SMP640UKC_技术文档

Revised at December 3, 2008

SPECIFICATIONS FOR APPROVAL

CUSTOMER

NOMENCLATURE

MODEL

:

: 2 inch Thermal Printer

: SMP640UKC

SIGNATURE OF APPROVAL

The Designs or Specifications are subject to change without notice.

TEL:+86-21-58998693-11

FAX:+86-21-58994470-18

Support Email: Tech@fosvos.com

REVISION SHEET

The table below indicates which pages in this specification have been revised.

Before reading this specification, be sure you have the correct version of each page.

Revisions

Design section

Sheet revision NO.

REV. Document Date WRT CHK APL Sheet REV. Sheet REV Sheet REV

A

I

A

16

A

II

17

18

19

20

21

22

23

24

A

1

A

2

3

4

5

6

7

8

9

10

11

12

13

14

15

Number of sheet

Front Part

Approval Specification Revision

contents

Memo Total

Table of

contents

Cover

sheet

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

I

REVISION SHEET

REV.

A

Sheet

Changed contents

Title

SMP640UKC

Specification

(Standard)

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

II

TABLE OF CONTENTS

1. DESIGN PRECAUTIONS...................................................................................................................................2

2. GENERAL SPECIFICATIONS ...........................................................................................................................3

2-1. General Specifications ..............................................................................................................................3

2-2.Heat Element Dimensions..........................................................................................................................4

3. THERMAL HEAD...............................................................................................................................................5

3-1. General Specifications ..............................................................................................................................5

3-2. Thermal head Block Diagram ...................................................................................................................5

3-3. Block and Activated Heat Elements..........................................................................................................6

3-4. Printed Position of the data .......................................................................................................................6

3-5. Electrical Characteristics...........................................................................................................................7

3-6. Timing Chart .............................................................................................................................................8

3-7. Maximum Conditions at 25℃...................................................................................................................9

3-8. Head supply Voltage..................................................................................................................................9

3-9. Peak Current..............................................................................................................................................9

3-10. Control of a Pulse width of Head ............................................................................................................9

3-10-1. Pulse width on Voltage.................................................................................................................9

3-10-2. Pulse width calibration on temperature change..........................................................................10

3-11. Thermistor Specifications......................................................................................................................11

3-12. Detecting Abnormal Temperatures of the Thermal Head......................................................................12

4. PAPER FEED MOTOR......................................................................................................................................13

4-1. Basic Specifications ................................................................................................................................13

4-2. Example of Driving Circuit.....................................................................................................................13

4-3. Excitation Sequence................................................................................................................................14

4-4. Sample For Drive Frequency ..................................................................................................................15

5. PAPER DETECTOR ..........................................................................................................................................16

5-1. Absolute Maximum Ratings (T_A= 25℃)................................................................................................16

5-2. Photo electrical Characteristics (Ta = 25℃) ...........................................................................................17

5-3. Sample External Circuit ..........................................................................................................................17

6. PIN LAYOUT FOR CONNECTOR...................................................................................................................18

7. OPERATION SEQUENCE................................................................................................................................19

8. LAYOUT OF PRINTER AND PAPER..............................................................................................................20

8-1. SMP640UKC Printer Mechanism...........................................................................................................20

9. MECHANICAL DIMENSIONS (ASSEMBLY VIEW) ....................................................................................21

9-1 MECANICAL DIMENSIONS.................................................................................................................21

9-2. SUGGEST FIXTURE & SET PROFILE................................................................................................22

10. EXPLODED VIEW..........................................................................................................................................23

11. PART LISTS.....................................................................................................................................................24

SMP640UKC

SPECIFICATION

1

SHEET REVISION

A

SHEET NO

1. DESIGN PRECAUTIONS

To maintain the initial level of performance of the printer and to prevent future problems

from occurring, observe the following precautions.

◆ If too much energy is applied to the thermal head, it may overheat and become

damaged. Always use the printer with the specified amount of energy.

◆ When turning the power on or off, always DISABLE (put in “Low” state) the

DST terminals.

