canon bjc-85 printer user manual
DESCRIPTION
Canon BJC-85 Printer User ManualTRANSCRIPT
REFERENCE MANUAL
Oct. 1999
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Table of content
Page1 1. PRODUCT OUTLINE1 2. CHANGES FROM THE BJC-80/80v1 3. EXTERNAL APPEARANCE2 4. SPECIFICATIONS2 4.1 PRINTER SPECIFICATIONS3 4.2 INTERFACE SPECIFICATIONS6 4.3 PAPER SPECIFICATIONS7 4.4 PHOTO BJ CARTRIDGE SPECIFICATIONS8 5. OPERATION8 5-1. FUNCTION SETTING10 5.2 ERROR INDICATIONS11 5-3. INK LOW WARNING RESET BY BUTTON OPERATION12 5-4. DIRECT PRINTING FUNCTION OF THE IMAGE FROM DIGITAL CAMERAS13 6. SPECIAL TOOLS14 7. PARTS LIST15 8. CIRCUIT DIAGRAM
1. PRODUCT OUTLINE
The BJ M70 and the BJC-85 are portable, color BJ printers targeting the personal usemarket. As successive models of the BJC-80/80v, the following functions have beenadded, the ease of connection has been improved, and the functions as a portable space-saving printer has been strengthened.
(1) The high-speed IrDA (Ver.1.1) enables the printer to attain print speed comparable to that of the Centronics interface.
(2) Direct printing from digital cameras by the new standards of IrTran-P.(3) Support of the USB I/F function.(4) Photo printing function is added.
2. CHANGES FROM THE BJC-80/80v
1) New adoption of the photo cartridge (Photo printing function is added.)2) The IrDA version upgrade from Ver. 1.0 to 1.1 has enabled faster transmission.3) New adoption of IrTranP (Direct printing from digital cameras, enabled only in BJ M70).4) New adoption of USB I/F5) One emulation (BJC-85: LQ mode / BJ M70: BJ mode)6) Button reset of the ink low warning is added.7) Various specifications / Circuit diagram8) Special tool (spur cleaner) is added.
3. EXTERNAL APPEARANCE
The BJ M70 and the BJC-85 have the same appearance as the BJC-80/80v, except for thefollowing:
(1) The USB I/F connector has been added to the right side of the printer.(2) The color of the panel cover and inner cover has been changed from gray to blue.
1
USB ConnectorChanged from gray to blue.
4. SPECIFICATIONS
4-1. PRIINTER SPECIFICATIONS
Type Portable serial color bubble jet printerPaper feeding Auto sheet feedmethodPrinting speed Burst HS: 434cps HQ: 346cps (when using the BC-10)
Throughput:BC-10
New monochrome pattern (E) 5 ppm(HS) 3.9 ppm(Standard)New monochrome pattern (J) 5 ppm(HS) 4.3 ppm(Standard)
BC-11e New color pattern (E) 2 ppm(HS) 1.6 ppm(Standard)New color pattern (J) 2 ppm(HS) 1.7 ppm(Standard)
BC-12e A4 full address 1.0ppm (HQ)
Printing direction Unidirectional (automatically selected according to the print data)Max. Print Width 203 mmLine feed pitch 136 ms/line (128" /360" line feed)Built-in print LQ mode: BJC-85 onlycontrol mode BJ mode: BJ M70 only
Native modeBJL command
Detection functions Presence of paper: AvailablePresence of BJ cartridge: AvailableWaste ink amount: AvailablePaper width: Not availableDistinction of BJ cartridge: AvailableInk low: Available (by using the dot-count)
Noise Sound pressure level: conforms to ISO9296Approx. 45 dB (A) or less during operation (HQ/HS mode)
Environmental During operation Temperature 5oC to 35oC (41oF to 95oF)requirements Humidity 10%RH to 90%RH (no condensation)
Non operation Temperature 0oC to 35oC (32oF to 95oF)Humidity 5%RH to 95%RH (no condensation)
Power supply Input voltage/Frequency: AC100 V, 50/60 Hz AC120 V, 60 Hz AC230 V, 50 Hz AC240 V, 50 HzPower consumptionPrinting status Standby status Soft power offMax. 30 W 3 W 2 W
External 300 mm (W) x 157.6 mm (D) x 57 mm (H)dimensionsWeight Approx. 1.4 Kg (including BJ cartridge)
2
4-2. INTERFACE SPECIFICATIONS
The interface specifications of this printer is shown below.1) Bidirectional Centronics Interface (IEEE1284 compatible)2) Infrared Interface
IrDA Interface Ver. 1.1 / IrTranPASK Interface
3) USB Interface
<Difference from the BJC-80/80v>1) The specified version of IrDA is changed from Ver. 1.0 to 1.1.2) IrTranP compliant.3) USB interface compliant.
IrDA Ver. 1.1 and USB I/F compliancy for preinstalled Windows 98 PCs.Windows 95 PCs comply with IrDA Ver. 1.0.
The specifications of IrDA Ver. 1.1 and USB I/F are explained below. See the BJC-80/80vService Manual for details regarding the bidirectional interface/ASK interface.
