MPS-H-3 Series Triple Channel DC Linear Power Supply

MPS-H-3 시리즈는 5개의 모델, 2개의 조정 가능한 채널과 1개의 고정 채널을 갖춘 3중 채널 DC 선형 전원 공급 장치입니다. 분해능은 10mV/1mA입니다. RS-232/485, USB(옵션)입니다.


Features :

  • 전류와 전압은 특정 범위 내에서 조정 가능
  • 직병렬 모드는 전압과 전류를 직접 표시
  • 마지막 출력 데이터와 마지막 출력 상태를 저장 가능
  • 옵션 USB, RS-232, RS-485 인터페이스
  • 채널 1과 채널 2는 독립적인 스위치 제어가능
  • 4 digit 디스플레이, 10mV/1mA 분해능


    • Model MPS-3003H-3 MPS-3005H-3 MPS-3010H-3 MPS-6003H-3 MPS-6005H-3
    Input power 110V/220V switchable 50Hz/60Hz
    Parameter CH1 CH2 CH3 CH1 CH2 CH3 CH1 CH2 CH3 CH1 CH2 CH3 CH1 CH2 CH3
    Rated output Voltage 0~30V 0~30V 5V 0~30V 0~30V 5V 0~30V 0~30V 5V 0~60V 0~60V 5V 0~60V 0~60V 5V
    Current 0~3A 0~3A 3A 0~5A 0~5A 3A 0~10A 0~10A 3A 0~3A 0~3A 3A 0~5A 0~5A 3A
    Load regulation Voltage ≤0.01%+5mV ≤15mV ≤0.01%+5mV ≤15mV ≤0.01%+8mV ≤15mV ≤0.01%+5mV ≤15mV ≤0.01%+5mV ≤15mV
    Current ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA
     Line regulation Voltage ≤0.01%+5mV ≤0.01%+5mV ≤0.01%+8mV ≤0.01%+5mV ≤0.01%+5mV
    Current ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA
    Set resolution Voltage 10mV 10mV 10mV 10mV 10mV
    Current 1mA 1mA 1mA 1mA 1mA
    Readback
     resolution    		 Voltage 10mV 10mV 10mV 10mV 10mV
    Current 1mA 1mA 1mA 1mA 1mA
    Set value
    accuracy    		 Voltage ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV
    Current ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA
      Readback accuracy Voltage ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV ≤0.03%+10mV
    Current ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA ≤0.1%+5mA
    Parallel mode Power effect ≤0.01%+5mV ≤0.01%+5mV ≤0.02%+8mV ≤0.02%+5mV ≤0.02%+5mV
      Load effect ≤0.01%+5mV ≤0.02%+5mV ≤0.02%+8mV ≤0.02%+5mV ≤0.02%+5mV
    Serial mode Power effect ≤0.01%+5mV ≤0.01%+5mV ≤0.01%+8mV ≤0.01%+5mV ≤0.01%+5mV
      Load effect ≤0.01%+5mV ≤0.02%+5mV ≤0.01%+8mV ≤0.01%+5mV ≤0.01%+5mV
    Ripple and Noise Voltage ≤2mV(rms)
    Current ≤5mA(rms)
    Working temperature      ≤80%RH
    Size(W*H*D) mm 250*150*330
    Weight kg 8 9 12 9 9


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     Debug and Analysis Considerations for Optimizing Signal Integrity =================================================================================================