◆ To prevent the thermal head from being damaged by static electricity:

◆ Keep the Vp power off when not printing to prevent the thermal head from becoming

electrically corroded.

◆ When turning the power on or off, perform the Vp and Vcc simultaneously or in the

order of 1) and 2) as follows:

At power ON: 1) Vcc (5 V) On → 2) Vp On

At power OFF: 1) Vp Off

→ 2) Vcc (5 V) Off

◆ Always monitor the output of the platen position sensor and paper detector.

Incorrect activation of the thermal head may damage and reduce the longevity of

the thermal head and the platen.

Design the outer case so that the paper detector is not affected by light from

outside. Since a reflection type photo interrupter is used in the paper detector,

the detector may be affected by light from outside.

◆ Allow for movement of the FPC when designing the outer case because the FPC will

shift 2 to 4 mm from the thermal head moving. Also, design the outer case so that it

prevents the paper feed out from being caught in the platen.

SMP640UKC

SPECIFICATION

2

SHEET REVISION

A

SHEET NO

2. GENERAL SPECIFICATIONS

2-1. General Specifications

Item

Specifications

Thermal Dot Line Printing

Printing method

Resolution

8dots/mm

384dots

48mm

Dots per line

Printing width

Maximum

Printing Speed

70mm/s at 8.5V

Paper feed pitch

0.0625mm

Head temperature detection

Out of paper detection

Via thermistor

Via photo interrupter

4.0~8.5 DCV (for head and motor drive)

3.0 ~ 5.5DCV (for logic)

Operation voltage

Current consumption

(at 7.2V, 64dots on)

For driving the Head : 2.8A max

For driving the motor : 0.5A

Paper width

57.5 ± 0.5 mm

Paper feeding force

Paper holder force

50gf or more

80gf or more

Printer Life

(at 25° and rated energy)

Activation pulse resistance : 100million

Abrasion resistance

: 50Km

Operating : 0°C to 50°C

Storage : -40°C to 80°C

(no condensation)

Temperature range

Humidity range

Impact resistance

Operating : 10 to 90% RH

Storage :10 to 90% RH

(no condensation)

Package BIXOLON standard package

Height : 75cm

Directions - 1 corner, 3edges and 6 surfaces

Recommended paper

HANSOL PAPER 65GSM

Dimension ( W×D×H )

66.7mm×30.3mm×30.6mm

Weight

38g

SMP640UKC

SPECIFICATION

3

SHEET REVISION

A

SHEET NO

2-2.Heat Element Dimensions

The printer contains a thermal head with 384 heat elements

Paper Roll Printable Area

SMP640UKC

SPECIFICATION

4

SHEET REVISION

A

SHEET NO

3. THERMAL HEAD

3-1. General Specifications

Item

Printing Width

Total Number of Dots

Dot Density

Specifications

48mm± 0.2 mm

384Dots / Line

8 Dots/mm (Dot Size 0.125 X 0.125)

0.125mm

Dot Pitch

Average Resistance

R_ave= 176 ꢀ ± 7ꢀ

3-2. Thermal head Block Diagram

SMP640UKC

SPECIFICATION

5

SHEET REVISION

A

SHEET NO

3-3. Block and Activated Heat Elements

STB No.

DOT No.

DOTS/STB

1

2

3

4

5

6

1 ~ 64

64

65 ~ 128

129 ~ 192

193 ~ 256

257 ~ 320

321 ~ 384

3-4. Printed Position of the data

PAPER FEED DIRECTION

PAPER

PRINT SURFACE

DATA IN

DATA

1 2 3 4

382 383 384

PRINTER MECHANISM

DATA INPUT SEQUENCE 1 2 3 4

382 383 384

SMP640UKC

SPECIFICATION

6

SHEET REVISION

A

SHEET NO

3-5. Electrical Characteristics

T = 25℃

Item

Symbol

V_H

MIN.

-

TYP.

-

MAX.