4-2-1. IrDA Interface1) Interface
IrDA Version 1.1 compatible
2) Optical specifications
Light generationWavelength: 0.85 to 0.90 µmIntensity: 100 to 500 m W/SrLight angle: ±15o (along optical axis)
Light interceptionWavelength: 0.85 to 0.90 µmIntensity: 4µ W/cm2 to 500m W/cm2
10µ W/cm2 to 500m W/cm2
(when the communication speed is more than 0.576 MHz.)Light angle: Max. ±15o (along optical axis)
3) Transfer speed 9600/19200/38400/57600/115.2k/576k/1.152M/4M bps
4) Communication Half duplex, start/stop system (bidirectional):method when the transfer speed is less than 115.2kbps
Half duplex, frame synchronization system (bidirectional):when the transfer speed is more than 0.576Mbps
5) Communication 0 to 1m: when the transfer speed is less than 115.2kbpsdistance 0 to 0.8m: when the transfer speed is more than 0.576Mbps
3
6) Maximum received 2048 byte/packetdata size
7) Modulation method 3/16 RZI (Return to Zero Invert):when the transfer speed is less than 115.2kbps1/4 RZI (Return to Zero Invert):when the transfer speed is 0.576Mbps and 1.152Mbps4 PPM (Pulse Position Modulation):when the transfer speed is 4Mbps
4-2-2. USB Interface
<Specifications>1) Device structure Self-powered device
2) Data transfer Half duplex serial interface method Universal Serial Bus Specification Revision 1.0 compatible
Universal Serial Bus Device Class Definition for printing Device Version 1.0 compatibleSignal rate: 12Mbps (full speed)Transfer type: Control transfer/Bulk transfer
3) Input/output circuit No. Signal name1 Vcc2 -Data Data signal line3 +Data Data signal line4 GND
<Signal level>Vcc: "H" level input voltage: +2.0V to +5.5V
"L" level input voltage: +0.0V to +0.8V-Data, +Data: Differential input sensitivity
"H" level input voltage: +2.8V to +3.6V "L" level input voltage: +0.0V to +0.3V
4) Interface cable Material: AWG No.28 or largerFull speed device cable (with twisted-pair shield)Less than 5 mm
5) Interface connector Printer-side: USB standard, Series B receptacleCable-side: USB standard, Series B plug
4
Series B
12
43
<Technical explanation>USB is a serial interface which connects up to 127 peripheral devices to a host computer,and transmits data at a high-speed rate of 12Mbps. Hot plugging, in whichconnecting/disconnecting devices while the host or the printer is in use, is supported.Each device is connected to a hub's port, where each port's detection/disconnectionstatus is returned to the host.Data transferThe data transfer in USB is executed in terms of the transfer unit called a frame, a timeframe of approximately 1ms, into which the data is divided. Data is transferred by piling upthese frames.All packets begin with a SYNC (synchronizing) field to synchronize with the local clock,and are separated with an EOP (End of Packet) field.Frame lines begin with an SOF (Start of Frame) packet. An SOF is composed of a PID(Packet Identification Field) that represents the type of the packet and the direction, framenumber, and a CRC (Cyclic Redundancy Check) used for error-check.Inside a frame is a packet line containing a token packet, data packet and a handshakepacket, which indicates the status of the flow control.A token packet is composed of a PID, an address field which can specify up to 128addresses, an ENDP (endpoint) field, and a CRC.Inside a data packet are a PID, data field, CRC, and EOP.Only a PID is present inside the handshake packet.
Encoding/Decoding the DataIn USB, data transfer lines are ultimately encoded with NRZI (Non Return to Zero Invert)method. When the original data bit is 0, sent data bits are inverted; when the original databit is 1, the value is retained.However, if the level of the transferred data remain unchanged for a certain period of time,the receiving side may not be able to synchronize with the data sample position, which willresult in data bits being out of phase. This is prevented by a method called bit stuffing;when data bit 1 is repeated 6 times, one 0 bit is added to the original data before encodingwith NRZI.
5
SOF
1 frame (Approx.1ms)
SOF Printer Other functions
SYNCFrameNunber CRC SYNC
Token Data Handshake`
PID ADDR ENDP CRCEOP EOP SYNC PID DATA CRC EOP SYNC PID EOP
SOFFrame line
Frame inside
Packet line
Packet inside
Time passage
Idle
IdleNRZI
0 1 1 0 1 0 1 0 0 0 1 0 0 1 1 0Data
4-3. PAPER SPECIFICATIONS
Plain paper (Weight: 64 to 90g / m2)Government postcard (Weight: 90g / m2, Thickness: 0.23 mm)Coated paper (Canon coated paper LC-301, A4/LTR)High resolution paper (Canon high resolution paper HR-101, A4/LTR)Glossy paper (Canon glossy paper GP-301, A4/LTR)Transparency film (Canon transparency film CF-102, A4/LTR)BPF (Canon back print film BF-102, A4/LTR)Glossy film (Canon glossy film HG-101, A4/LTR)T-shirt transfer (Canon T-shirt transfer TR-201, A4/LTR)Fabric sheet (Canon fabric sheet FS-101, A4/LTR)Glossy postcard (Canon glossy postcard KH-201)Photo glossy postcard (Canon photo glossy postcard FM-101)Envelope (Size 4, size 6, COM #10, DL)Note: Printing on fanfold paper and labels is not supported.
