Fluke 5500A Kalibrator
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Model:
5500A
Data:
Kategoria:
Grupa:
Opis:
Multi Product Calibrator
Informacja
Introduction
The Fluke Model 5500A Multi-Product Calibrator (Figure 1-1)
is a precise instrument that calibrates a wide variety of
electrical measuring instruments. With the 5500A Calibrator,
you can calibrate precision multimeters that measure ac or
dc voltage, ac or dc current, ac or dc power, resistance,
capacitance, and temperature. With the Oscilloscope
Calibration option, you can use the 5500A Calibrator to
calibrate analog and digital oscilloscopes.
The 5500A Calibrator is a fully programmable precision
source of the following:
· DC voltage from 0 V to +1020 V.
· AC voltage from 1 mV to 1020 V, with output from 10 Hz to
500 kHz.
· AC current from 0.01 μΛ to 11.0 A, with output from 10 Hz
to 10 kHz.
· DC current from 0 to +11.0 A.
· Resistance values from a short circuit to 330 MW.
· Capacitance values from 330 pF to 1100 mF.
· Simulated output for three types of Resistance Temperature
Detectors (RTDs).
· Simulated output for nine types of thermocouples.
Features of the 5500A Calibrator include the following:
· Automatic meter error calculation.
· I TTI and I h| keys that change the output value to
pre-determined cardinal values for various functions.
· Programmable entry limits that prevent invalid amounts
from being entered.
· Simultaneous output of voltage and current, up to 11 kW.
· Simultaneous output of two voltages.
· Extended bandwidth mode outputs multiple waveforms down to
0.01 Hz, and sine waves to 2 MHz.
· Variable phase signal output.
· Standard IEEE-488 (GPIB) Interface, complying with
ANSI/IEEE Standards 488.1-1987 and 488.2-1987.
· EIA Standard RS-232-C serial data Interface for printing,
displaying, or transferring internally stored calibration
constants, and for remote control of the 5500A,
· Pass-through RS-232-C serial data Interface for
communicating with the Unit Under Test (UUT).
· Extensive automatic internal self testing and diagnostics
of analog and digital functions.
Typ ręczny:
Instrukcja serwisowa
Strony:
253
Rozmiar:
2.32 Mbytes (2430869 Bytes)
Język:
english
Rewizja:
5
Ręczny ID:
105798
Data:
Jakość:
Skanowany dokument, wszystko czytelne.
Data przesłania:
2016 02 06
MD5:
39198438cc98bc1020d5e15d44358464
Pobrane:
884
Informacja
1 Introduction and Specifications 1-1
1-1.
Introduction ... 1-3
1-2. Service
Information ... 1-4
1-3.
Specifications ... 1-4
1-4. General
Specifications ... 1-6
1-5. DC Voltage
Specifications ... 1-7
1-6. DC Current
Specifications ... 1-8
1-7. Resistance
Specifications ... 1-9
1-8. AC Voltage (Sinewave)
Specifications ... 1-10
1-9. AC Current (Sinewave)
Specifications ... 1-13
1-10. Capacitance
Specifications ... 1-15
1-11. Temperatore Calibration (Thermocouple)
Specifications ... 1-16
1-12. Temperature Calibration (RTD)
Specifications ... 1-17
1-13. DC Power Specification
Summary ... 1-19
1-14. AC Power (45 Hz to 65 Hz) Specification Summary,
PF=1 ... 1-20
1-15. Power and Dual Output Limit
Specifications ... 1-21
1-16. 5500A Phase
Specifications ... 1-21
1-17. Calculating Power
Uncertainty ... 1-23
1-18. Additional
Specifications ... 1-24
1-19. Frequency
Specifications ... 1-24
1-20. Harmonics (2nd to 50th)
Specifications ... 1-25
1-21. AC Voltage (Sinewave) Extended Bandwidth
Specifications ... 1-26
1-22. AC Voltage (Non-Sinewave)
Specifications ... 1-27
1-23. AC Voltage, DC Offset
Specifications ... 1-28
1-24. AC Voltage, Squarewave
Characteristics ... 1-29
1-25. AC Voltage, Trianglewave Characteristics
(typical) ... 1-29
1-26. AC Current (Sinewave) Extended Bandwidth
Specifications ... 1-29
1-27. AC Current (Non-Sinewave)
Specifications ... 1-30
1-28. AC Current, Squarewave Characteristics
(typical) ... 1-31
1-29. AC Current, Trianglewave Characteristics
(typical) ... 1-31
2 Theory of
Operation ... 2-1
2-1.
