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Appendix 5: system schematic, 400v units, Cutmaster 25mm, L1 l2 l3 gnd – Tweco 25mm Cutmaster User Manual

Page 76

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CUTMASTER 25MM

APPENDIX

Manual 0-5080

A-6

APPENDIX 5: SYSTEM SCHEMATIC, 400V UNITS

A-09133_AD

A-09133_AD

5

5

4

4

3

3

2

2

1

1

D

D

C

C

B

B

A

A

24VAC

+12VDC

+12VDC

+12VDC

+12VDC

+12VDC

+12VDC

+12VDC

+5VDC

+12VDC

DWG No:

Sheet

of

Supersedes

Scale

Date:

Drawn:

References

Date

By

Revisions

Rev

PCB No:

Assy No:

Information Proprietary to THERMAL DYNAMICS CORPORATION.

Not For Release, Reproduction, or Distribution without Written Consent.

NOTE: UNLESS OTHERWISE SPECIFIED -

1. RESISTOR VALUES ARE EXPRESSED IN OHMS, 1/4W 5%.

2. CAPACITOR VALUES ARE EXPRESSED IN MICROFARADS (uF).

Chk: App:

TITLE:

Last Modified:

Size

SCHEMATIC,

42X1329

Wednesday, May 06, 2009

1

1

16052 Swingley Ridre Road,

Suite 300

St Louis, MO 63017 USA

CM52/82/12mm/20mm/25mm/A40/A60 380/400/415/600V

Thursday, March 27, 2008

13:16:29

VICTOR TECHNOLOGIES

VICTOR TECHNOLOGIES

VICTOR TECHNOLOGIES

C

DWG No:

Sheet

of

Supersedes

Scale

Date:

Drawn:

References

Date

By

Revisions

Rev

PCB No:

Assy No:

Information Proprietary to THERMAL DYNAMICS CORPORATION.

Not For Release, Reproduction, or Distribution without Written Consent.

NOTE: UNLESS OTHERWISE SPECIFIED -

1. RESISTOR VALUES ARE EXPRESSED IN OHMS, 1/4W 5%.

2. CAPACITOR VALUES ARE EXPRESSED IN MICROFARADS (uF).

Chk: App:

TITLE:

Last Modified:

Size

SCHEMATIC,

42X1329

Wednesday, May 06, 2009

1

1

16052 Swingley Ridre Road,

Suite 300

St Louis, MO 63017 USA

CM52/82/12mm/20mm/25mm/A40/A60 380/400/415/600V

Thursday, March 27, 2008

13:16:29

C

DWG No:

Sheet

of

Supersedes

Scale

Date:

Drawn:

References

Date

By

Revisions

Rev

PCB No:

Assy No:

Information Proprietary to THERMAL DYNAMICS CORPORATION.

Not For Release, Reproduction, or Distribution without Written Consent.

NOTE: UNLESS OTHERWISE SPECIFIED -

1. RESISTOR VALUES ARE EXPRESSED IN OHMS, 1/4W 5%.

2. CAPACITOR VALUES ARE EXPRESSED IN MICROFARADS (uF).

Chk: App:

TITLE:

Last Modified:

Size

SCHEMATIC,

42X1329

Wednesday, May 06, 2009

1

1

16052 Swingley Ridre Road,

Suite 300

St Louis, MO 63017 USA

CM52/82/12mm/20mm/25mm/A40/A60 380/400/415/600V

Thursday, March 27, 2008

13:16:29

C

A

B

24 VAC RETURN

J1

80

PCB4

AUTOMATION

INTERFACE PCB

OVER PRESSURE

INTERNAL ERROR

SHORTED TORCH

CONSUMABLES MISSING

START ERROR

PARTS IN PLACE

INPUT POWER

UNDER PRESSURE

81

ERROR IND FAULT

PCB3

8

9

82

7A

}

OK-TO-MOVE

OK-TO-MOVE

83

OK TO MOVE

1TORCH

Q2

PRIMARY POWER CONNECTIONS:

USE L1, L2, L3 & GND

*

5

6

}

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

29

34

35

36

37

38

39

}

E64

E35

78
79

-

+

-V_OUT_SIGNAL

/TIP_VOLTS

/TIP_SENSE

/460V_IN

/230V_IN

CUR_SET

/RAR (RAPID AUTO RESTART)

/INRUSH

/W1_ON

/SHDN

/TORCH_SOLENOID

/SOLENOID_ON

/OK_TO_MOVE

/FAN_ON

/LATCH_ACTIVE

/TORCH_SWITCH

/PIP

AC_ON

CSR

/TORCH_SOLENOID_DETECT

/OVERTEMP

V_IN

+12VDC

+12VDC

COMMON

COMMON

MAIN_PCB_ID

460_IN

+3.3VDC

TXD

RXD

COMMON

D

M-L

M-L

M-L

L-M

L-M

L-M

L-M

L-M

L-M

L-M

L-M

L-M

L-M

L-M

L-M

M-L

M-L

M-L

M-L

M-L

M-L

M-L

M-L

M-L

M-L

M-L

M-L

M-L

L-M

M-L

M-L

L-M

M-L

FULL FEATURED AUTOMATION INTERFACE PCB OPTION

CNC INTERFACE STANDARD ON A40 & A60 UNITS

CNC INTERFACE OPTIONAL ON CM52 & CM82 UNITS

(+)