Type Paper Size RemarksPlain paper*1 PB (SK/DK) A4, B5, A5 Suggested paper
Kangas A4Neusiedler A4 See *1
Boise Cascade LTR, LGLXX4024(75g/m2) LTR, LGLXX4024(95g/m2) LTR, LGLFox River Bond LTR
Color BJ plain paper LC-301 A4, LTR See *1
High resolution paper*2 HR-101 A4, LTR See *2
Glossy paper*2 GP-301 A4, LTR See *2
Transparency film*2 CF-102 A4, LTR See *2, Note 1)&2)BPF*3 BF-102 A4, LTR See *3, Note 2)Glossy film*2 HG-101 A4, LTR See *2, Note 2T-shirt transfer TR-201 A4, LTR See *3
Fabric sheet*3 FS-101 A4, LTR See *3, Note 1)Government postcard*2 ---------- 100 x 148* See *2
Glossy postcard*2 KH-201 100 x 148* See *2
Photo glossy postcard FM-101 215.9 x 119.6* See *3
Envelope*4 Size 4 235 x 105* See *4
Size 6 190 x 98*COM #10 241 x 106*DL 220 x 110*
Thick paper 91 to 105g / m2
*: Unit: mm*1:Stackable up to 3 mm (Approx. 30 sheets). For legal size paper, feeds single sheet.*2: Stackable up to 10 sheets *3: Single paper feeding *4: Stackable up to 5 sheetsNote 1): A plain sheet of paper should be set under the back print film, fabric sheet, and T-
shirt transfer.Note 2) Transparency film, back print film, and Glossy film are usable when the humidity
is 70 % or less.
6
4-4. PHOTO BJ CARTRIDGE SPECIFICATIONS
Photo cartridge BC-12eBJ cartridge BC-12e: Ink cartridge replaceable type of color BJ cartridge
(drop modulation adopted)Ink cartridge BCI-12Bk: Black (64 nozzles)Ink cartridge BCI-12Color: Yellow, Magenta, Cyan (24 nozzles x 3)
No. of pages printed Approx. 20 pages : reference value(in the HR-Fine mode, 7.5% duty pattern per color (A4): calculated value)
Weight Approx. 29 g (including both ink cartridges)Print speed Approx. 0.1 pp : reference value
(A4 full address printing pattern)Nozzle check pattern Same as the BC-11e
HR-Fine modeCarriage motion: 3 passPrinting nozzle: 8 nozzleResolution: 360 dpiCarriage driving frequency: 5.00 kHz
Photo print mode can be used to obtain high level gradation print quality when using thePhoto BJ cartridge. These cartridges contain light density ink which achieves a richgradation and reduced graininess by printing several times over the same dot.The printer driver divides the pixel data into a maximum of 4-values (not printed, print 1dot, print 2 dots and print 3 dots) enabling each pixel to be printed in up to 4 gradations.The printer therefore makes three passes using a maximum of 150% more ink than usual.This Photo cartridge adopts drop modulation, decreasing granularity of the light densityparts by efficiently ejecting large and small ink droplets.
Head ID
Carriage ribbon cable contact part pin No. / Signal nameHead 11/ID0 12/ID1 13/HCONT
BC-10 L L HBC-11e H L LBC-12e H H LNo head installation error H H
The printer has no detection function of the ink cartridge type, and for the BC-11e and BC-12e, the ink cartridges to be installed are not incompatible, therefore, the following mistakeninstallation may occur. In case the BCI-12 Bk/Color are installed in the print head of the BC-11e, as the printer recognizes that the color cartridge (BC-11e) has been installed in spite oflight density photo ink cartridge installation, low density imaging is produced. In case of theinstallation of the BCI-11 Bk/Color in the print head of the BC-12e, in reverse, high densitycolored imaging is produced.
7
5. OPERATION
5-1. FUNCTION SETTING
Default settingThe default setting can be set by button operation when the power is turned on. When theprinter is turned on, hold down the POWER button until the beeper sounds the specifiednumber of times for the desired function setting, and release the POWER button to set.
Function Setting
Mode Beeper RemarkTable 1 7 times Factory default settingTable 2 8 timesTable 3 9 timesTable 4 10 timesTable 5 11 times
<Difference from the BJC-80>BJC-851) No setting regarding the BJ mode2) The setting to enable/disable the ink low warning is added.3) The setting of Euro font is added.
Table 1 Table 2 Table 3 Table 4 Table 5Print mode HQ HQ HQ HQ HQLeft margin LTR LTR A4 A4 A4Text scale mode Disable Disable Disable Disable DisablePaper feed position 8.5 mm 8.5 mm 8.5 mm 8.5 mm 8.5 mmSmoothing Disable Disable Disable Disable DisableReduction 1/1 1/1 1/1 1/1 1/1Automatic power off Disable Disable Disable Disable DisableFont Roman Roman Roman Roman RomanFont lock Disable Disable Disable Disable DisableInput/download buffer 25 kB/0 kB 25 kB/0 kB 25 kB/0 kB 25 kB/0 kB 25 kB/0 kBAutomatic line feed CR CR CR CR CRInternational character set USA USA USA USA USACharacter set Italics Italics Italics Italics GraphicsCode page 437 437 437 437 858Ink low warning Disable Enable Disable Disable Disable
When the printer is turned on, hold down the POWER button until the beeper sounds 12 times to change "Code Page" in the following table to "858," "Character Set" to"Graphics." Other items will not be changed.
8
<Difference from the BJC-80v>BJ M701) No setting regarding the LQ mode2) The setting to enable/disable the ink low warning is added.
