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SunStar SPS/A-Pattern Series User Manual

Electronically controlled pattern sewing machine
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Table of Contents

R
USER S MANUAL
SPS/A-Pattern Series
SPS/B-Pattern Series
SPS/C-Pattern Series
Electronically Controlled
Pattern Sewing Machine
(Electronic Control Part)

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Summary of Contents for SunStar SPS/A-Pattern Series

  • Page 1 USER S MANUAL SPS/A-Pattern Series SPS/B-Pattern Series SPS/C-Pattern Series Electronically Controlled Pattern Sewing Machine (Electronic Control Part)
  • Page 2 1. Thank you for purchasing our product. Based on the rich expertise and experience accumulated in industrial sewing machine production, SUNSTAR will manufacture industrial sewing machines, which deliver more diverse functions, high performance, powerful operation, enhanced durability, and more sophisticated design to meet a number of user’s needs.
  • Page 3 Organization of the Pattern S/M Model...

  • Page 6: Machine Safety Regulations

    MACHINE SAFETY REGULATIONS Safety instruction on this manual are defined as Danger, Warning and Notice. If you do not keep the instructions, physical injury on the human body and machine damage might be occurred. : This indication should be observed definitely. If not, danger could be happen during the installation, Danger conveyance and maintenance of machines.
  • Page 7 1-4) Machine Operation A(B) Pattern Series is made to sew patterns on fabrics and other similar material for manufacturing. Follow the following indications when operating the machine. Read through this manual carefully and completely before operating the machine. Wear the proper clothes for work. Keep hands or other parts of the body away from the machine operation parts(needle, shuttle, thread take-up lever, and pulley etc.) when the machine is being operated.

  • Page 8: 1-6) Caution Mark Position

    1-6) Caution Mark Caution mark is attached on the machine for safety. When you operate the machine, observe the directions on the mark. Position Position of Warning Mark [View from the right-front] 1-7) Contents of Marks Caution...
  • Page 9 I/O Board Dip Switch Setting...

  • Page 10: Basic Operational Method

    BASIC OPERATIONAL METHOD...
  • Page 11 N O : 0 0 0 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 1 5 0 0 B C : 0 0 0 P C : 0 0 0 0 Needle &...
  • Page 12 NO:000 NOR_SEW XS:100 YS:100 SP:2000 BC:000 PC:0000 NO:000 NOR_SEW XS:100 YS:100 SP:2000 BC:000 PC:0000 << Main Menu >> 0.Initialize 1.Parameter Set 2.Program...
  • Page 13 NO:000 NOR_SEW XS:100 YS:100 SP:2000 BC:000 PC:0000 << Main Menu >> 0.Initialize 1.Parameter Set 2.Program << Main Menu >> 2.Program 3.Bobbin Wind 4.Machine Test ORIGIN X:00000A N:00000 Y:00000A Function Code? <Function Code> 000:TRIM 001:SEC_ORG 002:PAUSE...
  • Page 14 N O : 0 0 1 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 2 0 0 0 B C : 0 0 0 P C : 0 0 0 0 N O : 0 0 1 N O R _ S E W...
  • Page 15 E r r 1 8 T h r e a d B r o k e n ! N O : 0 0 1 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 2 0 0 0 B C : 0 0 0 P C : 0 0 0 0...
  • Page 16 N O : 0 0 1 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 1 5 0 0 B C : 0 0 1 P C : 0 0 0 1 T h r e a d i n g .
  • Page 17 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 18 E r r 1 8 T h r e a d B r o k e n ! P r e s s E X E K e y N O : 1 2 3 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 1 5 0 0...

