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VEM Group

VEM Group


VEM Group – Cptrade.pl

About VEM Group

VEM Group is an association of German producers of electrical products supplying a range of goods from electrical drives, transformers, frequency, and power converters to electric motors from 0,006 kW to 42 MW for low and medium voltage. The VEM group consists of VEM Sachsenwerk GmbH (medium and high voltage machines of up to 42 MW), VEM motors Thurm GmbH (low voltage – motors from 7.5 kW to 1000 kW) and VEM transresch GmbH (works in the field of power converters and electrical drive systems for industrial use).

VEM Group offers its products in several groups depending on the voltage range required by the customer or type of device. The first of them is a family of VEMoDRIVE devices offering drive systems consisting mainly of the individual solutions as VEMoDRIVE Compact or VEMoDRIVE Single (compact electric motors with frequency/power converters and transformers), VEMoDRIVE Multi consisting of at least two VEM engines and driving elements from other renowned manufacturers as well as the complete drive system VEMoDRIVE SC2. Another group of products includes low-voltage engines (from 0.06 kW to 1000 kW) for explosion-proof applications, permanent-magnet synchronous motors, IEC standard motors, water-cooled motors, single-phase motors, motors for railway drives, asynchronous generators, and many others. In the range of medium and high voltage, VEM offers solutions for steel and rolling mills, for chemical, oil and gas industry, as well as for power plants, sewage treatment plants and shipyards. These are motors and generators (up to 42MW in custom applications) such as asynchronous motors with the squirrel-cage rotor (energy), shaft generators (shipbuilding) and engines for rolling mills with a capacity of 5000kW.

Drive systems group includes, in turn, a number of innovative solutions from controlled propulsion systems to complete electrical installations and industrial automation equipment. VEM Group offer is complemented with a broad range of maintenance and diagnostic services, as well as laboratory tests that are available to customers. In addition to these products and services VEM Group provides its clients with constant access to experts ready to share their knowledge in technical and commercial fields, as well as access to spare parts.

For more information, we encourage you to visit VEM Group website at the address below:

