Transcript SQ4xi : SDB REV02B (INDI-DOUBLE)

SQ3xD
1. Option Device
1. SQ3xD
1. The Function for SEQUIN DEVICE BOARD
- It functions to operate Air Solenoid and Sequin Step Motor.
※ There are two type of B/D, Normal Sequin B/D for one spangle and 4 Sequin B/D for two spangle operation.
(CAN Communication application)
☞ Here, we are going to explain 4 Sequin B/D for two spangle operation.
(4 SEQUIN B/D includes Normal Sequin B/D Diagram.)
2. Structure for 4 SEQUIN DEVICE
Spangle
LEFT #2 SQ Motor (CN13)
LEFT LED(SW) (CN9)
LEFT #1 SQ Motor (CN2)
SWF
RIGHT #2 SQ Motor (CN14)
RIGHT LED(SW) (CN10)
RIGHT #1 SQ Motor (CN5)
1. Option Device
1. SQ3xD
3. Diagram for 4 SEQUIN DEVICE BOARD
1) Diagram
Circuit diagram
설
+12V
명
+5V
U17 7805
1
3
VI
VO
C21
C24
47uF/25V
104
G
2
C22
C25
47uF/25V
104
- 4 SEQUIN BOARD got the voltage, DC +24V & DC
+12V from SMPS (PBA600F24 & PMC100E-4) in Control Box, and DC +12V goes to 7805
Regulator and is translated to 5V which is used for all material.
+12V
+24V
CN8
1
2
3
4
B 4P-VH
R32
0
※ 0Ω Resistance : Even if it is connected electrically in diagram,
it sometimes needs more than 2 grounds, and for minimum
effects of interference between control and power source, it is
connected partially.
1. Option Device
1. SQ3xD
3. Diagram for 4 SEQUIN DEVICE BOARD
2) Diagram for SEQUIN STEP MOTOR #1
Circuit diagram
+5V
RA1
+5V
+5V
D2
B3
1
2 3 4 5
Explanation
D3
B3
5X203
CN15
1
2
3
4
5
6
7
8
9
PWM_A
PWM_B
DATA
CLK
RIGHT_LIFT
AIR_ERROR
R5
R6
1K
1K
3
R9
1K
13
5
C8
104
S 9B-XH-A
CN3
1
2
D9
A3
AIR_ERROR
B 2B-XH-A
U3
74HC595
U1:B
4
D10
A3
U1:F
12
U1:C
6
FEED_PWM_A
FEED_PWM_B
/RIGHT_LEFT
- on CN4 Connector in SB Sub Control B/D
No.2 Pin -> SE_1(PWM_A),
No.3 Pin -> SE_2(PWM_B),
No.4 Pin -> SE_3(DATA1),
No.5 Pin -> SE_4(CLK),
No.6 Pin -> SE_5(RIGHT_LEFT),
No.7 Pin -> SE_6(AIR_ERROR) Signal
- In CN1, No.2 Pin (PWM_A) & No.3 Pin (PWM_B) PULSE is
control signal for SEQUIN STEP MOROR and it come out
through U6(74HC14) IC.
No.4 Pin (DATA) & No.5 Pin (CLK) signal goes into
U3(74HC595) IC as the communication signal.
No.7 Pin (AIR_ERROR) check signal whether the Air flows
into the Air Solenoid of SEQUIN DEVICE by sensor.
(# 108 ERROR)
1. Option Device
1. SQ3xD
3. Diagram for 4 SEQUIN DEVICE BOARD
3) Diagram for SEQUIN STEP MOTOR #2
Circuit diagram
D1
A9(1SS294)
R2
1K
FEED_A
F_PWM_A
C2
102
5
U3:C
6
D7
A9(1SS294)
R4
1K
Explanation
FEED_A
FEED_/A
FEED_B
FEED_/B
FEED_A
FEED_/A
FEED_B
FEED_/B
FEED_/A
A9(1SS294)
R10
1K
FEED_B
F_PWM_B
C4
102
13
U3:F
12
74HC14
D12
A9(1SS294)
R13
1K
FEED_/B
C9
102
L1_IN_A
L1_IN_/A
L1_IN_B
L1_IN_/B
R1_IN_A
R1_IN_/A
R1_IN_B
R1_IN_/B
- Control Signal of PWM_A & PWM_B divides into two PWM
Signal as each 180 degree position through U6(74HC14)
IC, and come out controlling by No.1 & No.19 Control
Signal of U2, U11(74HC244).
74HC244(W)
102
D8
18
1Y1
16
1Y2
14
1Y3
12
1Y4
9
2Y1
7
2Y2
5
2Y3
3
2Y4
1
1G
19
2G
C3
74HC14
U2
2
1A1
4
1A2
6
1A3
8
1A4
11
2A1
13
2A2
15
2A3
17
2A4
FEED_A
FEED_/A
FEED_B
FEED_/B
FEED_A
FEED_/A
FEED_B
FEED_/B
U11
2
1A1
4
1A2
6
1A3
8
1A4
11
2A1
13
2A2
15
2A3
17
2A4
18
1Y1
16
1Y2
14
1Y3
12
1Y4
9
2Y1
7
2Y2
5
2Y3
3
2Y4
1
1G
19
2G
74HC244(W)
L2_IN_A
L2_IN_/A
L2_IN_B
L2_IN_/B
R2_IN_A
R2_IN_/A
R2_IN_B
R2_IN_/B
1. Option Device
1. SQ3xD
3. Diagram for 4 SEQUIN DEVICE BOARD
3) Diagram for SEQUIN STEP MOTOR #2
Circuit diagram
Explanation
* 전류 차단 레벨
변경에 따른 변경
* C1 103 ==> 103/100V 로 변 경
(2006.05.22)
* 전 압 PEAK 방 지 에
따른 추가
R1
(2006.05.22)
D5
103/100V
D10LC40
D10LC40
D
L1_IN_A
L1_IN_/A
L1_IN_B
L1_IN_/B
R1_IN_A
R1_IN_/A
R1_IN_B
R1_IN_/B
L1_IN_A
Q1
G
2SK2508S
R12
100
R15
100
B 6B-XH-A
LEFT #1
FEED MOTOR
Q3
G
L1_IN_B
2SK2508S
- PWM Control Signal of U8 No.18 (L1_IN_A), U8 No.16
(L1_IN_/A), U8 No.14 (L1,_IN_B), U8 No.12 (L1_IN_/B) makes
FET switched and Switching Signal of 24V operates Motor.
D
Q4
G
L1_IN_/B
2SK2508S
2 3 4 5
RA2
1
2
3
4
5
6
Q2
G
D2SK2508S
100
CN2
L1_OUT_A
L1_OUT_B
L1_OUT_/A
L1_OUT_/B
D
L1_IN_/A
R14
RXE250
C1
5KPI20A
100
+24V
PTC1
D6
D31
R11
(2008.06.25)
47K
SWF
5X103
1
FRONT VIEW
* 전류 차단 레벨
변경에 따른 변경
* C11 103 ==> 103/100V 로 변 경
(2006.05.22)
* 전 압 PEAK 방 지 에
따른 추가
R17
(2006.05.22)
D14
103/100V
D10LC40
D10LC40
D
R24
100
R25
100
R27
100
R1_IN_A
Q5
G
2SK2508S
B 6B-XH-A
RIGHT #1
FEED MOTOR
Q7
G
2SK2508S
RA3
1
D
Q8
G
2SK2508S
2 3 4 5
1
2
3
4
5
6
D
D2SK2508S
R1_IN_/B
CN5
R1_OUT_A
R1_OUT_B
R1_OUT_/A
R1_OUT_/B
Q6
G
R1_IN_/A
R1_IN_B
RXE250
C11
5KPI20A
100
+24V
PTC2
D15
D32
R22
(2008.06.25)
47K
SWF
5X103
FRONT VIEW
- PWM Control Signal of U8 No.9(R1_IN_A), U8 No.7(R1_IN_/A),
U8 No.5(R1,_IN_B), U8 No.3(R1_IN_/B) makes FET switched
and Switching Signal of 24V operates Motor.
1. Option Device
1. SQ3xD
3. Diagram for 4 SEQUIN DEVICE BOARD
3) Diagram SEQUIN STEP MOTOR #2
Circuit diagram
Explanation
* 전류 차단 레벨
변경에 따른 변경
따른 추가
R41
(2006.05.22)
D17
D10LC40
R21
100
D10LC40
Q9
G
L2_IN_A
2SK2508S
R30
100
B 6B-XH-A(BLUE)
LEFT #2
FEED MOTOR
Q11
G
L2_IN_B
2SK2508S
-PWM Control Signal of U9 No.18(L2_IN_A), U9
No.16(L2_IN__/A), U9 No.14(L2,_IN_B), U9 No.12(L2_IN_/B
makes FET switched and Switching Signal of 24V operates
Motor.
D
Q12
G
L2_IN_/B
2SK2508S
2 3 4 5
RA4
1
2
3
4
5
6
D
D2SK2508S
100
CN13
L2_OUT_A
L2_OUT_B
L2_OUT_/A
L2_OUT_/B
Q10
G
L2_IN_/A
R29
RXE250
103/100V
D
L2_IN_A
L2_IN_/A
L2_IN_B
L2_IN_/B
R2_IN_A
R2_IN_/A
R2_IN_B
R2_IN_/B
PTC3
C19
5KPI20A
100
+24V
47K
D18
D33
R20
(2008.06.25)
* C19 103 ==> 103/100V 로 변 경
(2006.05.22)
* 전 압 PEAK 방 지 에
SWF
5X103
1
FRONT VIEW
* 전류 차단 레벨
변경에 따른 변경
* C39 103 ==> 103/100V 로 변 경
(2006.05.22)
* 전 압 PEAK 방 지 에
따른 추가
R42
(2006.05.22)
D19
103/100V
D10LC40
D10LC40
D
R34
100
R2_IN_A
Q13
G
2SK2508S
100
R37
100
B 6B-XH-A(BLUE)
RIGHT #2
FEED MOTOR
Q15
G
2SK2508S
R2_IN_/B
RA5
1
D
Q16
G
2SK2508S
2 3 4 5
1
2
3
4
5
6
D
D2SK2508S
R36
CN14
R2_OUT_A
R2_OUT_B
R2_OUT_/A
R2_OUT_/B
Q14
G
R2_IN_/A
R2_IN_B
RXE250
C39
5KPI20A
100
+24V
PTC4
D20
D34
R33
(2008.06.25)
47K
SWF
5X103
FRONT VIEW
-PWM Control Signal of U9 No.9(R2_IN_A), U9 No.7(R2_IN__/A),
U9 5번(R2_IN_B), U9 No.3(R2_IN_/B) makes FET switched
and Switching Signal of 24V operates Motor.
