial
1: Received FAX is printed only transfer error when Receive Fax to email function worked.
Set a time period between start of dial operation and line connection in the auto dial mode.
SW41 No. 8 Reserved
This soft switch is used to select before.
SW37 No. 3, No. 4 Delay timer after line connect in auto dial
SW42 No. 1, No. 2 Reserved
Set a time period between dial-up line connection and dial data transmission in the auto dial mode. SW37 No. 5, No. 6 Calling time
SW42 No. 3, No. 4 Ringer volume
Set the call time for dialing in the auto dial mode.
The calling sound volume of CI signal receiving is set.
SW37 No. 7, No. 8 CNG timing
SW42 No. 5, No. 6 Speaker volume
Set a time period between dialing in the auto dial mode and CNG signal transmission.
The line monitor volume is set. SW42 No. 7, No. 8 Reserved
SW38 No. 1 Dial tone detection (before auto dial) When set to "1", a number is dialed after detecting the dial tone.
SW43 No. 1 ~ No. 8 Reserved
SW38 No. 2 Busy tone detection (after auto dial) When set to "1", the busy tone is detected after dialing a number.
SW44 No. 1 ~ No. 3 Reserved
SW38 No. 3 Recall control (for FCC part68) Recalling fixed only one time when dialing was unsuccessful without detecting busy tone signal.
SW44 No. 4 ~ No. 6 CI signal min. OFF time Used to set the min. OFF time criterion of the CI signal.
SW38 No. 4 ~ No. 8 Reserved
SW44 No. 7, No. 8 Reserved
SW39 No. 1 ~ No. 8 Reserved
SW45 No. 1 ~ No. 8 Reserved
SW40 No. 1 ~ No. 6 Reserved
SW46 ~ SW54 No. 1 ~ No. 8 Reserved
SW40 No. 7, No. 8 Paper size
SW55 No. 1, No. 2 Reserved
The paper size is set. SW41 No. 1 Reserved
SW55 No. 3 Digital cable equalizer for reception Digital cable equalizer for reception
SW41 No. 2 Dial pause
0: OFF
Pauses can be inserted between telephone numbers of direct dial connection. Selection of 4 sec or 2 sec pause is available.
1: ON
2 – 53
FO-IS125N SW55 No. 4 ~ No. 8 Reserved
SW78 ~ SW143 No. 1 ~ No. 8 Reserved
SW56 No. 1 ~ No. 4 Reserved
SW144 No. 1 ~ No. 3 Connect configuration for LAN controller Used to set the communication speed when connecting to LAN. SW144 No. 4 ~ No. 8 Reserved
SW56 No. 5, No. 6 CNG detection time after ringing CNG detection time after completion of ringing.
SW145 No. 1 ~ No. 4 Detect time of LAN link ON
SW56 No. 7, No. 8 Reserved
Used to change the link ON detection time setting when inserting the LAN cable.
SW57 No. 1 ~ No. 3 Reserved
SW145 No. 5 ~ No. 8 Detect time of LAN link OFF Used to change the link OFF detection time setting when inserting the LAN cable.
SW57 No. 4, No. 5 Pop server access interval Set the access interval to the Pop server.
SW146 No. 1 Reserved
SW58 No. 1 ~ No. 7 Reserved SW146 No. 2, No. 3 Default resolution for network scan SW58 No. 8 CED detection time
Used to set the default resolution for network scan.
It is effective to change the CED auto detection time setting if detection error often occurs.
SW146 No. 4 ~ No. 8 Reserved
SW59 No. 1 MH fixed SW147 No. 1 ~ No. 8 Reserved
1: Both transmission and reception are forcibly fixed to MH. 0: Adjusted to the performance of the other party's machine.
SW148 No. 1 ~ No. 4 DST start time-Month (1~12)
SW59 No. 2 ~ No. 8 Reserved
Used to set the start month of SW-41 No. 6 Summer time (Daylight saving). SW60 No.1 ~ No. 8 Reserved
SW148 No. 5 ~ No.8 DST start time-Week Used to set the start week of SW-41 No. 6 Summer time (Daylight saving).
SW61 No. 1 ~ No. 8 Reserved
SW149 No. 1 ~ No. 3 DST start time-Day of week Used to set the start day of week of SW-41 No. 6 Summer time (Daylight saving).
SW62 No. 1 Digital cable equalizer for transmission Digital cable equalizer for transmission 0: OFF
SW149 No. 4 ~ No. 8 DST start time-Hour
1: ON
Used to set the start hour of SW-41 No. 6 Summer time (Daylight saving).
SW62 No. 2 ~ No. 8 Reserved
SW150 No. 1 ~ No. 4 DST end time-Month (1~12) Used to set the end month of SW-41 No. 6 Summer time (Daylight saving).
SW63 ~ SW76 No. 1 ~ No. 8 Reserved
SW150 No. 5 ~ No. 8 DST end time-Week SW77 No. 1 ~ No. 3 Reserved
Used to set the end week of SW-41 No. 6 Summer time (Daylight saving).
SW77 No. 4 Error criterion
SW151 No. 1 ~ No. 3 DST end time-Day of week
Used to select error criterion for sending back RTN when receiving image data.
Used to set the end day of week of SW-41 No. 6 Summer time (Daylight saving).
SW77 No. 5 Toner empty print
SW151 No. 4 ~ No. 8 DST end time-Hour
Used to specify whether or not to cancel printing when "Toner Empty" is displayed.
Used to set the end hour of SW-41 No. 6 Summer time (Daylight saving).
SW77 No. 6 Reserved
SW152 No. 1 FTP mode set Used to display the selection screen for FTP mode Passive/Active when setting up an FTP client.
SW77 No. 7 Drum life over
SW152 No. 2 User control
Used to set whether or not to cancel printing when "Drum life over" is displayed.
Used to enable the user control function. SW152 No. 3 Authorized method
SW77 No. 8 Reserved
Select an authentication method when the user control function is enabled.
2 – 54
FO-IS125N SW152 No. 4 Authorized transmission Used to enable the authorized transmission function. SW152 No. 5, No. 6 To be authenticated Used to select the communication mode using the authorized transmission function. SW152 No. 7, No. 8 Notice to the sender Used to select the result notification method to the sender using the authorized transmission function. SW153 No. 1, No. 2 Automatic elimination Used to set the elimination time of the communication data using the authorized transmission function. SW153 No. 3 Search method by right and left key Used to set the display items when displaying the other party using the right and left keys. SW153 No. 4 Warning when login fails Used to specify whether or not to give warning when login fails for the third time in a raw with the user control function enabled. SW153 No. 5 ~ No. 8 Reserved
SW154 ~ SW156 No. 1 ~ No. 8 Reserved
SW157 No. 1 V.34 mode function Used to select the V.34 mode for communication when set to “1” communication method is V.34 mode. SW157 No. 2 V.34 mode function in case of manual communication Used to select whether the V.34 mode is made valid when automatically transmitting/receiving. SW157 No. 3 V.34 control channel communication speed Used to select the control channel communication speed for V.34 mode. SW157 No. 4 ~ No. 8 Reserved
SW158 No. 1 ~ No. 4 V.34 mode transmission speed Used to determine the initial modem speed when communication method is V.34 transmission mode. SW158 No. 5 ~ No. 8 V.34 mode receiving speed Used to determine the initial modem speed when communication method is V.34 reception mode. SW159 ~ SW241 No. 1 ~ No. 8 Reserved
SW242 No. 1 ~ No. 7 Reserved
SW242 No. 8 Pre-heat timing Used to select whether to start pre-heat when starting reception or to start it after the print data is ready. SW243 ~ SW300 No. 1 ~ No. 8 Reserved
2 – 55
FO-IS125N
[3] Troubleshooting
•
Slow down the transmission speed SOFT SWITCH SW5-2, 3, 4, 5.
Refer to the following actions to troubleshoot any of the problems mentioned in 1-4.
•
Replace the LIU PWB.
•
Replace the control PWB.
•
If transmission problems still exist on the machine, use the following format and check the related matters.
May be used in case [2] [3].
[1] A communication error occurs.
May be used in all cases.
[2] Image distortion produced. [3] Unable to do overseas communication.
May be used in all cases.
[4] Communication speed slow due to FALLBACK. •
In crease the transmission level SOFT SWITCH SW5-2, 3, 4, 5. May be used in case [1] [2] [3].
•
Decrease the transmission level SOFT SWITCH SW5-2, 3, 4, 5. May be used in case [3].
•
Apply line equalization SOFT SWITCH SW5-2, 3, 4, 5. May be used in case [1] [2] [3] [4]. TO:
ATT:
Ref.No. :
CC:
ATT:
Date
:
Dept
:
Sign
:
FM:
From: Mr. Our customer
Other party
Problem mode
***** Facsimile communication problem ***** Fax Tel No.: Name Address Contact person Name Address Contact person Line: Domestic / international Reception / Transmission
Frequency: Confirmation item
Our customer
A1
A2
Ref.No.: Date:
Model: G3 Automatic reception / Manual reception Automatic dialing / Manual dialing / Others % ROM version:
Other party
B1 B2 C1
D2 C2
E1 E2
Our service
D1 Other party's service
Comment
Countermeasure
**** Please attach the G3 data and activity report on problem. **** * Please complete this report before calling the "TAC" hotline if problem still occurs.
2 – 56
Tel No. Fax No. Model name Tel No. Fax No. Model name Phase: A, B, C, D.
Please mark problem with an X. No problem is: 0. A1 A2 B1 B2 C1 C2 D1 D2 E1 E2 Transmission level setting is ( customer Transmission level ( ) dBm Reception level ( ) dBm By level meter at B1 and B2
) dB at our
FO-IS125N
[4] Error code table 1. Communication error code table 1.1. G3 Transmission Code 0 1
Final received signal Incomplete signal frame NSF, DIS
2 3 4
CFR FTT MCF
5 6 7 8
PIP or PIN RTN or RTP No signal or DCN -
11
-
12 13
-
Error Condition (Receiver side) Cannot recognize bit stream after flag Cannot recognize DCS signal by echo etc. Cannot recognize NSS signal (FIF code etc.) Disconnects line during reception (carrier missing etc.) Disconnects line by fall back Disconnects line during reception of multi page Cannot recognize NSS, DCS signal in the case of mode change The line is hung up without replying to telephone request from the receiving party. Cannot recognize NSS, DCS signal after transmit RTN or RTP signal. No response in receiver side or DCN signal received* (transmitter side) Owing to error in some page the error could not be corrected although the specified number of error retransmissions were attempted. Error occurred after or while reception by the remote (receiving) machine was revealed to be impossible. Error occurred just after fallback. Error occurred after a response to retransmission end command was received.
1.2. G3 Reception Code 0 1
Final received signal Incomplete signal frame NSS, DCS
2 3 4 5 6 7 8 9 10 11
NSC, DTC EOP EOM MPS PR1-Q No signal or DCN -
12 13
-
Error Condition (Receiver side) Cannot recognize bit stream after flag Cannot recognize CFR or FTT signal Disconnects line during transmission (line error) Cannot recognize NSS signal (FIF code etc.) Cannot recognize MCF, PIP, PIN, RTN, RTP signal Cannot recognize MCF, PIP, PIN, RTN, RTP signal in the case of mode change The line is hung up without replying to communication request. Cannot recognize PIP, PIN signal in the case of TALK request No response in transmitter (cannot recognize DIS signal) or DCN signal received* (receiver side) Error occurred upon completion of reception of all pages. Error occurred when mode was changed or Transmission/Reception switching was performed. Error occurred during partial page or physical page reception. Error occurred after or during inquiry from the remote (transmitting) machine as to whether reception is possible or not. Error occurred during or just after fallback. Error occurred after the retransmission end command was received.
2 – 57
FO-IS125N
Service CHAPTER 3. MECHANICAL DESCRIPTION FO-IS125N
[1] Mechanical description
Manual
3.2. Automatic document feed 1) The structure with secure paper feed of the transfer roller and secure separation of the separation rubber system is employed. The transfer roller is circular as to be rotated only when the paper feed roller is driven with the 2-step paper feed clutch mechanism. Moreover, the separation securely done by running the paper feed and transfer rollers more slowly than the feed roller/
1. Facsimile block 1.1. Document feed block and diagram Separate rubber
2) Document separation system:
Document
Front sensor
Separation rubber/speed reduction ratio/roller backlash separation system.
Sub feed plate ORG sensor
Last document
Send feed roller
Exit Pinch roller
Separate rubber
Feed roller Back roller
First document
CIS Exit roller Feedroller
Fig. 1
Fig. 3
2. Document feed operation
3.3. Loading the documents
1) As shown in Fig.1, the document set in the hopper (the front sensor is on) is fed with the let out roller and paper feed roller which rotate together with the pulse motor.
1) Make sure that the documents are of suitable size and thickness, and free from creases, folds, curls, wet glue, wet ink, clips, staples and pins.
2) When a specified number of pulses are received from the document sensor after the document lead edge is sensed, scanning will be started.
2) Place documents face down in the hopper.
3) When a specified number of pulses are received from the document sensor after the document rear edge is sensed, scanning will be ended to discharge the document to the tray. 4) If the front sensor is on (the document is set up in the hopper), the next document is supplied and fed nearly when the last document is completely read and discharged. If the front sensor is off (no document is set up in the hopper), the drive will be stopped when the document is discharged to the tray.
•
Adjust the document guides to the document width.
•
Align the top edge of documents and gently place them into the hopper. The first page under the stack will be taken up by the feed roller to get ready for transmission.
NOTE: 1) Curled edge of documents, if any, must be straighten out. 2) Do not load the documents of different sizes and/or thicknesses together.
3.4. Documents applicable for automatic feed
3. Hopper mechanism 3.1. General view Weight indication Thickness indication Document size
Indication Metric system indication Metric system indication Document size Range
Number of ADF sheets
Document size Weight
Paper quality
Kind
Fig. 2 The hopper is used to align documents with the document guides adjusted to the paper width. NOTE: Adjust the document guides before and after inserting the document.
Product specifications Lower Limit Upper Limit 52g/m2 80g/m2 0.06mm
0.1mm
Minimum (148mm x 70mm) A4 (210mm x 297mm) Letter (216mm x 279mm) Legal (216mm x 356mm) Minimum ~ Letter/A4 size 30sheets Legal 5 sheets More than 90 kg Below 135 kg 1 sheet Paper of fine quality/bond paper/ Kent paper
NOTE: Double-side coated documents and documents on facsimile recording paper should be inserted manually. Documents corresponding to a paper weight heavier than 90 kg and lighter than 135 kg are acceptable for manual feed. Documents heavier than 135 kg in terms of the paper weight must be duplicated on a copier to make it operative in the facsimile.
3–1
FO-IS125N 4. Paper path
Exit roller Exit Pinch roller POsensor Backup roller Send feed roller Separation rubber Front sensor
Document input
Print exit
Paper Optical unit (LSU)
Toner cartridge
Back roller Exit Pinch roller Document exit
Exit roller CIS Feed roller Drum Pick up roller Heat roller cartridge Temperature fuse/ P-IN sensor Thermistor Regist roller Transfer roller Fig. 4
3–2
FO-IS125N 5. Components layout
19 18 20 16 6
14
15
8 7 4 1
2
3
5
17 21 22 13
11 12
9 10
Fig. 5 No. 1 2 3 4 5 6 7 8 9 10 11
PARTS NAME
No. 12 13 14 15 16 17 18 19 20 21 22
Exit pinch roller Exit roller CIS Back roller Feed roller Send feed roller Front sensor Separation rubber Pickup roller P-IN sensor Regist roller
3–3
PARTS NAME Drum cartridge Transfer roller Optical unit (LSU) Toner cartridge Backup roller Heat roller Exit pinch roller Exit roller PO sensor Temperature fuse Thermistor
FO-IS125N 6. Switch/Sensor layout
5
6
7
8
4
9
3
1 2
Fig. 6 No. 1 2 3 4 5 6
PARTS NAME P-IN sensor Interlock switch Toner cartridge sensor Paper out sensor Thermistor Temperature fuse 216°C
TYPE Microcircuit Microcircuit Microcircuit Photo transistor Thermistor Thermal fuse
7
Temperature fuse 152°C
Thermal fuse
8 9
Front sensor ORG sensor
Microcircuit Microcircuit
DESCRIPTION When this switch is turned on, paper transport. Detects the opening or closing of the Front Cover. Detects when the Toner Cartridge is set. Detects when the paper is fed out. Detects the temperature on the heat roller. When the heat roller temperature rises abnormally, this fuse cuts off the power relay power line (+24 V line). When the heat roller temperature rises abnormally, this fuse cuts off the heater lamp power line. When the document is set up in the hopper, the front sensor is on. When the ORG sensor is on, the document is fed and scanning will be started.
3–4
FO-IS125N 7. Print process 7.1. Image forming process Normal paper is used as print paper. A laser beam is used to expose on the OPC surface to form latent electrostatic images, which are developed into visible images (toner images) and are transferred on paper. The basic operation is composed of the five processes: charging, exposure, development, transfer, and cleaning.
7.2. System diagram (1) High Voltage Power Supply Unit FU-EARTH 100MOHM
Heat roller
100V
Heater lamp Paper
DC: -400V
Supply Roller Voltage
Developing roller
DC: +300V
Cleaning print
Separation electrode
Paper
Photoconductor drum (OPC)
DC: +3600V (D6 Cathode)
TC
Supply roller Transfer charge roller
Print
SV
Laser Scanning Unit
Main charger brush
DC: -200V
Development Roller Voltage
Pressure roller
Laser beam
4.7MOH M 4.7MOHM
DV
Transfer Charger Roller Voltage
Toner
DC: -500V
cleaning
DC: -950V AC: -570V <--> -1330V
MC Main Charger brush Voltage
Fig. 7
7.3. System diagram (2)
FAX ENGINE
22
High Voltage PWB Unit TCON
Constant voltage control circuit
IC100
Oscillation circuit
B1 Transformer
HV(+) Rectifier circuit
Feedback circuit
21
MCON
Constant voltage(-) circuit Oscillation circuit
B51 Transformer
Feedback circuit 27
PWMSIN
PWM control circuit
250MΩ
TC
HV(-) Rectifier circuit
Constant voltage(+) circuit
Fig. 8
3–5
Transfer Roller OPC DRUM
HV(-) Rectifier circuit
Short protection circuit Constant voltage control circuit
Logic circuit
LASER MFP 110MΩ
CONTROL PWB
Separation electrode SV DV
Short circuit MC
FU-EARTH
Supply Roller Developing Roller Doctor Charger Roller
Heat Roller Pressure Roller
FO-IS125N 7.4. Image forming process diagram
Scanning mirror High voltage circuit
Mirror
Main charger brush
Exposure
Lens
Laser diode
Toner
Cleaning, Charge Development cleaning
Developing roller
Paper exit
Fusing
Separation Transfer Separation sheet
Heat roller Pressure roller
High voltage circuit
Transfer roller
High voltage circuit Heater lamp Fig. 9
3–6
Paper feed roller
Paper tray
Paper
FO-IS125N 7.5. Functions and operations of major parts
7.5.2 Developing unit Latent electrostatic images formed by laser beam on the OPC drum are developed to visible images by the developing unit. Toner is filled in the developing unit.
Paper
Optical unit(LSU)
a. Developing roller The developing roller is made of silicon and has a high electric resistance. It is flexible and is in close contact with the OPC drum. Toner on the developing roller is attached to latent electrostatic images on the OPC drum to form visible images on the OPC drum.
7 2
A voltage of DC-220V is applied the developing roller.
5
b. Doctor The doctor is in close contact with the developing roller. It adjusts toner quantity on the developer roller surface. The doctor is made of conductive material.
Toner
c. Toner supply roller 3
1
6
Toner is supplied to the developing roller by the sponge roller which is connected to the developing roller.
4
7.5.3 Transfer charger roller
Fig. 10 1 2 3 4
Developing roller Doctor Toner supply roller Transfer roller
5 6 7
The transfer charger roller is made of urethane and has a high electric resistance. It is flexible and is in close contact with the OPC drum.
Separation sheet OPC drum Main charger brush
A high voltage of AC 760V (P-P) and DC +3600V are applied to charge. It positively charges paper transported from the paper feed section, which transfers negatively charged toner on the OPC drum onto the paper.
7.5.1 OPC drum unit The OPC drum is charged and latent electrostatic images are formed on it and developed into visible toner images.
7.5.4 Separation sheet
a. OPC drum
This sheet is connected to the drum ground. It discharges paper which was positively charged in the transfer section to reduce the potential difference with the OPC drum to reduce static electricity between the paper and the OPC drum, thus facilitating separation of paper.
Latent electrostatic images are formed and developed into toner images on the OPC drum. Organic Photo Conductor is used. The OPC surface is charged negatively by the main charger brush. When the OPC is exposed to laser beam, the electric resistance of the exposed section falls and electric charge is generated in the OPC. As a result, electric charge on the OPC surface is removed. This principle is used to form latent electrostatic images.
OPC layer
CTL (Charge transfer layer) CGL (Charge generation layer) Aluminum layer
Fig. 11
b. Main charger brush The main charger brush charges the OPC drum surface. It is composed of brush fiber, and is in the shape of a roller. A high voltage of AC 760V (P-P) and DC-950V are applied to charge the brush. The main charger brush is in contact with the OPC drum. BY applying electric charge to the OPC drum, the OPC drum is charged to about DC-900V.
3–7
FO-IS125N 7.6. Image forming operation STEP 1 (Cleaning, Charging):
STEP 2 (Exposure):
Residual toner the OPC drum is stirred and negative charges are scattered evenly on the OPC drum. (The OPC drum surface is evenly charged.)
Laser beam scanning light corresponding to the print data is radiated on the OPC drum.
Positive and negative charges are generated in the OPC drum CGL exposed with the laser beam. Positive charges generated in the CGL are attracted toward the OPC drum surface (negative charges), and negative charges toward the aluminum layer (positive charges).
The main charger is a rotating brush roller.
Therefore, the positive and negative charges neutralize each other in the laser-exposed area of the OPC drum surface and the aluminum layer, decreasing the potential of the OPC drum surface.
The main charger removes residual toner from the OPC drum by its rotating sweeping action and causes it to stick to the brush. At the same time, a high voltage of -950V is applied to the main charger roller to generate a discharge of electricity between the roller and the OPC drum, generating positive and negative charges. The negative charges are attracted to the OPC drum, and evenly distributed on the OPC drum. (The OPC drum surface is evenly charged.)
The area which is not exposed to laser beam has no change, and the OPC drum surface remains negatively charged to keep a high potential. As a result, latent electrostatic images are formed on the OPC drum.
Laser beam Main charger brush
Exposed area
Non-exposed area
Residual toner CTL CGL Aluminum layer (Drum base)
AC760V (P-P) OPC drum
CTL
Aluminum layer (drum base)
CGL
DC-950V CTL CGL Aluminum layer (Drum base)
Fig. 12 Fig. 13
3–8
FO-IS125N STEP 3 (Development):
On the other hand, when an area of OPC drum which was not exposed to the laser beam and did not lose its charge comes in contact with the developing roller, any residual toner attached to the OPC drum is transferred to the developing roller which is more positively charged.
Toner is attached to the latent electrostatic images on the OPC drum to form visible images.
As a result, unnecessary toner on the OPC drum is collected by the developing unit. The operating principle for that case is contrary to that for transfer of toner from the developing roller to the OPC drum surface. (The electric field energy direction is contrary.) STEP 4 (Transfer):
Visible images of toner on the OPC drum are transferred to the paper.
: Toner (Negatively charged) Aluminum layer (Drum base) CTL CGL -400V Toner supply roller
DC-200V
Exposed area (exposed to laser beam) Non-exposed area (Not exposed to laser beam)
CTL CGL
OPC drum
DC -200V
Paper
Aluminum layer (Drum base)
Developing roller
OPC drum Fig. 14 Toner is transported to the scraper area by the toner supply roller and the developing roller. The quantity of toner to be transported to the doctor section is controlled by the scraper. Toner transported to the doctor section is then passed between the developing roller and the doctor to form a thin toner layer on the developing roller by the pressure applied by the doctor. When toner passes between the developing roller and the doctor, it is charged negatively by friction.
Transfer roller
When an area of OPC drum which was exposed to laser beam and lost its charge comes in contact with the developing roller, toner moves from the developing roller to the OPC drum surface.
DC+3600V AC760V(P-P)
The principle of toner movement from the developing roller to the OPC drum surface is as follows. The bias voltage of DC-220V is applied to the developing roller. Toner is charged negatively by the difference (electrical energy) between the bias voltage and the OPC drum surface potential and is attracted to the OPC drum surface which is positively charged.
Fig. 15 The high voltage of DC+3600V plus AC760V (P-P) is applied to the transfer roller to generate electric discharge between the roller and the OPC drum, generating positive and negative charges. Positive charges are attracted to the OPC drum and attached to the paper transported between the transfer roller and the OPC drum. Therefore the paper has a strong positive charge.
At that time, the potential of the area of the OPC drum which was exposed to the laser beam and lost its charge is higher than that of the developing roller.
Negatively charged toner on the OPC drum is attracted by the paper which is positively charged, and the visible images of toner are transferred onto the paper.
3–9
FO-IS125N STEP 5 (Paper separation):
The paper is separated from the OPC drum.
STEP 6 (Discharge):
The drum surface is discharged to facilitate cleaning of the drum surface. (The remaining toner is easily collected by the main charger roller.)
Main charger roller (brush)
Paper
Separation sheet OPC drum AC760V (P-P)
Aluminum layer (Drum base)
Residual toner
CGL CTL
DC-950V OPC drum
Transfer roller
Fig. 16 There is an electrostatic force between the paper which is positively charged in transfer operation and the OPC drum which is negatively charged. The positive charge on the paper is released to the separation electrode, which is the same potential as the aluminum layer of the OPC drum, to reduce the potential difference between the OPC drum and the paper, reducing the electrostatic force.
Aluminum layer (Drum base) CGL CTL
This operation facilitates separation of the paper from the OPC drum. Fig. 17 STEP 7 (Cleaning):
Residual toner on the OPC drum is removed.
The main charger is a rotating brush roller. The main charger removes residual toner from the OPC drum by its rotating sweeping action and causes it to stick to the brush. The main charger brush is in close contact with the mesh-type brush cleaning plate which removes toner and paper dust from the main charger brush mechanically.
3 – 10
FO-IS125N 7.7. OPC drum surface potential 7.7.1 Transition of OPC drum surface potential by print operation
Laser beam
-250V
OPC surface potential (-V)
-950V
Dark area potential
Toner attachment potential
-180V
Developing bias
OPC drum surface potential (-V)
7.7.2 OPC drum surface potential and developing bias voltage in development
Start
During developing Dark area potential
Developing bias
Light area potential Time (OPC drum rotation angle)
Light area potential
Charging/ cleaning
Exposure Residual Transfer toner collection /Developing
Charging
Timer(OPC drum rotating angle)
Fig. 19
Fig. 18
3 – 11
Stop
FO-IS125N 8. Timing chart 8.1. Print process
PRINT PROCESS Signal Name
MCON Signal PWMSIN Signal
TCON Signal
Pre-Printing period
Soft Control
max 5.0sec
PMD (Polygon motor) MM (Main motor) MC (Main charger)
DC
MC (Superposing) (Duty)
After Printing period
Printing period
3.0sec
One or more page printing
AC
DC
5sec
TC (Transfer Charger) SV (Supply Roller Voltage)
5sec
2sec
Laser Lighting (discharge) Lighting
Lighting
Printing
High Voltage Power Supply Unit MC Output
MC (Main charger) GND
Voltage MC TC Output
TC (Transfer Charger) Voltage TC(+) GND Voltage TC(-)
SV Output
SV (Supply Roller Voltage) Voltage SV(+) GND Voltage SV(-)
DC(-950V)+AC(760Vp-p) DC(+3600V)+AC(760Vp-p) DC(-500V) DC(+300V) DC(-280V) 1 CLEANING
CLEANING
PRINTING
8.2. Cleaning process
CLEANING PROCESS Soft Control
MCON Signal PWMSIN Signal
TCON Signal
3.0sec
max 5.0sec
PMD (Polygon motor) MM (Main motor) MC (Main charger)
DC
MC (Superposing) (Duty)
7sec
TC (Transfer Charger) SV (Supply Roller Voltage) Laser Lighting (discharge)
Lighting High Voltage Power Supply Unit MC Output
MC (Main charger) GND DC(-850V) Voltage MC
TC Output
TC (Transfer Charger) Voltage TC(+) GND
SV Output
Voltage TC(-)
DC(-500V)
SV (Supply Roller Voltage) Voltage SV(+)
DC(+300V)
GND Voltage SV(-)
CLEANING
3 – 12
FO-IS125N
[2] Disassembly and assembly procedures •
This chapter mainly describes the disassembly procedures. For the assembly procedures, reverse the disassembly procedures.
•
Easy and simple disassembly/assembly procedures of some parts and units are omitted. For disassembly and assembly of such parts and units, refer to the Parts List.
•
The numbers in the illustration, the parts list and the flowchart in a same section are common to each other.
•
To assure reliability of the product, the disassembly and the assembly procedures should be performed carefully and deliberately.
1. Top cabinet
Parts list (Fig. 1)
NOTE: For disassembly of the inside of the unit, refer to the exploded view in the parts guide.
2
No.
Part name Mechanism unit
2
Screw (3x10)
4
3
Screw (3x8)
2
4
Hook
6
5
Connector
1
6
Top cabinet
1
3
2
4
2 3
4
2
4
4 6 Top cabinet 4
4 5
Control PWB
1 Mechanism unit
Fig.1
3 – 13
Qty
1
1
FO-IS125N 2. Motor cover/Handset holder unit/Bottom cabinet
Parts list (Fig. 2)
NOTE: For disassembly of the inside of the unit, refer to the exploded view in the parts guide.
No.
Qty
No.
1
Mechanism unit
1
6
Connector
2
Screw (3x10)
1
7
Handset holder unit
1
3
Hook
2
8
Screw (3x10)
5
4
Motor cover
1
9
Screw (2.6x8)
1
5
Screw (3x10)
3
10
Bottom cabinet
1
5 5
Part name
Part name
Qty 1
7 Handset holder unit 8
5
8 8
Control PWB
8
6
Open 8 Left cover
Push Power Supply PWB Front 9
Rear
1 Mechanism unit
Open
Stop wire
Left cover Screwdriver 4 Motor cover 10 Bottom cabinet Front
3 4 Motor cover
3 Rear
2
9 Bottom cabinet
Fig.2
3 – 14
FO-IS125N 3. Paper hopper unit/PWB’s/Operation panel unit
NOTE: For disassembly of the inside of the unit, refer to the exploded view in the parts guide.
Parts list (Fig. 3) No.
Operation panel unit 17
8
8
10
9
Part name
1
9
Flat cable
Part name
Qty 1
2
Screw (3x10)
2
10
Connector
12
3
Paper hopper unit
1
11
Control PWB unit
1
4
Screw (3x8)
2
12
Screw (3x6)
3
5
Screw with washer (4x6)
1
13
Screw (3x10)
1
6
Connector
4
14
Connector
1
7
Power supply PWB unit
1
15
High voltage PWB unit
1
8
Screw (3x10)
4
16
Screw with washer (3x10)
1
17
Operation panel unit
1
2 10
3 Paper hopper unit 10
2
16 5
6
Earth cable 6 11 Control PWB unit
No.
Mechanism unit
8
10 10
Qty
1
4 6
4
7 Power Supply PWB unit
15 High Voltage PWB unit 14
13 1 Mechanism unit
Fig.3
3 – 15
FO-IS125N 4. Paper hopper
Parts list (Fig. 4) No.
Qty
No.
