All rights reserved. No p art of t his manual may be reprod uced, stored i n a ret rieval sy stem, or t ransmit ted in any form or by a ny means el ectroni c,
mechanical, photocopying, or otherwise, without the prior written permission of SEIKO EPSON CORPORATION.
All effort have been made to ensure the accuracy of the contents of this manual. However, should any errors be detected, SEIKO EPSON would
greatly appreciate being informed of them.
The contents of this manual are subject to change witho ut notice.
The above not withstanding SEIKO EPSON CORPORATION can assume no responsibility for any errors in this manual or the consequences
thereof.
EPSON is a registered trademark of SEIKO EPSON CORPORATION.
General Notice:Other product names used herein are for identification purpose only and may be trademarks or registered trademarks of their
respective owners. EPSON disclaims any and all rights in those marks.
Precautionary notations throughout the text are categorized relative to 1)Personal injury and 2) damage to equipment.
DANGERSignals a precaution which, if ignored, could result in serious or fatal personal injury. Great caution should be exercised in performing
procedures preceded by DANGER Headings.
WARNINGSignals a precaution which, if ignored, could result in damage to equipment.
The precautionary measures itemized below should always be observed when performing repair/maintenance procedures.
DANGER
1.ALWAYS DISCONNECT THE PRODUCT FROM THE POWER SOURCE AND PERIPHERAL DEVICES PERFORMING ANY MAINTENANCE OR REPAIR
PROCEDURES.
2.NO WORK SHOULD BE PERFORMED ON THE UNIT BY PERSONS UNFAMILIAR WITH BASIC SAFETY MEASURES AS DICTATED FOR ALL ELECTRONICS
TECHNICIANS IN THEIR LINE OF WORK.
3.WHEN PERFORMING TESTING AS DICTATED WITHIN THIS MANUAL, DO NOT CONNECT THE UNIT TO A POWER SOURCE UNTIL INSTRUCTED TO DO SO.
WHEN THE POWER SUPPLY CABLE MUST BE CONNECTED, USE EXTREME CAUTION IN WORKING ON POWER SUPPLY AND OTHER ELECTRONIC
COMPONENTS.
4.WHEN DISASSEMBLING OR ASSEMBLING A PRODUCT, MAKE SURE TO WEAR GLOVES TO AVOID INJURIER FROM METAL PARTS WITH SHARP EDGES.
WARNING
1.REPAIRS ON EPSON PRODUCT SHOULD BE PERFORMED ONLY BY AN EPSON CERTIFIED REPAIR TECHNICIAN.
2.MAKE CERTAIN THAT THE SOURCE VOLTAGES IS THE SAME AS THE RATED VOLTAGE, LISTED ON THE SERIAL NUMBER/RATING PLATE. IF THE EPSON
PRODUCT HAS A PRIMARY AC RATING DIFFERENT FROM AVAILABLE POWER SOURCE, DO NOT CONNECT IT TO THE POWER SOURCE.
3.ALWAYS VERIFY THAT THE EPSON PRODUCT HAS BEEN DISCONNECTED FROM THE POWER SOURCE BEFORE REMOVING OR REPLACING PRINTED
CIRCUIT BOARDS AND/OR INDIVIDUAL CHIPS.
4.IN ORDER TO PROTECT SENSITIVE MICROPROCESSORS AND CIRCUITRY, USE STATIC DISCHARGE EQUIPMENT, SUCH AS ANTI-STATIC WRIST STRAPS,
WHEN ACCESSING INTERNAL COMPONENTS.
5.DO NOT REPLACE IMPERFECTLY FUNCTIONING COMPONENTS WITH COMPONENTS WHICH ARE NOT MANUFACTURED BY EPSON. IF SECOND SOURCE IC
OR OTHER COMPONENTS WHICH HAVE NOT BEEN APPROVED ARE USED, THEY COULD CAUSE DAMAGE TO THE EPSON PRODUCT, OR COULD VOID THE
WARRANTY OFFERED BY EPSON.
About This Manual
This manual describes basic functions, theory of electrical and mechanical operations, maintenance and repair procedures of the printer. The instructions and
procedures included herein are intended for the experienced repair technicians, and attention should be given to the precautions on the preceding page.
Manual Configuration
This manual consists of six chapters and Appendix.
CHAPTER 1. PRODUCT DESCRIPTIONS
Provides a general overview and specifications of the
product.
CHAPTER 2. OPERATING PRINCIPLES
Describes the theory of electrical and mechanical
operations of the product.
CHAPTER 3. TROUBLESHOOTING
Describes the step-by-step procedures for the
troubleshooting.
CHAPTER 4. DISASSEMBLY / ASSEMBLY
Describes the step-by-step procedures fo r disassembling
and assembling the product.
