SMP640UKC [SAMSUNG]
SAMSUNG Mini Printer SMP640UKC; 三星微型打印机SMP640UKC型号: | SMP640UKC |
厂家: | SAMSUNG |
描述: | SAMSUNG Mini Printer 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 |
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
A
16
A
II
17
18
19
20
21
22
23
24
A
A
A
A
A
A
A
A
1
A
A
A
A
A
A
A
A
A
A
A
A
A
A
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
sheet
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 (TA = 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
Rave = 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
64
64
64
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
VH
MIN.
-
TYP.
-
MAX.
8.5
Unit
V
Remark
Print Voltage
Logic Voltage
Logic Current
5
VDD
3.0
5.5
V
or 3.3
IDD
VIH
VIL
-
-
-
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
IIH
Input Current (DI)
-
-
-
-
22
㎂
㎂
(VDD=3.3V)
L
IIL
-0.5
4.1
2.3
-
-
-
-
-
-
V
V
V
VDD=5V
VDD=3V
H
VOH
Output Voltage
Output Current
L
H
L
VOL
IOH
0.4
-
-
-
-
-
-
0.5
0.5
mA
mA
mA
IOL
DO Leakage Current
CLOCK Frequency
ILEAK
0.04
ALL-low
-
-
-
8
5
MHz
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
40
100
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
VP
VDD
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 VP
IP = ------------------
RAVE
IP
N
: Peak current (A)
: Number of dots that are driven simultaneous
VP : 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
(RCOM х N + RAVE + RIC + RLEAD
)
To
=
Eo х ------------------------------------------------
2
VH х Rave
TO : Pulse per width
EO : Nominal Energy (0.23mJ)
RCOM : Common Resistance (0.05Ω )
RIC : Driver saturated resistance (10Ω )
RLEAD : 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-TX) х C
Ton = T25 х { 1+ -------------------}
100
Ton : Pulse width on working temperature(TX) (ms)
T25
TX : 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%
RX = R25×EXP{B×(1/TX-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
L
H
L
H
Sequence
ꢀ CCW
Step 3
Signal Name
Step 1
Step 2
Step 4
A-
A
B
L
H
H
L
H
L
H
L
H
L
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 (TA = 25℃)
Parameter
Forward Current
Symbol
IF
VR
PD
VCEO
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
VECO
3
V
Collector Current
Power Dissipation
Operation Temperature
IC
PC
Topr
20
50
mA
mW
℃
-20 to +85
Storage Temperature
Tstg
-30 to +100
℃
SMP640UK
SPECIFICATION
SHEET REVISION
A
SHEET NO
16
5-2. Photo electrical Characteristics (Ta = 25℃)
Parameter
Forward Voltage
Sym.
VF
Condition
IF = 10mA
Min Type Max Unit
-
-
-
-
-
-
-
-
1.3
10
V
Input
Diode
Reverse Current
Dark Current
IR
VR = 5V
㎂
㎂
㎂
㎂
Output
Transistor
ICEO
IC
VCE=10V , IF=0
0.2
440
0.2
Collector Output
Current
IF=10mA VCE=5V 180
Leakaged Current ILEAK IF=10mA, VCE=5V
-
-
Coupied
VCC=2V,
Fall Time
Rise Time
IC=0.1mA
RL=1 ㏀
tf /tr
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
Motor drive signal
Motor drive signal
Head drive voltage
Head drive voltage
Print data output
Print data latch
Synchronizing signal for print data transfer
Logic power supply
Strobe
Strobe
Strobe
Thermistor
GND for Head drive
GND for Head drive
GND for Head drive
GND for logic
Strobe
Strobe
VH
SO
LAT
CLK
Vdd
STB1
STB2
STB3
TM
P-GND
P-GND
P-GND
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
VH
L-GND
VF
Head drive voltage
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
1
1
1
1
Y
Y
N
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
1
Y
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
1
Y
Y
11 KC05-00017A SCREW-TAPPING,M2*5 M2*L5
SCREW-
12 6002-001124
CH,+,2,M1.7(0.45),L2,BLK
1
1
Y
N
TAPPING,M1.7*2
13 KA05-00011A LABEL STICKER
ART PAPER T0.1
SMP640UK
SPECIFICATION
SHEET REVISION
A
SHEET NO
24
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