1. Electronical specification of Option device
1. SQ3xD
3. Circuit of 4 SEQUIN DEVICE BOARD
4) Circuit of SEQUIN STEP MOTOR #3
Circuit diagram
Explanation
+5V
+5V
L1
R26
R28
10K
BEAD(MMZ2012R601A)
C16
C15
104
104
U7
2
RESIN
7
SENSE
3
CT
C13
TL7705A
10uF/35V
10K
5
RESET
6
RESET
1
REF
-U8 74HC595 IC controls PWM signal of U8 , U9 of 74HC24
and Air solenoid lifting and Sequin S/W. U8 74HC595 IC
make parallel output 8 by serial input 8 bit data.
C14
105
SERIAL_DATA
SERIAL_CLOCK
+5V
U8
R31
3.3K
14
U9:A
C17
2
0.1uF/50V1
Cx/Rx
Q
6
Vss
12
13
4
A
5
B
3
RESET
MC14538
11
10
Q
15
SER
QA
1
QB
2
SRCLK QC
3
SRCLR QD
4
QE
5
RCLK QF
6
G
QF
7
QH
7
QH
74HC595
9
HEAD_SWITCH_SIG
HEAD_LED_SIG
EVEN_H
ODD_H
RIGHT_1
RIGHT_2
LEFT_1
LEFT_2
- Reset circuit : 7705 IC is used. When turn on the machine,
reset signal of 5th pin of U1 changes to ‘L’ signal. It
initializes U3(74HC595) IC. Usually, it has ‘H’ signal.
1. Electronical specification of Option device
1. SQ3xD
3. Circuit of 4 SEQUIN DEVICE BOARD
4) Circuit of SEQUIN STEP MOTOR #3
Circuit diagram
Explanation
- 74HC595IC changes 8 bit serial data to 8 bit
parallel
0
Q7
Q
7
Q
6
Q
5
Q
4
Q
3
Q
2
Q
1
Q
0
0
Q6
0
0
0
0
0
1
1
0
0
Q5
0
Q4
0
Q3
1
Q2
1
Q1
0
Q0
INPUT
OUT PUT
- 74HC595IC output the parallel serial data
from Q0 to Q7 for each clock, when 8 bits
serial data is input by 87C52 CPU IC from
thread board.
- When 8bit data input to DS PIN in standard
clock, parallel data is output to Q0 ~ Q7 PIN.
The output data can be maintained before
new clock input to ST_cp
DATE
20080325
PROBLEM PROBLEM
TYPE 2
TYPE 1
AREA
PART NAME PROBLEMS
KOR
▶result
SEQUIN
▶ inspection equipment test
→ It didn’t have 5V Because of damaged 7815 IC.
MOTOR
I.C
PART
SB-SEQUIN
→ STEP MOTOR and LIFT was not → Changed 7805 IC
AND LAMP PROBLEM PROBLEM
working in test.
▷ No problem in the TEST.
PROBLEM
20080819
KOR
SB-SEQUIN
20081210
KOR
SB-SEQUIN
CAUSE
RESULT
▷ Result
▶ check
→ IC and electrolytic condensor didn’t exist.
USER
USER
→There were no U2,U9,U7,Q11 par User removed the parts so the pattern was
MISTAKE MISTAKE
t
disconnected in board
→ Can not be repaired
▶ inspection equipment test
▷ result
SEQUIN
I.C
PART → Sequin was not working.
→ Changed Q4, Q6 2508 FET
LAMP
PROBLEM PROBLEM → Q4, Q6 2508 FET was getting
→ Changed U8 HC244 IC
PROBLEM
hot.
▷ No problem in the TEST
SEQUIN
MOTOR
PROBLEM
2. Electronical specification of Option device
SQ4xi : Wire diagram
INDIVIDUAL SEQUIN basic diagram [SB, Multi Head E]
CAN 통 신 케 이 블 [기 존 양 산 품 ]
⑦
주축
엔코더
④
⑤
CAN1 분 기 케 이 블
①
SB
엔코더
분기
케이블
SB
실감지
보 드 #1
실감지
보 드 #2
⑧
SB
실감지
보 드 #3
SB
SB
실감지
보 드 #19
실감지
보 드 #20
실 감 지 전 원 케 이 블 [기 존 양 산 품 ]
CONTROL
BOX
⑩
CAN2 통 신 케 이 블 (Zigzag 용 CAN)
⑪
공 압 에 러 CABLE [기 존 양 산 품 ]
SB
JOINT
보드
②
③
INDIVIDUAL
SEQUIN보 드
SQ40i & ZIGZAG
콘트롤 보드
⑥
INDIVIDUAL
SEQUIN보 드
INDIVIDUAL
SEQUIN보 드
INDIVIDUAL
SEQUIN보 드
INDIVIDUAL
SEQUIN보 드
전원 분기 케이블
24V
SMPS
⑨
AIR
PRESSURE
VALVE
세 퀸 보 드 전 원 케 이 블 [기 존 양 산 품 ]
⑫
공 압 SOL 케 이 블
LIFT SOL #1
LIFT SOL #2
LIFT SOL #3
LIFT SOL #4
2. Electronical specification of Option device
품 명
①
②
③
④
⑤
⑥
⑦
⑧
⑨
⑩
⑪
⑫
품 번
공용관계
수량
SB 실 감 지 보 드
BD-000232
SB공 용
Head수
Individual SEQUIN 보 드
BD-000655
신 설
Head수
SQ40i 콘 트 롤 보 드
BD-000673
신 설
1
SQ40i_ZIGZAG 콘 트 롤 보 드 BD-000674
신 설
1
엔코더 분기 케이블
CA-003226 SB ZZ공 용
1
CAN1 분 기 케 이 블
CA-003402 SB ZZ공 용
1
전원 분기 케이블
CA-003401 SB ZZ공 용
1
SQ4xi : Structure
기타 사항
기존 양산품
CAN JUMPER 삽 입 여 부
마 지 막 HEAD [ J1 ] JUMPER 삽 입
마 지 막 HEAD [ JP2 ] JUMPER 삽 입
[ JP2, JP3, JP4 ] JUMPER 미 삽 입 , [ JP1 ] JUMPER 삽 입
CONTROL REV03 (SQ40i_ZIGZAG) 보 드 로 사 양 변 경 , 해 당 보 드 JUMPER 작 업 불 필 요
CAN 통 신 케 이 블
SB공 용
1
기존 양산품
실감지 전원 케이블
SB공 용
1
기존 양산품
세퀸전원 케이블
SB공 용
1
기존 양산품
CAN2 통 신 케 이 블
-
SB ZZ공 용
1
Head수 , Head 간 격 에 따 라 별 도 발 번
[EE-002013 하 위 에 HEAD간 격 별 사 양 참 조 ]
공 압 에 러 CABLE
SEQ-05-01
SB공 용
1
기존 양산품
공 압 SOL. 전 원 케 이 블
CA-003563
CA-003564 SB ZZ공 용
CA-003565
-
길 이 : 3000
길 이 : 6000
길 이 : 10000
※ 10두
※ 10두
이 하 : [기 본 ] - 1ea, [격 두 ] - 2ea
이 상 : [기 본 ] - 2ea, [격 두 ] - 4ea
2. Electronical specification of Option device
SQ4xi : CONTROL REV04 (SQ40i_ZIGZAG)
FUNCTION
2
4
6
8
2
4
6
8
+5V
+5V
SQ40i
MCU
DOWNLOAD
+5V
CN1
SQ40i
SERIAL
1
2
3
4
5
R10
10KΩ
C
1
3
5
7
1
3
5
7
104
104
104
104
104
104
104
104
C4
C3
C5
C2
CN6
1
2
3
C10
10uF/16V
GND
R27
120Ω
GND
B3B-XH-A (RED)
JP2
GND
GND
미삽
GND
+5V
삭제처리
[2009년 01월 14일 ]
R19
470Ω
LED1
LED
+5V
+5V
+5V
LED2
GREEN
CN5
CAN
(WHITE)
1
2
3
GND
insertion
reference
Make
1
2
3
R22
120Ω
R29
120Ω
GND
JP1
the name of
an article.