Introduction ... 2-3
2-2. Encoder Assembly
(A2) ... 2-4
2-3. Synthesized Impedance Assembly
(A5) ... 2-4
2-4. DDS Assembly
(A6) ... 2-5
2-5. Current Assembly
(A7) ... 2-6
2-6. Voltage Assembly
(A8) ... 2-7
2-7. Main CPU Assembly
(A9) ... 2-8
2-8. Power
Supplies ... 2-8
2-9. Outguard Supplies
... 2-8
2-10. Inguard
Supplies ... 2-8
3 Calibration and
Verification ... 3-1
3-1.
Introduction ... 3-3
3-2.
Calibration ... 3-3
3-3. Equipment Required for Calibration and
Verification ... 3-3
3-4. Starting
Calibration ... 3-4
3-5. How the Calibration Procedure
Works ... 3-4
3-6. DC
Volts ... 3-5
3-7. AC
Volts ... 3-5
3-8. Thermocouple
Measuring ... 3-6
3-9. DC
Current ... 3-7
3-10. AC
Current ... 3-8
3-11. AUX DC
Volts ... 3-8
3-12. AUX AC
Volts ... 3-9
3-13.
Resistance ... 3-9
3-14. Capacitance
... 3-12
3-15. Capacitance, Four-Wire
Comp ... 3-14
3-16.
Frequency ... 3-14
3-17. NORMAL Volts and AUX Volts
Phase ... 3-15
3-18. Volts and AUX Current Phase
... 3-15
3-19. Remote Commands for 5500A
Calibration ... 3-16
3-20. Generating a Calibration
Report ... 3-18
3-21. Calibration Shifts Report, Printout
Format ... 3-18
3-22. Calibration Shifts Report, Spreadsheet
Format ... 3-19
3-23. Calibration Constant Report, Printout
Format ... 3-19
3-24. Calibration Constants Report, Spreadsheet
Format ... 3-20
3-25. Performance Verification
Tests ... 3-20
3-26. Zeroing the
Calibrator ... 3-20
3-27. DC Voltage Amplitude Accuracy
(NORMAL) ... 3-21
3-28. DC Voltage Amplitude Accuracy
(AUX) ... 3-21
3-29. DC Current Amplitude
Accuracy ... 3-22
3-30. Resistance
Accuracy ... 3-23
3-31. Resistance DC Offset
Measurement ... 3-24
3-32. AC Voltage Amplitude Accuracy (NORMAL)
... 3-25
3-33. AC Voltage Amplitude Accuracy
(AUX) ... 3-27
3-34. AC Current Amplitude
Accuracy ... 3-28
3-35. Capacitance
Accuracy ... 3-29
3-36. Thermocouple Measurement
Accuracy ... 3-31
3-37. Thermocouple Sourcing
Accuracy ... 3-31
3-38. Thermocouple Measuring
Accuracy ... 3-31
3-39. DC Power Amplitude Accuracy
(NORMAL) ... 3-32
3-40. DC Power Amplitude Accuracy
(AUX) ... 3-32
3-41. AC Power Amplitude Accuracy (High
Voltage) ... 3-33
3-42. AC Power Amplitude Accuracy (High
Current) ... 3-33
3-43. AC Power Amplitude Accuracy (High
Power) ... 3-34
3-44. Phase and Frequency
Accuracy ... 3-34
3-45. AC Voltage Amplitude Accuracy, Squarewave
(NORMAL) ... 3-36
3-46. AC Voltage Amplitude Accuracy, Squarewave
(AUX) ... 3-37
3-47. AC Voltage Harmonic Amplitude Accuracy
(NORMAL) ... 3-38
3-48. AC Voltage Harmonic Amplitude Accuracy
(AUX) ... 3-39
3-49. DC Voltage Offset
Accuracy ...
3-39
3-50. AC Voltage Accuracy with a DC
Offset ... 3-40
4
Maintenance ...
4-1
4-1.
Introduction ...
4-3
4-2. Access Procedures
...
4-3
4-3. Removing Analog
Modules ...
4-3
4-4. Removing the Main CPU
(A9) ...
4-3
4-5. Removing Rear Panel
Assemblies ...
4-4
4-6. Removing the Filter PCA
(A12) ...
4-4
4-7. Removing the Encoder (a2) and Display
PCAs ... 4-4
4-8. Removing the Keyboard and Accessing the Output
Block ... 4-4
4-9. Diagnostic
Testing ...