  • Page 19: Applicable Operation

    APPLICABLE OPERATION (-650,300) (650,300) (0,0) (-650,-300) (650,-300) < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 .
  • Page 20 0 0 7 : L I N E X : - 0 6 5 0 Y : 0 0 3 0 0 N : 0 0 4 L I N E N O N E X : - 0 6 5 0 A N : 0 0 1 9 3 Y : 0 0 3 0 0 A F u n c t i o n C o d e ? T R I M...
  • Page 21 P a t t e r n E x i s t ! O v e r W r i t e ? Y ( E N T E R ) / N ( E S C ) O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ?
  • Page 22 J U M P N O N E X : 0 0 0 0 0 A N : 0 0 0 2 7 Y : 0 0 3 0 0 A F u n c t i o n C o d e ? <...
  • Page 23 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 5 : P T R N W R I T E : 3 0 1 O R I G I N...
  • Page 24 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 0 4 : J U M P X : - 0 6 0 0 Y : 0 0 0 0 0...
  • Page 25 T R I M N O N E X : - 0 6 3 5 A N : 0 0 1 5 8 Y : 0 0 0 3 5 A F u n c t i o n C o d e ? C U R V E D B L N O N E...
  • Page 26 (SEC_ORG) (JUMP) (0,0) (PAUSE) (CIRCLE) (LINE) < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 . M a c h i n e T e s t O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A...
  • Page 27 < F u n c t i o n C o d e > 0 0 1 : S E C _ O R G < 0 0 2 : P A U S E 0 0 3 : E M P T Y 0 0 4 : J U M P X : - 0 1 0 0 Y : 0 0 0 0 0...
  • Page 28 C I R C L E N O N E X : - 0 1 0 0 A N : 0 0 0 9 8 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? T R I M N O N E X : - 0 1 0 0 A N : 0 0 0 9 9...
  • Page 29 0 0 7 : L I N E W I D E T H : 0 3 0 [ 0 . 1 m m ] 0 0 7 : L I N E X : 0 0 1 0 0 Y : 0 0 2 0 0 N : 0 0 4 L I N E...
  • Page 30 For DIR=0 For DIR=1 For DIR=2 For DIR=3 < < M a i n M e n u > > 2 . P r o g r a m < 3 . B o b b i n W i n d 4 .
  • Page 31 < F u n c t i o n C o d e > 0 1 9 : L I N E Z I G < 0 2 0 : C U R V E Z I G 0 2 1 : A R C Z I G 0 1 0 : L I N E Z I G...
  • Page 32 < < M a i n M e n u > > 2 . P r o g r a m < 3 . B o b b i n W i n d 4 . M a c h i n e T e s t O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A...
  • Page 33 0 5 1 : S T I T C H D R A G X : - 0 0 0 0 1 Y : - 0 0 0 6 0 N : 0 0 0 L I N E X : - 0 0 0 1 A N : 0 0 0 5 9 Y : - 0 0 6 0 A F u n c t i o n C o d e ? <...
  • Page 34 0 1 4 : P T R N R E A D : 0 0 1 J U M P X : 0 0 1 7 4 A N : 0 0 0 7 0 Y : 0 0 1 8 3 A F u n c t i o n C o d e ? <...
  • Page 35 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 36 0 5 2 : S T I T C H D E L N U M : 1 0 [ S T I T C H ] T R I M X : - 0 2 3 3 A N : 0 0 0 3 3 Y : 0 0 1 2 0 A F u n c t i o n C o d e ?
  • Page 37 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 38 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 39 < F u n c t i o n C o d e > 0 1 3 : S T I W I D T < 0 1 4 : P T R N R E A D 0 1 5 : P T R N W R I T E 0 1 3 : S T I R E A D...
  • Page 40 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 41 0 4 7 : C O P Y P T R N X : 0 0 1 7 4 Y : - 0 1 3 3 N : 0 0 0 L I N E X : 0 0 1 7 4 A N : 0 0 0 8 8 Y : 0 0 1 8 3 A F u n c t i o n C o d e ? O R I G I N...
  • Page 42 0 1 4 : P T R N R E A D : 0 0 1 L I N E X : - 0 0 1 2 A N : 0 0 0 3 2 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? <...
  • Page 43 (650,300) (0,0) (-650,-300) N O : 0 0 1 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 2 0 0 0 B C : 0 0 0 P C : 0 0 0 0 N O : 0 0 1 N O R _ S E W...
  • Page 44 500spm 2000spm 2000spm 2000spm JUMP) JUMP) 2000spm 2000spm 2000spm 2000spm (0,0) (0,0) 2000spm 2000spm < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 .
  • Page 45 L I N E X : - 0 3 5 0 A N : 0 0 0 7 5 Y : 0 0 3 0 0 A F u n c t i o n C o d e ? <...
  • Page 46 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 5 : P T R N W R I T E : 5 5 0 P a t t e r n E x i s t !
  • Page 47 500spm 2000spm 2000spm (JUMP) 2000spm 2000spm (0,0) 2000spm < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 .
  • Page 48 0 0 7 : L I N E X : 0 0 3 6 0 Y : 0 0 3 0 0 N : 0 0 1 L I N E N O N E X : 0 0 3 6 0 A N : 0 0 0 9 9 Y : 0 0 3 0 0 A F u n c t i o n C o d e ? L I N E...
  • Page 49 < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 . M a c h i n e T e s t JUMP (0,0) <...
  • Page 50 0 0 4 : J U M P X : - 0 1 5 0 Y : 0 0 3 0 0 N : 0 0 1 J U M P N O N E X : - 0 1 5 0 A N : 0 0 0 2 8 Y : 0 0 3 0 0 A F u n c t i o n C o d e ? <...
  • Page 51 0 0 7 : L I N E W I D E T H : 0 3 0 [ 0 . 1 m m ] 0 0 7 : L I N E X : - 0 3 0 0 Y : 0 0 0 0 0 N : 0 0 3 L I N E...
  • Page 52 T R I M N O N E X : 0 0 0 2 0 A N : 0 0 1 0 5 Y : 0 0 2 8 0 A F u n c t i o n C o d e ? 0 0 4 : J U M P X : - 0 1 0 0 Y : 0 0 2 8 0...
  • Page 53 0 1 5 : P T R N R E A D : 5 0 0 0 0 7 : L I N E X : - 0 3 0 0 A N : 0 0 0 8 5 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? <...
  • Page 54 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 5 : P T R N W R I T E : 5 5 2 O R I G I N...
  • Page 55 < P a r a m e t e r S e t > P A R A N o : 0 6 3 0 6 3 : S c a l e M O D E 1 ) D I S A B L E 2 ) S T I T C H _ L E N <...
  • Page 56 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 57 0 6 5 : C h a i n S e l e c t 1 . M A N U A L 2 . A U T O < - 3 . E X T E R N A L 0 6 6 : C h a i n C l a m p 1 .
  • Page 58 N O : 0 0 1 C H N _ _ 0 1 X S : 1 0 0 % Y S : 1 0 0 % S P : 2 0 0 0 B C : 0 0 0 P C : 0 0 0 0 N O : 0 0 2 C H N _ _ 0 1...
  • Page 59 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 60 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 61 < F u n c t i o n C o d e > 0 5 4 : M O V 2 n d O R G < 0 5 5 : A U T O T R I M 0 5 6 : S C A L E R E F E R 0 5 4 : M O V 2 n d O R G...
  • Page 62 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 63 0 1 5 : P T R N R E A D : 0 0 9 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D...
  • Page 64 < F u n c t i o n C o d e > 0 4 3 : S Y M M E T R Y X < 0 4 4 : S Y M M E T R Y 0 4 5 : S Y M M E T R Y C U R V E X : 0 0 0 0 0 A N : 0 0 0 2 3...
  • Page 65 0 1 4 : P T R N R E A D : 0 0 1 C U R V E X : - 0 0 6 0 A N : 0 0 0 4 0 Y : 0 0 0 3 9 A F u n c t i o n C o d e ? <...
  • Page 66 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 67 < F u n c t i o n C o d e > 0 4 0 : B A C K T A C K < 0 4 1 : C N D N S S T I 0 4 2 : O V L A P S T I 0 4 0 : B A C K T A C K...
  • Page 68 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 69 < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 . M a c h i n e T e s t O R I G I N N O N E X : 0 0 0 0 0 A N : 0 0 0 0 0...
  • Page 70 O R I G I N N O N E X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? <...
  • Page 71 < F u n c t i o n C o d e > C o d e N o : 0 7 6 S C A L E R E F E R N O N E X : - 0 3 0 0 A N : 0 0 0 9 7 Y : - 0 3 0 0 A F u n c t i o n C o d e ?
  • Page 72 < < M a i n M e n u > > 0 . I n i t i a l i z e 1 . P a r a m e t e r S e t 2 . P r o g r a m <...

