Introduction and Specifications 1

DC Current Specifications

Table 1-14. 5700A Series II DC Current Specifications: 99 % and 95 % Confidence Levels

 

5700A

 

 

 

 

99%

99 % Confidence Level

 

 

 

 

 

 

 

 

 

 

 

Absolute Uncertainty

 

 

 

±5 °C from calibration temperature

 

Range

Resolution

For fields strengths >0.4 V/m but 3 V/m,

 

 

 

 

 

 

 

add 1% of range.

Relative Uncertainty ±1 °C

 

nA

220 μA

0.1

2.2 mA

1

22 mA

10

 

μA

220 mA

0.1

2.2 A

1

[Note 1]

 

5725A Amplifier:

11 A

10

24 Hours

45 + 10

45 + 10

45 + 100

55 + 1

75 + 30

330 + 470

90 Days

180 Days

±(ppm output + nA)

 

50

+ 10

 

55

+ 10

 

 

 

 

 

50

+ 10

 

55

+ 10

 

 

50

+ 100

 

55

+ 100

 

±(ppm output + μA)

60

+ 1

65

+ 1

80

+ 30

90

+ 30

 

 

 

 

340 + 480

350 + 480

1 Year

60 + 10

60 + 10

60 + 100

70 + 1

95 + 30

360 + 480

24 Hours

90 Days

±(ppm output + nA)

 

24

+ 2

 

26

+ 2

 

 

 

 

 

24

+ 5

 

26

+ 5

 

 

24

+ 50

 

26

+ 50

 

 

 

± (ppm output + μA)

 

 

26

+ .3

 

30

+ .3

 

 

40

+ 7

 

45

+ 7

 

 

 

 

 

 

 

 

 

 

 

100 + 130

 

110 + 130

 

 

5700A

 

 

 

 

95%

95 % Confidence Level

 

 

 

 

 

 

 

 

 

 

 

Absolute Uncertainty

 

 

 

±5 °C from calibration temperature

 

Range

Resolution

For fields strengths >0.4 V/m but 3 V/m,

 

 

 

 

 

 

 

add 1 % of range.

Relative Uncertainty ±1 °C

 

nA

220 μA

0.1

2.2 mA

1

22 mA

10

 

μA

220 mA

0.1

2.2 A

1

[Note 1]

 

5725A Amplifier:

11 A

10

24 Hours

35 + 8

35 + 8

35 + 80

45 + 0.8

60 + 25

330 + 470

90 Days

180 Days

±(ppm output + nA)

 

40

+ 8

 

45

+ 8

 

 

 

 

 

40

+ 8

 

45

+ 8

 

 

40

+ 80

 

45

+ 80

 

±(ppm output + μA)

50

+ 0.8

55

+ 0.8

65

+ 25

75

+ 25

 

 

 

 

 

 

 

 

340

+ 480

350

+ 480

1 Year

50 + 8

50 + 8

50 + 80

60 + 0.8

80 + 25

360 + 480

24 Hours

90 Days

±(ppm output + nA)

 

20

+ 1.6

 

22

+ 1.6

 

 

 

 

 

20

+ 4

 

22

+ 4

 

 

20

+ 80

 

22

+ 80

 

±(ppm output + μA)

22

+ 0.25

25

+ 0.25

35

+ 6

40

+ 6

 

 

 

 

 

 

 

 

100

+ 130

110

+ 130

Note: Maximum output from the calibrator’s terminals is 2.2 A. Uncertainty specifications for 220 mA and

2.2mA ranges are increased by a factor of 1.3 when supplied through 5725A terminals. Specifications are otherwise identical for all output locations.

1.Add to uncertainty specifications:

±200 x I2 ppm for >100 mA on 220 mA range

±10 x I2 ppm for >1A on 2.2A range

1-21

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Image 37
Fluke 5725A instruction manual Range Resolution, Days ± ppm output + nA ± ppm output + μA

5725A specifications

The Fluke 5725A is a high-performance, multifunctional temperature calibration source designed to meet the demanding requirements of laboratory and industrial environments. Renowned for its accuracy, reliability, and versatility, the 5725A serves as a powerful tool for engineers and technicians engaged in temperature calibration processes.

At the core of the 5725A is its advanced measurement technology, which allows for precision temperature calibrations across a wide range. With an operating temperature range from -200°C to 660°C, it caters to various applications, making it suitable for calibrating thermocouples, resistance temperature detectors (RTDs), and other temperature measurement devices.

One of the standout features of the Fluke 5725A is its outstanding accuracy, boasting a specified uncertainty of just ±0.15°C. This level of precision ensures that users can maintain compliance with regulatory standards and regulatory requirements in fields such as aerospace, pharmaceuticals, and manufacturing.

The Fluke 5725A is equipped with dual-channel capabilities, allowing users to calibrate two devices simultaneously. This enhances productivity by minimizing downtime and optimizing workflow efficiency. The intuitive touchscreen interface simplifies operations, enabling users to view measurements, set up test parameters, and access historical data with ease.

Versatile connectivity options such as USB and Ethernet enable seamless integration into existing systems and allow for data transfer, remote control, and configuration. This feature empowers technicians to conduct calibrations efficiently, whether on-site or remotely.

The robust design of the Fluke 5725A ensures its durability in demanding environments. Built with high-quality materials, it is resistant to shocks and vibrations, making it suitable for use in manufacturing plants and laboratories where equipment may be subjected to harsh conditions.

Another notable characteristic of the 5725A is its ability to generate stable temperature outputs with minimal drift, contributing to consistency in calibration results. Its built-in self-test functionality helps ensure that the unit remains in peak operating condition, giving users confidence in their calibration processes.

In summary, the Fluke 5725A is a top-tier temperature calibration source that excels in accuracy, reliability, and user-friendliness. Whether in laboratory settings or industrial applications, its advanced technologies and features make it an essential tool for professionals tasked with maintaining precision in temperature measurements.