Panasonic 130 W Servo Drive, 200 <arrow/> 240 V, 1, 3 Phase, 1.5 A, 700 mA, PWM, Speed Controller Function, 240

Nº de Estoque RS: 127-0243Marca: PanasonicPart Number: MBEG1E5BCV
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Documentos Técnicos

Especificações

Phase

1, 3

Control Function

PWM, Speed Controller

Supply Voltage

200 <arrow/> 240 V

Current Rating

1.5 A, 700 mA

Voltage Rating

240 V ac

Power Rating

130 W

Overall Length

120mm

Overall Width

105mm

Overall Depth

35mm

Minimum Operating Temperature

0°C

Maximum Operating Temperature

+50°C

País de Origem

China

Detalhes do produto

MINAS-BL GV Series Motors and Amplifiers

The GV brushless motor series from Panasonic are compact and highly efficient motors and amplifiers with advanced controlling technology features. The split core structure reduces their size and weight but increases their output power compared with induction motors.
A permanent magnet on a rotor reduces secondary loss and increases efficiency helping to reduce power consumption. They can also reduce maintenance costs due to their commutatorless and brushless design.

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P.O.A.

Panasonic 130 W Servo Drive, 200 <arrow/> 240 V, 1, 3 Phase, 1.5 A, 700 mA, PWM, Speed Controller Function, 240

P.O.A.

Panasonic 130 W Servo Drive, 200 <arrow/> 240 V, 1, 3 Phase, 1.5 A, 700 mA, PWM, Speed Controller Function, 240
Informações de estoque temporariamente indisponíveis.

Documentos Técnicos

Especificações

Phase

1, 3

Control Function

PWM, Speed Controller

Supply Voltage

200 <arrow/> 240 V

Current Rating

1.5 A, 700 mA

Voltage Rating

240 V ac

Power Rating

130 W

Overall Length

120mm

Overall Width

105mm

Overall Depth

35mm

Minimum Operating Temperature

0°C

Maximum Operating Temperature

+50°C

País de Origem

China

Detalhes do produto

MINAS-BL GV Series Motors and Amplifiers

The GV brushless motor series from Panasonic are compact and highly efficient motors and amplifiers with advanced controlling technology features. The split core structure reduces their size and weight but increases their output power compared with induction motors.
A permanent magnet on a rotor reduces secondary loss and increases efficiency helping to reduce power consumption. They can also reduce maintenance costs due to their commutatorless and brushless design.