Navair 17-20VQ-05 User manual
NAVAIR 17–20VQ–05
TECHNICAL MANUAL
INSTRUMENT CALIBRATION PROCEDURE
VQ–05
DIGITAL VOLTMETERS
AND
DIGITAL MULTIMETERS
USING THE FLUKE 515A
PORTABLE CALIBRATOR
THIS PUBLICATION SUPERSEDES NAVAIR 17–20VQ–05
DATED 1 DECEMBER 1987
DISTRIBUTIONSTATEMENTC. DISTRIBUTIONAUTHORIZEDTOU.S.GOVERNMENTAGENCIESANDTHEIR
CONTRACTORSTOPROTECTPUBLICATIONSREQUIREDFOROFFICIALUSEORFOR ADMINISTRATIVEOR
OPERATIONALPURPOSESONLY. OTHERREQUESTSFORTHISDOCUMENTSHALLBEREFERREDTONAVY
MEASUREMENT SCIENCE DIRECTORATE, NAVAL WARFARE ASSESSMENT STATION, P.O. BOX 5000
CORONA, CA 92878–5000.
VQ–05
DESTRUCTION NOTICE– FOR UNCLASSIFIED, LIMITED DOCUMENTS, DESTROY BY ANY
METHOD THAT WILL PREVENT DISCLOSURE OF CONTENTS OR “RECONSTRUCTION OF THE
DOCUMENT.”
PUBLISHED BY DIRECTION OF COMMANDER NAVAL AIR SYSTEMS COMMAND
15 DECEMBER 1987
LIST OF EFFECTIVE PAGES
The purpose of this list is to identify the pages in this document affected by any technical content changes made since the
previous release of the document.
NOTE: On a revised page, with the exception of the Title, the A, and the i pages, the technical changes are indicated by a
vertical line in the outer margin of the page.
Page
No. Revision* Page
No. Revision* Page
No. Revision*
Title 0109 to 119 0
A 0 121 to 133 0
i 0 135 0
1 to 5 0 137 0
7 0 139 to 145 0
9 0 147 0
11 to 13 0149 to 158 0
15 0 A–1 to A–4 0
17 0
19 to 21 0
23 0
25 to 27 0
29 to 31 0
33 to 39 0
41 to 61 0
63 to 75 0
77 0
79 to 95 0
97 0
99 to 103 0
105 0
107 0
* Zero in this column indicates an original page.
“R” in this column indicates a revised page.
**All pages not lised are blank.
NAVAIR 17–20VQ–05
A
TABLE OF CONTENTS
Section Page
1 Introduction and Description 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2 Equipment Requirements 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3 Preliminary Operations 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4 Calibration Process 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.1 Direct Voltage Measurements 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.2 Alternating–Voltage Measurements 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.3 Resistance Measurements 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Navy Calibration Checklist 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Appendix A: Representative Test Instruments A–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TABLES
Table Page
1 Calibration Description 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2 Equipment Requirements 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
NAVAIR 17–20VQ–05
i
SECTION 1
INTRODUCTION AND DESCRIPTION
1.1 This procedure describes the calibration of digital voltmeters (DVMs) or digital multimeters (DMMs), and includes
instruments having multifunction capability of measuring dc voltage, ac voltage, and resistance. Instruments that can be
calibrated using this procedure include, but are not limited to the items listed in Appendix A.
1.2 This procedure omits the calibration of the DMM 10 and 100 resistance ranges, and calibrates the other resistance
ranges to +0.2%. It omits calibration of the voltage ratio functions. Affix special calibration labels (NAVMAT form 4355/7A
or 4355/8A) as applicable. The instrument being calibrated is referred to herein as the TI (Test Instrument).
1.3 In the event that the user requires the calibration of the TI to a greater accuracy than that stated in Table 1, or requires
calibration of the functions that this procedure omits, the TI must be submitted to a Navy calibration facility that can calibrate
these functions to the required accuracy. It should be noted that a review of Navy usage of DVMs/DMMs reveals very limited
use of the functions that this procedure omits. It is anticipated that the requirements for such calibrations will be similarly
limited.
1.4 All comments concerning this procedure should be directed to Navy Measurement Science Directorate, Naval Warfare
Assessment Station, P.O. Box 5000, Corona, CA 92878–5000.
1.5 This procedure includes tests of essential performance parameters only. Any malfunction noticed during calibration,
whether specifically tested for or not, should be corrected.
1.6 Each plug in unit must be used with the TI with which it is calibrated. The plug in unit should be tagged, “For use with
(mfr) model, serial # only. If used with another TI, the system may not operate within the
prescribed tolerance.”
NOTE
This procedure describes the calibration of the TI up to 50 kHz. If the measurement capability of the TI is
greater than 50 kHz, affix a special calibration label stating: This TI has been calibrated up to 50 kHz only.
