Chroma 62050P-100-100 POWER SUPPLYThe Chroma 62050P-100-100 Programmable DC Power Supply with its constant power operating envelope can provide high voltage/low cur as well as low voltage/high cur in a single instrument. This efficient design reduces the number of supplies needed in typical ATE and  benchtop applications. The Chroma 62050P-100-100 Programmable DC Power Supply also provides precision readback of output cur and voltage and output trigger signals. It provides the ability to create complex DC transients waveforms to test device behavior to spikes, drops, and other voltage deviations and is perfect for automated testing DC-DC converters and similar products.Features and Specifications of the 62050P-100-100 Programmable DC Power Supply include:

Features:

• Wider range of voltage & cur within the power rating of the power supply
• High-speed Programming
• Precision V&I Measurements
• Cur sharing for parallel operation with Master/Slave Control
• LXI option
• Constant power operating envelope:
  • Provides higher curs at lower voltages
  • One power supply can do the job of two or three conventional supplies
  • No need for both high cur/low voltage and low cur/high voltage supplies to test a family of converters
• High Accuracy cur readback:
  • No need for cur shunts/mux/DMMs to measure the converter’s input cur accurately
  • Work benches and test systems are less complex, less costly and can cover a wider range of converters
• DC Transients:
  • Provides programmable control over voltage and cur rise and falls times
  • Allows complex dc transients to be generated which are not possible with conventional power supplies
  • Supports:
    • Automotive transient testing per ISO16750-2
    • Shipboard – DO-160
• Output Trigger:
  • Provides output trigger timing and precision event capturing
  • Ideal for ATE systems desiring to capture Oscilloscope waveforms
• VID Control:  Instruments include 8 independent programmable TTL signals which can be used for VID control or any general purpose logic controls
• Soft Panels: 
  • Advanced Labview graphical control panels
  • Allow for simple and efficient control and data gathering

Specifications:

• Output Rationgs:
  • Output Voltage:  0~100V
  • Output Cur:  0~100A
  • Output Power:  5000W
• Line Regulation:
  • Voltage:  0.01%+8mV
  • Cur:  0.01%+24mA
• Load Regulation:
  • Voltage:  0.01%+12mV
  • Cur:  0.01%+56mA
• Voltage Measurement:
  • Range:  20V / 100V
  • Accuracy:  0.05%+0.05%F.S.
• Cur Measurement:
  • Range:  20A / 100A
  • Accuracy:  0.1%+0.1%F.S.
• Output Noise (0-20MHz):
  • Voltage Ripple (P-P):  50 mV
  • Voltage Ripple (ms):  15 mV
  • Cur Ripple (ms):  40 mA
• OVP Adjustment Range:  110% of Vset to 110% of Vmax
• Slew Rate Range:
  • Voltage (with USB):  0.001V – 10V/ms
  • Cur (with USB):  0.001A – 2A/ms
• Programming Response Time (Typical):
  • Rise Time (Full & No Load):  10 ms
  • Fall Time:  850 ms(max)
• Efficiency:  0.85
• Drift (8 hours):
  • Voltage:  0.02% of Vmax
  • Cur:  0.04% of Imax
• Temperature Coefficient:
  • Voltage:  0.02% of Vmax / °C
  • Cur:  0.04% of Imax / °C
• Transient Response Time:  3mS
  • 10% Step Change:  250 mV
  • Voltage Limit @ Series Mode:  500 V
• AC Input Voltage Ranges: 
  • 190 to 250Vac (3 phase 4 wire, Delta connection)
  • or 342 to 440Vac (3 phase 5 wire, Y connection)

Wider range of voltage & cur within the power rating of the power supply

High-speed Programming

Precision V&I Measurements

Cur sharing for parallel operation with Master/Slave Control

LXI option

Constant power operating envelope:

• Provides higher curs at lower voltages
• One power supply can do the job of two or three conventional supplies
• No need for both high cur/low voltage and low cur/high voltage supplies to test a family of converters

High Accuracy cur readback:

• No need for cur shunts/mux/DMMs to measure the converter’s input cur accurately
• Work benches and test systems are less complex, less costly and can cover a wider range of converters