CHAPTER 5. ADJUSTMENT
Provides Epson-approved methods for adjustment.
CHAPTER 6. MAINTENANCE
Provides preventive maintenance procedures and the
lists of Epson-approved lubricants and adhesives
required for servicing the product.
APPENDIXProvides the following additional information for
reference:
• Connector pin assignments
• Electric circuit boards components layout
• Electrical circuit boards schematics
• Exploded diagram & Parts List
Symbols Used in this Manual
Various symbols are used throughout this manual either to provide
additional information on a specific topic or to warn of possible danger
present during a procedure or an action. Be aware of all symbols when
they are used, and always read NOTE, CAUTION, or WARNING
messages.
A D J U S T M E N T
R E Q U I R E D
C A U T I O N
C H E C K
P O I N T
W A R N I N G
Indicates an operating or maintenance procedure, practice
or condition that is necessary to keep the product’s quality.
Indicates an operating or maintenan ce pr ocedure, practi ce,
or condition that, if not strictly observed, could result in
damage to, or destruction of, equipment.
May indicate an operating or maintenance procedure,
practice or condition that is necessar y to accomplish a task
efficiently. It may also provid e additional information that is
related to a specific subject, or comment on the results
achieved through a previous action.
I.ndicates an operating or maintenance procedure, practice or
condition that, if not strictly observed, could result in injury or
loss of life.
Indicates that a particular task must be carried out
according to a certain standard after disassembly and
before re-assembly, otherwise the quality of the
components in question may be adversely affected.
Revision Status
RevisionIssued DateDescription
AMay 31. 2001First Release
CONTENTS
Chapter 1 PRODUCT DESCRIPTION
1.1 FEATURES ......................................................................................................... 9
1.2 Differences between the Stylus C20 and the Stylus C40 ................................. 9
Interface specification for each model are as the following.
Parallel Interface .EPSON Stylus C40SX .EPSON Stylus C20SX
USB Interface .EPSON Stylus C40UX .EPSON Stylus C20UX
Windows / Macintosh exclusive
1.2 Differences between the Stylus C20 and the
Stylus C40
The Stylus C20 and Stylus C40 are mechanically the same, but the throughput of the
Stylus C40 is slightly higher than that of the Stylus C20. (Refer to Table 1-1.)
Table 1-1. Throughput
Modelsmemo economyNormal
Stylus C206.5 PPM3.0 PPM
Stylus C408.0 PPM3.5 PPM
In both models, demarcation is determined by the EEPROM value 29 <H>. When the
value of bit 0 is 1, a wait of 40
msec is inserted for each CR pass during printing, then the next operation starts.
Table 1-2. Delay of oparation
EEPROM 29 <H> bit 0 v alueModelDelay time during printing
0Stylus C40None
1Stylus C20CR 40 msec for each pass.
PRODUCT DESCRIPTIONFEATURES9
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.3 SECIFICATIONS
This section covers specifications of the printer.
1.3.1 Physical Specification
Weight : 2.48kg (without the ink cartridges)
Dimensio n : 424 mm(W) x 227 mm (D) x 168 mm (H) (Printing)
1.3.2 Printing Specification
Print method : On demand ink jet
Nozzle Configuration : monochrome 48 nozzles
: color 15 nozzles x 3 (Cyan, Magenta, Yellow)
Print direction : Bi-direction with logic seeking
Print speed & Printable columns
Character mode : Black only
Character PitchCharacter QualityPrintable ColumnsCR Speed
Rated voltage : AC 120 V
Input voltage range : AC 99 - 132 V
Rated frequency range : 50 - 60 Hz
Input frequency range : 49.5 - 60.5 Hz
Rated current : 0.4A
Power consumption : Approx. 16W (ISO/IEC 10561 Letter pattern
: Approx. 4W in standby mode
: Energy Star compliant
Insulation Resistance :10 M ohms min.
(between AC line and chassis, DC 500 V)
Dielectric strength : AC 1000 V rms. 1 minute or
AC 1200 V rms. 1 second
(between AC line and chassis)
220-240 V version
Rated voltage : AC 220 - 240 V
Input voltage range : AC 198 - 264 V
Rated frequency range : 50 - 60 Hz
Input frequency range : 49.5 - 60.5 Hz
Rated current : 0.2A
Power consumption : Approx. 16W (ISO/IEC 10561 Letter pattern
: Approx. 4W in standby mode
: Energy Star compliant
Insulation Resistance :10 M ohms min.