CN8
R20
10KΩ
R21
470Ω
B3B-XH-A (white)
a section
ZIGZAG
THSB B/D
CAN
(RED)
GND
1
2
1
2
4
8
C
E
COMPONENTS
+5V
+5V
C1
10uF/16V
SW4
SM1R7010
SECOND
SWITCH
GND
[ZIGZAG MCU]
+5V
RY4
8Y472
1
2
4
8
E
GND
+5V
+5V
2
4
6
8
2
4
6
8
ZIGZAG
ID
SETTING
1
2
3
4
B4B-XH-A (white)
GND
[SQ40i MCU]
+5V
RY3
FIRST
8Y472
SWITCH
SW3
SM1R7010
CN4
ZIGZAG
SERIAL
1
2
3
4
5
GND
+5V
R9
10KΩ
+5V
+5V
CN2
B5B-XH-A (white)
C9
C
E
1
2
3
4
GND
SW2
SM1R7010
SECOND
SWITCH
GND
+5V
ZIGZAG
MCU
DOWNLOAD
CN3
B4B-XH-A (white)
B5B-XH-A (white)
1
2
4
8
C8
E
C7
FUNCTION: AIR SOLENOID CIRCUIT EQUIPPED
CONTROL Main Encoder SIGNAL
RY2
8Y472
1
2
4
8
C
C6
SQ40i
ID
SETTING
1
3
5
7
1
3
5
7
RY1
FIRST
8Y472
SWITCH
SW1
SM1R7010
B3B-XH-A (RED)
1
2
미삽
note
SQ40i
SEQUIN B/D
CAN
(RED)
JP4
GND
미삽
GND
Y1 4MHZ
삭제처리
Y2 4MHZ
+5V
[2009년 01월 14일 ]
GND
1
2
삭제처리
[2009년 01월 14일 ]
82C251
SMD
U3,U4,U5,U6
PHI
EMBROIDERY
MICROCHIP
TYPE : 6010A
[CAUTION]
ONSEMI
EMBROIDERY
GND
R28
120Ω
GND
JP3
R45
100Ω
1
+24V
LEFT
LIFT(EVEN)_DN
1
2
3
D6
1N4004
+24V
2SK2508 3
R46
GND
1SS184(B3)
100Ω
2
1
R56
RIGHT
LIFT(ODD)_DN
1
2
3
D7
1N4004
+24V
SMD
D3,D4
KEC
EMBROIDERY
2
1
1
330Ω
R42
330Ω
R44
330Ω
R48
AIR
ERROR
1
2
R49
MBR360
D9,D10,D11,D1
2 ADDED
3
※삭제처리
DIP
ZD3
ONSEMI
1
+24V
EMBROIDERY
C11,C12,C13
SEC
EMBROIDERY
SMD
C14
SEC
EMBROIDERY
SMD
C2,C3,C4,C5,C6,
C7,C8,C9,C20,
C21,C22,C23
SEC
EMBROIDERY
C15
REMOVED
104/100V
DIP
C17
Samhwa
EMBROIDERY
10uF/16V
SMD
C1,C10
Nichicon
EMBROIDERY
220uF/50V
SMD
C18,C19
Nichicon
EMBROIDERY
220uF/63V
DIP
C16
Samhwa
EMBROIDERY
MMZ2012R601A
SMD
L1
TDK
EMBROIDERY
100uH/3A
DIP
Pyungjin
EMBROIDERY
SWITCH
SM1R7010
SMD
FUJISOKU
EMBROIDERY
RESONATOR
CSTCR-4MHz
SMD
L2
SW1,SW2,SW3,SW
4
Y1,Y2
Murata
EMBROIDERY
COIL
Q7
R58
CN18
B 3P-VH
RIGHT
LIFT(ODD)_UP
1
2
3
2
1
100Ω
+24V
CN19
B 3P-VH(YELLOW)
1
2
3
D12
1N4004
2
Q8
R59
RIGHT
LIFT(EVEN)_UP
2
1
100Ω
2SK2508 3
24-GND
24-GND
24-GND
RY6
8Y103
24-GND
24-GND
24-GND
24-GND
GND
VIN
FB
4
6
9
U8:D
8
+5V
11
U8:E
10
13
U8:F
12
DC POWER
INPUT
+12V
LM2576-5
L2
OUTPUT
C19
220uF/50V
0
Tx0 4
Text 3
Rint 9
R47
미삽
13 CANH1
14 CANL1
19 CANH2
AMIS-42700[미 삽 ]
18 CANL2
6 15 16 17
GND
JP6
1
2
미삽
100uH/3A
ZD3
MBR360
R55
1
2
미삽
Vref
Vcc 1 11 20 8
EN2 2
Rx0 7
5
2
JP5
GND
U9
EN1 10
C18
220uF/50V
GND
C20
104
R54
미삽
C21
104
GND
GND
JOINSET
Electrolytic
capacitor
+5V
5
U8:C
GND
1
2
3
4
24-GND
SMD
ZD1,ZD2
471P
SMD
103P
104P
방열판사용
U10
CN15
EMBROIDERY
+24V
D11
1N4004
[2009년 01월 14일 ]
+12V
B4P-VH-FB-B
ECVAS201209B2058
CHIP
VARISTOR
5NBT
LEFT
LIFT(EVEN)_UP
1
2
3
1
2SK2508 3
2SK2508 3
24-GND
GND
5
ON/OFF
3
GND
DELTA
100Ω
RIGHT
LIFT(EVEN)_DN
1
100Ω
CN17
B 3P-VH(YELLOW)
D4
1SS181(A3)
ZD2
ECVAS201209B20585NBT
GND
C16
D5,D6,D7,D8,D9,
D10,D11,D12
R57
2
2SK2508 3
Q4
GND
104/100V
LEAD
+24V
Q6
L1
MMZ2012R601A
220uF/63V
C17
1N4004
LEFT
LIFT(ODD)_UP
D10
1N4004
2SK2508 3
CN14
B 3P-VH(RED)
1
2
3
D8
1N4004
CN16
B 3P-VH
1
2
3
2
1
2SK2508 3
GND
DIODE
1
100Ω
2
4
6
8
1
2
2
1
2
3
C13
C14
C12
4
330Ω
R40
RY5
8Y103
103
C11
3
U8:B
R38
104
1SS181 (A3)
D3
2
8
C15
EMBROIDERY
13
U7:F
9
U7:D
12
12
KEC
4
6
1
D1,D2
3
U7:B
2
100Ω
2
SMD
5
U7:C
10
1
U8:A
471
ZD1
ECVAS201209B20585NBT
GND
1SS184 (B3)
11
U7:E
2
1
3
5
7
1KΩ
10KΩ
R43
10KΩ
1KΩ
10KΩ
R41
10KΩ
미삽
미삽
미삽
1KΩ
471
TOSHIBA
1KΩ
R39
471
SIP
R37
1
2SK2508
Q5,Q6,Q7,Q8
ADDED
1
2
3
4
5
2
FET
Q1,Q2,Q3,Q4,
Q5,Q6,Q7,Q8
MAIN
ENCODER
Q3
Q5
CN13
B 3P-VH
2SK2508 3
74HC14
1
U7:A
+24V
D9
1N4004
CN12
B 3P-VH(RED)
1
3
5
7
D2
타입 변경에 다른 추가
[2009년 01월 14일 ]
LEFT
LIFT(ODD)_DN
Q2
D1
※솔 레 노 이 드
CN10
B 3P-VH
1
2
3
2
2
4
6
8
+5V
C23
+5V
C22
EMBROIDERY
1
2
3
4
5
104
MOT
MAIN
ENCODER
BRANCH
104
U7,U8
Q1
3
SMD
+24V
D5
1N4004
+5V
R36
74HC14
삭제처리
[2009년 01월 14일 ]
R35
U10
R34
DIP
3
LM2576T-5
R33
U1,U2
R31
SMD
GND
R32
dsPIC30F6010A
미삽
R30
IC
1
2
R47, R54 미 삽 처 리
[2008년 05월 06일 ]
CONTROL REV04 (SQ40i_ZIGZAG)
2. Electronical specification of Option device
SQ4xi : CONTROL REV04 (SQ40i_ZIGZAG)
CONTROL REV04 (SQ40i_ZIGZAG) Circuit
Circuit Diagram
Explanation
LM2576 and LM2575 is very similar to use. LM2576 has 3A, LM2575 has 1A
maximum output depend on amperage.
A. Buck Converter Regulation Circuit
1.STEP-DOWN SWITCHING REGULATOR - It output lower voltage than input
voltage by ON/OFF switching
L,C filter should be equipped for stable ON/OFF. Diode should be equipped for
recharging ‘counter electromotive force’ of L in OFF statement to C
1
2
3
4
DC POWER
INPUT
B4P-VH-FB-B
24-GND
104/100V
CN15
220uF/63V
C17
C16
+24V
+12V
2. Parameter selection
① Inductor
C19
220uF/50V
R55
C21
104
0
-> The section that 76.12(V∙us) and 3A which is maximum current value can
meet is L100. => ∴100uH
( L100 which is a part number of manufacturer is 100uH)
② Cout
GND
방열판사용
+12V
Therefore,
+5V
U10
VIN
LM2576-5
FB
5
ON/OFF
3
GND
1
4
L2
OUTPUT
2
100uH/3A
ZD3
MBR360
GND
C18
220uF/50V
C20
104
Circuit uses 1000uF/50V for receiving ripple voltage
※ It is stable to use 10uF ~ 2200uF value
※ Capacity of CAPACITOR should be bigger than V at least 1.5 times.
③ Zenner Diode
Current capacity of Diode should be selected ‘maximum load current’ which is
1.2 times bigger than current capacity. MBR360 should be selected in POWER
REV(03)
④ Cin : INPUT PIN of regulator needs electrolytic capacitor which has at least
100uF for stable circuit operation. And it should be close to INPUT PIN.
2. Electric/Electronic Specification (Option)
SQ4xi : CONTROL REV04 (SQ40i_ZIGZAG)
#Reference
1. History of Modification
NO
1
2
3
Date
2008/03/12
2008/03/20
2008/05/21
Part Name / Part Number
Content
BD-000674,00
CONTROL REV02 (SQ40i_ZIGZAG)
Notice of New Specification Control Board Modification for dual option
(Individual Sequin [SQ40i], Zigzag Attatchment)
1. Name : CONTROL REV02 (SQ40i_ZIGZAG)
2. Content : Allow only use of when Individual Sequin Device and Zigzag
Device are attached on each head at once.