L1

L2

L3

L4

T1

T2

T3

T4

/PIP

PCB2

/SOLENOID

Q1

380/400/415V

OR 600V

3 PH AC INPUT

/START

PCB1

N

A

F

N

A

F

24VAC RETURN

ATC CONNECTOR

/FAN

/FAN

24VAC SUPPLY

40 PIN RIBBON CABLE SIGNALS

LATCH

SET

RUN

RAR

40 CIRCUIT

RIBBON CABLE

}

MAX

90

85

80

75

70

65

MIN

J2

7

D1

To configure DIVIDED ARC VOLTS signal output

No jumper installed for ARC VOLTS /16.67

Jumper pins 1 & 2 for ARC VOLTS / 30

Jumper pins 2 & 3 for ARC VOLTS / 50

L1
L2
L3

GND

K1

D

C

To -V OUT 1

on PCB1

}

/START / STOP

*

*

AIR

INLET

FILTER

}

REGULATOR

INTRO ECO B1357

DIVIDED ARC VOLTS

(5A @250VAC / 30VDC)

SOLENOID

VALVE

/START / STOP

TP1

TP2

TP3

TP4

TP5

TP6

TP7

(+)

ATC

MAIN PCB ASSY

LOGIC PCB

(-)

(W/ 100K IN SERIES (2))

INPUT CAPACITOR PCB

(-)

GAS CONTROL

*

ARC VOLTS

GND

+12 VDC

+5 VDC

3.3 VDC

0.v - 5.0 VDC / 0-100PSI

1.8 VDC

POT. DEMAND

J2 PINOUT

1

3

4

7

8

11

12

14

TEST POINTS

GND1

GND2

GND3

+12V1

48V1

I_DMD_1

TIP_SEN

COMMON

COMMON

COMMON

+12 VDC SUPPLY

+48 VDC SUPPLY

CURRENT DEMAND

TIP DRAG SENSE

TEST POINTS

(Sink 50mA @12VDC)

AUTOMATION

TORCH SOLENOID

PRESSURE

TRANSDUCER

0-100PSI / 0-4.5VDC

INRUSH

RESISTOR

S

/INRUSH

/OVERTEMP

TEMP

CIRCUIT

D3

3.3VDC

TXD

RXD

D

SERIAL PORT

BIAS

SUPPLY

RWH

AA

RWH 03/31/09

*

EMI

CHOKE

EMI

FILTER

1

2

3

4

1

2

3

4

*

CE UNITS

ONLY

RWH

9

0

/

5

0

/

5

0

9

9

3

1

B

O

C

E

AB

*CM52/12mm/20mm/A40

C3 & C5 may not be installed

WORK1

WORK1

SEC1

SEC1

D1

D1

PRI 2

PRI 2

CHOKE1

CHOKE1

J1

J1

1

2

3

4

5

6

7

8

Q5

PILOT IGBT

Q5

PILOT IGBT

NTC

NTC

J3

J3

1

2

3

J3

J3

1 2 3

+ C1-C4*

+ C1-C4*

W1

W1

AC3

AC3

70

70

MOT1

MOT1

+

-

W1

W1

J4

J4

1

2

3

4

5

MTH1

MTH1

J7

J7

1 2

TIP1

TIP1

MTH4

MTH4

J1

J1

1

2

3

4

5

6

7

8

P10

P10

1

2

3

4

5

6

7

8

1 2 3

90

90

75

75

MOT2

MOT2

+

-

DC

DC

J9

J9

1

2

3

4

5

6

7

PRI 1

PRI 1

65

65

J1

J1

1

2

3

4

5

P10

P10

1

2

3

4

5

6

7

8

SW1

SW1

1

3

2

4

TS1

TS1

MTH7

MTH7

SEC2

SEC2

80

80

WORK

WORK

PRI 4

PRI 4

AC2

AC2

85

85

E1

E1

OVERTEMP

OVERTEMP

MTH3

MTH3

L1

L1

Current Control

Current Control

MTH6

MTH6

D59 PCR

D59 PCR

ERROR

ERROR

J6

J6

1

2

J8

J8

1 2

D78 CSR

D78 CSR

K1

K1

MTH5

MTH5

-V OUT 1

-V OUT 1

J2

J2

2

3

4

5

6

7

8

9

10

11

12

13

14

1

T1

T1

J5

J5

1 2 3

J11

J11

1 2

MAX

MAX

PRI 3

PRI 3

J10

J10

3

5

6

7

8

1

2

4

ELECTRODE1

ELECTRODE1

GAS

GAS

MTH8

MTH8

MTH2

MTH2

TORCH SWITCH

TORCH SWITCH

AC1

AC1

+ C5-C8*

+ C5-C8*

AC

AC

J2

J2

2

3

4

5

6

7

8

9

10

11

12

13

14

1

MIN

MIN

K1

K1

PIP SWITCH

PIP SWITCH

1

2

3

4

5

6

7

8

SOL1

SOL1