1
Paper hopper unit
Part name
1
7
Rotation plate
Part name
Qty
2
Screw with washer (3x10)
2
8
Paper pad
1
3
RP release spring
1
9
Coil spring
3
4
RP release gear, right
1
10
A4 paper guide
1
5
RP release gear, left
1
11
Paper hopper
1
6
RP release plate
1
1
10
7
6
8
2 5
9 4 6
2
11
4 , 5
3
Fig.4
3 – 16
1 Paper hopper unit
FO-IS125N 5. Front cover unit/PU guide upper unit/PWB plate/Optical unit/Fusing unit/Drive unit
NOTE: For disassembly of the inside of the unit, refer to the exploded view in the parts guide.
4
Parts list (Fig. 5) No.
Qty
No.
1
Mechanism unit
Part name
1
9
Screw (3x10)
Part name
Qty
2
Hook
1
10
Optical unit
1
3
Front cover unit
1
11
Hook
2
4
Screw (3x10)
2
12
Special screw (3x12)
2
5
PU guide upper unit
1
13
Fusing unit
1
6
Screw (3x10)
4
14
Screw (3x10)
4
7
Screw (3x6)
1
15
Drive unit
1
8
PWB plate
1
4
4
6
5 PU guide upper unit 6 6 7 8 PWB plate
9
9
10 Optical unit
2
12
11 11 1 Mechanism unit 12
13 Fusing unit
14 15 Drive unit
3 Front cover unit
Fig.5
3 – 17
FO-IS125N 6. Wire treatment
Parts list (Fig. 6) No. 1
Part name Band (100mm)
TOP VIEW Control PWB unit
Power supply PWB unit
AC cord Speaker cable (CNSP)
Fan motor cable (CNFM)
Hook switch cable (CNTEL) Paper out sensor cable (CNPOUT) P-IN sensor cable (CNPIN)
Solenoid cable (CNSL)
Scanner motor cable (CNTXM)
Interlock switch cable (CN2)
Thermal fuse cable (CN5)
Printer motor cable (CNMM) Thermistor cable (CNRTH)
Panel earth Panel cable cable (CNPN) Toner cartridge cable (CNTNR)
1
Optical unit cable (CNPM)
1
1
Optical unit cable (CNLSR) High voltage cable (CNHV) CIS cable (CNCIS)
Fig.6
3 – 18
Fusing unit cable (CN1)
AC cord earth cable
Qty 4
FO-IS125N
CHAPTER 4. DIADRAMS FO-IS125N
Service Manual
[1] Block diagram Scanner Unit Document Sensor CIS 200dpi, B/W
Fax Controller CX95410-12Z
Operation Panel Unit LED LCD 20chr. x 2lines
Scanner AFE
Decoder
Stepper Motor (Scanner Motor)
Key Matrix 70keys Sense
Printer Engine OPTICAL UNIT (LSU)
LAN Controller LAN9118-MT
25MHz
High Voltage PWB Unit
SDRAM CON
Select (3bit)
Decoder
SPI ADC
Sensors Stepper Motor (Printer Motor)
LAN (Ethernet)
SDRAM 32MB
Power Supply PWB Unit Fuser Unit Heater Lamp Thermistor
RJ-45 Integrated Magnetics
Serial Flash-1 (ROM) 2MB Serial Flash-2 (Data1) 2MB Serial Flash-3 (Data2) 2MB Serial Flash-4 (Data3) 2MB Serial Flash-5 (Data4) 2MB
Silicon DAA Block
Solenoid for Pick-up
SPI
Fan Motor
V.34 Fax Modem Host Side Device CX95110
RTC 28.224MHz Lithium Battery (+3V)
32.768kHz
24MHz
4–1
Line Side Device CX20548-11Z
PSTN
Handset IA CX20548-12Z
Handset
HANDSET
CNHJ CNTEL
HOOK SWITCH PWB
CNPN 19PIN
CNSP
2PIN
SPEAKER
4–2 3PIN
HIGH VOLTAGE PWB UNIT
TONER CARTRIDGE SENSOR
CN1
POUT SENSOR
4PIN
CIS
7PIN
5PIN
FRONT SENSOR
ORG SENSOR
INTERLOCK SWITCH
P-IN SENSOR
2PIN
LSU-M
CNLCD1
3PIN FAN MOTOR
CNPN
19PIN
SCANNER MOTOR
OPERATION PANEL PWB UNIT
14PIN
LCD(20x2)
PRINTER MOTOR
4PIN
2PIN
CNFM
SOLENOID
4PIN
CNSL
AC 120V/60Hz
FUSING UNIT (HEATER LAMP)
THERMISTOR
2PIN
CN1
THERMAL FUSE
THERMAL FUSE-2
3PIN
CN5
POWER SUPPLY PWB UNIT
CN2
CNPW 10PIN CN3
CNLNL
TEL LINE
CNMM CNTXM
5PIN
CNPM
OPTICAL UNIT (LSU)
LSU-L
8PIN
CNCIS CNHV CNLSR
CONTROL PWB UNIT
CNTEL
CNPIN
5PIN
2PIN
CNTNR CNPOUT CNRTH
CNLAN 8PIN
ROUTER
2PIN
CN4
FO-IS125N
[2] Wiring diagram
FO-IS125N
[3] Point-to-point diagram
CNCIS 1 2 3 4 5 6 7
CNCIS 1 2 3 4 5 6 7
AO GND VDD SI CLK GLED VLED
SP+ SP-
SPEAKER
SP+ SP-
1 2
CNSP 1 2
SCANNER MOTOR
MA+ MB+ MAMB-
1 2 3 4
CNTXM 1 2 3 4
MA+ MB+ MAMB-
PRINTER MOTOR
MA+ MB+ MAMB-
1 2 3 4
CNMM 1 2 3 4
MA+ MB+ MAMB-
FAN MOTOR
VFM+ N.C. VFM-
1 2 3
CNFM 1 2 3
VFM+ N.C. VFM-
THERMISTOR
RTH1 RTH2
1 2
CNRTH 1 2
RTH1 RTH2
P-IN SENSOR
/PIN GND
1 2
CNPIN 1 2
/PIN GND
1 2 3
CNPOUT 1 /POUT 2 GND 3 POUT1_AN
PAPER OUT SENSOR
/POUT GND POUT1_AN
+24V /SLON
1 2
CNSL 1 2
+24V /SLON
TONER CARTRIDGE SENSOR
/TCT2 GND0 /TCT1 /TCT0 GND1 GND2
1 2 3 4 5 6
CNTNR 1 2 3 4 5 6
/TCT2 GND0 /TCT1 /TCT0 GND1 GND2
HIGH VOLTAGE PWB UNIT
PGND PWMSIN MCON TCON +24V
CNHV 1 2 3 4 5
CNPN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
CNPN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
KEN3 KEN2 KEN1 KEN0 ORGSNS FRSNS LCDE /SEN0 /SEN1 /SEN2 /SEN3 /SEN4 /SEN5 /SEN6 RS +3.3V DG LEDON /LCDRES
ADG TELOUT TELIN nRHS +3.3V
CNTEL 1 2 3 4 5
CNTEL 1 2 3 4 5
ADG TELOUT TELIN nRHS +3.3V
DB7 DB6 DB5 DB4 DB3(N.C.) DB2 DB1(N.C.) DB0(N.C.) E R/W RS VO +3.3V DG
CNLCD1 1 2 3 4 5 6 7 8 9 10 11 12 13 14
LCD UNIT
OPERATION PANEL PWB UNIT
CNLAN
SOLENOID
CN1 1 2 3 4 5
KEN3 KEN2 KEN1 KEN0 /ORGSNS /FRSNS LCDE /SEN0 /SEN1 /SEN2 /SEN3 /SEN4 /SEN5 /SEN6 RS PNLVCC DG /LEDON /LCDRES
HOOK SWITCH PWB UNIT
PGND PWMSIN MCON TCON +24V
ETHER NET CONTROL PWB UNIT
CIS
AO GND VDD SI CLK GLED VLED
+24VSUB MG MG +24VMAIN +24VMAIN DG V4D DG /HLON /ZC
CNPW 1 2 3 4 5 6 7 8 9 10
CN3 1 2 3 4 5 6 7 8 9 10
+24VSUB MG MG +24VMAIN +24VMAIN DG Ach DG HEATER ON ZC
1 2
CN2 +24VSUB +24VMAIN
1 2
+24VSUB INTERLOCK SWITCH +24VMAIN
1 2 3
CN5 +24VMAIN N.C. +24VS
1 2 3
+24VMAIN N.C. +24VS
THERMAL FUSE-2
1 2 3
CN1 N N.C. L
1 2 3
N N.C. L
FUSING UNIT
POWER SUPPLY PWB UNIT DGND -S/H -VIDEO -LDEN DGND +5V DGND -HSYNC
CNLSR 1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
DGND -S/H -VIDEO -LDEN DGND +5V DGND -HSYNC
CLK -READY -START GND +24V
CNPM 1 2 3 4 5
1 2 3 4 5
CLK -READY -START GND +24V
4–3
OPTICAL UNIT (LSU)
FO-IS125N
CHAPTER 5. CIRCUIT DESCRIPTION FO-IS125N
Service Manual
[1] Circuit description 1. General description The compact design of the control PWB is obtained by using Fax Engine (CX95410-12Z) in the main control section and high density printing of surface mounting parts. Each PWB is independent according to its function as shown in Fig. 1.
2. PWB configuration
AC CORD
FAN
HIGH VOLTAGE PWB
ETHERNET HEATER LAMP
POWER SUPPLY PWB
OPTICAL UNIT (LSU) MAIN MOTOR TONER C/T SENSOR
CONTROL PWB
LINE CABLE
FUSING UNIT THERMISTOR HANDSET
HOOK SWITCH PWB
SPEAKER SOLENOID
SCANNER MOTOR
CIS OPERATION PANEL PWB
LCD
Fig. 1
2.1. Control PWB
2.3. Panel PWB
The control PWB controls peripheral PWBs, mechanical parts, transmission, and performs overall control of the unit.
The panel PWB allows input of the operation keys.
2.4. High voltage PWB
2.2. Power supply PWB
This PWB provides the high voltage to printer process units.
This PWB provides voltages of ACH(+4.2V~+5.9V) and +24V to the another PWB.
2.5. LCD Unit This PWB controls the LCD display.
5–1
FO-IS125N
[2] Circuit description of control PWB
•
CX95410 Fax Engine Controller: 176-pin LQFP
1. General description
CX20548 Codec (IA): 16-pin QFN
The control PWB is composed of the following blocks.
2. System Function
1.1. Main control block
i)
1) Controller block 2) Memory block 3) Modem block
1.2. Printer control block
iii) Copy: Simultaneous scan and print operations provide a copy function, which includes support for image scaling (expansion to 400% and reduction to 25%).
1.3. LAN control block 1.4. Power section
iv) GPIOs: General purpose inputs/outputs (GPIOs) are provided that may be used to support common interfaces such as an operator panel. Nine GPIOs are available as inputs that can interrupt the ARC CPU. Three GPIOs are available with hardware timers for fail-safe operations.
1.5. TEL line interface block
2. Description of each block 2.1. Main control block
v) Fax Modem: The embedded fax modem function provides synchronous 14400 bps half-duplex modem with error detection and DTMF generation/reception. It provides fax transmission/reception from regular PSTN lines, PBX, or private lines, when interfaced to DAA (Data Access Arrangement) circuitry via the Conexant CX20548 Integrated Analog device. The modem can operate at any standard V.17 data speed up to 14400 bps as well as in V.21 and V.23 modes. The modem is designed for use in Group 3 facsimile machines. It satisfies the requirements specified in ITU-T recommendations V.17, V.29, V.27 ter and V.21 Channel 2, and meets the signaling requirements of T.30. It also performs HDLC framing according to T.30 at all speeds.
Main control block consisting of FAX ENGINE (CX95410-12Z) with 32bit microprocessor core, SDRAM (256Mbit), FLASH (16Mbit), FAX MODEM, etc., controls scanning, images processing, FAX communication, user interface, Ethernet interface etc.and printer controlling.
2.1.1 Controller block 1) CX95410-12Z (IC100): pin-176 QFP (Fax Engine) 1. Feature •
32-bit CPU provides convenient functional customization 1.5 MHz 16-bit ADC with a 3-channel integrated AFE
•
Embedded Image Processing DSP - Bad pixel correction - Dark level and shading correction - Linearization - Resolution conversion - Sharpening - Error diffusion - Background removal - JBIG compression/decompression
•
FlexIO supports a variety of system configurations Processing of SCAN video signal and its A/D conversion. - CIS control - Scanner AFE control - Direct thermal, thermal transfer, inkjet and laser print engine direct control - Motor control
•
ITU-T V.17 facsimile modem function, with T.30, T.4, T.6, T.42 support
•
Sleep mode to reduce power consumption
•
Real Time Clock with Battery Backup
•
High-speed UART with hardware flow control and IrDA support
•
High-speed SPI interface for serial flash memory
•
2-channel, 16 kHz delta-sigma modulator
•
Optional voice compression/decompression for Digital Telephone Answering Machine (DTAM) application
•
Optional full-duplex speakerphone function
•
3.3V single power supply or 3.3V/1.25V dual supply operation
Scan: Scanner control signals are provided by FlexIO port and dedicated I/O to support common CIS scanners. Analog scan sensor data is digitized through this interface using the integrated ADC.
ii) Print: Printer control signals are provided by a FlexIO port to support common direct thermal, thermal transfer, and inkjet print mechanisms. GPIOs with hardware timers are available for fail-safe thermal operation.
4) Scanner I/F block
•
Compact lead-free (Pb-free) package
5–2
FO-IS125N CX95410-12Z (IC100) Terminal Description
Pin No. 1 2 3 4 5
Pad No. 1 2 3 4 5
Side Pin Signal Name PWRDWNn BATRSTn PLL_VSS PLL_VDD XIN/EXTCLK
Pad Signal Name pwrdwnn bat_rstn pllvss pllvdd xin
L L L L L
6 7 8 9 10 11 12
6 7 8 9 10 11 12
13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54
13 14 15 16 17 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 35 36 37 38 39 40 41 43 44 45 46 47 49 50 51 52 53 54 55 56 57 58
Pad Type I I GND PWR I
pcb00rtc pcb00rtc pvsnnn pvdnnn plx43
L L L L L L L
XOUT JTAG_CPU_TCK JTAG_CPU_TDI JTAG_CPU_TDO JTAG_CPU_TMS RESETn TEST_MODE/RCOSC
xout jtag_tck jtag_tdi jtag_tdo jtag_tms resetn test_mode/rcosc
O I I O I B I
plx43 plbgp plbgp plbgp plbgp plbgp pldosc24
L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L B B B B B B B B B B
GPIO[0] GPIO[1] GPIO[2] VDD VSS VDDO GPIO[3] GPIO[4] GPIO[5] GPIO[6] GPIO[7] VDD VSS GPIO[8] GPIO[9] GPIO[10] GPIO[11] GPIO[12] VDD VSS VDDO GPIO[13] GPIO[14] GPIO[15] GPIO[16] GPIO[17] ADC_VSS MADC_IN[0] MADC_IN[1] MADC_IN[2] MADC_IN[3] ADC_VDDO ADC_VREF ADC_RBIAS ADC_IN VREG_CTRL VREG_ENABLE GPIO[18] GPIO[19] GPIO[20] GPIO[21] GPIO[22]
gpio[0] gpio[1] gpio[2] vdd vss vddo gpio[3] gpio[4] gpio[5] gpio[6] gpio[7] vdd vss gpio[8] gpio[9] gpio[10] gpio[11] gpio[12] vdd vss vddo gpio[13] gpio[14] gpio[15] gpio[16] gpio[17] dvss afe_madcin0 afe_madcin1 afe_madcin2 afe_madcin3 avddh afe_vref afe_rbias afe_sadcin vctrl12 vreg_en gpio[18] gpio[19] gpio[20] gpio[21] gpio[22]
B B B PWR GND PWR B B B B B PWR GND B B B B B PWR GND PWR B B B B B GND I I I I PWR
plbgp plbgp plbgp pvdcnn pvscnn pvdnpo plbgp plbgp plbgp plbgp plbgp pvdcnn pvscnn plbgp plbgp plbgp plbgp plbgp pvdcnn pvscnn pvdnpo plbgp plbgp plbgp plbgp plbgp pvsnnn pcb00w pcb00w pcb00w pcb00w pvdnnn pvdnnn pvdnnn pdb00w pcb00w pcd10u2 plbgp plbgp plbgp plbgp plbgp
I O I B B B B B
Pad Cell
5–3
Def. Drv. Str. Hys PU / PD Description I/O (def.) I H Battery Power Down Indication I H Battery Reset PLL Ground 1.25V PLL Power I Crystal/Oscillator Input (1060 MHz) O Crystal Output I PU ARC JTAG clock I PU ARC JTAG data in. O 5 ARC JTAG data out I PU ARC JTAG test mode I 5 H PU Reset (active low) I Test Mode/Low Power Oscillator for HSSD (24 MHz) I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM PGM General Purpose I/O 1.25V Core Power Core Ground 3.3V Power I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O 1.25V Core Power Core Ground I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM PGM General Purpose I/O 1.25V Core Power Core Ground 3.3V Power I PGM, 3.5 PGM PGM General Purpose I/O I PGM, 3.5 PGM PGM General Purpose I/O I PGM, 3.5 PGM PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O ADC Digital Core Ground I Monitor ADC Input 0 I Monitor ADC Input 1 I Monitor ADC Input 2 I Monitor ADC Input 3 3.3V Analog Power B Voltage Reference B Reference Bias I Scanner ADC Input O Voltage Regulator control I Voltage Regulator Enable I PGM, 3.5 PGM PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O I PGM, 3.5 PGM General Purpose I/O
FO-IS125N CX95410-12Z (IC100) Terminal Description
Pin No. 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88
Pad No. 59 60 62 63 66 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 85 86 87 88 89 90 91 92 93 94 95 96 97
Side Pin Signal Name B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B
89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111
98 99 100 101 102 103 104 105 106 108 109 110 111 112 113 114 115 116 117 118 119 120 121
R R R R R R R R R R R R R R R R R R R R R R R
GPIO[23] GPIO[24] VDDO VSS VDD GPIO[25] GPIO[26] GPIO[27] GPIO[28] GPIO[29] GPIO[30] GPIO[31] GPIO[32] VDD VSS GPIO[33] GPIO[34] GPIO[35] GPIO[36] GPIO[37] GPIO[38] VDDO VSS VSS VDD GPIO[39] GPIO[40] GPIO[41] GPIO[42] GPIO[43] GPIO[44] GPIO[45] VDDO VSS
Pad Signal Name gpio[23] gpio[24] vddo vsso vdd gpio[25] gpio[26] gpio[27] gpio[28] gpio[29] gpio[30] gpio[31] gpio[32] vdd vss gpio[33] gpio[34] gpio[35] gpio[36] gpio[37] gpio[38] vddo vsso vss vdd gpio[39] gpio[40] gpio[41] gpio[42] gpio[43] gpio[44] gpio[45] vddo vsso
Pad Type B B PWR GND PWR B B B B B B B B PWR GND B B B B B B PWR GND GND PWR B B B B B B B PWR GND
GPIO[46] GPIO[47] GPIO[48] GPIO[49] GPIO[50] GPIO[51] GPIO[52] VDDO VSS VDD GPIO[53] GPIO[54] GPIO[55] GPIO[56] GPIO[57] GPIO[58] GPIO[59] GPIO[60] GPIO[61] GPIO[62] GPIO[63] GPIO[64] GPIO[65]
gpio[46] gpio[47] gpio[48] gpio[49] gpio[50] gpio[51] gpio[52] vddo vsso vdd gpio[53] gpio[54] gpio[55] gpio[56] gpio[57] gpio[58] gpio[59] gpio[60] gpio[61] gpio[62] gpio[63] gpio[64] gpio[65]
B B B B B B B PWR GND PWR B B B B B B B B B B B B B
Pad Cell plbgp plbgp pvdnpo pvsnno pvdcnn plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp pvdcnn pvscnn plbgp plbgp plbgp plbgp plbgp plbgp pvdnpo pvsnno pvscnns pvdcnn plbgp plbgp plbgp plbgp plbgp plb99n8 plb99n8 pvdnpo pvsnno_ vddo2core plb99n8 plb99n8 plbgp plbgp plbgp plbgp plbgp pvdnpo pvsnno pvdcnn plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp plbgp
5–4
Def. I/O I I
I I I I I I I I
I I I I I I
I I I I I I I
Drv. Str. Hys PU / PD Description (def.) PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O 3.3V Power I/O Ground 1.25V Core Power PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O 1.25V Core Power Core Ground PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM PGM General Purpose I/O PGM, 3.5 PGM PGM General Purpose I/O PGM, 3.5 PGM PGM General Purpose I/O 3.3V Power I/O Ground Core Ground 1.25V Core Power PGM, 3.5 PGM PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 3.5 PGM PGM General Purpose I/O PGM, 3.5 PGM General Purpose I/O PGM, 5 PGM General Purpose I/O / DIBn PGM, 5 PGM General Purpose I/O / DIBp 3.3V Power I/O Ground
I I I I I I I
PGM, 5 PGM, 5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5
PGM PGM PGM PGM PGM PGM PGM PGM
I I I I I I I I I I I I I
PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5
PGM PGM PGM PGM PGM PGM PGM PGM PGM PGM PGM PGM PGM
PGM PGM PGM PGM PGM
General Purpose I/O / DIBn General Purpose I/O / DIBp General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O 3.3V Power I/O Ground 1.25V Core Power General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O
FO-IS125N CX95410-12Z (IC100) Terminal Description
Pin No. 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150
Pad No. 122 123 125 126 127 128 129 130 131 132 133 134 135 137 138 140 141 142 143 144 145 146 147 148 149 150 151 152 154 155 156 157 158 159 160 161 162 163 164
Side Pin Signal Name R R R R R R R R R R R R R R R R R R R R R T T T T T T T T T T T T T T T T T T
151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168
165 166 167 168 169 171 172 173 174 175 176 177 178 179 180 182 184 185
T T T T T T T T T T T T T T T T T T
VDDO VSS VDD GPIO[66] GPIO[67] GPIO[68] GPIO[69] GPIO[70] GPIO[71] DQ[0] DQ[1] DQ[2] DQ[3] VDDO VSS VDD DQ[4] DQ[5] DQ[6] DQ[7] DQ[15] DQ[14] DQ[13] DQ[12] DQ[11] DQ[10] VDDO VSS VDD DQ[9] DQ[8] DQM[1] DQM[0] SDRAM_CLK VDD VSS CKE WEn CASn
Pad Signal Name vddo vsso vdd gpio[66] gpio[67] gpio[68] gpio[69] gpio[70] gpio[71] dq[0] dq[1] dq[2] dq[3] vddo vsso vdd dq[4] dq[5] dq[6] dq[7] dq[15] dq[14] dq[13] dq[12] dq[11] dq[10] vddo vsso vdd dq[9] dq[8] dqm[1] dqm[0] sdram_clk vdd vss cke wen casn
Pad Type PWR GND PWR B B B B B B B B B B PWR GND PWR B B B B B B B B B B PWR GND PWR B B O O O PWR GND O O O
Pad Cell pvdnpo pvsnno pvdcnn plbgp plbgp plbgp plbgp plbgp plbgp plb03 plb03 plb03 plb03 pvdnpo pvsnno pvdcnn plb03 plb03 plb03 plb03 plb03 plb03 plb03 plb03 plb03 plb03 pvdnpo pvsnno pvdcnn plb03 plb03 plb03 plb03 plb03 pvdcnn pvscnn plb03 plb03 plb03
RASn BA[0] BA[1] VDD VSS VDDO ADDR[0] ADDR[1] ADDR[2] ADDR[3] ADDR[12] ADDR[11] ADDR[10] VDD VSS VDDO ADDR[9] ADDR[8]
rasn ba[0] ba[1] vdd vss vddo m_addr[0] m_addr[1] m_addr[2] m_addr[3] m_addr[12] m_addr[11] m_addr[10] vdd vss vddo m_addr[9] m_addr[8]
O O O PWR GND PWR O O O O O O O PWR GND PWR O O
plb03 plb03 plb03 pvdcnn pvscnn pvdnpo plb03 plb03 plb03 plb03 plb03 plb03 plb03 pvdcnn pvscnn pvdnpo plb03 plb03
5–5
Def. I/O
Drv. Str. Hys PU / PD (def.)
I I I I I I I I I I
PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 PGM, 3.5 8 8 8 8
I I I I I I I I I I
8 8 8 8 8 8 8 8 8 8
I I O O O
8 8 8 8 8
O O O
8 8 8
O O O
8 8 8
O O O O O O O
8 8 8 8 8 8 8
O O
8 8
PGM PGM PGM PGM PGM PGM PGM
Description 3.3V Power I/O Ground 1.25V Core Power General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O General Purpose I/O SDRAM Data SDRAM Data SDRAM Data SDRAM Data 3.3V Power I/O Ground 1.25V Core Power SDRAM Data SDRAM Data SDRAM Data SDRAM Data SDRAM Data SDRAM Data SDRAM Data SDRAM Data SDRAM Data SDRAM Data 3.3V Power I/O Ground 1.25V Core Power SDRAM Data SDRAM Data SDRAM Data Mask SDRAM Data Mask SDRAM Clock 1.25V Core Power Core Ground SDRAM Clock Enable SDRAM Write Enable SDRAM Column Address Select SDRAM Row Address Select SDRAM Bank Active SDRAM Bank Active 1.25V Core Power Core Ground 3.3V Power SDRAM Address SDRAM Address SDRAM Address SDRAM Address SDRAM Address SDRAM Address SDRAM Address 1.25V Core Power Core Ground 3.3V Power SDRAM Address SDRAM Address
FO-IS125N CX95410-12Z (IC100) Terminal Description
Pin No. 169 170 171 172 173 174 175 176
Pad No. 186 187 188 189 190 191 192 193
Side Pin Signal Name T T T T T T T T
ADDR[7] ADDR[6] ADDR[5] ADDR[4] RTC_VDDO RTC_VSS RTC_XIN RTC_XOUT
Pad Signal Name m_addr[7] m_addr[6] m_addr[5] m_addr[4] rtcvddo rtcvsso rtc_xin rtc_xout
Pad Type O O O O PWR GND I O
Pad Cell
Def. I/O O O O O
plb03 plb03 plb03 plb03 pcb00rtc pvsnnn pcb00rtc pcb00rtc
2.1.2 Memory block
Drv. Str. Hys PU / PD (def.) 8 8 8 8
I O
Description SDRAM Address SDRAM Address SDRAM Address SDRAM Address 3.3V Battery Power Battery Ground 32 kHz Crystal/Oscillator input 32 kHz Crystal output
4) V.34 Half-Duplex Mode (SSF336) The SSF336 modem satisfies the requirements specified in ITU-T Recommendation V.34 half-duplex and meets the binary signaling requirements of V.8 and T.30 with Annex F.
1) SST25VF016B (IC200): pin-8 SOIC (FLASH MEMORY) 16Mbit FLASH Memory. Firmware for Fax Engine is stored in this device. All of the entry data, user setting and so on are also stored.
5) Features •
2) EDS2516AFTA-75-E (IC202): pin-54 TSOP (SDRAM) 256Mbit (4M x 16bit x 4bank) Synchronous DRAM.
2-wire half-duplex fax modem modes with send and receive data rates up to 14,400 bps - V.17, V.29, V.27 ter, and V.21 Channel 2
On power on sequence, the program stored in FLASH memory (IC200) is loaded into this device. Then, this device is used as a program execution memory. It is also used as various work memories and communication buffer etc.
- Short train option in V.17 and V.27 ter •
HDLC support at all speeds - Flag generation, 0-bit stuffing, ITU CRC-16 or CRC-32 calculation and generation
3) SST25VF016B (IC201, IC203, IC204, IC206): pin-8 SOIC (FLASH MEMORY)
- Flag detection, 0-bit deletion, ITU CRC-16 or CRC-32 check sum error detection
4 pieces of Flash memory are stored the image data of Fax sending and receiving. Each device has 16Mbit of capacitor.
- FSK flag pattern detection during high-speed receiving •
Tone modes and features - Programmable single or dual tone generation
2.1.3 MODEM block
- DTMF receiver
1) MODEM
- Tone detection with three programmable tone detectors
The block is mainly composed of the G3 FAX modem CX95110 (IC1000), and is provided with the following modem function.
•
Auto-dial and auto-answer control
1) G3 FAX modem
•
Receive dynamic range: - -3 dBm to -43 dBm for V.17, V.29, V.27 ter and V.21 Channel 2
The modem satisfies the requirements specified in ITU-T Recommendations V.17, V.29, V.27 ter, and V.21, and meets the binary signaling requirements of T.30. Internal HDLC support eliminates the need for an external serial input/output (SIO) device in the DTE for products incorporating error detection and T.30 protocol. Themodem can perform HDLC framing per T.30 at all data speeds. CRC generation/checking along with zero insertion/deletion enhances SDLC/HDLC frame operations. Two FSK (V.21 Channel 1 and V.21 Channel 2) flag pattern detectors facilitate FSK detection during high-speed reception. The modem features a programmable DTMF transmitter/receiver and three programmable tone detectors. 2) External Handset Support (Optional) The modem can also provide access to the telephone line from an external handset, when connected via a Conexant CX20548 Line Side Device.
•
Caller ID (V.23, 1200 bps Rx) Demodulation
•
ADPCM Voice Mode (Conexant proprietary)
•
Programmable RLSD turn-on and turn-off thresholds
•
Programmable transmit level: -4 to -15 dBm
•
Digital speaker output to monitor received signal
•
Two 16-byte FIFO data buffers for burst data transfer with extension up to 255 bytes
•
V.21 Channel 1 Flag detect
•
V.21 Channel 2 Flag detect
•
Support for external handset (voice conversation)
•
+3.3 V only operation
•
32-pin QFN package (HSD)
•
Typical power consumption
- Requires use of CX20548 LSD
3) SmartDAA The SmartDAA system-powered DAA operates reliably without drawing power from the line, unlike line-powered DAAs that operate poorly when line current is insufficient due to long lines or poor line conditions. Enhanced features such as monitoring of local extension status without going off-hook are also supported. Incorporating Conexant’s proprietary Digital Isolation Barrier (DIB) design and other innovative DAA features such as Digital PBX line protection and status reporting, the SmartDAA architecture simplifies application design, minimizes layout area, and reduces component cost.
