FaithTech, established in 2002, is a world-leading manufacturer of energy electronic testing equipment, providing precise and reliable solutions for the electronic, electrical and green energy sectors. Recognised as a National High-tech Innovation Enterprise and holding multiple certifications including ISO 9001:2000, CE and ROHS, FaithTech integrates R&D, production and marketing to deliver high-quality products. Supported by top domestic research institutions, the company serves manufacturing industries and research institutes worldwide with advanced testing equipment and comprehensive solutions.
The FT68200A/AL/E series is a family of high power programmable DC electronic loads from FaithTech, designed for high reliability and high power density operation. It enables precision loading of DC sources under a wide range of dynamic, steady state, and transient test conditions. Single modules range from 6 kW up to 60 kW, and multiple units can be paralleled in master/slave configuration to scale to hundreds of kilowatts.
The FT68200A/AL/E series is a family of high power programmable DC electronic loads from FaithTech, designed for high reliability and high power density operation. It enables precision loading of DC sources under a wide range of dynamic, steady state, and transient test conditions. Single modules range from 6 kW up to 60 kW, and multiple units can be paralleled in master/slave configuration to scale to hundreds of kilowatts.
The FT68200A/AL/E series is a family of high power programmable DC electronic loads from FaithTech, designed for high reliability and high power density operation. It enables precision loading of DC sources under a wide range of dynamic, steady state, and transient test conditions. Single modules range from 6 kW up to 60 kW, and multiple units can be paralleled in master/slave configuration to scale to hundreds of kilowatts.
The FT68200A/AL/E series is a family of high power programmable DC electronic loads from FaithTech, designed for high reliability and high power density operation. It enables precision loading of DC sources under a wide range of dynamic, steady state, and transient test conditions. Single modules range from 6 kW up to 60 kW, and multiple units can be paralleled in master/slave configuration to scale to hundreds of kilowatts.
The FT68200A/AL/E series is a family of high power programmable DC electronic loads from FaithTech, designed for high reliability and high power density operation. It enables precision loading of DC sources under a wide range of dynamic, steady state, and transient test conditions. Single modules range from 6 kW up to 60 kW, and multiple units can be paralleled in master/slave configuration to scale to hundreds of kilowatts.
The FT68200A/AL/E series is a family of high power programmable DC electronic loads from FaithTech, designed for high reliability and high power density operation. It enables precision loading of DC sources under a wide range of dynamic, steady state, and transient test conditions. Single modules range from 6 kW up to 60 kW, and multiple units can be paralleled in master/slave configuration to scale to hundreds of kilowatts.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8330 Series is a high-precision, multi-channel programmable battery cell simulator, designed for applications requiring accurate and stable power output. It supports up to 36 independent, electrically isolated channels in a compact 19-inch rack chassis, making it ideal for simulating individual battery cells or configuring them in series/parallel for pack-level emulation. Each channel provides ultra-low ripple, high accuracy (0.01% + 0.01% F.S.), and high-resolution control down to microamp and sub-millivolt levels, ensuring precise emulation of real battery behaviour. The FT8330 operates in single-quadrant mode (source only), making it well-suited for battery management system (BMS) testing, cell balancing development, and low-current standby testing. With built-in Ethernet and RS485 communication, as well as SCPI and Modbus protocol support, it integrates seamlessly into automated R&D and production test environments. The series offers a range of voltage and current configurations across “A” and “R” models to match various application needs.
The FT8331 Series is a high-precision, multi-channel, single-quadrant battery cell simulator engineered for the most demanding applications in battery R&D, BMS validation, and automated test systems. With up to 24 fully isolated channels, it enables flexible series or parallel configurations to emulate complex cell arrays or battery packs with minimal hardware overhead. Each channel delivers exceptional precision, with voltage accuracy of 0.01% F.S., voltage resolution down to 0.1mV, and current resolution as fine as 0.1µA—making it ideal for capturing ultra-low standby currents and characterizing device behaviour across a wide dynamic range. Designed for versatility, the FT8331 supports multiple operation modes including regulated power supply mode, cell emulation, charge/discharge testing, SOC (state-of-charge) simulation, pulse and sequence testing, and (in A-series variants) built-in fault injection per channel (such as short-circuit, open-circuit, or reverse polarity). The device is packaged in a compact, rack-mountable 19″ chassis, and includes robust communication options (LAN, RS485, CAN) with support for SCPI and Modbus command sets. A USB port allows seamless file import/export and screen capture, while a high-definition 4.3″ LCD provides intuitive local control and status monitoring.
The FT8340 Series is a high precision, multi channel, dual quadrant programmable battery cell simulator engineered to support advanced battery management system (BMS) development, validation, and production testing. It offers seamless switching between charging and discharging modes (i.e. it functions as both a source and sink), enabling realistic battery simulation without needing separate equipment. Each device can include up to 12 isolated channels, allowing modular scaling and series/parallel configurations while preventing interference between channels. Thanks to its 2U 19 inch rack form factor, dual Ethernet ports, and RS 485 interface, the FT8340 is well suited for integration into automated test platforms or standalone bench setups. Beyond simple voltage sourcing, the FT8340 supports a wide array of battery specific functions including setting cell characteristic curves (SOC, internal resistance, capacity), pulse profiles, static power consumption testing, and built in fault simulation (e.g. disconnection, short circuits, reverse polarity) (A series models). Its ultra fine measurement resolution (µA level current accuracy) makes it especially suitable for low power device testing, such as standby mode analysis of battery powered electronics.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
The FT8350 Series takes battery simulation to the next level with dual-quadrant operation, allowing each channel to both source and sink current—enabling realistic charging and discharging behaviour across up to 24 isolated channels. Designed for BMS validation, battery R&D, and cell balancing studies, the FT8350 supports wide voltage (up to 20V) and current (up to ±5A) ranges, with high resolution and low noise output across all channels. Advanced functionality includes pulse and sequence testing, static power consumption mode, and in the A-series, per-channel fault simulation such as open-circuit, short-circuit, and reverse polarity—essential for stress-testing protection mechanisms in BMS systems. The FT8350 supports active/passive balancing testing with equalizing current up to 5A, and offers full automation via Ethernet, RS485, and CAN interfaces. Housed in a compact 3U rackmount chassis, it offers powerful capabilities for engineers building high-reliability battery and energy storage systems.