BD-000674,01
CONTROL REV02 (SQ40i_ZIGZAG)
Notification of new Boot Loader for new combined Control Board for
INDIVIDUAL SEQUIN & ZIGZAG
▶ Boot Loader for New Control Board which combined Sequin(SQ40i) &
Zigzag 1. Boot Loader for Individual Sequin Control B/D
- File name : ISQ_CTL_BTv1.0(0xcd78).hex
- checksum : 0xCD78
2. Boot Loader for ZIGZAG Control Board.
- File name : zz_ctrl_bootloader.zip
(zzctrl_btld_v1.10(2008.2.21)(0xCF81h))
- checksum : 0xCF81
BD-000674,02
CONTROL REV03 (SQ40i_ZIGZAG)
Integration Specification for INDIVIDUAL SEQUIN Control B/D and Modification
of Control B/D for preventing SETTING errors regarding JUMPER SETTING
1. Changes
1) Integration Specification for Control B/D
[A] CONTROL REV01 (INDI_SQ) [for SQ40i SINGLE or BOTH Attachment]
[B] CONTROL REV02 (SQ40i_ZIGZAG) [for SQ40i + ZIGZAG Attachment]
→ Integrate specification of [A] and [B] to CONTROL REV03 (SQ40i_ZIGZAG)
2) Changes of JUMPER SETTING
Useless additional JUMPER SETTING because of JUMPER Deletion and
PATTERN processing.
2. Revised Board Name
CONTROL REV03 (SQ40i_ZIGZAG)
3. Instruction
Use the board at the machine with SQ40i SINGLE or SQ40i BOTH or
SQ40i+ZD10 Attachment.
Remark
2. Electric/Electronic Specification (Option)
SQ4xi : CONTROL REV04 (SQ40i_ZIGZAG)
#Reference
1. History of Modification
NO
4
5
Date
2009/01/14
2009/09/22
Part Name / Part Number
Content
BD-000674,03
CONTROL REV04(SQ40i_ZIGZAG)
1. Modification the combined Control B/D for Change the type of Solenoid
which control the Air presser of Zigzag Device.
- Stabilization LIFT function from SHUT DOWN the Embroidery machine by
unstable factors (Emergency Stop S/W, Power Cut etc)
1. Revision of SQ40i_ZigZag Control B/D
: CONTROL REV04 (SQ40i_ZIGZAG), BD-000674,03
2. Change connecting method and quantity of Power Cable for Zigzag Air
presser Solenoid.
1)Q’ty : Previous(1EA) => Recent(2 EA), (Per one Solenoid for Zigzag)
2)Cable Connection : After checking connection of each Device (ODD,EVEN)
at LEFT and RIGHT
①Connect with "LIFT_DN" of Zigzag Control board and "A" part of Solenoid.
② Connect with "LIFT_UP" of Zigzag Control board and “B" part of Solenoid
※ Be scheduled to make a version with this function for each M/C Series.
BD-000674,04
CONTROL REV04A
(SQ40i_ZIGZAG)
1. Improve DSPIC30F6010 and DSPIC30F6010A IC for preventing from a Heat.
- Attach Heat sink on the IC
1.Changes
1) Part name of Heat sink and manufacturer: 1308B, CJ Electronics
2) Attaching Method of Heat sink
- Adherence with applying high-strength adhesive (Loctite) on the IC and
bottom of Heat sink.
(Regarding Loctite goods and instructions, refer to Remark/Attachment)
3)Applied Board: 7 kind of board which is with DSPIC30F6010 and 6010A IC.
①CONTROL (ZIGZAG)REV05A ②(DM-ZZ)THSB REV03A
③(SB-ZZ)THSV REV05C
④CONTROL REV04A SQ40i-ZIGZAG
⑤SDB(BOTH-ZZ) REV02B ⑥TSHB(DM) REV04C
⑦CONTROL(LF-FNT) REV04
Remark
2. Electric/Electronic Specification (Option)
SQ4xi : SDB REV02B (INDI-DOUBLE)
+5V
CN1
+5V
1SS294(A9)
R1
1KΩ
D2
+5V
R2
1KΩ
+5V
D4
+5V
104
R12
1KΩ
10KΩ
10KΩ
C17
GND
R81
R82
0Ω
0Ω
R83
R84
미삽
미삽
GND
R25
1KΩ
1
1
1
1
2
2
100KΩ
100KΩ
R20
R21
1
2
3
4
1
2
3
4
Sequin Positon
Moving Motor
Potentiometer #1
Sequin Positon
Moving Motor
Potentiometer #2
CN6
B4B-XH-A(yellow)
GND
GND
ECVAS201209B20585NBT
GND
GND
C22
102
DSPIC30F4011
RY7
8Y103
RY6
8Y103
GND
2
74HC244
1KΩ
2
C21
102
1SS294(A9)
CN5
B4B-XH-A (white)
+5V
1KΩ
R26
ZD7
R23
R22
D9
1
ENA
19
ENB
+5V
R24
ZD1
R19
1KΩ
74HC14
GND
18
16
14
12
9
7
5
3
ZD6
R16
GND
U2:C
1SS294(A9)
4MHZ
CLK
8
P/S
VSS
CD4021B
D8
YA1
YA2
YA3
YA4
YB1
YB2
YB3
YB4
ZD5
RY5
8Y103
U4
2
A1
4
A2
6
A3
8
A4
11
B1
13
B2
15
B3
17
B4
C20
102
104
33KΩ
2
Q6
12
Q7
3
Q8
+5V
C19
102
GND
1SS294(A9)
R17
1KΩ
33KΩ
10
9
Y1
33KΩ
1
2
4
8
C
E
SW2
SM1R7010
SECOND
SWITCH
GND
D7
+5V
R18
E
16
10KΩ
7
A
6
B
5
C
4
D
13
E
14
F
15
G
1
H
1
2
4
8
C
R15
1KΩ
74HC14
GND
+5V
VDD
1SS294(A9)
GND
R13
R14
104
+5V
RY4
8Y472
U5
11
SEL
GND
D6
C18
+5V
RY3
8Y472
FIRST
SWITCH
SW1
SM1R7010
RY2
8Y103
RY1
8Y103
C14
102
U2:B
GND
104
+5V
104
104
C15
GND
- Running 2 of Motors for working with 2 kind of
Spangle individually.
(Applied CAN Communication)
18
16
14
12
9
7
5
3
74HC244
GND
R11
10KΩ
B4B-XH-A (white)
ID
SETTING
YA1
YA2
YA3
YA4
YB1
YB2
YB3
YB4
1
ENA
19
ENB
C13
102
1SS294(A9)
C24
1
2
3
4
C16
Function and Roles
1SS294(A9)
GND
74HC14
CN2
SERIAL
[from THSB B/D]
U1
2
A1
4
A2
6
A3
8
A4
11
B1
13
B2
15
B3
17
B4
C1
102
U2:A
GND
+5V
C23
104
104
104
104
104
104
104
104
C11
C12
104
104
C9
C10
104
C7
C8
C5
D1
C6
GND
C3
C2
B5B-XH-A (white)
C4
1
2
3
4
5
MCU
DOWNLOAD
GND
GND
D10
1SS294(A9)
U2:D
+5V
R27
1KΩ
74HC14
C25
102
CN7
CAN
(WHITE)
1
2
3
GND
R28
120Ω
B3B-XH-A (white)
JP2
1
2
GND
2.54mm 2P (SIDE)
GND
+5V
+5V
+5V
0Ω
0Ω
R29
3.3KΩ
74HC14
1KΩ
1KΩ
1KΩ
+5V
C27
0.1uF/16V
U9:A
74HC14
U8:B
+5V
U10:A
+5V
PTC1
RXE250
R40
74HC08
R42
3.3KΩ
U10:B
ZD8
15KP120A
74HC14
74HC08
1
2
C33
0.1uF/16V
U10:C
D12
D10LC40
C28
103/100V
CN9
74HC14
74HC08
Q1
24-GND
U9:D
R43
1
100Ω
U10:D
GND
47KΩ
1
2
3
4
5
6
74HC14
74HC08
2
2
Q2
1
1
2SK2508 3
3 2SK2508
Q3
R44
R45
100Ω
100Ω
3
1
U9:C
1
C32
0.1uF/16V
GND
CN10
B 2B-XH-A
D11
D10LC40
2
2
74HC08
3
U8:A
R41
3.3KΩ
GND
AIR
PRESSURE
SENSOR
+24V
74HC14
74HC08
U9:B
미삽
미삽
[HEAD_SWITCH_SIG]
[HEAD_LED_SIG]
C29
S 9B-XH-A
C26
0.1uF/16V
U2:F
R31
R32
R33
R34
미삽
미삽
104
R35
R36
R37
R38
R39
C31
Main Components
R30
3.3KΩ
U2:E
1
2
3
4
5
6
7
8
9
C30
FROM
THREAD
SENSING B/D
+5V
10KΩ
10KΩ
10KΩ
10KΩ
R79
R80
CN8
2
2
Q4
1
1
2SK2508 3
3 2SK2508
R46
ECVAS201209B20585NBT
2
ZD9
GND
GND
24-GND 24-GND
PTC2
RXE250
R47
74HC08
2
74HC14
24-GND
74HC14
U12:E
U8:D
R51
100Ω
2
2
GND
U7,U11
D17
D10LC40
2
2
D18
D10LC40
R60
100Ω
[미 삽 처 리 ]
GND
+24V
D19
1N4004[미 삽 ]
Q15 2
R66
3
2 Q11
1
1
2SK2508 3
100Ω[미 삽 ] 1
CN15
B 3P-VH[미 삽 ]
3 2SK2508
Q12 2
R61
R62
100Ω
100Ω
1
3 2SK2508
+24V
NEC
R67
100Ω[미 삽 ]
R72
100Ω[미 삽 ]
24-GND 24-GND
1
PTC4
RXE250
LEFT
LIFT(EVEN)
1
2
3
+24V
D21
1N4004[미 삽 ]
R65
CN17
B 3P-VH(RED)[미 삽 ]
Q21 2
1
ZD20
15KP120A
RIGHT
LIFT(ODD)
1
2
3
+24V
2SK2508[미 삽 ] 3
D24
1N4004[미 삽 ]
D22
D10LC40
D23
D10LC40
방열판사용
+24V
+12V
1
2
3
RIGHT
LIFT(EVEN)
SIP
Q15,Q16,Q21,Q22
TOSHIBA
FET
2SK2508
SIP
Q1.Q2,Q3,Q4,
Q5,Q6,Q7,Q8,
Q10,Q11,Q12,Q13,
Q17,Q18,Q19,Q20,
TOSHIBA
1SS184 (B3)
1SS181 (A3)
SMD
SMD
1SS294 (A9)