  • Page 73: I N S E R T U S B

    E n t e r N u m b e r t o b e s t o r e d : 0 0 1 < < M a i n M e n u > > 6 . E M B C a l l N O : 0 0 0 N O R _ S E W X S : 1 0 0 %...
  • Page 74 E n t e r N u m b e r t o b e s t o r e d N O : 0 0 1 < < M a i n M e n u > > 7. OtherPtrnCall < <...
  • Page 75 0 7 8 . S e w i n g L i m i t 1 ) D I S A B L E 2 ) E N A B L E < < P a r a m e t e r S e t > 0 7 9 .
  • Page 76 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 77 0 8 3 . F F O r i g n 1 8 1 1 1 ) D I S A B L E < 2 ) E N A B L E 0 8 3 . F F O r i g n 1 8 1 1 1 ) D I S A B L E 2 ) E N A B L E <...
  • Page 78 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 79 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 80 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 82 < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 . M a c h i n e T e s t O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A...
  • Page 83 < F u n c t i o n C o d e > 0 5 7 : S E T < 0 5 8 : C H K I P 0 5 9 : T I M E D E L A Y 0 5 7 : S E T 1 1 : T R 3 <...
  • Page 84 0 5 7 : S E T T R 3 : O F F < T R 3 O F F N O N E X : 0 0 6 5 0 A N : 0 0 1 2 6 Y : - 0 3 0 0 A F u n c t i o n C o d e ? 0 5 7 : S E T...
  • Page 85 0 5 9 : T I M E D E L A Y D E L A Y : 0 0 5 0 [ x 4 m s ] T I M E D E L A Y N O N E X : 0 0 6 5 0 A N : 0 0 1 0 6 Y : 0 0 3 0 0 A...
  • Page 86 < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 . M a c h i n e T e s t O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A...
  • Page 87 0 6 3 : S E T T R 3 T R 3 : O F F < T R 3 N O N E X : 0 0 6 5 0 A N : 0 0 1 0 5 Y : 0 0 3 0 0 A F u n c t i o n C o d e ? L I N E...
  • Page 88 < < M a i n M e n u > > 1. Parameter Set < - 2. Program 3. Bobbin Wind 104 : Clmp Ref POS 1 ) R e f _ U P < - 2 ) R e f _ D O W N...
  • Page 89 < < M a i n M e n u > > 5 . P a t t e r n L i s t 6 . E M B C A L L M e m o r y ( 0 ) / U S B ( 1 ) T o E x i t ( E S C ) .
  • Page 90 No.001 No.002 No.001 < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 . M a c h i n e T e s t O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A...
  • Page 91 0 1 5 : P T R N W R I T E : 0 0 2 < < M a i n M e n u > > 2 . P r o g r a m 3 . B o b b i n W i n d 4 .
  • Page 92 O R I G I N X : 0 0 0 0 0 A N : 0 0 0 0 0 Y : 0 0 0 0 0 A F u n c t i o n C o d e ? 0 1 4 : P T R N R E A D : 0 0 1...
  • Page 93 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 94 < < M a i n M e n u > > 0 . I n i t i a l i z e 1 . P a r a m e t e r S e t 2 . P r o g r a m <...
  • Page 95 < < M a i n M e n u > > 0 . I n i t i a l i z e 1 . P a r a m e t e r S e t 2 . P r o g r a m <...
  • Page 96 < < M a i n M e n u > > 0 . I n i t i a l i z e 1 . P a r a m e t e r S e t 2 . P r o g r a m <...
  • Page 97 N O : 0 0 1 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 2 0 0 0 B C : 1 0 0 P C : 0 0 0 0 <...
  • Page 98 N O : 0 0 3 N O R _ S E W X S : 1 0 0 % Y S : 1 0 0 % S P : 2 0 0 0 B C : 1 0 0 P C : 0 0 0 0 N O : 0 0 3 N O R _ S E W...
  • Page 99 < < M a i n M e n u > > 1 . P a r a m e t e r S e t 2 . P r o g r a m 3 . B o b b i n W i n d <...
  • Page 100 HIGH OPERATING METHOD < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 .
  • Page 101 X - Y - M a i n M o t o r T e s t ..S P M : 0 2 0 0 d x : 0 2 0 d y : 0 2 0 S t a r t = 0 0 2 4 0 <...
  • Page 102 < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 . E M B C a l l <...
  • Page 103 P W M o u t p u t T e s t . P r e s s a n y k e y . . . < < M a i n M e n u > > 4 .
  • Page 104 < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 . E M B C a l l <...
  • Page 105 X P S e n 1 X 0 r g X M S e n 1 Y P S e n 0 Y 0 r g 1 T h S e n 0 < < M a i n M e n u > > 4 .
  • Page 106 < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 . E M B C a l l <...
  • Page 107 I P 3 0 1 I P 3 1 I P 3 2 1 I P 3 3 I P 3 4 1 I P 3 5 I P 3 6 1 I P 3 7 < < M a i n M e n u > > 4 .
  • Page 108 < < T e s t M e n u > > 1 2 . I n p u t 5 T e s t 1 3 . I n p u t 6 T e s t 1 4 . E n c o d e r 1 T e s t DIP10 1 DIP11 DIP12...
  • Page 109 < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 . E M B C a l l <...
  • Page 110 1 P F 2 F F 3 T T 4 T H 5 W P 6 F F L O f 7 T S 8 R V < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 .
  • Page 111 < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 . E M B C a l l <...
  • Page 112 < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 . E M B C a l l <...
  • Page 113 Origin Test. Press AnyKey < < M a i n M e n u > > 4 . M a c h i n e T e s t 5 . P a t t e r n L i s t 6 .
  • Page 114 < < T e s t M e n u > > 2 6 . A s y n c T e s t Async. Test Speed MotorStop...
  • Page 115 DESCRIPTION ON PARAMETER RELATED TO GENERAL SEWING OPERATION The order can be different depending on SPS/A/B/C-Series. The shadow area indicates factory-installed condition. Function Name : Manual Operation En/Dis Function No. : 000 000. Jog En/Dis It is to set moving of feed plate manually by using direction keys. 1) DISABLE It is impossible for feed plate to move by using direction keys.