4-7
4-10. Running Diagnostics
...
4-7
4-11. Sequence of Diagnostics
Tests ...
4-7
4-12. Diagnostics Error
Messages ...
4-7
4-13. Testing the Front
Panel ...
4-13
4-14. Internal Fuse
Replacement ...
4-14
4-15. Complete List of Error
Messages ...
4-14
5 List of Replaceable
Parts ...
5-1
5-1.
Introduction ...
5-3
5-2. How to Obtain
Parts ...
5-3
5-3. How to Contact
Fluke ...
5-3
5-4. Parts
Lists ...
5-4
6 Oscilloscope Calibration
Options ...
6-1 SC600
Option ...
6-3
6-1.
Introduction ...
6-5
6-2.
Maintenance ...
6-5
6-3. SC600
Specifications ...
6-6
6-4. Volt
Specifications ...
6-6
6-5. Edge
Specifications ...
6-7
6-6. Leveled Sine Wave
Specifications ...
6-8
6-7. Time Marker
Specifications ...
6-9
6-8. Wave Generator
Specifications ...
6-9
6-9. Pulse Generator
Specifications ...
6-10
6-10. Trigger Signal Specifications (Pulse
Function) ... 6-10
6-11. Trigger Signal Specifications (Time Marker
Function) ... 6-10
6-12. Trigger Signal Specifications (Edge
Function) ... 6-11
6-13. Trigger Signal Specifications (Square Wave Voltage
Function) ... 6-11
6-14. Trigger Signal
Specifications ...
6-11
6-15. Oscilloscope Input Resistance Measurement
Specifications ... 6-11
6-16. Oscilloscope Input Capacitance Measurement
Specifications ... 6-11
6-17. Overload Measurement
Specifications ...
6-12
6-18. Theory of
Operation ...
6-12
6-19. Voltage
Mode ...
6-12
6-20. Edge
Mode ...
6-12
6-21. Leveled Sine Wave
Mode ...
6-12
6-22. Time Marker
Mode ...
6-13
6-23. Wave Generator
Mode ...
6-13
6-24. Input Impedance Mode
(Resistance) ...
6-13
6-25. Input Impedance Mode
(Capacitance) ...
6-13
6-26. Overload
Mode ...
6-13
6-27. Equipment Required for Calibration and
Verification ... 6-15
6-28. SC600 Calibration
Setup ...
6-17
6-29. Calibration and Verification of Square Wave Voltage
Functions ... 6-18
6-30. Overview of HP3458A
Operation ...
6-18
6-31. Setup for SC600 Voltage Square Wave
Measurements ... 6-18
6-32. Setup for SC600 Edge and Wave Gen Square Wave
Measurements 6-20
6-33. DC Voltage
Calibration ...
6-21
6-34. AC Voltage
Calibration ...
6-21
6-35. Wave Generator
Calibration ...
6-22
6-36. Edge Amplitude
Calibration ...
6-22
6-37. Leveled Sine Wave Amplitude
Calibration ... 6-23
6-38. Leveled Sine Wave Flatness
Calibration ... 6-24
6-39. Low Frequency
Calibration ...
6-24
6-40. High Frequency
Calibration ...
6-25
6-41. Pulse Width
Calibration ...
6-25
6-42. MeasZ
Calibration ...
6-26
6-43.
Verification ...
6-28
6-44. DC Voltage
Verification ...
6-29
6-45. Verification at 1
MW ...
6-29
6-46. Verification at 50
W ...
6-29
6-47. AC Voltage Amplitude
Verification ...
6-31
6-48. Verification at 1
MW ...
6-31
6-49. Verification at 50 W
...
6-33
6-50. AC Voltage Frequency
Verification ...
6-34
6-51. Edge Amplitude
Verification ...
6-35
6-52. Edge Frequency
Verification ...
6-35
6-53. Edge Duty Cycle
Verification ...
6-36
6-54. Edge Rise Time
Verification ...
6-36
6-55. Edge Abberation
Verification ...
6-38
6-56. Tunnel Diode Pulser Drive Amplitude
Verification ... 6-39
6-57. Leveled Sine Wave Amplitude
Verification ... 6-40
6-58. Leveled Sine Wave Frequency
Verification ... 6-41
6-59. Leveled Sine Wave Harmonics
Verification ... 6-42
6-60. Leveled Sine Wave Flatness
Verification ... 6-44
6-61. Equipment Setup for Low Frequency
Flatness ... 6-44
6-62. Equipment Setup for High Frequency
Flatness ... 6-44
6-63. Low Frequency
Verification ...
