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Fluke 522A/6, Operator'S Manual

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5522A 

Operators Manual 

11-32 

Table 11-1. PQ Option Verification Table (cont.) 

Verification Tests for 

AC Current 

Harmonic Fundamental Phase

Amplitude

(A) 

Specification 

(A) 

Specification 

 (deg) 

Verification Tests for AC Current, LCOMP OFF 

Range 

 329.9 

mA 

rms  

 0.11000 

1.22E-03  

Wave

 VI 1  100.00% 

 

0.03821 

1.38E-04 

 

RMS Output

 0.11 

A  3 

100.00% 

0.03821 1.38E-04 

0.75 

Frequency

 50 

Hz  6 

100.00%  0  0.03821 1.38E-04 

0.75 

  

100.00% 

0.03821 

1.38E-04 

0.75 

12 100.00% 

0.03821 

1.38E-04 

0.75 

15 100.00% 

0.03821 

1.38E-04 

0.75 

18 100.00% 

0.03821 

1.38E-04 

1.5 

23 50.00% 

0.01910 

1.38E-04 

1.5 

28 50.00% 

0.01910 

1.38E-04 

1.5 

33 50.00% 

0.01910 

1.38E-04 

1.5 

38 30.00% 

0.01146 

1.38E-04 

1.5 

43 30.00% 

0.01146 

1.68E-04 

3.0 

48 30.00% 

0.01146 

1.68E-04 

3.0 

53 30.00% 

0.01146 

1.68E-04 

3.0 

58 30.00% 

0.01146 

1.68E-04 

3.0 

 

63 30.00% 

0.01146 

1.68E-04 

3.0 

Range 

 2.999 

A rms   

  1.10000 

0.00320 

 

Wave

 VII 

100.00% 

 0.40547 

0.00141   

RMS Output

 1.1 A 

100.00% 

0.40547 0.00141 

0.6 

Frequency

 50 

Hz 

100.00% 

0.40547  0.00141 

0.6 

9 100.00% 

0.40547 

0.00141 

0.6 

12 100.00% 

0.40547 

0.00141 0.6 

15 100.00% 

0.40547 

0.00141 0.6 

18 20.00 

0.40547 

0.00141 0.6 

23 20.00 

0.08109 

0.00141 1.0 

28 20.00 

0.08109 

0.00141 1.0 

33 20.00 

0.08109 

0.00141 1.0 

38 20.00 

0.08109 

0.00141 1.0 

43 20.00 

0.08109 

0.00211 2.0 

48 20.00 

0.08109 

0.00211 2.0 

53 20.00 

0.08109 

0.00211 2.0 

58 20.00 

0.08109 

0.00211 2.0 

 

63 20.00 

0.08109 

0.00211 2.0 

Range 

 20.5 

A  rms   

  4.50000 

0.0190 

 

Wave

 VII 

100.00% 

 1.6590 

0.0117   

Rms Output

 4.5 A 

100.00% 

1.6590 0.0117 

0.6 

Frequency

 50 

Hz 

100.00% 

1.6590 

0.0117 

0.6 

9 100.00% 

1.6590 

0.0117 0.6 

12 100.00% 

1.6590 

0.0117 0.6 

15 100.00% 

1.6590 

0.0117 0.6 

18 100.00% 

1.6590 

0.0117 0.6 

23 20.00% 

0.3317 

0.0117 1.0 

28 20.00% 

0.3317 

0.0117 1.0 

33 20.00% 

0.3317 

0.0117 1.0 

38 20.00% 

0.3317 

0.0117 1.0 

43 20.00% 

0.3317 

0.0133 3.0 

 

48 20.00% 

0.3317 

0.0133 3.0 

Summary of Contents for 522A/6

Page 1: ...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 Calibrator...

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: ...DC Voltage 1 9 DC Current 1 9 Resistance 1 11 AC Voltage Sine Wave 1 12 AC Current Sine Wave 1 14 Capacitance 1 16 Temperature Calibration Thermocouple 1 17 Temperature Calibration RTD 1 18 DC Power...

Page 6: ...up Menu 4 4 How to Use the Instrument Setup Menu 4 5 Utility Functions Menu 4 6 How to Use the NV Memory Menu 4 6 How to Reset the Calibrator 4 7 How to Zero the Calibrator 4 7 Operate and Standby Mod...

Page 7: ...4 55 How Calibrate an 80 Series Digital Multimeter 4 55 Cables 4 56 EARTH Connection 4 56 How to Test the Meter 4 56 How to Calibrate the Meter 4 60 How to Test a Model 41 Power Harmonics Analyzer 4...

Page 8: ...ponse Message Syntax 5 33 Checking 5522A Status 5 34 Serial Poll Status Byte STB 5 35 Service Request SRQ Line 5 37 Service Request Enable Register SRE 5 37 Programming the STB and SRE 5 37 Event Stat...

Page 9: ...s Time Marker Function 9 6 Trigger Signal Specifications Edge Function 9 6 Trigger Signal Specifications Square Wave Voltage Function 9 6 Trigger Signal Specifications 9 6 Oscilloscope Input Resistanc...

Page 10: ...ation 9 34 AC Voltage Frequency Verification 9 35 Wave Generator Amplitude Verification 1 M Output Impedance 9 35 Wave Generator Amplitude Verification 50 Output Impedance 9 37 Leveled Sine Wave Verif...

Page 11: ...y and Voltage 10 17 The MORE OPTIONS Menu 10 17 How to Sweep Through a Frequency Range 10 18 Oscilloscope Frequency Response Calibration Procedure 10 19 How to Calibrate the Time Base of an Oscillosco...

Page 12: ...6 Flicker Simulation Mode 11 7 Sags Swells Simulation Mode 11 7 Phase Specifications Sinewave Outputs 11 7 Composite Harmonics Function Volts 11 8 How to Enter the PQ Modes 11 8 How to Create Composi...

Page 13: ...9 How to Set the Sag Swell Width 11 19 How to Set the Sag Swell Amplitude 11 19 How to Set Triggers 11 19 Example 11 20 Delta Amplitude Single Sags Swells Function Current 11 20 Delta Amplitude Mode A...

Page 14: ...5522A Operators Manual x...

Page 15: ...ring 5 22 5 3 RS 232 Emulation of IEEE 488 Messages 5 22 5 4 IEEE 488 Interface Messages Received 5 26 5 5 IEEE 488 Interface Messages Sent 5 27 5 6 Commands for RS 232 Only 5 29 5 7 Commands for IEEE...

Page 16: ...Flatness 9 40 9 11 SC600 Option Edge Verification Amplitude 9 48 9 12 SC600 Option Edge Verification Frequency 9 48 9 13 SC600 Option Edge Verification Duty Cycle 9 49 9 14 SC600 Option Edge Verifica...

Page 17: ...or Verification 10 53 10 19 SC1100 Option Pulse Generator Verification Period 10 54 10 21 SC1100 Option Pulse Generator Verification Pulse Width 10 54 10 21 SC1100 Option Input Impedance Verification...

Page 18: ...5522A Operators Manual xiv...

Page 19: ...ection DC Voltage AC Voltage 4 14 4 8 UUT Connection DC Current AC Current 4 15 4 9 UUT Connection Temperature RTD 4 15 4 10 UUT Connection Temperature Thermocouple 4 16 4 11 Sine Wave 4 42 4 12 Trian...

Page 20: ...Service Request Enable SRE 5 37 5 10 Event Status Register ESR and Event Status Enable ESE 5 39 5 11 Bit Assignments for the ISR ISCEs and ISCR 5 41 7 1 Accessing the Fuse 7 5 7 2 Current Fuse Replace...

Page 21: ...12 AC Current Sine Wave 1 14 Capacitance 1 16 Temperature Calibration Thermocouple 1 17 Temperature Calibration RTD 1 18 DC Power Specification Summary 1 18 AC Power 45 Hz to 65 Hz Specification Summa...

Page 22: ...5522A Operators Manual 1 2...

Page 23: ...ture 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 RESET CE SETUP REF NEW TC MEAS F n p W dBm sec...

Page 24: ...ANSI UL 61010 1 2004 EN 61010 1 2001 In this manual a Warning identifies conditions and actions that pose hazards to the user A Caution identifies conditions and actions that may damage the Calibrator...

Page 25: ...ection protection This protection senses applied voltages higher than 20 volts on the output terminals It quickly disconnects the internal circuits from the output terminals and resets the calibrator...

Page 26: ...O UUT serial port See Chapter 6 for a discussion of the UUT_ commands The SERIAL 2 TO UUT port is also used to connect to the Fluke 700 Series Pressure Modules 0 1 2 3 4 5 6 7 8 9 ENTER M k m V Hz F O...

Page 27: ...or operators The set includes 5522A Operators Manual on included CD ROM PN 3795084 5522A Getting Started Manual PN 3795091 One of each manual listed above is shipped with the instrument Order addition...

Page 28: ...to 40 C 40 to 50 C Storage 95 non condensing After long periods of storage at high humidity a drying out period with power on of at least one week may be required Altitude Operating 3 050 m 10 000 ft...

Page 29: ...0 mV 100 V to 1020 000 V 10 5 mV 20 mV Auxiliary Output dual output mode only 1 0 to 329 9999 mV 0 5 V 20 V 0 33 to 3 299999 V 0 20 V 200 V 3 3 to 7 V 0 100 V 1000 V 1 Two channels of dc voltage outpu...

Page 30: ...A 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 0 10...

Page 31: ...A to 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 2...

Page 32: ...550 125 700 125 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 t...

Page 33: ...V 20 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...

Page 34: ...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 35: ...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...

Page 36: ...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 37: ...84 0 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...

Page 38: ...60 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 2...

Page 39: ...s of 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...

Page 40: ...2 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 uncerta...

Page 41: ...set to 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 Ha...

Page 42: ...p p 1 Frequency 1 Year Absolute Uncertainty tcal 5 C of output of range 2 Max Voltage Resolution Normal Channel Single Output Mode 0 01 to 10 Hz 5 0 0 5 Two digits on each range 10 to 45 Hz 0 25 0 5 4...

Page 43: ...ch 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 66 to 659 999 mV 20 to 100 kHz 5 0 0 5 Six digits on each range 0 01 to 10 Hz...

Page 44: ...a peak value of 5 V allowing a maximum offset up to 50 V to not exceed the 55 V maximum peak signal The maximum offset values shown above are for the minimum outputs in each range 3 For frequencies 0...

Page 45: ...A 1 1 to 10 kHz 10 2 Six digits 10 to 45 Hz 0 25 0 5 45 Hz to 1 kHz 0 25 0 25 0 66 to 6 59999 mA 1 1 to 10 kHz 10 2 Six digits 10 to 45 Hz 0 25 0 5 45 Hz to 1 kHz 0 25 0 25 6 6 to 65 9999 mA 1 1 to 10...

Page 46: ...5522A Operators Manual 1 26...

Page 47: ...age Introduction 2 3 Unpack and Inspect 2 3 How to Replace the Mains Power Fuse 2 3 How to Select Line Voltage 2 4 How to Connect to Line Power 2 4 How to Select Line Frequency 2 4 How to Contact Fluk...

Page 48: ...5522A Operators Manual 2 2...

Page 49: ...se the original container If it is not available you can order a new container from Fluke by indicating the Calibrator s model and serial number Table 2 1 Standard Equipment Item Model or Part Number...

Page 50: ...A 250 V slow blow and reinstall the fuse compartment by pushing it back into place until the tab locks How to Connect to Line Power Warning To prevent possible electrical shock fire or personal injury...

Page 51: ...STRU CAUTION FOR FIRE PROTECTION REPLACE O WITH A 250V FUSE OF INDICATED RATING 0V SB 120 120 2 4 0 Changing Line Fuse Changing Line Voltage Line Voltage Indicator gjh004 eps Figure 2 1 How to Access...

Page 52: ...eive operating assistance or get the location of the nearest Fluke distributor or Service Center call USA 1 888 99 FLUKE 1 888 993 5853 Canada 1 800 36 FLUKE 1 800 363 5853 Europe 31 402 675 200 Japan...

Page 53: ...Baffles direct cooling air from the fan throughout the chassis to internally dissipate heat during operation The accuracy and dependability of all internal parts of the calibrator are enhanced by main...

