Supplemental Characteristics

Supplemental Characteristics

Agilent Models N5741A – N5752A and N5761A – N5772A

Model (V rating)

6V

8V

12.5V

20V

30V

40V

60V

80V

100V

150V

300V

600V

Output Response Time: (to settle to within 0.5% of the rated output, with a resistive load)

Up, full load

0.08s

0.08s

0.08s

0.08s

0.08s

0.08s

0.08s

0.15s

0.15s

0.15s

0.15s

0.25s

Down, full load

0.01s

0.05s

0.05s

0.05s

0.08s

0.08s

0.08s

0.15s

0.15s

0.15s

0.15s

0.30s

Down, no load

0.5s

0.6s

0.7s

0.8s

0.9s

1.0s

1.1s

1.2s

1.5s

2.0s

2.5s

4s

Command Response Time: (add this to the output response time to obtain the total programming time)

100ms

Remote Sense Compensation:

Volts/load lead

1V

1V

1V

1V

1.5V

2V

3V

4V

5V

5V

5V

5V

Over-voltage Protection:

 

 

 

 

 

 

 

 

 

 

 

Range

0.5-7.5V

0.5-10V

1-15V

1-24V

2-36V

2-44V

5-66V

5-88V

5-110V

5-165v

5-330V

5-660V

Accuracy

0.06V

0.08V

0.125V

0.20V

0.30V

0.40V

0.60V

0.80V

1V

1.5V

3V

6V

Output Ripple and Noise: (From 5Hz-1MHz, at 10% to 100% of output voltage at full load (for 6V units from 33% to 100% of output voltage)

CC rms 750W

200mA

180mA

120mA

76mA

63mA

48mA

38mA

29mA

23mA

18mA

13mA

8mA

CC rms 1500W

360mA

330mA

240mA

152mA

125mA

95mA

75mA

57mA

45mA

35mA

25mA

12mA

Programming Resolution:

Measurement Resolution:

Voltage

0.72mV

0.96mV

1.5mV

2.4mV

3.6mV

4.8mV

7.2mV

9.6mV

12mV

18mV

36mV

72mV

Current 750W

12mA

10.8mA

7.2mA

4.56mA

3mA

2.3mA

1.5mA

1.14mA

0.9mA

0.6mA

0.3mA

0.156mA

Current 1500W

21.6mA

19.8mA

14.4mA

9.12mA

6mA

4.6mA

3mA

2.28mA

1.8mA

1.2mA

0.6mA

0.312mA

Front Panel Display Accuracy: (4 digits; ± 1 count)

 

 

 

 

 

 

 

 

Voltage

3mV

4mV

6.25mV

10mV

15mV

20mV

30mV

40mV

50mV

75mV

150mV

300mV

Current 750W

50mA

45mA

30mA

19mA

12.5mA

9.5mA

6.25mA

4.75mA

3.75mA

2.5mA

1.25mA

6.5mA

Current 1500W

90mA

82.5mA

60mA

38mA

25mA

19mA

12.5mA

9.5m

7.5mA

5mA

2.5m

1.3mA

Temperature Drift: (over 8 hours, after a 30 minute warm-up, with constant line, load, and temperature)

Voltage

3mV

4mV

6.25mV

10mV

15mV

20mV

30mV

40mV

50mV

75mV

150mV

300mV

Current 750W

50mA

45mA

30mA

19mA

12.5mA

9.5mA

6.25mA

4.75mA

3.75mA

2.5mA

1.25mA

6.5mA

Current 1500W

90mA

82.5mA

60mA

38mA

25mA

19mA

12.5mA

9.5m

7.5mA

5mA

2.5m

1.3mA

Temperature Coefficient: (after a 30 minute warm-up)

 

 

 

 

 

 

 

 

Voltage and Current

100PPM/°C from rated output voltage or current

 

 

 

 

 

 

 

Analog Programming and Monitoring:

 

 

 

 

 

 

 

 

 

Vout voltage

0

- 100%, 0-5V/10V, user selectable, Accuracy & linearity = +/-0.5% of rated Vout

 

 

 

Iout voltage

0

- 100%, 0-5V/10V, user selectable, Accuracy & linearity

= +/-1% of rated Iout

 

 

 

Vout resistance

0

- 100%, 0-5k/10k, user selectable, Accuracy & linearity = +/-1% of rated Vout

 

 

 

Iout resistance

0

- 100%, 0-5k/10k, user selectable, Accuracy & linearity = +/-1.5% of rated Iout

 

 

 

Iout monitor

0-5V/10V, user selectable, Accuracy = 1%

 

 

 

 

 

 

 

Vout monitor

0-5V/10V, user selectable, Accuracy = 1%

 

 

 

 

 

 

 

On/Off control

Electrical voltage; 0-6V/2-15V or dry contact, user selectable logic

 

 

 

 

 

PS OK signal

5V = OK; 0V = FAIL; 500series resistance

 

 

 

 

 

 

 

CV/CC signal

CV = TTL high (4-5V) source current 10mA; CC = TTL high (4-5V) sink current 10mA

 

 

 

Enable/Disable

Dry contact. Open=Off, Short=On. Maximum voltage at terminal= 6V.

 

 

 

 

Series N5700 User’s Guide

87

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Agilent Technologies N5700 manual Supplemental Characteristics, Remote Sense Compensation, Over-voltage Protection
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N5700 specifications

Agilent Technologies, now part of Keysight Technologies, is renowned for its innovative solutions in electronic measurement and instrumentation. Among its impressive portfolio, the Agilent N5700 series of power supplies stands out, providing precision, reliability, and versatility for a range of applications in test and measurement.

The N5700 series features multiple models, each designed to meet the varying power requirements of test systems and electronic devices. One of its key characteristics is its adjustable output voltage and current, allowing users to set parameters according to specific test needs. With outputs ranging from 0 to 60 V and up to 6 A, the N5700 series caters to both low and high-power applications effectively.

A notable technology integrated into the N5700 series is its advanced measurement capabilities. The built-in voltmeter and ammeter enable real-time monitoring of output voltage and current, ensuring precise control over the power supplied to the device under test. This feature is particularly advantageous in troubleshooting and optimization scenarios, providing engineers with immediate feedback on performance.

The N5700 also embraces the latest in power supply control technology with its intuitive user interface. The front panel incorporates a clear display and simple navigation controls, allowing users to program settings easily and access functions without extensive training. Additionally, remote programming capabilities via GPIB, USB, or LAN facilitate integration into automated test setups, enhancing productivity and efficiency.

Thermal management is another hallmark of the N5700 series. Its design ensures effective heat dissipation, enabling reliable operation even under demanding conditions. This robustness is critical in environments where consistent performance is essential, such as in research laboratories and manufacturing facilities.

Furthermore, safety features are thoughtfully included in the N5700 series, such as overvoltage protection, overcurrent protection, and short-circuit protection. These elements assure users that their devices and test setups remain secure during testing, minimizing the risk of damage.

In summary, the Agilent N5700 series power supplies encapsulate the fusion of precision, advanced measurement technology, user-friendly design, thermal management, and robust safety features. This combination makes them an invaluable tool for engineers and researchers engaged in electronic testing and development across various industries. With its versatility and reliability, the N5700 series continues to play a pivotal role in advancing electronic measurement methodologies.
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