6-46
6-64. High Frequency
Verification ...
6-46
6-65. Time Marker
Verification ...
6-51
6-66. Wave Generator
Verification ...
6-52
6-67. Verification at 1
MW ...
6-52
6-68. Verification at 50 W
...
6-53
6-69. Pulse Width
Verification ...
6-56
6-70. Pulse Period Verification
...
6-57
6-71. MeasZ Resistance
Verification ...
6-57
6-72. MeasZ Capacitance
Verification ...
6-58
6-73. Overload Function
Verification ...
6-59
6-74. SC600 Hardware Adjustments
...
6-60
6-75. Equipment
Required ...
6-60
6-76. Adjusting the Leveled Sine Wave
Function ... 6-60
6-77. Equipment
Setup ... 6-61
6-78. Adjusting the Leveled Sine Wave VCO
Balance ... 6-61
6-79. Adjusting the Leveled Sine Wave
Harmonics ... 6-62
6-80. Adjusting the Aberrations for the Edge
Function ... 6-62
6-81. Equipment
Setup ... 6-63
6-82. Adjusting the Edge
Aberrations ... 6-63
SC300
Option ... 6-65
6-83.
Introduction ... 6-67
6-84.
Maintenance ... 6-67
6-85. SC300
Specifications ... 6-68
6-86. Voltage Function Specifications
... 6-68
6-87. Edge Function
Specifications ... 6-69
6-88. Leveled Sine Wave Function
Specifications ... 6-70
6-89. Time Marker Function
Specifications ... 6-71
6-90. Wave Generator
Specifications ... 6-71
6-91. Trigger Signal Specifications for the Time Marker
Function ... 6-72
6-92. Trigger Signal Specifications for the Edge
Function ... 6-72
6-93. Theory of
Operation ... 6-72
6-94. Voltage
Mode ... 6-72
6-95. Edge
Mode ... 6-72
6-96. Leveled Sine Wave Mode
... 6-72
6-97. Time Marker Mode
... 6-72
6-98. Wave Generator Mode
... 6-73
6-99. Equipment Required for Calibration and
Verification ... 6-75
6-100. SC300 Calibration
Setup ... 6-77
6-101. Calibration and Verification of Square Wave
Functions ... 6-78
6-102. Overview of HP3458A
Operation ... 6-78
6-103. Setup for Square Wave
Measurements ... 6-78
6-104. DC Voltage
Calibration ... 6-79
6-105. AC Square Wave Voltage
Calibration ... 6-80
6-106. Edge Amplitude
Calibration ... 6-81
6-107. Leveled Sine Wave Amplitude
Calibration ... 6-81
6-108. Leveled Sine Wave Flatness
Calibration ... 6-82
6-109. Low Frequency
Calibration ... 6-83
6-110. High Frequency
Calibration ... 6-83
6-111.
Verification ... 6-84
6-112. DC Voltage
Verification ... 6-84
6-113. Verification at 1
MW ... 6-84
6-114. Verification at 50
W ... 6-84
6-115. AC Voltage Amplitude
Verification ... 6-87
6-116. Verification at 1
MW ... 6-87
6-117. Verification at 50
W ... 6-89
6-118. AC Voltage Frequency
Verification ... 6-90
6-119. Edge Amplitude
Verification ... 6-91
6-120. Edge Frequency
Verification ... 6-92
6-121. Edge Duty Cycle
Verification ... 6-93
6-122. Edge Rise Time
Verification ... 6-93
6-123. Edge Abberation
Verification ... 6-95
6-124. Leveled Sine Wave Reference
Verification ... 6-96
6-125. Leveled Sine Wave Frequency
Verification ... 6-97
6-126. Leveled Sine Wave Harmonics
Verification ... 6-98
6-127. Leveled Sine Wave Flatness
Verification ... 6-100
6-128. Equipment Setup for Low Frequency
Flatness ... 6-100
6-129. Equipment Setup for High Frequency
Flatness ... 6-100
6-130. Low Frequency
Verification ... 6-102
6-131. High Frequency
Verification ... 6-102
6-132. Time Marker
Verification ...
6-107
6-133. Wave Generator
Verification ...
