Features: SpecificationsDescriptionThe PVM-4210 is designed as dual output high voltage pulse generator module.PVM-4210 has eight features. The first one is that simultaneous positive and negative 0 to +950V and 0 to 950V pulse outputs. The next one is it would have 1,900V differential output. The...
PVM-4210: Features: SpecificationsDescriptionThe PVM-4210 is designed as dual output high voltage pulse generator module.PVM-4210 has eight features. The first one is that simultaneous positive and negative 0...
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The PVM-4210 is designed as dual output high voltage pulse generator module.
PVM-4210 has eight features. The first one is that simultaneous positive and negative 0 to +950V and 0 to 950V pulse outputs. The next one is it would have 1,900V differential output. The next one is it would have less than 15ns rise and fall times. The next one is it would have less than 40ns to DC pulse width. The next one is it would have larger than 20KHz pulse repetition frequency. The next one is it would have internal high voltage power supplies. The next one is it would be optimized to drive deflection plates, pockels cells, Q-switches and other capacitive loads. The next one is it would have economical, modular solid state design. That are all the main features.
Some important specifications of PVM-4210 have been concluded into several points as follow. The first one is about its output voltage which would be 0 to +950V ±5V (channel 1), 0 to 950V ±5V (channel 2). The next one is about its output voltage adjustments which would be screwdriver-adjustable potentiometers, end panel. The next one is about its pulse width which would be less than 40ns to DC measured FWHM, controlled by input gate. The next one is about its pulse rise and fall time which would be less than 15ns, 10%-90%. The next one is about its pulse recurrence frequency which would be single shot to >20KHz continuous, 5MHz burst, controlled by input gate. The next one is about its pulse droop which would be less than 1%. The next one is about its over/undershoot which would be less than 5%. The next one is about its jitter which would be less than 1ns shot to shot. The next one is about its throughput delay (delay from leading edge of input gate to leading edge of output pulse) which would be 93ns typical. And so on. For more information please contact us.