Table 1 Table 2 Table 3 Table 4 Table 5Operation mode change BJ BJPrint mode HQ HQAutomatic power off Disable DisableSmoothing Disable DisableRemaining ink Disable Enable Same as Same as Same asReduction 1/1 1/1 Table 1 Table 1 Table 1BJ Paper feed position 8.5 mm 8.5 mmBJ receive buffer 23 kB 23 kBBJ ANK character quality Normal NormalBJ ANK character set Katakana KatakanaBJ CR function (+LF) CR only CR onlyBJ ANK international Japan Japancharacter
9
5-2. ERROR INDICATIONS
<Difference from the BJC-80/80v>
BeeperBJC-80/80v BJC-85/BJ M70
Waste ink warning 4 times 5 timesLow battery warning 3 times 4 timesInk low warning Once TwiceCartridge replacement compulsory Twice 3 timescompletion warningDiode sensor error 9 times ------*1
*1: Eliminated
<BJC-85/BJ M70 error indications>
Error condition Error LED Power LED Beeper[Recoverable by customers] (Orange) (Green)Paper pick-up error Lights Lights OncePaper delivery error Lights Lights TwiceBJ cartridge check Lights Lights 3 timesCartridge mis-match Lights Lights 4 timesInk low warning*1 Blinks Lights TwiceCartridge replacement compulsory Blinks Lights 3 timescompletion warningLow battery warning Blinks Lights 4 timesWaste ink warning Blinks Lights 5 timesLow battery error (with battery) Blinks Blinks Long, then short
[Unrecoverable by customers]ROM error Blinks Blinks OnceRAM error Blinks Blinks TwiceNo head installation error Blinks Blinks 3 timesHP sensor error Blinks Blinks 4 timesWaste ink full error Blinks Blinks 5 timesInternal temperature error Blinks Blinks 6 timesPrint position detection error Blinks Blinks 7 timesAbnormal temperature rise error Blinks Blinks 8 timesEEPROM error Blinks Blinks 11 timesLow battery error (with AC adapter) Blinks Blinks Long, then short
*1: Ink low warning is enabled only when the ink low warning selection is set to on.
10
5-3. INK LOW WARNING RESET BY BUTTON OPERATION
Ink low warningThis printer detects the remaining ink level by counting the number of ejected ink dots inthe same way as the BJC-80/80v. When the setting of the ink low warning is enabled, andthe remaining ink gets low, the beeper sounds twice, and the ERROR LED blinks.Pressing the cartridge replacement button will sound the beeper and move the carriage tothe center, and the ERROR LED indicates the ink cartridge for which the remaining ink islow as shown below.
The ink low warning reset function by button operation is added to this printer. The buttonoperation procedures are shown below. (The ink low warning of the BJC-80/80v can bereset from the host computer only.)
Operation1) Turn on the printer.
2) Press the cartridge replacement button to move the carriage to the center.If the carriage was moved to the center by signals from the PC, the reset operation by the cartridge replacement button is not possible.
3) Make sure that the proper cartridge is installed in the carriage. If not, install the proper one. (The ink dot counter reset is effective only to the ink cartridge type installed in the carriage.)
4) Press and hold the RESUME button for the number of beeps corresponding to the warned ink type to select the ink type for which the dot counter is to be reset, and release the RESUME button. The number of beeper sounds is as follows:
Once: The dot counter of the BCI-10/BCI-11Bk/BCI-12Bk is reset.Twice: The dot counter of the BCI-11Color/BCI-12 Color is reset.3 times: The dot counter of the BCI-11Bk&Color/BCI-12Bk&Color is reset.4 times: The selected ink type is canceled.
5) Press the cartridge replacement button.The ink dot counter selected in the procedure 4) and the ink low warning are reset, and at the same time, the carriage returns to the home position.
11
Blinks once: when the remaining ink of the BCI-10 / BCI-11Bk / BCI-12Bk is little
Blinks twice: when the remaining ink of the BCI-11Color / BCI-12Color is little
Blinks 3 times: when the remaining ink of the BCI-11 BK & Color / BCI-12 BK & Color is little
5-4. DIRECT PRINTING FUNCTION OF THE IMAGE FROM DIGITAL CAMERAS(BJ M70 only)
<Difference from the BJC-80/80v>The new adoption of IrTranP has enabled the printing of data directly sent fromdigital cameras compliant to IrTranP standards, not through the host computer, butvia IrDA communication.
SpecificationsData communication form: IrTranP standards compatibleInput image size: 640 x 460 pixelsInput image capacity: 128 Kbyte or lessOutput image size: Landscape: 90 x 68 mm
Portrait: 77 x 103 mmSeal printing: 19 x 26 mm x 16 images
Paper size: Postcard
Operation<Image printing>After receiving the data, the image data is output by pressing the RESUME button, andreleasing before the beeper sounds. This is not effective when an error has occurred orpaper is fed.
<Reprinting>The image data is also maintained in the memory after printing, and will not be abandoneduntil new image data is received from the digital camera, or print data is input from thehost computer. Reprinting of data is possible by pressing the RESUME button (andreleasing before the beeper sounds).
<Printing cancellation>During the printing of image data, printing is cancelled by pressing the RESUME buttonuntil the beeper sounds once, then releasing. In this case paper is delivered. Theremaining data halfway through printing is abandoned. (As the image data has beenmaintained, it is possible to reprint the data, without resending the data from the digitalcamera.)
<Printing position definition>To select the printing position, press the POWER button and cartridge replacement buttonsimultaneously when the power is on, and release the buttons after the beeper sounds thenumber of times applicable to the printing position to be selected. This setting returns tothe default (Landscape) by powering off. The number of beeper sounds is as follows:
Once: PortraitTwice: 16-image seal printing3 times: Photo glossy card landscape4 times: Photo glossy card portrait5 times: Setting completed. (The power is normally turned on.)
12
6. SPECIAL TOOLS
Clean spurs by using the spur cleaner in case spur marks are left on the print images.
Special tool (part number) RemarksSpur cleaner (QY9-0055-000) For cleaning spurs
Usage1) Moisten the fabric part of the spur cleaner with approx. 5 cc of water.