Page 54: ...5522A Operators Manual 2 8...

Page 55: ...3 1 Chapter 3 Features Title Page Introduction 3 3 Front Panel Features 3 3 Rear Panel Features 3 3 Softkey Menu Trees 3 3...

Page 56: ...5522A Operators Manual 3 2...

Page 57: ...ctors are shown in Figure 3 2 Each rear panel feature is described in Table 3 2 Softkey Menu Trees The Setup softkeys are identified in Figures 3 3 and 3 4 The Setup softkeys are associated with the 5...

Page 58: ...es to within the specified accuracy m Displayed when the calibrator is making a measurement Thermocouple pressure and impedance measurement features only Displayed when the amplitude is specified as t...

Page 59: ...ition is earth disabled indicator off a The SCOPE Oscilloscope key activates or deactivates an oscilloscope calibration option if it is installed An indicator on the key indicates when the option is a...

Page 60: ...emote control G The CE Clear Entry key clears a partially completed keypad entry from the Control Display If there is a partially completed entry when CE is pressed the output is unaffected L e W The...

Page 61: ...er range U The MEAS TC Measure Thermocouple key enables the TC Thermocouple input connection and causes the 5522A to compute a temperature based on the voltage present at the input Output Units Keys T...

Page 62: ...nits keys and alternate multipliers of the multiplier keys These alternate selections are labeled with small letters in the upper left hand corner of the keys Numeric Keypad Used to enter the digits o...

Page 63: ...utput when the 20 A range is selected 3 A 20 A The AUX Auxiliary Output terminals are used for ac and dc current outputs the second voltage output in dual voltage modes and ohms sense for 2 wire and 4...

Page 64: ...s changes to be written into memory and switching to NORMAL protects data in memory from being overwritten The switch is recessed to allow it to be covered with a calibration sticker to guarantee cali...

Page 65: ...gh the line power cord ground wire The CHASSIS GROUND terminal is internally grounded to the chassis If the 5522A is the location of the ground reference point in a system this binding post can be use...

Page 66: ...Manual 3 12 SETUP X W A C G I B F C A D G E D A A A B O K H I L P M R Q N S T V U Y Z S 2 S 3 A Front Panel Key G 2 A F A E A J A G A H AK AL A F Next Section A H A F S 1 gjh006 eps Figure 3 3 Setup S...

Page 67: ...not pass error codes are displayed See chapter 7 Maintenance SERIAL displays the serial number of the instrument When corresponding with the factory always include the serial number of the instrument...

Page 68: ...not dependent on the CALIBRATION switch position All sets all calibration and setup constants to factory setting CAL set only calibration constants to factory settings SETUP resets instrument setup t...

Page 69: ...or none STALL refers to the method of controlling data flow software control xon off hardware control rts cts or none K to L HOST selects the IEEE 488 gpib factory default parallel port or RS 232 seri...

Page 70: ...s are 012 000 where the FF form feed character signals an advance to the next page and the NULL ignore character holds position When the NULL character is 000 then effectively the EOF is only the FF c...

Page 71: ...0 1 2 3 4 5 6 7 levels 0 1 2 3 4 5 6 7 There are eight levels of contrast 0 to 7 for the Output Display and Control Display Each may have its own level of contrast The factory defaults are 7 and 7 The...

Page 72: ...5522A Operators Manual 3 18 S1 S2 to S3 S to S2 to T to S1 gjh032 eps Figure 3 4 SETUP Softkey Menu Displays cont...

Page 73: ...ine summary of the programmed output specifications U S3 to V to U The values set here become the new limits and can be changed only with new entries or returned to factory defaults using Format NV Me...

Page 74: ...alibrator ERR ACT Error Action set backup abort or cont continue AB AC to AD to AE Only if scope option installed to AB to Z to X Select the desired CAL Calibration feature CAL to calibrate the 5522A...

Page 75: ...H to AJ to AG AH AE to AF Only if scope option installed GO ON and ABORT softkeys are used in the 5522A Calibrator calibration procedure See the Service Manual for more information AD to AF gjh033 eps...

Page 76: ...8 bits 1 stop bit xon xoff parity none 9600 baud I Host serial interface term 8 bits 1 stop bit xon xoff parity none 9600 baud CRLF 012 000 K L M N GPIB Port Address 4 O Display brightness Note level...

Page 77: ...sus Two Wire Connections 4 10 Four Wire Connection 4 10 Two Wire Compensation 4 10 Compensation Off 4 10 Cable Connections Instructions 4 10 RMS Versus p p Amplitude 4 16 Auto Range Versus Locked Rang...

Page 78: ...sure Pressure 4 51 How to Synchronize the Calibrator using 10 MHz IN OUT 4 52 How to Use an External 10 MHz Clock 4 52 How to Source AC Current and Parallel Connected 5522As 4 53 Three Phase Power Cal...

Page 79: ...from the front panel For a description of front panel controls displays and terminals see Chapter 3 Features How to Turn on the Calibrator Warning To prevent possible electrical shock fire or personal...

Page 80: ...key are called softkeys Softkey key functions are based on the label that appears directly above the key in the Control Display Pressing a softkey either changes a value or causes a submenu with new...

Page 81: ...rt string These features are explained under Utilities Function Menu later in this chapter How to Use the Instrument Setup Menu The softkeys in the instrument setup menu accessed by pressing INSTMT SE...

Page 82: ...s in this menu require the rear panel CALIBRATION switch to be in the ENABLE position The nonvolatile memory contains calibration constants and dates setup parameters and the user report string In the...

Page 83: ...ero the calibrator Zeroing is particularly important when your calibration workload has 1 m or 1 V resolution and when there has been a significant temperature change in the Calibrator work environmen...

Page 84: ...20 A or vice versa An overload condition is detected How to Connect the Calibrator to a UUT Warning The Calibrator is capable of supplying lethal voltages Do not make connections to the output termin...

Page 85: ...ions made by the Z and B keys Chassis ground Internal guard shield NORMAL LO signal ground NORMAL LO binding post Safety ground through ac line cord Lit open Not lit open EARTH EXGRD GUARD binding pos...

Page 86: ...re two wire compensation COMP 2 wire and two wire no compensation COMP off See Setting Resistance Output and Setting Capacitance Output later in this chapter Note that compensated connections for capa...

Page 87: ...m Table 4 1 For capacitance outputs null out stray capacitance by connecting the test leads to the UUT routing them but not connecting to the Calibrator on a non conductive surface Null out the readin...

Page 88: ...T SENSE SENSE SOURCE SOURCE gjh014 eps Figure 4 2 UUT Connection Resistance Four Wire Compensation 5522A CALIBRATOR 5522A UUT 87 TRUE RMS MULTIMETER MIN MAX RANGE HOLD H REL Hz mA A A m mV V V OFF PEA...

Page 89: ...MAX RANGE HOLD H REL Hz mA A A m mV V V OFF PEAK MIN MAX A COM V mA A gjh016 eps Figure 4 4 UUT Connection Resistance Compensation Off 5522A CALIBRATOR 87 TRUE RMS MULTIMETER MIN MAX RANGE HOLD H REL...

Page 90: ...EL Hz mA A A m mV V V OFF PEAK MIN MAX A COM V mA A gjh018 eps Figure 4 6 UUT Connection Capacitance Compensation Off 5522A CALIBRATOR 87 TRUE RMS MULTIMETER MIN MAX RANGE HOLD H REL Hz mA A A m mV V...

Page 91: ...5 5522A CALIBRATOR 87 TRUE RMS MULTIMETER MIN MAX RANGE HOLD H REL Hz mA A A m mV V V OFF A COM V mA A PEAK MIN MAX gjh020 eps Figure 4 8 UUT Connection DC Current AC Current 5522A CALIBRATOR CHART RE...

Page 92: ...elected range is 3 3 to 32 9999 V If you then use the softkeys to change from a sine wave to a triangle wave for example the display changes from 6 V rms to 6 V p p This translates to 6 V p p x 0 2886...

Page 93: ...Output Setting the calibrator output is similar to entering values into a calculator press the keys that represent the value you desire and then press a units key to identify which of the volts amps h...

Page 94: ...ltage on the desired range 4 Press the numeric keys and decimal point key to enter the desired voltage output maximum seven numeric keys For example 123 4567 Note At voltage outputs of 100 volts and a...

Page 95: ...ing procedure to set an ac voltage output at the front panel NORMAL terminals If you make an entry error press G to clear the display then reenter the value Caution To prevent damage to the UUT verify...

Page 96: ...Display using the rightmost softkey 3 The Control Display now shows the amplitude of your entry For example 2 44949 V below nn073f eps 4 Press the numeric keys and decimal point key to enter the desi...

Page 97: ...See Entering a DC Offset later in this chapter for more information When a voltage output is expressed in dBm voltage offset is not available You can enter an offset for a square wave output only whe...

Page 98: ...polarity of the current default is 6 Press a multiplier key if necessary For example press c 7 Press A 8 The Control Display now shows the amplitude of your entry For example 234 567 mA nn077f eps 9...

Page 99: ...nt key to enter the desired current output maximum six numeric keys For example 123 456 5 Press a multiplier key if necessary For example press c 6 Press A 7 The Control Display now shows the amplitud...

Page 100: ...types of waveforms sine wave triangle wave square wave and truncated sine wave See Waveform Types later in this chapter for more information Whenever a non sinusoidal waveform is selected the Output...

Page 101: ...ple 123 4567 mV below nn071f eps 9 Press the numeric keys and decimal point key to enter the desired current output maximum six numeric keys For example 234 567 10 Press I to select the polarity of th...

Page 102: ...e output in dBm this procedure assumes an ac voltage output in volts Complete the following procedure to set an ac power output If you make an entry error press G one or more times to clear the displa...

Page 103: ...Display now shows your entries For example 123 456 mV and 234 567 mA at 1 1234 kHz below nn086f eps 14 Press E The calibrator clears your entry from the Control Display and copies it into the Output D...

Page 104: ...veform for the current output at the front panel AUX terminals See Waveform Types later in this chapter LO s Low Potential Output Terminals The front panel NORMAL LO and AUX LO terminals must be tied...

Page 105: ...Calibrator to a UUT 3 Set the UUT to measure dual dc voltage on the desired range 4 Press the numeric keys and decimal point key to enter the desired voltage output at the NORMAL terminals maximum sev...

Page 106: ...a the LO s softkey selection tied The calibrator produces a dual ac voltage output by sourcing one ac voltage on the NORMAL outputs and a second on the AUX terminals Complete the following procedure t...

Page 107: ...inals upper reading and AUX terminals lower reading below is typical nn092f eps 12 Press the numeric keys and decimal point key to enter the desired frequency output maximum five numeric keys Press a...

Page 108: ...in this chapter for more information AUXWAVE Auxiliary Waveform Selects the waveform for the voltage at the front panel AUX terminals See Waveform Types later in this chapter for more information LO...

Page 109: ...thesized output be sure the terminal connections from the Calibrator to the UUT are LO to LO and HI to HI 3 Set the UUT to measure resistance on the desired range 4 Press the numeric keys and decimal...

Page 110: ...uctions for a procedure to null out stray capacitances due to the test cable connections Note Since this is a synthesized output be sure the terminal connections from the Calibrator to the UUT are LO...

Page 111: ...le the temperature reference between the 1968 International Provisional Temperature Standard ipts 68 and the 1990 International Temperature Standard its 90 see How to Use the Instrument Setup Menu Com...

Page 112: ...Press O to activate the calibrator output Four softkey labels appear on the Control Display Note The entered temperature will be cleared to 0 C 32 F if you change between tc and rtd or change the type...

Page 113: ...l External temperature reference source Select intrnl when the selected thermocouple has alloy wires and you are using the isothermal block internal to the Calibrator Select extrnl when using an exter...

Page 114: ...onal Provisional Temperature Standard ipts 68 and the 1990 International Temperature Standard its 90 see How to Use the Instrument Setup Menu earlier in this chapter Complete the following procedure t...

Page 115: ...rature Output Device Selects the temperature device thermocouple tc or resistance temperature detector rtd Select rtd COMP Compensation Applies 4 wire compensation 2 wire compensation or turns compens...

