Manufacturer of power electronics, testing instruments, and systems ITECH has introduced the IT8900G/L series high-speed and high-power DC electronic load. The IT8900G/L series high-power DC electronic load not only meets the needs of high-performance power supply testing, but is also widely used in a number of fields such as new energy vehicles, charging piles, fuel cells, and power electronics.
One of the highlights of the IT8900G/L series high-power DC electronic load is its ultra-high-speed current dynamic response. Compared with its predecessor, the current rise/fall speed of this device has been increased by 3-4 times, ensuring that users are able to capture the slightest fluctuations in real time when dealing with complex load changes. Especially in scenarios that require high-speed response, such as testing server power supplies, DC-DC modules, and on-board chargers (OBCs), theIT8900G/L demonstrates powerful processing capabilities.
The IT8906G-150-600 model, which can provide 0~600 A under 30 kHz dynamic band load conditions, performs particularly well. To further optimize stability in high-frequency testing, ITECH has also introduced the latest low-inductance test line, which significantly reduces electromagnetic interference during rapid current changes and ensures efficient and accurate signal transmission.
The IT8900G/L not only represents highspeed response, it also excels in low voltage loading. The device supports load testing down to 0.075 V/60 A and 0.75 V/600 A with an internal resistance of only 0.7 mΩ, making the IT8900G/L an indispensable test tool for fuel cells, supercapacitors, and solar cells. This excellent low-voltage processing capability ensures that under extremely low voltage conditions, the device can still provide stable output and accurate test data, bringing users a wider range of application scenarios.
The IT8900G/L series supports three voltage ranges of 150 V, 600 V and 1200 V, and the power of a single unit ranges from 2 kW to 54 kW, and supports master-slave parallel connection, with the maximum power expandable to 600 kW. The powerful expandability and up to eight operating modes make it not only able to satisfy the testing needs of new energy vehicles and new energy fields, but also widely used in complex testing scenarios such as automotive electronics, motor drives, battery management systems and power devices. It is also widely used in automotive electronics, motor drive, battery management system and power devices and other complex test scenarios.
