CL/RLxx Series USER MANUAL

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CL/RLxx Series USER MANUAL | Manualzz

THERMAL PRINTING SOLUTIONS

CL/RLxx Series

USER MANUAL

Reference 3108393 Issue Z

February 2005

AXIOHM

1, rue d'Arcueil, BP 820

92542 MONTROUGE CEDEX

FRANCE

Tel : (33) 1 58 07 17 17, Fax : (33) 1 58 07 17 18 www.axiohm.com

EVOLUTIONS

Date Issue Modifications

02/05 Z Creation (Evolution from 2326254 with New print heads 8 dots/mm)

CL/RLxx Series User Manual Page 2 /45 Reference: FDE 3108393 Issue Z

IMPORTANT

This manual contains the basic operations for running your printer.

Read it carefully before using your printer.

Pay special attention to the chapter “Recommendations”.

CL/RLxx Series User Manual Page 3 /45 Reference: FDE 3108393 Issue Z

CONTENTS

SUMMARY CHART OF THE PRINTER’S SPECIFICATIONS CL/RL BI................................................. 5

1 - GENERAL ....................................................................................................................................................... 7

2 - SPECIFICATIONS ......................................................................................................................................... 7

2.1 Mechanical specifications ........................................................................................................................... 7

2.1.1 Overall dimensions of the complete mechanism:................................................................................... 7

2.1.1.1 CLxx series ..................................................................................................................................... 7

2.1.1.2 RLxx series ..................................................................................................................................... 8

2.1.2 Chassis mounting ................................................................................................................................. 11

2.1.2.1 CLxx series ................................................................................................................................... 11

2.1.2.2 RLxx series ................................................................................................................................... 12

2.1.3 Opto-sensor position ............................................................................................................................ 12

2.2 Electrical Specifications............................................................................................................................ 13

2.2.1 Nominal Power supply......................................................................................................................... 13

2.2.2 Nominal Consumption ......................................................................................................................... 13

2.2.3 Stepping motor specifications .............................................................................................................. 14

2.2.3.1 Motor connection .......................................................................................................................... 14

2.2.3.2 Stepping motor electric control, diagram ...................................................................................... 15

2.3 Cutter D.C. motor (for RLxx printers) ................................................................................................... 15

2.3.1 Characteristics...................................................................................................................................... 16

2.3.2 Connection ........................................................................................................................................... 16

2.3.3 Driving cycle........................................................................................................................................ 16

2.4 Micro-switches specifications (when fitted) ............................................................................................ 17

2.4.1 Connection specifications .................................................................................................................... 17

2.5 Opto-sensor specifications (when fitted) ................................................................................................. 18

2.6 Print head specifications........................................................................................................................... 20

3 - OPERATION ................................................................................................................................................. 21

3.1 Paper feed .................................................................................................................................................. 21

3.1.1 Motor feed Timing Diagram ................................................................................................................ 21

3.1.2 Rear feed .............................................................................................................................................. 22

3.1.3 Front feed ............................................................................................................................................. 22

3.2 Printing ...................................................................................................................................................... 23

4 - RECOMMENDATIONS............................................................................................................................... 26

5 - SOLVING PROBLEMS................................................................................................................................ 28

6 - MAINTENANCE........................................................................................................................................... 29

APPENDIX 1....................................................................................................................................................... 30

APPENDIX 2....................................................................................................................................................... 31

APPENDIX 3....................................................................................................................................................... 33

APPENDIX 4....................................................................................................................................................... 34

APPENDIX 5....................................................................................................................................................... 35

APPENDIX 6....................................................................................................................................................... 36

APPENDIX 7....................................................................................................................................................... 37

APPENDIX 8....................................................................................................................................................... 39

APPENDIX 9....................................................................................................................................................... 43

APPENDIX 10..................................................................................................................................................... 45

CL/RLxx Series User Manual Page 4 /45 Reference: FDE 3108393 Issue Z

SUMMARY CHART OF THE PRINTER’S SPECIFICATIONS CL/RL BI

ITEM

Printing method

Number of resistor dots

Resolution

Printing width

Paper width

Head T° detection

Paper feed pitch

Paper empty detection

Operating voltage range

Vcc (logic)

Vch (dot)

Current Consumption:

Vch

Vcc

Stepping motor

* Not standard products.

CLBI*

RLBI*

VALUE

CLBG*

CLDG

CLBT*

CLDT

Static thermal dot line printing

50.7

192

3.8

384

8

48

384

8

48

+0

60

-0.1

By Thermistor

UNIT

-

-

Dots/mm mm mm

-

2 1 1 Motor

0.26 0.125 0.125 mm

Microswitch or

Opto-sensor

-

4.75-5.25

V DC

20-26

43

20-28

23

80

300

10-15

25

V DC mA per resistor dot "on"

µA per resistor dot "on" mA per activated phase

CL/RLxx Series User Manual Page 5 /45 Reference: FDE 3108393 Issue Z

ITEM

Storage range

Operating range

Relative humidity

Electrical lifetime* (

× 10 8

)

Mechanical (abrasion) lifetime*

Dimensions (with standard internal motor) :

Width

Depth

Height

CLBI

RLBI

CLBG

CLDG

VALUE

- 40 to + 70

- 10 to + 70

CLBT

CLDT max 90 no condensing

1 1 1

50

80

57

63

UNIT

°C

°C

% pulse

Km mm mm mm

Dimensions:

Width

Depth

Height

115

80

95 mm mm mm

Weight 720

Cutting angle (RL only) g

89

± 0.5° (relatively to paper side edge)

Cutter lifetime (RL only) 1 million cuts *

Recommended paper 2320061 ** Axiohm reference

* As per Axiohm test conditions (which are mainly 24V, 25°C, dot printing duty cycle = 30%)

** Or other types of paper approved by Axiohm

CL/RLxx Series User Manual Page 6 /45 Reference: FDE 3108393 Issue Z

1 - GENERAL

Unpacking

Each printer mechanism is packaged in an anti-static bag. Observe precautions while handling in electrostatic protected areas.

Overview

Based on static thermal printing technology, the CLxx and RLxx series are a complete family of easy to use and highly reliable devices, which have been designed to suit a wide range of applications.