  • Page 116 It is to set to move to the sewing start position or the 2nd origin by using direction keys 001. Jog Mode after making the feed plate move manually in the sewing available mode. 1) PTN_STR_POS It is to set up for sewing start position. (Factory installed condition) [ Contents ] Provided that the feed plate moves manually by using direction keys in the sewing available mode, the sewing operation will be started in that point without relation to the programmed sewing start position.
  • Page 117 It is to decide whether it moves directly to the sewing start position without passing through the 002. Machine Org1 machine origin after finishing sewing operation or it moves to the sewing start position through the machine origin. It is to move directly to the sewing start position without passing through machine origin. 1) DISABLE (Factory installed condition) [ Contents ] It moves directly to the sewing start position without passing through...
  • Page 118 004. Strt Ret Mod It is to set the moving mode to the sewing start position after finishing sewing operation. 1) SHORTEST It is to moves to the sewing start position through the shortest route.(Factory installed condition) [ Contents ] It moves directly to the sewing start position without passing through machine origin after finishing sewing operation by the shortest route.
  • Page 119 005. Bobbin Count The method of counting for the lower thread shall be determined. 1) UP_COUNT Counting by adding the number of finished sewing until reaching the target number (default value) [ Contents ] Whenever sewing of a design is fully completed, the number is counted up. [ Caution ] The timing for lower thread replacement is not indicated.
  • Page 120 007. Pattern Read It is to set the time to read pattern from USB flash drive or memory. 1) JOB_SETUP It is available to read patterns just before the preparation for sewing operation. [ Contents ] The machine can read patterns under the condition that ready lamp for sewing operation turns off.
  • Page 121 It sets the sewing speed acceleration when sewing starts. 009. Slow Start Default value: SLOW_START3 (In case of SPS/A/B-1507, SLOW_START1) Needle speed Needle Needle Needle Needle Needle Needle Needle Needle Speed Speed Speed Speed Speed Speed Speed Speed Remarks Series Features 1) SLOW_START0 1000...
  • Page 122 010. USER_SLOW_1 2~25[100ms] Setting [ Contents ] This function is used when the set value of Parameter "009. Slow Start Main Value Shaft Acceleration" is "7) User Define." 011. USER_SLOW_2 2~25[100ms] Setting Value [ Contents ] This function is used when the set value of Parameter "009. Slow Start Main Shaft Acceleration"...
  • Page 123 014. USER_SLOW_5 2~25[100ms] Setting Value [ Contents ] This function is used when the set value of Parameter "009. Slow Start Main Shaft Acceleration" is "7) User Define." 015. USER_SLOW_6 2~25[100ms] Setting Value [ Contents ] This function is used when the set value of Parameter "009. Slow Start Main Shaft Acceleration"...
  • Page 124 018. USER_SLOW_9 2~25[100ms] Setting [ Contents ] This function is used when the set value of Parameter "009. Slow Start Main Value Shaft Acceleration" is "7) User Define." 019. USER_SLOW_10 2~25[100ms] Setting Value [ Contents ] This function is used when the set value of Parameter "009. Slow Start Main Shaft Acceleration"...
  • Page 125 020. Max Speed It limits the maximum speed of sewing machine. 1) 2500spm(1306) It limits the speed under 2500spm. (Factory installed condition) 2) 2000spm It limits the speed under 2000spm. 3) 1700spm It limits the speed under 1700spm. 4) 1300spm It limits the speed under 1300spm.
  • Page 126 021. Feed End Pos It is to adjust an opening angle of feed plate transfer based on needle bar. 0~100 It is to adjust an opening angle of feed plate transfer according to the thickness of sewing materials. (Factory default : SPS/A-Series 0 , SPS/B-Series 24 , SPS/C-Series 50 ) [ Contents ] You should adjust the opening angle of feed plate transfer based on needle bar according to the thickness of sewing materials.
  • Page 127 It is to set a condition of upper feed plate when the feed plate moves again to the sewing start position after finishing sewing operation. 022. FF Operation [ Caution ] The setup of Function No. 013 Descent maintenance of upper feed plate has a priority.
  • Page 128 023. FF Close En It is to set descent maintenance of upper feed plate after finishing sewing is down. The machine does not maintain always the condition that the upper feed plate is down. 1) DISABLE (Factory installed condition) [ Contents ] The machine moves to the sewing start position after finishing sewing operation according to the setup of Function No.
  • Page 129 025. Pedal 2 Mode It is to set how to treat the signal of pedal 2(Pedal for sewing start). Sewing operation starts when you step on a pedal once and take off your foot from the pedal. 1) LATCH (Factory installed condition) [ Contents ] If you step on the pedal 2(pedal for sewing start) once, the signal is treated as effective one even though you take off foot from the pedal, and the sewing operation will be started.