Page 116: ...ay below is typical The lower case m blinks on when a measurement is being taken nn107f eps Meas TC terminal Measurement at the front panel TC terminals Displays the actual dc voltage at the front pan...

Page 117: ...e of the external temperature reference REF Temperature Reference Displays the value of the temperature reference When the Reference Source is Internal the display shows the internal reference When th...

Page 118: ...Square Wave When the wave selection is square a square wave current or voltage signal is present on the calibrator outputs Figure 4 13 The variables for the square wave are duty cycle amplitude frequ...

Page 119: ...ibrator sources two signals with adjustable harmonic difference with a maximum harmonic frequency output of 10 kHz For example a 120 V 60 Hz signal can be set on the front panel NORMAL terminals and a...

Page 120: ...ous menus How to Adjust the Phase When in the dual ac voltage and ac power output modes you can set the calibrator to source two signals with adjustable phase difference All phase adjustments shift th...

Page 121: ...ation How to Adjust the Phase 4 4 45 gjh070 eps When one output is a harmonic of the other the phase shift is based on the phase angle or power factor cosine of the harmonic signal For example when th...

Page 122: ...ng phase angle of 123 45 degrees below SHOW PF appears only for sine waves nn111f eps 7 Press E The calibrator clears your entry from the New phase line and copies it to the Phase line of the Control...

Page 123: ...hin the range 6 6 to 65 9999 V p p a range that allows a maximum peak signal of 55 V For this example the square wave peak value is 5 V thus allowing a maximum offset of 50 V for a maximum peak signal...

Page 124: ...ference A new keypad entry E Establishes a new reference N Establishes the present output as a new reference X Sets the calibrator to ten times the reference value and establishes a new reference D Se...

Page 125: ...hods of displaying the UUT error The first method called the nominal method is used in the Fluke 5700A 5720A 5500A and 5520A calibrators The second method is called true value Both methods are used in...

Page 126: ...reater than the limit from being activated by entry through the front panel keys or the output adjustment controls Positive limits for voltage and current set the limits for ac voltage and current You...

Page 127: ...a pressure measurement proceed as follows 1 Connect the 700 Series Pressure Module to the 700PCK input jack and connect the 700PCK power supply to line power 2 Using the adapter supplied by the 700PCK...

Page 128: ...Hz IN OUT You can synchronize one or more Calibrators using the 10 MHz IN and OUT input output on the rear panel Example applications of this capability are connecting two or more calibrators in paral...

Page 129: ...ource current greater than 20 A If you are sourcing ac current you must synchronize the calibrators in order to have their output currents in phase Proceed as follows to accomplish this 1 With both Ca...

Page 130: ...You can configure three Calibrators to calibrate a three phase power meter This example uses the assumption that you want to apply a perfectly balanced calibration output with a unity power factor By...

Page 131: ...DMM Calibrating a Fluke Model 41 Power Harmonics Analyzer for Power and Harmonics Calibrating a Fluke Model 51 Digital Thermometer How Calibrate an 80 Series Digital Multimeter This example goes thro...

Page 132: ...tances AC and dc currents up to 20 A EARTH Connection Because the 80 Series DMMs are battery operated their inputs have no connection to earth ground Therefore enabling the calibrator s earth chassis...

Page 133: ...nd frequencies Voltage Frequency 350 mV 60 Hz 5 kHz and 20 kHz 3 500 V 60 Hz 5 kHz and 20 kHz 35 00 V 60 Hz 5 kHz and 20 kHz 329 0 V 60 Hz 5 kHz and 20 kHz 100 0 V 20 kHz 200 0 V 20 kHz 300 0 V 20 kHz...

Page 134: ...ifications 9 Test the Diode Test function as follows a Press R on the calibrator and set the DMM function switch to b Set the calibrator to 3 0 V dc and press O Verify the error is within specificatio...

Page 135: ...us step with the following calibrator settings AC Current Frequency 350 0 A 1 0 kHz 3500 0 A 60 Hz 3500 0 A 1 0 kHz 11 Test the High current function a Press R on the calibrator b Verify that the cali...

Page 136: ...and set the calibrator output to 3 500 V at 100 Hz 7 The DMM should display 3 500 0 002 If necessary adjust R34 to obtain the proper display 8 Change the calibrator output to 10 kHz 9 The DMM should...

Page 137: ...MIN MAX MIN MAX MIN MAX 5 0 V 0 0 30 0 mV 145 156 145 156 0 4 2 2 8 0 V 0 0 30 0 mV 234 246 234 246 0 4 2 2 100 0 V 157 0 150 0 mV 14 3k 13 3k 14 5k 15 6k 5 4k 6 3k 155 159 100 0 V 157 0 360 0 mV 37k...

Page 138: ...Tester until V is displayed above the upper right corner of the harmonics screen 3 Press the VA REF button on the Tester until A is displayed in the top status line 4 Press the SMOOTH button on the T...

Page 139: ...nect the calibrator NORMAL output to the V and COM connectors on the Tester 5 Connect the calibrator AUX output to the Current Probe connector on the Tester 6 Set the calibrator output to 7 0 V at 60...

Page 140: ...match the thermocouple type For example if testing a K thermocouple the cable and miniconnector are for a type K thermocouple 5522A CALIBRATOR 60V 24V MAX OFFSET ON OFF F C HOLD K J THERMOMETER 51 Con...

Page 141: ...standby and connect the UUT to the calibrator as shown in Figure 4 22 When making this connection with the UUT case top removed make sure that the wide blade is oriented the same as the case top woul...

Page 142: ...sition until the display is held in self test This puts the UUT into the Reference Junction Sensor calibration mode and the VIEW maneuver turns off a filter so that the reading settled immediately 18...

Page 143: ...UT Port Operation via a Terminal 5 17 How to Test RS 232 UUT Port Operation with Visual Basic 5 18 How to Test the RS 232 UUT Port via IEEE 488 Port 5 18 How to Change between Remote and Local Operati...

Page 144: ...tatus Register ISR 5 40 Instrument Status Change Registers 5 40 Instrument Status Change Enable Registers 5 40 Bit Assignments for the ISR ISCR and ISCE 5 40 Programming the ISR ISCR and ISCE 5 41 Out...

Page 145: ...INT Fault A detected Print message 1060 PRINT 4 STBY Place 5522A in standby 1070 STOP Remote control can be interactive with the user controlling each step from a terminal or under the control of a co...

Page 146: ...UUT without a remote port UUT 5522A Calibrator Controller System for a UUT with an IEEE 488 remote port UUT 5522A Calibrator Controller System for a UUT with an RS 232 remote port SERIAL 2 TO UUT Port...

Page 147: ...interface is also designed in compliance with supplemental standard IEEE 488 2 which describes additional IEEE 488 features Devices connected to the IEEE 488 bus are designated as talkers listeners t...

Page 148: ...5522A Calibrator Controller System for a UUT with an RS 232 port via PC UUT 5522A Calibrator Controller System for a UUT with an RS 232 remote port via 5522A SERIAL 2 TO UUT Port COM Port RS 232 Port...

Page 149: ...te the softkey selections shown below Verify the HOST port selection is gpib Select the desired GPIB port address 0 to 30 using the UP DOWN softkeys The factory default is 4 Select nn120f eps 4 Press...

Page 150: ...e PC and Calibrator IEEE 488 ports using a standard IEEE 488 cable See Chapter 9 Accessories for IEEE 488 cables available from Fluke 3 From the programs menu select NI 488 2M software for your operat...

Page 151: ...re such as 5500 CAL or MET CAL The RS 232 cable length for the port should not exceed 15 meters 50 feet although longer cable lengths are permitted if the load capacitance measured at a connection poi...

Page 152: ...y selections shown below to select the HOST serial port parameters to match the PC COM parameters Individual softkey functions are discussed in Chapter 3 Features If operating the port with a computer...

Page 153: ...If you select STORE CHANGES the serial and host port setting are saved in the instrument non volatile memory How to Test the RS 232 Host Port Choose or adapt one of the following test procedures to te...

Page 154: ...t Port Setup Procedure earlier in this chapter to set up the Calibrator for RS 232 Host port operation Note the RS 232 Host port parameters that you selected in this procedure 2 Connect the selected C...

Page 155: ...ost Port Setup Procedure and change the REMOTE I F setting from comp to term If nonsense characters appeared on the screen then you have a mismatch is RS 232 parameters Refer to step 4 of the RS 232 H...

Page 156: ...a Visual Basic Test Program to create the group RS 232 Test Complete the following procedure to test RS 232 operation using Visual Basic 1 Complete the RS 232 Host Port Setup Procedure earlier in this...

Page 157: ...able length for each port should not exceed 15 meters although longer cable lengths are permitted if the load capacitance measured at a connection point including signal terminator does not exceed 250...

Page 158: ...Choose or adapt one of the following test procedures to test the Calibrator RS 232 UUT port via the RS 232 Host port Connect the UUT and PC as shown in Figure 5 5 Note the use of a modem cable NOT nul...

Page 159: ...PC COM port After Step 9 return to this procedure and continue to Step 3 below 3 On the Terminal screen type UUT_SEND uut command where uut command is the command you selected for the UUT response th...

Page 160: ...st port After Step 6 return to this procedure and continue to Step 3 below 3 Click the Command3 button below is typical Observe the UUT responds to the command you used when you completed Appendix D C...

Page 161: ...ibrator for GPIB operation 2 Complete Testing the IEEE 488 Port to prepare the Calibrator IEEE 488 port for testing Before the final step return to this procedure and continue to Step 3 below 3 Go to...

Page 162: ...ion and remote the Calibrator can be placed in a local lockout condition at any time by command of the controller Combined the local remote and lockout conditions yield four possible operating states...

Page 163: ...message Table 5 1 summarizes the possible Remote Local state transitions For more information on IEEE 488 GPIB messages see IEEE 488 Overview Table 5 1 Operating State Transitions From To Front Panel...

Page 164: ...peration because these functions must be implemented as IEEE messages per the IEEE Standards For example the command REMOTE could be sent as data over the IEEE 488 interface to place the Calibrator in...

Page 165: ...s used by the devices to indicate to the controller that they require service The IFC line is used by the controller to quickly get all the devices on the bus to stop talking and start listening The R...

Page 166: ...AD OTA TAG and MTA NOT PCG Primary Command Group M PCG ACG or UCG or LAG or TAG PPC Parallel Poll Configure M AC 0 0 0 0 1 0 1 1 PPE Parallel Poll Enable M SE 1 1 0 B4 B3 B2 B1 1 PPD Parallel Poll Dis...

Page 167: ...er mode is used when the Calibrator is operated by computer program In this mode requested information is returned by query and interface messages are queued and returned by command RS 232 Pass Throug...

Page 168: ...vice dependent and common commands Interface messages are handled automatically in most cases For example handshake messages DAV DAC and RFD automatically occur under the direction of an instrument s...

Page 169: ...has successfully received a device dependent or common command UNT Untalk Unaddresses a specific device on the bus as a listener The controller sends UNL automatically after the device has successful...

Page 170: ...he command RST OUT 100V 1kHZ WAVE SINE Followed by the commands WAVE TRI OUT 10V 1kHZ The WAVE TRI causes an error At 100 V only sine waves are allowed Both WAVE and OUT are coupled commands So the co...

Page 171: ...ons that must be implemented as a message as specified in the IEEE 488 standards For example the RS 232 interface uses the command REMOTE to place the Calibrator in the remote mode Although the IEEE 4...

Page 172: ...g 1 See How IEEE 488 Operates later in this chapter Command Syntax The following syntax rules apply to all the remote commands Information about syntax of response messages is also given Parameter Syn...

Page 173: ...mercury INHG Pressure in inches of mercury INH2O Pressure in inches of water FTH2O Pressure in feet of water MH2O Pressure in meters of water BAR Pressure in bar PAL Pressure in Pascal G CM2 Pressure...

Page 174: ...minators Table 5 9 summarizes the terminator characters for both the IEEE 488 and RS 232 remote interfaces Table 5 9 Terminator Characters ASCII Characters Terminator Function Number Program Control C...

Page 175: ...first part of the entry under Response in the tables The response is identified as one of the data types in Table 5 10 Table 5 10 Response Data Types Data Type Description Integer Integers for some c...