6-108
6-134. Verification at 1
MW ... 6-109
6-135. Verification at 50
W ... 6-109
6-136. SC300 Hardware
Adjustments ... 6-111
6-137. Equipment
Required ... 6-112
6-138. Adjusting the Leveled Sine Wave
Function ... 6-112
6-139. Equipment
Setup ... 6-112
6-140. Adjusting the Leveled Sine Wave
Harmonics ... 6-112
6-141. Adjusting the Aberrations for the Edge
Function ... 6-113
6-142. Equipment
Setup ... 6-113
6-143. Adjusting the Edge
Aberrations ... 6-113
6-144. SC300 Hardware Adjustments for the A4
Board ... 6-115
6-145. Equipment
Required ... 6-115
6-146. Adjusting the Leveled Sine Wave
Function ... 6-115
6-147. Equipment
Setup ... 6-115
6-148. Adjusting the Leveled Sine Wave VCO
Balance ... 6-115
6-149. Adjusting the Leveled Sine Wave
Harmonics ... 6-116
6-150. Adjusting the Aberrations for the Edge
Function ... 6-117
6-151. Equipment
Setup ... 6-117
6-152. Adjusting the Edge Aberrations for Board
5500A-4004-1 ... 6-118
6-153. Adjusting the Edge Aberrations for Board
5500A-4004 ... 6-120
6-154. Adjusting the Rise Time for the Edge
Function ... 6-122
6-155. Equipment
Setup ... 6-122
6-156. Adjusting the Edge Rise
Time ... 6-122
Typ ręczny:
Instrukcja obsługi
Strony:
34
Rozmiar:
66.60 Kbytes (68203 Bytes)
Język:
english
Rewizja:
Ręczny ID:
PN 105783
Data:
1994 12
Jakość:
Dokument elektroniczny, bez skanowania, bardzo dobrze czytelne.
Data przesłania:
2023 03 20
MD5:
9173a35e5e73d7e63b15ce64547e19c7
Pobrane:
113
Typ ręczny:
Instrukcja obsługi
Strony:
53
Rozmiar:
1.25 Mbytes (1313654 Bytes)
Język:
english
Rewizja:
Ręczny ID:
945097
Data:
Jakość:
Skanowany dokument, wszystko czytelne.
Data przesłania:
2016 02 06
MD5:
d6a7160abd749bb0ae66f8e0bc9b40e1
Pobrane:
868
Informacja
Replacing the
Fuse ... 4
Selecting Line
Voltage ... 5
Front Panel
Features ... 5
Rear Panel Features ... 10
Setup
Menu ...
12
Instrument Setup Menu ... 12
Selecting an Externa! Amplifier ... 12
Utility Functions Menu ... 13
Format EEPROM Menu ... 13
Zeroing the
Calibrator ... 15
Operate and Standby ... 16
Connecting the Calibrator to a UÜT ... 16
When to Use EARTH ... 16
Four-Wire versus Two-Wire Connections ... 16
Cable
Connections ... 17
Setting the
Output ... 20
Setting DC Voltage Output ... 20
Setting AC Voltage Output ... 21
Setting DC Current Output ... 23
Setting AC Current Output ... ,.,, ... 24
Setting DC Power Output ... 25
Setting AC Power Output ... ,.., ... 27
Setting a Dual DC Voltage Output ... 29
Setting a Dual AC Voltage Output ... 30
Setting Resistance Output ... 33
Setting Capacitance Output ... 34
Setting Temperature Simulation
(Thermocouple) ... 35
Setting Temperature Simulation (RID) ... 37
Measuring Thermocouple Temperatures ... 38
Waveform
Types ... 41
Sinewave ... 41
TriangSewave ... 41
Squarewave ... 42
Truncated Sinewave ... 42
Setting
Harmonics ... 43
Adjusting the Phase
... 44
Entering a Phase Angle ... 45
Entering a Power Factor ... 45
Entering a DC
Offset ... 46
Using the 5725A Amplifier ... 47
5725A Amplifier Output ... 48
Editing and Error Output Settings ... 49
Editing the Output Setting ... 49
Displaying the Output Error ... 50
Using Multiply and Divide ... 50
Setting Output
Limits ... 50
Setting Voltage and Current Limits ... 50
Typ ręczny:
Instrukcja obsługi
Strony:
418
Rozmiar:
2.61 Mbytes (2732200 Bytes)
Język:
english
Rewizja:
10
Ręczny ID:
Data:
Jakość:
Skanowany dokument, wszystko czytelne.