  • Page 130 It is to set the descent time of presser foot. 027. PF Down Mode [ Caution ] This function is not available if Function No. 016. Pf Operation sets as 1)ALWAYS_DN. The presser foot goes down at the same time as main shaft turns. 1) WITH_STRT (Factory installed condition) [ Contents ] When the main shaft turns, the presser foot goes down simultaneously.
  • Page 131 It is setup the position of wiper operation. 029. WP Position [ Caution ] This function is not available if Function No. 018. WP operation sets as 1) ALWAYS_OFF. 1) BET_NEDL_PF It is to set the position between needle and middle presser foot. (Factory installed condition) [ Contents ] The position of wiper operation is set between needle and middle presser foot.
  • Page 132 It is to set the number of stitches when sewing operation starts. 031. Thrd Stitch 1 [ Caution ] This function is not available of Function No. 020. "Thrd Dectect" sets as "1) DISABLE". It is to set to detect the number of stitches. (Factory installed condition : "5"), 0~15 (SPS/C-5050, 8050 10) [ Contents ] If you start sewing operation under the condition that there s no thread...
  • Page 133 034. Jog Time 1 It is to set the manual operation of the feed plate to speed up. 0~9900ms It is to set the time for operation in speed level 1. (Factory installed condition : "400ms") Setting [ Contents ] When the feed plate is manually operated by the direction keys, it sets Value the time for feed plate transfer speed level 1.
  • Page 134 037. Con Key Tm 1 It is to set the feed plate transfer to speed up. 0~9900ms It is to set the time for operation in speed level 1. (Factory installed condition: "400ms") Setting [ Contents ] When pressing the FORW, BACK keys continuously to move the feed plate, set Value the time for the transfer speed at level 1.
  • Page 135 040. Elc WP On Tm It is to set the time for the electric wiper operation. 0~1020ms It is to set the time for the electric wiper operation. (Factory installed condition :"52ms") Setting [Contents ] When using the electric wiper, set the time for operation. Value The higher the level, the longer the operation.
  • Page 136 044. PF Down Time It is to set the standby time till the next step after the presser foot has been lowered. Set the standby time till the next step after the presser foot has been lowered. 0~1020ms (Factory installed condition : "152ms") Setting Value [Contents]...
  • Page 137 046. PF Full On Tm It is to set the beginning strength of the presser foot solenoid. It is to set the time period the highest electric current passes through the solenoid. 0~1020ms (Factory installed condition : 200ms ) [Contents] In cases of electric solenoids, set the beginning strength of the presser foot by adjusting the time period high current flows through (Full on time).
  • Page 138 047. FF Full On Tm It is to set the operation beginning strength of the feed plate solenoid. It is to set the time when the maximum current is permitted to solenoid. 0~1020ms (Factory installed condition : "200ms") Setting [Contents] In cases of feed plates with electric solenoids, the trimming strength at the Value beginning part can be adjusted by adjusting the Full on time.
  • Page 139 051. FFLFull On Tm It is to set the operation starting power of solenoid in left feed plate. It is to set the time when the maximum current is permitted to solenoid. 0~1020ms (Factory installed condition : "200ms") Setting [Contents] In case of using solenoid in left feed plate, the machine adjusts the time when Value the maximum current is permitted to solenoid (Full on time) for setting the power when relevant actuator starts operation.
  • Page 140 054. PF Duty It is to set the maintenance capacity of presser foot solenoid. It is to set the amount of holding current permitted to solenoid. 33~40% (Factory installed condition 80%), (SPS/A/B-1306, 1507 33) [Contents] In case of presser foot used with electronic solenoids, it sets the power that maintains the raised presser foot by permitting the adjusted current through duty to the solenoid.
  • Page 141 055. FF Duty It is to set the maintenance capacity of feed plate solenoid. It is to set the amount of maintenance current permitted to solenoid. 40~48% (Factory installed condition 80%), (SPS/A/B-1306, 1507 43) Setting [Contents] In case of feed plate used with electronic solenoid, it sets the maintenance Value power that presses the feed plate by permitting the adjusted current through duty to the solenoid.
  • Page 142 059. FFL Duty It is to set the maintenance capacity of solenoid in left feed plate. It is to set the amount of maintenance current permitted to solenoid. 30~80% (Factory installed condition : 80%) Setting [Contents] In case of using solenoid in left feed plate, it sets the power that keeps the Value relevant operation by permitting the adjusted current through duty to the solenoid.
  • Page 143 062. PTRN RD MODE It is to set the mode of searching and reading the pattern data. 1) DISABLE Searches and reads from the USB flash drive. [Contents] When reading a new pattern data, in other words, when the pattern data is being read while the ready lamp is off, the pattern data is searched and read only from the USB flash drive.