Page 176: ...fer called the Error Queue provide status information Table 5 11 lists the status registers and gives the read write commands and associated mask registers Table 5 11 Status Register Summary Status Re...

Page 177: ...the power is turned on The STB byte is defined as shown in Figure 5 9 If you are using the RS 232 as the remote control interface transmitting the P character in the Terminal mode hold down the Cntl k...

Page 178: ...e Registers Write using ISCE0 1 to 0 transition ISCE1 0 to 1 transition ISCE 1 to 0 OR 0 to 1 0 R P T B S Y S E T T L E D R E M O T E 0 U U T B F U L U U T D A T A H I V O L T M A G C H G T M P C A L...

Page 179: ...on the bus but they all share a single SRQ line To determine which instrument set SRQ the Controller normally does a serial poll of each instrument The calibrator asserts SRQ whenever the RQS bit in...

Page 180: ...time it is read Many of the remote commands require parameters Improper use of parameters causes command errors to occur When a command error occurs bit CME 5 in the Event Status Register ESR goes to...

Page 181: ...PC 15 14 13 12 11 10 9 8 0 0 0 0 0 0 0 0 7 6 5 4 3 2 1 0 PON 0 CME EXE DDE QYE 0 OPC gjh048 eps Figure 5 10 Event Status Register ESR and Event Status Enable ESE Programming the ESR and ESE To read th...

Page 182: ...rator on the Control Display and the display annunciators during local operation Instrument Status Change Registers There are two registers dedicated to monitoring changes in the ISR These are the ISC...

Page 183: ...T MAGCHG TMPCAL OPER gjh049 eps Figure 5 11 Bit Assignments for the ISR ISCEs and ISCR Programming the ISR ISCR and ISCE To read the contents of the ISR send the remote command ISR To read the content...

Page 184: ...queue where it can be read by the ERR command See Appendix E for a list of error messages A way to decode an error code is to send the command EXPLAIN which returns a description of a error code Readi...

Page 185: ...T The instrument has been on for A minutes This program generates the following sample output Function is DCV The instrument has been on for 134 minutes Check for programming errors as in the followin...

Page 186: ...100 ER ABS V VM V 1E6 COMPUTE ERROR 110 PRINT 5522 OUTPUT V U PRINT THE RESULTS 120 PRINT 45 MEASURED VM V 130 PRINT ERROR ER PPM 140 END Verifying a Meter on the RS 232 UUT Serial Port This program...

Page 187: ...60 PRINT OUTPUT SETTLED 70 END The WAI command causes the Calibrator to wait until any prior commands have been completed before continuing on to the next command and takes no other action Using WAI i...

Page 188: ...nput buffer if it is encountered as part of a message terminator Input buffer operation is transparent to the program running on the controller If the controller sends commands faster than the Calibra...

Page 189: ...6 1 Chapter 6 Remote Commands Title Page Introduction 6 3 Command Summary by Function 6 3 Commands 6 10...

Page 190: ...5522A Operators Manual 6 2...

Page 191: ...PGA OPC Enables setting of bit 0 OPC for Operation Complete in the Event Status Register to 1 when all pending device operations are complete OPC Returns a 1 after all pending operations are complete...

Page 192: ...REFOUT Returns the value of the reference which is the output values of the Calibrator the last time a new reference was established with an OUT NEWREF or MULT EDIT Sets the edit field PRI is specifie...

Page 193: ...ge when in OVERLD PULSE or MEASZ scope modes SCOPE Sets the calibrator output to an oscilloscope mode SCOPE Returns the present oscilloscope mode TDPULSE Activates or deacvitates the tunnel diode puls...

Page 194: ...wave outputs FUNC Returns the present output measurement or calibration function HARMONIC Makes the frequency of one output be a harmonic multiple of the other output called the fundamental HARMONIC R...

Page 195: ...impedance compensation ZCOMP Returns whether or not impedance compensation is active and if active which type Table 6 6 Pressure Measurement Commands Command Description DAMPEN Activates or deactivat...

Page 196: ...Sets the UUT serial port communication parameters and saves them in nonvolatile memory UUT_SET Returns the UUT serial port communication parameters contained in nonvolatile memory Table 6 9 Setup and...

Page 197: ...default thermocouple type TEMP_STD Sets the temperature degree standard ipts 68 or its 90 TEMP_STD Returns the temperature degree standard ipts 68 or its 90 TLIMIT_D Sets the power up and reset defaul...

Page 198: ...open thermocouple detection circuit in thermocouple measurement mode VAL Returns the last thermocouple pressure or for the SC600 impedance measurement value VVAL Returns the last value of the thermoc...

Page 199: ...clock time only or date and time To set the date the CALIBRATION switch must be in the ENABLE position Parameters 1 optional year in the format YYYY 2 optional month in the format MM 3 optional day i...

Page 200: ...d A20 20A terminals are selected Example CUR_POST returns AUX Returns AUX when the AUX terminals are selected for output current DAMPEN Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Dampen M...

Page 201: ...being sourced The dBm impedance is set to the default at power on reset and when going into single output AC mode DBMZ_D Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x dBm Impedance Default...

Page 202: ...Factor query Returns the displacement power factor cosine of the phase angle between the Calibrator front panel NORMAL and AUX terminals for sine wave outputs Responses value LEAD value LAG Example DP...

Page 203: ...Example EARTH returns OPEN Returns OPEN when EARTH is not tied to the NORMAL LO terminal the front panel Z key annunciator is off EDIT Overlapped Coupled IEEE 488 RS 232 Sequential x x x x x Edit comm...

Page 204: ...ence to the nominal value TRUVAL Sets the reference to the output value ERR_REF Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Returns the error reference for error calculations Response NOMI...

Page 205: ...PLAIN Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Explain Error query Explains an error code This command returns a string that explains the error code furnished as the parameter The error...

Page 206: ...st error code in the error queue number 539 To view an explanation of the error enter the command EXPLAIN 539 FORMAT Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Format command Use with ext...

Page 207: ...NC Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Function query Returns the present output measurement or calibration function See the response below for output measurement modes Responses D...

Page 208: ...value PRI harmonic value fundamental at primary output value SEC harmonic value fundamental at secondary output Example HARMONIC returns 5 SEC Returns that the 5th harmonic frequency is selected and t...

Page 209: ...f bits 12 SETTLED 10 REMOTE and 6 HIVOLT are set to 1 ISCE0 Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Instrument Status 1 to 0 Change Enable command Loads the two bytes into the 16 bit I...

Page 210: ...ts 0 to 32767 Example ISCR returns 6272 Returns decimal 6272 binary 0001010001000000 if bits 12 SETTLED 10 REMOTE and 6 HIVOLT are set to 1 ISCR0 Sequential Overlapped Coupled IEEE 488 RS 232 x x x x...

Page 211: ...ut magnitude negative and positive for voltage and current which is saved in the Calibrator non volatile memory While saving configuration data in the non volatile memory a period of about 2 seconds t...

Page 212: ...trument into the front panel lockout state The front panels controls cannot be used LOWS Overlapped Coupled IEEE 488 RS 232 Sequential x x x x x Low Potential Output Terminals command Selects whether...

Page 213: ...ference value to the current Calibrator output value OLDREF Overlapped Coupled IEEE 488 RS 232 Sequential x x x x x Old Reference command Sets the Calibrator output to the reference value and exit the...

Page 214: ...ing Response 1 Operate 0 Standby Example OPER returns 1 Returns 1 when the Calibrator is in operate OPT Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Options command Returns a list of the in...

Page 215: ...volts 20 dBm same frequency OUT 10 V 60 Hz volts ac 10 V 60 Hz OUT 10 DBM 50 HZ volts ac 10 dBm 50 Hz OUT 1 2 MA current 1 2 mA same frequency OUT 1 A 400 HZ current ac 1 A 400 Hz OUT 1 KOHM ohms 1 k...

Page 216: ...OHM F CEL FAR The units for the frequency value is always assumed to be Hz OUT_ERR Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Output Error query Returns the UUT error and units computed...

Page 217: ...rrent 1 A dc for 10 watts real power Example POWER returns 1 00000E 01 Returns 10 when the output voltage is 10 V ac and output current 2 A ac and power factor is 5 for 10 watts real power PR_PRT X IE...

Page 218: ...units until power off or reset Example PRES_UNIT BAR PRES_UNIT Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Pressure Units query Returns the pressure display units Responses character PSI p...

Page 219: ...racters maximum which is saved in the Calibrator non volatile memory While saving configuration data in the non volatile memory a period of about 2 seconds the Calibrator does not respond to remote co...

Page 220: ...dc power 3 3 V 3 A ranges AC330V_P AC20A_2S ac power 330 V 20 A ranges DC330MV_P DC3_3V_S dual dc volts 330 mV 3 3 V ranges AC330V_P AC3_3V_S dual ac volts 330 V 3 3 V ranges Returns the symbolic name...

Page 221: ...ommand Sets the power up and reset default for the reference clock source internal or through the 10 MHz IN BNC connector Parameters INT Sets internal reference clock EXT Sets external reference clock...

Page 222: ...the Calibrator and the sync pulse on the 10 MHz IN or OUT terminal Response float Phase in degrees Example REFPHASE returns 1 50E 00 1 5 degrees REFPHASE_D Sequential Overlapped Coupled IEEE 488 RS 23...

Page 223: ...in local operation and appears on calibration reports The CALIBRATION switch must be set to ENABLE Sequential command Parameter String of up to 40 characters RPT_STR Sequential Overlapped Coupled IEE...

Page 224: ...RTD curve 0 00385 ohms ohm C PT385_500 500 ohm RTD curve 0 00385 ohms ohm C PT385_1000 1000 ohm RTD curve 0 00385 ohms ohm C PT3926 100 ohm RTD curve 0 003926 ohms ohm C PT3916 100 ohm RTD curve 0 00...

Page 225: ...ure Detector RTD used at power on and reset Responses PT385 100 ohm RTD curve 0 00385 ohms ohm C PT385_200 200 ohm RTD curve 0 00385 ohms ohm C PT385_500 500 ohm RTD curve 0 00385 ohms ohm C PT385_100...

Page 226: ...bits parity PNONE none PODD odd PEVEN even end of line char CR carriage return LF line feed CRLF carriage return line feed Example SP_SET returns 9600 TERM XON DBIT8 SBIT1 PNONE CRLF Returns the para...

Page 227: ...value the decimal equivalent of the SRE byte 0 to 191 Example SRE returns 56 Returns 56 when bits 3 EAV 4 MAV and 5 ESR are enabled SRQSTR Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Servi...

Page 228: ...is in operate This is the same as pressing the Calibrator front panel Y key Parameter None Example STBY Disconnect the selected output from the Calibrator front panel terminals SYNCOUT Overlapped Coup...

Page 229: ...Coupled IEEE 488 RS 232 x x x x x Thermocouple Open Detection query Returns the status of the open thermocouple detection circuit in thermocouple measurement mode Responses ON thermocouple detection c...

Page 230: ...d while simulating a temperature output the temperature is changed to 0 C Once set the Calibrator retains the TC type until power off or reset Parameters B B type thermocouple C C type thermocouple E...

Page 231: ...ype default to a type J thermocouple TC_TYPE_D Sequential Overlapped Coupled IEEE 488 RS 232 x x x x x Thermocouple Type Default query Returns the default thermocouple TC sensor type Responses B B typ...

Page 232: ...ability 0 00E 00 OPENTC open thermocouple 0 00E 00 NONE wrong mode or no measurement Example TRG returns 2 500E 01 CEL Trigger a thermocouple measurement and return 25 00 Celsius when the thermocouple...

Page 233: ...d uncertainty of primary unit 2 float 1 year specified uncertainty of primary output 3 character Unit of primary output uncertainty 4 float 90 day specified uncertainty of secondary unit 5 float 1 yea...

Page 234: ...ck data or End or Identify EOI command IEEE 488 Parameter 2 nn nn characters string definite length 0 character string indefinite length character string character string Examples UUT_SEND 206F1S2R0 d...

Page 235: ...lapped Coupled IEEE 488 RS 232 x x x x x UUT Serial Port Set command Sets the RS 232 C settings for the Calibrator rear panel SERIAL 2 TO UUT serial port which is saved in the Calibrator non volatile...