DC Transients:

• Provides programmable control over voltage and cur rise and falls times
• Allows complex dc transients to be generated which are not possible with conventional power supplies
• Supports:
  • Automotive transient testing per ISO16750-2
  • Shipboard – DO-160

Output Trigger:

• Provides output trigger timing and precision event capturing
• Ideal for ATE systems desiring to capture Oscilloscope waveforms

VID Control:  Instruments include 8 independent programmable TTL signals which can be used for VID control or any general purpose logic controls

Soft Panels: 

• Advanced Labview graphical control panels
• Allow for simple and efficient control and data gathering

Provides higher curs at lower voltages

One power supply can do the job of two or three conventional supplies

No need for both high cur/low voltage and low cur/high voltage supplies to test a family of converters

No need for cur shunts/mux/DMMs to measure the converter’s input cur accurately

Work benches and test systems are less complex, less costly and can cover a wider range of converters

Provides programmable control over voltage and cur rise and falls times

Allows complex dc transients to be generated which are not possible with conventional power supplies

Supports:

• Automotive transient testing per ISO16750-2
• Shipboard – DO-160

Automotive transient testing per ISO16750-2

Shipboard – DO-160

Provides output trigger timing and precision event capturing

Ideal for ATE systems desiring to capture Oscilloscope waveforms

Advanced Labview graphical control panels

Allow for simple and efficient control and data gathering

Output Rationgs:

• Output Voltage:  0~100V
• Output Cur:  0~100A
• Output Power:  5000W

Line Regulation:

• Voltage:  0.01%+8mV
• Cur:  0.01%+24mA

Load Regulation:

• Voltage:  0.01%+12mV
• Cur:  0.01%+56mA

Voltage Measurement:

• Range:  20V / 100V
• Accuracy:  0.05%+0.05%F.S.

Cur Measurement:

• Range:  20A / 100A
• Accuracy:  0.1%+0.1%F.S.

Output Noise (0-20MHz):

• Voltage Ripple (P-P):  50 mV
• Voltage Ripple (ms):  15 mV
• Cur Ripple (ms):  40 mA

OVP Adjustment Range:  110% of Vset to 110% of Vmax

Slew Rate Range:

• Voltage (with USB):  0.001V – 10V/ms
• Cur (with USB):  0.001A – 2A/ms

Programming Response Time (Typical):

• Rise Time (Full & No Load):  10 ms
• Fall Time:  850 ms(max)

Efficiency:  0.85

Drift (8 hours):

• Voltage:  0.02% of Vmax
• Cur:  0.04% of Imax

Temperature Coefficient:

• Voltage:  0.02% of Vmax / °C
• Cur:  0.04% of Imax / °C

Transient Response Time:  3mS

• 10% Step Change:  250 mV
• Voltage Limit @ Series Mode:  500 V

AC Input Voltage Ranges: 

• 190 to 250Vac (3 phase 4 wire, Delta connection)
• or 342 to 440Vac (3 phase 5 wire, Y connection)

Output Voltage:  0~100V

Output Cur:  0~100A

Output Power:  5000W

Voltage:  0.01%+8mV

Cur:  0.01%+24mA

Voltage:  0.01%+12mV

Cur:  0.01%+56mA

Range:  20V / 100V

Accuracy:  0.05%+0.05%F.S.

Range:  20A / 100A

Accuracy:  0.1%+0.1%F.S.

Voltage Ripple (P-P):  50 mV

Voltage Ripple (ms):  15 mV

Cur Ripple (ms):  40 mA

Voltage (with USB):  0.001V – 10V/ms

Cur (with USB):  0.001A – 2A/ms

Rise Time (Full & No Load):  10 ms

Fall Time:  850 ms(max)

Voltage:  0.02% of Vmax

Cur:  0.04% of Imax

Voltage:  0.02% of Vmax / °C

Cur:  0.04% of Imax / °C

10% Step Change:  250 mV

Voltage Limit @ Series Mode:  500 V

190 to 250Vac (3 phase 4 wire, Delta connection)

or 342 to 440Vac (3 phase 5 wire, Y connection)

    

• Chroma 62050P-100-100 - Datasheet (2 MB)