Moisten the fabric with the water, as shown below, so that the fabric absorbs the waterfrom end to end.Be careful not to moisten the fabric with too much water. In case too much water is used, there is the possibility that water will be wrung from the spur cleaner when passing through the paper feed roller, spread inside the printer, and cause failure.
2) Turn on the power of the printer. Remove the paper from the ASF to set the spur cleaner with the fabric-affixed part of the cleaner face-up and to the top.
3) Press the RESUME button, and release it after the beeper sounds once. The spur cleaner is fed and stops at the print start position.
4) Press the RESUME button again, and release it after the beeper sounds once. The spur cleaner is delivered. Repeat procedures 3) to 4) approx. 5 times in case of heavy soiling.
5) Set a single sheet of paper to the ASF to repeat procedures 3) and 4). (To remove the moisture remaining in the paper feeding path.)
13
Fabric (white-colored)Spur cleaner
Part moistened with water
Be careful that the wateris absorbed by thefabric from end to end.
Transparent film
Fabric (white-colored)
Spur cleaner
7. PARTS LIST
Service parts other than the above are common for BJC-85 and BJ M70.See the BJC-85 and BJ M70 Parts Catalog for details.
14
BJC-85 BJ M70
COVER, INNER QB1-4449 QB1-4450
COVER, PANEL QB1-4451 QB1-4452
CONTROL PCB ASS'Y QG2-3096 QG2-3097
CHASSIS PLATEN UNIT QG5-1476 QG5-1481
FLASH-ROM QH8-0258 QH8-0259
8. CIRCUIT DIAGRAM (Common for BJC-85 and BJ M70)
15
12
34
56
78
910
A
B
C
D
E
F
CO
NT
RO
L P
CB
AS
S'Y
01
Vpp
Vcc
1
Vcc
1
Vcc
1V
cc2
Vcc
3V
if
VH
Vpp
DC
co
nn
ecto
rC
ND
C1
1 2 3
F1
ZD
11 2
4 3
L1
C1
0.1µ
,25V
C2
2200
µ,25
V
R11
711
.5K
,1/1
6W
R11
81K
,1/1
6W
C57
0.1µ
,25V
C53
2.2µ
,50V
1 2 3 4
8 7 6 5
CT
VS
CO
UT
GN
D
RE
SE
TV
SA
VS
B/_
RIN
VC
C
IC1
C60
0.1µ
,25V
C54
0.1µ
,25V
R97
180K
,1/1
6W
R98
33K
,1/1
6W
R2
10K
,1/1
6W
C4
100p
,50V
C3
0.1µ
,25V
RE
SE
T
D9
Q4
Q3
Q5
Q6
12
3
12
3 2 1
3
3
2 1
ZD
3
D8
V2-
ON
V3-
ON
R16
64.
7K,1
/16W
C8
1000
µ,16
VR
101
100,
1/16
W
L101
LHL1
0TB
221K
D10
1
1 24 3
VIN
SW
GN
DF
/B
IC14
ICP
1 Q7
R16
51M
A,1
/16W
3
2 1
L2D
4
LF-P
RT
D7
ZD
6
C19
1000
µ,35
V
C73
R20
15K
,1/1
6W
R10
68K
,1/1
6W R21
820,
1/16
W
C75
Q35
Q33
Q363
21
32 1
3
21
R16
733
0K,1
/16W
R16
833
0K,1
/16W
LFR
EF
1
DC
LVL
C74
Q34
32 1
Q9 3
2 1
3
21
Q8
D3
R17
1K,1
/16W
R16
200,
1/16
W
R25
23.2
K,1
/16W
R26
10K
,1/1
6W
R24
2K,1
/16W
ZD
2
8 7 6 5
1 2 3 4
Cd
Si
V+
INV
Cs
Es Ct
GN
D
IC2
C12
C13
0.1µ
,25V
Q11
Q10
3
2 1312
R23
1K,1
/16W
R22
10K
,1/1
6W
VH
-ON
<03
-A3>
<02
-A3>
<03
-A3>
<03
-D1>
<03
-G3>
<02
-F1>
<05
-F1>
R19
51,1
/10W
1 2 3
5 4
CO
NT
GN
DN
OIS
E
VIN
VO
UT
IC15
Vcc
13V
cc
C7
0.01
µ,50
VC
64.
7µ,2
5V
D2
C5
0.1µ
,25
V
<02
-F1>
16
12
34
56
78
910
A
B
C
D
E
F
CO
NT
RO
L P
CB
AS
S'Y
02
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
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
VH
VH
Vcc
1V
cc1
Vcc
2
Vcc
1V
cc1
Vcc
1V
cc1
Vcc
1
Vcc
1
3Vcc
Vcc
1V
cc1
Vcc
1
Vcc
1
16
10
MD
15~
0
MA
9~0 P
LUG
PU
LLU
PU
SB
D+
US
BD
-
C11
0.01
µ ,50
V
0 1 2 3 4 5 6 7 15 14 13 12 11 10 9 8
8 7 6 5 4
LCA
SU
CA
SO
E
V3-
ON
RE
SE
T
<01
-D10
>
<03
-G3>
<03
-D6>
<03
-D6>
<03
-C8>
<05
-F7>
<03
-A6>
<03
-A6>
R30
31M
A,1
/16W
R30
220
0,1/
16W
X3
CX
-16F
48M
Hz
C31
1S
PE
C/N
OPA
RT
C37
3p,5
0V
C21
100p
,50V
3VD
D_1
5VD
D_1
MD
0M
D1
MD
2M
D3
MD
4M
D5
MD
6M
D7
UW
NR
AS
NM
A9
MA
0M
A1
MA
2LW
NP
LUG
PU
LUP
NU
SB
D_P
US
BD
_M3V
DD
_2V
SS
_1M
A3
MD
15M
D14
MD
13M
D12
MD
11M
D10
MD
9M
D8
LCA
SN
UC
AS
NO
EN
MA
8M
A7
MA
6M
A5
MA
4LP
A2
RE
SN
5VD
D_2
3VD
D_3
4546474849505152535455565758596061626364656667686970717273747576777879808182838485868788
VSS_2VSS_35VDD_3TESTLXILXOMTESTLPA3SNMINMIOLPB3LPB2LPB1LPB0CSSELLPA6LPA5LPA4IRRXDIRFRXDIRTXDVSS_45VDD_4SELININITNAFXTFAULTSLCTPEBUSYACKIFD7IFD6IFD5IFD4IFD3IFD2IFD1IFD0STBNVSS_55VDD_5VSS_6VSS_7
R30
947
K,1
/16W
<04-E6><04-D6><04-D6><04-E6>
<04-D6><04-D6><04-D6><04-C6>
<04-B7>
<04-B7>
<04-C7>
<04-C7>
C30
40.
