background image

 

Multi-Product Calibrator 

 

Detailed Specifications 

19 

AC Current (Sine Wave) (cont.) 

Absolute Uncertainty,  

tcal 

±

°

±

(% of  

μ

A) 

Range Frequency 

90 days 

1 year 

Max Distortion & 

Noise 10 Hz to 

100 kHz BW 

±

(% of floor) 

Max 

Inductive 

Load 

μ

LCOMP On 

10 to 100 Hz 

0.2 + 0.2 

0.25 + 0.2 

0.1 + 1.0 

μ

29.00 to  

329.99 

μ

100 Hz to 1 kHz 

0.5 + 0.5 

0.6 + 0.5 

0.05 + 1.0 

μ

10 to 100 Hz 

0.2 + 0.3 

0.25 + 0.3 

0.15 + 1.5 

μ

0.33 to  

3.29999 mA 

100 Hz to 1 kHz 

0.5 + 0.8 

0.6 + 0.8 

0.06 + 1.5 

μ

10 to 100 Hz 

0.07 + 4 

0.08 + 4 

0.15 + 5 

μ

3.3 to  

32.9999 mA 

100 Hz to 1 kHz 

0.18 + 10 

0.2 + 10 

0.05 + 5 

μ

10 to 100 Hz 

0.07 + 40 

0.08 + 40 

0.15 + 50 

μ

33 to  

329.999 mA 

100 Hz to 1 kHz 

0.18 + 100 

0.2 + 100 

0.05 + 50 

μ

10 to 100 Hz 

0.1 + 200 

0.12 + 200 

0.2 + 500 

μ

0.33 to  

2.99999 A 

100 to 440 Hz 

0.25 + 1000 

0.3 + 1000 

0.25 + 500 

μ

400 

10 to 100 Hz 

0.1 + 2000 

[2]

 

0.12 + 2000 

[2]

 

0.1 + 0 

μ

3 to 20.5 A 

[1]

 

100 Hz to 1 kHz 

0.8 + 5000 

[3]

 

1.0 + 5000 

[3]

 

0.5 + 0 

μ

400 

[4]

 

[1] 

Duty Cycle: Currents <11 A may be provided continuously. For currents >11 A, see Figure B. The current may be provided 60-
T-I minutes any 60 minute period where T is the temperature in 

°

C (room temperature is about 23 

°

C) and I is the output 

current in Amps. For example, 17 A, at 23 

°

C could be provided for 60-17-23 = 20 minutes each hour. When the 5522A is 

outputting currents between 5 and 11 amps for long periods, the internal self-heating reduces the duty cycle. Under those 
conditions, the allowable "on" time indicated by the formula and Figure B is achieved only after the 5522A is outputting currents 
<5 A for the "off" period first. 

[2] 

For currents >11 A, Floor specification is 4000 

μ

A within 30 seconds of selecting operate. For operating times >30 seconds, 

the floor specification is 2000 

μ

A. 

[3] 

For currents >11 A, Floor specification is 1000 

μ

A within 30 seconds of selecting operate. For operating times >30 seconds, 

the floor specification is 5000 

μ

A. 

[4] 

Subject to compliance voltages limits. 

 

Range 

Resolution 

μ

Max Compliance Voltage V rms 

[1]

 

0.029 to 0.32999 mA 

0.01 

0.33 to 3.29999 mA 

0.01 

3.3 to 32.9999 mA 

0.1 

33 to 329.999 mA 

0.33 to 2.99999 A 

10 

3 to 20.5 A 

100 

[1] 

Subject to specification adder for compliance voltages greater than 1 V rms. 

 

Summary of Contents for 5522A

Page 1: ...1 2011 Fluke Corporation All rights reserved Printed in USA Specifications are subject to change without notice All product names are trademarks of their respective companies 5522A Multi Product Calib...

Page 2: ...nearest Fluke authorized service center to obtain return authorization information then send the product to that service center with a description of the difficulty postage and insurance prepaid FOB D...

Page 3: ...cal shock hazard the operator should not electrically contact the output HI or sense HI terminals or circuits connected to these terminals During operation lethal voltages of up to 1020 V ac or dc may...

Page 4: ......

Page 5: ...cement and Rack Mounting 9 Cooling Considerations 9 Where to Go from Here 10 Instruction Manuals 11 5522A Getting Started Manual 11 5522A Operators Manual 11 General Specifications 11 Detailed Specifi...

Page 6: ...width 26 AC Voltage Non Sine Wave 27 AC Voltage DC Offset 29 AC Voltage Square Wave Characteristics 29 AC Voltage Triangle Wave Characteristics typical 29 AC Current Non Sine Wave 30 AC Current Square...