Data przesłania:
2016 02 06
MD5:
d87af05b01a536b8db1fbbfa02e50176
Pobrane:
668
Informacja
1 Introduction and Specifications 1-1
1-1.
Introduction ... 1-3
1-2. How to Contact
Fluke ... 1-4
1-3. Operation
Overview ... 1-4
1-4. Local
Operation ... 1-4
1-5. Remote Operation
(RS-232) ... 1-4
1-6. Remote Operation
(IEEE-488) ... 1-5
1-7. Where To Go from
Here ... 1-6
1-8. Instruction
Manuals ... 1-6
1-9. 5500A Operator
Manual ... 1-6
1-10. 5500A Operator Reference
Guide ... 1-7
1-11. 5500A Remote Programming Reference
Guide ... 1-7
1-12. 5500A Service
Manual ... 1-7
1-13. 5725A
Amplifier ... 1-7
1-14.
Specifications ... 1-8
1-15. General
Specifications ... 1-10
1-16. DC Voltage
Specifications ... 1-11
1-17. DC Current Specifications
... 1-12
1-18. Resistance
Specifications ...
1-13
1-19. AC Voltage (Sinewave)
Specifications ... 1-14
1-20. AC Current (Sinewave)
Specifications ...
1-16
1-21. Capacitance
Specifications ...
1-18
1-22. Temperature Calibration (Thermocouple)
Specifications ... 1-19
1-23. Temperature Calibration (RTD)
Specifications ... 1-21
1-24. DC Power Specification
Summary ... 1-23
1-25. AC Power (45 Hz to 65 Hz) Specification Summary,
PF=1 ... 1-24
1-26. Power and Dual Output Limit
Specifications ... 1-25
1-27. 5500A Phase
Specifications ... 1-26
1-28. Calculating Power
Uncertainty ...
1-27
1-29. Additional
Specifications ...
1-28
1-30. Frequency
Specifications ...
1-28
1-31. Harmonics (2nd to 50th)
Specifications ...
1-29
1-32. AC Voltage (Sinewave) Extended Bandwidth
Specifications ... 1-30
1-33. AC Voltage (Non-Sinewave)
Specifications ... 1-31
1-34. AC Voltage, DC Offset
Specifications ... 1-32
1-35. AC Voltage, Squarewave
Characteristics ... 1-33
1-36. AC Voltage, Triangle wave Characteristics
(typical) ... 1-33
1-37. AC Current (Sinewave) Extended Bandwidth
Specifications ... 1-33
1-38. AC Current (Non-Sinewave)
Specifications ... 1-34
1-39. AC Current, Squarewave Characteristics
(typical) ... 1-36
1-40. AC Current, Trianglewave Characteristics
(typical) ... 1-36
2 Preparing for
Operation ...
2-1
2-1.
Introduction ...
2-3
2-2. Unpacking and Inspection
...
2-3
2-3. Replacing The
Fuse ...
2-3
2-4. Selecting Line
Voltage ...
2-4
2-5. Connecting To Line
Power ...
2-4
2-6. Service Information
...
2-6
2-7. Placement and Rack
Mounting ...
2-7
2-8. Cooling
Considerations ...
2-7
2-9. Connecting the 5725A
Amplifier ...
2-7
3
Features ...
3-1
3-1.
Introduction ...
3-3
3-2. Front Panel
Features ...
3-3
3-3. Rear Panel
Features ...
3-3
3-4. Softkey Menu
Trees ...
3-3
4 Front Panel
Operation ...
4-1
4-1.
Introduction ...
4-3
4-2. Turning on the
Calibrator ...
4-3
4-3. Warming up the
Calibrator ...
4-4
4-4. Using the
Softkeys ...
4-4
4-5. Using the Setup
Menu ...
4-4
4-6. Using the Instrument Setup
Menu ... 4-5
4-7. Selecting an External
Amplifier ...
4-5
4-8. Utility Functions
Menu ...
4-6
4-9. Using the Format EEPROM Menu
... 4-6
4-10. Resetting the
Calibrator ...
4-7
4-11. Zeroing the
Calibrator ...
4-7
4-12. Using the Operate and Standby Modes
... 4-8
4-13. Connecting the Calibrator to a
UUT ... 4-9
4-14. Recommended Cable and Connector
Types ... 4-9
4-15. When to Use
EARTH ...
4-10
4-16. Four-Wire versus Two-Wire
Connections ... 4-10
4-17. Cable Connection
Instructions ...