- Normal mode: 264 mW - Sleep mode: 59.4 mW - Deep Sleep mode: 16.5 mW •
5–6
PRAM download capability
FO-IS125N 6) Distinguishing Features (SSF336)
•
2-wire V.34 half-duplex fax modem mode with send and receive data rates up to 33,600 bps
System side powered DAA operates under poor line current supply conditions
•
Wake-on-ring
•
Automatic Rate Adaptation (ARA) in V.34 half-duplex
•
Ring detection
•
PSTN session starting
•
Line polarity reversal detection
- V.8 and V.8bis signaling
•
Line current loss detection
•
Receive dynamic range: -9 dBm to -43 dBm for V.34 half-duplex
•
Pulse dialing
•
7) SmartDAA Features
•
Line-in-use detection—detects while on-hook
•
Minimum support component count and cost
•
Extension pick-up detection—detects while off-hook
•
Eliminates costly line transformers, relays, and opto-isolators
•
Remote hang-up detect—for efficient call termination
•
Enables single, worldwide board configurations
•
Meets world-wide DC V-I Masks requirements
•
Digital PBX line protection
8) Configurations, Signaling Rates, and Data Rates Configuration
Modulation
Carrier Frequency (Hz) ± 0.01% Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 1700/420 1080/1750 1800 1800 1800 1800 1700 1700 1700 1800 1800 1750
Data Rate (bps) ± 0.01% 33600 31200 28800 26400 24000 21600 19200 16800 14400 12000 9600 7200 4800 2400 1200/75 Up to 300 14400 12000 9600 7200 9600 7200 4800 4800 2400 300
Symbol Rate (Symbols/Sec.) 3429 only 3200 min 3000 min 2800 min 2800 min 2400 min Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 2400 only 1200 300 2400 2400 2400 2400 2400 2400 2400 1600 1200 300
Bits/Symbol Data Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 1 1 6 5 4 3 4 3 2 3 2 1
Bits/Symbol TCM Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 0 0 1 1 1 1 0 0 0 0 0 0
V. 34 33600 TCM TCM V. 34 31200 TCM TCM V. 34 28800 TCM TCM V. 34 26400 TCM TCM V. 34 24000 TCM TCM V. 34 21600 TCM TCM V. 34 19200 TCM TCM V. 34 16800 TCM TCM V. 34 14400 TCM TCM V. 34 12000 TCM TCM V. 34 9600 TCM TCM V. 34 7200 TCM TCM V. 34 4800 TCM TCM V. 34 2400 TCM TCM V. 23 1200/75 FSK V. 21 FSK V. 17 14400 TCM TCM V. 17 12000 TCM TCM V. 17 9600 TCM TCM V. 17 7200 TCM TCM V. 29 9600 QAM V. 29 7200 QAM V. 29 4800 QAM V. 27 ter 4800 DPSK V. 27 ter 2400 DPSK V. 21 Channel 2 FSK Notes: 1. Modulation legend: TCM: Trellis-Coded Modulation QAM: Quadrature Amplitude Modulation PCM: Pulse Coded Modulation FSK: Frequency Shift Keying DPSK: Differential Phase Shift Keying 2. Adaptive; established during handshake: Symbol Rate (Baud) V. 34 Low Carrier Frequency (Hz) V. 34 High Carrier Frequency (Hz) 2400 1600 1800 2800 1680 1867 3000 1800 2000 3200 1829 1920 3429 1959 1959
5–7
Constellation Points Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 Note 2 — — 128 64 32 16 16 8 4 8 4 —
FO-IS125N 9) CX95110 (IC1000) Terminal description Pin Name
Pin No.
Pin I/O
I/O Type Crystal/Clock Signals OSC
XTALI/CLKIN
31
I
XTALO
32
O
RESETn
10
I
IRQ
8
O
GP
CSn
1
I
GPH
SDI
2
O
SDO
3
I
SCK
4
I
GPIO0 GPIO1 GPIO2 GPIO3 GPIO4
11 12 13 18 19
I/O I/O I/O I/O I/O
GPIO Signals GPH GPH GPH GPH GPH
RIn
9
O
Ring Indicator Signal GP
SDAA_PWM
22
O
SDAA_RCREF
30
I
OSC
Host Control Signals GPH
Signal Description Crystal/Oscillator In. The modem must be connected to an external crystal/oscillator circuit consisting of a 28.224 MHz crystal/oscillator. Label Crystal Oscillator XTALI/CLKIN XTALI CLKIN Crystal Out. The modem must be connected to an external crystal circuit consisting of a 28.224 MHz crystal. Do not connect when using an oscillator. Label Crystal Oscillator XTALO/NC XTALO NC
Reset. RESETn low holds the modem in the reset state. RESETn going high releases the modem from the reset state and initiates normal operation using power turn-on (default) values. If RESETn is asserted during normal operation, RESETn must be held low for at least 3 µs. During power-on, RESETn must be held low for at least 10 ms after VDDO (+3.3 V) is within operating limits. The modem is ready to be accessed by the host 320 ms after bit 2 of register $2E is set to a 1. Interrupt Request. Interrupt generated by modem DSP sources. The polarity is programmable. When it is active low, the signal can be connected with other active low, open-drain IRQ sources to form a single interrupt request in a wire-OR configuration. In that configuration, an external pull-up resistor to +3.3V is required on the line, and should be located near the receiver of IRQ. Chip Select. The active low CSn input selects and enables the HSD for serial data transfer between the HSD and the host over the SPI interface.
Serial Peripheral Interface (SPI) GPH Serial Data Input. Output data from modem to host controller (SPI master). GPH Serial Data Output. Input data to modem from host controller (SPI master). GPH Serial Data Clock. SPI input clock.
General Purpose I/O 0. Hysteresis input with a bus holder. General Purpose I/O 1. Hysteresis input with a bus holder. General Purpose I/O 2. Hysteresis input with a bus holder. General Purpose I/O 3. Hysteresis input with a bus holder. General Purpose I/O 4. Hysteresis input with a bus holder.
Ring Indicator. The RIn output follows the ringing signal coming out of the DSP’s ring qualification block with a low level (0 V) during the ON time, and a high level (+3.3 V) during the OFF time.
Speaker Interface Signals GP Speaker Output. Analog or digital speaker output signal for line monitoring function. An external speaker driver is needed. If no used, tie to ground through a 75 kΩ resistor. SmartDAA Interface Signals SSD RC Oscillator Reference. Connect to VDDO through a 240 kΩ resistor.
5–8
FO-IS125N Pin Name
Pin No.
Pin I/O
I/O Type Line Interface Signals -
P_DIBn
14
I/O
P_DIBp
15
I/O.
S_DIBn
20
I/O
S_DIBp
21
I/O
EYESYNC
24
O
EYECLK
25
O
GPH
EYEXY/ SWCFG2
23
I/O
PLB03
XCLK/SWCFG1
26
I/O
PLB03
YCLK/SWCFG0
27
I/O
PLB03
VDD
5, 29
-
VDDO VSS-VSSO
7, 17 6, 16, 28
-
-
PADDLE
33
-
-
-
Signal Description SSD DIB Negative. Provides clock and power to the LSD, and transfers data, control and status information between the SSD and the external LSD through the DIB for connection to the telephone line. SSD DIB Positive. Provides clock and power to the LSD, and transfers data, control and status information between the SSD and the external LSD through the DIB for connection to the telephone line
Handset Interface Signals Handset DIB Negative. Transfers data, control and status information between the SSD and the external LSD for connection to an optional handset. Handset DIB Positive. Transfers data, control and status information between the SSD and the external LSD for connection to an optional handset. Diagnostic/Config GPH
Power/GND Pins -
Note: All pins have neither internal pull-up or pull-down resistors.
5–9
Serial Eye Pattern Strobe. EYESYNC is a strobe for loading the D/A converters on an external eye pattern circuit. Serial Eye Pattern Clock. EYECLK is an output clock for use by the serial-to-parallel converters on an external eye pattern circuit. Serial Eye Pattern X/Y Output/Software Config Bit 2. EYEXY is a serial output containing two 11-bit diagnostic words (EYEX and EYEY) for display on an oscilloscope X axis (EYEX) and Y axis (EYEY), using an external eye pattern circuit. EYEX is the first word clocked out; EYEY follows. Each word is 8-bits. EYEXY is clocked by the rising edge of EYECLK. This serial digital data must be converted to parallel digital form by a serial-to-parallel converter, and then to analog form by two digital-to-analog (D/A) converters. This pin can also be used as SWCFG2, a configuration input. During reset, the pin is three-stated and the value on this pin is stored in the SWCONFIG register. An external pull-up or pull-down resistor of about 75 kΩ is recommended to set the value. X Clock/Software Config Bit 1. Output clock at 70.56 MHz. It can be turned off at any time by setting bit 1 of register $2E. During reset, this pin functions the same as SWCFG2. Y Clock/Software Config Bit 0. Output clock at 28.224 MHz. It can be turned off at any time by setting bit 0 of register $2E. During reset, this pin functions the same as SWCFG2.
Supply Voltage for Digital Circuits. +1.2 V from internal regulator. The VDD pins must be decoupled to VSS-VSSO. Supply Voltage for I/O Circuits. Connect to +3.3 V. Ground for the Digital Circuits and I/O Circuits. Connect to digital ground. Paddle Ground. The PADDLE, a conductive surface located on the bottom of the package, is connected internally to VSS-VSSO ground.
FO-IS125N 2.1.4 Scanner I/F block 1) CIS I/F block The CIS is controlled by Fax Engine (IC100), and the output video signal from CIS is input into AFE block of Fax Engine (IC100). CIS LED is controlled through LED driving circuit (Q600) by Fax Engine (IC100).
LED Driving circuit Q600 CIS
52 Fax Engine (IC100)
LED
Image sensor Video signal
CLK
37
SI
53 47
AFE BLOCK
Fig. 2
2) Scanner Motor control A3967SLBTR-T (IC600): pin-24 (Scanner Motor Driver) The scanner motor is driven by this Motor Driver which is the constant current motor driver with bipolar, chopper system the rotation speed and its timing of the scanner motor are controlled by Fax Engine (IC100).
Scanner Motor
Motor Driver (IC600) (IC12)IC12 )
Fig. 3
5 – 10
Fax Engine (IC100)
FO-IS125N 2.2. Printer control block Fax Engine (IC100) controls each component of Laser Beam Printer (LBP) as follows. 1) Main Motor control 2) Pickup Motor control 3) Fuser control 4) High Voltage Generator control 5) Laser Scanning control 6) Sensor monitor
2.2.1 Signal connection 3.3 V/5 V/ 24 V Control
3.3 V Control
nZC
Flex-0 Flex-0 HLON
DRV
Limit Temp.
COMP
RTH
FAX ENGINE (IC100) OSC1
GPO
FAN
DRV
nMEN
Flex-0 STEP
Heater Lamp
LATCH F.F.
MADC_IN GPO
AC Power
Motor Driver
FUSER Thermister FAN
MA+ MAMB+ MB-
STEPPER MOTOR
OSC2 MADC_IN
nDOP
GPO PUS GPI
COMP
+24V
Door SW (Interlock)
DRV
Solenoid
nPOUT
P_OUT from FUSER
nPIN
GPI
TCT0 TCT1
GPI MADC_IN MADC_IN
TCT2
GPO TC/BIASON GPO MCON PWM Flex-0 Flex-2 Flex-0 Flex-2 GPI GPO Flex-2 Flex-2
LDEN
nLDEN OPEN nPMCLK COLLECTOR nHSYNC
PMRDY
nPMRDY
PMD PDATA S_nH
Fig. 4
5 – 11
Toner C/T DETECT SW H/V-U
HSYNC
PMCLK
P_IN
nPMD OPEN COLLECTOR nPDATA nS_H
LSU
LBP ENGINE
24MHz
FO-IS125N 2.2.2 Signal assignment to the Printer CPU pins Control unit LSU
High voltage
Sensor
Fusing Main motor Solenoid Fan Power supply
Mechanism control CPU Signal I/O Pin No. PMCLK O FlexIO0B[0] LDEN O FlexIO2A[4] S_nH O FlexIO2A[5] PDATA O FlexIO2B[0] HSYNC I FlexIO2B[4] PMD O GPIO[03] PMREADY I GPIO[24] MCON O GPIO[05] TC/BSON O GPIO[06] PWM O FlexIO0B[1] nPIN I GPIO[19] nPOUT I GPIO[18] nDOP I GPIO[01] TCT0 I GPIO[23] TCT1 I MADC_IN[2] TCT2 I MADC_IN[1] nHLON O FlexIO0B[3] RTH I MADC_IN[0] nMEN O GPIO[04] STEP O FlexIO0B[2] PUS O GPIO[07] FAN O GPIO[00] nZC I FlexIO0A[2]
Description Polygon motor clock Laser circuit driving signal APC circuit sample signal Laser on signal Laser main scanning syncronism signal Polygon motor driving signal Polygon motor turn syncronism detection Charge control Transfer/DC bias control Clock for high voltage control clock PWM Main unit paper feed detection (Paper-In) Paper eject detection (Paper-Out/fusing section) Door open/close detection (front and right doors) Toner cartridge identification Heater lamp ON/OFF control Thermistor analog input (temperature detection) Excitation enable Step clock Solenoid ON/OFF control Fan ON/OFF control AC zero-cross signal input b) The laser beam drive block
1) Main Motor control: Control the rotation of Main Motor and its mechanism
The timing of the signals is controlled in accordance with the specifications of Optical unit (LSU). Fax Engine (IC100) outputs the print data ("PDATA") synchronized in the horizontal synchronous signal ("SYNC") from Optical unit (LSU).
Main Motor is the stepper motor and drives the whole of the mechanism of LBP. Main Motor is driven in 2-phase excitation by the driver (IC500: A3982SLB). The driver circuit is provided with the fuse (F500) to shut the motor power supply for the safety.
6) Sensor monitor: Monitor each sensor
2) Pickup Solenoid drive: Drive a solenoid for paper pickup
Fax Engine controls the timing of the printing action with the following sensor information, and detect the paper jam, the paper empty and the paper size.
Pickup Solenoid drives the pickup mechanism of print paper. The driver circuit is provided with the fuse (F501) to shut power supply for the safety. Fax Engine controls the timing to pickup the paper with watching the paper sensor.
a) P-IN: Detect carriage position of the paper b) P-OUT: Detect carriage position of the paper
3) Fuser control: Control the temperature of the fuser unit
c) TCT2~0: Detect the toner cartridge setting
The heater lamp is controlled ON/OFF to adjust the temperature of the fusing unit. The heater lamp is driven by the driver (Q900). The temperature of the fusing unit is monitored with the thermistor. The fuser control circuit is provided with the safety circuit to stop to light the heater lamp automatically when the thermistor detection temperature rises over unusual high temperature. 4) High Voltage Generator control: Control high voltage supplied to LBP • Main charger voltage to the drum unit • Developing bias voltage to the toner unit • Transfer charger voltage to the transfer roller The high voltage outputted from High Voltage unit is controlled with PWM and ON/OFF signals ("MCON" and "TCON"). 5) Laser Scanning control: Control Optical unit (LSU) to expose the OPC drum. The laser beam scanning light expose the OPC drum corresponding to the print data. The circuit of Optical unit (LSU) is composed with the scanning motor drive block and the laser beam drive block. a) The control of the scanning motor drive block The scanning motor is controlled by the clock of 2659Hz ("PMCLK") and ON/OFF signal ("PMD"). Optical unit (LSU) replies by the ready when the rotation of the motor becomes stable. The initialization of the laser beam control is started after the stable rotation of the scanning motor is confirmed.
5 – 12
FO-IS125N 2.2.3 Hardware controlled protection function Device Heater lamp (fusing device)
1
Protective action The heater lamp is forcibly turned off when the temperature of the fusing device (thermistor value) exceeds the upper limit.
Laser (LSU)
1
When the cover is open, the power supply to the laser system circuits is shut off.
3
The sampling of S/H signal is disabled unless the VIDEO signal is active (laser on).
Circuit description The circuit forcibly turns off (resets) the control signal of the heater lamp when the thermistor value reaches 238 ± 6 °C. To turn on the heater lamp again, it is necessary to reset all system or power down once. In other words, once the protective action is performed, the protection is not canceled automatically even if the temperature detected by the thermistor decreases. Equipped with a regulator circuit for producing the laser system power (+5 V) supplied to the LSU from +24 V power supply interrupted by the interlock. Equipped with a circuit for enabling output of the S/H signal when the VIDEO signal is received.
Purpose Avoiding the abnormally high temperature of the fusing device.
Status to be activated The protection is activated when F/W is out of control, the microcomputer ADC is defective, or other abnormality occurred. Normally, the heater lamp is turned on/off by monitoring the temperature using F/W.
Avoiding the exposure to laser beam.
Malfunction due to the digital system circuit failure.
Avoiding abnormally high output of the laser.
When F/W under development is defective or runs out of control, the protection is activated. Normally, each signal is controlled following the sequence by F/W.
A fuse is installed in the following power supply lines: Optical unit (LSU) laser, Main motor, Pickup motor
5 – 13
FO-IS125N 2.3. LAN control block
The diagram shown above, describes a typical system configuration of the LAN9118-MT in a typical embedded environment.
LAN Control Block is composed with LAN controller LAN9118MT(IC800) and integrated magnetics LAN jack.
2.3.1 LAN9118-MT (IC800) Hardware description
The LAN9118-MT is a general purpose, platform independent, Ethernet controller. The LAN9118-MT consists of four major functional blocks. The four blocks are:
General description
•
10/100 Ethernet PHY
The SMSC LAN9118-MT integrated 10/100 MAC/PHY controller is a peripheral chip that performs the function of translating parallel data from a host controller into Ethernet packets. The LAN9118-MT Ethernet MAC/PHY controller is designed and optimized to function in an embedded environment. All communication is performed with programmed I/O transactions using the simple SRAM-like host interface bus.
•
10/100 Ethernet MAC
•
RX/TX FIFOs
•
Host Bus Interface (HBI)
2.3.2 Description of pin functions
Table 2, "Default Ethernet Settings", below.
Table 1 Host Bus Interface Signals
Table 2 Default Ethernet Setting
5 – 14
FO-IS125N
Table 3 LAN Interface Signals
Table 4 Serial EEPROM Interface Signals
5 – 15
FO-IS125N
Table 5 System and Power Signals (1/2)
5 – 16
FO-IS125N
Note 1
Note 1
Note 1
Note 1
Table 5 System and Power Signals (2/2)
5 – 17
FO-IS125N 2.4. Power section The Control PWB requires multi voltage (+3.3V, +5V, +24V, +24VH). V4D, +24V and +24VH are supplied from the power supply unit. +3.3V are generated by the regulator (IC900) on the Control PWB. INT5V is generated by regulator (IC302) on the Control PWB, is the exclusive use as interlocking power for Optical unit (LSU). Its structure is as shown below.
Power Supply Unit
Control PWB
+24VH(*)
+24VH
+24V (**)
+24V
Ach
KIA7805API/P (IC302)
+5V
TA48033BF (IC900)
+3.3V
(*) Supplied always regardless of door open/close. (**) Supplied only when door is close. Fig. 5
5 – 18
FO-IS125N 2.5. TEL line interface block
PDIB_N PDIB_P
Line Side Device CX20548-11Z
Digital Isolation Barrier (DIB)
RAC
BLOCK B
BLOCK A SURGE PROTECTION CIRCUIT
TAC
RXI EIO
DIODE BRIDGE
AGND_LSD ACTIVE CHOKE
TXO AGND_LSD
SDIB_N SDIB_P
Line Side Device CX20548-12Z
TEL.LIN
AGND_LSD HANDSET MIC IN
TAC
EIO
HANDSET SPEAKER OUT
Host Side Device MODEM CX95110 ADG
BLOCK C
TELLINEMUTE TELMUTE SDAA_PWM
L.P.F.
Speaker Amp
SPEAKER
DELSIG Gain
BLOCK E CI BZOUT Fax Engine Controller CX95410
L.P.F.
SPMUTE BLOCK D
Fig. 6
2.5.1 Circuit description
2) TEL line interface circuit (BLOCK B)
The TEL line interface circuit is composed of the following 5 blocks.
It has the following functions.
1) Surge protection circuit (BLOCK A)
•
2) TEL line interface circuit (BLOCK B)
•
Dial pulse generation
3) Handset interface circuit (BLOCK C)
•
Hybrid circuit
4) Speaker amplifier circuit (BLOCK D)
IC1100 (CX20548-11Z) controls these functions
5) Modem circuit (BLOCK E)
3) Handset interface circuit (BLOCK C)
2.5.2 Block description
IC1200 (CX20548-12Z) controls Telephone Speach circuit.
On-hook status detection
1) Surge Protection circuit (BLOCK A)
TEL LINE MUTE:
This circuit protects the circuit from the surge voltage occurring on the telephone line.
TEL MUTE:
H: Handset speaker muting L: Muting cancel H: Handset mic muting L: Muting cancel
•
The AR1101 protects the circuit from the 300V or higher line surge voltages.
4) Speaker amplifier circuit (BLOCK D)
•
The AR1102 and AR1103 protect the circuit from the 500V or higher vertical surge voltage.
The amplifier (IC1001) of TEL line monitor and the Buzzer sound is done.
•
The VA1100 protect the Q1100, Q1101, Q1102 and Q1103 from the 330V or higher line surge voltage.
SPMUTE:
5 – 19
H: Speaker amplifier muting L: Muting cancel
FO-IS125N 5) Modem circuit (BLOCK E) The control of the FAX communication by IC1000 (CX95110). The detection of CI signal, and the line monitor signal is mode. (Example: Fax signal send)
PDIB_N PDIB_P
Line Side Device CX20548-11Z
Digital Isolation Barrier (DIB)
RAC
BLOCK B
BLOCK A SURGE PROTECTION CIRCUIT
TAC
RXI
DIODE BRIDGE
TEL.LIN
AGND_LSD ACTIVE CHOKE
EIO TXO
Analog AGND_LSD
SDIB_N SDIB_P
Line Side Device CX20548-12Z
AGND_LSD
TX/RX TX
HANDSET MIC IN
TAC
RX Digital
EIO
HANDSET SPEAKER OUT
Host Side Device MODEM CX95110 ADG
BLOCK C
TELLINEMUTE TELMUTE SDAA_PWM
L.P.F.
Speaker Amp
SPEAKER
DELSIG Gain
BLOCK E CI BZOUT Fax Engine Controller CX95410
L.P.F.
SPMUTE BLOCK D
Fig. 7 CX20548 LSD GPIO DC Electrical Characteristics Parameter Input Voltage
Symbol VIN
Min. -0.30
Typ. -
Max. 3.465
Units V V
Input Voltage Low
VIL
-
-
1.0
Input Voltage High
VIH
1.6
-
-
V
Output Voltage Low
VOL
0
-
0.33
V
Output Voltage High
VOH
2.97
-
-
Input Leakage Current -10 10 Output Leakage Current (High Impedance) -10 10 GPIO Output Sink Current at 0.33 V maximum 2.4 GPIO Output Source Current at 2.97 V minimum 2.4 GPIO Rise Time/Fall Time 20 100 Test Conditions unless otherwise stated: DVDD = +3.3V +5%; TA = 0°C to 70°C; external load = 50 pF
5 – 20
V µA µA mA mA ns
Test Conditions DVDD = +3.465V
FO-IS125N CX20548 (IC1100, IC1200) Terminal description Pin Name
Pin No.
Pin I/O
PWR
15
PWR
VC
3
REF
AVDD
2
PWR
DVDD
1
PWR
PADDLE (AGND)
17
AGND_LSD
DIBP
14
I/O
DIBN
16
I/O
RAC, TAC
4, 5
I, I
EIC
11
O
EIO
10
O
EIF
9
I
RXI
6
I
TXO
8
O
TXF
7
I
I/O Type Signal Description System Interface Signals PWR Unregulated Power Output. Unregulated power output from the internal rectifier, connect to AGND_LSD through C870. REF Output Middle Reference Voltage. Connect to AGND_LSD through C844, which must be placed close to pin 3. Use a short path and a wide trace to AGND_LSD pin. PWR Analog Power Output. Provides external connection point for decoupling. (AVDD is routed internally to LSD analog circuits.). Connect to AGND_LSD through C828. C828 must be placed close to pins 2. PWR Digital Power Output. Provides external connection point for decoupling. Connect to AGND_LSD through C830. Place C830 near pin 1. AGND_LSD Paddle Analog Ground. The conductive surface located on the bottom of the package is connected internally to device analog ground. Connect to AGND_LSD. DIB Interface Signals I/O DIB Positive. Positive terminal of DIB, connect to secondary of DIB transformer. I/O DIB Negative. Negative terminal of DIB, connect to secondary of DIB transformer. TIP and RING Interface Signals Ia, a RING DC Coupled and TIP DC Coupled. Un-rectified voltage from telephone line used to detect ring. Connect RAC to the diode bridge DC node (RING) through R802 (connects to pin 4). Connect TAC to the diode bridge DC node (TIP) through R804 (connects to pin 5). Oa Electronic Inductor Capacitor. Electronic inductor filtering capacitor. Connect to AGND_LSD through C858. Oa Electronic Inductor Output. Calculated voltage is applied to this output to control off-hook and DC VI mask operation. Connect to base of Q804. Ia Electronic Inductor Feedback. Connect to emitter of Q804 through R826. Ia Receive Analog Input. Receiver operational amplifier inverting input. AC coupled to the Bridge_CC node through R810 (connects to pin 6) and C810 in series. R810 and C810 must be placed very close to pin 6. The length of the PCB trace connecting R810 to the RXI pin must be kept at an absolute minimum. Oa Transmit Output. Outputs transmit signal and impedance matching signal; connect to base of transistor Q802. Ia Transmit Feedback. Connect to emitter of transistor Q802 Not Used It/Ot12 General Purpose I/O. Leave open if not used.
GPIO 1 I/O Notes: 1. I/O types*: Ia Analog input It Digital input* Oa Analog output Ot12 Digital output* AGND_LSD Isolated LSD Analog Ground (isolated from the host system ground) *See CX20548 LSD GPIO DC Electrical Characteristics. (Page 5-20). 2. Refer to applicable reference design for exact component placement and values.
5 – 21
FO-IS125N 3. Printer mechanism control block 3.1. Unit control 3.1.1 High voltage unit control The high voltage unit outputs the following voltages: •
Main charger voltage (DC-950V + AC760V peak to peak)
•
Transfer charger voltage (DC+3600V + AC760V peak to peak)
•
Developing bias voltage (DC-200V) The following signals are outputted from the CPU and Logic to control the above voltages.
•
MCON This signal is to turn on/off the main charger. When this signal is outputted. As a result, the main charger voltage is outputted to the secondary side of the transformer (B51).
•
TCON This signal is to turn on/off the transfer charger and the developing bias voltage.
•
PWMSIN This signal is to control the main charger voltage and the transfer charger voltage. The PWM pulse of about 300Hz is outputted. This pulse waveform adds the AC component to the main charger voltage and the transfer charger voltage. By changing the pulse duty of this signal, the main charger voltage and the transfer charger voltage are controlled.
3.1.2 Electrical connection
FAX ENGINE IC100
22
High Voltage PWB Unit TCON
Constant voltage control circuit
Oscillation circuit
B1 Transformer
LASER MFP HV(+) Rectifier circuit
Feedback circuit
21
MCON
27
Constant voltage(-) circuit Oscillation circuit
B51 Transformer
Feedback circuit PWMSIN
PWM control circuit
TC
HV(-) Rectifier circuit
Constant voltage(+) circuit
Fig. 8
5 – 22
Transfer Roller OPC DRUM
HV(-) Rectifier circuit
Short protection circuit Constant voltage control circuit
250MΩ
110MΩ
CONTROL PWB
Separation electrode SV DV
Short circuit MC
FU-EARTH
Supply Roller Developing Roller Doctor Charger Roller
Heat Roller Pressure Roller
FO-IS125N 3.1.3 Laser scanning unit
1) Signal functions
This unit controls the laser beam power and laser beam scanning.
PMCLK Clock signal for driving the scanning motor. (2659.57Hz) PMD Scanning motor ON/OFF signal. HSYNC This signal is outputted when the laser beam scanned by the laser beam sensor signal is sensed by sensor (Photo diode). Used for the left margin control. VIDEO This signal is used to control the laser diode emitting. Not only when the laser beam is emitted to perform the LEND process, but also when the laser beam is emitted as image data, Fax Engine (IC100) controls and the signal is outputted from video terminal.
The control is performed with the signals inputted outputted to or from the CPU and Logic circuit.
Laser scanning unit (LSU) Laser start position sensor
Scan
Photodiode
Lens
Lens
Laser
2) Laser beam power control The laser beam power is controlled in the laser scanning unit. This circuit functions to keep the laser beam output power at a constant level.
Lens
The laser beam output is monitored with photo diode for monitor. When the laser beam output rises above the specified value, the impedance of photo diode is decreased to decrease the monitor input voltage of the laser diode control IC.
LD PWB Polygon mirror
Laser diode
Polygon motor
Fig. 9
Then the laser diode drive voltage is decreased to decrease the laser beam output to the specified level.
Laser Scanning Unit (LSU)
When the laser beam output is decreased below the specified level, the contrary operation are performed.
LD PWB
Amp. nHSYNC
3) Timing of scanning
Laser
8
4
nVIDEO nS/H
3
+5V
6
GND
1, 5, 7
2
ON OFF
Effective printing width Effective width of printing data 16.26mm 27.88µs
Laser diode driver nLDEN
Laser
Photodiode
216mm 370.34µs
Laser
1.0µ s max.
1 LINE 328.95mm 564.0µs
Non-Active nHSYNC Active
Laser diode
>3.75mm >6.43µs
F-number/Focal Length:104.7mm VIDEO CLK:13.7774MHz Polygon rotation speed/Rotation speed:26595.7min-1
Fig. 11 a) Scanning motor interface
Polygon motor
Motor driver CLOCK nREADY
2 3
GND
4
+24V
5
Terminal CLOCK nREADY
I/O Input Output
3
nSTART
Input
4 5
GND +24V
-
Motor
1
nSTART
Pin No. 1 2
Polygon motor Polygon mirror
Fig. 10
5 – 23
Function Clock input Motor rotation detect signal "L": Synchronous "OPEN": Asynchronous Motor control signal "L": Start "OPEN": Stop GND Power supply (+24V)
FO-IS125N 3.1.4 Fusing unit control
b) Laser Drive circuit operation timing
The fusing section is heated by the heater lamp (500W). The heater lamp is controlled (turned on/off) to keep the optimum temperature. The following signals are outputted by the CPU and Logic circuit for control.
Laser drive circuit/LD Drive Circuit nHSYNC nLDEN Laser OFF time/LD OFF Time nVIDEO
1) Signal functions
3µs following/Less than 3µs
•
nS/H
This signal is to turn on/off the heater lamp. When this signal is outputted turn on triac TRA1. Then an AC power is supplied to the heater lamp to turn on the heater lamp.
Laser output
Settling time/Settling Time 3ms above/More than 3ms
APC correction time/Auto Power Control Time 10µs above/More than 10µs
•
Fig. 12
IN
CLOCK
24V Min 10 ms
0V
Min 10 ms
2) Protect against overheat
H L
Min 0.1s
Though the heater lamp ON signal (HLON-) is normal, if triac TRA1 are kept ON, overheat may result.
Min 0.1s
H nSTART
OUT
CHECK signal monitoring
nREADY
nREADY Speed Jitter etc.
L
To prevent against this, temperature fuses are used.
UNLOCK Asynchronous LOCK Min 1s synchronous
Starting time (Max 0.5s)
When the fusing roller surface temperature exceeds about 214 degrees C, the temperature fuse blows off to open the +24V power line which drives the power relay RL1, opening the power line for the photo triac TRA1. Therefore, the power is not supplied to the heater lamp.
Min 10 ms
UNCHECK CHECK
Min 1s
GO
A temperature fuse is also provided in the heater lamp power line. In case of overheating, the heater lamp power line is opened directly.
STOP
Fig. 13 d) Laser Drive circuit interface Pin No. 4
Terminal nLDEN
I/O Input
2
nS/H
Input
3
nVIDEO
Input
1 5 7 6 8
GND GND GND +5V nHSYNC
RHT This is the output signal of the thermistor which detects the surface temperature of the heat roller. It is inputted to the CPU. The heater lamp is turned on/off depending on the value of RTH voltage.
c) Each signal injection timing of the scanner motor DC24V
HLON
Output (Opencollector)
3) Timing of temperature detection and heater control As shown by the following timings, four values of software thermistor voltage are input as A/D conversion values. The mean value of two medians among these four is regarded as the newest thermistor value (temperature).
Function Signal enables Laser driven "H" : Disable "L" : Enables APC control signal "H": Hold "L": Sampling Laser control signal "H": Laser OFF "L": Laser ON GND GND GND Power supply (+5V) Horizontal synchronize signal "H": Asynchronous "L": Synchronous
•
The value is compared with the temperature (200°C) control value every 100 ms.