8.5

Unit

V

Remark

Print Voltage

Logic Voltage

Logic Current

5

V_DD

3.0

5.5

V

or 3.3

I_DD

V_IH

V_IL

-

42

mA

V

All-high

H

L

0.8Vdd

Vdd

Input Voltage

0

-

0.2Vdd

1.0

V

SI,CLOCK,/LATCH

㎂

STROBE

(VDD=5V)

STROBE

-

55

㎂

H

I_IH

Input Current (DI)

-

22

㎂

(VDD=3.3V)

L

I_IL

-0.5

4.1

2.3

-

V

VDD=5V

VDD=3V

H

V_OH

Output Voltage

Output Current

L

H

L

V_OL

I_OH

0.4

-

0.5

mA

I_OL

DO Leakage Current

CLOCK Frequency

I_LEAK

0.04

ALL-low

-

8

5

MHz

ns

VDD=5V(See 3-6)

VDD=3V(See 3-6)

See 3-6

t1

-

CLOCK Pulse Width

t2

t3

t4

t5

t6

50

40

100

-

SI-CLOCK Setup Time

CLOCK-SI Hold Time

LATCH Pulse Width

-

ns

See 3-6

-

ns

See 3-6

-

ns

See 3-6

CLOCK-LATCH Setup Time

-

ns

See 3-6

-

70

130

-

ns

VDD=5V(See 3-6)

VDD=3V(See 3-6)

VDD=5V(See 3-6)

VDD=3V(See 3-6)

VDD=5V(See 3-6)

VDD=3V(See 3-6)

VDD=5V(See 3-6)

VDD=3V(See 3-6)

VDD=5V(See 3-6)

VDD=3V(Seeꢁ3ꢀ6)ꢁ

CLOCK-SO Delay Time

STROBE-LATCH Removal Time

STROBE-DO Delay Time

DO Fall Time

t7

t8

-

ns

12.3

24.5

-

㎲

-

1.0

-

10.0

20.0

4.0

8.0

4.5

9.0

t9

-

1.0

2.0

1.0

2.0

t10

t11

-

DO Rise Time

ꢀꢁ

SMP640UKC

SPECIFICATION

7

SHEET REVISION

A

SHEET NO

3-6. Timing Chart

Clock(CLK)ꢁ

ꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ SIꢁ

ꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ /LATCHꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ ꢁ Highꢁ:ꢁHoldꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ ꢁ Lowꢁ:ꢁThroughꢁ

ꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ SOꢁ

ꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ STROBEꢁ

ꢁ

ꢁ ꢁ ꢁ ꢁ ꢁ DO

SMP640UKC

SPECIFICATION

8

SHEET REVISION

A

SHEET NO

3-7. Maximum Conditions at 25℃

Item

Maximum Conditions

0.23 mJ/dot

Conditions

Supply Energy

S.L.T.=1.25msec

Just after battery charge.

7.2V at all time

Supply Voltage

8.5 V

Substrate Temperature

Thermistor Temperature

70 ℃

3-8. Head supply Voltage

The input voltage to TPH is as below.

Item

Voltage Range

4.0 to 8.5V

3.0 to 5.5V

Head Drive Voltage

Head Logic Voltage

V_P

V_DD

3-9. Peak Current

The Peak Current at running Head can be calculated as following formula in most

cases. Specially pay attention to a Voltage dropping at circuit.

N х V_P

I_P= ------------------

R_AVE

I_P

N

: Peak current (A)

: Number of dots that are driven simultaneous

V_P: Head drive voltage

3-10. Control of a Pulse width of Head

3-10-1. Pulse width on Voltage

To secure the stable print quality, apply a control of Pulse width according to Head

running Voltage. Head Pulse width can be gained as below

2

(R_COMх N + R_AVE+ R_IC+ R_LEAD

)

T_o

=

E_oх ------------------------------------------------

2

V_Hх R_ave

T_O: Pulse per width

E_O: Nominal Energy (0.23mJ)

R_COM: Common Resistance (0.05Ω )

R_IC: Driver saturated resistance (10Ω )

R_LEAD: Lead resistance (10Ω )

SMP640UKC

SPECIFICATION

9

SHEET REVISION

A

SHEET NO

3-10-2. Pulse width calibration on temperature change

It detects a temperature change by reading a Thermistor Resistance value built in

thermal Head. It is recommended to control energy and calibrate the Pulse width

into thermal Head based on the installation environmental temperature and a

temperature change of thermal Head. When it detects the temperature higher than

60℃, stop the printing process. Pulse per width is calculated the following formula.