2 - SPECIFICATIONS

2.1

The CLxx mechanism consists of:

- Stepping motor

- Drive gear

- Print head

- End of paper opto-sensor

The RLxx mechanism consists of:

- A rugged metal hinged chassis containing the printer CLxx (opening part) and the cutter (fixed part)

- Cutter with DC motor and mechanical switch for position detection

- Paper detection opto-sensor (optional)

- Cutter exit

2.1.1 Overall dimensions of the complete mechanism:

2.1.1.1 CLxx series

Width

80 mm

CL/RLxx Series User Manual

Height

63 mm

Depth

57 mm

Page 7 /45 Reference: FDE 3108393 Issue Z

2.1.1.2 RLxx series

Height: 95 mm

Depth:

Width: mm

115

Weight: mm

See the mechanical illustrations on the following pages:

Fig. 1 Width of printer (115 mm)

CL/RLxx Series User Manual Page 8 /45 Reference: FDE 3108393 Issue Z

Fig. 2 Height of printer (78 mm)

CL/RLxx Series User Manual

Fig.3 Depth of printer (91 / 95 mm)

Page 9 /45 Reference: FDE 3108393 Issue Z

Fig. 4 Size of printer when open (29,5 + 85 = 114,5 mm)

8mm maximum

5mm minimum to open

CL/RLxx Series User Manual

Fig. 5

Page 10 /45 Reference: FDE 3108393 Issue Z

2.1.2 Chassis mounting

Multiple chassis mounting points are provided on the chassis (peripheral holes)

2.1.2.1 CLxx series

2mm

3.5 mm

Top

12 mm

31.5 mm

4 mm

3 mm

80 mm

3.5 mm

Front

63 mm

24 mm

Paper

10.5 mm

15.5 mm

4 mm

23.8 mm

8.7 mm

55 mm

26.8 mm

20 mm

17.5 mm

17.5 mm

4 mm 3.5 mm

Back

Bottom

3.5 mm

CL/RLxx Series User Manual Page 11 /45 Reference: FDE 3108393 Issue Z

2.1.2.2 RLxx series

Use 6-32 (U.S.) screws or M4 (Europe) .

2.1.3 Opto-sensor position

The position of the end of the paper opto-sensor in relation to the paper allows top off form detection.

Printable side of paper

8

15 paper path direction

Printable side of paper

8

17

Printable side of paper

12

12

rear paper entry

bottom paper entry optional paper out sensor

CL/RLxx Series User Manual Page 12 /45 Reference: FDE 3108393 Issue Z

2.2 Electrical Specifications

2.2.1 Nominal Power supply

Printer xxBI - xxBG xxDG xxBT - xxDT

Units

Print head :

Logic (Vcc)

Dot line

5

24

5

12

Stepping Motor

24

*Note: The Vcc and the Vch grounds must be separated.

12

V DC

V DC

V DC

2.2.2 Nominal Consumption

The consumption depends on the speed: the greater the number of resistor dots "on" at the same time, the higher the speed will be for a given power-supply.

Units

Printer

Print head :

Heating current / dot (Vch) xxDG

23 xxDT

25 mA

43

Logic current/ dot (Vcc)

Stepping motor

(2 activated phases)

600 mA

Maximum instantaneous current per dot line (at nominal voltage (24V / 12V)

8.2 8.8 9.6 A

CL/RLxx Series User Manual Page 13 /45 Reference: FDE 3108393 Issue Z

2.2.3 Stepping motor specifications

(This motor is used for paper advance).

Coil resistance:

Number of phases:

Step angle:

Number of steps per revolution:

Paper feed for 1 printing line:

Recommended control current:

Maximum starting frequency:

11.5 + 0.8

2

7°30'

48

2 motor steps xx BI (=0.26mm)

1 motor step xxxG / xxxT (=0.13mm)

300 mA

500 steps/s.

2.2.3.1 Motor connection

1) CLxx series

Length of the leads: 200 mm Connector: Molex serial 6471- 4

MOLEX

200 mm

4 red white blue orange

1

2) RLxx series

PIN n°

1

2

3

4

Wire color orange blue white red

Motor

B3

B1

A3

A1

Motor connection

A1 A2 A3

B1 B2 B3

CL/RLxx Series User Manual

Connector: Molex serial 6471-4

Wire length

Page 14 /45 Reference: FDE 3108393 Issue Z

2.2.3.2 Stepping motor electric control, diagram

820 pF

1

16

56 kΩ

PBL

3717

Phase A

I0 A

I1 A

8

9

24 V +5V

1k

820pF

Rs

stepper

motor

820 pF

From µprocessor

16

1

56 kΩ

1k

PBL

3717

Phase B

I0 B

I1 B

8

9

820pF

Rs

Note 1: Rs: resistors of 0.8 ohm with I0A and I0B = 1 and I1A and I1B = 0

--->I = 0,3 A (the required control current)

Note 2: to obtain 0.8

Ω (which is not standard) it is possible to set 1Ω and 4.75Ω in parallel.

For a different stepping motor command, please contact us.

2.3 Cutter D.C. motor (for RLxx printers)

The cutter is mounted to the fixed part of the chassis and includes the parts below:

„

Ceramic blades

„

D.C. motor

„

Cutter drive train

„

Cam switch

CL/RLxx Series User Manual Page 15 /45 Reference: FDE 3108393 Issue Z

2.3.1 Characteristics

Nominal tension of usage

Maximum current

RLBI-RLDC-RLBG printer

24

150

RLBT-RLDT printer

12

300 unit

V mA

Fig. 18 Cutter

The distance dot line/cut line is 22

± 1mm, but the maximum recommended feed back after cut to avoid paper jam is 10 mm.

2.3.2 Connection

Length of the leads: 250mm +/- 15 mm

Connector: Molex serial 6471- 2

Negative on pin 1

Positive on pin 2

2.3.3 Driving cycle

At initial start-up the cam switch on the drive gears of the cutter should be closed, and the blades in the « open » position.

+V alim

Power on DC motor 0

-V alim

1

t2

Switch status 0

t1 : Delay between the beginning of motor rotation and switch state change.

t2 : Duration of rotation

t3 : 15 ms (braking time)

t

t1 t3

t

V alim 20 v / 10 v 24 v / 12 V 30 v / 14 v t1 t2

120 ms

420 ms

100 ms

350 ms

90 ms

290 ms

CL/RLxx Series User Manual Page 16 /45 Reference: FDE 3108393 Issue Z

2.4 Micro-switches specifications (when fitted)

Contact resistance

Maximum rating

: 30 m

: 2A at 6 V DC

2.4.1 Connection specifications

1) CLxx series and RLxx series end of paper micro-switch specifications.

Orange

1

2

3 black

Leads length: 200 mm

Connector: Molex serial 6471- 3

Black /Orange

Open

Closed

Black/Green

Open

Closed

2) RLxx series Cutter micro-switch specification.

