The OPS1000B is a 1000 Watt DC Power Supply from Kepco. Supplies DC Voltage and Current to test, design, and troubleshoot electric and electronic circuits. Applications include Burn In, QA, ATE, Research, Design, and Education to name a few.
Additional Features:
Voltage: 0-1000V
Current: 0-0.02A
Power: 1000W
Operating Temperature Range: (-)20C TO (+)65C (without derating of the output)
A-C Input Power: 105 to 125V a-c or 210 to 250V a-c, 50 to 65 Hz single phase; Approximately 75 Watts
Isolation: A maximum of 1000 Volts (d-c or p-p) can be connected between chassis and either output terminal
Designed for adequate convection cooling through the wrap-around, perforated case
The Kepco OPS1000B is a high voltage, fast programmable power supply, which can stabilize a voltage or current against the effects of load, source, or temperature changes, yet respond with agility to programming signals requiring swift changes in output. A built-in uncommitted amplifier can be used for summing, scaling, and programming by passive resistance.
The OPS1000B is a 1000 Watt DC Power Supply from Kepco. Supplies DC Voltage and Current to test, design, and troubleshoot electric and electronic circuits. Applications include Burn In, QA, ATE, Research, Design, and Education to name a few.
Additional Features:
- Voltage: 0-1000V
- Current: 0-0.02A
- Power: 1000W
- Operating Temperature Range: (-)20C TO (+)65C (without derating of the output)
- A-C Input Power: 105 to 125V a-c or 210 to 250V a-c, 50 to 65 Hz single phase; Approximately 75 Watts
- Isolation: A maximum of 1000 Volts (d-c or p-p) can be connected between chassis and either output terminal
- Designed for adequate convection cooling through the wrap-around, perforated case
The Kepco OPS1000B is a high voltage, fast programmable power supply, which can stabilize a voltage or current against the effects of load, source, or temperature changes, yet respond with agility to programming signals requiring swift changes in output. A built-in uncommitted amplifier can be used for summing, scaling, and programming by passive resistance.