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9050-80-150 unit range:
Voltage: 0 to 80V
Current: 0 to ±150A
Power: 0 to ±5kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9060-300-75 Unit range:
Voltage: 0 to 300V
Current: 0 to ±75A
Power: 0 to ±6kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9060-500-40 Unit range:
Voltage: 0 to 500V
Current: 0 to ±40A
Power: 0 to ±6kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9060-800-25 Unit range:
Voltage: 0 to 800V
Current: 0 to ±25A
Power: 0 to ±6kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9100-80-300 Unit range:
Voltage: 0 to 80V
Current: 0 to ±300A
Power: 0 to ±10kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9120-1000-40 Unit range:
Voltage: 0 to 1000V
Current: 0 to ±40A
Power: 0 to ±12kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9120-1500-25 Unit range:
Voltage: 0 to 1500V
Current: 0 to ±25A
Power: 0 to ±12kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9120-300-150 Unit range:
Voltage: 0 to 300V
Current: 0 to ±150A
Power: 0 to ±12kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9120-500-80 Unit range:
Voltage: 0 to 500V
Current: 0 to ±80A
Power: 0 to ±12kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9120-800-50 Unit range:
Voltage: 0 to 800V
Current: 0 to ±50A
Power: 0 to ±12kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9150-80-450 Unit range:
Voltage: 0 to 80V
Current: 0 to ±450A
Power: 0 to ±15kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9180-1500-40 Unit range:
Voltage: 0 to 1500V
Current: 0 to ±40A
Power: 0 to ±18kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9180-2250-25 Unit range:
Voltage: 0 to 2250V
Current: 0 to ±25A
Power: 0 to ±18kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9180-300-225 Unit range:
Voltage: 0 to 300V
Current: 0 to ±225A
Power: 0 to ±18kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9180-500-120 Unit range:
Voltage: 0 to 500V
Current: 0 to ±120A
Power: 0 to ±18kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9180-800-75 Unit range:
Voltage: 0 to 800V
Current: 0 to ±75A
Power: 0 to ±18kW
Dimension: 3U high power density, standard 19-inch chassis design
FTB9000 series products are a wide range of high power bidirectional regenerative programmable DC power supply with both DC power supply and feedback load function. It can not only realise the function of source but also feed the absorbed energy back to the power grid as a feedback load to allow the bi-directional flow of energy.
FTB9240-1000-80 Unit range:
Voltage: 0 to 1000V
Current: 0 to ±80A
Power: 0 to ±24kW
Dimension: 6U high power density, standard 19-inch chassis design
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
The FTG Series is a combined high-power programmable DC power supply system designed for industrial-grade applications requiring precision, scalability, and reliability. With individual modules starting at 4kW and total system output scaling up to an impressive 600kW, the FTG series delivers wide voltage ranges from 10V to 1500V and current output up to 12000A. This series is ideal for high-demand testing environments such as electric vehicle components, renewable energy systems, DC motor drives, and power electronics development. Its modular architecture enables flexible configuration and parallel operation, while delivering excellent output stability, low ripple, and fast transient response. Built-in protections and remote-control interfaces make it well-suited for both laboratory use and automated test systems.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP series DC power supplies provide wider voltage and current output range at full power, this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP1060-15-60 Unit range:
Voltage: 0 to 15V
Current: 0 to 60A
Power: 0 to 600W
Dimensions: 1U, standard 9.5 or 19-inch chassis design
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
The FTP1000 series is a small volume, high performance and high power density programmable DC source. The 1U/19 " full or half width design makes the single device more lightweight and the cabinet integration more convenient. The maximum output power 1800W can be applied in different fields such as laboratory testing, system integration, and large-scale production line testing.
FTP series DC power supplies provide wider voltage and current output range at full power; this means both low voltage/high current and high voltage/low current devices can be tested using a single power supply. The FTP series adopts 2U chassis for 2 kW and 3.2kW mode, and 4U chassis for 6.5 kW model. The maximum output voltage ranges from 40 V to 1500 V, and output current up to 240 A. Furthermore, this series allow for master-slave parallel or serial connection of up to 5 identical units to extend the output range.
FTP9000 series products are a range of high power programmable DC power supplies with voltage up to 2250V, single current up to 6120A and single maximum power of 180kW. Featuring high power density, high power factor, high efficiency and wide output range.
FTP9050-80-170 Unit range:
Voltage: 0 to 80V
Current: 0 to 170A
Power: 0 to 5kW
Dimensions: 3U high power density, standard 19-inch chassis design
FTP9000 series products are a range of high power programmable DC power supplies with voltage up to 2250V, single current up to 6120A and single maximum power of 180kW. Featuring high power density, high power factor, high efficiency and wide output range.
FTP9000 series products are a range of high power programmable DC power supplies with voltage up to 2250V, single current up to 6120A and single maximum power of 180kW. Featuring high power density, high power factor, high efficiency and wide output range.