4-11
4-18. Rms Versus Peak-to-Peak
Waveforms ... 4-16
4-19. Auto Range Versus Locked
Range ... 4-17
4-20. Setting the
Output ... 4-17
4-21. Setting DC Voltage
Output ... 4-18
4-22. Setting AC Voltage Output
... 4-19
4-23. Setting DC Current
Output ... 4-21
4-24. Setting AC Current
Output ... 4-22
4-25. Setting DC Power
Output ... 4-24
4-26. Setting AC Power
Output ... 4-25
4-27. Setting a Dual DC Voltage
Output ... 4-28
4-28. Setting a Dual AC Voltage
Output ... 4-30
4-29. Setting Resistance Output
... 4-32
4-30. Setting Capacitance
Output ... 4-33
4-31. Setting Temperature Simulation
(Thermocouple) ... 4-35
4-32. Setting Temperature Simulation
(RTD) ... 4-37
4-33. Measuring Thermocouple
Temperatures ... 4-39
4-34. Waveform
Types ... 4-40
4-35.
Sinewave ... 4-41
4-36.
Trianglewave ... 4-41
4-37.
Squarewave ... 4-41
4-38. Truncated
Sinewave ... 4-42
4-39. Setting
Harmonics ... 4-42
4-40. Adjusting the
Phase ... 4-43
4-41. Entering a Phase
Angle ... 4-44
4-42. Entering a Power
Factor ... 4-45
4-43. Entering a DC
Offset ... 4-46
4-44. Using the 5725A
Amplifier ... 4-47
4-45. 5725A Amplifier
Output ... 4-48
4-46. Editing and Error Output Settings
... 4-49
4-47. Editing the Output
Setting ...
4-49
4-48. Displaying the Output
Error ... 4-50
4-49. Using Multiply and
Divide ... 4-50
4-50. Setting Output
Limits ... 4-50
4-51. Setting Voltage and Current
Limits ... 4-51
4-52. Sample
Applications ... 4-52
4-53. Calibrating an 80 Series Handheld
Multimeter ... 4-52
4-54.
Cables ... 4-52
4-55. EARTH
Connection ... 4-52
4-56. Testing the
Meter ... 4-53
4-57. Calibrating the
Meter ... 4-57
4-58. Testing a Model 41 Power Harmonics
Analyzer ... 4-58
4-59. Testing Watts, VA, VAR
Performance ... 4-58
4-60. Testing Harmonics Volts
Performance ... 4-60
4-61. Testing Harmonics Amps
Performance ... 4-61
4-62. Calibrating a Fluke 51
Thermometer ... 4-61
4-63. Testing the
Thermometer ... 4-62
4-64. Calibrating the
Thermometer ...
4-63
5 Remote
Operation ... 5-1
5-1.
Introduction ... 5-4
5-2. Setting up the IEEE-488 Port for Remote
Control ... 5-4
5-3. IEEE-488 Port Setup
Procedure ... 5-7
5-4. Testing the IEEE-488
Port ... 5-8
5-5. Setting up the RS-232 Host Port for Remote
Control ... 5-10
5-6. RS-232 Host Port Setup
Procedure ... 5-10
5-7. Testing the RS-232 Host
Port ... 5-12
5-8. Testing RS-232 Host Port Operation using a
Terminal ... 5-12
5-9. Testing RS-232 Host Port Operation using Visual
Basic ... 5-14
5-10. Setting up the RS-232 UUT Port for Remote
Control ... 5-15
5-11. RS-232 UUT Port Setup
Procedure ... 5-15
5-12. Testing the RS-232 UUT Port via RS-232 Host
Port ... 5-17
5-13. Testing RS-232 UUT Port Operation via a
Terminal ... 5-17
5-14. Testing RS-232 UUT Port Operation using Visual
Basic ... 5-18
5-15. Testing the RS-232 UUT Port via IEEE-488
Port ... 5-19
5-16. Changing between Remote and Local
Operation ... 5-21
5-17. Local
State ... 5-21
5-18. Local with Lockout
State ... 5-21
5-19. Remote
State ... 5-21
5-20. Remote with Lockout
State ... 5-21
5-21. RS-232 Interface
Overview ... 5-22
5-22. IEEE-488 Interface
Overview ... 5-23
5-23. Using
Commands ... 5-25
5-24. Types of
Commands ... 5-25
5-25. Device-Dependent
Commands ... 5-25
5-26. Common
Commands ... 5-26
5-27. Query
Commands ... 5-26
5-28. Interface Messages
(IEEE-488) ... 5-26
5-29. Compound
Commands ... 5-28
5-30. Coupled
Commands ... 5-28
5-31. Overlapped
Commands ... 5-29
5-32. Sequential
Commands ... 5-29
5-34. Commands for RS-232
Only ... 5-29
5-35. Commands for IEEE-488
Only ... 5-30
5-36. Command
Syntax ... 5-31
5-37. Parameter Syntax
Rules ... 5-31
5-38. Extra Space or Tab
Characters ... 5-32
5-39.