Page 236: ...NONE Returns 0 and NONE when there is no recent measurement either because the Calibrator is not in a measurement mode or because no measurement has been made yet VVAL Sequential Overlapped Coupled I...

Page 237: ...front panel NORMAL terminals is a square wave and NONE when there is no secondary output on the front panel AUX terminals ZCOMP Overlapped Coupled IEEE 488 RS 232 Sequential x x x x x Impedance Compen...

Page 238: ...nd argument Parameter 1 boolean ON boolean OFF 2 Reference value for absolute pressure modules Example ZERO_MEAS ON Sets the zero offset to the present measurement value Example ZERO_MEAS ON 14 7 Sets...

Page 239: ...7 1 Chapter 7 Maintenance Title Page Introduction 7 3 How to Replace the Line Fuse 7 3 How to Replace the Current Fuses 7 4 How to Clean the Air Filter 7 5 General Cleaning 7 6 Performance Tests 7 7...

Page 240: ...5522A Operators Manual 7 2...

Page 241: ...s voltage exposure is possible Turn the Product off and remove the mains power cord Stop for two minutes to let the power assemblies discharge before you open the fuse door How to Replace the Line Fus...

Page 242: ...THA IS PROPERLY INSTALLED BEFORE ENERGIZING INSTRU CAUTION FOR FIRE PROTECTION REPLACE O WITH A 250V FUSE OF INDICATED RATING 0V SB 120 120 2 4 0 Changing Line Fuse Changing Line Voltage Line Voltage...

Page 243: ...n To prevent damage to the Calibrator keep the fan filter clean and do not restrict the area around the fan The air filter must be removed and cleaned every 30 days or more frequently if the calibrato...

Page 244: ...IN G C O N N EC TO R IN PO W ER C O R D M U ST BE C O N N EC TED TO EN SU R E PR O TEC TIO N FR O M ELEC TR IC SH O C K C H ASSIS G R O U N D oq062f eps Figure 7 3 Accessing the Air Filter General Cle...

Page 245: ...328 9941 mV 329 0059 mV 329 9999 mV 329 0000 mV 329 0059 mV 328 9941 mV 3 299999 V 0 000000 V 0 000002 V 0 000002 V 3 299999 V 1 000000 V 0 999989 V 1 000011 V 3 299999 V 1 000000 V 1 000011 V 0 99998...

Page 246: ...043 A 329 999 A 190 000 A 190 043 A 189 957 A 329 999 A 329 000 A 328 941 A 329 059 A 329 999 A 329 000 A 329 059 A 328 941 A 3 29999 mA 0 00000 mA 0 00005 mA 0 00005 mA 3 29999 mA 1 90000 mA 1 89980...

Page 247: ...010 0 0010 10 9999 2 0000 1 9989 2 0011 10 9999 10 9000 10 8986 10 9014 32 9999 11 9000 11 8982 11 9018 32 9999 19 0000 18 9980 19 0020 32 9999 30 0000 29 9978 30 0023 109 9999 33 0000 32 9979 33 0021...

Page 248: ...2 M 11 90488 M 32 99999 M 19 00000 M 18 99370 M 19 00630 M 32 99999 M 30 00000 M 29 99150 M 30 00850 M 109 9999 M 33 0000 M 32 9838 M 33 0162 M 109 9999 M 109 0000 M 108 9534 M 109 0466 M 329 9999 M 1...

Page 249: ...100 kHz 299 788 mV 300 212 mV 329 999 mV 300 000 mV 500 kHz 299 450 mV 300 550 mV 3 29999 V 0 33000 V 45 Hz 0 32989 V 0 33011 V 3 29999 V 0 33000 V 10 kHz 0 32989 V 0 33011 V 3 29999 V 3 00000 V 9 5 H...

Page 250: ...000 00 V 45 Hz 999 74 V 1000 26 V 1020 00 V 1000 00 V 1 kHz 999 79 V 1000 21 V 1020 00 V 1000 00 V 5 kHz 999 79 V 1000 21 V 1020 00 V 1000 00 V 8 kHz 999 74 V 1000 26 V 1020 00 V 1020 00 V 1 kHz 1019...

Page 251: ...5 00000 V 5 00000 V 5 kHz 4 99110 V 5 00890 V 5 00000 V 5 00000 V 10 kHz 4 98360 V 5 01640 V 1 Set the NORMAL output to 300 mV Table 7 9 Verification Tests for AC Current Range Output Frequency Lower...

Page 252: ...000 mA 10 kHz 18 967 mA 19 033 mA 32 999 mA 19 0000 mA 30 kHz 18 935 mA 19 065 mA 32 999 mA 32 9000 mA 10 Hz 32 849 mA 32 951 mA 32 999 mA 32 9000 mA 1 kHz 32 886 mA 32 914 mA 32 999 mA 32 9000 mA 5 k...

Page 253: ...0 Hz 3 2954 A 3 3046 A 20 5000 A 3 3000 A 1 kHz 3 2954 A 3 3046 A 20 5000 A 3 3000 A 5 kHz 3 2155 A 3 3845 A 20 5000 A 10 9000 A 45 Hz 10 8926 A 10 9075 A 20 5000 A 10 9000 A 65 Hz 10 8926 A 10 9075 A...

Page 254: ...0233 F 10 9999 F 10 9000 F 100 Hz 10 8693 F 10 9307 F 32 9999 F 20 0000 F 100 Hz 19 9100 F 20 0900 F 32 9999 F 30 0000 F 100 Hz 29 8800 F 30 1200 F 109 999 F 70 000 F 50 Hz 69 662 F 70 338 F 109 999...

Page 255: ...10 0000 mV 9 99660 10 00340 1000 00 C 10 0000 mV 10 0034 9 9966 10000 00 C 100 0000 mV 99 9930 100 0070 10 V C 10000 00 C 100 0000 mV 100 0070 99 9930 Table 7 12 Verification Tests for Thermocouple M...

Page 256: ...0 25 0 25 1 kHz 0 50 0 50 5 kHz 2 50 2 50 10 kHz 5 00 5 00 30 kHz 0 10 00 10 00 65 Hz 59 90 60 10 400 Hz 59 75 60 25 1 kHz 59 50 60 50 5 kHz 57 50 62 50 10 kHz 55 00 65 00 30 kHz 60 50 00 70 00 65 Hz...

Page 257: ...Hz 20 5000 A 20 0000 A 59 90 60 10 329 999 mV 200 000 mV 400 Hz 20 5000 A 20 0000 A 60 59 75 60 25 65 Hz 329 99 mA 300 00 mA 0 10 0 10 65 Hz 2 99999 A 2 00000 A 0 10 0 10 65 Hz 20 5000 A 5 0000 A 0 10...

Page 258: ...e Normal Output V Output Normal V Frequency Lower Limit 1 Upper Limit 1 119 00 Hz 118 99970 Hz 119 00030 Hz 120 0 Hz 119 99970 Hz 120 00031 Hz 1000 0 Hz 999 9975 Hz 1000 0025 Hz 3 29999 3 00000 100 00...

Page 259: ...8 1 Chapter 8 Accessories Title Page Introduction 8 3 Rack Mount Kit 8 4 IEEE 488 Interface Cable 8 4 RS 232 Null Modem Cables 8 4 5520A 525A LEADS 8 4...

Page 260: ...5522A Operators Manual 8 2...

Page 261: ...5 A 250 V Fast 6 3 X 32 mm 664828 MET CAL IEEE NT Option IEEE Interface 666339 MET CAL IEEE PCI Option IEEE Interface PCI 943738 RS 232 Modem Cable 2 44 m 8 ft SERIAL 2 TO UUT to UUT DB 9 MET CAL L Ve...

Page 262: ...lengths See Table 8 1 The cables attach to the 5522A to any other IEEE 488 device Each cable has double 24 pin connectors at both ends to allow stacking Metric threaded mounting screws are provided w...

Page 263: ...nction 9 13 Pulse Response Calibration Procedure for an Oscilloscope 9 13 Pulse Response Calibration with a Tunnel Diode Pulser 9 14 The Leveled Sine Wave Function 9 15 Shortcuts for Setting the Frequ...

Page 264: ...pedance 9 37 Leveled Sine Wave Verification Amplitude 9 38 Leveled Sine Wave Verification Frequency 9 39 Leveled Sine Wave Verification Harmonics 9 39 Leveled Sine Wave Verification Flatness 9 40 Edge...

Page 265: ...d using the PULSE function This function allows you to vary both the pulse width and the period The oscilloscope s ability to trigger on different waveforms is checked using the Wave Generator WAVEGEN...

Page 266: ...positive or negative zero referenced square wave 2 For square wave frequencies above 1 kHz 0 25 of output 40 V Edge Specifications Edge Characteristics into 50 Load 1 Year Absolute Uncertainty tcal 5...

Page 267: ...ations Time Maker into 50 5 s to 50 ms 20 ms to 100 ns 50 to 20 ns 10 ns 5 to 2 ns 1 Year Absolute Uncertainty at Cardinal Points tcal 5 C 25 t 1000 ppm 1 2 5 ppm 2 5 ppm 2 5 ppm 2 5 ppm Wave Shape sp...

Page 268: ...5 s off 1 1 V 2 ns Trigger Signal Specifications Edge Function Edge Signal Frequency Division Ratio Typical Amplitude into 50 p p Typical Rise Time Typical Lead Time 900 Hz to 11 MHz off 1 1 V 2 ns 40...

Page 269: ...ger and view its signal with the calibration signal connect the TRIG OUT output to another channel See your oscilloscope manual for details on connecting and viewing an external trigger 5522A CALIBRAT...

Page 270: ...tput Display will show OPR and the output should appear on the oscilloscope How to Adjust the Output Signal The Calibrator provides several ways to change the settings for the output signal during cal...

Page 271: ...the field without changing the digit press e gjh038 eps 2 To move the cursor between the voltage and frequency fields press e gjh039 eps 3 Use W and L to move the cursor to the digit you want to chang...

Page 272: ...le line divisions that need to be matched vary for different oscilloscopes and are specified in your oscilloscope s service manual The Volt Function The Voltage gain is calibrated using the Volt funct...

Page 273: ...s the softkey under DOWN to decrease the volts per division DIV Specifies the number of divisions that establish the peak to peak value of the waveform The value can be adjusted from one to eight divi...

Page 274: ...ings for your oscilloscope This example shows the gain at 30 mV to be 6 divisions at 5 mV per division gl006i bmp 4 Change the voltage to the next value recommended for calibrating your oscilloscope m...

Page 275: ...rive a Tunnel Diode Pulser Fluke Part Number 606522 Tektronix 067 0681 01 or equivalent TRIG If you are using the external trigger use this key to toggle the trigger off and on When on the reading wil...

Page 276: ...est position available 20 0 or 50 0 ns div Pulse aberrations gl007i eps 5 Verify that your oscilloscope exhibits the proper rise time and pulse aberration characteristics 6 Remove the input signal by...

Page 277: ...oscope s bandwidth When you check your oscilloscope you change the wave s frequency until the amplitude displayed on the oscilloscope drops 30 which is the amplitude that corresponds to the 3 dB point...

Page 278: ...nge if necessary The following section provides details on this menu The X and D keys step frequencies up or down in amounts that let you quickly access a new set of frequencies For example if the val...

Page 279: ...vertical gain The range setting will always return to auto after you leave Levsine mode MODE Indicates you are in Levsine mode Use the softkey to change modes and open the corresponding menus for the...

Page 280: ...Reconnect the signal by pressing the O key on the 5522A Select 50 impedance or use a 50 external termination directly at the oscilloscope input 2 Adjust the sine wave settings in the Output Display a...

Page 281: ...ection time base of an oscilloscope is calibrated using a method similar to the vertical gain calibration A time marker signal is generated from the Calibrator and the signal s peaks are matched to th...

Page 282: ...eases the voltage to the nearest cardinal point which is 500 s Time Base Marker Calibration Procedure for an Oscilloscope This sample procedure uses the Time Marker function to check the horizontal de...

Page 283: ...ms can be tested using the wave generator When the wave generator is used a square sine or triangle wave is transmitted and the wave s output impedance offset and voltage can be varied in order to tes...