  • Page 144: Scale Mode

    063. Scale Mode It is to select and set the magnifying/demagnifying mode. 1) DISABLE The Magnifying/demagnifying function is not used. [Contents] The machine uses the pattern data in the programmed size. As the magnifying/demagnifying function is not selected, the X scale , Y scale keys are not operated.
  • Page 145 064. Chain Number It is to set the sewing mode and number of patterns to chain sew. 0~16 It is to set the number of patterns to chain sew. (Factory installed condition : 0) [Contents] When the number is set as "0", one pattern is repeated and the screen Setting indicates "NOR_SEW".
  • Page 146 066. Chain Clamp When the chain function is used, the clamp up/down can be set. 1)DISABLE The clamp down setting is unused (default). [Contents] In case where three patterns are used consecutively, when the first pattern work is finished, the second pattern is automatically called, and the clamp ascends. Therefore, after the pattern work, the clamp ascends.
  • Page 147 069. Trim Delay It is to set the delayed time before the wiper is operated after the thread is trimmed. 52~1020ms It is to set the delayed time after thread trimming. (Factory installed condition :"72") Setting [Contents] It is to set the delayed time of the wiper operation after the thread has been Value cut.
  • Page 148 071. FF Number The operation control of the feed plate is set as shown in the table below. [Contents] The feed plate and operation orders are set according to what kind of machine you have. Set the control order for paused pattern data operations and pedal control of the upper feed plate.
  • Page 149 072. FF PauseCntl When a pause code occurs, it is to set the operation condition of the upper feed plate. 1) CLOSE It keeps the upper feed plate in the lowered position. [Contents] When the operations is paused, the upper feed plates are all kept in the lowered position.
  • Page 150 074. Upper Clamp En Define whether to use upper feed plate. 1) DISABLE Sewing will be allowed when the upper feed plate is opened. [Contents] In either case of opening or closing the upper feed plate, press the left switch on the stepping stand to start sewing.
  • Page 151 On sewing mode, the user can zoom design based on machine origin, second origin, sewing starting 076. Scale Refer point and user-defined reference point. 1) MACHINE_ORG Zooming based on the machine origin (Factory Default) [Contents] Scaling up/down based on the current machine origin. 2) SECOND_ORG Zooming based on the second origin set by user.
  • Page 152 Designed to ensure the user to increase the mechanical sewing limit of the machine as desired 078. Sewing Limit SPS/C-Series can not be used. 1) DISABLE Not in use (When shipped out from the factory) [Contents] The sewing limit cannot be expanded. Use the sewing limit as defined by type. Setting Value 2) ENABLE...
  • Page 153 081. YPLUS Limit The user can increase the Y-axis forward direction of the sewing limit Set the size of Y-axis forward direction as desired. (At the time of the factory shipping, 1~250mm machines are set in line with their sewing limit by type) Ex: 6mm for 1306 type Setting Value...
  • Page 154 084. HOOKORG MODE To set the function of upper-lower shaft origin search motion after finishing sewing. 1) JOB_SETUP Not in use. [Contents] Do not apply the function of upper-lower shaft origin search motion. Setting 2) JOB_READY In Use (at the factory) Value [Contents] Use the function of upper-lower shaft origin search motion.
  • Page 155 087. ReverseAngle The function is to set reverse rotation angles during reverse rotation operation of machine. 1 ~40 It is available to set reverse rotation angles. (Factory installed condition: "15 ") Setting [Contents] It is possible to set reverse rotation angle. The reverse rotation angle, set when Value reverse rotation after trimming mentioned in Function No.: 76 is set at ENABLE, will be applied.
  • Page 156 090. Save Type It determines the place of saving design patterns. 1) SAVE USB Save in USB (Default value) [Contents] Save patterns in FDD. Setting 2) SAVE FLASH Save in Flash Memory Value [Contents] When USB has errors or there is no USB, design patterns can be conveniently saved in Flash Memory.
  • Page 157 093. Jump Speed This function is to set the jump speed. 1) SLOW_SPEED It sets the slowest jump speed. [Contents] 2)MIDDLE_SPEED It sets the medium jump speed (default). Setting [Contents] Value 3)FAST_SPEED It sets the highest jump speed. [Contents]To shorten the working hours, set the highest jump speed. It could save plenty of time. 094.
  • Page 158 This function is to use the external input signals to use Sewing Start, Emergency Switch, Clamp and Enter 096. Attatch Set Key. 1) DISABLE The function is disabled (default). [Contents] When the function is disabled, it is same as the previous usage. Setting 2) ENABLE The function is enabled.
  • Page 159 Set the needle thread holding time by the upper thread holder after trimming. 099. ThreadHoldTm Setting Value [Contents] The function prevents the remaining thread on the needle from being sown to the sewing materials or being entangled after trimming, affecting the sewing quality negatively.

