Power Supplies

Location: MEL 2228
Contact: Professor Nenad Miljkovic

HP6031A

  • Single output dc power supply with maximum 1 kW rating
  • Voltage: 0 to 20 V (+/- 0.035%)
  • Current 0 to 120 A (+/- 0.25%)
  • GPIB port enables control and data acquisition via LabVIEW or Python

 
Agilent E3631

  • Triple output dc power supply
  • Port 1: Voltage of 0 to 6 V and Current of 0 to 5 A
  • Ports 2 & 3:  Voltage of 0 to +/- 25 V and Current of 0 to 1 A
  • GPIB and ethernet ports enable control and data acquisition via LabVIEW or Python

 
HP6033A

  • Single output dc power supply with maximum 200 W rating
  • Voltage: 0 to 20 V (+/- 0.035%)
  • Current 0 to 30 A (+/- 0.25%)
  • GPIB port enables control and data acquisition via LabVIEW or Python
Yokogawa WT310 Digital Sampling Power Analyzer  (Two Ports)

  • Voltage Range: 0 to 600 V
  • Current Range: 5 mA to 20 A
  • While accuracy is dependent on range bins, the best sampling accuracy is 0.1% of reading.
  • GPIB and ethernet ports enable control and data acquisition via LabVIEW or Python
Yokogawa WT3000 Digital Sampling Power Analyzer  (Two Ports)

  • Voltage Range: 0 to 1 kV
  • Current Range: 5 mA to 30 A
  • While accuracy is dependent on range bins, the best sampling accuracy is 0.02% of reading
  • GPIB and ethernet ports enable control and data acquisition via LabVIEW or Python

 
 

Agilent E3630A

  • Triple output dc power supply
  • Port 1: Voltage of 0 to 6 V and Current of 0 to 2.5 A
  • Ports 2 & 3:  Voltage of 0 to +/- 20 V and Current of 0 to 0.5 A
  • GPIB and ethernet ports enable control and data acquisition via LabVIEW or Python

 
Agilent 34410A

  • 6.5 Digit Digital Multimeter with 14 different measurement functions
  • Nominally, voltage of 0 to 1 kV and current of 0 to 3 A.  Each unit in ETRL has a current shunt for high current measurements of 15 A continuous.
  • While accuracy is dependent on range bins, the best sampling accuracy is 0.003% of reading
  • GPIB and ethernet ports enable control and data acquisition via LabVIEW or Python

 
Tektronix TDS3034

  • 4 channels
  • 300 MHz and 2.5 GS/s

 
HP6633A

  • Single output dc power supply with maximum 100 W rating
  • Voltage: 0 to 50 V (+/- 0.035%)
  • Current 0 to 2 A (+/- 0.25%)
  • GPIB port enables control and data acquisition via LabVIEW or Python

 
HP6623A

  • Triple output dc power supply with maximum 100 W rating
  • Port 1: Voltage of 0 to 7 V and Current of 0 to 5 A
  • Port 2: Voltage of 0 to 20 V and Current of 0 to 2 A
  • Port 3: Voltage of 0 to 7 V and Current of 0 to 10 A
  • GPIB port enables control and data acquisition via LabVIEW or Python

 
Kenwood PD36-10AD and PD56-10AD Models

  • Single output dc power supply with maximum 100 W rating
  • Voltage: 0 to 36 V (PD36) or 0 to 56 V (PD56)
  • Current 0 to 10 A

 
Agilent 33522A

  • 30 MHz
  • Dual channel with numerous pre-programmed (sine, square, pulse, etc.) and controllable waveform shapes
  • Less than 0.04% total harmonic distortion
  • 250 MSa/s, 16-bit sampling rate for higher time resolution arbitrary waveforms
  • True point-by-point arbitrary waveforms for more accurate representation of user-defined signals