Page 284: ...offset plus half of the wave s peak to peak value See Wave Generator Specifications at the beginning of this chapter MODE Indicates you are in Wavegen mode Use the softkey to change modes and open th...

Page 285: ...y to cycle through the trigger settings The available trigger settings are off 1 trigger signal appears on each marker 10 trigger signal appears on every tenth marker and 100 trigger signal appears on...

Page 286: ...ther oscilloscope calibration modes If you have selected Capacitance measurement the menu appears as follow gjh065 eps SET OFFSET With the cable disconnected at the oscilloscope but still connected at...

Page 287: ...ugh the functions in the order shown or you can press P to return directly to the OTHER modes menu Each option in the OVERLD menu is described below OUTPUT SCOPE Indicates the location of the signal o...

Page 288: ...nd OUT_IMP are designated as overlapped commands because they may be overlapped interrupted by the next command before they have completed execution When an overlapped command is interrupted it may ta...

Page 289: ...ance 1 M standby if from OFF or previously in standby FUNC returns WAVEGEN Example SCOPE WAVEGEN OUT 1 V 1 kHz Wave Generator 1 V peak to peak 1 kHz VIDEO Oscilloscope VIDEO mode Programs 100 output 1...

Page 290: ...eak 1 MHz output at the SCOPE BNC standby if from OFF or previously in standby LEVSINE Oscilloscope leveled sine mode Programs 30 mV peak to peak 50 kHz output at the SCOPE BNC standby if from OFF or...

Page 291: ...is 1 100 of the signal at SCOPE output TRIG IEEE 488 RS 232 Sequential Returns the output setting of the oscilloscope s trigger Parameters None Response character Returns OFF DIV1 DIV10 or DIV100 OUT...

Page 292: ...ro or OFF or zero Example TDPULSE ON Returns the tunnel diode pulse drive setting in EDGE mode Parameters None Response 1 if ON 0 if OFF Marker Function Commands TMWAVE IEEE 488 RS 232 Sequential Sele...

Page 293: ...E 488 RS 232 Sequential Returns the VIDEO mode line marker setting Parameters None Response character SINE SPIKE SQUARE or SQ20PCT Overload Function Commands OL_TRIP IEEE 488 RS 232 Sequential Returns...

Page 294: ...itance value Parameters boolean ON or OFF TRG IEEE 488 RS 232 Sequential Triggers and returns a new impedance measurement value when used with the SC600 option in MEAS Z mode See Chapter 6 for TRG use...

Page 295: ...red Value V dc Deviation V dc 1 Year Spec V dc 0 0 00004 0 00125 0 000040625 0 00125 0 000040625 0 00249 0 000041245 0 00249 0 000041245 0 0025 0 00004125 0 0025 0 00004125 0 00625 0 000043125 0 00625...

Page 296: ...00114 6 6 0 00334 6 6 0 00334 10 99 0 005535 10 99 0 005535 11 0 00554 11 0 00554 70 5 0 03529 70 5 0 03529 130 0 06504 130 0 06504 6 599 50 0 0165375 AC Voltage Amplitude Verification Table 9 3 SC60...

Page 297: ...4 AC Voltage Frequency Verification 1 M output impedance unless noted Nominal Value V p p Frequency Hz Measured Value Hz Deviation Hz 1 year Spec Hz 2 1 10 0 000025 2 1 100 0 00025 2 1 1000 0 0025 2 1...

Page 298: ...re 3 75 1000 0 1126 square 6 59 1000 0 1978 square 6 6 1000 0 1981 square 30 8 1000 0 9241 square 55 10 1 6501 square 55 100 1 6501 square 55 1000 1 6501 square 55 10000 1 6501 sine 0 0018 1000 0 0001...

Page 299: ...re 0 0449 1000 0 001447 square 0 045 1000 0 00145 square 0 078 1000 0 00244 square 0 109 1000 0 00337 square 0 11 1000 0 0034 square 0 28 1000 0 0085 square 0 449 1000 0 01357 square 0 45 1000 0 0136...

Page 300: ...ne Wave Verification Amplitude Table 9 7 SC600 Option Leveled Sine Wave Verification Amplitude Nominal Value V p p Frequency Measured Value V p p Deviation V p p 1 Year Spec V p p 0 005 50 kHz 0 0004...

Page 301: ...quency Measured Value dB Deviation dB 1 Year Spec dB 2nd harmonic 0 0399 50 kHz 33 3rd harmonic 0 0399 50 kHz 38 2nd harmonic 0 099 50 kHz 33 3rd harmonic 0 099 50 kHz 38 2nd harmonic 0 399 50 kHz 33...

Page 302: ...MHz 38 2nd harmonic 5 5 80 MHz 33 3rd harmonic 5 5 80 MHz 38 2nd harmonic 5 5 100 MHz 33 3rd harmonic 5 5 100 MHz 38 2nd harmonic 5 5 200 MHz 33 3rd harmonic 5 5 200 MHz 38 2nd harmonic 5 5 400 MHz 33...

Page 303: ...002125 0 0075 70 MHz 0 0002125 0 0075 120 MHz 0 00025 0 0075 290 MHz 0 00025 0 0075 360 MHz 0 0004 0 0075 390 MHz 0 0004 0 0075 400 MHz 0 0004 0 0075 480 MHz 0 0004 0 0075 570 MHz 0 0004 0 0075 580 MH...

Page 304: ...01 400 MHz 0 0005 0 01 480 MHz 0 0005 0 01 570 MHz 0 0005 0 01 580 MHz 0 0005 0 01 590 MHz 0 0005 0 01 600 MHz 0 0005 0 025 50 kHz na na 0 025 30 MHz 0 000475 0 025 70 MHz 0 000475 0 025 120 MHz 0 00...

Page 305: ...9 590 MHz 0 00166 0 039 600 MHz 0 00166 0 04 50 kHz na na 0 04 30 MHz 0 0007 0 04 70 MHz 0 0007 0 04 120 MHz 0 0009 0 04 290 MHz 0 0009 0 04 360 MHz 0 0017 0 04 390 MHz 0 0017 0 04 400 MHz 0 0017 0 04...

Page 306: ...9 360 MHz 0 00406 0 099 390 MHz 0 00406 0 099 400 MHz 0 00406 0 099 480 MHz 0 00406 0 099 570 MHz 0 00406 0 099 580 MHz 0 00406 0 099 590 MHz 0 00406 0 099 600 MHz 0 00406 0 1 50 kHz na na 0 1 30 MHz...

Page 307: ...0101 0 25 590 MHz 0 0101 0 25 600 MHz 0 0101 0 399 50 kHz na na 0 399 30 MHz 0 006085 0 399 70 MHz 0 006085 0 399 120 MHz 0 00808 0 399 290 MHz 0 00808 0 399 360 MHz 0 01606 0 399 390 MHz 0 01606 0 3...

Page 308: ...61 0 8 290 MHz 0 0161 0 8 360 MHz 0 0321 0 8 390 MHz 0 0321 0 8 400 MHz 0 0321 0 8 480 MHz 0 0321 0 8 570 MHz 0 0321 0 8 580 MHz 0 0321 0 8 590 MHz 0 0321 0 8 600 MHz 0 0321 1 2 50 kHz na na 1 2 30 MH...

Page 309: ...0521 1 3 570 MHz 0 0521 1 3 580 MHz 0 0521 1 3 590 MHz 0 0521 1 3 600 MHz 0 0521 3 4 50 kHz na na 3 4 30 MHz 0 0511 3 4 70 MHz 0 0511 3 4 120 MHz 0 0681 3 4 290 MHz 0 0681 3 4 360 MHz 0 1361 3 4 390 M...

Page 310: ...cy Hz Measured Value V p p Deviation V p p 1 Year Spec V p p 0 005 1 kHz 0 0003 0 005 10 kHz 0 0003 0 005 100 kHz 0 0003 0 01 100 kHz 0 0004 0 025 100 kHz 0 0007 0 05 100 kHz 0 0012 0 1 100 kHz 0 0022...

Page 311: ...equency Measured Value s Deviation ns 1 Year Spec ns 0 25 1 kHz 0 3 ns 0 25 100 kHz 0 3 ns 0 25 10 MHz 0 3 ns 0 5 1 kHz 0 3 ns 0 5 100 kHz 0 3 ns 0 5 10 MHz 0 3 ns 1 1 kHz 0 3 ns 1 100 kHz 0 3 ns 1 10...

Page 312: ...riod Table 9 17 SC600 Option Pulse Generator Verification Period Nominal Value V p p Pulse Width s Period s Measured Value s Deviation s 1 Year Spec s 2 5 8E 08 2E 06 5E 12 2 5 0 0000005 0 01 2 5E 08...

Page 313: ...Verification Resistance Nominal Value Measured Value Deviation 1 Year Spec 40 0 04 50 0 05 60 0 06 600000 600 1000000 1000 1500000 1500 Input Impedance Verification Capacitance Table 9 20 SC600 Option...

Page 314: ...5522A Operators Manual 9 52...

Page 315: ...edure 10 14 Pulse Response Calibration Using a Tunnel Diode Pulser 10 15 The Leveled Sine Wave Function 10 16 Shortcuts for Setting the Frequency and Voltage 10 17 The MORE OPTIONS Menu 10 17 How to S...

Page 316: ...rification Amplitude 10 41 Edge Verification Frequency 10 42 Edge Verification Duty Cycle 10 42 Edge Verification Rise Time 10 42 Tunnel Diode Pulser Verification 10 43 Leveled Sinewave Verification A...

Page 317: ...nd the period The oscilloscope s ability to trigger on different waveforms is checked using the Wave Generator WAVEGEN function The oscilloscope s ability to trigger on and capture complex TV Trigger...

Page 318: ...4 CAN CSA C22 2 No 1010 1 92 Analog Low Isolation 20 V EMC Complies with EN 61326 1 1997 Class A Volt Specifications DC Signal Square Wave Signal 1 Volt Function 50 Load 1 M Load 50 Load 1 M Load Ampl...

Page 319: ...are made with a Tektronix 11801 mainframe with an SD26 input module Leveled Sine Wave Specifications Leveled Sine Wave Frequency Range Characteristics into 50 50 kHz reference 50 kHz to 100 MHz 100 t...

Page 320: ...dicated above Amplitude Resolution 4 digits 1 t is the time in seconds 2 Typical rise time of square wave and 20 pulse 20 duty cycle pulse is 1 5 ns 3 Time marker uncertainty is 50 ppm away from the c...

Page 321: ...eriod Division Ratio Amplitude into 50 p p Typical Rise Time 5 s to 35 ms off 1 1 V 2 ns 34 9 ms to 750 ns off 1 10 100 1 V 2 ns 749 to 7 5 ns off 10 100 1 V 2 ns 7 4 to 2 ns off 100 1 V 2 ns Trigger...

Page 322: ...external trigger connect the TRIG OUT output on the Calibrator to the external trigger connection on your oscilloscope To use the external trigger and view its signal with the calibration signal conn...

Page 323: ...press the O key The Output Display will show OPR and the output should appear on the oscilloscope How to Adjust the Output Signal The Calibrator provides several ways to change the settings for the o...

Page 324: ...ace the cursor in the field without changing the digit press e gl003i eps 2 To move the cursor between the voltage and frequency fields press e gl004i eps 3 Use the L and W keys to move the cursor to...

Page 325: ...s applied from the Calibrator in VOLT mode The specific voltages that you should use for calibration and the graticule line divisions that need to be matched vary for different oscilloscopes and are s...

Page 326: ...s Press the softkey under UP to increase the volts per division Press the softkey under DOWN to decrease the volts per division DIV Specifies the number of divisions that establish the peak to peak va...

Page 327: ...waveform should be similar to the one shown below with the gain at exactly the amount specified for the calibration settings for your oscilloscope This example shows the gain at 30 mV to be 6 division...

Page 328: ...Diode Pulser Fluke Part Number 606522 Tektronix 067 0681 01 or equivalent TRIG If you are using the external trigger use this key to toggle the trigger off and on When on the reading will show 1 which...

Page 329: ...the fastest position available 20 0 or 50 0 ns div Pulse aberrations gl007i eps 5 Verify that your oscilloscope exhibits the proper rise time and pulse aberration characteristics 6 Remove the input si...