Page 7: ...iii List of Tables Table Title Page 1 Symbols 2 2 Standard Equipment 6 3 Line Power Cord Types Available from Fluke 9...

Page 8: ...5522A Getting Started iv...

Page 9: ...igure Title Page 1 5522A Multi Product Calibrator 1 2 RS 232 Remote Connections 5 3 How to Access the Fuse and Select Line Voltage 7 4 Line Power Cord Types Available from Fluke 9 5 Allowable Duration...

Page 10: ...5522A Getting Started vi...

Page 11: ...ted output for eight types of Resistance Temperature Detectors RTDs Simulated output for eleven types of thermocouples 0 1 2 3 4 5 6 7 8 9 ENTER M k m V Hz F OPR STBY EARTH SCOPE EXGRD MENU PREV SHIFT...

Page 12: ...and for remote control of the 5522A Pass through RS 232 serial data interface for communicating with the Unit Under Test UUT Safety Information This Calibrator complies with ANSI ISA 61010 1 82 02 01...

Page 13: ...ive earth ground Disruption of the protective earth could put voltage on the chassis that could cause death Use only the mains power cord and connector approved for the voltage and plug configuration...

Page 14: ...ator may be operated at the front panel in the local mode or remotely using RS 232 or IEEE 488 ports For remote operations several software options are available to integrate 5522A operation into a wi...

Page 15: ...This pass through configuration eliminates the requirement for two COM ports at the PC or terminal A set of four commands control the operation of the SERIAL 2 TO UUT serial port See Chapter 6 in the...

Page 16: ...Part Number Calibrator 5522A Line Power Cord See Table 3 and Figure 4 5522A Getting Started Manual 3795091 5522A Operators Manual on CD ROM 3795084 How to Replace the Mains Power Fuse W Caution To pre...

Page 17: ...e of four line voltage settings 100 V 120 V 200 V and 240 V 47 Hz to 63 Hz To check the line voltage setting note the voltage setting visible through the window in the power line fuse compartment cove...

Page 18: ...you verify that the line voltage selection is set correctly and that the correct fuse for that line voltage is installed connect the calibrator to a properly grounded three prong outlet How to Select...

Page 19: ...grounded before use You may place the calibrator on a bench top or mount it in a standard width 24 inch 61 cm deep equipment rack For bench top use the calibrator is equipped with non slipping non mar...

Page 20: ...on in the Operators Manual provided as a pdf file on the CD ROM refer to the following list Unpacking and setup Chapter 2 Prepare for Operation Installation and rack mounting Chapter 2 Prepare for Ope...

Page 21: ...llowing a warm up period of 30 minutes or twice the time the 5522A has been turned off For example if the 5522A has been turned off for 5 minutes the warm up period is 10 minutes All specifications ap...

Page 22: ...m nominal Power Consumption 600 VA Dimensions HxWxL 17 8 cm x 43 2 cm x 47 3 cm 7 in x 17 in x 18 6 in Standard rack width and rack increment plus 1 5 cm 0 6 in for feet on bottom of unit Weight witho...

Page 23: ...100 2 5 1 A 7 0 to 1 09999 A 160 40 200 40 10 A 6 1 1 to 2 99999 A 300 40 380 40 10 A 6 0 to 10 9999 A 20 A Range 380 500 500 500 100 A 4 11 to 20 5 A 1 800 750 2 1000 750 2 100 A 4 400 1 Duty Cycle...

Page 24: ...9999 mA 20 nA 200 nV 0 to 32 9999 mA 200 nA 2 0 A 0 to 329 999 mA 2000 nA 20 A 0 to 2 99999 A 20 A 1 mA 0 to 20 5 A 200 A 10 mA Ambient 0 C 20 C 10 C 30 C 40 C Current Amps Minutes per Hour Duty Cycle...

Page 25: ...0 05 mA 330 k to 1 099999 M 25 32 2 10 1 1 A to 0 018 mA 1 1 to 3 299999 M 40 60 30 150 1 250 nA to 5 A 3 3 to 10 99999 M 110 130 50 250 10 250 nA to 1 8 A 11 to 32 99999 M 200 250 2500 2500 10 25 nA...

Page 26: ...0 125 700 125 0 20 200 V 0 33 V to 3 29999 V 100 kHz to 500 kHz 2000 600 2400 600 10 V 10 mA 0 20 200 V 1 10 Hz to 45 Hz 250 650 300 650 0 15 2 mV 45 Hz to 10 kHz 125 600 150 600 0 035 2 mV 10 kHz to...