•
If the value is higher than 200°C, the heater becomes OFF. If lower, the heater becomes ON.
•
The heater ON timing is in accordance with the timing of Power Zero Cross interrupt. Heater ON/OFF Control
Heater ON/OFF Control
T (x 10ms) Inputting thermistor values
Timings of thermistor value input and heater control
Fig. 14 4) Heater control (Temperature control) Control method a) Base machine printing (Copy, List, Receiving)
5 – 24
•
Temperature control is started when data to be printed are produced (or when slips are to be prepared).
•
Temperature is controlled at 200 °C. (Heater OFF over 200 °C. Heater ON below 200 °C.)
•
After printing, temperature is not controlled. (Heater is not turned ON.)
•
Fan motor starts revolving from the beginning of temperature control and stops 120 seconds after printing is finished.
FO-IS125N b) PC printing •
Temperature control is started when PC starts printing.
•
Temperature is controlled at 200 °C. (Heater OFF over 200 °C. Heater ON below 200 °C.
•
After printing, temperature is not controlled.
•
Fan motor starts revolving from the beginning of temperature control and stops 120 seconds after printing is finished. Temperature control is not started from the start of printing because the first copying time should be within 28 seconds. In case of PC printing (Single sheet/continuous) 200°C
Printing finished
Printing started Temperature control started HLON OFF FAN
Fig. 15
3.1.5 Electrical connection Heater lamp: Thermistor:
Temperature fuse 1 (152°C):
Temperature fuse 2 (216°C):
The 500W halogen lamp is used. Thermistor of chip type with good response is used to respond to rapid heating of the heat roller. Temperature fuse 1 is installed to the fusing cover. It blows off when the ambient temperature of the fusing cover rises abnormally (152°C). Temperature fuse 2 is in close contact with the heat roller. It blows off when the heat roller temperature rises abnormally high (216°C).
The heat roller surface temperature is maintained to the optimum level by controlling ON/OFF of the heater lamp according to the temperature data (voltage) from the thermistor. The heat roller surface temperature is controlled to 200°C. Two temperature fuses are provided to protect the heat machine from an abnormally high temperature in the fusing section. The heater lamp is lighted by the AC power.
CNPW/CN3 CONTROL PWB FAX ENGINE (IC100) 29
POWER PWB
Q400
HLON
HLON
CN1 3 L
PC2
Temperature fuse 1 (152°C)
TRA1
1 RESET
IC401
Heater lamp
RL1
+
+3.3V +3.3V
Temperature fuse 2 (216°C)
CN1 1 N
CN4 3 ACN 1 ACL
CNRTH 1 +5V 2 RTH
Thermistor
+24VS +24VMAIN CN5 1 +24VMAIN 3 +24VS
40 RTH
Fig. 16
5 – 25
FO-IS125N
[3] Circuit description of power supply PWB 5. +24V output circuit block
This power supply unit has the function to convert the AC120V (50/ 60Hz) to DC24V, and provide these outputs to the control PWB. The following explains the function of each block. (See Fig. 17)
This circuit block rectifies and smoothes the high-frequency pulse voltage provided by the transformer, and provides the DC24V output to the control PWB. The output voltage is adjusted by the variable resistor(VR101).
1. Filter circuit block This circuit reduces the outgoing noise through the input lines which is generated in the power supply unit, and prevents the invasion of the noise from the lines. (the excessive surge such as the thunder is prevented by the varitstor (Z1).)
6. +24V MAIN output circuit block This circuit block supplies DC24V output to control PWB through a connector (CN2) from 24V provided by the transformer.
2. Rectification and smoothing circuit block
7. +24VS circuit block
This circuit rectifies and smoothes the AC input, and provides the DC voltage to the switching circuit block.
This circuit block supplies DC24V output to +24VS through a connector (CN5) from 24V MAIN.
3. Switching circuit block
8. AC output circuit block
This circuit converts the DC voltage (provided from the Rectification and smoothing circuit block) to the high-frequency pulse voltage by FET (Q1)’s switching (on/off repeat), and provides the energy to the transformer (T1). It discharges the energy (charged during the FET ON time) to the secondary side during the FET OFF time through the secondary windings. The output voltages on the secondary side provided by the energy depend on the ratio of the winding turns (primary: secondary) etc.
This circuit block supplies AC output from AC input to control PWB through the optical-isolator (PC2) and the power-relay (RL1) by signals (+24VS /HEATER ON).
9. Zero cross circuit block This circuit block rectifies the AC input, and provides the ZC signal to control PWB through the photo-coupler (PC3).
4. Control circuit block This circuit block controls the output voltage by transmitting the detected 24V voltage to the primary control circuit through the photocoupler (PC1). In case of the over-current, this circuit reduces providing the energy to the transformer. In case of the over-voltage, this circuit reduces providing the energy to the transformer by letting the Power-Zener (D104; connected between the 24V output voltage and GND) into the short mode and letting the over-current protection circuit work. (7) +24VS CIRCUIT BLOCK CN5 POWER RELAY
AC OUT
+24VS
(8) AC OUTPUT CIRCUIT BLOCK
HEATER ON
OPTICAL ISOLATOR
(6) +24V MAIN OUTPUT CIRCUIT BLOCK +24V MAIN
TRANSFORMER
INPUT
(1) FILTER CIRCUIT BLOCK
(2) RECTIFICATION AND SMOOTHING CIRCUIT BLOCK
(3) SWITCHING CIRCUIT BLOCK
CN2 (5) +24V CIRCUIT BLOCK
+24V SUB
Ach (4) CONTROL CIRCUIT BLOCK
PHOTO-COUPLER GND
(9) ZERO CROSS CIRCUIT BLOCK
ZC
Fig. 17
5 – 26
FO-IS125N
[4] Circuit description of CIS unit
2. Waveforms
1. CIS
The following clock is supplied from IC100 (CX95110) of the control board, and VO is output.
Cis is an image sensor which puts the original paper in close contact with the full-size sensor for scanning, being a monochromatic type with the pixel number of 1,728 dots and the main scanning density of 8 dots/mm.
Approx. 5ms Approx. 3.3V
ΦT
0V
2µs
It is composed of sensor, rod lens, LED light source, light-conductive plate, control circuit and so on, and the reading line and focus are previously adjusted as the unit.
CISCLK
Due to the full-size sensor, the focus distance is so short that the set is changed from the light weight type to the compact type.
VO
0.6V~2.6V (White original paper)
Fig.18
[5] Circuit description of operation panel PWB 1. Operational description
2) LCD The LCD display density is not controlled. Other lines are included E/RS/VO signals.
1) Operation panel PWB The operation panel PWB consists of 70 keys.
3) LED
This PWB includes the four KEN lines (5bit) and the seven /SEN lines (7bit). The four KEN lines are controlled by CX95410-12Z (Fax Engine) on control PWB and the seven SEN lines return signals to Fax Engine control PWB. Four KEN signals are inputted to decorder owing to make Y signal.
The LED on this PWB is also controlled by LEDON (1bit signal) from control PWB.
2. Block diagram KEY MATRIX /SEN[6:0]
Y[9:0] KEN[3:0]
Decorder
LCD DATA[3:0]
E/RS/VO/3.3V +3.3 V
R LED
LED ON (From IC100)
B
C E DG
Fig. 19
5 – 27
FO-IS125N
[6] Data flow chart 1. COPY Control PWB Fax Engine (IC100)
1
CIS
2
4
Laser Scan Unit
Printing
3 SDRAM (IC202)
2. FAX/SEND Control PWB CIS
Fax Engine (IC100)
1 2
5 SDRAM (IC202)
6
Fax Modem (IC1000)
3
7
LSD (Line Side Device) (IC1100)
TEL LINE
PSTN
Flash (IC201, IC203, IC204, IC206)
4
3. FAX RECEIVE Control PWB PSTN
TEL LINE
LSD 1 (Line Side Device) (IC1100)
Fax 2 Modem (IC1000)
Fax Engine (IC100) 3
7
6
Laser Scan Unit 4
SDRAM (IC202)
5
Printing
Flash (IC201, IC203, IC204, IC206)
4. NET WORK (Print) Control PWB Ethernet
1
LAN Controller (IC800)
2
Fax Engine (IC100) 3
5
Laser Scan Unit
4 SDRAM (IC202)
5. NET WORK (Scan) Control PWB CIS
1
Fax Engine (IC100) 2
4
LAN 5 Controller (IC800)
3 SDRAM (IC202)
5 – 28
Ethernet
Printing
FO-IS125N
[7] Troubleshooting 1. Printer error table
LASER ERROR
The Fax Engine detected the optical unit (LSU) error.
THERMISTER ERROR
Thermistor error was detected.
HEATER HIGH
High temperature error was detected.
HEATER LOW
Low temperature error was detected.
2. Troubleshooting of control PWB
1 LASER ERROR
LSU Error
Scanning-motor Error
IC100 (Fax Engine)
CNPM (Connector)
Q300 (Transistor)
IC301
R313
Optical Error (Laser)
+5V-Regulator Circuit fail
IC302 (Regulator IC) F300 (fuse) R312 D300 (Diode) C305,C306,C307
Control signal fail
IC100 (Fax Engine) CNLSR (Connector) IC300, IC301 R,C around above ICs
A Q301
5 – 29
FO-IS125N A 2
L100 IC100 (40pin, 44pin) (Fax Engine)
THERMISTER ERROR
CNRTH (Connector) C, R on route of CNRTH-40pin of IC100 D101 (Diode)
3 HEATER HIGH
Fuser Temp. too High
Temp. detect Error
IC100 (Fax Engine)
CNRTH (Connector) Other parts on route of CNRTH-IC100
Heater control Error
/HLON signal
IC100 (Fax Engine)
CNPW-9pin/10pin
B
Q400
B 4 HEATER LOW
Fuser Temp. too Low
Temp. detect Error
IC100 (Fax Engine)
CNRTH (Connector) C, R on route of CNRTH-IC100
CNPW-9pin/10pin
IC401, Q400 Heater control Error
No detect zerocross signal (/ZC)
IC100 (Fax Engine)
CNPW-10pin C, R on route of CNPW(10pin)-IC21
5 – 30
/HLON signal
IC100 (Fax Engine)
Safety circuit
IC400 (Comparator) R, C around above IC400 IC401 R, C around above ICs
A
Q100 2SA2059
1
C142 10u (2012)
DG
C143 1000p
1
2 VBAT
TP111 TP112
DG
DG
L101 0 (1608)
B
6–1 D100 0 (RB751S-40) K A
PLLVDD
R117 100K
C134 10u (2012)
DG
R119
C138 N.M. (2012)
2
PLLVDD
C139 18p
X101 24MHz
DG
DG
C
1M
1
R125
R124 1.2K
C140 22p
0
TP113
C141 N.M.
DG
D
TP108
2.2K
33
TP110 R116
C129 0.1u
nRESET
R123
TP109 +3.3V
C136 0.1u
R115 0
C107 0.1u
C106 0.1u
C104 0.1u
C103 0.1u
100
R102
R101
100
R100
0
(7-2G) (10-3E) (2-1B) (2-1B) (2-2B) (3-3A) (10-3B) (10-4A) (10-3B) (3-5A) (12-1F) (10-1F) (3-6A)
(3-4A) (8-4H) (8-2E) (8-2E) (2-1G,5-5A,6-3B)
nFRSNS
LDEN nLANRES nLANINT nLANPME nMANRES
(2-5D,10-4B) (2-6A,10-4B) (2-6D,10-4B) (2-1A,2-6A) (10-4B) (7-2B)
DELSIG SPI0SEL2 SPI0SEL1 SPI0SEL0 HSYNC CI nMDMINT nMDMRES PDATA nRHS SPMUTE S_nH
SPI_CLK SPI_MI SPI_MO SPI_SS0 SPI_SS1 nORGSNS
Main Control Block (1/2)
RTH (4-6A) (5-1B) nTCT2 (5-2B) nTCT1
VCORE R113 0
MS1 MS2 nTMEN CIS_CLK LEDON
C126 10p 8p
(6-3B) (6-3B) (6-3B) (6-5A) (7-2H)
2
8 7 6 5
33
DG 100
R122
X100 32.768KHz R106
33
DG C121 C118 0.1u
R121
100x4
PMCLK HVPWM MMSTEP nHLON TMSTEP
100x4
C
(3-2A) (4-2B) (5-5A) (4-4F) (6-3B)
C122 1u (1608) C120 0.1u C115 0.1u
C128 0.1u
BR112 C116 0.1u
C135 0.1u
100x4 1 2 3 4 8 7 6 5
1 2 3 4
C137
8 7 6 5 100x4 BR110 1 2 3 4
1000p
1 2 3 4 8 7 6 5 100
BR101 100x4 8 7 6 5
C127 0.1u
(2-6D) SDRA[12:0] BR109 R104
C100
8 7 6 5
(3-2A) PMD (5-5A) nMMEN (4-2B) MCON (4-2B) TC/BSON PUS (5-4F)
+3.3V
10K
BR111 C113 0.1u
DQ[14] DQ[13] DQ[12] DQ[11] DQ[10] VDDO VSS VDD DQ[9] DQ[8] DQM[1] DQM[0] SDRAM_CLK VDD VSS CKE WEn CASn RASn BA[0] BA[1] VDD VSS VDDO ADDR[0] ADDR[1] ADDR[2] ADDR[3] ADDR[12] ADDR[11] ADDR[10] VDD VSS VDDO ADDR[9] ADDR[8] ADDR[7] ADDR[6] ADDR[5] ADDR[4] RTC_VDDO RTC_VSS RTC_XIN RTC_XOUT
R120
C102 C 0.1u
DG
C105 0.1u
BR100 100x4
FANON nDOP nZC
SDRA0 SDRA1 SDRA2 SDRA3 SDRA12 1 2 3 4 C110 0.1u
133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176
0.1u
132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89
SDRD0 SDRD1 SDRD2 SDRD3 SDRD4 SDRD5 SDRD6 SDRD7
C130
100x4 DQ[15] DQ[7] DQ[6] DQ[5] DQ[4] VDD VSS VDDO DQ[3] DQ[2] DQ[1] DQ[0] GPIO[71] GPIO[70] GPIO[69] GPIO[68] GPIO[67] GPIO[66] VDD VSS VDDO GPIO[65] GPIO[64] GPIO[63] GPIO[62] GPIO[61] GPIO[60] GPIO[59] GPIO[58] GPIO[57] GPIO[56] GPIO[55] GPIO[54] GPIO[53] VDD VSS VDDO GPIO[52] GPIO[51] GPIO[50] GPIO[49] GPIO[48] GPIO[47] GPIO[46]
(2-6D) SDRD[15:0]
(3-5G) (4-2F) (9-5C)
B 1 2 3 4 8 7 6 5 C109 0.1u
0.1u
100x4
C133
VBAT SDRA11 SDRA10 SDRA9 SDRA8 SDRA7 SDRA6 SDRA5 SDRA4 BR107 100x4
PWRDWNn BATRSTn PLL_VSS PLL_VDD XIN/EXTCLK XOUT JTAG_CPU_TCK JATG_CPU_TDI JATG_CPU_TDO JTAG_CPU_TMS RESETn TEST_MODE/RCOSC GPIO[0] GPIO[1] GPIO[2] VDD VSS VDDO GPIO[3] GPIO[4] GPIO[5] GPIO[6] GPIO[7] VDD VSS GPIO[8] GPIO[9] GPIO[10] GPIO[11] GPIO[12] VDD VSS VDDO GPIO[13] GPIO[14] GPIO[15] GPIO[16] GPIO[17] ADC_VSS MADC_IN[0] MADC_IN[1] MADC_IN[2] MADC_IN[3] ADC VDDO
B
TP114 TP115 TP116 TP117
(1-3G) VCTRL 1 2 3 4 8 7 6 5
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44
4
8 7 6 5 BR102
2.2M
3
1 2 3 4 BR104 1 2 3 4
R111
SDRCLK (2-4H) (2-4H) SDRUDQM (2-4D) SDRLDQM (2-4H) SDRCLKE nSDRWE (2-4D) (2-4D) nSDRCAS (2-4D) nSDRRAS (2-4D) SDRBA0 (2-4D) SDRBA1
2
SDRD15 SDRD14 SDRD13 SDRD12 SDRD11 SDRD10 SDRD9 SDRD8
1
A
E
6
C
FO-IS125N
FO-IS125N
CHAPTER 6. CIRCUIT SCHEMATICS ANDService PARTSManual LAYOUT
[1] Control PWB circuit
1. Main Control Block (1a/12)
D
R1
470p
+3.3V
5
VCORE
IC100 CX95410-12Z FAX ENGINE
TP107
C
0
AK
DG
AK
FO-IS125N 2. Main Control Block (1b/12)
E
F
G
H
Main Control Block (2/2)
LDEN nLANRES nLANINT nLANPME nMANRES
(3-4A) (8-4H) (8-2E) (8-2E) (2-1G,5-5A,6-3B)
1/12
6
R126
10K VCORE
+3.3V
C101 1000p
C100 70p
C104 0.1u
DG
+3.3V
5
96 95 94 93 92 91 90 89
VCORE
VSS VDDO GPIO[52] GPIO[51] GPIO[50] GPIO[49] GPIO[48] GPIO[47] GPIO[46]
LAN_D[15:7] (7-6F,8-1A)
88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45
AVDD 1
BR103
8 7 6 5
1 2 3 4
33x4 R103
C111 0.1u C112 0.1u
1 2 3 4
33
TP103
0.1u
7.50K-F
1000p
R112
C125
1000p
LAN_AD6 LAN_AD5 LAN_AD4 LAN_AD3 LAN_AD2 LAN_AD1 LAN_AD0
8 7 6 5
(7-5A) ALE nLANWR (8-4H) nLANRD (8-4H) nLANCS (8-4H) LCDE/nLCDCS (7-2B) nPANELCS (7-4F) nLCDRES (7-1B) N.M.
100
10K R110
C124
C123
BR108
R107
C119 0.1u
TP104 TP105
L100 2 (1608)
1 2 3 4
0
R108
R109
4
(7-6A,8-1C)
100x4
R105
TP101 TP102
LAN_D15 LAN_D14 LAN_D13 LAN_D12 LAN_D11 LAN_D10 LAN_D9 LAN_D8 LAN_D7
8 7 6 5
LAN_AD[6:0] 8 7 6 5
C114 0.1u
C117 0.1u
BR105
33x4
BR106
100x4
0
UARTTX
(5-1F)
PMRDY nTCT0 BZOUT CIS_SP CIS_LED nPIN nPOUT
(3-1A) (5-2B) (10-2E) (6-6A) (6-5A) (5-3F) (5-2F)
VCTRL CIS_AIN
(1-1A) (6-6A)
3
R114
37 38 39 40 41 42 43 44 TP106
1 2 3 4
C108 0.1u
GPIO[15] GPIO[16] GPIO[17] ADC_VSS MADC_IN[0] MADC_IN[1] MADC_IN[2] MADC_IN[3] ADC_VDDO
VSS VDDO GPIO[45] GPIO[44] GPIO[43] GPIO[42] GPIO[41] GPIO[40] GPIO[39] VDD VSS VSS VDDO GPIO[38] GPIO[37] GPIO[36] GPIO[35] GPIO[34] GPIO[33] VSS VDD GPIO[32] GPIO[31] GPIO[30] GPIO[29] GPIO[28] GPIO[27] GPIO[26] GPIO[25] VDD VSS VDDO GPIO[24] GPIO[23] GPIO[22] GPIO[21] GPIO[20] GPIO[19] GPIO[18] VREG_ENABLE VREG_CTRL ADC_IN ADC_RBIAS ADC_VREF
N.M. (1608) 2
VG
TP108
VCORE C131
C132 10u (2012)
0.1u
+3.3V
VG
DG
33
D101 1SS302
AVDD K
AK
DG
R123
A K
AK D103 1SS302
K A
A D102 N.M. (1SS302)
VG
RTH (4-6A) (5-1B) nTCT2 (5-2B) nTCT1
( ) nTMEN (6-5A) CIS_CLK (7-2H) LEDON
AK
2
0 (1608)
R118
1
E
F
G
6–2
H
1
2
3
4
5
6
SPI0SEL0 SPI0SEL1 SPI0SEL2
R202
TP200
R200
A
(1-6D,2-6A) SPI_SS0
(1-6D) (1-6D) (1-6D)
(2-1D) nFLCS4
(2-1D) nFLCS3
(2-1D) nFLCS2
(2-1D) nFLCS1
(2-1D) nROMCS (1-6D,10-4B) SPI_MI
(1-6D,2-1A) SPI_SS0
Memory Block
0
N.M.
DG
CE# SO WP# VSS
VDD HOLD# SCK SI
8 7 6 5
CE# SO WP# VSS
VDD HOLD# SCK SI
8 7 6 5
CE# SO WP# VSS
VDD HOLD# SCK SI
8 7 6 5
CE# SO WP# VSS
VDD HOLD# SCK SI
8 7 6 5
CE# SO WP# VSS
TP206
BR200 10Kx4
1 2 3 4
B
DG
C215 0.1u
8 7 6 5
DG
C204 0.1u
R204 4.7K
DG
C200 0.1u
TP202
8
16
4 5 6
1 2 3
GND
VCC
E1 E2 E3
A0 A1 A2
O0 O1 O2 O3 O4 O5 O6 O7
15 14 13 12 11 10 9 7
+3.3V
TP203
DG
C
R201 100
DG
C214 0.1u
+3.3V
DG
C211 0.1u
+3.3V
C205 0.1u
+3.3V
+3.3V
IC207 74VHC138FT
VDD HOLD# SCK SI
IC206 SST25VF016B Flash-4 FLASH(DATA4)
1 2 3 4
IC204 SST25VF016B Flash-3 FLASH(DATA3)
1 2 3 4
IC203 SST25VF016B Flash-2 FLASH(DATA2)
1 2 3 4
IC201 SST25VF016B Flash-1 FLASH(DATA1)
1 2 3 4
TP209 TP211 TP207
+3.3V
1 2 3 4
8 7 6 5
+3.3V
DG
TP213
DG
TP212
DG
TP205
DG
TP204
TP201
IC200 SST25VF016B (ROM) Flash-0 FLASH ROM
5 6 7 8 BR201 100x4
4 3 2 1
to Flash-4 to Flash-3 to Flash-2 to Flash-1 to Flash-0
(1-6D,10-4B) SPI_CLK SPI_MO (1-6D,10-4B)
D
nFLCS4 nFLCS3 nFLCS2 nFLCS1 nROMCS
2
(2-3A) (2-4A) (2-4A) (2-5A) (2-6A)
SDRA10 SDRA0 SDRA1 SDRA2 SDRA3
OUT
IC208 PST421A380N
(1-4A) SDRLDQM (1-4A) nSDRWE (1-4A) nSDRCAS (1-4A) nSDRRAS SDRBA0 (1-4A) (1-4A) SDRBA1
(1-6A) SDRD[15:0]
(1-3A) SDRA[12:0]
D
3
C
E
V4D
DG
C212 0.1u
SDRD7
SDRD5 SDRD6
SDRD3 SDRD4
SDRD1 SDRD2
SDRD0
E
C206 0.1u
C208 0.1u
C202 0.1u
TP208
F
DG
VDD DQ0 VDDQ DQ1 DQ2 VSSQ DQ3 DQ4 VDDQ DQ5 DQ6 VSSQ DQ7 VDD LDQM /WE /CAS /RAS /CS BA0 BA1 A10/AP A0 A1 A2 A3 VDD
C213 1u
R213 2.2K
+3.3V
DG
VSS DQ15 VSSQ DQ14 DQ13 VDDQ DQ12 DQ11 VSSQ DQ10 DQ9 VDDQ DQ8 VSS NC UDQM CLK CKE NC A11 A9 A8 A7 A6 A5 A4 VSS
TP210
R212 N.M.
54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28
IC202 C203 0.1u EDS2516AFTA-75-E 256Mbit SDRAM
/RES
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
DG
F
IC205 N.M. (BD45385G)
C207 0.1u
C201 0.1u
+3.3V
4 GND VOUT
B
5 VCC M/R 1
VDD GND 1
SUB 2
6–3 3
A
SDRD8
SDRD10 SDRD9
SDRD12 SDRD11
SDRD14 SDRD13
SDRD15
G
(1-2B,4-5E)
C210 27p
R206 10K
+3.3V
nMANRES (1-6E,5-5A,6-3B)
nRESET
C209 0.1u
+3.3V
G
H
SDRUDQM (1-6A) SDRCLK (1-6A) SDRCLKE (1-6A)
H
SDRA12 SDRA11 SDRA9 SDRA8 SDRA7 SDRA6 SDRA5 SDRA4
2/12
1
2
3
4
5
6
FO-IS125N
3. Memory Block (2/12)
6–4
1
2
3
4
5
6
PMD
A
(1-3G) PMRDY
(1-1D)
(1-1D) PMCLK
(1-6D) HSYNC
(1-6D) LDEN
(1-6D) PDATA
(1-6D)
S_nH
DG
DG
R306 10K
R303 10K
R314
DG
DG
7
14 3
4
3
1
13
MG
4
5
Q300 RN1702
12
14
3
R308
DG
B
6
Q301 RN1702 3
1
10
9
DG
7
8 R305
R302
3.3K
C
C308 N.M.
6
1
MG
R311 10K
+3.3V
100
10
INT5V
DG
C309 N.M.
R313
DG
33
R310 100K
D
5
4
3
+24V
TP308
1 2
MG
10
TP302
TP301
TP300
-START
+24V
GND
TP305
5
4
3
2
1
DG
TP303
INT5V
CNPM A2001WV2-5PE
-READY
CLK
R307 1K
INT5V
TP307
TP306
DG
C304 33p
R309
IC300C TC74VHCT00AFT
14
INT5V
L300 0 (MMZ1005Y102C)
DG
4
5
R300
IC301A HD74LV1GW14ASCE 100
C303 0.1u
INT5V
DG
7
14
INT5V
IC301B HD74LV1GW14ASCE
100
7
11
R304 100
5
4
IC300B TC74VHCT00AFT
IC300D TC74VHCT00AFT
DG
R301 10K
2
1
IC300A TC74VHCT00AFT
INT5V
2
Optical Unit (LSU) Block
N.M. C300
D
N.M. C301
C
N.M. C302
B
2
E
E
8
7
6
5
4
3
2
1
-HSYNC
DGND
+5V
DGND
-LDEN
8
7
6
5
4
3
2
1
+24V
F
GND
VCC
2
5
FANON
2
DG
C310 0.1u
+3.3V
1
F300 KAB5002 251 NA29
(1-1D)
IC301C HD74LV1GW14ASCE
CNLSR B8B-PH-K-S
-VIDEO
-S/H
DGND
F
C
G
DG
C305 0.1u/50V (1608)
R312 47 (2W)
MG
E
B
Q302 RT5N234C
G
K A
A
1
K
IC302
3
D300 1SS352
3
2
1
A
H
+
CNFM A2001WV2-3P
C306 22u/16V
VFM-
NC
VFM+
KIA7805API/P
2
Vin Vout GND
TP304
D301 1SS352
+24V
H
3
2
1
C307 0.1u
INT5V
I
I
3/12
1
2
3
4
5
6
FO-IS125N
4. Optical Unit (LSU) Block (3/12)
1
2
3
4
5
A
(1-1E) RTH
MCON
(1-1D) TC/BSON
(1-1D)
(1-1D) HVPWM
DG
R404 4.7K
R402 2.2K
+3.3V
B
R403
C407 1000p
150K
C401 0.1u/50V (1608)
C408 1000p
TP403
DG
DG
C406 1000p
3
2 +
-
C
R413
DG
DG
N.M.
4
TP409 5
3
1
TP407
MG
1M
2
+24V
R405
1
TP402
TP400
+24V
TCON
MCON
PWMSIN
D
RTH2
RTH1
R401 2.2K
D
5
4
3
2
1
+3.3V
2
1
CNHV A2001WV2-5P
+3.3V
PGND
R400 7.50K-F
IC400A LM393L-S08
C400 0.1u
TP405
+24VH
8 4
6
C
Printer Control (Fuser & High Voltage) Block
B
2
1
(1-2B,2-2G) nRESET
CNRTH B2B-PH-K-M
E
C403 1000p
E
DG
DG
(1-1D) nDOP
(1-1D) nHLON
C404 1000p
6
1 2
7
F
CLR
CLK D
PR
GND
VCC
Q
Q
R406 2.2K
4
8
3
5
IC401 TC7WH74FK
F
R412
G
1M
7
DG
+
-
+24VH
TP404
IC400B LM393L-S08
+3.3V
DG
C402 0.1u
+3.3V
TP401
G
8
6–5
4
A
5
6
B
C
TP408
TP406
Q400 RN2406
E
R409 100K
DG
H
R410 5.6K
R407 30K
+24VH
H
C405 0.1u
DG
R411 4.7K
R408 20K
+24V
HLON (9-5D)
I
I
4/12
1
2
3
4
5
6
FO-IS125N 5. Printer Control (Fuser & High Voltage) Block (4/12)
6–6
1
2
3
4
5
6
nMMEN
A
(1-6E,2-1G,6-3B) nMANRES
(1-1D)
(1-1D) MMSTEP
nTCT1
nTCT2
(1-3E)
(1-3E)
B
nTCT0
DG
(1-3G)
MG
R502 10K
MG
C516 N.M.
N.M. (1608)
R506
MG
TP502 3.75v ->1.5A
+3.3V
C517 1000p
MG
C512 10u (2012)
R504 30K
R503 20K
MG
TP501
TP500
MG
C510 0.22u/16V (1608)
C504 1000p INT5V
C519 N.M.
R500 10K
+3.3V
DG
+3.3V
VDD
ROSC
VREG
REF
MS1
RESET
DIR
C
1 2 3 4
3
100
100
N.M.
R511
R512
6 7 18 19
9
8
2
4
1
N.M.
MG
R505
D
TP508
TP507
TP506
DG
C511 0.1u/50V (1608)
N.M. 0.22 (1W)
C505
MG
MG
F500 KAB2402 402 NA29 2 1
MG
0.22 (1W)
C501 N.M. (1608)
R501
C500
C502 0.1u/50V (1608)
10
22
21
24
23
R510
PGND PGND PGND PGND
CP2
CP1
SENSE2
OUT2B
OUT2A
VBB2
VCP
VBB1
OUT1B
OUT1A
SENSE1
ENABLE
STEP
8 7 6 5
C518 1000p
BR500 10Kx4
C513 0.1u
15
14
11
17
12
13
20
5
16
IC500 A3982SLB MOTOR DRIVER
Printer Control (Main Motor & Sensors) Block
6
5
4
3
2
1
+
GND2
TCT2
GND1
TCT1
GND0
TCT0
E
6
5
4
3
2
1
CNTNR B4B-PH-K-R (B6B-PH-K-R)
MG
C503 100u/50V(105C)
+24V
E
F
nPIN
PUS
UARTTX (1-3G)
F
(1-3G) nPOUT
(1-3G)
(1-1D)
MG
0.01u/50V (1608) C506
D
0.01u/50V (1608) C507
C
0.01u/50V (1608) C508
B
D500 HZU6.2B2
0.01u/50V (1608) C509
A
DG
C515 1000p
MG
E
G
CNMM B4B-PH-K-S
D501 1SS301
MB-
MA-
MB+
MA+
Q500 RT5N234C B C
4
3
2
1
G
F501
DG
H
INT5V
DG
TP505
CS of Ext-ROM for CHECKER
100
TP504
TP503
KAB5002 321 NA29 2 1
R508
+24V
DG
R509 10K
+3.3V
C514 1000p
+3.3V R507 10K
4
3
2
1
H
1 2
3
2
1
2
1
POUT1__AN
GND
POUT
GND
CNPOUT B3B-PH-K-S
CNPIN B2B-PH-K-R PIN
SLON
+24V
CNSL B2B-PH-K-S
2
1
I
I
3
2
1
2
1
5/12
1
2
3
4
5
6
FO-IS125N
6. Printer Control (Main Motor & Sensors) Block (5/12)
1
2
3
4
5
CISVDD
CIS_CLK
A
MS1/MS2 L/L Full H/L Half L/H Quarter H / H Eighth
(1-3G) CIS_LED
(1-1D)
(1-3G) CIS_SP
(1-3G) CIS_AIN
R604 10K
1K
TP607
MS2
B
DG
DG
nMANRES (1-6E,2-1G,5-5A)
(1-1D) nTMEN
DG
VG
B
0
TP600
R609
+3.3V
DG
MG
R616 10K
R603
MG
R619 30K
C
TP613
VG
MG
MG
R620 30K
C615 680p
1.43V
MG 0.71V
C609 1000p
TP611
7
6
5
4
3
2
VLED
GLED
CLK
SI
VDD
GND
AO
CNCIS
A2001WV2-7PE
DG
0 (1608)
VCC
RC2
RC1
PFD
REF
SLEEP
RESET
PGND PGND PGND PGND
SENSE2
OUT2B
OUT2A
VBB2
VBB1
OUT1B
OUT1A
SENSE1
ENABLE
DIR
MS2
MS1
STEP
D600 HZU6.2B2
14
C616 680p
2
23
24
1
3
22
15
11
13
12
TP610
10
TP609
C618 0.1u
R607
TP601
1
D
6 7 18 19
8
4
9
5
20
21
16
17
MG
R618
C610
0.22 (2012)
R613
C607
IC600 A3967SLB SCANNER MOTOR DRIVER
VG
C606 N.M.