(25-T_X) х C

T_on= T₂₅х { 1+ -------------------}

100

T_on: Pulse width on working temperature(T_X) (ms)

T₂₅

T_X: Working temperature

: Temperature calibration constant

: Pulse width on working temperature 25℃

C

(When Hansol 65 GSM paper used, apply C = 1)

Usage temperature and operation

voltage about Head Pulse Width

1.60

1.40

1.20

1.00

0.80

0.60

0.40

7.2V

0

5

10

15

20

25

30

35

40

45

50

55

60

Temperature (℃)

SMP640UKC

SPECIFICATION

10

SHEET REVISION

A

SHEET NO

3-11. Thermistor Specifications

▷ Rating

1)ꢁOperating temperature

2)ꢁStorage temperature

3)ꢁTime Constant

:

0 ~ 50 ℃

-40 ~ 80 ℃

:

Max. 30 sec (in the air)

▷ Electrical Requirements

1) Resistance R₂₅

2) B Value

:

30 kΩ ± 5% (at 25℃)

3950 K ± 2%

R_X= R₂₅×EXP{B×(1/T_X-1/T₂₅)}

(T: Absolute Temperature)

200

180

160

140

120

100

80

60

40

20

0

-40

-30

-20

-10

0

10

20

30

40

50

60

70

80

TEMPERATURE ℃

Temperatureꢁ

Rꢁstdꢁ(kꢂ)ꢁ

Temperatureꢁ

Rꢁstdꢁ(kꢂ)ꢁ

ꢀ40ꢁ

ꢀ35ꢁ

ꢀ30ꢁ

ꢀ25ꢁ

ꢀ20ꢁ

ꢀ15ꢁ

ꢀ10ꢁ

ꢀ5ꢁ

0ꢁ

5ꢁ

10ꢁ

15ꢁ

0ꢁ

1205.5

844.7ꢁ

600.6ꢁ

432.95ꢁ

316.15ꢁ

233.69ꢁ

174.73ꢁ

132.07ꢁ

100.86ꢁ

77.77ꢁ

60.52ꢁ

47.51ꢁ

37.6ꢁ

25ꢁ

30ꢁ

35ꢁ

40ꢁ

45ꢁ

50ꢁ

55ꢁ

60ꢁ

65ꢁ

70ꢁ

75ꢁ

80ꢁ

85ꢁ

30ꢁ

24.11ꢁ

19.51ꢁ

15.91ꢁ

13.04ꢁ

10.76ꢁ

8.93ꢁ

7.45ꢁ

6.26ꢁ

5.28ꢁ

4.47ꢁ

3.81

3.26ꢁ

SMP640UKC

SPECIFICATION

11

SHEET REVISION

A

SHEET NO

3-12. Detecting Abnormal Temperatures of the Thermal Head

To protect the thermal head and to ensure personal safety, abnormal thermal head

temperatures must be detected by both hardware and software as follows:

■ Detecting abnormal temperatures by software

Design software that will deactivate the heat elements if the thermal head

thermistor(TM) detects a temperature 60°C or higher and reactivate the heat

elements when a temperature of 50°C or lower is detected. If the thermal head

continues to be activated at a temperature higher than 60°C, the life of the

thermal head may be shortened significantly.

■ Detecting abnormal temperatures by hardware

If the Control unit malfunctions, the software for detecting abnormal

temperatures may not function properly, resulting in overheating of the thermal

head.

Overheating of the thermal head may cause damage to the thermal head or injury.