http://www.vem-group.com

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VEM - IE3-W41R 56 G2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W42R 63 K2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 63 G2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W42R 71 K2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2
VEM - IE3-W41R 71 G2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W42R 80 K2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 80 G2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W42R 90 S2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2
VEM - IE3-W41R 90 LY2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 100 LY2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 112 MY2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 132 S2 - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2
VEM - IE3-W41R 132 SX2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 160 M2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 160 MX2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 160 L2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2
VEM - IE3-W41R 180 M2C TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 200 L2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 200 LX2C TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE3-W41R 225 M2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2
VEM - IE3-W41R 250 M2 TPM - Energy saving motors, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1 3000 min-1 2p = 2VEM - IE2-WE2R 63 G6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 71 K6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 71 G6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6
VEM - IE2-WE2R 80 K6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE1R 80 GY6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 90 S6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE1R 90 LW6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6
VEM - IE2-WE2R 100 L6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE1R 112 MX6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE1R 132 SX6T - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 132 M6 - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6
VEM - IE2-WE2R 132 MX6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 160 M6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE1R 160 L6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 180 L6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6
VEM - IE2-WE1R 200 L6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 200 LX6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 225 M6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6VEM - IE2-WE2R 250 M6 TPM - Energy saving motors, High Efficiency IE2 acc. to IEC/EN 60034-30-1 1000 min-1 2p = 6
VEM - IE3-W41R 71 G8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W42R 80 K8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 80 G8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W42R 90 S8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 90 L8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 100 LY8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 100 LV8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 112 M8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 132 S8 E - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 132 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 160 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 160 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 160 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 180 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 200 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 225 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 225 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 100 L4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 112 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 132 S4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 132 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 160 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 160 L4C - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 180 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 180 L4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 200 L4C - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 225 S4C - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 225 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 250 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 280 S4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 280 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 315 S4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 315 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 315 MX4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 315 MY4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 315 L4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W41R 315 LX4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W41R 355 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W42R 355 MX4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W42R 355 L4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411
VEM - IE3-W42R 400 M4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W42R 400 MX4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE3-W42R 400 L4 - Motors with squirrel-cage rotor and surface ventilation, cooling method IC 411VEM - IE2-WE2R 63 K4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE2R 63 GY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 71 K4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 71 GY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 80 K4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE1R 80 GY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 90 S4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 90 LW4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 100 S4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE1R 100 LW4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 112 MZ4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 132 SY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 132 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE2R 160 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 160 L4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 180 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 180 L4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE1R 200 L4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 225 S4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 225 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 250 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE1R 280 S4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 280 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 315 S4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 315 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE1R 315 MX4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 315 MY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 315 L4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE1R 315 LX4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE2R 355 MY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 355 M4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 355 MX4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - IE2-WE2R 355 LY4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4
VEM - IE2-WE2R 355 L4 - Energy saving motors, Premium Efficiency IE2 acc. to IEC/EN 60034-30-1 1500 min-1 2p = 4VEM - K21R 71 K8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 63 K8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 71 G8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 63 G8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 80 K8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 71 K8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 80 G8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 71 G8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 90 S8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 80 K8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 90 L8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 80 G8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 100 L8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 90 L8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 100 LX8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 100 S8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 112 M8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 100 L8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 112 MV8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 100 LV8-4 HL - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 132 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 112 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 132 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 112 MX8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 132 MX8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 132 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 160 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 132 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 160 L8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 160 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 180 L8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 160 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 200 L8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 180 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 200 LX8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 180 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 225 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 200 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 250 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 225 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 280 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 250 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 280 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 250 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 315 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 280 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 315 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 280 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 315 MX8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 315 S8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 315 MY8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4
VEM - K20R 315 M8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K21R 315 L8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - K20R 315 L8-4 - Motors with squirrel-cage rotor, pole-changing, 2 speeds, constant loading torque 750 min -1/1500 min-1 2p = 8/4VEM - IE3-WU1R 56 G2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU2R 63 K2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 63 G2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU2R 71 K2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 71 G2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 80 K2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 80 G2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 90 S2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 90 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 100 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 112 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 132 S2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 132 SX2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 160 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 160 MX2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 160 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 180 M2C - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 200 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 200 LX2C - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 225 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 250 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 280 S2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 280 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 315 S2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 315 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 315 MX2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 315 MY2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 315 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU1R 315 LX2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU1R 355 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU2R 355 MX2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU2R 355 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU2R 400 M2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1
