Three-phase motor controller Hybrid Inverter
for synchronous motorpermanent magnetasynchronous

Three-phase motor controller - Hybrid Inverter - Santroll Electric - for synchronous motor / permanent magnet / asynchronous
Three-phase motor controller - Hybrid Inverter - Santroll Electric - for synchronous motor / permanent magnet / asynchronous
Three-phase motor controller - Hybrid Inverter - Santroll Electric - for synchronous motor / permanent magnet / asynchronous - image - 2
Three-phase motor controller - Hybrid Inverter - Santroll Electric - for synchronous motor / permanent magnet / asynchronous - image - 3
Three-phase motor controller - Hybrid Inverter - Santroll Electric - for synchronous motor / permanent magnet / asynchronous - image - 4
Three-phase motor controller - Hybrid Inverter - Santroll Electric - for synchronous motor / permanent magnet / asynchronous - image - 5
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Characteristics

Motor type
three-phase, for synchronous motor, permanent magnet, asynchronous
Applications
for industrial vehicles, for electric vehicles, for automation systems, motion control, for harsh environments
Other characteristics
programmable, compact, waterproof, PWM, with speed control, digital, closed-loop, torque control, universal, embedded, IP67, high power density, PCB, cost-effective, CANbus, advanced performance, high-voltage
Input voltage

Min.: 400 V

Max.: 720 V

540 V

Current

Min.: 0 A

Max.: 400 A

160 A

Motor power

Min.: 0 kVA
(0 hp)

Max.: 200 kVA
(271.9 hp)

120 kVA
(163.2 hp)

Description

Santroll’s High-Efficiency Motor Controller is designed to deliver exceptional performance, reliability, and energy efficiency for industrial applications. By integrating SiC power devices, this controller enhances system efficiency, reduces energy losses, and enables more compact, high-power system designs. • - Improved Power Efficiency: SiC enables faster switching and lower conduction losses, boosting overall energy efficiency. • - Higher Operating Temperature: SiC components can function at elevated temperatures, reducing cooling requirements and improving system reliability. • - Compact Size and Weight: By enhancing efficiency and tolerating higher temperatures, the system becomes more compact, reducing size and weight, ideal for space-constrained applications. • - Lower Thermal Resistance: DBC bonds copper to ceramic substrates, enhancing heat dissipation and maintaining optimal temperatures during operation. • - Better Heat Dissipation: This improves thermal performance, preventing overheating and prolonging component lifespan. • - Compact Design: DBC allows for better heat management in a smaller footprint, contributing to a more compact and efficient motor controller. • - Simulation and Validation: Comprehensive circuit and thermal simulations, along with rigorous EMC and environmental tests, ensure optimal performance. • - Compact and Reliable: The combination of SiC technology, DBC, and robust testing results in a compact, reliable motor controller for a wide range of industrial applications.

Catalogs

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Exhibitions

Meet this supplier at the following exhibition(s):

iVT Expo USA
iVT Expo USA

19-20 Aug 2026 Chicago (USA - Illinois) Stand 920

  • More information
    EV Tech Expo Europe

    7-09 Oct 2026 bologne (Italy) Hall 1 - Stand K70

    *Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.