  • Page 160: Program Lock

    102. Program Lock This function locks the program mode of the main menu. 1) DISABLE Disabled (Default) [Contents] When the function is disabled, the usage of program mode is as same as before. Setting Value 2) ENABLE In use [Contents] When the function is enabled, it is impossible to enter the program mode. 103.
  • Page 161 105. Jump EM Stop It disables or enables the emergency stop function during the jump section. 1) DISABLE [Description] Setting Value 2) ENABLE Enabled [Description] The needle gets heated due to the rubbing of the sewing material and the needle. To cool off the needle, 106.
  • Page 162 108. NeedleOffTime It sets the needle cooling off-time cycle. 00~100(1sec) Setting [Description] During the set time, cold air is not sprayed into the needle. To enable this function, Value "2)TIMER" should be selected in "11 NeedleCoolSet." The function that users setup the entry angle of the pneumatic thread trimming device 109.
  • Page 163 110. Thrd Hold Angle A user can set the entry angle of the pneumatic upper thread holder. 0°~100° A user can adjust the motion angle of the upper thread holder after setting the trimmer entry angle. [Contents] Normally, the upper holder device angle should start moving 40° to 60° behind the user-set trimmer entry angle.
  • Page 164 1) Function No. Related to Pattern Programming (Function numbers might be different depending on machine type.) Trimming Addition of trimming code. 2nd origin Set of the 2nd origin. Temporary suspension Temporary suspension in a particular point. One turn of sewing machine Processing without sewing.
  • Page 165 double reverse sewing Set the offset based on arc to create the same type of sewing data. Circle double reverse sewing Set the offset based on circle to create the same type of sewing data. Linear reverse sewing Create the opposite sewing data of the straight line data. Spline reverse sewing Create the opposite sewing data of curve data.

  • Page 166: Pattern Chart

    2) Pattern chart (Function numbers might be different depending on machine type.) NO. : 007 No. : 008 NO. : 009 No. : 010 Name : Linear sewing Name : Spline sewing Name : Arc sewing Name : Circle sewing No.

  • Page 167: Parameter Number Related To General Sewing

    3) Parameter Number Related to General sewing (Parameter numbers can be different depending on machine type.) Transfer of the feed plate by using direction keys Manual moving 1) DISABLE 1) Disable 2) ENABLE 2) Enable Starting position 2nd origin by 1) PTRN_STRT_POS 1) Moving the sewing starting position by using direction keys manual moving...
  • Page 168 Set the speed for the 5 needle. needle speed setting 1[100ms] 800ms 2~25[100ms] Set the speed for the 6 needle. needle speed setting 1[100ms] 1000ms 2~25[100ms] Set the speed for the 7 needle. needle speed setting 1[100ms] 1200ms 2~25[100ms] 1[100ms] needle speed setting Set the speed for the 8 needle.
  • Page 169 Operating time of elec type wiper 52[ms] 0~1020ms 100[ms] 0~1020ms (Waiting time for next operation) Returning time of elec type wiper Operating time of air type wiper 100[ms] 0~1020ms Returning time of air type wiper 100[ms] 0~1020ms (Waiting time for next operation) 152[ms] 0~1020ms Waiting time descending completion of presser foot...
  • Page 170 Sewing will be allowed whether the upper 1) DISABLE feed plate is opened or closed. Upper feed plate control Sewing will not be allowed when the upper 2) ENABLE feed plate is opened. User can define stitch value to move. Back/forth jump stitches 1~100 [Stitch] Zooming based on the machine origin.
  • Page 171 Upper thread holder setting The upper thread holder function is not used. 1) DISABLE (C-Series AIR BAG model) 2) ENABLE The upper thread holder function is used. It sets the time of holding the remaining needle thread after 500[ms] Upper thread holder time setting trimming by the upper thread holder.(0~5) The clamp sensor is disabled.