01µ,
50V
MODEPWRON
RCV-SWBZOUT
SELININITAUTXTFAULTSLCTPEBUSYACKIFD7IFD6IFD5IFD4IFD3IFD2IFD1IFD0STB
C30
60.
01µ,
50V
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
3VD
D_6
5VD
D_7 D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
A23
A22
A21
A20
A19
A18
A17
A16
VS
S_8
3VD
D_5
A15
A14
A13
A12
A11
A10 A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
RD
NW
RN
HW
RN
5VD
D_6
3VD
D_4
5 6 7 8 9 10 11 12 13 14 1523 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
RD
WR
HW
R
<03
-A3>
<03
-A3>
<03
-A3>
<03
-A4>
16
C36
0.01
µ,50
V
176175174173172171170169168167166165164163162161160159158157156155154153152151150149148147146145144143142141140139138137136135134133
VSS_12VSS_115VDD_9HCONT
HCLKHDATA
HLATBENB3BENB2BENB1ODENBEVENBHENB3HENB2HENB1HENB0MCHE1MCHE0WHEATHDRES
IFSELLPA0LPA1
WAITNINT0INT1INT2INT3
CS0NCS1N
D0D1D2D3D4
NTEST2SXIN
SXOUTSXOSXI
NTEST15VDD_BVSS_10
VSS_9
<05-F1> MCHE1MCHE0WHEAT
D15
~0
R30
75.
6K1/
4
R30
62.
7K,1
/16W
Q16
3
21
312
Q2
R32
733
0K,1
/16W
R30
81K
,1/1
6W
MC
H0
MC
H1
W-H
T
<05
-F4>
<05
-F4>
R32
810
K,1
/16W
R32
910
K,1
/16W
100,
1/16
W
100,
1/16
W10
0,1/
16W
100,
1/16
W10
0,1/
16W
100,
1/16
W10
0,1/
16W
100,
1/16
W10
0,1/
16W
100,
1/16
W10
0,1/
16W
100,
1/16
W
100,
1/16
W10
0,1/
16W
R32
5R
326
C31
610
00p,
50V
C31
81 µ
,50V
CN
H1
DA
1H
ZM
6.8F
A
DA
1H
ZM
6.8F
A
DA
2H
ZM
6.8F
A
DA
2H
ZM
6.8F
A
DA
3H
ZM
6.8F
A
DA
3H
ZM
6.8F
A
DA
4H
ZM
6.8F
A
DA
4H
ZM
6.8F
A
DA
5H
ZM
6.8F
A
DA
5H
ZM
6.8F
A
43
25
1
2
34
2
15
24
3
25
1
24
3
25
1
24
3
25
1
2
R33
347
0K,
1/10
WR
335
100K
,1/
16W
R33
610
0,1/
16W
76 5
481
2 3
48
C31
910
00p,
50V
R33
133
K,
1/16
W
R33
212
K,
1/16
W
R33
410
0K,1
/16W
R33
818
0K,
1/16
W
C32
00.
1 µ,2
5V
R33
77.
5K,
1/16
WR
339
1K,1
/16W
VH
GV
HG
MC
H0
MC
H1
HV
HH
VH
TOP
DIA
ID0
ID1
IHK
S2
HV
SS
HE
NB
AE
VE
NE
NB
HE
NB
BH
EN
BD
OD
DE
NB
BE
NB
0
BE
NB
1B
EN
B2
HV
DO
HC
LOC
K
HLA
TC
HH
RE
S
HE
NB
CH
DAT
A
DIK
IC13
IC13
W-H
TIH
KS
1
<05
-F4>
AS
ICIC
3U
PD
8266
2GM
-001
-JE
U
R31
1
R31
2R
313
R31
4R
315
R31
6R
317
R31
8R
319
R32
0R
321
R32
2
R32
3R
324
100,
1/16
W10
0,1/
16W
Vcc
1 C30
20.