(between AC line and chassis, DC 500 V)
Dielectric strength : AC 1500 V rms. 1 minute
(between AC line and chassis)
PRODUCT DESCRIPTIONSECIFICATIONS11
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.3.6 Envirormental Condition
Temperature : 10 to 35 ºC (operating *3 )
: -20 to 60 ºC(non-operating, *1)
1 month at 40 ºC
120 hours at 60 ºC
Humidity : 20 to 80% RH (operating, *2,*3)
: 5 to 85% RH (non-operating, *1, *2)
Resistance to shock : 1 G, within 1 ms (operating)
: 2 G, within 2 ms (non-operating, *1)
Resistance to vibration : 0.15G (operating)
: 0.50G (non-operating, *1)
*1: with shipment container
*2: without condensation
*3: Condition is as following figure.
1.3.8 Safety Approvals
120 V version :
Safety standards : UL1950 with D3
CSA C22.2 No.950 with D3
EMI : FCC part15 subpart B class B
CSA C108.8 class B
220-240 V version :
Safety standards : EN 60950(VDE)
EMI : EN 55022(CISPR Pub.22) class B
: AS/NZS 3548 class B
1.3.9 Acoustic Noise
Level : Approx. 45 dB(A) (According to ISO 7779)
1.3.10 CE Marking
220-240 V version
Low Voltage Directive 73/23/EEC : EN60950
EMC Directive 89/336/EEC : EN55022 Class B
20,000 pages (A4, Letter)
*refer to “EEPROM Address Map” on page -102
Print Head Life : 4000 million dots/nozzle
PRODUCT DESCRIPTIONSECIFICATIONS12
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.4 INTERFACE
Interface specification for each model are as the following.
Parallel Interface :EPSON Stylus C40SX .EPSON Stylus C20SX
USB Interface :EPSON Stylus C40UX .EPSON Stylus C20UX
*This printer interface as standard.
1.4.1 USB Interface
Standard : based on
“Universal Serial Bus Specifications Revision 1.1”
“Universal Serial Bus Device Class Definition for Printing Devices Version
1.1”
Bit rate : 12Mbps (Full Speed Device)
Data encording : NRZI
Adaptable connector : USB Series B
Recommended cable length : 2 meters
Connect er pin assinment and signals:
Pin No.Signal nameIn/OutFunction description
1VCC-
2Databi-directionalData
Cable power. Maximum power consumption is
100mA
1.4.2 Parallel Interface (Forward Channel)
Transmission mode : 8 bit parallel, IEEE-1284 compatibility mode
Synchronization : By STROBE pulse
Handshaking : By BUSY and ACKNLG signal
Signal level : TTL compatible level
Adaptable connector : 57-30360(amphenol) or equivalent
BUSY signal is set high before setting either -ERROR
low or PE high and held high until all these signals
return to their inactive state.
BUSY signal is at high level in the following cases.
-During data entry (see Data transmission timing)
-When input data buffer is full
-During -INIT signal is at low level or during
hardware initialization
-During printer error (See -ERROR signal)
ERROR signal is at low level when the printer is in one
of the following states.
-Printer hardware error (fatal error)
-Paper-out error
-Paper-jam error
-Ink-out error
-Ink overflow error
3+Databi-directionadata, pull up to +3.3V via 1.5K ohm resistor
4Ground-C able ground
Data transmission timing :
DATA
-STROBE
BUSY
-ACKNLG
PE signal is at high level during paper-out error.
Figure 1-3. USB Pin Assignment
PRODUCT DESCRIPTIONINTERFACE13
Stylus C40UX/C40SX/C20UX/C20SXRevision A
Parameter Minimum MaximumParameter Minimum Maximum
tsetup500 ns-treply0thold500 n s-tack500 ns10 us
tstb500 ns-tnbusy0tready0-tnext0tbusy-500 ns
tt-out*-120 ns* Rise and fall time of every output signals
tt-in**-200 ns** Rise and fall time of every input signals
***Typical time of tack is shown below.
Parallel I/F modetypical time of tack
High speed2us
Normal speed4usror
Signal level : TTL compatible (IEEE-1284 level 1 device)
ParameterMinimum MaximumCondition
VOH*-5.5 V* A low logic level on the
is.
VOL*-0.5 V-
IOH*-0.32 mAVOH = 2 .4 V
IOL*-12 mAVOL = 0.4 V
CO-50 pF
VIH-2.0 V
VIL0.8V-
IIH-0.32 mAVIH = 2.0 V
IIL-12 mAVIL = 0.8 V
Logic H signal is.
2.0 V or less when the
printer is powered off and
this signal is equal or
exceeding 3.0V when the
printer is powered on.
The receiver shall provide an
impedance equivalent to 7.5
K ohm to ground
Connector pin assignment and signals :
Pin No.
10-ACKNLG28Out
11BUSY29Out
12PE28OutA high signal indicat e s paper-out error.
13SLCT28Out
14-AFXT30InNot used.
31-INIT30In
32-ERROR29OutA low signal indicates printer error condition.
36-SLI N30InNot used.