Orange

Paper present

No paper

No paper

Paper present black

Leads length: 300 mm

Connector: Molex serial 6471- 3

Wires

Black /Orange

Black/Green

Contact status

Open

Closed

Open

Closed

Blade position

Open

Closed

Closed

Open

1: green orange

3:

1

2

3

CL/RLxx Series User Manual Page 17 /45 Reference: FDE 3108393 Issue Z

2.5 Opto-sensor specifications (when fitted)

1) CLxx series and RLxx series paper end detection opto-sensor.

Absolute Maximum ratings

LED

Continuous Forward Current

Pulsed Forward Current

tp < 10 µs voltage

Power

at 25 °C max

PHOTO-TRANSISTOR

Collector Emitter Voltage

Current

Dissipation

at 25°C max

V

CEO

SYMBOL RATING UNIT

IF 50 mA

I

Fsm

3 A

V

R 5 V

P 100 mW

30 V

I

C

50 mA

P

C

100 mW

Input / Output Conditions

LED

Forward Current

TRANSFER

Current

Position in relation to the paper

SYMBOL CONDITIONS TYP UNIT

VR

IR

IF = 50mA

VR = 5V

1.25

100

IC IF = 20 mA, VCE = 5 V 500

V

µA

µA

2) RLxx series paper detection opto-sensor (cutter exit sensor).

Ref: Honeywell HOA1404-002

Absolute Maximum ratings

LED

Continuous Forward Current

Reverse voltage

Max. Power Dissipation

at 25°C max

CL/RLxx Series User Manual

V

R

P

If

Page 18 /45

3

75

50 mA

V mW

Reference: FDE 3108393 Issue Z

PHOTO-TRANSISTOR

Collector Emitter Voltage

Collector Current

Collector Dissipation at 25°C max

Input / Output Conditions

V

CEO

IC

PC

30

30

75

V mA

Mw

LED

Forward voltage

Reverse current

TRANSFER CHARAC.

Photo-electric current

Connection

Wires length: 330 mm

Connector: Molex serial 6471- 3

VF

IR

IC

IF=20 mA

VR=3v

IF=30 mA,VCE=5V

1,6

10

800

V

µA

µA

1: green: collector

2: orange: anode

3: black: cathode-emitter

Vcc (5V) 5V pulse

CPU

PORT

R k

68

1

2 green orange

Opto-sensor

74HC04

3 black

GND

* R = 10 k

for output detection Opto-sensor, R = 4,7 for paper end detection Opto-sensor

CL/RLxx Series User Manual Page 19 /45 Reference: FDE 3108393 Issue Z

2.6 Print head specifications

UNITS

Driver chips

(64 bit CMos LSI)

Voltage operating range

(Stand by)

Mean dot resistance

20-26,4

(32)

560+ 10%

20-28

(32V)

1000+ 3%

10-15, 2

(16)

480+ 10%

V DC

Nominal dot supply voltage

LSI supply voltage

Nominal dot Energy *

Total cycle time conditions

Heating current per dot

24

1.2

(4.4ms/line)

24

5

0.34

(4ms/line)

12

0.42

(5ms/line)

V DC

V DC mJ

Maximum instantaneous current per dot line (at 8.2 8.8 9.6 A nominal voltage)

50 %

Maximum duty cycle

Optical density *

1.2 -

*

E = ( Vch 2/ R) x heating time

Duty cycle = Heating time / Total cycle time

All the dots can be heated at the same time, taking particular care of the print head temperature, which should not exceed 60 ° C (with medium sensitivity paper).

These parameters, especially the vch, are measured at the terminal of the print head connector.

CL/RLxx Series User Manual Page 20 /45 Reference: FDE 3108393 Issue Z

3 - OPERATION

Read the recommendations in chapter 4 carefully before using your printer.

To connect the printer, refer to the paragraph 2.2.3.1 (Motor connection) and to appendix 7 (charts and diagrams).

3.1 Paper feed

3.1.1 Motor feed Timing Diagram

RED BLUE

WHITE ORANGE

STEP 1

STEP 2 t1

STEP 3

STEP 4

Voltage on cable is negative where shown as “-“.

Voltage on cable is positive where shown as “+”.

Currents removed

current into winding A current into winding B t2

Motor Steps

Currents restored

Motor initialisation:

This operation is necessary to place the motor in a good position when it is powered. Both phases must be powered with the same current during t1=1 ms. It must be followed by 16 motor steps in order to compensate the backlash in the gears.

Printing mode

:

There are 4 different positions for the motor phases.

If P

1

= A; P

2

= B

The circulation is:

AB

⇒ AB ⇒ AB ⇒ AB ⇒ AB

The position of the phases must be memorised while the phase currents are switched to zero in order to restart the motor in good position.

IP = ± 300 mA t2 > 2 ms

When the printing speed requires a motor phase lower than 2 ms (1.67 for example), an acceleration curve of 2 to 1.67 must be used; this acceleration can be done over 16 steps.

CL/RLxx Series User Manual Reference: FDE 3108393 Issue Z Page 21 /45

Paper loading

:

When starting the paper advance for paper stock loading the energising time (t2) must be increased to

6ms with a current (IP) of +500mA.

3.1.2 Rear feed

Angle of paper exit

Paper introduction tolerance angle

45°

47.5 mm

30°

40°

35.5 mm

Distance from paper end sensor to resistor dot line (nominal)

With microswitch : 33 mm

With opto-sensor : 42 mm

3.1.3 Front feed

Angle of paper exit (Same as rear feed)

Paper introduction tolerance angle

45°

21.2 mm

60°

Distance from paper end sensor to resistor dot line (nominal)

With microswitch : 33 mm

With opto-sensor : 33 mm

CL/RLxx Series User Manual Page 22 /45 Reference: FDE 3108393 Issue Z

3.2 Printing

There are several ways of driving the printer. Here are three possible modes.

Mode 1

- The paper advance occurs during the heating cycle. (High speed can be achieved).

(In this mode, it is recommended to use historical control, see page 27)

Printing of n dot line

Transmission of data in series (Din) in step with CLK

Transfer to memory stage (STROBE)

Transmission of next series of data

Heating order through

OE 1,OE 2,...OEn simultaneously

Motor feed

1 to n

End of printing

Din

CLK

T

Strobe

OE 1

OEn

Motor Steps

N

CL/RLxx Series User Manual Page 23 /45 Reference: FDE 3108393 Issue Z

Mode 2

- The paper advance occurs after the heating cycle (high quality of printing).