Page 330: ...width When you check your oscilloscope you change the wave s frequency until the amplitude displayed on the oscilloscope drops 30 which is the amplitude that corresponds to the 3 dB point Default valu...

Page 331: ...at the reference after you make adjustments at a different frequency MORE OPTIONS lets you use an automatic frequency sweep and lock the voltage range if necessary The following section provides deta...

Page 332: ...o which should always be used unless you are troubleshooting discontinuities in your oscilloscope s vertical gain The range setting will always return to auto after you leave LEVSINE mode MODE Indicat...

Page 333: ...u start this example procedure verify that you are running the SC1100 Option in LEVSINE mode If you are the Control Display shows the following menu gjh058 eps Perform the following sample procedure t...

Page 334: ...it to the digit you want to change Then change the value by turning the rotary knob Continue making small increments in the frequency until the signal drops to 4 2 divisions At 4 2 divisions the signa...

Page 335: ...20 duty cycle square wave Note that selections available under SHAPE depend on the selected marker period frequency as follows Selection Period Frequency sine 10 ns 1 ns 100 MHz 1 GHz spike 5s 20 ns 0...

Page 336: ...oupled 2 Apply a time marker value according to the recommended calibration settings in your oscilloscope manual For example to enter 200 ns press 2 0 0 b K b H then press E Note You may enter the equ...

Page 337: ...bed below OUTPUT SCOPE Indicates the location of the signal output If the signal does not appear on the oscilloscope press O To disconnect the signal press Y WAVE Scrolls through the three types of wa...

Page 338: ...the location of the signal output If the signal does not appear on the oscilloscope press O To disconnect the signal press Y LINE MK Allows you to select the marker line number For ntsc and pal m for...

Page 339: ...cycle through the trigger settings The available trigger settings are off 1 trigger signal appears on each marker 10 trigger signal appears on every tenth marker and 100 trigger signal appears at ever...

Page 340: ...e softkey to change modes and open menus for other oscilloscope calibration modes If you have selected Capacitance measurement the menu appears as follows gjh065 eps SET OFFSET With the cable disconne...

Page 341: ...nd currents that this test can output Failing to do so could damage your oscilloscope gjh066 eps You can press the MODE softkey to cycle through the functions in the order shown or you can press P to...

Page 342: ...ial Commands in Chapter 5 Overlapped Commands Commands SCOPE TRIG and OUT_IMP are designated as overlapped commands because they may be overlapped interrupted by the next command before they have comp...

Page 343: ...t output impedance 1 M standby if from OFF or previously in standby FUNC returns WAVEGEN Example SCOPE WAVEGEN OUT 1 V 1 kHz Wave Generator 1 V peak to peak 1 kHz VIDEO Oscilloscope VIDEO mode Program...

Page 344: ...e Programs 30 mV peak to peak 50 kHz output at the SCOPE BNC standby if from OFF or previously in standby MARKER Oscilloscope Marker mode Programs the period to 1 ms output at the SCOPE BNC standby if...

Page 345: ...the trigger output on Frequency is 1 100 of the signal at SCOPE output Example TRIG DIV10 TRIG IEEE 488 RS 232 Sequential Returns the output setting of the oscilloscope s trigger Parameters None Respo...

Page 346: ...P20DB Edge Function Commands TDPULSE IEEE 488 RS 232 Sequential Turns tunnel diode pulse drive on off in EDGE mode Parameters ON or non zero or OFF or zero Example TDPULSE ON Returns the tunnel diode...

Page 347: ...VIDEO mode line marker location Parameters Line marker number Example VIDEOMARK 10 VIDEOMARK IEEE 488 RS 232 Sequential Returns the VIDEO mode line marker setting Parameters None Response character S...

Page 348: ...t offset to the capacitance value Parameters boolean ON or OFF TRG IEEE 488 RS 232 Sequential Triggers and returns a new impedance measurement value when used with the SC1100 option in MEAS Z mode See...

Page 349: ...V dc Measured Value V dc Deviation V dc 1 Year Spec V dc 0 0 00004 0 00125 0 000040625 0 00125 0 000040625 0 00249 0 000041245 0 00249 0 000041245 0 0025 0 00004125 0 0025 0 00004125 0 00625 0 0000431...

Page 350: ...9 0 001135 2 2 0 00114 2 2 0 00114 6 6 0 00334 6 6 0 00334 10 99 0 005535 10 99 0 005535 11 0 00554 11 0 00554 70 5 0 03529 70 5 0 03529 130 0 06504 130 0 06504 Table 10 3 SC1100 Option DC Voltage Ver...

Page 351: ...V AC Voltage Verification Table 10 4 SC1100 Option AC Voltage Verification 1 M output impedance unless noted Nominal Value V p p Frequency Hz Measured Value V p p Deviation V p p 1 year Spec V p p 0...

Page 352: ...to Peak x Correction Tolerance V 1 mV 100 mV dc 0 000043 1 mV 100 mV dc 0 000043 10 mV 100 mV dc 0 000065 10 mV 100 mV dc 0 000065 25 mV 100 mV dc 0 000103 25 mV 100 mV dc 0 000103 110 mV 100 mV dc 0...

Page 353: ...78 square 0 0899 1000 0 002797 square 0 09 1000 0 0028 square 0 155 1000 0 00475 square 0 219 1000 0 00667 square 0 22 1000 0 0067 square 0 56 1000 0 0169 square 0 899 1000 0 02707 square 0 9 1000 0 0...

Page 354: ...Shape Nominal Value V p p Frequency Hz Measured Value V p p Deviation V p p 1 Year Spec V p p square 0 0018 1000 0 000154 square 0 0064 1000 0 000292 square 0 0109 1000 0 000427 square 0 011 1000 0 00...

Page 355: ...000154 triangle 0 0109 1000 0 000427 triangle 0 0449 1000 0 001447 triangle 0 109 1000 0 00337 triangle 0 449 1000 0 01357 triangle 1 09 1000 0 0328 triangle 2 5 1000 0 0751 Edge Verification Amplitu...

Page 356: ...11 SC1100 Option Edge Verification Duty Cycle Nominal Value V p p Frequency Measured Value Deviation from 50 1 Year Spec 2 5 1 MHz 5 Edge Verification Rise Time Table 10 12 SC1100 Option Edge Verifica...

Page 357: ...eveled Sinewave Verification Amplitude Table 10 14 SC1100 Option Leveled Sinewave Verification Amplitude Nominal Value V p p Frequency Measured Value V p p Deviation V p p 1 Year Spec V p p 0 005 50 k...

Page 358: ...requency Measured Value dB Deviation dB 1 Year Spec dB 2nd harmonic 0 0399 50 kHz 33 3rd harmonic 0 0399 50 kHz 38 2nd harmonic 0 099 50 kHz 33 3rd harmonic 0 099 50 kHz 38 2nd harmonic 0 399 50 kHz 3...

Page 359: ...harmonic 5 5 8 MHz 38 2 nd harmonic 5 5 10 MHz 33 3 rd harmonic 5 5 10 MHz 38 2 nd harmonic 5 5 20 MHz 33 3 rd harmonic 5 5 20 MHz 38 2 nd harmonic 5 5 40 MHz 33 3 rd harmonic 5 5 40 MHz 38 2 nd harmo...

Page 360: ...5 390 MHz 0 0003 0 005 400 MHz 0 0003 0 005 480 MHz 0 0003 0 005 570 MHz 0 0003 0 005 580 MHz 0 0003 0 005 590 MHz 0 0003 0 005 600 MHz 0 0003 0 0075 10 MHz na na 0 0075 30 MHz 0 0002125 0 0075 70 MHz...

Page 361: ...0 MHz 0 000496 0 0099 590 MHz 0 000496 0 0099 600 MHz 0 000496 0 01 10 MHz na na 0 01 30 MHz 0 00025 0 01 70 MHz 0 00025 0 01 120 MHz 0 0003 0 01 290 MHz 0 0003 0 01 360 MHz 0 0005 0 01 390 MHz 0 0005...

Page 362: ...00685 0 039 120 MHz 0 00088 0 039 290 MHz 0 00088 0 039 360 MHz 0 00166 0 039 390 MHz 0 00166 0 039 400 MHz 0 00166 0 039 480 MHz 0 00166 0 039 570 MHz 0 00166 0 039 580 MHz 0 00166 0 039 590 MHz 0 00...

Page 363: ...0 07 390 MHz 0 0029 0 07 400 MHz 0 0029 0 07 480 MHz 0 0029 0 07 570 MHz 0 0029 0 07 580 MHz 0 0029 0 07 590 MHz 0 0029 0 07 600 MHz 0 0029 0 07 1000 MHz 0 0029 0 099 10 MHz na na 0 099 30 MHz 0 0015...

Page 364: ...041 0 1 590 MHz 0 0041 0 1 600 MHz 0 0041 0 1 1000 MHz 0 0041 0 25 10 MHz na na 0 25 30 MHz 0 00385 0 25 70 MHz 0 00385 0 25 120 MHz 0 0051 0 25 290 MHz 0 0051 0 25 360 MHz 0 0101 0 25 390 MHz 0 0101...

Page 365: ...Hz 0 01606 0 399 1000 MHz 0 01606 0 4 10 MHz na na 0 4 30 MHz 0 0061 0 4 70 MHz 0 0061 0 4 120 MHz 0 0081 0 4 290 MHz 0 0081 0 4 360 MHz 0 0161 0 4 390 MHz 0 0161 0 4 400 MHz 0 0161 0 4 480 MHz 0 0161...

Page 366: ...41 1 2 290 MHz 0 0241 1 2 360 MHz 0 0481 1 2 390 MHz 0 0481 1 2 400 MHz 0 0481 1 2 480 MHz 0 0481 1 2 570 MHz 0 0481 1 2 580 MHz 0 0481 1 2 590 MHz 0 0481 1 2 600 MHz 0 0481 1 2 1000 MHz 0 0481 1 3 10...

Page 367: ...4 480 MHz 0 1361 3 4 570 MHz 0 1361 3 4 580 MHz 0 1361 3 4 590 MHz 0 1361 3 4 600 MHz 0 1361 3 4 1000 MHz 0 1361 5 5 10 MHz na na 5 5 30 MHz 0 0826 5 5 70 MHz 0 0826 5 5 120 MHz 0 1101 5 5 290 MHz 0 1...

Page 368: ...19 SC1100 Option Pulse Generator Verification Period Nominal Value V p p Pulse Width s Period s Measured Value s Deviation s 1 Year Spec s 2 5 80 ns 2E 06 5 ps 2 5 500 ns 0 01 25 ns 2 5 500 ns 0 02 5...

Page 369: ...fied Value Measured Value Deviation Certified Measured Value 1 Year Spec 40 0 04 50 0 05 60 0 06 600000 600 1000000 1000 1 500 000 1500 Input Impedance Verification Capacitance Table 10 22 SC1100 Opti...

Page 370: ...5522A Operators Manual 10 56...

Page 371: ...1 7 Composite Harmonics Function Volts 11 8 How to Enter the PQ Modes 11 8 How to Create Composite Harmonic Waveforms 11 8 The Wave Selection Menus 11 8 RECALL WAVE 11 9 SAVE WAVE 11 9 NEW WAVE 11 9 E...

Page 372: ...tude Mode Amps 11 18 More Information 11 19 Delta Amplitude Single Sags Swells Function Volts 11 19 Delta Amplitude Mode Volts 11 19 How to Set the Ramp up Period 11 19 How to Set the Sag Swell Width...

Page 373: ...m 0 032 seconds to 60 0 seconds The amplitude deviation is selected as a percentage of the nominal This function is available in V A V A and V V modes 5522A PQ Specifications These specifications appl...

Page 374: ...mV 0 3 900 Hz to 2 kHz 0 1 to 100 0 1 4 mV 0 5 3 3 to 32 999 V 2 to 5 kHz 0 1 to 100 0 1 4 mV 2 0 20 1 mV 45 to 440 Hz 0 1 to 100 0 2 20 mV 0 75 440 to 660 Hz 0 1 to 30 0 25 20 mV 1 2 660 to 1 2 kHz 0...

Page 375: ...ns LCOMP OFF Range Composite Waveform Harmonic Frequency Harmonic Amplitude Range of Fundamental 1 Harmonic Amplitude Uncertainty of Fundamental A Harmonic Phase Uncertainty Relative to Fundamental 2...