18Logic H-OutPulled up to +5 V via 3.9 K ohm resistor.
35+5V-OutPulled up to +5 V via 3.3 K ohm resistor.
Signal Name
Return
1-STROBE19In
2DATA020InThe DATA0 through DATA7 sign als
3DATA121In
4DATA222In
5DATA323In
6DATA424In
7DATA525In
8DATA626In
9DATA727In
GND pin In/OutFunctional description
The strobe pulse. Read-in of data is
performed at the falling edge of this pulse.
represent data bits 0 to 7, respectively.
Each signal is at high level when data is
logical 1 and low level when data is logical 0.
This signal is a negative pulse indicating that
the printer can again accept data.
A high signal indicates th at the printe r cannot
receive data.
Always at high level when the printer is
powered on.
The falling edge of a negative pulse or a low
signal on this line causes the printer to
initialize. Minimum 50 us pulse is necessary.
CI-50 pF
PRODUCT DESCRIPTIONINTERFACE14
Stylus C40UX/C40SX/C20UX/C20SXRevision A
Pin No.
17Chassis GND--Chassis GND.
16, 33
19-30
15, 34NC--Not connected.
Signal Name
Return
GND--Signal GND.
GND pin In/OutFunctional description
* In/Out refers to the direction of signal flow from the printer's point of view.
1.4.3 Parallel Interface (Reverse Channel)
Transmission mode : IEEE-1284 nibble mode
Adaptable connector : See forward channel
Synchronization : Refer to the IEEE-1284 specification
Handshaking : Refer to the IEEE-1284 specification
Data trans. timing : Refer to the IEEE-1284 specification
Signal level : IEEE-1284 level 1 device
See forward channel
Connector pin assignment and signals :
Pin No.Signal Name
2DATA020InThe DATA0 through DATA7 sign als
3DATA121In
4DATA222In
5DATA323In
6DATA424In
7DATA525In
8DATA626In
9DATA727In
10PtrClk28OutPrinter clock signal.
11
12
13
14HostBusy30InHost busy signal.
PtrBusy /
DataBit-3,7
AckDataReq /
DataBit-2,6
Xflag /
DataBit-1,5
ReturnG
ND Pin
29Out
28Out
28Out
In/
Out*
Function al description
represent data bits 0 to 7, respectively.
Each signal is at high level when data is
logical 1 and low level when data is logical 0.
These signals are used to transfer the 1284
extensibility request values to the printer.
Printer busy signal and reverse cha nnel
transfer data bit 3 or 7.
Acknowledge data r equ est sign al a nd r ever se
channel transfer data bit 2 or 6.
X-flag signal and reverse channel transfer
data bit 1 or 5.
Pin No.Signal Name
1HostClk19InHost clock signal.
ReturnG
ND Pin
In/
Out*
Functional descrip tion
31-INIT30InNot used.
32
361284-Active3 0In1284 active signal.
18Logic-H-OutPulled up to +5 V via 3.9 K ohm resist or.
35+5V-OutPulled up to +5 V via 3.3 K ohm resistor.
17Chassis GND- -Chassis GND.
16, 33
19-30
15, 34NC--Not connected.
-DataAvail /
DataBit-0,4
GND--Signal GND.
29Out
Data available signal and reverse channel
transfer data bit 0 or 4.
* In/Out refers to the direction of signal flow from the printer's point of view.
PRODUCT DESCRIPTIONINTERFACE15
Stylus C40UX/C40SX/C20UX/C20SXRevision A
Extensibility Request :
The printer responds affirmatively when the extensibility request values are 00H
or 04H, that mean,
DES:EPSON[SP]Stylus[SP]XXX;
When IEEE1284.4 is disabled,
[00H] [4BH]
MFG:EPSON;
CMD:ESCPL2,BDC;
MDL:Stylus[SP]XXX;
CLS:PRINTER;
DES:EPSON[SP]Stylus[SP]XXX;
busy state. This slowdown is started when the rest of the input buffer becomes several
hundreds of bytes. Finally, the printer is in the busy state continuously when the input
buffer is full.
*XXX is C20 or C40
Note: (1) [00H] denotes a hexadecimal value of zero.
(2) MDL value depends on the EEPROM setting. Refer to
Appendix F.
(3) CMD value depends on the IEEE1284.4 setting, Refer to
Appendix F.
1.4.4 Prevention Hosts from Data Transfer Time-out
Generally, hosts abandon data transfer to peripherals when a peripheral is in the busy
state for dozens of seconds continuously. To prevent hosts from this kind of time-out,
the printer receives data very slowly, several bytes per minute, even if the printer is in
PRODUCT DESCRIPTIONINTERFACE16
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.4.5 IEEE1284.4 Protocol
The packet protocol described by IEEE1284.4 standard allows a device to carry on
multiple exchanges or conversations which contain data and/or control information
with another device at the sa me time across a s ingle point-t o-point link. The prot ocol i s
not, however, a device control language. It does provide basic transport-level flow
control and multiplexing services. The multiplexed logical channels are independent of
each other and blocking of one has no
effect on the others. The protocol operate over IEEE1284.