Page 27: ...Hz to 45 Hz 0 08 450 0 1 450 0 06 200 V 45 Hz to 1 kHz 0 07 450 0 09 450 0 08 200 V 1 kHz to 5 kHz 0 15 1400 0 2 1400 0 3 200 V 5 kHz to 10 kHz 0 3 1400 0 4 1400 0 6 200 V 0 33 V to 3 29999 V 10 kHz...

Page 28: ...1 kHz 0 035 2 0 04 2 0 05 0 07 5 A 1 to 5 kHz 0 065 2 0 08 2 1 5 0 3 5 A 5 to 10 kHz 0 16 3 0 2 3 1 5 0 7 5 A 3 3 to 32 9999 mA 10 to 30 kHz 0 32 4 0 4 4 10 1 0 0 5 A 50 10 to 20 Hz 0 15 20 0 18 20 0...

Page 29: ...urrent may be provided 60 T I minutes any 60 minute period where T is the temperature in C room temperature is about 23 C and I is the output current in Amps For example 17 A at 23 C could be provided...

Page 30: ...to 3 29999 F 0 19 3 nF 0 25 3 nF 10 pF 10 to 300 Hz 800 Hz 1 kHz 3 3 to 10 9999 F 0 19 10 nF 0 25 10 nF 100 pF 10 to 150 Hz 450 Hz 650 Hz 11 to 32 9999 F 0 30 30 nF 0 40 30 nF 100 pF 10 to 120 Hz 250...

Page 31: ...to 250 0 48 0 57 250 to 100 0 38 0 50 250 to 400 0 28 0 35 100 to 25 0 12 0 16 400 to 1000 0 26 0 33 25 to 350 0 10 0 14 R 1000 to 1767 0 30 0 40 350 to 650 0 12 0 16 0 to 250 0 47 0 47 E 650 to 1000...

Page 32: ...0 06 0 07 0 to 100 0 07 0 08 260 to 300 0 07 0 08 PtNi 385 120 Ni120 100 to 260 0 13 0 14 300 to 400 0 08 0 09 400 to 600 0 08 0 10 Cu 427 10 3 100 to 260 0 3 0 3 Pt 3916 100 600 to 630 0 21 0 23 200...

Page 33: ...an output current 10 A Power and Dual Output Limit Specifications Frequency Voltages NORMAL Currents Voltages AUX Power Factor PF dc 0 to 1020 V 0 to 20 5 A 0 to 7 V 10 to 45 Hz 33 mV to 32 9999 V 3 3...

Page 34: ...current 2 voltage 2 power U U U U VARs uncertainty VARsadder 2 current 2 voltage 2 VARs U U U U Because there are an infinite number of combinations you should calculate the actual ac power uncertain...

Page 35: ...o ext the frequency uncertainty of the 5522A is the uncertainty of the external 10 MHz clock 5 Hz The amplitude of the 10 MHz external reference clock signal should be between 1 V and 5 V p p Harmonic...

Page 36: ...15 is the same and the floor is twice the value 2 x 450 mV AC Voltage Sine Wave Extended Bandwidth Range Frequency 1 Year Absolute Uncertainty tcal 5 C Max Voltage Resolution Normal Channel Single Out...

Page 37: ...1 to 10 Hz 5 0 0 5 Two digits on each range 10 to 45 Hz 0 25 0 5 45 Hz to 1 kHz 0 25 0 25 1 to 20 kHz 0 5 0 25 9 3 to 93 V 20 to 100 kHz 3 5 0 0 5 Six digits on each range Auxiliary Output Dual Output...

Page 38: ...5 Six digits on each range 0 01 to 10 Hz 5 0 0 5 Two digits on each range 10 to 45 Hz 0 25 0 5 45 Hz to 1 kHz 0 25 0 25 1 to 20 kHz 0 5 0 25 6 6 to 66 0000 V 20 to 100 kHz 5 0 0 5 Six digits on each r...

Page 39: ...bove the highest range shown above 2 The maximum offset value is determined by the difference between the peak value of the selected voltage output and the allowable maximum peak signal For example a...

Page 40: ...5 0 5 8 5 to 57 A 2 500 Hz to 1 kHz 1 0 1 0 Six digits 1 Frequency limited to 1 kHz with LCOMP on 2 Frequency limited to 440 Hz with LCOMP on Square Wave Range p p Frequency 1 Year Absolute Uncertaint...

Page 41: ...ttling Time Overshoot I 6 A 400 Hz off 25 s 40 s to 1 of final value 10 for 1 V Compliance 3 A 20 A Ranges on 100 s 200 s to 1 of final value 10 for 1 V Compliance AC Current Triangle Wave Characteris...

Page 42: ...5522A Getting Started 32...

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