TP608
DG
TP605
TP604
TP603
CISVDD +24V TP602
C605 N.M. (1608)
TP612
+3.3V
MG
C619 N.M.
C617 10u (2012) R612 N.M. (1608)
MG
R617 3.3K
R614 12K
+3.3V
10
R621 33
BR600 10Kx4
+3.3V
0 (1608)
for ROHM CIS R608 N.M. (220 (2W))
R615 13K
MG
Q600 2SC2712GR
C604 N.M.
L600
R601 N.M.
10
TP606
C603 N.M.
Entry to CHECKER-mode
(1-1D)
MS1
TMSTEP
R611 10K
(1-1D)
(1-1D)
R610
R605 10K
VG
C600 N.M.
R600
C E
6
4 3 2 1 5 6 7 8
CNCIS
Scanner I/F Block
2
MG
1
0.22 (2012)
N.M.
MG
E
MG
F600 KAB3202 801 NA29 C608 0.1u/50V (1608)
N.M.
E
+24V
+3.3V
F
MG
F
0.01u/50V (1608)
D
0.01u/50V (1608) C611
C
0.01u/50V (1608) C612
B
0.01u/50V (1608) C613
6–7
C614
A
4
3
2
+
MB-
MA-
MB+
MA+
CNTXM A2001WV2-4PE
N.M. (1608)
C601 100u/25V
R606
1
DG
R602 10 (1608)
VG
4
3
2
1
CISVDD
G
C602 0.1u
G
H
H
6/12
1
2
3
4
5
6
FO-IS125N 7. Scanner I/F Block (6/12)
1
2
3
4
A
UART-RX for Checker
nSEN5
(7-5I)
RS
nSEN3
(7-5E)
nSEN1
(7-5I)
LCDE/nLCDCS
(7-5I)
(1-3G)
DG
C702 N.M.
B
(1-3G) nLCDRES
KEN1
KEN3
DG
R700 10K
(1-6D) nORGSNS
(7-4E) KEN[3:0]
TP700 OE
LE
RS/LCDA0
KEN1/LCDCL
1
11 GND
VCC
1Q 2Q 3Q 4Q 5Q 6Q 7Q 8Q
DG
N.M. C703
(1-3G) ALE
1D 2D 3D 4D 5D 6D 7D 8D
N.M. C704
5
2 3 4 5 6 7 8 9
19 18 17 16 15 14 13 12
10
20
R704
DG
0
BR702 33Kx4
C700 0.1u
+3.3V
+3.3V
C
R707
N.M. C706
LAN_AD6 LAN_AD5 LAN_AD4 LAN_AD3 LAN_AD2 LAN_AD1 LAN_AD0
N.M. C707
IC700 74VHC573FT
N.M. C708
(1-4G,8-1C) LAN_AD[6:0]
1000p C705
8 7 6 5 N.M. C709 10K
1 2 3 4
C719 1000p
DG DG
3 5 7 9
TP706 TP708 TP710
D
DG
R708 0
TP718
19
17
TP716 15
TP714 13
TP712 11
1
TP704
8 7 6 5
SEN6
SEN4
SEN2
SEN0
FRSNS
KEN0
KEN2
LEDON
(7-2B)
(8-6B)
18
16
14
12
10
8
6
4
2
E
C718 1000p
+3.3V
DG
TP717
TP715
TP713
TP711
TP709
TP707
TP705
TP703
R703 33K
+3.3V
KEN[3:0] (7-3B)
RS
LAN_A[7:1]
PNLVCC
LCDRES
DG
RS
SEN5
SEN3
SEN1
LCDE
ORGSNS
KEN1
KEN3
CNPN HLW19S-2C7
KEN3 KEN2 KEN1 KEN0
LAN_A7 LAN_A6 LAN_A5 LAN_A4 LAN_A3 LAN_A2 LAN_A1
TP702
BR700 33x4
R709 33
R702 N.M.
+3.3V
R706 10K
1 2 3 4 N.M. C710
+3.3V
4 3 2 1
6
R705 0
BR703 33Kx4
DG
KEN0/LCDSD
(1-3G) nPANELCS
(1-4G,8-1C) LAN_D[15:7]
N.M. C711
User I/F Block
N.M. C712
5 6 7 8
F
F
N.M.
E
1000p C713
D
N.M. C714
C
N.M. C715
B
N.M. C716
6–8
C717
+3.3V
(7-4E) KEN[3:0]
G
(7-5I) nSEN4 nSEN6
(7-5I) nSEN2
(7-5I)
(7-5I) nSEN0
G
DG
H
10
20
18 16 14 12 9 7 5 3
GND
VCC
1Y1 1Y2 1Y3 1Y4 2Y1 2Y2 2Y3 2Y4 1 19
2 4 6 8 11 13 15 17
H
TP701
1G 2G
1A1 1A2 1A3 1A4 2A1 2A2 2A3 2A4
DG
LEDON (1-1D)
IC701 SN74LV244APW
+3.3V
C701 0.1u
(1-6D) nFRSNS UART-TX for Checker
KEN0
KEN2
LAN_D15 LAN_D14 LAN_D13 LAN_D12 LAN_D11 LAN_D10 LAN_D9 LAN_D8
R701 10K
A
nSEN6 nSEN5 nSEN4 nSEN3 nSEN2 nSEN1 nSEN0
I
I
7/12
1
2
3
4
5
6
FO-IS125N
8. User I/F Block (7/12)
1
2
3
4
A
5 6 7 8
+3.3V
5 6 7 8
+3.3V
BR803 10Kx4
BR802 10Kx4
4 3 2 1
4 3 2 1
B
LAN_D15 LAN_D14 LAN_D13 LAN_D12 LAN_D11 LAN_D10 LAN_D9 LAN_D8 LAN_D7
TP823
C816 0.1u
C814 0.1u
C809 0.1u
C807 0.1u
+3.3V 1 2 3 4
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
BR804 10Kx4 8 7 6 5
D26 GND_IO VDD_IO D25 D24 D23 D22 D21 GND_IO VDD_IO D20 D19 D18 D17 D16 GND_IO VDD_IO D15 D14 D13 D12 GND_IO VDD_IO D11 D10
+3.3V
C
TP800 TP801
C819 0.1u
TP802
IC800 LAN9118 Rev.A LAN CONTROLLER
LAN_AD6 LAN_AD5 LAN_AD4 LAN_AD3
LAN_A7 LAN_A6 LAN_A5 LAN_A4 LAN_A3 LAN_A2 LAN_A1
C820 0.1u
5
(7-6E) LAN_A[7:1]
D
DG BR805 10Kx4 5 6 7 8
C821 0.01u
LAN_AD2 LAN_AD1 LAN_AD0
R812 10K TP821
330
R802
R800 1M
4 3 2 1
+3.3V
R821
C805 10u (2012)
R801 100 C801
33
33
R816 10K
LANVC
18p
15p
+3.3V
E
R817 10K
R811 N.M.
100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76
DG
C815 1u
C813
C812
C808 0.1u
(1-6E)
F
R805 1K
BR801 10Kx4
6800p (1608)
DG
C822 0.01u
6800p (1608)
3
C818
4
L800 DLW21SN670SQ2 1 2
DG
+3.3V
C817
C811 1000p
R806 12.4K-F (2012)
DG
1u
1u
nLANPME (1-6E)
nLANINT
TP814
TP810
C810
R804 0 (2012)
10u (2012)
Digital GND
LANVDD
Digital Vcc
DG
LANVC TP803
X800 25MHz
GPIO2/nLED3 GPIO1/nLED2 GPIO0/nLED1 VDD_IO GND_IO nRESET nCS nWR nRD VDD_A VSS_A VDD_A VSS_A EXRES1 VSS_A VDD_A NC TPI+ TPIVDD_A VSS_A TPO+ TPOVSS_A FIFO_SEL
R813 N.M.
R818
DG
2 1
C800
F
8 7 6 5 1 2 3 4
25 24 23 22 21 C806 20 19 0.1u 18 17 16 15 14 13 R803 12 11 TP804 12.0K-F (2012) 10 9 8 C802 10u (2012) 7 C803 6 0.01u 5 4 3 C804 2 0.01u 1 TP822
TP809
LANVDD
G
3
L801 DLW21SN670SQ2 1 2 4
100
100
TP806 TP807 TP808
R825
R824
G
TP805
R808
D27 D28 D29 D30 D31 VDD_IO GND_IO A1 A2 A3 A4 A5 A6 A7 VSS_REF RBIAS ATEST VDD_REF VDD_PLL XTAL1 XTAL2 VSS_PLL VDD_CORE VREG GND_CORE D9 D8 D7 GND_IO VDD_IO D6 D5 D4 D3 GND_IO VDD_IO D2 D1 D0 VDD_CORE GND_CORE EEDIO EECS EECLK PME NC IRQ NC SPEED_SEL NC 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75
49.9-F (1608)
E
DG
R809 10.0-F (1608)
D
49.9-F (1608) R815
C823 0.022u
TP819
TP813
nLANRES nLANCS nLANWR nLANRD
H
8
7
1CT : 1CT
DG
1000pF 2kV
R819 0.1u (2012)
R822 0 (2012)
11 FG1
4 x 75 ohm
+3.3V
GREEN 1CT : 1CT
9
CHASSIS GND
6 RD-
5 RCT
4 RD+
3 TD-
2 TCT
1 TD+
CNLAN SI-80005-F
(1-6D) (1-3G) (1-3G) (1-3G)
H
SPEED 100 10
6
C
49.9-F (1608) R814
49.9-F (1608) R807
I
LINK/ACT I
1
R820
DG
N.M. (2012)
8
7
6
RX-
5
4
3
RX+
2
TX-
TX+
YELLOW
8/12
R823 0 (2012)
12
LAN Control Block
(1-5G,7-6F) LAN_D[15:7]
B
(1-4G,7-6A) LAN_AD[6:0]
13
6–9
14
A
1
2
3
4
5
6
FO-IS125N 9. LAN Control Block (8/12)
1
2
3
4
5
6
10
9
8
7
6
5
4
3
2
1
A
C905 100u/50V
CNPW 9176B-10L-PT1
DG
+
V4D
10
9
8
7
6
5
4
3
2
1
C902 0.1u
ZC
HLON
DG
V4D
DG
+24V MAIN
+24V MAIN
MG
MG
+24V_SUB
A
TP907
D902 SS16
MG
3
K
1
B
IN
OUT
DG
C903 10u (2012)
100
V4D C901 10u (2012)
R901
+24V
+24VH
IC900 TA48033BF
D901 1SS352 K A
DG
TP906
TP905
TP901
TP900
Power Supply Block
+3.3V
C
C904 1u
TP910
R900 10K
+3.3V
C
+3.3V TP911
nZC
MG
E
Q900 RN1406 C B
D
D
HLON (4-4I)
DG
E
DG
R902 33K
DG TP903
DG
FG2
F
R905
K
F
MG
VBT TP908
N.M. (1608)
+3.3V
D900 RB715F
N.M. (1608)
R903
A2
DG TP904
BAT900 CR2032 (Vertical)
DG TP902
E
+
B
GND
6 – 10 2
A1
A
VBT TP909
DG
R904
VBAT
G
N.M. (1608)
G
FG3
R906 N.M. (1608)
MG
H
H
I
I
9/12
1
2
3
4
5
6
FO-IS125N
10. Power Supply Block (9/12)
1
2
3
4
5
A
(1-6D) nMDMINT 0
DG
DG
Open C +3.3V
R1008
C1004 10u (2012)
10K
(1-6D) CI (1-6D) nMDMRES
R1007
(1-6D) SPI_SS1 (1-6D,2-6A) SPI_MI (1-6D,2-6D) SPI_MO SPI_CLK +3.3V (1-6D,2-5D)
C1002 0.01u
DG
B
C1003 0.1u
DG
C1001 15p
33 0
DG
CSn SDI SDO SCK VDD VSS-VSSO VDDO IRQ
R1000 150
R1011
1 2 3 4 5 6 7 8
R1003 150
X1000 28.224000MHz
C1000 39p
+3.3V
R1002 240K
6
10K R1023
N.M. R1001
2 1 10K R1012
C1006 0.1u
C
+3.3V
TP1010
TP1021 TP1017
HOST SIDE DEVICE
IC1000 CX95110
DG
D
DG
D
EXRLY (11-1E) TELMUTE (12-5G)
(1-6D) DELSIG
+3.3V
(1-3G) BZOUT
N.M.
R1010
C1005 0.1u
N.M.
TP1007 TP1008
0 (1608) 0 (1608)
R1009
R1005 R1006
TP1004 TP1005
TELINMUTE (12-3E)
PDIB_P (11-4B) PDIB_N (11-4B)
24 23 22 21 20 19 18 17
TP1000 TP1009
EYESYNC EYEXY/SWCFG2 SDAA_PWM S_DIBp S_DIBn GPIO4 GPIO3 VDDO
TP1001 TP1002 TP1003 32 31 30 29 28 27 26 25 XTALO XTALI/CLKIN SDAA_RCREF VDD VSS-VSSO EYCLK/SWCFG0 EYCLK/SWCFG1 EYECLK RIn RESETn GPIO0 GPIO1 GPIO2 P_DIBn P_DIBp VSS-VSSO 9 10 11 12 13 14 15 16 10K R1013
Host Side Device (HSD) Block
10K R1014
PADDLE (VSS-VSSO digital ground)
C
E
ADG
C1014 4700pF
DG
E
C
ADG
R1021 1K
C1011 0.01u-K
C1009 1u-K (1608)
B
Q1000 RN1406
SPOUT SDIB_P SDIB_N
TP1012
TP1006
R1019 20K
TP1015 TP1016
E
200
TP1011
R1018
F
(1-6D) SPMUTE
R1020 220K
R1017 30K
R1025
ADG
C1017 0.022uF
R1024 1.3K
F
+3.3V
0
R1016 100K
R1015
C1007
ADG
3
2
4
+
-
G
220K
220p
IC1001 MC34119
C1012 1u (1608)
TP1018
1
B
R1022 4.7K
6 G
ADG
7
6 – 11
8
A
5
C1015 330p
C1013 0.1u
DG
2
1
CNSP
10/12
H
A2001WV2-2PE
TP1020
TP1019
C1010 330p C1016 330p
ADG
C1008 10u (2012)
+3.3V
H
1
2
3
4
5
6
FO-IS125N
11. Host Side Device (HSD) Block (10/12)
6 – 12
1
2
3
4
5
6
A
PDIB_P
(10-3D)
(11-2E) L2 (11-3E) T1
PDIB_N
(10-3D)
E
B
EX-T1
2 4 6
1 3 5
2 4 6
CNTLJ N.M. (R41-6813A)
1 3 5
CNLNJ R41-6813A
C1108 150p
DG
C1109 150p
0 (1608)
R1100
DG
1
0 (1608)
R1110
S
4
C
16
12
AGND_LSD
1
14
2
D
DVDD
DIBP
AVDD
PWR
DIBN
TEST
T2 (11-1E) L1 (11-3E)
AGND_LSD
D
E
GPIO
TXF
TXO
EIF
EIO
RXI
EIC
TAC
RAC
100 (1608)
(11-2D) T2
(11-2E) L2
(11-2D) L1
(11-2E) T1
TP1108
E
(10-2D) EXRLY
TP1111
AR1102 RA501P-C6
TP1110
REC1100 S1ZB60
TP1113
TP1112
DG
E
B
2
R1113 3.01-F (1608)
R1106 280-F (5025)
+24VH
C
F
K
R1118 9.1-F (3225)
R1115 3.01-F (1608)
TP1105
G
R1108 280-F (5025)
TP1104
2
1
5
4
L2
L1
M
B
G
C
3
RLY1100 N.M.(OUAZ-SH-124DZ,405)
R1119 N.M. (0(1608))
AGND_LSD
Q1101 2SC4548
R1107 280-F (5025)
D1101 N.M.(1SS352) A
ARG
C1114 N.M. (470p/250V (4520))
Q1100 2SC4548
AGND_LSD
Q1104 N.M.(RN1406)
TP1114
AR1103 RA501P-C6
C1113 470p/250V (5728)
C1112 470p/250V (5728)
R1117 110 (1608)
Q1103 2SC4548
TP1103
TP1101
TP1102
C1104 0.01u/250V (2012)
1
L1100 MMZ1608Y 102B(1608)
L1101 MMZ1608Y 102B(1608) 1 2
F
TP1115
VA1100 TND05V-331KT( TND05V-331KB)
AGND_LSD
AR1101 RA391P-V6
TP1109
TP1107
7 13
TP1106
TP1100
R1111
R1104 237K-F (2012)
C1106 0.047u/250V (3216)
AGND_LSD
8
9
R1103 6.81M-F (2012)
C1102 0.1u-K (1608)
TP1118
10
6
TP1116 TP1117
11
5
4
R1101 6.81M-F (2012)
TNV (Telephone Network Voltage) circuits. IC1100 CX20548-11Z LSD
C1111 0.1u-K (1608)
C1110 0.1u-K (1608)
TP1120
C1107 47p/50V (1608)
AGND_LSD
C1105 0.1u-K (1608)
C1103 0.1u-K (1608) 15 AGND_LSD
TP1119
EX-T2
T1100 MODEM-SMAR 2 3
R1102 150K-F (1608)
AGND_LSD
SmartDAA4 Line Side Device (LSD) Block
C
VC 3
+
B
EP 17
-
A
Q1102 2SC4548
R1109 280-F (5025)
H
H
11/12
1
2
3
4
5
6
FO-IS125N
12. SmartDAA4 Line Side Device (LSD) Block (11/12)
6 – 13
1
2
3
4
5
6
R1214 3.01K-F(1608)
+3.3V
DG
A
VSS
VDD
4
8
ADG
+3.3V
+3.3V
C1210
DG
C1221 10u (2012)
C1227 0.1u
IC1201C +24VA HA17358AFEL
(10-4E) SDIB_P
SDIB_N
(10-4E)
R1206 3.01K-F(1608)
+3.3V
1
14
2
15
16
12
B
N.M. (1608) N.M. (1608)
C1228
0 (1608)
TXF
TXO
EIF
EIO
RXI
EIC
TAC
RAC
ADG
R1203 10K
C
13
7
8
9
10
6
ADG
C
11 C1207
5
4
R1221 0 (1608)
GPIO
C1226
0 (1608)
R1227
DG
C1223 0.1u
DVDD
DIBP
AVDD
PWR
DIBN
TEST
R1226
SVC
C1222 0.1u
DG
DG
DG
C1213 0.1u
R1210 0
0.1u
R1204 150K-F (1608)
IC1200 CX20548-12Z HANDSET CODEC
Handset Codec Block
VC 3
EP
B
R1225 4.7K
R1224 1K
39K
R1229
(12-3B)
R1215
ADG
+3.3V
TP1200
0.1u
SVC C1203
D
ADG
C1224 10u (2012)
C1216 1u-K (1608)
10K
D
+24VH
C1225 0.1u
VREF
R1234 N.M. (3216)
R1231 0 (3216)
TP1206 R1217
C1212 N.M.
13K
ADG
1K
TP1203
R1208 3.3K
ADG
+
E
(12-5I) (12-4H) (1-6D)
C1231 10u/50V
ADG
ADG
C1233 0.1u
6
5
R1211
C1211
R1233 1K
+3.3V
R1201
C1201
C1206 N.M.
1
C1215 N.M.
ADG
C1217 N.M.
TELOUT TELIN nRHS
+24VA
(10-2D) TELINMUTE
R1212
VREF
2.2u (1608)
IC1201A HA17358AFEL
E
-
+
17
7
DG
E
+3.3V
C
F
R1237 0
B
R1213 3.3K
6
IC1202A TC7PA53FU 1 1 4 C 3 0 ADG
ADG
TP1201
ADG
1 2 3 4 5
G
ADG
R1220 150 (3225)
R1207 39K
ADG
C1202 N.M.
R1205 10K
G
TP1205
VREF
R1235 N.M. (3216)
TP1202
ADG
5
GND
VDD
H
2 ADG
C1230 0.1u
+3.3V
D1200 1SS352
+3.3V
(12-1F)
C1200 10u (2012)
R1202 510
TELIN
ADG
R1232 100 (3216)
+24VA
IC1202B TC7PA53FU
ADG
C1220 2200pF (1608)
C1219 2.2u (1608)
ADG
H
ADG
C1209 2200pF
C1214 1u/50V (2012)
C1205 0.01u (1608)
Q1200 KTC3198GR-AT
TELMUTE (10-2D)
R1209 N.M.
R1219 0
CNTEL A2001WV2-5P
R1218 N.M.
TP1204
IC1201B HA17358AFEL
ADG
Q1201 RN1406
C1218 N.M.
82K
390p
ADG
C1208 N.M.
2
3
C1204 N.M.
470K
22p
F
R1200 2.2K A K
-
+
A
12/12
I
TELOUT (12-2F)
I
1
2
3
4
5
6
FO-IS125N 13. Handset Codec Block (12/12)
FO-IS125N
F300
14. Control PWB parts layout (Top side)
The CONTROL PWB of the model employs lead-free solder.
6 – 14
FO-IS125N
F501
F600 F500
15. Control PWB parts layout (Bottom side)
The CONTROL PWB of the model employs lead-free solder.
6 – 15
1
2
3
4
0R7A193F20A
0.22
NTPA74R0
A
0.22
B
ERA15-06
10K
ERA15-06
ERA15-06
TLP363JF 0.01
10 10
C
2SK3561
10
330K
330K 330K
AC250V/4A
NOTE: Safety-critical unit.
ENE241D-10AD-TE-B
ERA15-06
220P
N.M. ERA15-06 10K 39K 39K
220/200 BL02RN1
MA8330 180K 33
180K 18K
ERA15-06
2SC4097
0.01
220
33K
3300P
560
MA111
4700P
TM1261
D
6.8K
100
5
G5PA-1
0.01
0.01
169D1
ERB84-010
EC31QS03L
EC31QS03L
ERB84-010
1000P
E
N.M.
N.M.
G5PA-1
TZP30B
SN8LP-240JA
MA111 PS2581AL1
E
N.M.
AC250V/10A
D
33/35 N.M.
100 PS2581AL1 MA8068
N.M.
F
N.M.
0.1
N.M.
2SC4081
330K
1K
6
8.2K 560
F
AC250V/4A
5.6K 47K
Power Supply PWB Circuit
22K MA8091
39K 39K PS2581AL1
680 MA111 100P
4.7K
4.7K
4.7K
4.7K
5.6K 10K
MA111 1000/35 330/16
C
5.6K 0.01
TLP363JF 12K 5K 1K PS2581AL1
B
6.8K
5.6K N.M. 10K
0.1 10K 0.01
6 – 16
G
XP6501
G
AC250V/2A
ERA83-006
N.M.
A
H
H
1
2
3
4
5
6
FO-IS125N
[2] Power Supply PWB circuit
1. Power Supply PWB circuit
N.M.
56/35
150
FO-IS125N 2. Power Supply PWB parts layout (Top side)
The POWER SUPPLY PWB of the model employs lead-free solder.
3. Power Supply PWB parts layout (Bottom side)
The POWER SUPPLY PWB of the model employs lead-free solder.
6 – 17
H
6 – 18 G
H
1
1
F
2
2
A
3
3
4
E
G
Note: Since the parts of this PWB cannot be supplied, change it as a unit.
F
4
D
E
5
C
D
5
B
C
6
NOTE: Safety-critical unit.
B
6
High Voltage PWB Circuit
A
FO-IS125N
[3] High Voltage PWB circuit
1. High Voltage PWB circuit
FO-IS125N 2. High voltage PWB parts layout (Top side)
Note: Since the parts of this PWB cannot be supplied, change it as a unit.
CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous. The HIGH VOLTAGE PWB of the model employs lead-free solder.
6 – 19
FO-IS125N 3. High Voltage PWB parts layout (Bottom side)
Note: Since the parts of this PWB cannot be supplied, change it as a unit.
CAUTION - HIGH VOLTAGE The unit's back cover should never be opened by anyone other than a qualified serviceperson. There are many high voltage parts inside the unit, and touching them is dangerous. The HIGH VOLTAGE PWB of the model employs lead-free solder.
6 – 20
1
2
3
4
C2 N.M.
A
+3.3V
R10 120(2125)
C1 N.M.
KEN3
KEN2
KEN1
KEN0
DG
1
2
5
3
4
C4 N.M.
PH1 ORGSNS SG206S
C3 N.M.
/SEN6
/SEN5
/SEN4
/SEN3
/SEN2
/SEN1
DG
B
R9 100(2125)
C5 N.M.(33uF/16V)
ORGSNS
+
+3.3V
C6 0.1u GND
VCC
A B C D
Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9
1
1
1
1
1
1
1
1
1
C
1 2 3 4 5 6 7 9 10 11
DEL
SW30
B
SW51
G
SW41
PH2 FRSNS 1S094
FRSNS
2
2
2
2
C
1
1
1
1
B'CAST
SW62
N
SW52
H
SW42
Y
2
2
2
CNHJ 4pin 1 2 3 4
1
1
1
1
SW23
INFO
SW63
M
SW53
J
SW43
U
SW33
T
2
1
SW32
2
SW13 2
2
2
D
D
C24 N.M.
2
2
2
2
2
Reception
SW31
SW22
1
>(right)
1
2
SPEAKER
SECURE
SW3_1
SW3_2
<(left)
2
2
1
1
1
Stop
SW21
SW21
2
SW12
Function
SW11
2
SW2_1
2
ADDRESS
1
SW2_2
HOLDER
2
1
SW1_1
2 GLOBAL
SW1_2 SCAN TO
IC1 HC42(LS145) DECODER
8
16
15 14 13 12
1 2
/SEN0
3
6 – 21 4
6
B
Operation Panel/Hook Switch PWB Circuit
A
C21 N.M.
1
1
1
1
1
1
1
2
2
2
2
2
2
2
C22 N.M.
DUPLEX
SW64
@
SW54
K
SW44
I
SW34
Resolution
SW24
UP
SW14
Shift
SW4
P
SW65
.com
SW55
L
SW45
O
SW35
RELEASE
SW25
DOWN
SW15
Start
SW5
2
2
2
2
2
2
2
1
SW6_2 2
SW26
HOLD
SW16
SW6_1
2
2
2
1
1
1
1
REDIAL
SW66
V
SW56
F
SW46
R
SW36
2
2
2
2
SPEED DIAL
1
1
1
SCANTO EMAIL
F
2
2
1
1
2 L6 N.M. (R-5C) 2
L3 0 (1608)
L5 N.M. (R-5C) 1 2
1
L2 0 (1608)
ADG
C23 N.M.
F
TELOUT
TELIN
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
TELOUT TELIN nRHS
Space SW67_2
SW67_1
C
SW57
D
SW47
E
SW37
#
SW27
0
SW17
*
SW7 7
SW8
ADG
;/:
SW68
X
SW58
S
SW48
W
SW38
9
SW28
8
SW18
+3.3V
1
1
1
1
1
1
1
2
2
2
2
2
2
2
1
1
1
1
1
1
1
//\
G
1 2 3 4 5
2
2
2
2
2
2
2
+3.3V
SW69
Z
SW59
A
SW49
Q
SW39
6
SW29
5
SW19
4
SW9
SW1
ADG
R1 CNTEL 10K(1608) A2001WV2-5P
G
C25 0.1u
SW50
SYMBOL
SW61
3
SW40
2
SW20
1
SW10
2
2
2
2
2
~/^
SW70
COPY
H
HOOK DETECT
2
Caps Lock SW60 2
R16 1K(1608)
1
1
Caps Lock SW60_2 1 2
1
1
1
1
1
H
nRHS
1/2
Note: Since the parts of PWB cannot be supplied, change it as a unit. E
L1 0 (1608)
L4 N.M. (R-5C) 1 2
1
HOOK SW HANDSET MJ PWB
1
1
1
1
1
1
1
E
1
2
3
4
5
6
FO-IS125N
[4] Operation Panel/Hook Switch PWB circuit
1. Operation Panel/Hook Switch PWB circuit (1/2)
1
2
3
4
5
6
C
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
A
CNPN HLW19S-2C7
C8 N.M.
C9 N.M.
LEDON
DG
C7 N.M.
RS/LCDA0
B
LCDE/nLCDCS /SEN0 /SEN1 /SEN2 /SEN3 /SEN4 /SEN5 /SEN6
ORGSNS FRSNS
B
DG
E
+3.3V
C
C11 N.M.
+3.3V
R6 47(2125)
Q1 RN1406
R2 N.M.
KEN3 KEN2 KEN1 KEN0
LEDON nLCDRES
C
LCDE/nLCDCS
7
14
2
1
CNFG1 N.M.(A2001WR2-2P)
D
1
2
IC2A
R13
DG
C10 0.1u
+3.3V
D
DG
3
11
13
9
0
N.M. (74LV14A)
2
1
CNFG2 N.M.(A2001WR2-2P)
IC2C N.M.(74LV14A)
Operation Panel/Hook Switch PWB Circuit
B
1
6 – 22 2
8
6
N.M. (74LV14A) IC2B
5
IC2A
C12 N.M.(33u/16V)
+
DG
R12 10K
R11 1K
C13 N.M.(4.7uF/25V)
DG
C17 N.M.
C19 N.M.
DG
2 1
KEN2 KEN3
3
5
6
7
8
9
KEN1
DG
C14 100pF
100
4
R15
10
11
12
13
14
7
6
KEN0
RS/LCDA0
+
C15 N.M.
N.M.
N.M.
C18 N.M.
R7
KEN0 C16 N.M.
R5
KEN1
5
4
R4
LCDE/nLCDCS N.M.
R3
RS/LCDA0
2
1
3
R8 N.M.
+3.3V
G
nLCDRES N.M.
F
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
E
R/W
RS
VO
3.3V
DG
SI
SCL
CS
A0
RES
VDD
VSS
9619S-14A-GF
N.M.
H
2/2
E
F
G
H
Note: Since the parts of PWB cannot be supplied, change it as a unit.