Table 1. Calibration Description
Performance
Specifications
TI
Characteristics Test
Method
Direct voltage
measurements Ranges:
V: 0 to 999 V
Tolerance: 6 V
1, 10, 100, and 1000 V:
Tolerance: 0.009% of range
100 mV:
Tolerance: 0.09% of range
10 mV range: No capability
Sensitivity: One least significant
digit (LSD) for a TI having a
lowest range resolution of
100 V, 10 V or 1 V;
otherwise sensitivity is not tested.
The TI indication is
compared to the calibrator
V dc output.
NAVAIR 17–20VQ–05
1
Performance
Specifications
TI
Characteristics Test
Method
Alternating voltage
measurement
Resistance
Range: 1, 10, 100, and 1000 V
Tolerance:
1 V at 400 Hz; 0.15% iv;
10 V at 400 Hz or 4 kHz,
0.12% iv;
10 V at 50 kHz; 0.3% iv;
100 V or 1000 V at 400 Hz,
0.18% iv
Range: 1 kthrough 10 M
Tolerance: Assigned 0.2%.
10 and 100 ranges are not
tested.
The TI indication is
compared to the calibrator
V ac output.
The TI indication is
compared to the calibrator
resistance output
SECTION 2
EQUIPMENT REQUIREMENTS
NOTE
Minimum use specifications are the principal parameters required for performance of the calibration, and are
included to assist in the selection of alternate equipment, which may be used at the discretion of the using
laboratory. Satisfactory performance of alternate items shall be verified prior to use. All applicable
equipment must bear evidence of current calibration.
The instruments utilized in this procedure were selected from those known to be available at Navy
calibration facilities, and the listing by make or model number carries no implication of preference,
recommendation, or approval for use by other agencies. It is recognized that equivalent equipment produced
by other manufacturers may be capable of equally satisfactory performance in this procedure.
If the TI has an electronic counter function, calibration is in two parts: First, calibrate the TI electronic
counter function in accordance with NAVAIR 17–20VF–06; then calibrate the multimeter function with this
procedure.
Table 2. Equipment Requirements
Minimum Use
Specifications
Item Calibration
Equipment
2.1 Portable meter
calibrator
(calibrator)
DCV range: 0 to 999 V, 1 V, 10 V,
and 100 V
Uncertainty: 0 to 999 V: 2.0 V
1 V, 10 V, and 100 V: 0.003% iv
or 30 V, whichever is greater
ACV range: 1 V, 10 V, and 100 V
Uncertainty: 1 V at 400 Hz: 0.05%
10 V at 400 Hz and 4 kHz: 0.04%
10 V at 50 kHz: 0.1%
100 V at 400 Hz: 0.06%
Resistance range: 1k, 1 M, and 10 M
Uncertainty: 1 kand 1 M: 0.015%
10 M: 0.075%
Fluke 515A (no substitute)
NAVAIR 17–20VQ–05
2
SECTION 3
PRELIMINARY OPERATIONS
WARNING
TESTS INDICATE THAT WHEN USING THE FLUKE 8125A IN EITHER THE BATTERY MODE OR
WITH A TWO WIRE V AC INPUT, THERE CAN BE UP TO 180 V AC POTENTIAL BETWEEN THE
CASE AND GROUND. ACCORDINGLY, IF THE TI IS A FLUKE 8125A AND A THREE TO TWO
WIRE ADAPTER IS USED, OR IF THE INSTRUMENT IS POWERED FROM THE OPTIONAL
BATTERY PACK WITH THE LINE CORD DISCONNECTED, ENSURE THAT THE TI CASE IS
GROUNDED. THE GROUND LEAD SHOULD BE CONNECTED BETWEEN EARTH GROUND AND
THE HINGE PIN ON THE TI CASE.
3.1 Set all equipment controls as necessary to avoid damage to the equipment and so that dangerous voltages will not be
present on output terminals when power switches are turned on.
3.2 Connect all applicable equipment to the appropriate power source, and turn all power switches on.
3.3 Allow a 30 minute warm up time for the calibrator and a sufficient warm up time for the TI (see manufacturer’s
manual).
NOTE
The calibrator may be warmed up on battery or ac power or a combination of both. When the power switch
is on, it will automatically switch to battery power when unplugged from the ac line. It may be warmed up
in transit to another location, or if previously warmed up, it may be transported on battery power (power
switch on) to avoid any further warm up requirement. Transport the calibrator with the function switched to
OHMS to avoid electrical shock, and the rotary switch in the 10 M (BTRY SAVER) position for minimum
battery drain. When operating the calibrator on battery power, use the 10 M position for standby.
3.4 As applicable adjust the TI controls that are normally required to electrically zero the TI or to precalibrate certain
functions prior to the TI usage.
SECTION 4
CALIBRATION PROCESS
WARNING
VOLTAGES HAZARDOUS TO LIFE MAY BE PRESENT. USE EXTREME CAUTION.
NOTE
Manually set the TI controls to the required voltage ranges to hold the measurement in the specified range.