Page 376: ...ange Composite Waveform Harmonic Frequency Harmonic Amplitude Range of Fundamental 1 Harmonic Amplitude Uncertainty of Fundamental A Harmonic Phase Uncertainty Relative to Fundamental 2 Absolute RMS U...

Page 377: ...ey or Remote Command 1 Values shown are nominal values per IEC 61000 4 15 The 5520A PQ has a limited resolution of 0 02 in the Flicker Simulation Mode Sags Swells Simulation Mode Voltage Range 1 mV to...

Page 378: ...When PQ COMP HARMONIC or PQ AMPL mode is selected the Output Display reads 1 0000 V 60Hz as a default How to Create Composite Harmonic Waveforms Press the PQ COMP HARMONIC blue softkey The top level P...

Page 379: ...ndividual parameters More on this menu can be found by referring to Setting the Waves Harmonics later in this section nn334f eps EDIT WAVE Pressing the EDIT WAVE blue softkey also displays the menu sh...

Page 380: ...notice that the off on display changes to on nn334f eps Harmonic Number To specify or edit the harmonic number press the HF F blue softkey and enter the desired harmonic For example press 3 then E to...

Page 381: ...e The difference between the NEW WAVE and EDIT WAVE menus is that under the NEW WAVE section all harmonic parameters default at 0 until the user changes those parameters In the EDIT WAVE Menu a wave t...

Page 382: ...t the Custom Wave blue softkey designating where the created wave was stored RECALL CUSTOM1 5 The Control Display will change to the RECALL WAVE Menu shown below and the calibrator will output the rec...

Page 383: ...nu shown below appears in the Control Display After choosing IEC A or IEC D if the calibrator is in Standby mode the RECALL Menu appears again The recalled wave will not be built until the calibrator...

Page 384: ...pecifications Output AUX This indicator is for information purposes only The indicator displays which current output is presently being used by the calibrator The Control Display will show the Output...

Page 385: ...The Wave Selection Menu shown below appears nn353f eps From this menu the user may edit the wave harmonics Refer to Editing Wave Harmonics earlier in this section Note Building a wave can be time con...

Page 386: ...under test to the proper terminals REF Menus In the Volts and Current Dual Output mode phase between the voltage and current outputs can be specified by the user These menus operate in the same fashi...

Page 387: ...efer to Entering the PQ Modes earlier in this chapter Delta Amplitude Mode Volts Enter the PQ Delta Amplitude Mode From this mode the user can simulate a continuous change in amplitude of the output f...

Page 388: ...ce that the new Pst value has now been loaded The Pst 1 softkey chooses classifiers that effectively change the flickermeter Pst readings from 1 to the chosen values There are 1 5 classifiers The Tabl...

Page 389: ...plitude functions From this mode the flicker and single sags swells functions are accessible The AMPL Menu shown below appears in the Control Display nn363f eps Press the TYPE flicker blue softkey Thi...

Page 390: ...has occurred A nominal output voltage of 120 V 60 Hz has been entered The ramp up period is set to 1 0 second The event width is set to 5 seconds with a Delta amplitude of 25 Assuming the calibrator i...

Page 391: ...s How to Set the Sag Swell Amplitude The I I softkey allows the user to specify the amplitude of the deviation as a percentage of the nominal output value The value is positive for swell events and ne...

Page 392: ...mediately to the nominal value in this case 10 V and 1 A Remote Commands This section documents the IEEE 488 RS 232 remote commands for the PQ option Remote commands duplicate activities that can be i...

Page 393: ...form OUTPUT CH is PRI or SEC USER DEFINED WAVEFROM NUMBER is 1 to 5 Example CHMSAVE PRI 2 saves primary output wave as preset 2 ______________________________________________________________________ C...

Page 394: ...litude modes Sags Swells Flicker OUTPUT CH is PRI or SEC DELTA_AMPLITUDE is 0 01 to 100 0 Example DELTAMAG PRI 0 1 deviate the Primary channel output by 10 Example DELTAMAG SEC 0 1 deviate the Primary...

Page 395: ...WAVE IEEE 488 RS 232 Coupled Set the flicker modulation type Sine or Square F_WAVE is SINE or SQUARE Example FLICKWAV SQUARE Example FLICKWAV SINE _____________________________________________________...

Page 396: ...____________________________________________________ POSTTRIGDELAY D_TIME IEEE 488 RS 232 Coupled Set a post trigger delay in Single Sag Swell mode D_TIME is 0 001 Sec to 60 Sec Example POSTTRIGDELAY...

Page 397: ..._____________________________ RPTFREQ IEEE 488 RS 232 Sequential Return the modulation frequently in Flicker mode Example RPTFREQ ______________________________________________________________________...

Page 398: ...0 03000 9 00E 5 0 5 23 100 00 0 0 03000 9 00E 5 0 8 28 100 00 0 0 03000 9 00E 5 0 8 33 100 00 0 0 03000 9 00E 5 0 8 38 100 00 0 0 03000 9 00E 5 0 8 43 100 00 0 0 03000 9 00E 5 2 0 48 100 00 0 0 03000...

Page 399: ...75 5 100 00 0 91 6730 0 3917 0 75 7 100 00 0 91 6730 0 3917 0 75 8 30 00 0 27 5020 0 3917 1 0 12 30 00 0 27 5020 0 3917 3 0 13 10 00 0 9 1670 0 3917 3 0 16 10 00 0 9 1670 0 3917 3 0 18 10 00 0 9 1670...

Page 400: ...0 163 880 0 5122 0 75 Frequency 50 Hz 3 100 00 0 163 880 0 5122 0 75 4 100 00 0 163 880 0 5122 0 75 5 100 00 0 163 880 0 5122 0 75 6 100 00 0 163 880 0 5122 0 75 7 100 00 0 163 880 0 5122 0 75 8 30 0...

Page 401: ...512 3 0 16 10 00 173 4 20 6550 0 8512 3 0 17 10 00 129 5 20 6550 0 8512 3 0 18 10 00 113 9 20 6550 0 8512 3 0 19 10 00 37 6 20 6550 0 8512 3 0 20 10 00 52 3 20 6550 0 8512 3 0 21 10 00 1 5 20 6550 0 8...

Page 402: ...Range 2 999 A rms 1 10000 0 00320 Wave VII 1 100 00 0 40547 0 00141 RMS Output 1 1 A 3 100 00 0 0 40547 0 00141 0 6 Frequency 50 Hz 6 100 00 0 0 40547 0 00141 0 6 9 100 00 0 0 40547 0 00141 0 6 12 10...

Page 403: ...6 12 6 70 180 0 19300 0 0129 0 6 13 9 10 0 0 26432 0 0129 0 6 14 5 70 0 0 16543 0 0129 0 6 15 6 50 180 0 18880 0 0129 0 6 16 5 00 180 0 14475 0 0129 0 6 17 5 80 0 0 16659 0 0129 0 6 18 4 40 0 0 12867...

Page 404: ...0 0 07656 0 0150 1 0 37 1 40 0 0 07242 0 0150 1 0 39 1 40 180 0 06871 0 0150 1 0 Range 20 5 A rms 9 50000 0 0290 Wave NRC7030 1 100 00 8 53100 0 0185 RMS Output 9 5 A 2 10 00 115 5 0 85313 0 0185 0 6...

Page 405: ...trument specified to 1 uncertainty is 99 accurate apparent power The power value obtained by simply multiplying the ac current by the ac voltage on a circuit without consideration of any phase relatio...

Page 406: ...the ratio of the active power of the fundamental wave in watts to the apparent power of the fundamental wave in volt amperes distortion Undesired changes in the waveform of a signal Harmonic distorti...

Page 407: ...ough the ground conductor in an ac power receptacle ground loops Undesirable currents induced when there is more than one chassis ground potential in a system of instruments Ground loops can be minimi...

Page 408: ...her designated standards is quantified and sufficiently small to meet requirements MTBF Mean Time Between Failures The time interval in operating hours that can be expected between failure of equipmen...

Page 409: ...primary standard A standard defined and maintained by some authority and used to calibrate all other secondary standards process metrology Tracking the accuracy drift of calibration and other equipmen...

Page 410: ...refore they sense true rms voltage resistance temperature detector RTD A resistance device that provides a proportional resistance output for a temperature of the device Most RTDs are characterized by...

Page 411: ...surement system or device used as the calibrator Also called test accuracy ratio thermal emf The voltage generated when two dissimilar metals joined together are heated thermocouple Two dissimilar met...

Page 412: ...nging its calibration constants volt The unit of emf electromotive force or electrical potential in the SI system of units One volt is the difference of electrical potential between two points on a co...

Page 413: ...B 1 Appendix B ASCII and IEEE 488 Bus Codes...

Page 414: ...5522A Operators Manual B 2...

Page 415: ...L OCTAL HEX BINARY 7654 3210 DEV NO MESSAGE ATN TRUE 100 101 102 103 104 105 106 107 110 111 112 113 114 115 116 117 120 121 122 123 124 125 126 127 130 131 132 133 134 135 136 137 140 141 142 143 144...

Page 416: ...5522A Operators Manual B 4...

Page 417: ...1 64 feet PM2295 05 1 m 3 28 feet PM2295 10 2 m 6 56 feet PM2295 20 NFRD IFC ATN E0I DIO3 DIO1 SHIELD SRQ NDAC DAV DIO4 DIO2 LOGIC GND GND 10 GND 8 GND 6 DIO8 DIO6 GND 11 GND 9 GND 7 REN DIO7 DIO5 1...

Page 418: ...HOST PC COM port DB 25 RS40 5522A SERIAL 2 TO UUT UUT serial port DB 9 943738 5522A SERIAL 2 TO UUT UUT serial port DB 25 n a 1 5 6 9 TRANSMIT DATA Tx RECEIVED DATA Rx DTE READY DTR REQUEST TO SEND RT...

Page 419: ...2A 1 2 3 4 5 6 7 8 9 RS 232 UUT 1 2 3 4 5 6 7 8 9 1 2 3 4 5 6 7 8 9 Rx Tx DTR GND DSR RTS CTS Rx Tx DTR GND RTS CTS 1 2 3 4 5 6 7 8 9 SERIAL 1 FROM HOST 1 2 3 4 5 6 7 8 9 COM 2 3 4 5 7 8 9 2 3 4 5 7 8...

Page 420: ...8 9 UUT RS 232 Tx Rx RTS CTS DSR GND DCD DTR RI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 RLSD Rx Tx GND DSR RTS CTS 1 2 3 4 5 6 7 8 9 SERIAL 2 TO UUT 1 2 3 4 5 6 7 8 9 1 2 3...

Page 421: ...is queued to the remote interface as it occurs EXE Execution Error caused by an element outside of or inconsistent with the 5522A capabilities S Error causes instrument to go to Standby CME Command E...

Page 422: ...ed during cal 311 DDE FR D A D measurement failed 312 DDE FR Invalid cal step parameter 313 DDE Cal switch must be ENABLED 314 DDE FR Divide by zero encountered 315 DDE FR Must be in OPER at this step...

Page 423: ...o STBY in Meas TC 533 DDE Can t set an offset now 534 DDE Can t lock this range 535 DDE Can t set phase or PF now 536 DDE Can t set wave now 537 DDE Can t set harmonic now 538 DDE Can t change duty cy...

Page 424: ...NV memory invalid 702 DDE R NV invalid so default loaded 703 DDE R NV obsolete so default loaded 800 DDE FR Serial parity error s 801 DDE FR Serial framing error s 802 DDE FR Serial overrun error s 80...

Page 425: ...DDE FRS Current Amp Thermal Limit Exceeded 1503 DDE FRS Output current lim exceeded 1504 DDE FRS Input V or A limit exceeded 1505 DDE FRS VDAC counts out of range 1506 DDE FRS IDAC counts out of range...

Page 426: ...erlassung Hamburg Normannenweg 30 20537 Hamburg Tel 040 3039595 0 Fax 040 3039595 50 scopeshop calplus de www calplus de CalPlus GmbH Zentrale Berlin Heerstra e 32 14052 Berlin Tel 030 214982 0 Fax 03...

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