VEM - IE3-WU2R 400 MX2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - IE3-WU2R 400 L2 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A, Premium Efficiency IE3 acc. to IEC/EN 60034-30-1VEM - VSI2.0WSA_-4/0003A - InverterVEM - VSI2.0WSA_-4/0004A - Inverter
VEM - VSI2.0WSA_-4/0004A - InverterVEM - VSI2.0WSA_-4/0008A - InverterVEM - VSI2.0WSA_-4/0010A - InverterVEM - VSI2.0WSA_-4/0013A - Inverter
VEM - VSI2.0WSA_-4/0013A - InverterVEM - VSI2.0WSA_-4/0013A - InverterVEM - VSI2.0WSA_-4/0013A - InverterVEM - VSI2.0WSA_-4/0018A - Inverter
VEM - VSI2.0WSA_-4/0026A - InverterVEM - VSI2.0WSA_-4/0037A - InverterVEM - VSI2.0WSA_-4/0046A - InverterVEM - VSI2.0WSA_-4/0061A - Inverter
VEM - VSI2.0WSA_-4/0074A - InverterVEM - VSI2.0WSA_-4/0090A - InverterVEM - VSI2.0WSA_-4/0109A - InverterVEM - VSI2.0WSA_-4/0146A - Inverter
VEM - VSI2.0WSA_-4/0175A - InverterVEM - VSI2.0WSA_-4/0210A - InverterVEM - VSI2.0WSA_-4/0250A - InverterVEM - VSI2.0CSA_-4/0300A - Inverter
VEM - VSI2.0CSA_-4/0375A - InverterVEM - VSI2.0CSA_-4/0430A - InverterVEM - VSI2.0CSA_-4/0500A - InverterVEM - VSI2.0CSA_-4/0600A - Inverter
VEM - VSI2.0CSA_-4/0650A - InverterVEM - VSI2.0CSA_-4/0750A - InverterVEM - VSI2.0CSA_-4/0750A - InverterVEM - VSI2.0CSA_-4/0860A - Inverter
VEM - VSI2.0CSA_-4/0860A - InverterVEM - KU1R 56 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 63 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 56 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU1R 63 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 56 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 71 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 63 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU1R 71 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 63 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 80 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 71 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU1R 80 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 71 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 90 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 80 K4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU1R 90 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 80 G4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 100 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 90 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU1R 100 LX4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 100 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 112 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 100 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU1R 132 S4T - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 132 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 132 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 160 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 132 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 160 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 160 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 180 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 160 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 180 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 180 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 200 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 180 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 225 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 200 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 225 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 200 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 250 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 225 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 280 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 250 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 280 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 250 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 315 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 280 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 315 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 280 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 315 MX4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 315 S4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 315 MY4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 315 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 315 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU0R 315 L4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU1R 315 LX4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU0R 315 LX4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU2R 355 MY4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4
VEM - KU2R 355 M4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU2R 355 MX4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - KU2R 355 LY4 - Motors with squirrel-cage rotor, for inverter feeding without filter up to 500 V, cooling method IC 411, acc. to IEC TS 60034-25, curve A 1500 min -1 2p = 4VEM - MT21R 80 K4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55
VEM - MT20R 71 K4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT21R 80 G4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT20R 71 G4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT21R 90 S4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55
VEM - MT20R 80 K4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT21R 90 L4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT20R 80 G4 - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT21R 100 L4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55
VEM - MT20R 90 L4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - MT21R 100 LX4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - M20R 100 S4T - Compact drives motor based on Standard Efficiency IE1 with surface ventilation, mode of operation S9, thermal class 155, degree of protection IP 55VEM - ME1R 80 G4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2
VEM - ME1R 90 S4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2VEM - ME1R 90 L4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2VEM - ME1R 100 L4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2VEM - ME1R 100 LX4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2
VEM - ME1R 112 MZ4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2VEM - ME1R 132 S4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2VEM - ME1R 132 M4T - Compact drives, cooling method IC 411 motor based on High Efficiency IE2VEM - EB21R 63 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155
VEM - EB20R 56 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 63 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB20R 56 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 71 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155
VEM - EB20R 63 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 71 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB20R 63 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 80 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155
VEM - EB20R 71 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 80 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB20R 71 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 90 S2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155
VEM - EB20R 80 K2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 90 L2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB20R 80 G2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - EB21R 100 LX2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155
VEM - EB20R 90 LX2 - Single-phase asynchronous motors with operational capacitor Basic version, degree of protection IP 55, thermal class 155VEM - ED21RE 63 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED20RE 56 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 63 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class F
VEM - ED20RE 56 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 71 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED20RE 63 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 71 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class F
VEM - ED20RE 63 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 80 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED20RE 71 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 80 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class F
VEM - ED20RE 71 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 90 S4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED20RE 80 K4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RE 90 L4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class F
VEM - ED20RE 80 G4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RWE 100 LZ4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED20RWE 90 LZ4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ED21RWE 112 M4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class F
VEM - ED20RWE 100 L4 - Single-phase asychronous motors with operational capacitor and starting capacitor Basic version, degree of protection IP 55, insulation class FVEM - ARC 112 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 112 MX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 112 MZ6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 132 S6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 132 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 132 MX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 160 S6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 160 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 160 L6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 180 S6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 180 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 180 L6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 200 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 200 L6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 200 LX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 225 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 225 MX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 250 S6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 250 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 280 S6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 280 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 280 MX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 315 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 315 L6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 315 LX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 355 M6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 355 MX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9
VEM - ARC 400 L6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9VEM - ARC 400 LX6 - Roller table motors for inverter feeding, with squirrel-cage rotor, non ventilated, type of cooling IC 410, Ring-type ribbed housing Type of construction IM B3, degree of protection IP 55, thermal class 155, mode of operation S9