Always use hardware in conjunction with software for detecting abnormal

temperatures to ensure personal safety. (If the Control unit malfunctions, it

may be impossible to prevent damage to the thermal head even if a detection of

abnormal temperature is detected by hardware.)

Using a window comparator circuit or similar detector, design hardware that

detects the following abnormal conditions:

1)ꢁ Overheating of the thermal head (approximately 100°C or higher).

2)ꢁ Faulty thermistor connection (the thermistor may be open or short-circuited).

If (1) and (2) are detected, immediately deactivate the heat elements.

Reactivate the heat elements after the temperature of the thermal head has

returned to normal.

SMP640UKC

SPECIFICATION

12

SHEET REVISION

A

SHEET NO

4. PAPER FEED MOTOR

4-1. Basic Specifications

Item

Type

Specification

PM 20 Steps type stepping motor

2-2 PHASE excitation Bipolar method

Drive method

Rated voltage

Amount of paper feed

Resistance

Max 8.5VDC (for drive)

0.0625mm per 1 step

12 Ω

4-2. Example of Driving Circuit

Motor driver : ROHMꢁBA6845FS

(User Side)

(Printer Side)

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

13

4-3. Excitation Sequence

▷ Paper is fed in a forward direction when the motor shaft is rotating in the

CCW (Counter Clock Wise) when seen from the motor gear side

Sequence

Step 2

Signal Name

Step 1

Step 3

H

Step4

L

H

In Signal –1

In Signal –2

L

H

L

H

Sequence

ꢀ CCW

Step 3

Signal Name

Step 1

Step 2

Step 4

A-

A

B

L

H

L

H

L

H

L

H

L

H

L

H

L

B-

H

A-

A

B-

B

1Dot line

※ Precautions for Designing the Motor Control Circuit and Software

▷ To stop the motor, excite for a single step period with a phase that is

the same as the final one the printing step

▷ In the pause state, do not excite the step motor to prevent the motor

from overheating

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

14

4-4. Sample For Drive Frequency

The following chart gives the maximum paper feed speed vs the step motor

Voltage(at 25℃)

Drive Frequency(Paper Feed)

Operation Voltage

Duty Cycle(%)

5.0V

7.5V

8.5V

500 PPS

1050 PPS

1120 PPS

60

30

15

In order to avoid stepper motor overheat, it is strongly advised to respect the

maximum ON/OFF duty cycle as indicated above. Note that the maximum

period for the ON time is 45 seconds (when the duty cycle is not 100%).

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

15

5. PAPER DETECTOR

The printer has a built-in paper detector (reflection type photo interrupter) to detect

whether paper is present or not.

An external circuit should be designed so that it detects output from the paper

detector and does not activate the thermal head and motor when there is no paper.

Doing not so may cause damage to the thermal head or platen roller or shorten the

life of the head significantly. If the motor is drove when it is out-of paper, a load is

put on the reduction gear and the life of the gear may be shortened

5-1. Absolute Maximum Ratings (T_A= 25℃)

Parameter

Forward Current

Symbol

I_F

V_R

P_D

V_CEO

Rating

50

5

75

Unit

mA

V

mA

V

Input Diode

Reserve Voltage

Power Dissipation

Collector-Emitter

Voltage

Output Photo

Transistor

30

Emitter-Collector

Voltage

V_ECO

3

V

Collector Current

Power Dissipation

Operation Temperature

I_C

P_C

T_opr

20

50

mA

mW

℃

-20 to +85

Storage Temperature

T_stg

-30 to +100

℃

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

16

5-2. Photo electrical Characteristics (Ta = 25℃)

Parameter

Forward Voltage

Sym.