SMD
D10LC40
DIP
1N4004
LEAD
다이오드
제너다이오
드
D15
D16
D1,D2,D4,D6,
D7,D8,D9,D10
D11,D12,D13,D14,
D17,D18,D22,D23
D19,D20,D21,D24
15KP120A
DIP
ZD8,ZD10,
ZD15,ZD20
MBR360
SIP
ZD21
ZD1,ZD5,ZD6,
ZD7,ZD9,ZD11,
CHIP
ECVAS201205B15860NB
SMD2012 ZD12,ZD13,ZD14,
VARISTOR
T
ZD16,ZD17,ZD18,
ZD19
Not used
KEC
KEC
TOSHIBA
SHINDENGEN
델타
LittelFuse
ONSEMI
JOINSET
Not used
1
VIN
+12V
24-GND
1
2
3
4
LM2576-5
B4P-VH-FB-B
2SK2508
C42
104/100V
R78
C44
100uF/50V
FB
GND
L9
OUTPUT
2
100uH/3A
ZD21
MBR360
C45
104
0Ω /1W
GND
24-GND
4
R68
2 Q18
1
1
2SK2508 3
3 2SK2508
GND
C43
1000uF/50V
24-GND 24-GND
2SK2508[미 삽 ] 3
24-GND
24-GND
24-GND
47KΩ
103/100V
CN18
Q17 2
24-GND
100Ω
1
24-GND
+5V
U13
C41
330uF/50V
POWER
INPUT
(WHITE)
FET
100Ω[미 삽 ]
C40
CN19
B 3P-VH(RED)[미 삽 ]
Q19 2
R69
R70
100Ω
100Ω
2 Q20
1
1
2SK2508 3
3 2SK2508
Q22 2
R73
CN20
LEFT
Sequin Position
Moving Motor
B6B-XH-A (white)
100Ω
CN16
B 3P-VH[미 삽 ]
R74
R75
R76
R77
PHI
Q9,Q14
R63
LEFT
LIFT(ODD)
1
2
3
D20
1N4004[미 삽 ]
Q16 2
10KΩ[미 삽 ]
10KΩ[미 삽 ]
10KΩ[미 삽 ]
10KΩ[미 삽 ]
U6
SMD
1
2
3
4
5
6
2 Q13
1
2SK2508 3
24-GND 24-GND
2SK2508[미 삽 ] 3
5
ON/OFF
3
GND
SMD
47KΩ
103/100V
+24V
MOT
82C251
C38
CN14
1
24-GND
1KΩ
2
1
1
1
1
3
PTC3
RXE250
Q14
2SC1623 (L6)
MOT
2SC1623 (L6)
SWF
FRONT VIEW
74HC14
1KΩ
R64
RIGHT
FEED MOTOR
B6B-XH-A (yellow)
100Ω
24-GND 24-GND
2SK2508[미 삽 ] 3
TR
R54
R57
KSD02H
SMD
1
GND
GND
4538
1
2
3
4
5
6
Q8
3 2SK2508
3
U1,U4
2
1
SMD
2
1
2SK2508 3
74HC14
D16
1SS181(A3)
Q10 2
GND
100Ω
GND
2
74HC244
MICROCHIP
R59
R53
100Ω
+24V
3
C39
104
Q7
R52
24-GND 24-GND
1
U3
L5
L6
L7
L8
MMZ2012R601A
2
SMD
330Ω
ECVAS201209B20585NBT
ZD16
2
ZD17
2
ZD18
2
ZD19
2
IC
dsPIC30F4011
R58
2
1
3 2SK2508
ZD15
15KP120A
1
1
2
3
4
5
B5B-XH-A (yellow)
Q6
1
2SK2508 3
74HC14
U12:F
74HC08
CN13
RIGHT
SWITCH
1
1
2
1
74HC14
U12:D
+5V
MOT
47KΩ
103/100V
3
GND
1
104
104
Q9
2SC1623 (L6)
GND
GND
C34
3
GND
U12:B
74HC14
U12:C
1KΩ
C37
R56
C36
ECVAS201209B20585NBT
1
C35
104
D14
D10LC40
CN11
Q5
U8:C
U12:A
1
1KΩ
R49
R55
R48
L1
L2
L3
L4
MMZ2012R601A
2
U2,U9,U12
330Ω
3
1
SMD
B5B-XH-A (white)
R50
D13
D10LC40
74HC14
U9:F
D15
1SS184(B3)
1
74HC14
FAIRCHILD
HITACHI
1
2
3
4
5
1
U5
U8,U10
LEFT
SWITCH
1
SMD
SMD
ZD10
15KP120A
U9:E
+5V
CN12
CD4021B (SOP)
74HC08
2
+5V
3
+5V
3
note
10KΩ
Make
10KΩ
reference
3
insertion
ZD11
2
ZD12
2
ZD13
2
ZD14
2
the name of
an article.
SWF
FRONT VIEW
+24V
24-GND 24-GND
GND
a section
LEFT
FEED MOTOR
B6B-XH-A (white)
100Ω
24-GND 24-GND
R71
100Ω
1
2
3
4
5
6
RIGHT
Sequin Position
Moving Motor
B6B-XH-A (yellow)
2. Electric/Electronic Specification (Option)
SQ4xi : SDB REV02B (INDI-DOUBLE)
Roles of each Components of SDB REV02B (INDI-DOUBLE)
Circuit Diagram
Explanation
방열판사용
+12V
+5V
- LM2576-5 Regulator receive Max 45V voltage, and output +5V
as fixed voltage. Its output current is 3A.
U13
VIN
4
FB
LM2576-5
5
ON/OFF
3
GND
1
- This Regulator receive DC 12V and output DC +5V in the SDB REV02B
(INDI-DOUBLE) Board
L9
OUTPUT
2
100uH/3A
ZD21
MBR360
C43
1000uF/50V
Thread Sensing Board receive power as DC 24V and 12V from Control
Box, DC 12V is converted by LM2576-5 and used for operating voltage
of each device.
DC 24V is used for operating voltage for Sequin Motor and Feeding Motor.
GND
+24V
C41
330uF/50V
♡ Reference: Zero Ohm(Ω) Resistor : This is connected with electrical
and connected with Ground that is set standard for Potential Voltage.
But if you need to minimize side effect from each other, set the Power
Ground and Signal Ground each, and let it be connected at only
one part slightly.
C42
104/100V
CN20
+12V
1
2
3
4
24-GND
B4P-VH-FB-B
R78
C44
100uF/50V
0Ω /1W
GND
24-GND
C45
104
This will make high current(cause of noise) rotate in only Power Ground,
then high current cannot flew to signal ground of narrow connection
at Power Ground easily. So, it can help stable operate of entire circuit.
2. Electric/Electronic Specification (Option)
SQ4xi : SDB REV02B (INDI-DOUBLE)
`
Coil Capacity Graph
field for DC 24V Input
Voltage and 3.0A
Output Current
Circuit diagram
<LM2576-5 Regulator Capacity Select Graph>
① L1 100uH/3A Coil
- LM2576-5 Regulator receive DC 24V Input voltage from DDC and Output DC +5V/3A Current.
And its specification depends on graph of Data Sheet.
- Terms (Coil Inductance and Current Capacity) for selecting of Coil is decided by Maximum Input
Explanation
voltage and Maximum Output Current.
- Determined field of DDC Board is "L100", based on DC 24V and 3A Current
- Capacity of Coil is determined 100uH by graph, Current specification is determined 3A by Output
current condition and those are used at LM2576-5 Regulator.
2. Electronic Option Specification
SQ4xi : SDB REV02B (INDI-DOUBLE)
SDB REV02B (INDI-DOUBLE) - Role of Component
② ZD1 MBR360 Catch Diode
- Diode should have same as or more than maximum output Current capacity of LM2576-5 Regulator
- It has Current capacity of above condition, and can endure with short and continuous output of
LM2576-5 Regulator
- Reverse Voltage of Diode should be 1.25times of LM2576-5 Regulator input voltage. In case of DDC
Board, input voltage DC 24V should be 1.25times over than LM2576-5 Regulator input voltage (30V)
- We use MBR360 diode in DDC Board, it is 60V, 3A.
③ C1 100uF/50V Input Capacitor
Explanation
- Need Aluminum or Tantalum Electrolytic Bypass Condenser in input voltage pin(VIN) and ground
pin(GND) so that prevent instant noise voltage and stable working of Regulator.
- The Condenser of input Vol. should be near by Regulator, Capacity of Condenser should be Low
ESB(Equipbalent Series Resistance) value
- DDC Board에서는 100uF/50V Aluminum Electrolytic Condenser places to input Vol. in the DDC Board.
④ C2 1000uF/50V Output Capacitor
- According to property of LM2576-5 Regulator, it needs the Condenser in output Voltage so that getting
proper Ripple voltage and stable working.
- Condenser capacity in output Voltage part will be in 680uF~2000uF, it would be Aluminum Condenser.
- It is 1000uF in DDC Board.
2. Electronic Option Specification
SQ4xi : SDB REV02B (INDI-DOUBLE)
SDB REV02B (INDI-DOUBLE) - Role of Component
Circuit diagram
Explanation
Motor Control Circuit Ⅰ
+5V
+5V
R20
33K
C16
0.1uF/50V
J_PWM_A
U4:A
+5V
MC14538 IC senses PWM signal A, B from CPU, HIGH
signal(5V) outputs to #6, #10 pin.
