参考价 | 面议 |
产品详情
主要特性与技术指标
直流输出额定值
电压:0 至 80 V
电流:0 至 510 A
功率: 15000 W
交流输入
电压范围: 187 – 240 VAC
编程精度
电压:全量程的 0.1%
电流:全量程的 0.2%
描述
Keysight N8900 系列提供 5 kW/10 kW/15 kW 自动量程调节、单路输出程控直流电源,适用于以适中价格获得恰当性能的 ATE 应用。N8900 系列电源的自动量程调节输出特征在整个功率范围内提供广泛的电压和电流组合,因而具备的灵活性。具有“矩形”或传统输出特征的电源仅在一种电压和电流组合中提供全功率。单个 N8900 能够胜任多个电源的工作。它是一款多合一的电源!
N8900 系列提供稳定的输出电源、内置电压和电流测量、自动量程调节输出电压和电流,范围分别是 80 V 至 1500 V 和 10 A 至 510 A。电源提供许多可随时接入系统的特性(例如多个标准 I/O 接口)以便简化和加快测试系统开发,紧凑的 3U 设计还能节省机架空间。如需更多的电源,您可以轻松地并联设备,以创建功率超过 100 kW 的总输出电源。内置主/从控制允许您对整个电源进行编程,而不必单独对每个电源编程。
Main features and technical indicators
Dc output rating
Voltage: 0 to 80 V
Current: 0 to 510a
Power: 15000 W
Ac input
Voltage range: 187 -- 240 VAC
Accuracy of programming
Voltage: 0.1% of full range
Current: 0.2% of full range
describe
Keysight N8900 series provides 5 kW/10 kW/15 kW automatic range adjustment, single output programmed dc power supply, suitable for ATE applications with appropriate performance at moderate price. The N8900 series power supply features automatic range regulation output across the entire power range to provide a wide range of voltage and current combinations, thus providing unprecedented flexibility. A power supply with "rectangular" or conventional output characteristics provides full power in only one combination of voltage and current. A single N8900 is capable of handling multiple power supplies. It is a multi-in-one power supply!
The N8900 series provides stable output power, built-in voltage and current measurements, and automatic range adjustment of output voltage and current from 80 V to 1500 V and 10 A to 510 A, respectively. The power supply provides many readily accessible system features (e.g., multiple standard I/O interfaces) to simplify and accelerate test system development, and the compact 3U design also saves rack space. If more power is required, you can easily parallel the device to create a total output power of more than 100 kW. The built-in master/slave control allows you to program the entire power supply without having to program each power supply individually.