- Automatic selection
An initial state is compatible interface and starts IEEE1284.4 communication
when magic strings (IEEE 1284.4 synchronous commands) are received.
- On
An initial state is IEEE1284.4 communication and data that received it by the
time it is able to take synchronization by magic string (IEEE 1284.4
synchronous commands) is discarded.
- Off
An initial state is compatible interface and never starts IEEE1284.4
communication even if magic strings (IEEE 1284.4 synchronous commands)
are received.
Factory setting is on.(Refer to Appendix H.EEPROM Map 09h)
PRODUCT DESCRIPTIONINTERFACE17
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.5 OPERATOR CONTROLS
1.5.1 Operate Switch
Operate switch is located on the control panel.
1.5.2 Control Panel
Switches
There are 2 non-lock type push switches, and 2 LED.
Indicators
(1) Power (green)
Lights when the operate switch is "ON", and AC power is supplied.
(2) Error (red)
Lights or blinks when some error occurs to the printer.
1.5.3 Panel Functions
Panel Functions
SWFunction
• Loads or Ejects the Paper(Pushing within 3seconds).
• Starts the Cleaning of head(Pushing for 3seconds)
Error Reset SW
*This function is not available in printing status.
Panel Function with Power on
• When carriage is on the Ink Cartridge ch ange position, return
carriage from Ink Cartridge change position.
• Starts the Ink Cartridge change (Pushing for 6seconds)
1.5.4 Printer Condition and Panel Status
Printer status
Power ON conditionOn-10
Ink sequenceBlink-6
Ink Cartridge change modeBlink-5
Data processingBlink-9
Paper Out *1-On4
Paper jam condition*1-On 33
Ink end(Black)*1-On->On8
Ink level low(Bl ack)-Blink->Blink8
Ink end(Color)*1-On->On8
Ink level low(Color)-Blink->Blink8
Ink end (Black and Color)-On->On8
No Ink Cartridge (Black or Color)*1-On7
Maintenance request
(Ink Overflow Counter error)
Fatal error*1OffOn1
“-”:Indicator status don’t change
“a->b”:a is a Indicator condition when carriage is on Home Position.
b is a Indicator condition in Ink exchange sequence.
PoweErrorPriority
Alt blinkAlt blink2
Indicators
SWFunction
Error Reset SWStarts status printings
*1 : see
PRODUCT DESCRIPTIONOPERATOR CONTROLS18
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.5.5 Printer Initialization
There are three kinds of initialization method.
(1) Power-on initialization
This printer is initialized when turning the printer power on, or printer recognized
the cold-reset command (remote RS command).
When printer is initialized, following action is performed.
This printer is initialized when printer recognized the -INIT signal (negative pulse)
of parallel interface.
When printer is initialized, following action is performed.
(a) Cap the print head.
(b) Eject a paper.
(c) Clears input data buffer.
(d) Clears print buffer.
(e) Sets default values.
(3) Software initialization
The ESC @ command also initializes the printer.
When printer is initialized, following action is performed.
1.5.6 Errors
Ink out
When the printer runs out the most part of the ink of any one color, it warns ink-
low and keeps printing.When the printer runs out the whole ink of any one color, it
stops printing and indicates ink-out error. User is requested to install a new inkcartridge in this state.
Paper out
When printer fails to load a sheet, it goes paper out error.
Paper jam
When printer fails to eject a sheet, it goes paper jam error.
No ink-cartridge
When printer detects that ink-cartridge comes off , it goes this error mode.
Maintenance request
When the total quantity of ink wasted through the cleanings and flushing is
reaches to the limit, printer indicates this error and stops. The absorber in the
printer enclosure is needed to be replaced with new one by a service person.
Fatal errors
Carriage control error.
* panel status is described on section1.4.4.
(a) Clears print buffer.
(b) Sets default values.
(4) Power-on initialization except I/F
The printer recognized the IEEE 1284.4 “rs” command.
When printer is initialized, following action is performed.
Quality : #10,DL,C6 Bond paper, Plain paper, Air mail
: CHOUKEI4,3 Kraft, new Kent paper
: YOUKEI1,2,3,4 Kraft, new Kent paper
* Envelope printing is only available at normal temperature.
* Keep the longer side of the envelope horizontally at setting.
Exclusive paper
Quality : EPSON Exclusive paper
* Transparency printing is only available at normal temperature.