  • Page 172: Error List

    4) Error List Err 1 Main Motor Err! Error occurs in main motor Err 2 Synchro Err! Error occurs in synchronizer Err 3 Pattern Not Found! Related pattern is not available on the diskette Err 4 USB Empty USB flash drive is empty Err 5 USB-Read Err! Machine can t read a USB flash drive...
  • Page 173 Err 35 Over Current Over tem 133! Cutoff of IPM overcurrent to the main shaft board IPM Err 36 Over Current Abnormal 131! Motor overcurrent and connector abnormality Err 37 Over Load Err! 129! Motor overload error Err 38 EncoderRET Err! 128! No encoder RST signal Err 39 EncoderAB Err! 127...

  • Page 181: Emergency Recovery

    EMERGENCY RECOVERY 1) Emergency Recovery When Problems Occur in Flash Memory 1-1) When the Flash Memory (D:\> Drive) is not recognized Internal Memory Power off & ON! Formatting... Power On And then perform Copy(1)... Flash Memory Formatting is When formatting is completed, conducted automatically turn the power off and then turn it on...
  • Page 182 2) User's emergency self-restoration and operating program installation Follow the order as below. Turn the power on and press the User SetUp Mode EXE" key of the Operation Box To Format. 0 Key at the same time. Then, the Power On EXE Key To UpDate.

  • Page 183: Special Functions

    SPECIAL FUNCTIONS 1) Auto Call Function The function that a user can automatically call designs through the external input port can be added. In addition, the user can control the signals for Clamp, Emergency Switch, Enter Key, Sewing Start Pedal, and so on via the external input port.
  • Page 184 How to Use AUTO CALL (For SPS/A/B-Series) This is a function to call designs automatically. A total of 15 designs can be automatically called by using the four input sensors. It can be controlled by external inputs such as sewing start, emergency switch, clamp, and the enter key. In order to use the Auto Call function from SPS/A/B-Series, the existing I/O Board should be replaced with the I/O Board of SPS/C-Series.
  • Page 185 Cables connected by user (SPS/B, A-Series) Auto call function cable CA-003043,00Ä CN22 on the I/O board Adjacent sensor cable CA-002857,00 SMR-03V-N of the auto call function cable Connect the RA2611 connector of the auto call function cable to CN22 on the I/O board. See the 'Description on connector and jumper pin locations' below regarding the connector locations on the I/O board.
  • Page 186 Connector and jumper pin position Connector and jumper pin position on I/O board Connector for signal input (CN 22) Connecting the auto call function cable (connector: RA2611) Jumper pin for changing signal input power Changing jumper for sensor input power change The input power supply to the sensor can be altered to +5V / +24V by changing the BR jumper at the upper left side of the I/O board.
  • Page 187 How to Use AUTO CALL (For SPS/C-5050,8050) This is a function to call designs automatically. A total of 15 designs can be automatically called by using the four input sensors. It can be controlled by external inputs such as sewing start, emergency switch, clamp, and the enter key. The description below is related to 5050 and 8050.
  • Page 188 Cables connected by user (SPS/C-5050,8050) Auto call function CA-003044,00 Connector on the rear PC box side for sensor input cable CN16 on the I/O board Adjacent sensor cable CA-002857,00 SMR-03V-N of the auto call function cable Connect 1625-15Plug of the auto call function cable to the sensor input connector on the rear PC box. Connect XHP-9 to CN16 on the I/O board.
  • Page 189 Connector and jumper pin position Connector position on the rear side of the Connector and jumper pin positions on the I/O board PC box Description Connector for sensor signal input Connecting the auto call function cable (connector: 1625-15Plug) Connector for signal input [CN16] Connecting the auto call function cable (connector: XHP-9) Jumper pin for changing sensor input power supply...
  • Page 190 1-2) Function description upon using the operating program If the external input sensor signals explained above are properly connected, the user can automatically call the designs from #900 to #914 with the sensor signal, and it is possible to use Sewing Start, Clamp, Enter Key, and Emergency Switch.
  • Page 191 2) Design auto call through handy barcode The function enables automatic design call using the commercial barcode system, which provides various barcode specifications based on diverse formats. However, among the formats, only those with applicable specifications can be used. There are various types of barcode reading system. As long as they are compatible, they can be used. If barcode types are different, they may not be recognized.
  • Page 192 System Connection The figure shows the system connection of Metrologic MS5100 Eclipse Series. The serial port of barcode is inserted into the serial port on the side of the OP Box. The barcode label below is CODE39 and its barcode command is A003. A003 recognizes design number 003, and since up to three numerical digits can be recognized all the time, character information such as "A"...
  • Page 193 Before use, some parameters should be set up. The setting details are as follows: (Except for the barcode setting function, it is same to the existing AutoCall function.) A. Press the MODE key on the initial screen and select < < M a i n M e n u > > Parameter Set on the Main Menu.
  • Page 194 This function enables user to save user-defined parameter data in external storage devices (USB) while using the pattern device. The parameter data saved in external storage devices (USB) can be used to replace the current parameter data all the time. When using the parameter data saved in external storage device (USB), the parameter data of the current device is replaced with the parameter data of external storage device (USB).
  • Page 195 2) Parameter Read This is how to replace the revised parameter data in the pattern device with the parameter data saved in the external storage device. The procedures are as follows. The procedures are as follows: A. Press the MODE key on the initial screen and select <...

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