R_EN
74HC08
R19
33K
C15
0.1uF/50V
J_PWM_B
GND
+5V
+5V
R16
10K
U5:C
R15
10K
U4:B
JUMP_ON
U5:D
74HC14
RUN_G
R_EN
74HC14
74HC08
When changing Jump On H →L, it passes INVERTER and mixes
with R_EN signal, so it is output as H. And reverse again,
RUN_G signal would be H -> L
2. Electronic Option Specification
SQ4xi : SDB REV02B (INDI-DOUBLE)
SDB REV02B (INDI-DOUBLE) - Role of Component
Circuit diagram
설명
RUN_G changes H to L, 74HC244 ENA would be ENABLE.
So PWM signal of A1~A4 output as YA1~YA4.
(Don’t use ENB(B1~B4) because Jump Motor(2 phase) uses
only 1EA)
D6 1SS294(A9)
U10
R24
1K
2
4
6
8
11
13
15
17
C21
102
D5 1SS294(A9)
GND
U5:A
R23
74HC14
1K
1
19
C20
102
A1
A2
A3
A4
B1
B2
B3
B4
YA1
YA2
YA3
YA4
YB1
YB2
YB3
YB4
18
16
14
12
9
7
5
3
R28
R27
R26
R25
10K
10K
10K
10K
ENA
ENB
74HC244
D4 1SS294(A9)
GND
1K
Output
YAn, YBn
L
H
When ENA, ENB signal
Is Low, An, Bn output
without reverse
GND
GND
R22
Input
ENA, ENB
An,Bn
L
L
L
H
H
X
Z
C19
102
D3 1SS294(A9)
U5:B
74HC14
GND
R21
1K
C18
102
GND
When ENA, ENB signal is hgh, it is not output regardless of if input
value. (An or Bn)
In case of Run _A and Run _／A, if they pass 74HC13 signal in I/O
board first same signal, they will output separately as A and A
signal.
2. Electronic Option Specification
SQ4xi : SDB REV02B (INDI-DOUBLE)
SDB REV02B (INDI-DOUBLE) - Role of Component
Circuit diagram
설명
+24V
Switching FET(2SK2508) through 74HC244 IC, step motor is
steped.
PTC1
RXE250
D12
D10LC40
C28
47KΩ
Circuit structure is made up 2 phase.
103/100V
R43
2
2
1
100Ω
Q2
1
2SK2508 3
3 2SK2508
Q3
R44
R45
100Ω
100Ω
24-GND 24-GND
2
3
1
3
1
CN9
Q1
24-GND
D11
D10LC40
2
2
R40
ZD8
15KP120A
2
1
Q4
1
2SK2508 3
3 2SK2508
R46
100Ω
1
2
3
4
5
6
LEFT
FEED MOTOR
FRONT VIEW
B6B-XH-A (white)
24-GND 24-GND
24V
+24V
24V
PTC1
RXE250
R40
0
C28
47KΩ
103/100V
CN9
Q4
1
K2508
R46
100Ω
1
2
3
4
5
6
LEFT
FEED MOTOR
SWF
FRONT VIEW
B6B-XH-A (white)
Running
SWF
Stop
Diode resistance is made up as FREEWHEELING circuit so
that removing Impulse in Sequin Motor.
2. Electronic Option Specification
SQ4xi : SDB REV02B (INDI-DOUBLE)
SDB REV02B (INDI-DOUBLE) 구성품의 역할
Circuit diagram
Explanation
ID Setting
ID Setting
+5V
When SW_Select signal output LOW from MCU, ENA is input
LOW and become ENABLE. ENB will be input HIGH and
become DIABLE, A1~A4 output TA1~TA4.
+5V
E
C
E
GND
1
2
4
8
1
2
4
8
SW2
SM1R7010
SECOND
SWITCH
U5
11
SEL
7
A
6
B
5
C
4
D
13
E
14
F
15
G
1
H
10
9
VDD
16
+5V
10KΩ
C
RY4
8Y472
2
Q6
12
Q7
3
Q8
R18
RY3
8Y472
FIRST
SWITCH
SW1
SM1R7010
CLK
8
P/S
VSS
CD4021B
GND
2. Electronic Option Specification
SQ4xi : SDB REV02B (INDI-DOUBLE)
#Reference
1. Design adjustment history
NO
Date
1
2008/02/14
2
3
2008/03/14
2008/03/31
Part name / No.
Contants
BD-000655,01
SDB REV02 (INDI-DOUBLE)
According to INDIVIDUAL SEQUIN DEVICE [SQ40i], notice of new Electronic
specification
BD-000655,02
SDB REV02 (INDI-DOUBLE)
According to INDIVIDUAL SEQUIN DEVICE [SQ40i], notice of new Electronic
specification
-First notice of Boot loader for SQ board version UPDATE
▶ Boot loader for SQ board version UPDATE
1. Individual SQ board Boot load
- File : ISQ_VER_BTv1.0(0x5d9b).hex
- checksum : 0x5d9b
2. Individual SQ Control board Boot loader
- File : ISQ_CTL_BTv1.0(0xcd78).hex
- checksum : 0xcd78
BD-000655,03
SDB REV02A (INDI-DOUBLE)
1.Notice : Mass-produce type and applied Voltage level changes of Chip
Varistor that is inserted in Normal Sequin, Individule Sequin and DM Sub
Control board.
(①BD-000277,07 ②BD-000529,05 ③BD-000655,02 ④BD-000673,02)
2. Revision of the boards.(4 types)
① Normal SQ board : BD-000277,07 -> BD-000277,08
② DM Sub Control board : BD-000529,05 -> BD-000529,06
③ INDIVIDUAL SQ board : BD-000655,02 -> BD-000655,03
④ SQ40I CONTROL board : BD-000673,02 -> BD-000673,03
※ Change type: ECVAL201205X34010NBT -> ECVAS201205B15860NBT
ECVAS201209B20585NBT -> ECVAS201205B15860NBT
4
2008/05/09
BD-000655,04
SDB REV02B (INDI-DOUBLE)
▶ Present making process of INDI-SEQUIN & INDI-CONTROL BOARD is not
proper and efficient because Coil and PTC Hole are not matched. So change
the Size properly.
▶ Coil : Extend, PTC : Reduce
* Revision Changes
1. INDI-SEQUIN : BD-000655,03 → BD-000655,04
2. INDI-CONTROL : BD-000673,03 → BD-000673,04
Remark
2. 전기전자 Option 사양
SQ4xi : MAG_ENC REV01
Circuit diagram
설명
√ 기본회로
마그네틱보드의 CN1은 마그네틱센서로 읽어드린 위치값을
전압으로 출력하는 콘넥터 이다.
A 부위는 자기장 강도 범위 경고. 액티브 로우이면 자기장 강도가 권장
한계를 벗어났다는 표시이다.
자기장 강도 범위 양호시 Green LED 점등
+5V
R4
330
+5V
+5V
LED2
GREEN
LED1
RED
CN1
1
2
3
Q1
√ AS5043의 회로 설명
C1
GND
L6
10uF
C2
R3
+5V
+5V
GND
33k
+5V
Vdd
R2
ADC1
R5
ADC2
D7
D6
150k
27k
103
Vzap
BC1
C3
1
2
3
4
5
6
7
8
9
10
4.7k
C2<101
R3>4.7K
R1
CN2
101
104
D4
D2
D5
GND
GND
GND
GND
GND
AS5043은 3.3V±10% 또는 5V±10%로 동작한다. 이는 내부 3.3V 로우
드롭아웃(LDO) 전압 레귤레이터를 이용해서 가능하다. 내부 블록이 언
제나 3.3V로 동작하므로 코어 전원 전압이 언제나 LDO 출력으로부터 제
공된다.
5V 동작을 위해서는 5V 전원을 VDD5V 핀으로 연결하고 VDD3V3(LDO
출력)은 1…10μF 커패시터로 버퍼링해야 한다. 이 커패시터는 전원 핀
에 가깝게 탑재해야 한다.
VDD3V3은 내부용으로서 외부 부하로 로드하지 않아야 한다.
디지털 인터페이스 I/O의 전압 레벨이 VDD5V 핀의 전압에 상응한다. 이
핀으로부터 I/O 버퍼가 제공되기 때문이다
어느 경우이든 VDD5V 핀에 가까운 위치에 100nF의 버퍼 커패시터가 권
장된다.
3. Circuit Interaction
# THSB REV05C(SB_ZZ), BD-000637,05
D6 1SS294(A9)
U10
2
A1
4
A2
6
A3
8
A4
11
B1
13
B2
15
B3
17
B4
+12V
7
5
3
1
R24
102
D5 1SS294(A9)
U5:A
-Option 사양인 Zigzag Device 를 구동할수
있도록 Motor 모터 구동 회로 추가
ND1
ND2
ND3
ND4
ND5
ND6
ND7
ND8
ND9
ND10
ND11
ND12
ND13
ND14
ND15
ND1
ND2
L1
L2
L3
L4
L5
/SWITCH
/LAMP
BEAD
BEAD
BEAD
BEAD
BEAD
B3
N1
D8
B3
N2
B3
N3
D9
ND4
D10
B3
N4
ND5
D11
B3
N5
ND6
D12
B3
N6
ND7
D13
B3
N7
ND8
D14
B3
N8
ND9
D15
B3
N9
ND10
D16
B3
N10
1
Q2
2
3
L6
+12V
1
Q1
2
3
L6
1
3
5
7
6
INH
11
A
10
B
9
C
3
X
VDD
2
4
6
8
D17
ND11
1
Q4
2
3
L6
1
Q3
2
1K
3
L6
102
1K
Q5
2
3
L6
B3
D18
B3
ND13
D19
B3
N13
ND14
D20
B3
N14
ND15
D21
B3
N15
ND12
10uF/16V
GND
13
X0
14
X1
15
X2
12
X3
1
X4
5
X5
2
X6
4
X7
N7
N6
N5
N4
N3
N2
N1
GND
6
INH
11
A
10
B
9
C
+5V
- 실감지보드 회로에 Zigzag Motor 모터
구동 회로 추가
+5V
GND
* WRITING 안 정 성
확 보 를 위 한 C30 삭 제 .