< Photo Quality Ink Jet Paper >
Size :A4 (210mm x 297mm)
:A6 (105mm x 148mm)
:B5 (182mm x 257mm)
:Letter (216mm x 279mm)
:Legal (216mm x 356mm)
:5” x 8” (127mm x 203mm)
:8” x 10” (203mm x 254mm)
* Bottom margin is expanded to 3mm when paper dimension is defined by using
command(ESC (S), otherwise it is not expanded (Black,14mm Color 21mm). Refer to
Appendix C.
** Print quality may decline in the expanded areas(For 3 mm to 14 mm (Color 21mm)
of the printing areas).
Paper
size
#10
Envelope
LM(Left
margin)
(min.)
28mm(1.10
”)
Figure 1-5. Printable Area for Envelopes
RM(Right
margin)
(min.)
3mm(0.12”) 3mm(0.12”)
TM(Top
margin)
(min.)
Black BM
(Bottom margin )
(min.)
14mm(0.54”0
/3mm(0.12”)*
Color BM
(Bottom margin)
(min.)
21mm(0.83”)
/3mm(0.12”)*
DL7mm(0.28”) 3mm(0.12”) 3mm(0.12”)
C63mm(0.12”) 3mm(0.12”) 3mm(0.12”)
14mm(0.54”0
/3mm(0.12”)*
14mm(0.54”0
/3mm(0.12”)*
21mm(0.83”)
/3mm(0.12”)*
21mm(0.83”)
/3mm(0.12”)*
* Bottom margin is expanded to 3mm when paper dimension is defined by using
command ESC (S), otherwise it is not expanded (Black,14mm Color 21mm). Refer to
Appendix C .
** Print quality may decline in the expanded areas(For 3 mm to 14 mm (Color 21mm)
of the printing areas).
PRODUCT DESCRIPTIONPAPER22
Stylus C40UX/C40SX/C20UX/C20SXRevision A
1.7 INK CARTRIDGE
1.7.1 Black Ink Cartridge
Type : Exclusive cartridge
Color : Black
Print capacity : 270 pages / A4 (ISO/IEC10561 Letter Pattern at 360 dpi)
Ink life : 2 years from production date
Storage temperature : -20°C - 40°C (Storage, within a month at 40°C)
: -30°C - 40°C (Packing storage, within a month at 40°C)
: -30°C - 60°C (Transit, within 120 hours at 60°C and
within a month at 40)
Dimension : 19.8 mm(W) x 52.7 mm(D) x 38.5 mm(H)
1.7.2 Color Ink Cartridge
Type : Exclusive cartridge
Color : Magenta, Cyan, Yellow
Print capacity : 150 pages /A4 (360 dpi, 5% duty each color)
Ink life : 2 years from production date
Storage temperature : -20°C - 40°C (Storage, within a month at 40°C)
: -30°C - 40°C (Packing storage, within a month at 40°C)
: -30°C - 60°C (Transit, within 120 hours at 60°C and
within a month at 40)
Dimension : 42.9 mm(W) x 52.7 mm(D) x 38.5 mm(H)
* Ink cartridge can not re-fill, only ink cartridge is prepared for article of consumption.
* Do not use the ink cartridge which was passed away the ink life.
* Ink will be frozen under -18 to -21 o C environment, however it will be usable after
placing it more than 3 hours at room temperature. mm (0.12”) *
Ink cartridge (color) Ink cartridge (black)
PRODUCT DESCRIPTIONINK CARTRIDGE23
OPERATING PRINCIPLES
CHAPTER
2
Stylus C40UX/C40SX/C20UX/C20SXRevision A
2.1 Overview
Paper Eject Roller
This section describes the operating principles of the printer mechanism and electrical
circuit boards. The Sty lus C40UX/C40SX/C20UX/C20SX has on ly the following two
circuit boards:
Main board:C413 MAIN/MAIN-B
Power supply board:C417 PSB/PSE
PF Motor
Star Wheel Roller
PF Roller
CR Timing belt
2.1.1 Printer Mechanism
The printer mechanism for Stylus C40 UX /C40 SX/ C2 0UX /C20SX is designed newly.
But, the basic component of the printer mechanism is same as previous product.
This printer consists of Print Head, Carriage Mechanism, Paper Feeding Mechanism,
Paper Loading Mechanism, Ink System (Pump Mechanism, Cap Mechanism, and
Carriage Lock Mechanism).
Like other EPSON ink jet printers, the Stylus C40UX/C40SX/C20UX/C20SX is
equipped with two stepping motors; one for ASF, Paper feeding/ Pump mechanism,
and one for CR mechanism. ASF unit uses rear entry fr ont eject s ystem. Th is ASF unit
is also designed newly and single LD roller loads the paper to the printer mechanism.