Printing of n dot line

Transmission of data in series (Din) in step with CLK

Transfer to memory stage (STROBE)

Heating order through

OE 1,OE 2,...OEn

simultaneously

Transmission of next series of data

Motor feed

End of printing

1 to n

Din

CLK

T

Strobe

OE 1

OEn

Motor Steps

N

CL/RLxx Series User Manual Page 24 /45 Reference: FDE 3108393 Issue Z

Clock CLK

T

Din

(serial input)

Strobe

OE 1

OEn

Motor Steps

Mode 3

- The dot line is printed in stages, heating only a portion of the line at a time (consumption reduced).

Printing of n dot line

Transmission of data in series (Din) in step with CLK

Transfer to memory stage (STROBE)

Heating order through

OE 1,OE 2,...OEn

successively or in blocks

Transmission of next series of data

Motor feed

End of printing

1 to n

N N

CL/RLxx Series User Manual Page 25 /45 Reference: FDE 3108393 Issue Z

4 - RECOMMENDATIONS

1 -

Never apply mechanical stress to the printer because this could cause misalignment and degrade print quality.

The thermal print head must have 1 degree-of-freedom. Never prevent the print head from pivoting on its axis.

2 - IMPORTANT NOTE

: When energising the thermal print head (Vcc, 5 V) it is important to apply all the logic signals within 10 ms (particularly to de-energise all the OEs).

If the line of dots (Vch, 24 / 12 V) is supplied before the control logic, resistor dots may be destroyed.

Because the control logic has a random state, resistors might be heated for a longer period than the specified maximum, burning out the heated resistor.

To avoid this, we recommend applying the heating voltage (Vch, 24 / 12 V) after the logic supply voltage (Vcc, 5V).

The same precaution should be taken at shut down. The supply voltage Vch must be switched off before the logic supply voltage Vcc. Care should be taken to allow enough time for residual capacitive charge to dissipate.

3 -

Paper drive recommendations:

Use the roll of paper classified with an AXIOHM reference (or agreed by Axiohm).

Use a paper roll with maximum diameter of 230 mm

Leave the paper stock spool free to turn.

Do not run the printer without paper or this will damage the surface of the rubber roller.

Provide adequate air circulation to the print head support/heat sink. Poor ventilation can degrade the print quality.

To facilitate the insertion of the paper, fold the end to be inserted at an angle. The point of the angle must be opposite of the paper switch.

When using a big roll make sure that the paper between the printer roller and the paper stock spool is not tight, but forms a slight loop. Tight paper can make it difficult for the motor to start the paper feed and may lead to poor print quality on the first line (see drawing on next page).

4 - Motor drive recommendations

There is a resonance frequency to avoid, therefore the paper feed motor should not be driven between 125 to 185 step per second (motor phase between 5.5 to 8 ms).

CL/RLxx Series User Manual Page 26 /45 Reference: FDE 3108393 Issue Z

5 - General

Never open the mechanism while printing or cutter operating.

To avoid E.S.D. problems, it is very important to connect the metallic parts, (print head & cutter) to the frame by using the hole on the spring above the print head.

In order to prevent paper jam, it is recommended to advance the paper 1mm after the cut line when the printer is in stand-by mode.

CL/RLxx Series User Manual Page 27 /45 Reference: FDE 3108393 Issue Z

5 - SOLVING PROBLEMS

The CL/RLxx printer is a simple, generally trouble-free printer, easy to drive, but from time to time minor problems may occur.

The information below describes some problems that you may encounter: problems that you can easily fix, and others requiring to contact a service representative.

Problem What to do

Printing is light or spotty Ensure that you are using the correct paper with the right sensitivity.

Ensure that you are driving the print head with the correct energy.

Ensure that the spring on the print head is in the correct position.

The thermal print head may be dirty, clean it with cotton swabs and rubbing alcohol. AXIOHM provides such cleaning kits: ref. CK600001.

Caution: some types of paper can be very abrasive and damage the print head.

Use only the paper references agreed by AXIOHM

Note: The thermal print head does not normally require cleaning if the recommended paper grades are used.

Missing dots in ticket printing

Printing is not centered on the paper or the paper is folded on one side

Knife failure

Ensure that the print head connection is correct.

Contact a service representative.

Ensure that you are using a paper with the right dimensions and that the roll is in the correct position.

Check the knife. Remove all of the jammed paper.

To avoid ceramic blade damages, avoid using any metallic tools (like a screwdriver).

Check if the screw for pressure adjustment of the fixed blade on the rotating blade has not moved.

Paper jam Check if the complete cutter mechanism is in correct position with the printer (closed).

Ensure that the rotation of the blades is correct and that the blades are opened normally.

Ensure that the output opto-sensor is not dirty. Paper detection output sensor

CL/RLxx Series User Manual Page 28 /45 Reference: FDE 3108393 Issue Z

6 - MAINTENANCE

The CL/RLxx printers are high reliability units, which require very little maintenance but may benefit from cleaning as detailed below.

Depending on the environment in which the printer is used, the printer can accumulate dust. Therefore it is necessary to clean it periodically in order to maintain a good print quality. The cleaning period depends on the environment and the usage of the printer, but the print head should be cleaned at least once a year or up to one month in heavy duty applications. The print head should always be cleaned immediately if the print becomes visibly pale due to contamination of the print head.

Switch off the printer.

Never clean the head immediately after printing, the head may be hot.

Remove the spring and the print head from the mechanism.

Clean the heating dots of the head with a cotton stick containing a solvent alcohol (ethanol, methanol, or IPA), but do not touch the print head with your fingers!

Allow the solvent to dry.

Replace the print head and the spring.

CL/RLxx Series User Manual Page 29 /45 Reference: FDE 3108393 Issue Z

10.8 mm

APPENDIX 1

DIMENSIONS OF PRINTHEAD ASSEMBLY

3.5 mm 6.1 mm 3 mm

41 mm

60 mm

18.85

± 0.1mm

42.1 mm

30 mm

6.1 mm

16.1 mm

Max. 17.4 mm

7 mm

Note : The dimensions given in milimeters are exact, but the diagram may not be to scale

46 mm

26 mm

M 2.5 mm

CL/RLxx Series User Manual Page 30 /45 Reference: FDE 3108393 Issue Z

APPENDIX 2

64-BIT LSI DRIVERS CHART AND OPERATION

The LSI power and de-multiplexing circuit drivers located on the thermal print head provide power control from logic signals and the D.C. power supply voltage.

These circuits are supplied by 5 V ± 5% logic voltage.

Each circuit features 64 open collector transistors, a 64-bit shift register and a 64-bit memory register.

