Circuit's Operating Current I(A) = 50A

Integrated Functions and Operating Parameters

PS11012

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 1.5 A (rms)
    
  • 150% load - 2.25 A (rms), 1 min.
    
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.2 kW / AC 200 V loads in 3-phase inverter systems; motor control systems

PS11013

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 3 A (rms)
  • 150% load - 4.5 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.4 kW / AC 200 V loads in 3-phase inverter systems; motor control systems

PS11014

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 5 A (rms)
  • 150% load - 7.5 A (rms), 1 min.
    
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.75 kW / AC 200 V loads in 3-phase inverter systems; motor control systems

PS11015

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 7.0 A (rms)
  • 150% load - 10.5 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 1.5 kW / AC 200 V loads in 3-phase inverter systems; motor control systems

PS11016

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 11.0 A (rms)
  • 150% load - 16.5 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 2.2 kW / AC 200 V loads in 3-phase inverter systems; motor control systems

PS11017

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 17.0 A (rms)
  • 150% load - 25.5 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 3.7 kW / AC 200 V loads in 3-phase inverter systems; motor control systems

PS11023-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 17.0 A (rms)
  • 150% load - 25.5 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.75 kW / AC 200 V loads in 3-phase inverter systems and servo control systems (0.2 kW and 0.4 kW )

PS11032

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 1.5 A (rms)
  • 150% load - 2.25 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
    
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.2 kW / AC 200 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS11033

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 3.0 A (rms)
  • 150% load - 4.5 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.4 kW / AC 200 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS11034

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 5.0 A (rms)
  • 150% load - 7.5 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.75 kW / AC 200 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS11035

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 5.0 A (rms)
  • 150% load - 10.5 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 1.5 kW / AC 200 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS11036

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 11.0 A (rms)
  • 150% load - 16.5 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 2.2 kW / AC 200 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS11037

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 17.0 A (rms)
  • 150% load - 22.5 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 3.7 kW / AC 200 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS12012-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 1.2 A (rms)
  • 150% load - 1.8 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.2 kW / AC 400 V loads in 3-phase inverter systems; motor control systems

PS12013-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 1.8 A (rms)
  • 150% load - 2.7 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.4 kW / AC 400 V loads in 3-phase inverter systems; motor control systems

PS12014-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 3.4 A (rms)
  • 150% load - 5.1 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
    
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.75 kW / AC 400 V loads in 3-phase inverter systems; motor control systems

PS12015-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 4.8 A (rms)
  • 150% load - 7.2 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 1.5 kW / AC 400 V loads in 3-phase inverter systems; motor control systems

PS12017-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 7.2 A (rms)
  • 150% load - 10.8 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 3.0 kW / AC 400 V loads in 3-phase inverter systems; motor control systems

PS12018-A

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Circuit-breaker system featuring dynamic breaking with energy recovery
• Output current parameters:
  • 100% load - 9.2 A (rms)
  • 150% load - 13.8 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 3.7 kW / AC 400 V loads in 3-phase inverter systems; motor control systems

PS12032

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 1.2 A (rms)
  • 150% load - 1.8 A (rms), 1 min.
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.2 kW / AC 400 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS12033

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 1.8 A (rms)
  • 150% load - 2.7 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.4 kW / AC 400 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS12034

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 3.4 A (rms)
  • 150% load - 5.1 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 0.75 kW / AC 400 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package

PS12036

• The design is based on a 3-phase IGBT bridge inverting the AC power signal to DC; 3rd generation components (H Series) and diodes are used
• Output current parameters:
  • 100% load - 5.5 A (rms)
  • 150% load - 8.25 A (rms)
  • (current output signal consists of a sinusoidal signal and the leakage current; it can be overall described by the following formula: I0P = I0 x Tc < 100°C)
• Flat case, isolation plate at bottom, pin outputs

Noise level for 2.2 kW / AC 400 V loads in 3-phase inverter systems; motor control systems, motors with built-in inverter package