01µ,
50V
3Vcc
C14
0.01
µ,50
V
3
<05
-F7>
<05
-F7>
<05
-F7>
CP
5
9 0 1 2
UW
RA
S<
03-C
6><
03-C
6>
Vcc
1 C9
0.01
µ ,50
V
3Vcc
C10
0.01
µ ,50
V
C15
0.01
µ ,50
V
Vcc
1
C38
0.01
µ ,50
VC
P6
CP
4
BK
1608
LM18
2
BK
1608
LM18
2F
B20
2F
B20
1
C31
510
p,50
V
C31
410
p,50
V
X4
R30
51M
A,
1/16
W
R30
410
0,1/
16W
BLM
11B
221S
DF
B10
<03
-E1>
SX
OU
T
01234
HLA
TB
EN
B3
BE
NB
2B
EN
B1
OD
DE
NB
EV
EN
BH
EN
BC
HE
NB
BH
EN
BA
HE
NB
DH
RE
S
HC
ON
TH
CLK
HD
ATA
<05-F1><05-F1>
<01-D8><05-C1><03-G3><03-G3><03-G3>
<03-D6>
V2-ONMTSTB
WAITINT4INT5INT6INT7
CE1
<03-G4><03-G4>
TOP
C<
03-C
2>
HR
AN
K<
03-D
2>
ID0
<03
-C1>
ID1
<03
-C1>
HD
IS<
03-D
2>
3Vcc
C35
0.01
µ,50
V
24<
03-A
6>A
23~
0
3Vcc
C22
0.01
µ,50
V
Vcc
13V
cc
C40
0.01
µ,50
V
C39
0.01
µ,50
V
CP
3
R31
047
K,1
/16W
CP
9
CP
8
<04-D6>
<04-C6>
<04-B6><04-B6>
<04-C6><04-B6><04-B6><04-B6><04-B6>
<04-E7>TXD
PW-LEDERR-LED <04-B7>
Vcc
1
C20
0.01
µ,50
V
C31
210
00p,
50V
L3
FP
WR
ON
FR
XD
RX
D
<03
-C2>
CC-SW
<04-E4>
<04-D7>
<04
-E7>
<04
-D7>
<01
-B10
>
<03
-B6>
To B
J ca
rtri
ge
17
12
34
56
78
910
A
B
C
D
E
F
CO
NT
RO
L P
CB
AS
S'Y
03
Vcc
1V
cc1
16 10
MD
15~
0
MA
9~0
0 1 2 3 4 5 6 7
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21
VC
C1
I/O0
I/O1
I/O2
I/O3
VC
C2
I/O4
I/O5
I/O6
I/O7
NC
1N
C2
WE
RA
SN
C3
A0
A1
A2
A3
VC
C3
VS
S3
I/O15
I/O14
I/O13
I/O12
VS
S2
I/O11
I/O10
I/O9
I/O8
NC
4LC
AS
UC
AS
OE A8
A7
A6
A5
A4
VS
S1
9 0 1 2 3
DR
AM
IC4
UW
RA
S
C40
10.
01µ,
50V
C40
20.
01µ,
50V
C40
30.
01µ,
50V
15 14 13 12 11 10 9 8
8 7 6 5 4
LCA
S
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22
ICS
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
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25
A15
A14
A13
A12
A11
A10
A9
A8
A19
NC
1W
ER
ES
ET
NC
2N
C3
RY
/_B
YA
18A
17A
7A
6A
5A
4A
3A
2A
1
A16
BY
TE
VS
S2
DQ
15D
Q7
DQ
14D
Q6
DQ
13D
Q5
DQ
12D
Q4
VC
CD
Q11
DQ
3D
Q10
DQ
2D
Q9
DQ
1D
Q8
DQ
0O
EV
SS
1C
E A0
CO
NT
RO
L/C
G R
OM
IC5
19 18 8 7 6 5 4 3 2 1
0 8 1 9 2 10 3 11
20 9 10 11 12 13 14 15 16 17
15 7 14 6 13 5 12 4
16 15 14 13 12 11 10 9 20 19 18 8 7 6 5 4 3 2 1
15 7 14 6 13 5 12 4
C40
40.
01µ,
50V
<02
-B1>
<02
-C1>
<02
-D1>
<02
-D1>
<02
-E1>
(Not
mou
nted
)
CP
UIC
6
P65
/_R
EF
OU
TP
70/P
G00
P71
/PG
01P
72/P
G02
P73
/PG
03P
74/P
G10
P75
/PG
11P
76/P
G12
P77
/PG
13N
MI
P80
/TX
D0
P81
/RX
D0
P82
/_C
TS
0/S
CLK
0P
83/T
XD
1P
84/R
XD
1P
85/S
CLK
1A
GN
DV
RE
FV
CC
1P
90/A
N0
P91
/AN
1P
92/A
N2
P93
/AN
3A
M8/
_16
CLK
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
A12
A13
A14
A15
P20
/A16
P21
/A17
P22
/A18
P23
/A19
P24
/A20
P25
/A21
P26
/A22
P27
/A23
VC
C3
GN
D3
GN
D2
P17
/D15
P16
/D14
P15
/D13
P14
/D12
P13
/D11
P12
/D10
P11
/D9
P10
/D8
D7
D6
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
GND1X1X2EARESETWDTOUTPA0/_WAITPA1/TI0PA2/TO1PA3/TO3PB0/INT4/TI4PB1/INT5/TI5PB2/TO4PB3/TO5PB4/INT6/TI6PB5/INT7/TI7PB6/TO6PB7/INT0VCC2D0D1D2D3D4D5
26272829303132333435363738394041424344454647484950
GND4P64/_RAS
P63/_CS3/_CASP62/_CS2P61/_CS1
VCC4P60/_CS0P55/R/_W
P54/_BUSAKP53/_BUSRO
P52/_HWRWRRDA0A1A2A3A4A5A6A7A8A9
A10A11
100999897969594939291908988878685848382818079787776
17
