SHERMAN-profi ARC 250C, User Manual

3 

3. SPECIFICATIONS 

Napi ę of power 

Napi ę of power 

Napi ę of power 

3x400V AC 50Hz 

Maximum power consumption 

9.2 kVA 

rated current and d / welding cycle 

rated current and d / welding cycle 

rated current and d / welding cycle 

250 A / 60% 

Current adjustment range and the welding 

Current adjustment range and the welding 

Current adjustment range and the welding 

A 30-250 

The method of regulating pr and the welding 

The method of regulating pr and the welding 

The method of regulating pr and the welding 

Liquid 

Napi ę a barren 

Napi ę a barren 

Napi ę a barren 

65 V 

Maximum current consumption and du 

Maximum current consumption and du 

Maximum current consumption and du 

14 And 

Mass 

14 kg 

dimensions 

450 x 190 x 320 mm 

Fig. 1. General view of the device and equipment 

Fig. 1. General view of the device and equipment 

Fig. 1. General view of the device and equipment 

4. CONSTRUCTION AND OPERATION 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 

Fundamentals and the construction of the power conversion welder s and electronics made in IGBT technology enables with Livia and ce work ę in terms of 
Part ę frequency ś of 200 kHz. 

Part ę frequency ś of 200 kHz. 

Part ę frequency ś of 200 kHz. 

Part ę frequency ś of 200 kHz. 

Part ę frequency ś of 200 kHz. 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

The principle of operation is based on rectified voltage ę cut single-phase mains and More on voltage ę a constant-voltage conversion obtained ę body 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 

standing on a rectangular course and passionate big part ę frequency ś Those voltage transformation ę provided within required by the welding process and 
re-straightening of the resulting voltage ę photo on the voltage ę of a solid. 

re-straightening of the resulting voltage ę photo on the voltage ę of a solid. 

re-straightening of the resulting voltage ę photo on the voltage ę of a solid. 

re-straightening of the resulting voltage ę photo on the voltage ę of a solid. 

re-straightening of the resulting voltage ę photo on the voltage ę of a solid. 

5. Cape AND CONNECTION TO SUPPLY NETWORK AND MORE 

5. Cape AND CONNECTION TO SUPPLY NETWORK AND MORE 

5. Cape AND CONNECTION TO SUPPLY NETWORK AND MORE 

5. Cape AND CONNECTION TO SUPPLY NETWORK AND MORE 

5. Cape AND CONNECTION TO SUPPLY NETWORK AND MORE 

5. Cape AND CONNECTION TO SUPPLY NETWORK AND MORE 

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

1. 

Rectifier inverter 250C are ARC and adapted to cooperate with the network and Three-phase and

3x400V 50 Hz fused 16A by time-delayed action. Power should be Æ

3x400V 50 Hz fused 16A by time-delayed action. Power should be Æ
stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

stable, with no voltage drops EC.

 It is forbidden to supply devices and Equipment aggregates pr and dotwórczych! 

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

2. office and equipped device with one is the power cord and months. before connect and EXCLUDING power should with make sure y Æ

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

si é, or switch and power switch (1) is in the OFF position (OFF and attached). 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

3. It should with make sure y Æ si E, E power cord and cy has been properly placed in the socket, and ff and pi 

oxidation of the contacts. 

Connect 5.1 and supply cables and smokers to plug network 

Connect 5.1 and supply cables and smokers to plug network 

Connect 5.1 and supply cables and smokers to plug network 

Connect 5.1 and supply cables and smokers to plug network 

Connect 5.1 and supply cables and smokers to plug network 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Line with yellow-green (conductor) should be with s connected and whether Æ the mains plug in the place marked with "PE" b and d with "N". 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 

Wires black, red, blue s and Implement wires and cymi power to the office and lation (phase) and receivables with s connected and whether Æ a mains 
plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 

plug at the place indicated by symbols L1, L2, L3 b and d with R1, S2, T3. respectively SC Temp and phase conductors connection to plug in a 
designated space is arbitrary and does not cause changes in the office workplace and device. 

designated space is arbitrary and does not cause changes in the office workplace and device. 

designated space is arbitrary and does not cause changes in the office workplace and device.