N.M.(74LV14A)
4
N.M.(74LV14A)
10
N.M.(74LV14A)
12
N.M.(74LV14A)
R14 0
C20 N.M.
+3.3V
E
CNLCD2
CNLCD1
A
1
2
3
4
5
6
FO-IS125N
2. Operation Panel/Hook Switch PWB circuit (2/2)
LED CL-197SYG
FO-IS125N 3. Operation Panel/Hook Switch PWB parts layout (Top side) Note: Since the parts of PWB cannot be supplied, change it as a unit.
The OPERATION PANEL/HOOK SWITCH PWB of the model employs lead-free solder.
6 – 23
FO-IS125N 4. Operation Panel/Hook Switch PWB parts layout (Bottom side) Note: Since the parts of PWB cannot be supplied, change it as a unit.
The OPERATION PANEL/HOOK SWITCH PWB of the model employs lead-free solder.
6 – 24
FO-IS125N
CHAPTER 7. OTHER FO-IS125N
Service Manual
[1] Protocol
Transmitter side (Document inserted into document sensor during standby)
Receive side G3 communication
CED To recording position
CED NSF NSF CSI CSI DIS DIS TSI
Document inserted to the reading position TSI
(DCS)
NSS NSS
(DCS)
TCF TCF CFR
IMAGE SIGNAL
IMAGE SIGNAL
CFR
1st page
RTC
RTC
Next page insert command
Cut line printed MPS
MPS
MCF
IMAGE SIGNAL
IMAGE SIGNAL
MCF
RTC
RTC
EOP
EOP
Cut line printed
MCF
MCF
DCN
DCN Recording paper ejected
7–1
Document ejected
FO-IS125N
[2] Power on sequence
START
CPU initialized D-RAM initialized
Gate array initialized
PC I/F initialized
NO
When option board is connected.
START+STOP key ? YES “MEMORY CLEAR” “EXECUTE ?” display
COPY key ?
YES
NO 1 key ?
YES
NO NO
Other key ?
“PLEASE WAIT A MOMENT” display
“PLEASE WAIT A MOMENT” display
Memory clear
Memory clear
System initialized
System initialized
YES
STAND-BY
PROCESS CHECK MODE
7–2
FO-IS125N
[3] Rewriting version up the FLASH ROM 1. Preparations Before updating the firmware, please make sure that you can browse the embedded Web Page by input the device IP address into the URL box of the browser. The example of connection is below:
Cable/DSL modem
Internet LAN cable WAN port LAN cable LAN cable LAN cable
LAN ports (Hub/Switch)
Router 2. Operations 1. Press Function key,
key, 8 key, 7 key and # key. “FIRMWARE VERSION UP” is displayed on the upper LCD.
Then press 2 key. “FIRMWARE UPDATE/PRESS START KEY” is displayed on the LCD. Then press START key. “FIRMWARE UPDATE/WATING FOR DATA” is displayed on the LCD. 2. Open Web browser and enter http://IP address of the machine/maint.htm in the edit box for URL and press Enter key. Then the below page will be shown.
7–3
FO-IS125N 3. Click Firmware Update in the menu pane. Then the below page will be shown. If it says that the machine is not ready, please retry from step 1.
4. Click Browse button, choice the new firmware file and click Open button. Then the below page will b shown.
5. Click Update button. Then “DO NOT POWER DOWN!/UPDATING” is displayed on the LCD. A few minutes later, the below page will be shown.
7–4
FO-IS125N 6. A few minutes later, the device will restart automatically. 7. After the machine restarts, the below page will be shown.
7–5
FO-IS125N
PartsGuide
PARTS GUIDE No. 00ZFIS125NSME
FACSIMILE MODEL FO-IS125N MODEL FO-IS125N
SELECTION CODE DESTINATION U.S.A. U
CONTENTS [1]
Cabinet,etc.
[7]
Packing material & Accessories
[2]
Operation panel unit/Document guide upper unit
[8]
Control PWB unit
[9]
Power supply PWB unit
[3]
Scanner frame unit [10] High voltage PWB unit
[4]
Paper happer unit
[5]
Printer drive unit
[6]
Fusing unit
[11] Operation panel PWB unit [12] Hook switch PWB unit
INDEX
Parts marked with " " are important for maintaining the safety of the set. Be sure to replace these parts with specified ones for maintaining the safety and performance of the set. This document has been published to be used for after sales service only. The contents are subject to change without notice.
FO-IS125N
[1] Cabinet,etc. B2
B7 B2
63 67 B7
15 B2
B2
14 16 58
B7
B2 B2
4
53
55
B7
52 B2
49 70
6
W1 B11 B7
B2
49 52
B7
7
1
B2
B2
B6
2
B2
48
51
B2
B7
B2
54
B2
B2 B1
B2
5
59
B2
57
B2 B10
61
50
33
B1
B8
B2
37 B2
39
69 B2
B2
B5 B5
B2
45
34
60
42
B10
43 36
38
68
62
34
B4
42 35
47
32
44
11 66
B2
3 32
46
B2 B2
41
B2 B10
30
12 13
40
12
11
B9
65
56
10
64
19 B3
8 24
21 29 28
27
18 22 23
21
10
B3
26
25 20
10
10 31
17
2
9
B2
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[1] Cabinet,etc.
!
! ! !
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 W1
DCEKP420DXH01 DCEKC582XXH01 CROLR2566XH01 GCABA2493XHSA GCABB2494XHSA MLEVP2441XHZA QCNWN307DXHZZ GCABB2495XHSA GCOVA2566XHZZ GLEGG2089XHZZ MSPRC3576XHZZ NROLP2334XHZA NSFTZ2402XHZA CCNWN346CXH01 GCABA2496XHSA MSPRP3123XHZZ GCOVA2565XHZZ LHLDZ2295XHZZ LHLDZ2296XHZA MLEVP2442XHZZ MSPRC3522XHZZ MSPRC3700XHZZ MSPRC3714XHZZ MSPRD3550XHZZ MSPRD3701XHZZ NGERH2677XHZZ NROLR2565XHZZ PBRS-2083XHZZ PGIDM2702XHZZ DUNTK425DXHZZ LBNDJ2006XHZZ LBSHP2161XHZZ LFRM-2287XHZZ MSPRC3590XHZZ MSPRC3698XHZZ MSPRD3545XHZZ NFANP2005XHZZ NGERH2746XHZZ NGERH2747XHZZ NGERH2748XHZZ NROLR2564XHZZ PGIDM2687XHZZ PGIDM2688XHZZ QCNWN310DXHZZ QCNWN314DXHZZ QCNWN315DXHZZ QSW-B2307SCZA CROLR2567XH01 MSPRD3699XHZZ NGERH2466XHZZ NGERH2749XHZZ NROLP2332XHZA PGIDM2744XHZZ PGIDM2745XHZZ PRDAR2081XHZZ GCOVA2567XHZZ LPLTM3477XHZZ MARMP2051XHZZ QACCD2107XHZZ QCNWN308DXHZZ RDENT2237XHZZ RDENT2239XHZZ TLABH719KXHZZ PWIR-2038XHZZ PBRS-2084XHZZ TLABH871KXHZZ TLABS870KXHZZ PGUMM2225XHZZ PSHEP4002XHZZ PSHEP3997XHZZ XEBS730P08000 XEBS730P10000 LX-BZ2321XHZ7 LX-BZ2327XHZ7 XEBS730P34000 LX-BZ2222XHZ7 XHBS730P08000 LX-BZ2282XHZ7 XEBS726P08000 XHBS730P06000 XEBS730P12000 XWHS740-08100
AL CA AP AM AH AE AF BA AL AE AE AC AK AP AY AC AY AE AE AE AD AD AD AE AC AE AY AP AE BT AA AE BA AE AD AE AY AD AE AD AP AE AE AF AH AH AG AP AD AE AD AL AP AL AF AL AQ AE AQ AF BH BF AE AQ AM AF AD AG AE AE AC AC AE AF AD AD AB AE AE AC AC AA
N N N N N N N N N
N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
N N N
E E C C C C C D C C C C C C D C C C C C C C C C C C C C C E C C C C C C B C C C C C C C C C C C C C C C C C C C C C E C E E D C C D D C C C C C C C C C C C C C C C
Hook switch PWB unit Control PWB unit (within ROM) PU roller ass'y Handset holder, top Handset holder, bottom Hook switch lever Hook switch cable Bottom cabinet Motor cover Leg rubber Pinch roller spring Pinch roller Pinch roller shaft Speaker ass'y Top cabinet Speaker holder lever spring Front cover Transfer roller holder,right Transfer roller holder,left Lock lever Transfer spring Transfer term spring Transfer earth spring Left cover stopper spring Lock lever spring PTR gear Transfer roller Transfer brush Left cover stopper Optical unit (LSU) Band (100mm) Regist roller bearing Printer frame DV press spring Regist earth spring TC stopper spring Fan Release gear PU gear Regist gear Regist roller DV press guide TC stopper P-IN sensor cable Optical unit cable (CNLSR) Optical unit cable (CNPM) P-IN sensor PO roller ass'y Pinch roller spring Idler gear,32Z PO roller gear Pinch roller Exit guide lower Exit guide upper Radiation sheet Left cover PWB plate Stop arm AC cord ass'y High voltage cable Power supply PWB unit High voltage PWB unit Stack label Stop wire TR brush B Left cover label Caution label Damper rubber Protection sheet Exit guide sheet Screw (3x8) Screw (3x10) Screw (3x12) Screw (Special) Screw (3x34) Screw (3x10) Screw (3x8) Screw (4x6) Screw (2.6x8) Screw (3x6) Screw (3x12) Washer
3
FO-IS125N
[2] Operation panel unit/Document guide upper unit 33
901
10
5 19
1 35 5
7
24
B3
B2
8
6
18
B3
B2
12
38
B2
22
B3
13 27
B3
34
2
11
3
30
4
16 9 B2
14
11 15
31
32
23 26 B1
25
B2 B1
21 20
B1
28
4
29
17
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[2] Operation panel unit/Document guide upper unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 38 B1 B2 B3 901
LPLTG3469XHZZ LPLTP3175XHZA LPLTP3257XHZL LPLTP3257XHZR LPLTP3492XHZZ MLEVP2444XHZZ MLEVP2445XHZZ MSPRD3632XHZZ MSPRD3685XHZZ MSPRD3399XHZZ MSPRD3687XHZZ MSPRD3704XHZZ MSPRD3721XHZZ MSPRD3722XHZZ NROLP2332XHZA PGIDM2740XHZZ PBRS-2086XHZZ GCASP2204XHZZ GCASP2205XHZZ JBTN-2538XHSD JBTN-2541XHSB JBTN-2544XHSF JBTN-2607XHSA JBTN-2608XHSA JBTN-2609XHSA QCNTM2062XHZZ QCNTM2063XHZZ QCNTM2064XHZZ QCNWN306DXHZZ RLCUB2011XHZZ DCEKP418DXH01 PTPEH2149XHZZ HPNLH2472XHSA QCNWN365CXHZZ PSPO-2029XHZZ PSHEP4001XHZZ XEBS720P06000 XEBS726P08000 XEBS730P10000 (Unit) CCASP2204XH01
AL AD AE AE AE AE AE AE AD AE AC AC AD AD AL AM AG AS AM AF AH AQ AL AM AM AM AQ AL AQ BA BA AD AL AD AD AC AC AE AC BS
N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
N
C C C C C C C C C C C C C C C C C D D C C C C C C C C C C B E C D C C C C C C
Separate rubber Separate plate Sub feed plate,left Sub feed plate,right Feed plate Original sensor lever Front sensor lever Front sensor lever spring Separate spring Send feed spring PO pinch roller spring Original sensor lever spring Sub feed spring, left Sub feed spring, right Pinch roller Document guide upper Static brush Panel case Sub panel case Start key Cursor key Qwerty key 12 key Function key Copy key 12 key rubber Qwerty key rubber Copy key rubber Panel cable LCD unit Operation panel PWB unit Double tape Decoration panel Earth cable LCD sponge Qwerty rubber sheet Screw (2x6) Screw (2.6x8) Screw (3x10)
E
Operation panel unit
5
FO-IS125N
[3] Scanner frame unit
29 B2 B2
30
24
22
B2 37
10
26
28 19
11
B1
B5
18
39
31
27
25
16
23 17 B4
36
32
B1
33 B5
1 3
B1
40
12
B1
18 8
35
2
34 B3
14 15
13
9
21
20
5 B2
7 4 6
B2
5
6
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[3] Scanner frame unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 39 40 B1 B2 B3 B4 B5
CFRM-2285XH01 LFRM-2285XHZZ LPLTM3470XHZZ NGERH2639XHZZ NGERH2702XHZZ NGERH2718XHZZ NGERH2720XHZZ RMOTS2213XHZZ CROLP2499XH01 LBSHP2174XHZZ LFRM-2284XHZZ LHLDZ2322XHZA LHLDZ2323XHZZ MSPRC3742XHZZ MSPRC3743XHZZ MSPRC3689XHZZ MSPRC3725XHZZ MSPRP3717XHZZ NGERH2410XHZZ NGERH2636XHZZ NGERH2641XHZZ NGERH2734XHZZ NGERP2318XHZZ NROLR2549XHZZ NROLR2562XHZZ NROLR2563XHZZ NSFTP2394XHZZ PGIDM2741XHZZ PGIDM2742XHZL PGIDM2743XHZR PSPAZ2309XHZZ QCNWN309DXHZZ QCNWN313DXHZZ QSW-M2343XHZZ RUNTZ2147XHZZ LPLTP3493XHZZ QCNWN320DXHZZ QCNWN365CXHZZ PWIR-2038XHZZ XEBS730P10000 LX-BZ2222XHZ7 XEBS720P10000 LX-BZ2205XHZ7 XEBS726P08000
AZ AH AF AF AH AP AP AV AM AE BA AE AK AD AD AE AD AF AB AF AE AD AD AU AL AH AF AG AE AE AD AL AH AN BM AD AF AD AQ AC AD AE AE AE
N N N
N N N N
N N N
N N N N N N N N N N N N N
E C C C C C C B C C C C C C C C C C C C C C C C C C C C C C C C C C B C C C C C C C C C
TX drive frame unit TX drive frame Radiator plate Reduction gear,16/28Z Reduction gear,19/25Z Reduction gear,20/77Z Reduction gear,25/30Z Scanner motor Exit roller ass'y Back roller bearing Scanner frame CIS holder, left CIS holder, right CIS spring,left CIS spring,right Earth spring Pinion gear spring Panel lock lever spring Idler gear,28Z Document PO gear,21Z Back gear,19Z Send roller gear Pinion gear Back roller Feed roller Send roller Feed roller shaft Document guide lower Hopper guide, left Hopper guide, right Send roller spacer Interlock switch cable CIS cable Interlock switch CIS Scnner R plate Earth cable Earth cable Stop wire Screw (3x10) Screw (3x10) Screw (2x10) Screw Screw (2.6x8)
7
FO-IS125N
[4] Paper happer unit 4 11 14
2
13 3 1
12
5
B1
8
6
B1
9 7
10 NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[4] Paper happer unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 B1
LPLTG3476XHZZ LPLTM2924XHFW LPLTP3475XHZZ LPLTP3483XHZZ MSPRC3702XHZZ MSPRC3703XHZZ MSPRT3718XHZZ NGERH2365AXZZ NGERH2754XHZZ PGIDM2746XHZZ PGIDM2747XHZZ PSEL-2015XHZZ TLABH717KXHZZ PSHEP3988XHZZ LX-BZ2222XHZ7
AQ AQ AE AP AC AD AD AD AE AV AF AB AE AD AD
N N N N N N N N N N N
C C C C C C C C C C C C D C C
Separate pad Rotation plate Separate plate Release plate Separate spring Coil spring RP release spring RP release gear,left RP release gear, right Paper hopper A4 paper guide Paper pad Paper limit label Separate sheet Screw (3x10)
8
FO-IS125N
[5] Printer drive unit
14
B2
B5
13
10
11 9 4
18
15 17
33
34 5
B2
3
34
1
32
30
21 27
6
7
24
19
8
23
B1
25 B4 B4
35
B4 B3
901
9
29
12
20
2
16 28
31
26
22
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[5] Printer drive unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 B1 B2 B3 B4 B5 901
LFRM-2286XHZZ LPLTM3471XHZZ MLEVP2409XHZZ MLEVP2446XHZZ MSPRC2735XHZZ MSPRC3528XHZZ MSPRC3690XHZZ MSPRC3691XHZZ MSPRC3692XHZZ MSPRC3694XHZZ MSPRC3695XHZZ MSPRC3696XHZZ MSPRC3697XHZZ MSPRP3693XHZZ MSPRT3712XHZZ MSPRT3713XHZZ NGERH2458XHZZ NGERH2670XHZZ NGERH2735XHZZ NGERH2736XHZZ NGERH2737XHZZ NGERH2738XHZZ NGERH2739XHZZ NGERH2742XHZZ NGERH2743XHZZ NGERH2744XHZZ NGERH2745XHZZ NGERH2755XHZZ NGERH2756XHZZ NGERH2757XHZZ NSFTP2422XHZZ PMAGE2056XHZC QCNWN317DXHZZ QSW-Z2237XHZB RMOTS2214XHZZ LX-BZ2138XHZ7 LX-BZ2222XHZ7 LX-BZ2241XHZ7 XEBS730P10000 XHBS730P08000 (Unit) CFRM-2286XH01
AW AQ AE AE AC AE AD AD AD AF AF AD AD AF AC AD AB AE AE AE AD AD AD AD AD AD AD AD AD AE AD AQ AF AL BA AD AD AD AC AB BM
N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B C C B C C C C C
Printer drive frame Printer drive bracket Planet lever B ASF release lever Planet gear spring Latch gear spring OPC earth spring Coupling spring DV terminal spring FU earth spring TC terminal spring SV terminal spring TC earth spring MC terminal spring RP lever spring Clutch spring Planet gear Sun gear Reduction gear, 73/19Z Reduction gear, 52/15Z Reduction gear, 60/28Z Reduction gear, 37/18Z Reduction gear, 40/19Z Reduction gear, 31/15Z Coupling gear Idler gear, 24Z Idler gear, 20Z Latch gear, 29Z Latch gear, 60Z Reduction gear, 43/26Z Coupling shaft Solenoid Toner sensor cable Toner sensor Printer motor Screw Screw (3x10) Screw Screw (3x10) Screw (3x8)
E
Printer drive unit
10
FO-IS125N
[6] Fusing unit 8 19 14 41 15
B3
30
39 10
17 40
8 41 33
38
22 31 24
13
B5
36 B5
39
4
23
1
3 2
32
B5
23
11
32
B5
N1
B4
34 20
16
B2
35 B1
B4
27 28
N1
21 37
B2 N1
B2
9 6
12 34
B4
25
B4
29
7
5
26 901
11
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[6] Fusing unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 B1 B2 B3 B4 B5 N1 901
LHLDZ2297XHZZ PSHEP3853XHZZ PSPO-2024XHZZ QFS-T2027XHZZ LBNDJ2006XHZZ LBSHP2162XHZZ LBSHP2167XHZZ LBSHP2168XHZZ LFRM-2265XHZZ LFRM-2266XHZZ LPLTP3348XHZZ LPLTP3376XHZZ MLEVP2411XHZZ MLEVP2412XHZZ MLEVP2413XHZZ MSPRC3528XHZZ MSPRC3531XHZZ MSPRD3529XHZZ MSPRK3549XHZZ MSPRK3590XHZZ MSPRP3535XHZZ MSPRT3594XHZZ NGERH2576XHZA NGERH2582XHZA NGERH2678XHZA NGERH2679XHZZ NGERH2680XHZZ NROLP2536XHZZ NROLR2539XHZZ PSHEZ3864XHZZ PTME-2081XHZZ QCNWN312DXHZZ QCNWN316DXHZZ QFS-T2019XHZZ RDTCT2002XHZZ RLMPU2015XHZA TCAUH2041XHZZ TLABH351JXHZZ VHPSG2482A+-1 MSPRC3530XHZZ LX-BZ0956XHZ7 LX-BZ2138XHZ7 LX-BZ2222XHZ7 XBPS730P08KS0 XEBS730P10000 XNGS730-18000 (Unit) CFRM-2265XH04
AE AG AG AQ AA AE AK AE AU AV AG AK AF AF AF AE AE AE AF AE AE AE AF AD AG AE AE BD BD AG AF AF AH AQ AS BE AG AD AN AD AE AD AD AB AC AD BV
N
N N N
N
C C C A C C C C C C C C C C C C C C C C C C C C C C C C C C C C C A B B D D B C C C C C C C
Fuse holder Fuse sheet Fuse sponge Fuse-2 Band (100mm) Heat roller bearing 1 Heat roller bearing 2 FU bearing FU frame,rear FU frame,front FU terminal FU AC terminal FU release lever,right FU release lever,left FU sensor lever Rachet gear spring FU earth spring FU sensor lever spring Fuse bar 1 Fuse bar 2 Earth spring Separating pawl spring Idler gear,21Z Idler gear,15Z Heat roller gear Idler gear,27Z Idler gear,28Z Heat roller FU roller Photo sheet Separating pawl Paper out sensor cable FU AC cord Fuse-1 Thermistor Heater Heat caution FU release label Photo sensor FU pinch spring Screw Screw Screw (3x10) Screw (3x8) Screw (3x10) Nut (M3)
E
Fusing unit
12
FO-IS125N
[7] Packing material & Accessories 10
26 9 8 27
10 24 19
3
18
28
19
29
4 1 22
2
23
21 5
7 20 25 13 17
15 14
11 16
12
13
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[7] Packing material & Accessories 1 2 3 4 5 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
UDSKA2072XHZZ TCADH3943XHZZ TLABP720KXHZZ TCADH3984XHZZ TGANE2417XHZZ SSAKA2003XHZZ LPLTP3486XHSA LPLTP3487XHSA SPAKP420DXHZZ SPAKP274HXHZZ SPAKC508HXHTZ SPAKA504HXHZZ SPAKA505HXHZZ SPAKA506HXHZZ SPAKA507HXHZZ SPAKA509HXHZZ SPAKA529HXHZZ SPAKA623HXHZZ DUNTK245DXHPW LPLTP3442XHSA SSAKA596HXHZZ DUNT-423KXH01 PSHEZ3867XHZZ DUNT-424KXH01 LPLTP3084XHZC LPLTP3088XHZC QCNWG202DXHFW QCNWG370BXHZZ
AX AG AF AF AD AA AG AF AF AQ AY AH AH AH AH AG AF AD AX AQ AD BT AE BV AH AM AP AL
N N N N N N N N N N N N N N N N
N N N N N
D D D D D D C C D D D D D D D D D D E C D S C S C C C C
CD-ROM Setup guide Rapid key labels Quick reference guide Warranty sheet Polyethylene bag Document exit tray 1 Document exit tray 2 Polyethylene bag Vinyl cover Packing case Packing add., top, left Packing add., top, right Packing add., bottom, left Packing add., bottom, right Pad A PadB Drum protection Handset Paper tray Polethylene bag Drum cartridge (Initial starter cartridge) Shading sheet Toner cartridge (Initial starter cartridge) Received document tray Document feeder tray Handset cord Telephone line cord
B B B B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
Varistor(RA-391P-V6-2) Varistor(RA-501P-C6) Varistor(RA-501P-C6) Battery(CR2032T34) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(33Ω x4) Block resistor(100Ω x4) Block resistor(33Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(10KΩ x4) Block resistor(100Ω x4) Block resistor(100Ω x4) Block resistor(10KΩ x4) Block resistor(33Ω x4) Block resistor(33KΩ x4) Block resistor(33KΩ x4) Block resistor(10KΩ x4) Block resistor(10KΩ x4) Block resistor(10KΩ x4) Block resistor(10KΩ x4) Block resistor(10KΩ x4) Capacitor(25WV 470PF) Capacitor(25WV 1000PF) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 8PF) Capacitor(10WV 1µ F) Capacitor(25WV 1000PF) Capacitor(16WV 0.1µ F)
[8] Control PWB unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54
VHVRA391PV6-1 VHVRA501PC6-1 VHVRA501PC6-1 UBATL2234XHZZ VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF330J VRS-CG1JF101J VRS-CG1JF330J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF103J VRS-CG1JF101J VRS-CG1JF101J VRS-CG1JF103J VRS-CG1JF330J VRS-CG1JF333J VRS-CG1JF333J VRS-CG1JF103J VRS-CG1JF103J VRS-CG1JF103J VRS-CG1JF103J VRS-CG1JF103J VCKYCZ1EB471K VCKYCZ1EB102K VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1EH8R0D VCKYCY1AF105Z VCKYCZ1EB102K VCKYCZ1CF104Z
AE AG AG AF AA AA AA AC AA AC AA AA AA AA AA AA AC AC AA AA AC AC AC AC AC AC AC AC AC AD AA AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AA AC AA AB
14
[AR1101] [AR1102] [AR1103] [BAT900] [BR100] [BR101] [BR102] [BR103] [BR104] [BR105] [BR106] [BR107] [BR108] [BR109] [BR110] [BR111] [BR112] [BR200] [BR201] [BR500] [BR600] [BR700] [BR702] [BR703] [BR801] [BR802] [BR803] [BR804] [BR805] [C100] [C101] [C102] [C103] [C104] [C105] [C106] [C107] [C108] [C109] [C110] [C111] [C112] [C113] [C114] [C115] [C116] [C117] [C118] [C119] [C120] [C121] [C122] [C123] [C124]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[8] Control PWB unit 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139
VCKYCZ1EB102K VCCCCZ1EH100D VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYTV1AF106Z VCKYCZ1CF104Z VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1EB102K VCCCCZ1EH180J VCCCCZ1EH220J VCKYTV1AF106Z VCKYCZ1EB102K VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1EH270J VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ0JF105Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1EH330J VCKYCY1HF104Z VCEAEA1CW226M VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCY1HF104Z VCKYCZ1CF104Z VCKYCZ1EB102K VCKYCZ1EB102K VCKYCZ1CF104Z VCKYCZ1EB102K VCKYCZ1EB102K VCKYCZ1EB102K VCKYCY1HF104Z RC-EZ3133XHZZ VCKYCZ1EB102K VCKYCY1HB103K VCKYCY1HB103K VCKYCY1HB103K VCKYCY1HB103K VCKYCY1CF224Z VCKYCY1HF104Z VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1EB102K VCKYCZ1EB102K VCKYCZ1EB102K VCKYCZ1EB102K VCEAGA1EW107M VCKYCZ1CF104Z VCKYCY1HF104Z VCKYCZ1EB102K VCKYCY1HB103K VCKYCY1HB103K VCKYCY1HB103K VCKYCY1HB103K VCKYCZ1HB681K VCKYCZ1HB681K VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1EB102K VCKYCZ1EB102K VCKYCZ1EB102K VCKYCZ1EB102K VCCCCZ1EH150J VCCCCZ1EH180J VCKYTV1AF106Z VCKYCZ1CB103K
AA AA AB AB AB AB AB AC AB AC AB AB AA AA AA AC AA AB AB AB AB AB AB AB AB AB AB AA AB AB AC AB AB AB AC AA AA AB AB AB AA AB AA AA AB AA AA AA AA AE AA AA AA AA AA AB AA AC AB AA AA AA AA AB AB AA AA AA AA AA AA AA AA AC AB AB AB AA AA AA AA AC AA AC AA
N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
Capacitor(25WV 1000PF) Capacitor(25WV 10PF) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 1000PF) Capacitor(25WV 18PF) Capacitor(25WV 22PF) Capacitor(10WV 10µ F) Capacitor(25WV 1000PF) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 27PF) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(6.3WV 1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 33PF) Capacitor(50WV 0.1µ F) Capacitor(16WV 22µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(50WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(16WV 0.1µ F) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(50WV 0.1µ F) Capacitor(50WV 100µ F) Capacitor(25WV 1000PF) Capacitor(50WV 0.01µ F) Capacitor(50WV 0.01µ F) Capacitor(50WV 0.01µ F) Capacitor(50WV 0.01µ F) Capacitor(16WV 0.22µ F) Capacitor(50WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 100µ F) Capacitor(16WV 0.1µ F) Capacitor(50WV 0.1µ F) Capacitor(25WV 1000PF) Capacitor(50WV 0.01µ F) Capacitor(50WV 0.01µ F) Capacitor(50WV 0.01µ F) Capacitor(50WV 0.01µ F) Capacitor(50WV 680PF) Capacitor(50WV 680PF) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 1000PF) Capacitor(25WV 15PF) Capacitor(25WV 18PF) Capacitor(10WV 10µ F) Capacitor(16WV 0.01µ F)
15
[C125] [C126] [C127] [C128] [C129] [C130] [C131] [C132] [C133] [C134] [C135] [C136] [C137] [C139] [C140] [C142] [C143] [C200] [C201] [C202] [C203] [C204] [C205] [C206] [C207] [C208] [C209] [C210] [C211] [C212] [C213] [C214] [C215] [C303] [C304] [C305] [C306] [C307] [C310] [C400] [C401] [C402] [C403] [C404] [C405] [C406] [C407] [C408] [C502] [C503] [C504] [C506] [C507] [C508] [C509] [C510] [C511] [C512] [C513] [C514] [C515] [C517] [C518] [C601] [C602] [C608] [C609] [C611] [C612] [C613] [C614] [C615] [C616] [C617] [C618] [C700] [C701] [C705] [C713] [C718] [C719] [C800] [C801] [C802] [C803]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[8] Control PWB unit
!