Each circuit controls 64 resistor dots on the print head.

CL/RLxx Series User Manual Page 31 /45 Reference: FDE 3108393 Issue Z

APPENDIX 2 (contd.)

ROUTING OF DATA TO THE RESISTOR DOTS

R1

Resistors

R64 R 1

Resistors

R 64

CHIP

1

CHIP

N

SI SO

SI

SO

IN

OUT

OE 1 OE N

CLK

STROBE

- Data to be printed is clocked into a shift register formed by cascading "n" chips.

- E.g. 384 dots head uses 6 chips with the SO output of chip 1 used as the SI input for chip 2 etc. Respectively, the SO output of chip 2 is used as the SI input for chip 3 etc.

After 384 clocks, the initial piece of data entered corresponds to the last (384 th

) dot of the line (the

R64 output of the 6 the first chip). th

chip). The last bit of data entered will correspond to the first dot of the line (R1 of

The first dot of the line is the dot at the far left when looking at the head itself, or at the far right dot when looking at the printed paper.

Line of dots

R1 of chip 1

R1 of chip 1

Print head substrate

chip

1 chip

n

Print head bottomview paper side

CL/RLxx Series User Manual

Sensitive side

paper feed

direction

Thermal paper

Page 32 /45 Reference: FDE 3108393 Issue Z

APPENDIX 3

ELECTRICAL SPECIFICATIONS OF 64-BIT LSI DRIVER FOR xxBI PRINTERS

The specifications given below are for the following conditions:

Logic voltage on chip : 4.75V < Vdd < 5.25V

Clock frequency : 8 Mhz (Max)

(Unless otherwise specified: V

DD

=5.0 V=

±5%, Ta=25°C)

Parameter Sybl Conditions

Supply voltage

High level input voltage

Low level input voltage

V

DD

V

IH

V

IL

4.75 5.0 5.25 V

0.7x

V

DD

__

V

SS

__

V

DD

V

0.3x

V

DD

V

High level input current

Low level input current

High level output voltage

V

I

I

IH

IL

OH

V

DD

=5.0 V

V

IH

=5.0 V

Ta=25°C

V

DD

=5.0 V

V

IL

=0 V

Ta=25°C

SO terminal, no load

__ __ __ µA

__ __ 0.5 µA

__ __ __ µA

-0.5 __ __ µA

4.45 __ __ V

Low level output voltage

V

OL

SO terminal, no load __ __ 0.05 V

High level output current

Low level output current

High level driver output voltage

I

I

OH

OL

SO terminal, V

OH

= V

DD

=0.4 V

SO terminal, no load

__ __ -0.5 µA

0.5 __ __ µA

Driver leakage current

V

DOH

I

LEAK

V

DOH

=26 V

All low

I

DD

Ta=25°C All

__ __ 30.0 µA

__ __ 15 mA

Current consumption

CL/RLxx Series User Manual Page 33 /45 Reference: FDE 3108393 Issue Z

APPENDIX 4

64 BIT LSI DRIVER TIMING CHART

TYPICAL LOADING SEQUENCE FOR xxBI PRINTERS

1/f

CLK

CLK

t

WCLK

SI

t

SUD t

HD t

SULA t

WLA

STROBE

OE

DO n

t dDO t fDO t rDO

90%

10% t dDO

(Unless otherwise specified: V

DD

=5.0 V=5%, Ta=-10°C to 80°C)

Parameter Sybl Conditions Min.

CLK pulse width t

WCLK

50

Data set up time t

SUD

V

IH

= V

DD

, V

IL

= V

SS0

20

Data hold time

Stroke pulse width

Clock-stroke set up time t

HD

V

IH

= V

DD

, V

IL

= V

SS0

10 t

WLA

100 __ __ ns t

SULA

100 __ __ ns

OE-DOn propagation delay time

Don rise time

Don fall time t t dDO

R

L

= 1 k

Ω, V

DOH

=24 V rDO

R

L

= 1 k

Ω, V

DOH

=24 V t fDO

R

L

= 1 k

Ω, V

DOH

=24 V

__ __ 10.5 µs

__ 2.0 6.0 µs

__ 3.5 10.0 µs

Clock frequency

SI

CLK

:

:

STROBE : f

CLK

Chip __

Serial input

Serial/parallel shift register clock, activated on

leading edge of pulse (rest level = logic 0)

Maximum clock frequency: 8 MHz.

Signal for putting data into memory, active on logic level 1 (rest level = logic 0)

OE : Output Enable (OE1 to OE5): power activation signals active at logic level

SO : Serial

TIMING RESTRICTIONS

- No clock transitions may take place during Tscl, tst, Tdoes, Tdoec,and Tdcoe,

- Data input must change on the falling edge of the clk-input,

Data must be stable during Tsdc, Tr and Thdc.

- The Strobe signal must not occur until 10,5µs after the drop in the OE signal.

Note: All of these inputs are CMOS compatible.

CL/RLxx Series User Manual Page 34 /45 Reference: FDE 3108393 Issue Z

APPENDIX 5

ELECTRICAL SPECIFICATIONS OF 64-BIT LSI DRIVER FOR xxxG OR xxxT PRINTER

The specifications given below are for the following conditions:

Logic voltage on chip : 4.75V < Vdd < 5.25V

Clock frequency : 4 Mhz (Max)

(Unless otherwise specified: V

DD

=5.0 V=

±5%, Ta=25°C)

Parameter Sybl Conditions

Supply voltage

High level input voltage

V

DD

V

IH

4.75 5.0 5.25 V

0.7x

V

DD

__

V

DD

V

Low level input voltage V

IL

V

SS

__

0.3x

V

DD

V

High level input current

Low level input current

I

I

IH

IL

V

DD

=5.0 V

V

IH

=5.0 V

Ta=25°C

V

DD

=5.0 V

V

IL

=0 V

Ta=25°C

__ __ __ µA

__ __ 0.5 µA

__ __ __ µA

-0.5 __ __ µA

High level output voltage

V

OH

SO terminal, no load

4.45 __ __ V

Low level output voltage __ __ 0.05 V

High level output current

High level driver output voltage

Driver leakage current

Current consumption

I

V

V

OL

SO terminal, no load

I

OH

SO terminal, V

OH

= V

DD

=0.4 V

DOH

LEAK

(xxxG)

(xxxT)

V

DOH

=26 V

All low

I

DD

Ta=25°C

All high

__ __ -0.5 µA

__

24

12

26.4

15.2

V

__ __ 4.0 mA

__ __ 42 mA

CL/RLxx Series User Manual Page 35 /45 Reference: FDE 3108393 Issue Z

APPENDIX 6

64 BIT LSI DRIVER TIMING CHART

TYPICAL LOADING SEQUENCE FOR xxxG OR xxxT PRINTER

1/f

CLK

CLK

t

WCLK

SI

t

SUD t

HD t

SULA t

WLA

STROBE

OE

DO n

t dDO t fDO t rDO

90%

10% t dDO

(Unless otherwise specified: V

DD

=5.0 V, Ta=-10°C to 70°C)

Parameter Sybl Conditions Min.