11 3 10 2 9 1 8 0
Vcc
1
12 13 14 15 16 17 18 19 20 21 22 23
0123456789
1011
OE
UC
AS
CE
1
<02
-E1>
<02
-E1>
<02
-A4>
Vcc
1 C26
0.01
µ,50
V
A20
~1
<02
-A6>
16
21
Vcc
1 C34
0.01
µ,50
V
CRREF1CRREF2
<05-B1><05-B7>
TE-DIOTE-CLK
<05-E7><05-D7>
E-OET-OE
<05-D7><05-C7>
RESET
WAIT
<02-F1>
INT4INT5
<02-A4>
INT6INT7
<02-A4>
<02-A3>
<02-A4>
<02-A4>
C23
100p
,50
V
C32
100p
,50
V
C30
100p
,50
V
C33
100p
,50
V
C31
SP
EC
/N
OPA
RT
CP
18C
P17
R13
300,
1/16
W
SX
OU
T<
02-A
6>
CP
14C
P13
CP
15C
P19
C25
0.01
µ,50
V
Vcc
1
LFREF1VH-ON
<01-F7><01-F1>
PESHPS
<04-B7>
HWRWRRD
<02-F6>
<04-B7>
<02-F6><02-F6>
CP
16A
CR
MB
CR
MA
CR
MB
CR
MA
LFM
BLF
MA
LFM
BLF
MF
PW
RO
NTO
PC
<05
-B1>
<05
-B7>
<05
-B1>
<05
-B7>
<05
-F1>
<05
-F1>
<05
-F1>
<05
-F1>
<02
-G1>
<02
-C7>
<02
-C7>
24A
23~
0<
03-A
6>
Vcc
1
R35
110
K,
1/16
W
R35
210
K,
1/16
W
IDO
ID1
<02
-C7>
E-D
O<
05-D
10>
CP
10C
P12
CP
11
C27
0.01
µ,50
VVcc
1
DC
LVL
<01
-G7>
HD
ISH
RA
NK
TH
LVL
<02
-F6>
<02
-C7>
<04
-G6>
C24
0.01
µ,50
V012345
15 14 13 12 11 10 9 8 7 6
<01-B10>
<03
-B6>
<02
-A6>
D15
~0
<02
-A6>
18
12
34
56
78
910
A
B
C
D
E
F
CO
NT
RO
L P
CB
AS
S'Y
04
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
22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3
Vcc
1
Vcc
1
Vcc
1
2 1
Vcc
3V
cc1
Vcc
1
Vcc
3
Vif
Vcc
3
Vcc
1
CN
IF1
ST
RO
BE
DAT
A1
DAT
A2
DAT
A3
DAT
A4
DAT
A5
DAT
A6
DAT
A7
DAT
A8
AC
KB
US
YP
ES
LCT
AU
TX
TN
CS
-GN
DF
-GN
D+
5VS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DS
-GN
DIN
PR
MFA
ILT
S-G
ND
NC
+5V
SE
LIN
FG
1F
G2
R50
139
0,1/
8W
R50
21K
,1/
16W
R50
31K
,1/
16W
1357
RA
1
R50
410
0,1/
16W
R50
51K
,1/1
6W
C50
110
00p,
50V
C50
310
00p,
50V
C50
210
00p,
50V
C50
410
00p,
50V
C50
510
00p,
50V
C50
610
00p,
50V
C50
710
00p,
50V
C50
810
00p,
50V
C50
910
00p,
50V
R51
05.
6K,1
/16W
ST
B
IFD
0IF
D1
IFD
2IF
D3
IFD
4IF
D5
IFD
6IF
D7
AU
TX
T
AC
K
BU
SY
PE
SLC
T
INIT
FAU
LT
SE
LIN
TH
LVL
R50
91K
,1/1
6W
R50
610
0,1/
16W
R50
71K
,1/1
6W
R50
81K
,1/1
6W
C51
60.
01µ,
50V
TH
1
R53
147
K,1
/16W
BZ
OU
TP
ES
HP
SP
W-L
ED
ER
R-L
ED
R51
5R
516
R51
7R
518
R51
930
0,1/
16W
300,
1/16
W
PW
RO
N
CC
-SW
RC
V-S
W
R51
210
0,1/
16W
R51
310
0,1/
16W
R51
410
0,1/
16W
R51
110
K,1
/16W
C52
10.
01µ,
50V
R52
010
K,1
/16W
C52
20.
01µ,
50V
R52
110
K,1
/16W
C52
30.
01µ,
50V
FR
XD
RX
D
TX
D
MO
DE
R53
268
,1/1
6W
Par
alle
l In
terf
ace
<02
-G4>
<02
-G3>
<02
-A3>
<02
-A3>
<02
-G3>
<02
-G3>
<02
-G2>
<02
-G3>
<02
-G3>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G4>
<02
-G3>
<03
-D2>
<02
-G1>
<02
-G1>
<02
-G3>
<02
-G2>
CN
PI
2468
1357
RA
2
2468
1357
RA
3
2468
1357
RA
4
2468
C51
110
00p,
50V
C51
210
00p,
50V
C51
310
00p,
50V
C51
410
00p,
50V
C51
510
00p,
50V
100,
1/16
W10
0,1/
16W
100,
1/16
W
To P
AN
EL
BO
AR
D
To Ir
DA
UN
IT
19
12
34
56
78
910
A
B
C
D
E
F
CO
NT
RO
L P
CB
AS
S'Y
05
Vcc
1V
pp
VH
VH
Vcc
1
Vcc
1V
cc1
CR
RE
F1
AC
RM
AC
RM
MT
ST
B
Q12
12
3
3
2 1
Q19
R60
110
K,1
/16W
R60
20.
39,1
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515
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20 19 18 17 16 15 14 13 12 11
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