140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224
VCKYCZ1CB103K VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYTV1AF106Z VCKYCZ1EB102K VCKYCZ0JF105Z VCKYCZ0JF105Z VCKYCZ1CF104Z VCKYCZ0JF105Z VCKYCZ1CF104Z VCKYCY1HB682K VCKYCY1HB682K VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CB103K VCKYCZ1CB103K VCKYCZ1CB223K VCKYTV1AF106Z VCKYCZ1CF104Z VCKYTV1AF106Z VCKYCZ0JF105Z RC-EZ3133XHZZ VCCCCZ1EH390J VCCCCZ1EH150J VCKYCZ1CB103K VCKYCZ1CF104Z VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1EH221J VCKYTV1AF106Z VCKYCY1AB105K VCCCCZ1HH331J VCKYCZ1CB103K VCKYCY1AF105Z VCKYCZ1CF104Z VCKYCZ1EB472K VCCCCZ1HH331J VCCCCZ1HH331J VCKYCZ1CB223K VCKYCY1CB104K VCKYCY1CB104K RC-KZ3127XHZZ VCKYCY1CB104K VCKRTN2EX473K VCCCCY1HH470J VCCCCZ1EH151J VCCCCZ1EH151J VCKYCY1CB104K VCKYCY1CB104K RC-KZ3132XHZZ RC-KZ3132XHZZ VCKYTV1AF106Z VCCCCZ1EH220J VCKYCY1AB225K VCKYCY1HB103K VCKYCZ1CF104Z VCKYCZ1EB222K VCKYCZ1CF104Z VCKYCZ1EB391K VCKYCZ1CF104Z VCKYTV1HF105Z VCKYCY1AB105K VCKYCY1AB225K VCKYCY1HB222K VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYTV1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCEAGA1HW106M VCKYCZ1CF104Z QCNCM2666XH0G QCNCM2694XH0C QCNCM2694XH0E QJAKZ2090XHZZ QJAKZ2087XH0B QCNCM7014SC0H QCNCM7014SC0D QCNCM2401SC0B
AA AC AB AB AB AB AC AA AC AC AB AC AB AA AA AB AB AA AA AB AC AB AC AC AE AD AC AA AB AC AB AB AB AC AB AC AA AC AB AA AC AC AB AB AB AD AB AD AA AA AA AB AB AG AG AC AA AB AA AB AB AB AD AB AA AB AB AA AC AB AB AC AB AB AB AA AB AE AE AE AT AD AB AB AA
N N
N N
N N
N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
Capacitor(16WV 0.01µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(25WV 1000PF) Capacitor(6.3WV 1µ F) Capacitor(6.3WV 1µ F) Capacitor(16WV 0.1µ F) Capacitor(6.3WV 1µ F) Capacitor(16WV 0.1µ F) Capacitor(50WV 6800PF) Capacitor(50WV 6800PF) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.01µ F) Capacitor(16WV 0.01µ F) Capacitor(16WV 0.022µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(6.3WV 1µ F) Capacitor(50WV 100µ F) Capacitor(25WV 39PF) Capacitor(25WV 15PF) Capacitor(16WV 0.01µ F) Capacitor(16WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 220PF) Capacitor(10WV 10µ F) Capacitor(10WV 1µ F) Capacitor(50WV 330PF) Capacitor(16WV 0.01µ F) Capacitor(10WV 1µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 4700PF) Capacitor(50WV 330PF) Capacitor(50WV 330PF) Capacitor(16WV 0.022µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(250WV 0.01µ F) Capacitor(16WV 0.1µ F) Capacitor(250WV 0.047µ F) Capacitor(50WV 47PF) Capacitor(25WV 150PF) Capacitor(25WV 150PF) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(250WV 470PF) Capacitor(250WV 470PF) Capacitor(10WV 10µ F) Capacitor(25WV 22PF) Capacitor(10WV 2.2µ F) Capacitor(50WV 0.01µ F) Capacitor(16WV 0.1µ F) Capacitor(25WV 2200PF) Capacitor(16WV 0.1µ F) Capacitor(25WV 390PF) Capacitor(16WV 0.1µ F) Capacitor(50WV 1µ F) Capacitor(10WV 1µ F) Capacitor(10WV 2.2µ F) Capacitor(50WV 2200PF) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(10WV 10µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(16WV 0.1µ F) Capacitor(50WV 10µ F) Capacitor(16WV 0.1µ F) Connector(7pin) Connector(3pin) Connector(5pin) Jack Jack Connector(8pin) Connector(4pin) Connector(2pin)
16
[C804] [C805] [C806] [C807] [C808] [C809] [C810] [C811] [C812] [C813] [C814] [C815] [C816] [C817] [C818] [C819] [C820] [C821] [C822] [C823] [C901] [C902] [C903] [C904] [C905] [C1000] [C1001] [C1002] [C1003] [C1004] [C1005] [C1006] [C1007] [C1008] [C1009] [C1010] [C1011] [C1012] [C1013] [C1014] [C1015] [C1016] [C1017] [C1102] [C1103] [C1104] [C1105] [C1106] [C1107] [C1108] [C1109] [C1110] [C1111] [C1112] [C1113] [C1200] [C1201] [C1203] [C1205] [C1207] [C1209] [C1210] [C1211] [C1213] [C1214] [C1216] [C1219] [C1220] [C1221] [C1222] [C1223] [C1224] [C1225] [C1227] [C1230] [C1231] [C1233] [CNCIS] [CNFM] [CNHV] [CNLAN] [CNLNJ] [CNLSR] [CNMM] [CNPIN]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[8] Control PWB unit
! !
225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309
QCNCM2666XH0E QCNCW2556SC1I QCNCM7014SC0C QCNCM2743XH1J QCNCM2442SC0B QCNCM7014SC0B QCNCM2666XH0B QCNCM2694XH0E QCNCM2401SC0D QCNCM2666XH0D VRS-CY1JB000J VHD1SS302F+-1 VHD1SS302F+-1 VHD1SS352F+-1 VHD1SS352F+-1 RH-EX2502XHZZ VHD1SS301++-1 RH-EX2502XHZZ VHDRB715F//-1 VHD1SS352F+-1 VHDSS16////-1 VHD1SS352F+-1 QFS-L2021XHZZ QFS-L2025XHZZ QPRTR2001XHZZ QFS-L1037YCZZ DROM-582XXH01 VHI25V016CS-1 VHIEDS2516A-1 VHI25V016CS-1 VHI25V016CS-1 VHI25V016CS-1 VHIVHC138FT-1 VHI421A380N-1 VHIVHCT00AT-1 RH-IX2457XHZZ RH-IX2461XHZZ VHILM393LS+-1 VHI7WH74FKF-1 RH-IX2447XHZZ VHIA3967SLB-1 VHI74VH573T-1 RH-IX2411XHZZ VHILAN9118+-1 VHI48033BF+-1 VHIMC34119L-1 RH-IX2346XHZZ VHITC7PA53F-1 VRS-CY1JB2R0J VRS-CY1JB000J VRS-CZ1JB000J VRS-CZ1JB000J RCILF2220XHZZ RCILF2220XHZZ RCILZ0285AFZZ RCILZ0285AFZZ VS2SA2059++-1 VSRN1702F++-1 VSRN1702F++-1 VSRT5N234CT-1 VSRN2406YF+-1 VSRT5N234CT-1 VS2SC2712GR-1 VSRN1406F++-1 VSRN1406F++-1 VS2SC4548++-1 VS2SC4548++-1 VS2SC4548++-1 VS2SC4548++-1 VSKTC3198GR-1 VSRN1406F++-1 VRS-CZ1JB101J VRS-CZ1JB000J VRS-CZ1JB101J VRS-CZ1JB330J VRS-CZ1JB101J VRS-CZ1JB000J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB103J VRS-CZ1JB000J
AE AG AA AF AB AD AD AE AC AD AA AF AF AF AF AC AD AC AF AF AF AF AE AE AF AD AZ AX AF AX AX AX AF AF AF AG AH AE AF AX AW AG AG BA AF AN AG AG AD AA AA AA AF AF AB AB AH AF AF AD AF AD AB AF AF AF AF AF AF AD AF AA AA AA AA AA AA AA AA AA AA
N
N
N N N
N N N N N N N N N N N N
N N
N N
N N N N
C C C C C C C C C C C B B B B B B B B B B B A A A A B E B B B B B B B B B B B B B B B B B B B B B B B B C C C C C C C C B B B B B B B B B B B B B B B C C C C C C C C C C
Connector(5pin) Connector(19pin) Connector(3pin) Connector(10pin) Connector(2pin) Connector(2pin) Connector(2pin) Connector(5pin) Connector(4pin) Connector(4pin) Resistor(1/16W 0Ω ± 5%) Diode(1SS302) Diode(1SS302) Diode(1SS352) Diode(1SS352) Zener diode(HZU6.2B2) Diode(1SS301) Zener diode(HZU6.2B2) Diode(RB715F) Diode(1SS352) Diode(SS16) Diode(1SS352) IC protector(KAB5002 251) IC protector(KAB2402 402) IC protector(KAB5002 321) IC protector(KAB3202 801) IC (Supplied with RKITE2001XHZZ)(CX95410-12Z) Service IC, Flash ROM(16MB) (Ver.: TF78C) IC(SST25VF016B) IC(EDS2516AFTA-75-E) IC(SST25VF016B) IC(SST25VF016B) IC(SST25VF016B) IC(TC74VHC138FT) IC(PST421A380NR) IC(TC74VHCT00AFT) IC(74LV1GW14ASCE-E) IC(KIA7805API/P) IC(LM393L) IC(TC7WH74FK) IC(A3982SLB) IC(A3967SLBTR-T) IC(TC74VHC573FT) IC(SN74LV244APWR) IC(LAN9118-MT) IC(TA48033BF) IC (Supplied with RKITE2001XHZZ)(CX95110) IC(MC34119L) IC (Supplied with RKITE2001XHZZ)(CX20548-11Z) IC (Supplied with RKITE2001XHZZ)(CX20548-12Z) IC(HA17358AFEL) IC(TC7PA53FU) Resistor(1/16W 2.0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Coil(DLW21SN670SQ2) Coil(DLW21SN670SQ2) Coil(MMZ1608Y102B) Coil(MMZ1608Y102B) Transistor(2SA2059) Transistor(RN1702) Transistor(RN1702) Transistor(RT5N234C) Transistor(RN2406) Transistor(RT5N234C) Transistor(2SC2712GR) Transistor(RN1406) Transistor(RN1406) Transistor(2SC4548) Transistor(2SC4548) Transistor(2SC4548) Transistor(2SC4548) Transistor(KTC3198GR) Transistor(RN1406) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 0Ω ± 5%)
17
[CNPM] [CNPN] [CNPOUT] [CNPW] [CNRTH] [CNSL] [CNSP] [CNTEL] [CNTNR] [CNTXM] [D100] [D101] [D103] [D300] [D301] [D500] [D501] [D600] [D900] [D901] [D902] [D1200] [F300] [F500] [F501] [F600] [IC100] [IC200] [IC201] [IC202] [IC203] [IC204] [IC206] [IC207] [IC208] [IC300] [IC301] [IC302] [IC400] [IC401] [IC500] [IC600] [IC700] [IC701] [IC800] [IC900] [IC1000] [IC1001] [IC1100] [IC1200] [IC1201] [IC1202] [L100] [L101] [L300] [L600] [L800] [L801] [L1100] [L1101] [Q100] [Q300] [Q301] [Q302] [Q400] [Q500] [Q600] [Q900] [Q1000] [Q1100] [Q1101] [Q1102] [Q1103] [Q1200] [Q1201] [R100] [R101] [R102] [R103] [R104] [R105] [R106] [R108] [R109] [R110]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[8] Control PWB unit 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394
VRS-CZ1JB225J VRS-CZ1JB752F VRS-CZ1JB000J VRS-CZ1JB000J VRS-CZ1JB222J VRS-CZ1JB104J VRS-CY1JB000J VRS-CZ1JB105J VRS-CZ1JB103J VRS-CZ1JB330J VRS-CZ1JB330J VRS-CZ1JB330J VRS-CZ1JB122J VRS-CZ1JB000J VRS-CZ1JB103J VRS-CZ1JB101J VRS-CZ1JB000J VRS-CZ1JB472J VRS-CZ1JB103J VRS-CZ1JB222J VRS-CZ1JB332J VRS-CZ1JB103J VRS-CZ1JB100J VRS-CZ1JB103J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB103J VRS-CZ1JB102J VRS-CZ1JB101J VRS-CZ1JB100J VRS-CZ1JB104J VRS-CZ1JB103J VRS-HT3DA470J VRS-CZ1JB330J VRS-CZ1JB101J VRS-CZ1JB752F VRS-CZ1JB222J VRS-CZ1JB222J VRS-CZ1JB154J VRS-CZ1JB472J VRS-CZ1JB105J VRS-CZ1JB222J VRS-CZ1JB303J VRS-CZ1JB203J VRS-CZ1JB104J VRS-CZ1JB562J VRS-CZ1JB472J VRS-CZ1JB105J VRS-CZ1JB103J VRS-HT3AAR22J VRS-CZ1JB103J VRS-CZ1JB203J VRS-CZ1JB303J VRS-HT3AAR22J VRS-CZ1JB103J VRS-CZ1JB101J VRS-CZ1JB103J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB100J VRS-CY1JB100J VRS-CZ1JB100J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CY1JB000J VRS-CY1JB000J VRS-CZ1JB102J VRS-CZ1JB103J VRS-TV2ABR22J VRS-CZ1JB123J VRS-CZ1JB133J VRS-CZ1JB103J VRS-CZ1JB332J VRS-TV2ABR22J VRS-CZ1JB303J VRS-CZ1JB303J VRS-CZ1JB330J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB333J VRS-CZ1JB000J VRS-CZ1JB000J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB000J
AA AC AA AA AD AA AA AD AA AA AA AA AA AA AA AA AA AA AA AD AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AD AD AD AA AD AD AD AD AA AA AA AD AA AA AA AD AD AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AD AC AA AA AC AD AD AA AA AA AA AA AA AA AA AA
N
N
N
N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
Resistor(1/16W 2.2MΩ ± 5%) Resistor(1/16W 7.5KΩ ± 1%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 2.2KΩ ± 5%) Resistor(1/16W 100KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 1MΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 1.2KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 4.7KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 2.2KΩ ± 5%) Resistor(1/16W 3.3KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 10Ω ± 5%) Resistor(1/16W 100KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(2W 47Ω ± 5%) Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 7.5KΩ ± 1%) Resistor(1/16W 2.2KΩ ± 5%) Resistor(1/16W 2.2KΩ ± 5%) Resistor(1/16W 150KΩ ± 5%) Resistor(1/16W 4.7KΩ ± 5%) Resistor(1/16W 1MΩ ± 5%) Resistor(1/16W 2.2KΩ ± 5%) Resistor(1/16W 30KΩ ± 5%) Resistor(1/16W 20KΩ ± 5%) Resistor(1/16W 100KΩ ± 5%) Resistor(1/16W 5.6KΩ ± 5%) Resistor(1/16W 4.7KΩ ± 5%) Resistor(1/16W 1MΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1W 0.22Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 20KΩ ± 5%) Resistor(1/16W 30KΩ ± 5%) Resistor(1W 0.22Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 10Ω ± 5%) Resistor(1/16W 10Ω ± 5%) Resistor(1/16W 10Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/10W 0.22Ω ± 5%) Resistor(1/16W 12KΩ ± 5%) Resistor(1/16W 13KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 3.3KΩ ± 5%) Resistor(1/10W 0.22Ω ± 5%) Resistor(1/16W 30KΩ ± 5%) Resistor(1/16W 30KΩ ± 5%) Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 33KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 0Ω ± 5%)
18
[R111] [R112] [R113] [R115] [R116] [R117] [R118] [R119] [R120] [R121] [R122] [R123] [R124] [R125] [R126] [R201] [R202] [R204] [R206] [R213] [R300] [R301] [R302] [R303] [R304] [R305] [R306] [R307] [R308] [R309] [R310] [R311] [R312] [R313] [R314] [R400] [R401] [R402] [R403] [R404] [R405] [R406] [R407] [R408] [R409] [R410] [R411] [R412] [R500] [R501] [R502] [R503] [R504] [R505] [R507] [R508] [R509] [R510] [R511] [R600] [R602] [R603] [R604] [R605] [R607] [R609] [R610] [R611] [R613] [R614] [R615] [R616] [R617] [R618] [R619] [R620] [R621] [R700] [R701] [R703] [R704] [R705] [R706] [R707] [R708]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[8] Control PWB unit 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479
VRS-CZ1JB330J VRS-CZ1JB105J VRS-CZ1JB101J VRS-CZ1JB331J VRS-TV2AB123F VRS-TV2AB000J VRS-CZ1JB102J VRSTV2AB1242F VRSCY1JB49R9F VRSCY1JB49R9F VRS-CY1JB100F VRS-CZ1JB103J VRSCY1JB49R9F VRSCY1JB49R9F VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB330J VCKYTV1HF104Z VRS-CZ1JB330J VRS-TV2AB000J VRS-TV2AB000J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB103J VRS-CZ1JB101J VRS-CZ1JB333J VRS-CZ1JB151J VRS-CZ1JB244J VRS-CZ1JB151J VRS-CY1JB000J VRS-CY1JB000J VRS-CZ1JB103J VRS-CZ1JB000J VRS-CZ1JB000J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB224J VRS-CZ1JB104J VRS-CZ1JB303J VRS-CZ1JB000J VRS-CZ1JB203J VRS-CZ1JB224J VRS-CZ1JB102J VRS-CZ1JB472J VRS-CZ1JB103J VRS-CZ1JB132J VRS-CZ1JB201J VRS-CY1JB000J VRSTV2AB6814F VRS-CY1JB154F VRSTV2AB6814F VRSTV2AB2373F VRS-TX2HD281F VRS-TX2HD281F VRS-TX2HD281F VRS-TX2HD281F VRS-CY1JB000J VRS-CY1JB101J VRSCY1JB3R01F VRSCY1JB3R01F VRS-CY1JB111J VRS-TW2ED9R1F VRS-CZ1JB222J VRS-CZ1JB474J VRS-CZ1JB511J VRS-CZ1JB103J VRS-CY1JB154F VRS-CZ1JB103J VRSCY1JB3011F VRS-CZ1JB393J VRS-CZ1JB332J VRS-CZ1JB000J VRS-CZ1JB823J VRS-CZ1JB102J VRS-CZ1JB332J VRSCY1JB3011F VRS-CZ1JB393J VRS-CZ1JB133J VRS-CZ1JB000J VRS-TW2ED151J VRS-CY1JB000J VRS-CZ1JB102J VRS-CZ1JB472J VRS-CY1JB000J
AA AD AA AA AC AA AA AC AG AG AC AA AG AG AA AA AA AA AA AA AA AA AA AA AA AA AA AD AA AA AA AA AA AA AA AA AA AA AA AD AA AD AA AA AA AA AD AA AA AC AC AC AC AD AD AD AD AA AA AC AC AB AC AD AD AB AA AC AA AA AD AA AA AD AA AA AA AD AC AA AB AA AA AA AA
N N N
N N N N N N N N N N N N
N
N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
Resistor(1/16W 33Ω ± 5%) Resistor(1/16W 1MΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 330Ω ± 5%) Resistor(1/10W 12KΩ ± 1%) Resistor(1/10W 0Ω ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/10W 12.4KΩ ± 1%) Resistor(1/16W 49.9Ω ± 1%) Resistor(1/16W 49.9Ω ± 1%) Resistor(1/16W 10Ω ± 1%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 49.9Ω ± 1%) Resistor(1/16W 49.9Ω ± 1%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 33Ω ± 5%) Capacitor(50WV 0.1µ F) Resistor(1/16W 33Ω ± 5%) Resistor(1/10W 0Ω ± 5%) Resistor(1/10W 0Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 33KΩ ± 5%) Resistor(1/16W 150Ω ± 5%) Resistor(1/16W 240KΩ ± 5%) Resistor(1/16W 150Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 220KΩ ± 5%) Resistor(1/16W 100KΩ ± 5%) Resistor(1/16W 30KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 20KΩ ± 5%) Resistor(1/16W 220KΩ ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/16W 4.7KΩ ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 1.3KΩ ± 5%) Resistor(1/16W 200Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/10W 6.8MΩ ± 1%) Resistor(1/16W 150KΩ ± 1%) Resistor(1/10W 6.8MΩ ± 1%) Resistor(1/10W 237KΩ ± 1%) Resistor(1/2W 280Ω ± 1%) Resistor(1/2W 280Ω ± 1%) Resistor(1/2W 280Ω ± 1%) Resistor(1/2W 280Ω ± 1%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 100Ω ± 5%) Resistor(1/16W 3.01KΩ ± 1%) Resistor(1/16W 3.01KΩ ± 1%) Resistor(1/16W 110Ω ± 5%) Resistor(1/4W 9.1Ω ± 1%) Resistor(1/16W 2.2KΩ ± 5%) Resistor(1/16W 470KΩ ± 5%) Resistor(1/16W 510Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 150KΩ ± 1%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/16W 3.01KΩ ± 1%) Resistor(1/16W 39KΩ ± 5%) Resistor(1/16W 3.3KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 82KΩ ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/16W 3.3KΩ ± 5%) Resistor(1/16W 3.01KΩ ± 1%) Resistor(1/16W 39KΩ ± 5%) Resistor(1/16W 13KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/4W 150Ω ± 5%) Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/16W 4.7KΩ ± 5%) Resistor(1/16W 0Ω ± 5%)
19
[R709] [R800] [R801] [R802] [R803] [R804] [R805] [R806] [R807] [R808] [R809] [R812] [R814] [R815] [R816] [R817] [R818] [R819] [R821] [R822] [R823] [R824] [R825] [R900] [R901] [R902] [R1000] [R1002] [R1003] [R1005] [R1006] [R1007] [R1008] [R1011] [R1012] [R1013] [R1014] [R1015] [R1016] [R1017] [R1018] [R1019] [R1020] [R1021] [R1022] [R1023] [R1024] [R1025] [R1100] [R1101] [R1102] [R1103] [R1104] [R1106] [R1107] [R1108] [R1109] [R1110] [R1111] [R1113] [R1115] [R1117] [R1118] [R1200] [R1201] [R1202] [R1203] [R1204] [R1205] [R1206] [R1207] [R1208] [R1210] [R1211] [R1212] [R1213] [R1214] [R1215] [R1217] [R1219] [R1220] [R1221] [R1224] [R1225] [R1226]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[8] Control PWB unit
!
480 481 482 483 484 485 486 487 488 489 490 491 492 493 901
VRS-CY1JB000J VRS-CZ1JB103J VRS-TP2BD000J VRS-TP2BD101J VRS-CZ1JB102J VRS-CZ1JB000J RH-DX1721AFZZ RTRND2180XHZZ VHVTND5V331-1 RCRSA2233XHPZ RCRSP2238XHZZ RCRSP2237XHZZ RCRSP2194XHZZ RKITE2001XHZZ (Unit) DCEKC582XXH01
AA AA AA AA AA AA AF AL AF AG AH AK AL BQ CA
N
C C C C C C B B B B B B B B
Resistor(1/16W 0Ω ± 5%) Resistor(1/16W 10KΩ ± 5%) Resistor(1/8W 0Ω ± 5%) Resistor(1/8W 100Ω ± 5%) Resistor(1/16W 1KΩ ± 5%) Resistor(1/16W 0Ω ± 5%) Diode bridge(S1ZB60) Transformer(82154R) Varistor(TND05V-331KT) Crystal(32.768kHz) Crystal(24MHz) Crystal(25MHz) Crystal(28.2240MHz) IC kit
N
E
Control PWB unit (within ROM)
C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B B B B B B B B B B B B B B A A A A C C C C C C C C C C C C C C C C C C
Ferrite beads(BL02RN1) Film capacitor(275WV 0.22µ F) Film capacitor(275WV 0.22µ F) Electrolytic capacitor(200WV 220µ F) Ceramic capacitor(3300PF) Ceramic capacitor(0.01µ F) Ceramic capacitor(1KWV 220PF) Ceramic capacitor(50WV 0.01µ F) Ceramic capacitor(50WV 4700PF) Capacitor(50WV 100PF) Ceramic capacitor(0.01µ F) Ceramic capacitor(50WV 0.01µ F) Electrolytic capacitor(35WV 1000µ F) Electrolytic capacitor(35WV 33µ F) Ceramic capacitor(50WV 0.1µ F) Ceramic capacitor(1KWV 1000PF) Electrolytic capacitor(35WV 56µ F) Electrolytic capacitor(16WV 330µ F) Ceramic capacitor(50WV 0.1µ F) Ceramic capacitor(50WV 0.01µ F) Ceramic capacitor(50WV 0.01µ F) Connector(3pin) Connector(2pin) Connector(10Pin) Connector(3pin) Connector(3pin) Zener diode(MA8330) Diode(MA111) Zener diode(MA8091) Diode(MA111) Diode(MA111) Diode(ERA15-06) Diode(ERA15-06) Diode(ERA15-06) Diode(ERA15-06) Diode(ERA15-06) Diode(ERA15-06) Diode(ERB84-010) Diode(ERB84-010) Zener diode(TZP30B) Zener diode(MA8068) Diode(ERA83-006) Diode(EC31QS03L) Diode(EC31QS03L) Diode(MA111) Fuse(AC250V/10A) Fuse(AC250V/4A) Fuse(AC250V/4A) Fuse(AC250V/2A) Heat sink Heat sink Wire(7.5mm) Wire(20mm) Wire(7.5mm) Wire(20mm) Wire(15mm) Wire(15mm) Wire(15mm) Wire(5mm) Wire(7.5mm) Wire(5mm) Wire(7.5mm) Wire(7.5mm) Wire(15mm) Wire(7.5mm) Wire(7.5mm) Wire(7.5mm)
N N
[R1227] [R1229] [R1231] [R1232] [R1233] [R1237] [REC1100] [T1100] [VA1100] [X100] [X101] [X800] [X1000]
[9] Power supply PWB unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67
0KYL5051AQ001 0KYC2131QS224 0KYC2131QS224 0KYC3160KS221 0KYC1384QS332 0KYC1076QQ103 0KYC10A9RQ221 0KYC1330EC103 0KYC1330EC472 0KYC1131EC101 0KYC1076QQ103 0KYC1330EC103 0KYC30A0DQ102 0KYC30A0DQ330 0KYC1133EC104 0KYC10A9RQ102 0KYC30A0DQ560 0KYC30A0BQ331 0KYC1133EC104 0KYC1330EC103 0KYC1330EC103 0KYK2051AQ002 0KYK2061AQ002 0KYK2014LQ010 0KYK2051AQ002 0KYK2148LS005 0KYD4103AC041 0KYD2116AC008 0KYD4103AC013 0KYD2116AC008 0KYD2116AC008 0KYD1057AQ006 0KYD1057AQ006 0KYD1057AQ006 0KYD1057AQ006 0KYD1057AQ006 0KYD1057AQ006 0KYD3101AA010 0KYD3101AA010 0KYD4145AA005 0KYD4103AC008 0KYD2066AQ006 0KYD20Q0AQ003 0KYD20Q0AQ003 0KYD2116AC008 0KYK7135AS007 0KYK7144AR005 0KYK7144AR005 0KYK7144AR002 0KY0MPS902200 0KY0MPS902200 0KYW0000AQ007 0KYW0000AQ020 0KYW0000AQ007 0KYW0000AQ020 0KYW0000AQ015 0KYW0000AQ015 0KYW0000AQ015 0KYW0000AQ005 0KYW0000AQ007 0KYW0000AQ005 0KYW0000AQ007 0KYW0000AQ007 0KYW0000AQ015 0KYW0000AQ007 0KYW0000AQ007 0KYW0000AQ007
AE AK AK AT AG AL AG AC AC AC AL AC AR AG AC AH AG AK AC AC AC AG AF AN AG AG AE AE AG AE AE AF AF AF AF AF AF AL AL AK AE AH AL AL AE AN AL AL AN AF AF AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC
N
N N N N N N N N N N N
N N
N N
20
[BEA1] [C1] [C2] [C5] [C6] [C7] [C8] [C9] [C10] [C11] [C17] [C22] [C102] [C103] [C105] [C108] [C151] [C301] [C501] [C502] [C503] [CN1] [CN2] [CN3] [CN4] [CN5] [D2] [D4] [D5] [D6] [D7] [D10] [D11] [D12] [D13] [D51] [D52] [D101] [D102] [D104] [D110] [D151] [D301] [D302] [D501] [F1] [F2] [F101] [F301] [HS1] [HS2] [J1] [J2] [J3] [J4] [J5] [J6] [J7] [J8] [J101] [J102] [J103] [J104] [J105] [J106] [J107] [J108]
FO-IS125N NO.
PARTS CODE
PRICE NEW PART RANK MARK RANK
DESCRIPTION
[9] Power supply PWB unit 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 !
901
0KYW0000AQ007 0KYW0000AQ010 0KYW0000AQ015 0KYL1179JL193 0KYL1120RS400 0KYD7102AR4R0 0KYH7152AS001 0KYH7151AS001 0KYH7152AS001 0KYT3561KL001 0KYT4097CC002 0KYT4081CC002 0KYT1020NC001 0KYR3126TC184 0KYR3126TC184 0KYR3116VC183 0KYR3133AC561 0KYR3123TC221 0KYR3113VC333 0KYR3113VC101 0KYR3113VC682 0KYR3116VC822 0KYR3113VC223 0KYR3113VC561 0KYR3113VC681 0KYR3133AC330 0KYR3062UQ100 0KYR3133AC100 0KYR3133AC100 0KYR3123TC151 0KYR3123TC393 0KYR3123TC393 0KYR3123TC393 0KYR3123TC393 0KYR3123TC103 0KYR3123TC103 0KYR3133AC334 0KYR3133AC334 0KYR3133AC334 0KYR3113VC102 0KYR3113VC101 0KYR3113VC334 0KYR3116VC123 0KYR3116VC682 0KYR3116VC102 0KYR3133AC562 0KYR3133AC562 0KYR3133AC562 0KYR3133AC562 0KYR3133AC472 0KYR3133AC472 0KYR3133AC472 0KYR3133AC472 0KYR3113VC103 0KYR3113VC103 0KYR3113VC103 0KYR3113VC473 0KYK3104AL001 0KYM1108AZ001 0KYM1108AZ001 0KYL2100DS169 0KYD5107AL002 0KYR8054EQ502 0KYD7112AR002 (Unit) RDENT2237XHZZ
N
C C C C C B B B B B B B B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B C C B B C B
Wire(7.5mm) Wire(10mm) Wire(15mm) Coil(0R7A193F20A) Coil(SN8LP-240JA) NTC thermistor(NTPA74R0) Optical isolater(PS2581AL1) Optical isolater(TLP363JF) Optical isolater(PS2581AL1) FET(2SK3561) Transistor(2SC4097) Transistor(2SC4081) Transistor(XP6501) Resistor(1/8W 180KΩ ) Resistor(1/8W 180KΩ ) Resistor(1/10W 18KΩ ) Resistor(1/4W 560Ω ) Resistor(1/8W 220Ω ) Resistor(1/10W 33KΩ ) Resistor(1/10W 100Ω ) Resistor(1/10W 6.8KΩ ) Resistor(1/10W 8.2KΩ ) Resistor(1/10W 22KΩ ) Resistor(1/10W 560Ω ) Resistor(1/10W 680Ω ) Resistor(1/4W 33Ω ) Resistor(1/6W 10Ω ) Resistor(1/4W 10Ω ) Resistor(1/4W 10Ω ) Resistor(1/8W 150Ω ) Resistor(1/8W 39KΩ ) Resistor(1/8W 39KΩ ) Resistor(1/8W 39KΩ ) Resistor(1/8W 39KΩ ) Resistor(1/8W 10KΩ ) Resistor(1/8W 10KΩ ) Resistor(1/4W 330KΩ ) Resistor(1/4W 330KΩ ) Resistor(1/4W 330KΩ ) Resistor(1/10W 1KΩ ) Resistor(1/10W 100Ω ) Resistor(1/10W 330KΩ ) Resistor(1/10W 12KΩ ) Resistor(1/10W 6.8KΩ ) Resistor(1/10W 1KΩ ) Resistor(1/4W 5.6KΩ ) Resistor(1/4W 5.6KΩ ) Resistor(1/4W 5.6KΩ ) Resistor(1/4W 5.6KΩ ) Resistor(1/4W 4.7KΩ ) Resistor(1/4W 4.7KΩ ) Resistor(1/4W 4.7KΩ ) Resistor(1/4W 4.7KΩ ) Resistor(1/10W 10KΩ ) Resistor(1/10W 10KΩ ) Resistor(1/10W 10KΩ ) Resistor(1/10W 47KΩ ) Relay(G5PA-1) Screw Screw Transformer(169D1) Triode AC semiconductor switch(TM1261) Variable resistor(1/10W 5KΩ ) Transient voltage surge suppressor(ENE241D-10AD-TE
BH
N
E
Power supply PWB unit
BF
N
E
High voltage PWB unit
B B
Photo transistor(SG206S) Photo transistor(GP1S094HCZ)
E
Operation panel PWB unit
C
Hook switch
E
Hook switch PWB unit
AC AC AC AS AU AN AL AW AL AT AG AF AG AB AB AC AC AC AC AC AC AC AC AC AC AC AL AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AU AE AE BA AS AG AK
N N
N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
N N
[J109] [J110] [J111] [L1] [L3] [NTC1] [PC1] [PC2] [PC3] [Q1] [Q2] [Q101] [Q501] [R2] [R3] [R5] [R6] [R7] [R8] [R9] [R10] [R11] [R12] [R13] [R17] [R19] [R20] [R21] [R22] [R23] [R51] [R52] [R53] [R54] [R58] [R59] [R71] [R72] [R73] [R101] [R102] [R103] [R105] [R106] [R107] [R111] [R113] [R115] [R116] [R501] [R502] [R503] [R504] [R505] [R506] [R507] [R508] [RL1] [SR1] [SR2] [T1] [TRA1] [VR1] [Z1]
[10] High voltage PWB unit RDENT2239XHZZ
!