CLK pulse width t

WCLK

70

Data set up time t

SUD

V

IH

= V

DD

, V

IL

= V

SS0

50 ns

Data hold time

Stroke pulse width

Clock-stroke set up time

OE-DOn propagation delay time

Don rise time

Don fall time

Clock frequency t t

HD

V

IH

= V

DD

, V

IL

= V

SS0

10

WLA

100

__ __ ns t

SULA

100 __ __ ns t t f t dDO rDO fDO

CLK

R

R

R

L

L

L

= 1 k

= 1 k

= 1 k

Chip

Ω, V

Ω, V

Ω, V

DOH

DOH

DOH

=24 V

=24 V

=24 V

__ __

2 µs

__ __ 2

__ __ 0.5

µs

µs

__ __ 4 MHz

CL/RLxx Series User Manual Page 36 /45 Reference: FDE 3108393 Issue Z

APPENDIX 7

THERMISTOR SPECIFICATIONS

This thermistor has a rated value of 100 k

Ω ± 5% at 25°C

Its resistance variation can be expressed as follows:

R = Rn exp B

(

1 - 1

) where T is in kelvin degrees (k)

T Tn

B = 4066 K

± 3%

Rn: reference value at temperature Tn (298°K)

T (°K) = 277,15

Tn (°K) = 273.15 + each temperature (°C)

The main specifications of the thermistance are listed in the following pages.

GENERAL CHARACTERISTICS

* Climatic category (IEC) 40/85/56

* Maximum operating temperatures: -55°C to +150°C

* Tolerance for Rn : 5%

* Maximum dissipation at 25° C : Pmax = 0.24mW

* Thermal dissipation factor : ∂ = 4 mW/°C

* Thermistor time constant / dot line: t = 7 sec

* Resistance value as a function of temperature (see curves)

CL/RLxx Series User Manual Page 37 /45 Reference: FDE 3108393 Issue Z

APPENDIX 7 (contd.)

RESISTANCE/TEMPERATURE VARIATIONS

10000

1000

R (kOhms) 100

10

1

-40° -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130

T (°C)

CL/RLxx Series User Manual Page 38 /45 Reference: FDE 3108393 Issue Z

APPENDIX 8

HEATING TIME AND HISTORICAL CONTROL

See the Heating timetables given on the next 4 pages.

The motor cycle time for one dot line is given in the (b) line of the tables; this is the time for one (or two) motor step(s).

Column 3 (indicated with: speed <xxx mm/s and motor cycle time > xxx ms) gives the required heating time, giving the necessary energy to obtain an optical density of 1.2.

Two areas are then defined in tables.

Area 1: "white"

The motor cycle time for one dot line is greater than the heating time indicated in column 3.

Area 2: highlighted

The heating time in column 3 is greater than the motor cycle time.

In areas 1 and 2, heating time can be controlled either with or without historical control.

How to use the tables?

- Without historical control: apply the indicated heating time given as a function of speed, voltage and temperature. At high speed, printing quality for isolated dots might be affected with this method.

Example: in xxBI table at 50 mm/s, 30°C and 24 volts, heating time = 1.85 ms

- With historical control in area 1: apply the indicated heating time (function of speed, voltage and temperature) when the dot has been heated on the previous dot line, and the time from column 3 when it has not.

This method gives the best printing quality.

Example: in xxBI table at 55 mm/s, 25°C and 24 volts: dot ON previous dot dot to heat Heating time to apply

1.88 ms dot OFF

3.78 ms

- With historical control in area 2: apply the indicated heating time (function of speed, voltage and temperature) when the dot has been heated on the previous dot line, and the motor cycle time when it has not.

At high speed, printing quality for isolated dots might be slightly affected with this method.

Example: in xxBI table at 70 mm/s, 20 °C and 22 volts: dot ON previous dot dot to heat

Heating time to apply

2.14 ms dot OFF

3.78 ms

CL/RLxx Series User Manual Page 39 /45 Reference: FDE 3108393 Issue Z

APPENDIX 8 (contd.)

HEATING TIME FOR CLBI AND RLBI PRINTER xxBI: Tch = f(V,T,v) for: R565

, paper used KP 440 (2320061), density = 1,2

Voltage

Temp °C

Time for one motor step

Motor cycle time for one dot line

20 Volts

20 Volts

20 Volts

20 Volts

20 Volts

20 Volts

22 Volts

22 Volts

22 Volts

22 Volts

22 Volts

22 Volts

24 Volts

24 Volts

24 Volts

24 Volts

24 Volts

24 Volts

24 Volts

26 Volts

26 Volts

26 Volts

26 Volts

26 Volts

26 Volts

Speed (mm/s)

R=565 Ohm

< 4,9 mm/s

20 mm/s 30 mm/s 40 mm/s 50 mm/s 55 mm/s 60 mm/s 70 mm/s 80 mm/s

> 27 ms 6,61 ms

4,41 ms 3,31 ms

13,2 ms 8,82 ms 6,62 ms

2,65 ms

5,3 ms

2,41 ms

4,82 ms

2,2 ms

4,4 ms

1,89 ms

3,78 ms

1,65 ms

3,3 ms

4,01

3,66

3,31

2,96

2,62

3,55

3,26

2,98

2,7

2,41

2,13

2,94

2,71

2,47

2,35

2,24

2

1,76

2,48

2,28

2,08

1,88

1,69

1,49

3,94

3,63

3,31

3

2,68

2,36

3,21

2,95

2,69

2,44

2,18

1,92

2,66

2,45

2,23

2,13

2,02

1,81

1,6

2,24

2,06

1,88

1,7

1,52

1,34

3,62

3,33

3,04

2,75

2,46

2,17

2,94

2,71

2,47

2,24

2

1,77

2,44

2,25

2,05

1,95

1,85

1,66

1,46

2,06

1,89

1,73

1,56

1,4

1,23

3,48 3,35

2,38

2,35

3,13

3,2 3,08 2,88

2,92 2,81 2,63

2,64 2,54 2,38

2,37 2,28 2,13

2,09 2,01 1,88

2,83 2,72 2,54

2,6 2,5 2,34

2,14

2,11

1,66 1,6 1,49

1,35 1,29 1,21

1,76

2,38

2,19

2

1,81

1,62

1,43

2,93

2,69

2,46

2,22

1,99

1,98

1,82

1,66

1,58

1,5

1,34

1,19

1,66

1,53

1,4

1,26

1,13

1

CL/RLxx Series User Manual Page 40 /45 Reference: FDE 3108393 Issue Z

APPENDIX 8 (Contd.)