(2006.04.26)
+5V
33K
C16
R21
1K
+5V
PROGRAM_DATA
PROGRAM_CLK
R120
+5V
U4:B
JUMP_ON
RUN_G
R_EN
J_PWM_B
미삽
+5V
ZZ_ON/OFF
+5V
1
3
C52
1
U33:E
1K
B 3P-SHF-1AA
D34
1SS181(A3)
2
471P
R47
2
OUT_B
100
2
103/400V
1
3
3
OUT_/A
Q8
1
2SK2508
33K
33K
2
Q7
R34
IN_/B
100
R36
IN_B
100
2SK2508
2
Q10
1
IN_/A
1
2SK2508
3
3
R37
100
IN_A
24-GND
24-GND
CN9
74HC08
SMD
U4,U24
74HC14
4051
MC14538
MCP25020
74HC32
LM358
3414
LM2576T-5
AM26LS32
SMD
SMD
SMD
DIP
SMD
SMD
SMD
DIP
SMD
U5,U6,U16,U33
U7,U8
U9,U22
U12
U13
U14
U15
U17
U18
2SC1623 (L6)
SMD
C3198
TO-92
2SK2508
SIP
Q7,Q8,Q9,
Q10,Q13,Q14,
Q15,Q16
IRFS644B
SIP
Q11
1SS181 (A3)
SMD
1SS184 (B3)
1SS294 (A9)
TI
LM2576-5
자수기
자수기
자수기
오류 정정
자수기
자수기
자수기
오류 정정
자수기
Q1,Q2,Q3,
Q4,Q5,Q6
NEC
자수기
Q12
KEC
자수기
TOSHIBA
자수기
FAIRCHILD
자수기
D1,D26,D27,
D31,D34
KEC
D34 추가
SMD
D2,D7,D8,D9,
D10,D11,D12,
D13,D14,D15,
D16,D17,D18,
D19,D20,D21,
D25,D28,D32,D33
KEC
D33 추가
SMD
D3,D4,D5,D6,
D40,D41,D42,
D43,
TOSHIBA
자수기
D10LC40
SIP
D22,D23,D29,
D30
SHINDENGEN
자수기
1N4004
5KP120A
MBR360
LEAD
DIP
DIP
델타
프론티어
ONSEMI
자수기
자수기
자수기
다이오드
D24
ZD1,ZD2
ZD3
U6:E
U6:D
74HC14
74HC14
SPWM_A
SPWM_B
SEQ_DATA
SEQ_CLK
RIGHT_LEFT
D25
1SS184(B3)
R40
L6
AIR_ERROR
C31
471P
GND
1K
BEAD
D26
1SS181(A3)
R1
120
VDC
RE-H032TD-1130
CAN
GND
1
2
GND
+5V
RE-H022TD-1130
GND
1-2 : MOTOR
2-3 : SOL
B3B-XH-A
J1
S 9B-XH-A
24-GND
1
2
3
CAN_H
CAN_L
CAN_TX
CAN_RX
JUMP TYPE SETTING
1
2
3
CN3
1
2
3
4
5
6
7
8
9
2
10K
C76
1000uF/50V
GND
HOLDING
SOLENOID
+24SV
GND
TO SEQUIN B/D
+5V
CN7
+5V
U6:B
R42
N_INH2
미삽
LASER
POINTER
R14
R31
D24
470
10K
1N4004
1
2
B2P-NV
/NP3
74HC14
U4:D
R48
4.7K
R49
4.7K
/HOLDING_SOL
/RESET
HOLDING_SOL
74HC14
PROGRAM_DATA
100
74HC08
R43
10K
10/3W
HEAD NO.
SELECTION
직렬저항 삽입
2006.07.07
GND
초기 기동시 안정동작
C
E
+5V
+24V
+12V
+5V
C24
C12
C13
C1
C2
104/100V
104
U7
104
U8
104
U1-7
104
104
104
U1-28 U1-40 U3
GND
24-GND
GND
E
CN5
U6:F
C25
100uF/50V
C
C3
C6
C7
C8
C11
C14
C17
104
U4
104
U5
104
U6
104
U9
104
U10
74HC14
TXD0
RXD0
GND
SERIAL
R2
R8
R9
R5
R4
R6
INPUT PORT 확 장 을 위 한 설 변
(07.10.05 SB_Zigzag)
R7
1
2
4
8
S/W_EN_A
S/W_EN_B
A1
A2
A3
A4
B1
B2
B3
B4
YA1
YA2
YA3
YA4
YB1
YB2
YB3
YB4
18
16
14
12
9
7
5
3
1
2
Q11
4
3
2
1
TLP628
S/W_1
S/W_2
S/W_3
S/W_4
IRF644
3
R30
3K
1
ENA
19
ENB
74HC244
GND
PC1
/HOLDING_SOL
U3
2
4
6
8
11
13
15
17
1
2
4
8
SM2R7010
1
2
3
4
B4B-XH-A
R3
4.7K 4.7K 4.7K 4.7K 4.7K 4.7K 4.7K 4.7K
SW1
2006.09.18
GND
R32
+5V
U6:A
R41
3
PHILIPS
PHILIPS
ONSEMI
MICROCHIP
TI
TI
JRC
ONSEMI
TI
R39
100uH/3A
0
R33
J2
2
ZD3
MBR360
B 4P-VH-FB-B
+24SV
CN4
L7
OUTPUT
1
자수기
반드시 6010A
자수기
자수기
2006.09.18
VENDER변경
C75
100uF/50V
3
MICROCHIP
MICROCHIP
PHILIPS
TI
RXF250
+12V
1
2
3
4
1
U1
U20
U2,U19
U3,U10,U27
DC
POWER
IN
+5V
+5V
PTC1
CN2
SMD
SMD
SMD
SMD
+5V
1
note
4
3
Make
FB
2
reference
1
2
B 2P-VH
+5V
VIN
5
ON/OFF
3
GND
insertion
B6B-XH-A
OUT_A
U17
1
+24SV
1
2
3
4
5
6
2SK2508
24-GND
방열판사용
+12V
* PTC용 량 변 경
(2008.07.30)
+24V
CN8
OUT_A
OUT_B
OUT_/A
OUT_/B
OUT_A
2
Q9
R35
GND
GND
2
FET
D22
D10LC40
OUT_/B
24-GND
24-GND
TR
C23
5KPI20A
SEQ_CLK
SEQ_DATA
3
R46
J_PWM_B
J_PWM_A
VDC
D23
D10LC40
2
ZD1
초기 기동시 안정동작
47K
R38
VDC
2006.07.07
1
SW_SELECT
SWITCH_SIG
WHEEL_SIG
* C23 103/400V 로 변 경
(2009.09.14)
(2006.06.27)
3
Y1 4MHZ
주요구성품
IC
GND
GND
따른 추가
2006.07.07
초기 기동시 안정동작
1
2
3
* 전 압 PEAK 방 지 에
미삽
2
LED_ON/OFF
L6
CN16
+24SV
미삽
GND
0Ω
ZZ_THSB
+5V
CAN_RX
CAN_TX
PROGRAM_CLK
PROGRAM_DATA
RXD0
TXD0
HOLDING_SOL
미삽
+5V
R51
3
1
471P
R121
미삽
미삽
R119
3
S/W_1
S/W_2
SPWM_A
S/W_3
SPWM_B
S/W_4
LED_ON/OFF
JUMP_ON
/NP3
/NP2
/NP1
/NP0
RIGHT_LEFT
AIR_ERROR
GND
C9
472P
R50
WHEEL_SIG
C10
R124
R123
D33
1SS184(B3)
10K
GND
IC
GND
2
R118
74HC14
R45
dsPIC30F4011
dsPIC30F6010A
82C251
74HC244
+12V
따른 추가
74HC14
3
+5V
+5V
* 지그재그 실감지 기능에
/RESET
ZZ_THSB
U5:F
1K
0.1uF/50V
74HC14
74HC08
10K
+5V
1SS181(A3)
R11
C15
74HC14
SWITCH_SIG
Q6
2
33K
U5:D
ICD2
GND
4.7K
R15
10K
1
3
R12
10K
74HC08
R19
U5:C
B 5B-XH-A
7
VEE
8
VSS
R_EN
+5V
10K
1
2
3
4
5
삭제
74HC14
1
U4:A
+5V
CN6
16
680
a section
C18
R16
C30
U5:E
D1
10K
J_PWM_A
R10
R13
10K
10K
0.1uF/50V
/RESET
2
D2
10K
102
GND
1SS184(B3)
10K
+5V
R20
GND
74HC14
N_INH2
4051
R29
the name of
an article.