[11] Operation panel PWB unit 1 2 901
VHPSG206S//-1 VHPGP1S094HCZ (Unit) DCEKP418DXH01
AG AG BA
N
[12] Hook switch PWB unit 1 901
QSW-Z2271SCZZ (Unit) DCEKP420DXH01
AE AL
N
21
[PH1] [PH2]
FO-IS125N
INDEX PARTS CODE [ C CCASP2204XH01 CCNWN346CXH01 CFRM-2265XH04 CFRM-2285XH01 CFRM-2286XH01 CROLP2499XH01 CROLR2566XH01 CROLR2567XH01 [ D DCEKC582XXH01 " DCEKP418DXH01 " DCEKP420DXH01 " DROM-582XXH01 DUNT-423KXH01 DUNT-424KXH01 DUNTK245DXHPW DUNTK425DXHZZ [ G GCABA2493XHSA GCABA2496XHSA GCABB2494XHSA GCABB2495XHSA GCASP2204XHZZ GCASP2205XHZZ GCOVA2565XHZZ GCOVA2566XHZZ GCOVA2567XHZZ GLEGG2089XHZZ [ H HPNLH2472XHSA [ J JBTN-2538XHSD JBTN-2541XHSB JBTN-2544XHSF JBTN-2607XHSA JBTN-2608XHSA JBTN-2609XHSA [ L LBNDJ2006XHZZ " LBSHP2161XHZZ LBSHP2162XHZZ LBSHP2167XHZZ LBSHP2168XHZZ LBSHP2174XHZZ LFRM-2265XHZZ LFRM-2266XHZZ LFRM-2284XHZZ LFRM-2285XHZZ LFRM-2286XHZZ LFRM-2287XHZZ LHLDZ2295XHZZ LHLDZ2296XHZA LHLDZ2297XHZZ LHLDZ2322XHZA LHLDZ2323XHZZ LPLTG3469XHZZ LPLTG3476XHZZ LPLTM2924XHFW LPLTM3470XHZZ LPLTM3471XHZZ LPLTM3477XHZZ LPLTP3084XHZC LPLTP3088XHZC LPLTP3175XHZA LPLTP3257XHZL LPLTP3257XHZR LPLTP3348XHZZ LPLTP3376XHZZ LPLTP3442XHSA LPLTP3475XHZZ LPLTP3483XHZZ LPLTP3486XHSA LPLTP3487XHSA LPLTP3492XHZZ
No.
PRICE NEW PART RANK MARK RANK
PARTS CODE LPLTP3493XHZZ LX-BZ0956XHZ7 LX-BZ2138XHZ7 " LX-BZ2205XHZ7 LX-BZ2222XHZ7 " " " " LX-BZ2241XHZ7 LX-BZ2282XHZ7 LX-BZ2321XHZ7 LX-BZ2327XHZ7 [ M ] MARMP2051XHZZ MLEVP2409XHZZ MLEVP2411XHZZ MLEVP2412XHZZ MLEVP2413XHZZ MLEVP2441XHZA MLEVP2442XHZZ MLEVP2444XHZZ MLEVP2445XHZZ MLEVP2446XHZZ MSPRC2735XHZZ MSPRC3522XHZZ MSPRC3528XHZZ " MSPRC3530XHZZ MSPRC3531XHZZ MSPRC3576XHZZ MSPRC3590XHZZ MSPRC3689XHZZ MSPRC3690XHZZ MSPRC3691XHZZ MSPRC3692XHZZ MSPRC3694XHZZ MSPRC3695XHZZ MSPRC3696XHZZ MSPRC3697XHZZ MSPRC3698XHZZ MSPRC3700XHZZ MSPRC3702XHZZ MSPRC3703XHZZ MSPRC3714XHZZ MSPRC3725XHZZ MSPRC3742XHZZ MSPRC3743XHZZ MSPRD3399XHZZ MSPRD3529XHZZ MSPRD3545XHZZ MSPRD3550XHZZ MSPRD3632XHZZ MSPRD3685XHZZ MSPRD3687XHZZ MSPRD3699XHZZ MSPRD3701XHZZ MSPRD3704XHZZ MSPRD3721XHZZ MSPRD3722XHZZ MSPRK3549XHZZ MSPRK3590XHZZ MSPRP3123XHZZ MSPRP3535XHZZ MSPRP3693XHZZ MSPRP3717XHZZ MSPRT3594XHZZ MSPRT3712XHZZ MSPRT3713XHZZ MSPRT3718XHZZ [ N ] NFANP2005XHZZ NGERH2365AXZZ NGERH2410XHZZ NGERH2458XHZZ NGERH2466XHZZ NGERH2576XHZA NGERH2582XHZA NGERH2636XHZZ
] 2-901 1-14 6-901 3-1 5-901 3-9 1-3 1-48
BS AP BV AZ BM AM AP AP
N
1-2 8-901 2-31 11-901 1-1 12-901 8-252 7-23 7-25 7-20 1-30
CA CA BA BA AL AL AZ BT BV AX BT
N N N N N N N N N
1-4 1-15 1-5 1-8 2-18 2-19 1-17 1-9 1-56 1-10
AM AY AH BA AS AM AY AL AL AE
N N N N N N N N N
C D C D D D C C C C
2-33
AL
N
D
2-20 2-21 2-22 2-23 2-24 2-25
AF AH AQ AL AM AM
N N N N N N
C C C C C C
1-31 6-5 1-32 6-6 6-7 6-8 3-10 6-9 6-10 3-11 3-2 5-1 1-33 1-18 1-19 6-1 3-12 3-13 2-1 4-1 4-2 3-3 5-2 1-57 7-26 7-27 2-2 2-3 2-4 6-11 6-12 7-21 4-3 4-4 7-8 7-9 2-5
AA AA AE AE AK AE AE AU AV BA AH AW BA AE AE AE AE AK AL AQ AQ AF AQ AQ AH AM AD AE AE AG AK AQ AE AP AG AF AE
N N N N N
E C E E E C C C
]
N
E E E E E E E S S E E
]
] ]
]
N
N N N N N N N N N N N N N N
N N N N N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
22
No.
PRICE NEW PART RANK MARK RANK
3-36 6-B1 5-B1 6-B2 3-B4 1-B6 3-B2 4-B1 5-B2 6-B3 5-B3 1-B8 1-B3 1-B4
AD AE AD AD AE AD AD AD AD AD AD AE AE AF
N
1-58 5-3 6-13 6-14 6-15 1-6 1-20 2-6 2-7 5-4 5-5 1-21 5-6 6-16 6-41 6-17 1-11 1-34 3-16 5-7 5-8 5-9 5-10 5-11 5-12 5-13 1-35 1-22 4-5 4-6 1-23 3-17 3-14 3-15 2-10 6-19 1-36 1-24 2-8 2-9 2-11 1-49 1-25 2-12 2-13 2-14 6-20 6-21 1-16 6-22 5-14 3-18 6-23 5-15 5-16 4-7
AE AE AF AF AF AE AE AE AE AE AC AD AE AE AD AE AE AE AE AD AD AD AF AF AD AD AD AD AC AD AD AD AD AD AE AE AE AE AE AD AC AD AC AC AD AD AF AE AC AE AF AF AE AC AD AD
N
1-37 4-8 3-19 5-17 1-50 6-24 6-25 3-20
AY AD AB AB AE AF AD AF
N
N N N N N
N N N N N N N N N N N N N N
N
N N N N N N N
N N N N N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B C C C C C C C
FO-IS125N PARTS CODE NGERH2639XHZZ NGERH2641XHZZ NGERH2670XHZZ NGERH2677XHZZ NGERH2678XHZA NGERH2679XHZZ NGERH2680XHZZ NGERH2702XHZZ NGERH2718XHZZ NGERH2720XHZZ NGERH2734XHZZ NGERH2735XHZZ NGERH2736XHZZ NGERH2737XHZZ NGERH2738XHZZ NGERH2739XHZZ NGERH2742XHZZ NGERH2743XHZZ NGERH2744XHZZ NGERH2745XHZZ NGERH2746XHZZ NGERH2747XHZZ NGERH2748XHZZ NGERH2749XHZZ NGERH2754XHZZ NGERH2755XHZZ NGERH2756XHZZ NGERH2757XHZZ NGERP2318XHZZ NROLP2332XHZA " NROLP2334XHZA NROLP2536XHZZ NROLR2539XHZZ NROLR2549XHZZ NROLR2562XHZZ NROLR2563XHZZ NROLR2564XHZZ NROLR2565XHZZ NSFTP2394XHZZ NSFTP2422XHZZ NSFTZ2402XHZA [ P ] PBRS-2083XHZZ PBRS-2084XHZZ PBRS-2086XHZZ PGIDM2687XHZZ PGIDM2688XHZZ PGIDM2702XHZZ PGIDM2740XHZZ PGIDM2741XHZZ PGIDM2742XHZL PGIDM2743XHZR PGIDM2744XHZZ PGIDM2745XHZZ PGIDM2746XHZZ PGIDM2747XHZZ PGUMM2225XHZZ PMAGE2056XHZC PRDAR2081XHZZ PSEL-2015XHZZ PSHEP3853XHZZ PSHEP3988XHZZ PSHEP3997XHZZ PSHEP4001XHZZ PSHEP4002XHZZ PSHEZ3864XHZZ PSHEZ3867XHZZ PSPAZ2309XHZZ PSPO-2024XHZZ PSPO-2029XHZZ PTME-2081XHZZ PTPEH2149XHZZ PWIR-2038XHZZ " [ Q ] QACCD2107XHZZ QCNCM2401SC0B QCNCM2401SC0D QCNCM2442SC0B QCNCM2666XH0B QCNCM2666XH0D
No.
PRICE NEW PART RANK MARK RANK
3-4 3-21 5-18 1-26 6-26 6-27 6-28 3-5 3-6 3-7 3-22 5-19 5-20 5-21 5-22 5-23 5-24 5-25 5-26 5-27 1-38 1-39 1-40 1-51 4-9 5-28 5-29 5-30 3-23 1-52 2-15 1-12 6-29 6-30 3-24 3-25 3-26 1-41 1-27 3-27 5-31 1-13
AF AE AE AE AG AE AE AH AP AP AD AE AE AD AD AD AD AD AD AD AD AE AD AD AE AD AD AE AD AL AL AC BD BD AU AL AH AP AY AF AD AK
1-28 1-65 2-17 1-42 1-43 1-29 2-16 3-28 3-29 3-30 1-53 1-54 4-10 4-11 1-68 5-32 1-55 4-12 6-2 4-14 1-70 2-38 1-69 6-31 7-24 3-31 6-3 2-35 6-32 2-32 1-64 3-40
AP AM AG AE AE AE AM AG AE AE AP AL AV AF AG AQ AF AB AG AD AE AC AE AG AE AD AG AD AF AD AQ AQ
N N N
1-59 8-224 8-233 8-229 8-231 8-234
AQ AA AC AB AD AD
N
N
N N N N N N N N N N N N N N N N N N
N N N N N
N N N N N N N N N N
N N N N N N N N N N
PARTS CODE
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
QCNCM2666XH0E QCNCM2666XH0G QCNCM2694XH0C QCNCM2694XH0E " QCNCM2743XH1J QCNCM7014SC0B QCNCM7014SC0C QCNCM7014SC0D QCNCM7014SC0H QCNCW2556SC1I QCNTM2062XHZZ QCNTM2063XHZZ QCNTM2064XHZZ QCNWG202DXHFW QCNWG370BXHZZ QCNWN306DXHZZ QCNWN307DXHZZ QCNWN308DXHZZ QCNWN309DXHZZ QCNWN310DXHZZ QCNWN312DXHZZ QCNWN313DXHZZ QCNWN314DXHZZ QCNWN315DXHZZ QCNWN316DXHZZ QCNWN317DXHZZ QCNWN320DXHZZ QCNWN365CXHZZ " QFS-L1037YCZZ QFS-L2021XHZZ QFS-L2025XHZZ QFS-T2019XHZZ QFS-T2027XHZZ QJAKZ2087XH0B QJAKZ2090XHZZ QPRTR2001XHZZ QSW-B2307SCZA QSW-M2343XHZZ QSW-Z2237XHZB QSW-Z2271SCZZ [ R ] RC-EZ3133XHZZ " RCILF2220XHZZ " RCILZ0285AFZZ " RC-KZ3127XHZZ RC-KZ3132XHZZ " RCRSA2233XHPZ RCRSP2194XHZZ RCRSP2237XHZZ RCRSP2238XHZZ RDENT2237XHZZ " RDENT2239XHZZ " RDTCT2002XHZZ RH-DX1721AFZZ RH-EX2502XHZZ " RH-IX2346XHZZ RH-IX2411XHZZ RH-IX2447XHZZ RH-IX2457XHZZ RH-IX2461XHZZ RKITE2001XHZZ RLCUB2011XHZZ RLMPU2015XHZA RMOTS2213XHZZ RMOTS2214XHZZ RTRND2180XHZZ RUNTZ2147XHZZ [ S ] SPAKA504HXHZZ SPAKA505HXHZZ SPAKA506HXHZZ SPAKA507HXHZZ SPAKA509HXHZZ
C C C C C C C C C C C C C C C B C C C C C C C C C C C C C C C C E C C C C C
23
No.
PRICE NEW PART RANK MARK RANK
8-225 8-217 8-218 8-219 8-232 8-228 8-230 8-227 8-223 8-222 8-226 2-26 2-27 2-28 7-28 7-29 2-29 1-7 1-60 3-32 1-44 6-33 3-33 1-45 1-46 6-34 5-33 3-37 2-34 3-39 8-250 8-247 8-248 6-35 6-4 8-221 8-220 8-249 1-47 3-34 5-34 12-1
AE AE AE AE AE AF AD AA AB AB AG AM AQ AL AP AL AQ AF AF AL AF AF AH AH AH AH AF AF AD AD AD AE AE AQ AQ AD AT AF AG AN AL AE
8-104 8-164 8-281 8-282 8-283 8-284 8-185 8-193 8-194 8-489 8-492 8-491 8-490 1-61 9-901 1-62 106-36 8-486 8-240 8-242 8-275 8-268 8-265 8-261 8-262 8-493 2-30 6-37 3-8 5-35 8-487 3-35
AE AE AF AF AB AB AD AG AG AG AL AK AH BH BH BF BF AS AF AC AC AG AG AX AG AH BQ BA BE AV BA AL BM
N N N N
7-13 7-14 7-15 7-16 7-17
AH AH AH AH AG
N N N N N
N
N N N
N N N N N N N N N N N N N N
N N N
N N N
N N N N N
N N N N N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C A A A A A C C A C C C C C C C C C C C C C B B B B E E E E B B B B B B B B B B B B B B B B D D D D D
FO-IS125N PARTS CODE SPAKA529HXHZZ SPAKA623HXHZZ SPAKC508HXHTZ SPAKP274HXHZZ SPAKP420DXHZZ SSAKA2003XHZZ SSAKA596HXHZZ [ T ] TCADH3943XHZZ TCADH3984XHZZ TCAUH2041XHZZ TGANE2417XHZZ TLABH351JXHZZ TLABH717KXHZZ TLABH719KXHZZ TLABH871KXHZZ TLABP720KXHZZ TLABS870KXHZZ [ U ] UBATL2234XHZZ UDSKA2072XHZZ [ V ] VCCCCY1HH470J VCCCCZ1EH100D VCCCCZ1EH150J " VCCCCZ1EH151J " VCCCCZ1EH180J " VCCCCZ1EH220J " VCCCCZ1EH221J VCCCCZ1EH270J VCCCCZ1EH330J VCCCCZ1EH390J VCCCCZ1EH8R0D VCCCCZ1HH331J " " VCEAEA1CW226M VCEAGA1EW107M VCEAGA1HW106M VCKRTN2EX473K VCKYCY1AB105K " VCKYCY1AB225K " VCKYCY1AF105Z " VCKYCY1CB104K " " " " VCKYCY1CF224Z VCKYCY1HB103K " " " " " " " " VCKYCY1HB222K VCKYCY1HB682K " VCKYCY1HF104Z " " " " VCKYCZ0JF105Z " " " " VCKYCZ1CB103K " " "
No.
PRICE NEW PART RANK MARK RANK
7-18 7-19 7-12 7-11 7-10 7-7 7-22
AF AD AY AQ AF AA AD
N N N
7-2 7-4 6-38 7-5 6-39 4-13 1-63 1-66 7-3 1-67
AG AF AG AD AD AE AE AF AF AD
N N
8-4 7-1
AF AX
8-188 8-56 8-136 8-166 8-189 8-190 8-68 8-137 8-69 8-196 8-172 8-82 8-89 8-165 8-51 8-175 8-180 8-181 8-91 8-118 8-215 8-187 8-174 8-205 8-197 8-206 8-52 8-177 8-183 8-184 8-186 8-191 8-192 8-110 8-106 8-107 8-108 8-109 8-122 8-123 8-124 8-125 8-198 8-207 8-153 8-154 8-90 8-95 8-103 8-111 8-120 8-85 8-148 8-149 8-151 8-163 8-139 8-140 8-157 8-158
AA AA AC AC AA AA AA AA AA AA AB AA AC AD AA AC AC AC AA AB AA AD AB AB AB AB AC AC AB AB AB AB AB AB AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AC AC AC AC AA AA AA AA
N
D D D D D D D
N N N N N
D D D D D D D D D D
N
B D
N
N
N
PARTS CODE " " VCKYCZ1CB223K " VCKYCZ1CF104Z " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " VCKYCZ1EB102K " "
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
24
No. 8-167 8-176 8-159 8-182 8-32 8-33 8-34 8-35 8-36 8-37 8-38 8-39 8-40 8-41 8-42 8-43 8-44 8-45 8-46 8-47 8-48 8-49 8-50 8-54 8-57 8-58 8-59 8-60 8-61 8-63 8-65 8-66 8-72 8-73 8-74 8-75 8-76 8-77 8-78 8-79 8-80 8-81 8-83 8-84 8-86 8-87 8-88 8-92 8-93 8-94 8-96 8-99 8-113 8-119 8-129 8-130 8-131 8-142 8-143 8-144 8-145 8-150 8-152 8-155 8-156 8-161 8-168 8-170 8-171 8-178 8-199 8-201 8-203 8-209 8-210 8-212 8-213 8-214 8-216 8-31 8-53 8-55
PRICE NEW PART RANK MARK RANK AA AA AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AA AA AA
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
FO-IS125N PARTS CODE " " " " " " " " " " " " " " " " " " VCKYCZ1EB222K VCKYCZ1EB391K VCKYCZ1EB471K VCKYCZ1EB472K VCKYCZ1HB681K " VCKYTV1AF106Z " " " " " " " " " " " " " " VCKYTV1HF104Z VCKYTV1HF105Z VHD1SS301++-1 VHD1SS302F+-1 " VHD1SS352F+-1 " " " VHDRB715F//-1 VHDSS16////-1 VHI25V016CS-1 " " " VHI421A380N-1 VHI48033BF+-1 VHI74VH573T-1 VHI7WH74FKF-1 VHIA3967SLB-1 VHIEDS2516A-1 VHILAN9118+-1 VHILM393LS+-1 VHIMC34119L-1 VHITC7PA53F-1 VHIVHC138FT-1 VHIVHCT00AT-1 VHPGP1S094HCZ VHPSG206S//-1 VHPSG2482A+-1 VHVRA391PV6-1 VHVRA501PC6-1 " VHVTND5V331-1 VRS-CG1JF101J " " " " " " " "
No. 8-67 8-71 8-97 8-98 8-100 8-101 8-102 8-105 8-114 8-115 8-116 8-117 8-121 8-132 8-133 8-134 8-135 8-147 8-200 8-202 8-30 8-179 8-126 8-127 8-62 8-64 8-70 8-112 8-128 8-138 8-141 8-146 8-160 8-162 8-169 8-173 8-195 8-208 8-211 8-412 8-204 8-241 8-236 8-237 8-238 8-239 8-244 8-246 8-243 8-245 8-253 8-255 8-256 8-257 8-259 8-270 8-267 8-264 8-266 8-254 8-269 8-263 8-272 8-276 8-258 8-260 11-2 11-1 6-40 8-1 8-2 8-3 8-488 8-5 8-6 8-7 8-9 8-11 8-12 8-13 8-14 8-15
PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AD AD AA AA AA AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AA AA AD AF AF AF AF AF AF AF AF AX AX AX AX AF AF AG AF AW AF BA AE AN AG AF AF AG AG AN AE AG AG AF AA AA AA AA AA AA AA AA AA
N
N N N N N N N N
N N
N
PARTS CODE
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C C C C C C C C
" " " " VRS-CG1JF103J " " " " " " VRS-CG1JF330J " " VRS-CG1JF333J " VRS-CY1JB000J " " " " " " " " " " " VRS-CY1JB100F VRS-CY1JB100J VRS-CY1JB101J VRS-CY1JB111J VRS-CY1JB154F " VRS-CY1JB2R0J VRSCY1JB3011F " VRSCY1JB3R01F " VRSCY1JB49R9F " " " VRS-CZ1JB000J " " " " " " " " " " " " " " " " " VRS-CZ1JB100J " " " VRS-CZ1JB101J " " " " " " " " " " " " " " " "
25
No. 8-16 8-17 8-19 8-20 8-18 8-21 8-25 8-26 8-27 8-28 8-29 8-8 8-10 8-22 8-23 8-24 8-235 8-278 8-316 8-374 8-375 8-424 8-425 8-443 8-452 8-476 8-479 8-480 8-405 8-370 8-453 8-456 8-445 8-462 8-277 8-464 8-471 8-454 8-455 8-403 8-404 8-407 8-408 8-279 8-280 8-301 8-305 8-309 8-312 8-313 8-323 8-326 8-390 8-391 8-394 8-427 8-428 8-435 8-467 8-474 8-485 8-332 8-339 8-369 8-371 8-300 8-302 8-304 8-306 8-307 8-325 8-334 8-335 8-338 8-344 8-365 8-367 8-368 8-397 8-416 8-417 8-419
PRICE NEW PART RANK MARK RANK AA AC AA AA AC AC AC AC AC AC AC AC AC AC AC AC AA AA AA AA AA AA AA AA AA AA AA AA AC AA AA AB AC AC AD AA AA AC AC AG AG AG AG AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA
N
N N N
N N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
FO-IS125N PARTS CODE VRS-CZ1JB102J " " " " " " VRS-CZ1JB103J " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " VRS-CZ1JB104J " " " VRS-CZ1JB105J " " " VRS-CZ1JB122J VRS-CZ1JB123J VRS-CZ1JB132J VRS-CZ1JB133J " VRS-CZ1JB151J " VRS-CZ1JB154J VRS-CZ1JB201J VRS-CZ1JB203J " " VRS-CZ1JB222J " " " " " VRS-CZ1JB224J " VRS-CZ1JB225J VRS-CZ1JB244J VRS-CZ1JB303J " " " " VRS-CZ1JB330J " " " " " " "
No. 8-337 8-376 8-401 8-438 8-469 8-477 8-484 8-308 8-318 8-324 8-328 8-331 8-333 8-336 8-341 8-358 8-360 8-364 8-366 8-372 8-373 8-377 8-381 8-387 8-388 8-392 8-393 8-406 8-409 8-410 8-418 8-426 8-429 8-430 8-431 8-440 8-461 8-463 8-481 8-315 8-340 8-354 8-433 8-317 8-350 8-357 8-396 8-322 8-379 8-441 8-380 8-473 8-421 8-423 8-348 8-442 8-353 8-361 8-436 8-314 8-329 8-346 8-347 8-351 8-458 8-432 8-437 8-310 8-422 8-352 8-362 8-384 8-385 8-434 8-303 8-319 8-320 8-321 8-343 8-386 8-395 8-411
PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AD AD AD AD AA AD AD AC AC AA AA AD AA AD AD AD AD AD AD AD AD AD AA AA AA AD AD AD AD AD AD AA AA AA AA AA AA AA AA
PARTS CODE
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C
26
No.
PRICE NEW PART RANK MARK RANK
" VRS-CZ1JB331J VRS-CZ1JB332J " " " VRS-CZ1JB333J " VRS-CZ1JB393J " VRS-CZ1JB472J " " " " VRS-CZ1JB474J VRS-CZ1JB511J VRS-CZ1JB562J VRS-CZ1JB752F " VRS-CZ1JB823J VRS-HT3AAR22J " VRS-HT3DA470J VRS-TP2BD000J VRS-TP2BD101J VRS-TV2AB000J " " VRS-TV2AB123F VRSTV2AB1242F VRSTV2AB2373F VRSTV2AB6814F " VRS-TV2ABR22J " VRS-TW2ED151J VRS-TW2ED9R1F VRS-TX2HD281F " " " VS2SA2059++-1 VS2SC2712GR-1 VS2SC4548++-1 " " " VSKTC3198GR-1 VSRN1406F++-1 " " VSRN1702F++-1 " VSRN2406YF+-1 VSRT5N234CT-1 " [ X ] XBPS730P08KS0 XEBS720P06000 XEBS720P10000 XEBS726P08000 " " XEBS730P08000 XEBS730P10000 " " " " XEBS730P12000 XEBS730P34000 XHBS730P06000 XHBS730P08000 " XNGS730-18000 XWHS740-08100
8-413 8-398 8-330 8-382 8-466 8-470 8-389 8-420 8-465 8-472 8-327 8-349 8-356 8-439 8-478 8-459 8-460 8-355 8-311 8-345 8-468 8-359 8-363 8-342 8-482 8-483 8-400 8-414 8-415 8-399 8-402 8-447 8-444 8-446 8-378 8-383 8-475 8-457 8-448 8-449 8-450 8-451 8-285 8-291 8-294 8-295 8-296 8-297 8-298 8-292 8-293 8-299 8-286 8-287 8-289 8-288 8-290
AA AA AA AA AA AA AA AA AD AD AA AA AA AA AA AD AB AA AC AC AD AA AA AA AA AA AA AA AA AC AC AC AC AC AC AC AB AC AD AD AD AD AH AB AF AF AF AF AD AF AF AF AF AF AF AD AD
6-B4 2-B1 3-B3 1-B9 2-B2 3-B5 1-B1 1-B2 2-B3 3-B1 5-B4 6-B5 1-B11 1-B5 1-B10 1-B7 5-B5 6-N1 1-W1
AB AC AE AE AE AE AC AC AC AC AC AC AC AD AC AB AB AD AA
[ 0 ] 0KY0MPS902200 " 0KYC1076QQ103 "
9-50 9-51 9-6 9-11
AF AF AL AL
N N
N N N N N N N N N N N N N
N N N N
N N
N
N
C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B B B B B B B B B B C C C C C C C C C C C C C C C C C C C C C C C
FO-IS125N PARTS CODE 0KYC10A9RQ102 0KYC10A9RQ221 0KYC1131EC101 0KYC1133EC104 " 0KYC1330EC103 " " " 0KYC1330EC472 0KYC1384QS332 0KYC2131QS224 " 0KYC30A0BQ331 0KYC30A0DQ102 0KYC30A0DQ330 0KYC30A0DQ560 0KYC3160KS221 0KYD1057AQ006 " " " " " 0KYD2066AQ006 0KYD20Q0AQ003 " 0KYD2116AC008 " " " 0KYD3101AA010 " 0KYD4103AC008 0KYD4103AC013 0KYD4103AC041 0KYD4145AA005 0KYD5107AL002 0KYD7102AR4R0 0KYD7112AR002 0KYH7151AS001 0KYH7152AS001 " 0KYK2014LQ010 0KYK2051AQ002 " 0KYK2061AQ002 0KYK2148LS005 0KYK3104AL001 0KYK7135AS007 0KYK7144AR002 0KYK7144AR005 " 0KYL1120RS400 0KYL1179JL193 0KYL2100DS169 0KYL5051AQ001 0KYM1108AZ001 " 0KYR3062UQ100 0KYR3113VC101 " 0KYR3113VC102 0KYR3113VC103 " " 0KYR3113VC223 0KYR3113VC333 0KYR3113VC334 0KYR3113VC473 0KYR3113VC561 0KYR3113VC681 0KYR3113VC682 0KYR3116VC102 0KYR3116VC123 0KYR3116VC183 0KYR3116VC682 0KYR3116VC822 0KYR3123TC103 " 0KYR3123TC151 0KYR3123TC221
No. 9-16 9-7 9-10 9-15 9-19 9-8 9-12 9-20 9-21 9-9 9-5 9-2 9-3 9-18 9-13 9-14 9-17 9-4 9-32 9-33 9-34 9-35 9-36 9-37 9-42 9-43 9-44 9-28 9-30 9-31 9-45 9-38 9-39 9-41 9-29 9-27 9-40 9-129 9-73 9-131 9-75 9-74 9-76 9-24 9-22 9-25 9-23 9-26 9-125 9-46 9-49 9-47 9-48 9-72 9-71 9-128 9-1 9-126 9-127 9-94 9-87 9-108 9-107 9-121 9-122 9-123 9-90 9-86 9-109 9-124 9-91 9-92 9-88 9-112 9-110 9-83 9-111 9-89 9-102 9-103 9-97 9-85
PRICE NEW PART RANK MARK RANK AH AG AC AC AC AC AC AC AC AC AG AK AK AK AR AG AG AT AF AF AF AF AF AF AH AL AL AE AE AE AE AL AL AE AG AE AK AS AN AK AW AL AL AN AG AG AF AG AU AN AN AL AL AU AS BA AE AE AE AL AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC
N
N N N N N N N
N
N
N N N
N
N N
N N N
N N N N N N N N N N N N N N N N N N N N N
PARTS CODE
C C C C C C C C C C C C C C C C C C B B B B B B B B B B B B B B B B B B B B B B B B B C C C C C B A A A A C C B C C C C C C C C C C C C C C C C C C C C C C C C C C
0KYR3123TC393 " " " 0KYR3126TC184 " 0KYR3133AC100 " 0KYR3133AC330 0KYR3133AC334 " " 0KYR3133AC472 " " " 0KYR3133AC561 0KYR3133AC562 " " " 0KYR8054EQ502 0KYT1020NC001 0KYT3561KL001 0KYT4081CC002 0KYT4097CC002 0KYW0000AQ005 " 0KYW0000AQ007 " " " " " " " " 0KYW0000AQ010 0KYW0000AQ015 " " " " 0KYW0000AQ020 "
27
No. 9-98 9-99 9-100 9-101 9-81 9-82 9-95 9-96 9-93 9-104 9-105 9-106 9-117 9-118 9-119 9-120 9-84 9-113 9-114 9-115 9-116 9-130 9-80 9-77 9-79 9-78 9-59 9-61 9-52 9-54 9-60 9-62 9-63 9-65 9-66 9-67 9-68 9-69 9-56 9-57 9-58 9-64 9-70 9-53 9-55
PRICE NEW PART RANK MARK RANK AC AC AC AC AB AB AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AG AG AT AF AG AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC
N N N N
N N N N N N N N N N N N N N N
N N
C C C C C C C C C C C C C C C C C C C C C C B B B B C C C C C C C C C C C C C C C C C C C
EndPage
FO-IS125N
COPYRIGHT © 2007 BY SHARP CORPORATION ALL RIGHTS RESERVED. No Part of this publication may be reproduced, stored in a retrieval system, or transmitted in any from or by any means, electronic, mechanical, photocopying , recording, or otherwise, without prior written permission of the publisher.
SHARP CORPORATION Communication Systems Group Customer Satisfaction Promotion Center Higashihiroshima, Hiroshima 739-0192, Japan A0709-PDF•DS•SA•T