HEATING TIME FOR xxBG xxDG PRINTER xxBG/xxDG: Tch = f(V,T,v) for: R 700

, paper used KP440 (2320061), density = 1,2

0

10

20

30

40

50

0

10

20

25

30

40

50

0

10

20

30

40

50

0

10

20

30

40

50

°C

0

10

20

30

40

50

26

26

26

26

26

26

24

24

24

24

24

24

24

Volts

20

20

20

20

20

20

22

22

22

22

22

22

28

28

28

28

28

28

> 27 ms 6,58 ms 4,39 ms 3,29 ms 2,63 ms 2,39 ms 2,19 ms 1,88 ms 1,64 ms

2,37 1,57 1,35

2,18 1,45 1,24

1,99 1,32 1,13

1,8 1,2 1,02

1,61 1,07 0,91

1,42 0,94 0,81

1,18

1,09

0,99

0,9

0,8

0,71

1,06

0,97

0,89

0,8

0,72

0,63

1

0,92

0,84

0,76

0,68

0,6

0,95

0,88

0,8

0,87

0,8

0,73

0,72 0,66

0,65 0,59

0,57 0,52

1,96 1,3 1,11

1,8 1,2 1,02

1,65 1,09 0,93

1,49 0,99 0,85

1,33 0,88 0,76

1,18 0,78 0,67

1,65 1,09 0,93

1,52 1,01 0,86

1,38 0,92 0,78

1,32 0,87 0,75

1,25 0,83 0,71

1,12 0,74 0,64

0,99 0,66 0,56

1,4 0,93 0,8

1,29 0,86 0,73

1,18 0,78 0,67

1,07 0,71 0,61

0,96 0,63 0,54

0,84 0,56 0,48

1,21 0,8 0,69

1,11 0,74 0,63

1,02 0,67 0,58

0,92 0,61 0,52

0,82 0,55 0,47

0,73 0,48 0,41

0,98

0,9

0,82

0,74

0,66

0,59

0,82

0,76

0,69

0,66

0,62

0,56

0,49

0,7

0,64

0,59

0,53

0,48

0,42

0,6

0,55

0,51

0,46

0,41

0,36

0,87

0,8

0,73

0,66

0,59

0,52

0,73

0,67

0,62

0,59

0,56

0,5

0,44

0,62

0,57

0,52

0,47

0,42

0,37

0,54

0,5

0,45

0,41

0,37

0,32

0,83

0,76

0,7

0,63

0,56

0,5

0,7

0,64

0,58

0,56

0,53

0,47

0,42

0,59

0,55

0,5

0,45

0,4

0,36

0,51

0,47

0,43

0,39

0,35

0,31

0,79

0,53

0,72

0,72 0,66

0,66 0,6

0,6 0,54

0,53 0,49

0,47 0,43

0,66 0,6

0,61 0,55

0,56 0,5

0,48

0,5 0,46

0,45 0,41

0,4 0,36

0,56 0,51

0,52 0,47

0,47 0,43

0,43 0,39

0,38 0,35

0,34 0,31

0,49 0,44

0,45 0,41

0,41 0,37

0,37 0,34

0,33 0,3

0,29 0,26

0,4

0,37

0,34

0,31

0,27

0,24

0,47

0,43

0,39

0,35

0,32

0,28

0,55

0,5

0,46

0,44

0,42

0,37

0,33

0,65

0,6

0,55

0,5

0,44

0,39

0,79

0,73

0,66

0,6

0,54

0,47

CL/RLxx Series User Manual Page 41 /45 Reference: FDE 3108393 Issue Z

APPENDIX 8 (Contd.)

HEATING TIME FOR xxBT xxDT PRINTER

Voltage (V)

Real

CALCULATED VALUES FOR CE365 WITH PAPER KP440

Temperature

(°C)

< 20 mm/s

Speed (mm/s)