V_F

Condition

I_F= 10mA

Min Type Max Unit

-

1.3

10

V

Input

Diode

Reverse Current

Dark Current

I_R

V_R= 5V

㎂

Output

Transistor

I_CEO

IC

V_CE=10V , I_F=0

0.2

440

0.2

Collector Output

Current

I_F=10mA V_CE=5V 180

Leakaged Current I_LEAKI_F=10mA, V_CE=5V

-

Coupied

VCC=2V,

Fall Time

Rise Time

IC=0.1mA

RL=1 ㏀

t_f/t_r

25/30

-

㎲

5-3. Sample External Circuit

PE_SENSOR Output signal level

Paper end sensor Detection

In case of paper exist

In case of no paper

Low

High

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

17

6. PIN LAYOUT FOR CONNECTOR

FPC Connector (Sensor / Motor / Head)

Pin No.

Signal

Description

Motor drive signal

1

2

3

4

5

6

7

8

A

B

A-

B-

VH

Motor drive signal

Head drive voltage

Print data output

Print data latch

Synchronizing signal for print data transfer

Logic power supply

Strobe

Thermistor

GND for Head drive

GND for logic

Strobe

VH

SO

LAT

CLK

Vdd

STB1

STB2

STB3

TM

P-GND

STB4

STB5

STB6

SI

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

Strobe

Print data input

VH

L-GND

VF

Head drive voltage

GND FOR LOGIC

ANODE OF PHOTO SENSOR

COLLECTOR OF PHOTO SENSOR

CO

PRINTER

(TOP VIEW)

▷ FPC Connector (27P) :

-1mm pitch FFC/FPC connector 27pin

1

27

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

18

7. OPERATION SEQUENCE

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

19

8. LAYOUT OF PRINTER AND PAPER

8-1. SMP640UKC Printer Mechanism

- Paper inlet angle (A) : A ≥ 110˚

- Paper outlet angle (B) : 65˚ ≤ B ≤90˚

- The distance between the paper detector and the heat element

is approximately 6mm

-ꢁ Fix mechanism by using the mounting positions A,B and C( 2points)

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

20

9. MECHANICAL DIMENSIONS (ASSEMBLY VIEW)

9-1 MECANICAL DIMENSIONS

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

21

9-2. SUGGEST FIXTURE & SET PROFILE

PLATEN ROLLER FIXTURE

OPERATION CENTER

OPERATION FLOW

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

22

10. EXPLODED VIEW

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

23

11. PART LISTS

No

Code No

Descriptions

Specifications

Q'ty Service

1

AE05-00025A ASS’Y BRACKET TPH TPH/FPC/Bracket/Photo-sensor/Bush

AR05-00010A ASS'Y PLATEN ROLLER Roller/Shaft

1

Y

N

Y

2

3

K105-00016A MOTOR-STEP

JE72-00223B FRAME-MAIN

JE70-00300A PLATE-PRESSURE

5V,25G.CM,BIPOLAR

4

SMP640,LUCELN109,BLACK,W64.5

SMP640UL,SUS304CSP,0.25T

5

GEAR DECELERATION B

6

JE72-00001D

LUCELN109LD,POM,natural,SAC210,3.8,*8

2

Y

2.0

7

8

JE72-00222B GEAR-DECELERATION C SMP640UL,LUCEL H1510

1

Y

JE72-00223A FRAME-COVER

SMP640UL,LUCELN109,BLACK,W25.6

CH,+<M1.7,L5,NIPLT,SWRCH10

SCREW-

6001-000805

9

1

Y

MACHINE,M1.7*4

10 6002-001140 SCREW-TAPPING,M2*4 PH,2,M2.0,L4.0,NIPLT

1

Y

11 KC05-00017A SCREW-TAPPING,M2*5 M2*L5

SCREW-

12 6002-001124

CH,+,2,M1.7(0.45),L2,BLK

1

Y

N

TAPPING,M1.7*2

13 KA05-00011A LABEL STICKER

ART PAPER T0.1

SMP640UK

SPECIFICATION

SHEET REVISION

A

SHEET NO

24


型号：	SMP640UKC
厂家：	SAMSUNG
描述：	SAMSUNG Mini Printer SMP640UKC 三星微型打印机SMP640UKC
文件：	总27页 (文件大小：1194K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SMP640UKC [SAMSUNG]

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