Terminators ... 5-33
5-40. Incoming Character
Processing ... 5-33
5-41. Response Message
Syntax ... 5-34
5-42. Checking 5500A
Status ... 5-35
5-43. Serial Poll Status Byte
(STB) ... 5-35
5-44. Service Request (SRQ)
Line ... 5-37
5-45. Service Request Enable Register
(SRE) ... 5-37
5-46. Programming the STB and
SRE ... 5-38
5-47. Event Status Register
(ESR) ... 5-38
5-48. Event Status Enable (ESE)
Register ... 5-38
5-49. Bit Assignments for the ESR and
ESE ... 5-38
5-50. Programming the ESR and
ESE ... 5-39
5-51. Instrument Status Register
(ISR) ... 5-40
5-52. Instrument Status Change
Registers ... 5-40
5-53. Instrument Status Change Enable
Registers ... 5-40
5-54. Bit Assignments for the ISR, ISCR, and
ISCE ... 5-40
5-55. Programming the ISR, ISCR, and
ISCE ... 5-42
5-56. Output
Queue ... 5-42
5-57. Error
Queue ... 5-43
5-58. Remote Program
Examples ... 5-43
5-59. Guidelines for Programming the
Calibrator ... 5-43
5-60. Writing an SRQ and Error
Handler ... 5-44
5-61. Verifying a Meter on the IEEE-488
Bus ... 5-45
5-62. Verifying a Meter on the RS-232 UUT Serial
Port ... 5-45
5-63. Using *OPC?, *OPC, and
*WAI ... 5-45
5-64. Taking a Thermocouple
Measurement ... 5-46
5-65. Using the RS-232 UUT Port to Control an
instrument ... 5-46
5-66. Input Buffer
Operation ... 5-47
6 Remote
Commands ... 6-1
6-1.
Introduction ... 6-3
6-2. Command Summary by Function
... 6-3
6-3. Summary of Commands and
Queries ... 6-8
7
Maintenance ... 7-1
7-1.
Introduction ... 7-3
7-2. Replacing the Line Fuse
... 7-3
7-3. Cleaning the Air
Filter ... 7-4
7-4. General
Cleaning ... 7-6
7-5. Performing a Calibration
Check ... 7-6
7-6. Performance
Tests ... 7-7
7-7. DC Voltage Amplitude Accuracy (NORMAL)
... 7-7
7-8. DC Voltage Amplitude Accuracy
(AUX) ... 7-8
7-9. DC Current Amplitude
Accuracy ... 7-9
7-10. Resistance
Accuracy ... 7-10
7-11. Resistance DC Offset
Measurement ... 7-11
7-12. AC Voltage Amplitude Accuracy
(NORMAL) ... 7-12
7-13. AC Voltage Amplitude Accuracy
(AUX) ... 7-13
7-14. AC Current Amplitude
Accuracy ... 7-14
7-15. Capacitance
Accuracy ... 7-16
7-16. Thermocouple Measurement
Accuracy ... 7-17
7-17. Thermocouple Sourcing
Accuracy ... 7-17
7-18. Thermocouple Measuring
Accuracy ... 7-17
7-19. DC Power Amplitude Accuracy
(NORMAL) ... 7-18
7-20. DC Power Amplitude Accuracy
(AUX) ... 7-18
7-21. AC Power Amplitude Accuracy (High
Voltage) ... 7-19
7-22. AC Power Amplitude Accuracy (High
Current) ... 7-19
7-23. AC Power Amplitude Accuracy (High
Power) ... 7-20
7-24. Phase and Frequency
Accuracy ... 7-21
7-25. AC Voltage Amplitude Accuracy, Squarewave
(NORMAL) ... 7-22
7-26. AC Voltage Amplitude Accuracy, Squarewave
(AUX) ... 7-23
7-27. AC Voltage Harmonic Amplitude Accuracy
(NORMAL) ... 7-24