35 mm/s 40 mm/s 50 mm/s

R = 437 Ohms

60 mm/s 70 mm/s

13,00 Volts

13,00 Volts

13,20 Volts

13,00 Volts

13,00 Volts

13,00 Volts

13,00 Volts

14,00 Volts

14,00 Volts

14,00 Volts

14,00 Volts

14,00 Volts

14,00 Volts

14,00 Volts

Motor cycle time for one dot line

10,00 Volts 0 °C

10,00 Volts

10,00 Volts

10,00 Volts

10,00 Volts

10,00 Volts

10 °C

20 °C

25 °C

30 °C

40 °C

10,00 Volts

11,00 Volts

11,00 Volts

11,00 Volts

11,00 Volts

11,00 Volts

11,00 Volts

11,00 Volts

50 °C

0 °C

10 °C

20 °C

25 °C

30 °C

40 °C

50 °C

12,00 Volts

12,00 Volts

12,00 Volts

12,00 Volts

12,00 Volts

12,00 Volts

12,00 Volts

0 °C

5 °C

21 °C

25 °C

30 °C

40 °C

49,4 °C

0 °C

10 °C

21,7 °C

25 °C

30 °C

40 °C

50 °C

0 °C

10 °C

20 °C

25 °C

30 °C

40 °C

50 °C

6,250 ms 3,570 ms 3,130 ms 2,500 ms 2,080 ms 1,790 ms

80 mm/s

1,560 ms

2,787 ms 2,204 ms 2,068 ms 1,834 ms 1,643 ms 1,487 ms 1,344 ms

2,466 ms 1,951 ms 1,830 ms 1,623 ms 1,454 ms 1,315 ms 1,189 ms

2,275 ms 1,800 ms 1,688 ms 1,497 ms 1,341 ms 1,214 ms 1,097 ms

2,211 ms 1,749 ms 1,641 ms 1,455 ms 1,303 ms 1,179 ms 1,066 ms

2,159 ms 1,708 ms 1,602 ms 1,421 ms 1,273 ms 1,152 ms 1,041 ms

2,064 ms 1,633 ms 1,531 ms 1,358 ms 1,217 ms 1,101 ms 0,995 ms

1,935 ms 1,531 ms 1,436 ms 1,274 ms 1,141 ms 1,032 ms 0,933 ms

2,456 ms 1,943 ms 1,823 ms 1,617 ms 1,448 ms 1,310 ms 1,184 ms

2,174 ms 1,720 ms 1,613 ms 1,431 ms 1,281 ms 1,160 ms 1,048 ms

2,005 ms 1,586 ms 1,488 ms 1,320 ms 1,182 ms 1,070 ms 0,967 ms

1,949 ms 1,542 ms 1,446 ms 1,283 ms 1,149 ms 1,040 ms 0,940 ms

1,903 ms 1,506 ms 1,412 ms 1,252 ms 1,122 ms 1,015 ms 0,918 ms

1,819 ms 1,439 ms 1,350 ms 1,197 ms 1,072 ms 0,971 ms 0,877 ms

1,706 ms 1,349 ms 1,266 ms 1,123 ms 1,006 ms 0,910 ms 0,822 ms

2,182 ms 1,726 ms 1,619 ms 1,436 ms 1,286 ms 1,164 ms 1,052 ms

2,041 ms 1,614 ms 1,514 ms 1,343 ms 1,203 ms 1,089 ms 0,984 ms

1,770 ms 1,400 ms 1,313 ms 1,165 ms 1,043 ms 0,944 ms 0,853 ms

1,731 ms 1,369 ms 1,284 ms 1,139 ms 1,020 ms 0,923 ms 0,834 ms

1,690 ms 1,337 ms 1,254 ms 1,112 ms 0,996 ms 0,902 ms 0,815 ms

1,616 ms 1,278 ms 1,199 ms 1,063 ms 0,952 ms 0,862 ms 0,779 ms

1,523 ms 1,204 ms 1,130 ms 1,002 ms 0,897 ms 0,812 ms 0,734 ms

1,950 ms 1,543 ms 1,447 ms 1,283 ms 1,150 ms 1,040 ms 0,940 ms

1,726 ms 1,365 ms 1,280 ms 1,136 ms 1,017 ms 0,921 ms 0,832 ms

1,542 ms 1,220 ms 1,144 ms 1,015 ms 0,909 ms 0,822 ms 0,743 ms

1,547 ms 1,224 ms 1,148 ms 1,018 ms 0,912 ms 0,825 ms 0,746 ms

1,511 ms 1,195 ms 1,121 ms 0,994 ms 0,891 ms 0,806 ms 0,728 ms

1,445 ms 1,143 ms 1,072 ms 0,951 ms 0,851 ms 0,771 ms 0,696 ms

1,354 ms 1,071 ms 1,005 ms 0,891 ms 0,798 ms 0,722 ms 0,653 ms

1,754 ms 1,387 ms 1,301 ms 1,154 ms 1,034 ms 0,936 ms 0,846 ms

1,552 ms 1,228 ms 1,152 ms 1,021 ms 0,915 ms 0,828 ms 0,748 ms

1,432 ms 1,133 ms 1,062 ms 0,942 ms 0,844 ms 0,764 ms 0,690 ms

1,392 ms 1,101 ms 1,033 ms 0,916 ms 0,820 ms 0,742 ms 0,671 ms

1,359 ms 1,075 ms 1,008 ms 0,894 ms 0,801 ms 0,725 ms 0,655 ms

1,299 ms 1,028 ms 0,964 ms 0,855 ms 0,766 ms 0,693 ms 0,626 ms

1,218 ms 0,964 ms 0,904 ms 0,802 ms 0,718 ms 0,650 ms 0,587 ms

CL/RLxx Series User Manual Page 42 /45 Reference: FDE 3108393 Issue Z

PIN N°

1

3

5

7

9

11

13

15

17

19

21

23

25

Thermistor

Clock

GND (for Vcc) th 1* th 2*

NC

GND

GND

SI

APPENDIX 9

PINOUT OF HE10 CONNECTOR xxBI-xxBG-xxBT PRINTER

SIGNAL PIN N°

OE1 2

GND

GND

4

6

OE2

Strobe

8

10

26

20

22

24

12

14

16

18 pin 1

SIGNAL

Vch

Vch

GND

Vcc

SO

OE3

GND (for Vcc)

Vch

NC

Vcc

GND

Vch

Vch

For xxBI

Chip 1 pin 26

Chip 2 pin 2

Chip 3

For xxBG & xxBT

OE 1

C h i p 1 C h i p 2 Chip 3

OE 2

Chip 4

OE 3

Chip 5 C h i p 6

OE 1

CL/RLxx Series User Manual

OE 2

Page 43 /45

OE 3

Reference: FDE 3108393 Issue Z

PIN N°

1

3

5

7

9

11

13

15

17

19

21

23

25

C h i p 1 C h i p 2

APPENDIX 9 (contd.)

PINOUT OF HE10 CONNECTOR xxDG-xxDT PRINTER

SIGNAL

Vch

PIN N°

2

Vch

Vch

4

6

Strobe

OE1

OE3

OE5

8

10

12

14 th 1*

NC

Clock

Vch

Vch

Vch

16

18

20

22

24

26

SIGNAL

GND

GND

GND

SI

OE2

OE4

OE6

th 2 *

Vcc (+ 5 V)

SO

GND

GND

GND pin 1 pin 26 pin 2

C h i p 3 C h i p 4 C h i p 5 C h i p 6

OE 1

OE 2

OE 3 OE 4

OE 5 OE 6

CL/RLxx Series User Manual Page 44 /45 Reference: FDE 3108393 Issue Z

Basic weight

Caliper (thickness)

Brightness

Smoothness

Tensile strength MD/CD

Tearing strength MD/CD

Moisture Content

Image Color

Initial Temperature (D= 0,2)

Effective Temperature (D= 0,8)

Saturated Density

APPENDIX 10

PAPER SPECIFICATIONS

(KANZAN KP440)

ISO 536

ISO 534

ISO 2470

ISO 5627

ISO 1924/1

ISO 1974

ISO 287

°C

°C

O.D. g/m2

µ

%

Sec. kN/m mN

%

Black

75

± 5

85

± 5

Min. 1,0

58

± 5

60

± 5 min. 75 min. 250

>3,3/>2,0

>250/>250

6,5

± 1,0

AXIOHM ref. 2320061:

- Paper Kanzan KP440

- Length: 30m

- Width: 60 (+0 / -1) mm

- External roll diameter 50 (+0 / -2) mm

- Internal core diameter 11 (+0,2 / -0) mm

CL/RLxx Series User Manual Page 45 /45 Reference: FDE 3108393 Issue Z

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