For cap assembly, Stylus C40UX/C40SX/C20UX/C20SX uses valveless mechanism;
new design for this model.
CR unit
HP/PE/IC Sensor sensor
LD Roller
Paper feed back plate
Paper separation pad
ASF Hopper Spring
Clutch mechanism
Pump unit
CR Motor
Cap Assembly
Figure 2-1. Printer Mechanism block diagram
Operating PrinciplesOverview25
Stylus C40UX/C40SX/C20UX/C20SXRevision A
2.1.2 Printhead
The printhead uses a new developed U-CHIPS head and Stylus C40UX/C40SX/
C20UX/C20SX can perform multiple shot printing and variable printing. Printhead
nozzle configuration is as follows.
48 nozzles x 1 row: Black (nozzle pitch of the row: 1/120 inch)
45 nozzles x 1 row: Color (nozzle pitch of the row: 1/120 inch)
In the one row for the color, 15 nozzles are assigned for each yellow,
magenta, cyan color)
The basic operating principles of the printhead, which plays a major role in printing,
are the same as previous models; on-demand method which uses PZT (Piezo Electric
Element). In order to uniform the amount of ejecting ink, the printhead has its own
head ID (6 digits for this printhead) which adjust PZT voltage drive features.
The printer read the head ID form EEPROM and generates appropriate PZT drive
voltage to prevent amount of ink from varying by printheads.
Following explains printhead basic components.
PZT
PZT is an abbreviation of Piezo Electric Element. Certain amount of voltage
expands and contracts PTZ. The dri ve wave generated o n MAIN board driv es PZT
and PZT pushes the top cavity which has ink stored to disc harge the ink fr om each
nozzle on the nozzle plate.
Nozzle Plate
Head Driver Board
Ink Cartridge
PZT
Needle
Filter
Cavity
Figure 2-2. Printhead Sectional Drawing
Ink Cavity
The ink absorbed from the ink cartridge goes through the filter and then is stored
temporarily in this tank called “cavity” until PZT is driven.
Nozzle Plate
The board with nozzle holes on the printhead surface is called Nozzle Plate.
Filter
When the ink cartridge is installed, if any dirt or dust around th e cartridge needle is
absorbed into the head, there is a great possibility of causing nozzle clog and
disturbance of ink flow, and finally causing alignment failure and dot missing. To
prevent this problem, a filter is set below the cartridge needle, wh ere ink is filtered.
Operating PrinciplesOverview26
Stylus C40UX/C40SX/C20UX/C20SXRevision A
2.1.2.1 Printing Process
This section explains the process in which the printheads of On- Demand inkj et printers
eject ink from each nozzle.
1.Normal State:
When no printing signal is sent from PC, or no PZT drive voltage is applied, PZT
does not change shape, therefore PZT does not squeeze the cavity. Ink pressure
inside the cavity is kept normal. (Refer to Figure 2-3.)
2) Ejecting State:
When the print signal is output from the C413MAIN/B board, IC (Nozzle
Selector) located on the printhead unit latches data once by 1-byte unit. An
appropriate PZT latched by the nozzle selector is pushed into the cavity by the
common voltage applied from the main board. By this operation, ink stored in the
cavity spurts out from nozzles.(Refer to Figure 2.1.2.2.)
Ink Path
Nozzle
PZT
Ink Cavity
Nozzle plate
2.1.2.2 Printing Method
For print dot system, Stylus C40UX/C40SX/C20UX/C20SX has the following two
kinds of printing modes.
Multiple shot printing
Variable dot printing
The above two printing modes are automatically selected depending on the media and
the resolution setting of the printer driver. The following explains each printing mode.
Multiple shot printing
This printing mode is developed to improve the print quality on plain paper or
transparencies in low resolution. The multiple shot printing mode uses normal dot
and the number of dot shots varies from 1 shot to maximum 4 shots depending on
the print data to enable sharp image output even in a low resolution.
Variable dot printing
This printing mode is developed to improve the print quality on exclusive paper.
This mode is basically the same as variable dot printing mode used on other
products /; micro dot, middle dot, and large dot compose this mode. Print dot size
varies according to print data and this mode enables even sharper im age ou tput o n
exclusive paper.
PZT drive voltage
Figure 2-3. Printhead printing process
Operating PrinciplesOverview27
Stylus C40UX/C40SX/C20UX/C20SXRevision A
2.1.3 Carriage Mechanism
The carriage mechanism consists of Carriage motor (CR motor), Carriage unit
(including printhead), CR timing belt, CR guide shaft, CR guide frame, CR home &
I/C detector (HP/PE/IC sensor) etc. The carriage mechanism moves the carriage back
and forth according to the dr ive from the carriage motor. Th e following steppi ng motor
is mounted to drive CR mechanism. (See the table below.)
