Output Voltage(for ignition) -20kVp
Output Voltage(for keeping) -1kV
Output Current 1Ap
Pulse Width(for ignition) 100ns
Pulse Width(for keeping) 10μs~1ms
Repetition 100Hz~10kHz(duty<10%)
Circuit type Semiconductor type high voltage pulse power supply
Charging Voltage 3.3kV
Output Voltage -20kVp
Output Current 1Ap
Pulse Width 3.5μs
Repetition 200Hz
Size 200mm(W)×100mm(D)×241mm(H)
Weight 2kg
Output Voltage 300Vp
Output Current 400Ap
Pulse Width 1ms
Repetition 50Hz
Output Voltage ±6kVp
Output Current ±60Ap
Frequency 2MHz
Duty(Max.) 5%
Burst width(Max.) 100μs
Output Voltage ±500V
Output Current ±400A
Frequency 3MHz
Duty(Max.) 5%
PPJ-HVP-4K500A
Output Voltage -4kVp
Output Current 500Ap
Pulse width 4.0μs
Repetition 1kHz
Higher power is available by parallel operation.
Output Voltage -20kVp
Output Current 2Ap
Pulse Width 4.0μs
Repetition 250Hz
PSs for grid, heater, ion pump are involved.
Pulse shaping Solid-state Marx PS
Charging Voltage -600V
Output Voltage -3kVp
Output Current 20Ap
Marx stages 5
Pulse Width 1.5ms
Repetition 5Hz
Output Voltage -3kVp
Output Current ) 6Ap
Pulse Width 15μs
Repetition 2kHz
Output Voltage 900Vp
Output Current 900Ap
Pulse Width 200ns
Repetition 10kHz
Circuit type | |
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Please do not hesitate to consult us about prototyping prototypes related to generation and control of pulse power, technical support, joint research, etc.
Information on Technical Support / Collaborative Research
Information on Technical Assistance
We are doing all technical support on Pulsed Power generation and control.
We provide the following technical services according to each stage of research plan.
- Conceptual design of power supply system
- Basic design of High Voltage Power Supply
- Detailed design of high voltage power supply
- Experimental prototype of high voltage power supply, evaluation test
- Miniaturized design optimized for structural combination with load
- Malfunction survey, measures (malfunction, noise, breakdown etc.)
- Performance improvement
- Experiment, data measurement
- Analysis, simulation (circuit calculation, intensity calculation, electromagnetic field calculation, heat conduction calculation, etc.)
- Other
Information on Joint Research
We will respond to collaborative research on Pulsed Power generation and control.
We will respond to the following joint research corresponding to each stage of the research plan.
- Development of power supply system
- Optimum structural design suitable for load
- Performance improvement
- Student guidance (electric circuit, electronic circuit, electromagnetism, CAD, circuit simulation,Experiments on electricity, electronics and high pressure etc)
- Part time lecturer (mentoring, guidance of graduation thesis and graduate research)
- Other
Inquiries by e-mail are accepted 24 hours. For inquiries you received outside the reception hours, we will correspond after the next business day.