74HC244
C19
J_PWM_B
1K
3
X
VDD
R25
GND
D3 1SS294(A9)
R17
GND
N12
R26
GND
N11
C22
R27
102
U5:B
1
IN_A
IN_/A
IN_B
IN_/B
R28
GND
R22
16
7
VEE
8
VSS
18
16
14
12
9
7
5
3
1
ENA
19
ENB
RUN_G
C20
YA1
YA2
YA3
YA4
YB1
YB2
YB3
YB4
D4 1SS294(A9)
GND
U7
FROM
WHEEL B/D
R23
74HC14
/NP0
/NP1
/NP2
/NP3
8Y102
U8
13
X0
14
X1
15
X2
12
X3
1
X4
5
X5
2
X6
4
X7
N15
N14
N13
N12
N11
N10
N9
N8
4051
+12V
RA-H201TD-1190
D7
ND3
J_PWM_A
RY2
CN1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
RUN_A
RUN_/A
RUN_B
RUN_/B
C21
GND
1
기능 및 역할
1K
RY1
8Y103
8
6
4
2
R18
10K
24-GND
24-GND
SB 시 리 즈 Zigzag Attachment 적 용 을 위 한 실 감 지 보 드 신 설
07년 10월 05일 신 설
SB 실 감 지 보 드 REV9.2를 기 초 로 함
①
②
GND
1
2
3
주요구성품
저항
120
SMD
R1,R44
신세라
4.7K
SMD
R2,R3,R4,R5,R6,R7,R8,R9,R48,
R49,R101,R111,R117,R120
신세라
10K
SMD
R10,R12,R13,R15,R16,R18,R25
,R26,R27,R28,R31,R39,R43,R5
2,R53,R54,R72,R87,R88,R94,R
95,R96,R97,R98,R103,R112,R1
13,R114,R115,R118
신세라
1K
SMD
R11,R17,R21,R22,R23,R24,R40
,R56,R63,R64,R75,R76,R91,R1
04,R105,R106,R107,R119
신세라
470
SMD
R14,R89,R99,R100,R110
신세라
33K
SMD
R19,R20,R50,R51,R57,R58,R71
,R82
신세라
680
SMD
R29
신세라
3K
SMD
R30
신세라
0
SMD
R33,R121
신세라
100
SMD
R34,R35,R36,R37,R41,R60,R61
,R65,R66,R67,R80,R83,R90,R9
2,R93,R102
신세라
47K
SMD
R38,R86
신세라
1.5K
SMD
R55,R73,R74
신세라
390
SMD
R68,R69,R70
신세라
3.3K
SMD
R77,R81,R84,R85,R108,R109
신세라
R42,R45,R46,R47,R116,R12
2
R123,R124 미삽
저항
W 저항
어레이
저항
가변 저항
자수기
10/3W
LEAD
R32
0.02/2W(F)
SMD
R59,R62,R78,R79
ABCO
8Y103
SMD
RY1,RY8
신세라
8Y102
SMD
RY2
신세라
8Y472
SMD
10K
DIP
VR1
TOCOS
20K
DIP
VR2
TOCOS
HMR
신세라
오류 정정
RY3,RY4,RY5 삭제
주요구성품
캐패시터
104
SMD
471P
472P
SMD
SMD
C1,C2,C3,C6,C7,C8,C11,C12,C
13,C14,C17,C42,C44,C45,C47,
C48,C49,C50,C51,C53,C54,C5
5,C56,C57,C58,C60,C61,C62,C
63,C70,C71,C72,C73,C74
C9,C31,C34,C38,C43,C52
C10
C18,C19,C20,C21,C35,C40,C6
4,C65,C66,C67
C32,C33
C36,C46
C37,C39
C15,C16,C68,C69
C22
C25,C75
C76
C23,C41
C24
L1,L2,L3,
L4,L5,L6
L7
SW1,SW2
신세라
신세라
신세라
C52 추가
신세라
102
SMD
15P
105
222
0.1uF/50V
10uF/16V
100uF/50V
1000uF/50V
103/400V
104/100V
SMD
SMD
SMD
SMD
SMD
SMD
DIP
DIP
DIP
MMZ2012R601A
SMD
100uH/3A
SM1R7010
8bit(16pin)
TLP628
DIP
SMD
DIP
DIP
16MHz
DIP
XTAL1
SUNNY
4MHz
SMD
무라타
LED
GREEN
DIP
Y1,Y2
LED1,LED2,
LED3
브라이트
PTC
RXE250
SIP
PTC1, PTC2
Raychem
헤더핀
헤더핀
2.54mm 2P
J1,J3
JST
2.54mm 3P
J2
JST
방열판
방열판(小)
dsPIC6010
방열판
1308B
(13(L)*13(W)*8(H))
dsPIC30F6010방열판(U20)
CJ전자
신설
락 타이트
Dissipator 746(item#374625)
DsPIC IC 표면에 해당용량분 작업
HERNON
신설
EF Activator 59(item#305907)
방열판 표면에 해당용량 칠한후
부착
HERNON
신설
JST
자수기
캐패시터
코일
스위치
포토커플러
크리스탈
레조네이터
락 타이트
경화제
점퍼 커넥터
소켓
SIP
2.54mm 2P
DIP-14p
PC1
U12
C68,C69 -> SMD
내압 400V적용
TDK
서울전자통신
FUJISOKU
OTAX
TOSHIBA
SW4 삭제
SW3 삭제
08.07.30
PTC1 변경
절연시트,
볼트 포함
U17적용
J2
DIP
신세라
신세라
신세라
니치콘
니치콘
니치콘
삼화
청도
삼화
U12
3. Circuit Interaction
# THSB REV05C(SB_ZZ), BD-000637,05
#참고 자료
1. 설계변경 이력 현황
NO
1
2
3
Date
2007/12/07
2008/01/22
2008/08/07
품명 /품번
설계변경 내용
BD-000637,00
THSB REV03 (SB_ZZ)
자수기 Zigzag Attachment 개발 완료에 따른 전자/전기 PART 사양 신설 통보서
현 양산 기종인 다두 SB(E)시리즈 자수기에 Zigzag Attachment 장착시 다음 구성품을 적용
함.
1. [신설] Zigzag Attachment용 엔코더 스텝모터 : STMO1-000013( Head수)
2. [신설] Zigzag Attachment용 콘트롤 보드 : BD-000636,00 (1번 실감지 앞에 장착, 1EA)
3. [신설] Zigzag Attachment용 실감지 보드 : BD-000637,00 (기존SB 실감지 대체,Head
수)
4. [신설] 케이블 5종 : CA-003226, CA-003401, CA-003402, CA-003458, CA003459(WD-24기종 전용) 케이블 1종(CA-003459) 최초 출고 기종마다 신설해서 통보예정.
BD-000637,01
THSB REV04 (SB_ZZ)
Head Switch OFF시 ZIGZAG 모터가 구동 되지 않도록 하는 기능 제거를 위한 ZIGZAG 실
감지 보드 설변 ▶ 시봉 TEST 결과 예상하지 못한 문제가 발생하여 상기 기능을 제거 함.
보드 REV 변경
▶ 회로, PCB, PL, 거버 변경함.
재고 소진 후 적용 할 것
REV03 출고시 조치 사항 : 패턴 1point 절단 후 J4에 JUMPER CAP 부착해서 출고
BD-000637,02
THSB REV04A (SB_ZZ)
1. 원가 절감의 일환으로 변경된 점프모터가 테스트 진행한 1차 샘플모터와 현 양산품과의
특성이 다름. (모터사양 변경 관련 통보서: DC-800-2007-00001454)
2. 전류 상승으로 인한 PTC동작으로 점프모터 작동하지 않는 문제 발생.
(점프 동작시에 바늘대 떨어짐)
1. 점프모터 관련된 실감지보드 내의 PTC용량 변경. (PTC160 -> PTC250)
1) 변경 보드(7종)
①BD-000222,09 THSB REV05C (NC-THS)
②BD-000232,12 THSB REV9.2B
③BD-000443,06 THSB REV03A (TA-JUMP)
④BD-000529,07 THSB REV04B (DM)
⑤BD-000620,03 THSB REV05C (NC-THS-1W)
⑥BD-000637,02 THSB REV04A (SB_ZZ)
⑦BD-000654,01 THSB REV02A (DM_ZZ)
비고
NO
Date
4
2008/12/19
5
6
7
2009/02/12
2009/09/22
2010/05/19
품명 /품번
설계변경 내용
BD-000637,03
THSB REV05A (SB_ZZ
1. 지그재그 디바이스별 HEAD ON/OFF 기능 추가를 위한 SB지그재그 실감지보드 설변건.
BD-000637,04
THSB REV05B (SB_ZZ)03
1. SB지그재그실감지보드의 실감지 부트로더가 최종버젼으로 적용되어
있지않아 최종버전으로 변경 및 적용함.
2. PL 오표기 부분 정정
3. 생산조율회의 내용 적용.
- 지그재그 디바이스별 HEAD ON/OFF기능 추가에 따른 구부품처리 방안.
1. 부트로더 변경
- PO-000096,04 관계 삭제후, PO-000356,01 적용
2. PL 오표기 부분 정정
- 회로도와 PCB의 레퍼런스(C30:C76)가 틀린것 수정
3. 생산조율회의 내용 적용
1)THSB REV05A (SB_ZZ)보드를 지그재그 디바이스 사용시에 즉시 적용
2)THSB REV04A (SB_ZZ)보드 및 이전 버젼 보드
- 완조립보드: 일반 SB실감지보드로 재고 소진.
- 베어보드: 테스트 완료후 추후 통보(현재 동작테스트 완료 및 정밀기지부 시봉의뢰 진
행중)
BD-000637,05
THSB REV05C (SB_ZZ)
BD-000637,06
THSB REV05D (SB_ZZ)보
드
1. DSPIC30F6010 및 DSPIC30F6010A IC의 발열 개선.
- 위 해당 IC에 방열판 부착
1.변경 내용
1)방열판 품명 및 제조사: 1308B, 씨제이전자
2)방열판 부착방법
- 해당 IC 윗면과 방열판 바닥면에 방열판 접착 전용 록타이트를 사용후 부착할것.
(록타이트 제품 및 사용법은 비고/첨부란 확인 및 적용)
3)적용 보드: DSPIC30F6010 및 6010A IC를 사용하는 보드류(7종).
①CONTROL (ZIGZAG)REV05A ②(DM-ZZ)THSB REV03A
③(SB-ZZ)THSV REV05C
④CONTROL REV04A SQ40i-ZIGZAG
⑤SDB(BOTH-ZZ) REV02B ⑥TSHB(DM) REV04C
⑦CONTROL(LF-FNT) REV04
자수기 전기종에 사용중인 다이오드 D10LC40(SHINDENGEN社)의 단종으로 인한 대체 부
품 변경 통보
▶단종사양인 D10LC40(SHINDENGEN社)을 SF10LC40UM(SHINDENGEN社)으로 변경함.
▶전기종에 적용하며 각보드 Gerber, Pcad, 회로도, PL 리비전함. (적용보드 영향문서 참고)
단 dos버전 cad file에 대해서는 회로도및 PL우선 변경하여 적용하며 7월말까지 재작성하
여
보드리비전 완료함.(해당보드 영향문서 참고)
비고