Table 2-1. Carriage Motor Specification
ItemsSpecifications
Type4-Phase/ 48-Pole PM Stepping motor
Drive Voltage+42 V +/ - 5% (DRV IC voltage)
Coil Resistance10.8 Ω +/ - 10% (per phase at 25 degree)
Inductance15 mH +/ - 20%(1KH 1VmA)
Drive MethodBi-Polar drive
Driver ICXC901503FNR2
The drive from CR motor is transferred to the CR unit via CR timing belt. And the CR
home position is detected with the HP/PE/IC sensor. This sensor is available as CR HP
detector only in the HP (home position) detection sequence & pump operation
sequence. (not available in the paper feeding sequ ence fo r the C R HP detector becaus e
it is used for only PE sensor during the paper feeding sequence.) Moreover, unlike the
previous products, this printer dose not have the PG adjustment mechanism.
CR home position is detected with the HP/PE/IC sensor and the d etection plate molded
in the CR unit as following figure. When the CR home position is detected with this
sensor, HIGH signal is output to the CPU.
HP/IC detection Lever
CR HP dete ction plate
Right side view
CR HP detection plate
HP/IC detection
Lever
Low signal
High signal
Figure 2-5. CR home position
Unlike the previous products, I/C detection sensor is not built in the CR unit.
The I/C is detected with the HP/PE/IC sensor and the detection plate mo lded on the I/C
cover as following figure. The I/C installation condition is monitored only when the
CR unit moves to the I/C detection position (HP detection sequence). So, this sensor
function is not available in the paper feeding sequence. When the I/C is not installed
into the CR unit, HIGH signal is output to the CPU.
HP/IC detection Lever
Right side view
I/C detection plate
HP/PE/ICSensor
CR Motor
High signal
I/C detection plate
HP/IC detection
Lever
Low signal High signal
Figure 2-6. I/C detection position
CR unit
CR Timing belt
Figure 2-4. Carriage Mechanism (Top view)
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Stylus C40UX/C40SX/C20UX/C20SXRevision A
Also, when replacing ink use this lever to confirm whether the cover cartridge is open
or closed.
There are separate replacement positions for replacing the Black and Color ink
cartridges. If the cover cartridge is open, the I/C detection plate makes contact with the
HP/IC detection lever, causing the HP/IC sensor to detect a high signal.
HP/IC detection Lever
I/C detection plate
Right side view
High signal
I/C detection plate
HP/IC
detection Lever
Low signal
Figure 2-7. I/C change position
If a High signal is detected even once, it is regarded as if that ink cartridge was
replaced and the cleaning and ink counters are cleared.
If the High signal is not detected even once, the cleaning and ink counter are not
cleared.
If both the ink cartridges have not been set before carrying out initial filling, the
carriage moves to the position where both ink cartridges can be set, but checking if the
cartridge is open or closed is not done.
If one of the ink cartridges has not been set, the carriage moves to the replacement
position of the ink cartridge that is not set due to one time prevention of the set ink
cartridge.
Operating PrinciplesOverview29
Stylus C40UX/C40SX/C20UX/C20SXRevision A
2.1.4 Paper Feeding Mechanism
The paper feeding mechanism consists of Paper feed motor (PF motor), PF roller,
Paper eject roller, Star wheel roller, and so on. The paper feeding mechanism feeds
paper loaded from ASF using the PF roller and Paper Eject Roller & Star wheel roller.
For this mechanism, the PF motor mentioned in the right Table 2-2 is used on this
product.
The drive of the PF motor is transfer to the PF roller and the Paper Eject Roller as
following Figure 2-8. Following shows you how to transfer the PF motor drive to the
PF roller and the Paper Eject Roller.
PF motor drive transmission path
PF Motor Pini on Gear (CW)
→
Spur Gear 60 (PF roller)(CCW)
→
Spur Gear 60 (PF roller)(CCW)
Table 2-2.
ItemDescription
Motor type4-Phase/ 48-Pole PM Stepping motor
Drive voltage+42 V +/ - 5% (DRV IC voltage)
Coil Resistance10 Ω +/ - 10% (per phase)
Inductance10.5 mH +/ - 20%(1kH 1Vrms)
Driving methodBi-Polar drive
Driver ICXC901503FNR2
Change Lever
PF Motor Specifications
Spur Gear 35.2
Combination
Gear 16, 32
PF roller
Spur Gear 10. 8
Spur Gear 18. 28
Spur Gear 25.6
Spur Gear 27. 2
Figure 2-8. Paper Feeding Mechanism
Paper loaded from ASF is advanced by the following roller.
Paper feed roller & Paper guide roller (assembled on the Top Frame)
eject roller & Star wheel roller (assembled on the Paper eject frame).
→ Paper
Operating PrinciplesOverview30
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