Rigol DP800 ::: Series Power Supplies
Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies Rigol DP800 ::: Series Power Supplies

Rigol DP800 ::: Series Power Supplies

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Brand: Rigol
Product Code: DP800
Availability: In Stock

DP832: 195 Watts   :::   DP811A: 200 Watts   :::   DP821A: 140 Watts   :::   DP831A: 160 Watts   :::   DP832A: 195 Watts

The DP800 Series Power Supplies combine the ability to source, analyze, and coordinate over time in a powerful new package. The DP800 Series is a family of linear power supplies systems with 3 outputs and up to 195 Watts in total. With one channel isolated users can reconfigure instruments into any number of systems or applications. Built in V, A, and W measurements make power monitoring easy, but additional wave tracking, timing, and analysis features means there are even more ways to use the supplies. New digital triggering between instruments also makes it possible to reliably combine and connect supplies together. Intuitive to use for everything from education labs to the R & D bench, the DP800 family of power supplies provide incredible value for any application.

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• 3 Outputs; total power up to 195W
• Low Ripple Noise <350 uVrms/2mVpp
• Fast transient response time: <50 us
• Channel isolation: CH1 || CH2,CH3
• OVP/OCP/OTP protection functions
• Built in V, A, W measurements and waveform display
• Support for output Delay, Analysis, Monitor, and Preset functions
• 3.5 inch TFT Display
•  Connectivity including USB Host & Device, LAN, and Digital IO

 

Model DP832A DP832 DP831A DP811A DP821A

Channels

3

1

2

DC Output (0°C to 40°C )

     

 

 

Voltage/current

CH1: 0 to 30V/0 to 3A
CH2: 0 to 30V/0 to 3A
CH3: 0 to 5V/0 to 3A

CH1: 0 to 8V/0 to 5A
CH2: 0 to +30V/0 to 2A
CH3: 0 to -30V/0 to 2A

0 to 20 V/ 0 to 10 A (Low Range) or

 

0 to 40 V/0 to 5 A (High Range)

CH1: 0 to 8 V

          0 to 10 A

CH2: 0 to 60 V

          0 to 1 A

 

OVP/OCP

CH1: 1mV to 33V/1mA to 3.3A
CH2: 1mV to 33V/1mA to 3.3A
CH3: 1mV to 5.5V/1mA to 3.3A

CH1: 10mV~33V/1mA~3.3A
CH2: 10mV~33V/1mA~3.3A
CH3: 10mV~5.5V/1mA~3.3A

CH1:1mV ~ 8.8V/0.1mA ~ 5.5A
CH2:1mV ~ 33V/0.1mA ~ 2.2A
CH3:-1mV ~ -33V/0.1mA ~ 2.2A

0.1 V to 22 V or

0.1 V to 44 V

CH1: 0.1 to 8.8 V

0.1A to 10.5A

 

CH2: 0.1 to 66 V

0.1A to 1.1A

 

Load Regulation Rate ±(Output Percentage + Offset)

 

 

Voltage

<0.01%+2mV

Current

<0.01%+250uA

Linear Regulation Rate ±(Output Percentage + Offset)

 

 

Voltage

<0.01%+2mV

Current

<0.01%+250uA

Ripples and Noise (20Hz to 20MHz)

 

 

Normal Mode Voltage

<350μVrms/2mVpp

Normal Mode Current

<2mArms

Common Mode Current

<1.5μArms

Not specified

Annual Accuracy [1] (25°C ±5°C ) ±(Output Percentage + Offset)

 

 

Programming

Voltage

0.05% + 10mV

0.15%+ 5mA

0.05% + 10mV

CH1: 0.05% + 10mV

CH2: 0.1% + 25mV

Current

0.2% + 10mA

0.2%+10mA

0.1% + 10mA

0.2% + 10mA

Readback

Voltage

0.05% + 5mV

0.1%+20mV

0.05% + 10mV

CH1: 0.05% + 5mV

CH2: 0.1% + 25mV

Current

0.15%+ 5mA

0.2%+10mA

0.1% + 10mA

0.15% + 10mA

Resolution

 

 

Programming

Voltage

1mV

10mV
With high-resolution option:
1mV

1mV

1mV

CH1: 1 mV

CH2: 10 mV

 

Current

1mA

1mA

CH1: 0.3mA
CH2/CH3: 0.1mA

0.5mA

CH1: 1 mA

CH2: 0.1 mA

Readback

Voltage

0.1mV

10mV
With high-resolution option:
0.1mV

0.1mV

0.1mV

CH1: 1 mV

CH2: 1 mV

 

Current

0.1mA

1mA
With high-resolution option:
0.1mA

0.1mA

0.1mA

CH1: 1 mA

CH2: 0.1 mA

Display

Voltage

1mV

10mV
With high-resolution option:
1mV

1mV

1mV

CH1: 1 mV

CH2: 10 mV

 

Current

1mA

10mA
With high-resolution option:
1mA

1mA

1mA

CH1: 1 mA

CH2: 0.1 mA

Transient Response Time

 

 

Less than 50μs for output to recover to within 15mV following a change in output current from full load to half load or vice versa.

Command Processing Time [2]

 

 

<100ms

Temperature Coefficient per? (Output Percentage + Offset)

     

 

 

Voltage

CH1/CH2: 0.01%+5mV
CH3: 0.01%+2mV

0.01%+2mV

0.01%+3mV

Current

0.01%+2mA

0.02%+3mA

0.02%+3mA

Stability [3] ±(Output Percentage + Offset)

 

 

Voltage

CH1/CH2: 0.02%+2mV
CH3: 0.01%+1mV

CH1: 0.03%+1mV
CH2/CH3: 0.02% + 2mV

0.02%+1mV

Current

0.05%+2mA

CH1: 0.1%+3mA
CH2/CH3: 0.05% + 1mA

0.1%+1mA

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