If a measurement must be performed in the TI auto mode because the TI is not equipped with a manual range
selector, the calibration test measurement values have been chosen to avoid any measurement problem which
may arise as a result of the TI automatic downranging and upranging characteristics.
NAVAIR 17–20VQ–05
3
NOTES
Unless otherwise specified, verify the results of each test and take corrective action whenever the test
requirement is not met before proceeding.
Zero test point measurements are to be verified only if an out of tolerance indication occurs at any test point
during calibration.
4.1 DIRECT VOLTAGE MEASUREMENTS
4.1.1 Connect the TI input to the calibrator output, observing correct polarity.
4.1.2 Set the TI controls to measure positive polarity dc voltage on the range most appropriate for testing linearity. (Usually
the 1 or 10 volt range.)
4.1.3 If a checklist is not provided for the TI, select five equally spaced calibration points compatible with the TI range and
available calibrator outputs. Set the calibrator V dc output multiplier switch decade to each calibration point and verify that at
each calibration point, the TI indication is within the TI tolerance limits specified by the manufacturer.
4.1.4 Set the calibrator V dc controls for minimum output.
4.1.5 Reverse the input leads to the TI for negative polarity.
4.1.6 Set the calibrator V dc output multiplier switch decade to the highest calibration point selected in step 4.1.3 (The TI
indication will be a negative value for the TI that has an auto polarity capability).
4.1.7 Set the calibrator V dc controls for minimum output.
4.1.8 Reverse the input leads to the TI for positive polarity.
4.1.9 Set the calibrator V dc controls for a voltage value at the highest compatible calibration point for each TI voltage
range. (TIs having voltage ranges above 100 V dc will be tested at 100 V dc). At each calibration point, verify that the TI
indication is within the TI tolerance limits specified by the manufacturer.
4.1.10 Set the calibrator V dc controls for minimum output.
NOTE
Perform steps 4.1.11 to 4.1.14 only if the TI has a resolution of either 100 V, 10 V, or 1 V on the TI
lowest voltage range; for all others TIs, proceed to Section 4.2. The word “resolution” in the following test
measurements represents the lease significant digit (LSD) of the TI lowest voltage range.
4.1.11 Set the TI V dc controls to the lowest range.
4.1.12 Press the calibrator V switch, and adjust the calibrator V control to set the TI indication to 500 V.
4.1.13 Adjust the calibrator V control to increase the indication on the calibrator V indicator by twice the resolution of
the TI, and verify that the TI indication is within the TI tolerance limits specified by the manufacturer.
4.1.14 Adjust the calibrator V control to decrease the indication on the calibration V indicator by four times the
resolution of the TI, and verify that the TI indication is within the TI tolerance limits specified by the manufacturer.
4.1.15 Set the calibrator V dc controls for minimum output.
NAVAIR 17–20VQ–05
4
4.2 ALTERNATING VOLTAGE MEASUREMENTS
4.2.1 Adjust the TI controls for ac voltage measurements.
4.2.2 Adjust the TI and calibrator controls for TI measurement of the following calibrator voltage and frequency; outputs
400 Hz – 1 V, 400 Hz – 10 V, 400 Hz –100 V, and 4 kHz – 10 V or 50 kHz – 10V. (If the TI has a range above 100 V, it will
be tested as 400 Hz – 100 V). At each calibrator output specified by the manufacturer.
4.2.3 Set the calibrator V ac output voltage switches for minimum output.
4.3 RESISTANCE MEASUREMENTS
4.3.1 Set the TI controls to measure resistance.
4.3.2 Press the calibrator ohms switch, and set the calibrator output switch to 1 k, 10 k, 100 k, 1000 k, or 10000 k. At each
setting, verify that the TI indication is within the TI tolerance limits specified by the manufactuer.
4.3.3. Affix a special calibration label to the TI, listing any function which was not calibrated, and any function or range for
which the calibrator did not provide a 4:1 test accuracy ratio.
4.3.4 Unless other measurements are to be performed, set all power switches to off and disconnect the equipment.
NAVAIR 17–20VQ–05
(6 blank) 5
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Cubic 50–1122–1, V72–1000–1 Digital Voltmeter as used in Autonetics 37002–315
Static Test Unit
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 10 V 10 V x 0 0.000 –0.001 to 0.001
” ” 10 V x .1 1.000 0.999 to 1.001
” ” 10 V x .2 2.000 1.999 to 2.001
” ” 10 V x .3 3.000 2.999 to 3.001
” ” 10 V x .4 4.000 3.999 to 4.001
” ” 10 V x .5 5.000 4.998 to 5.002
” ” 10 V x .6 6.000 5.998 to 6.002
” ” 10 V x .7 7.000 6.998 to 7.002
” ” 10 V x .8 8.000 7.998 to 8.002
” ” 10 V x .9 9.000 8.998 to 9.002
4.1.6 –10 V 10 V x .9 9.000 8.998 to 9.002
NAVAIR 17–20VQ–05
(8 blank) 7
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Cubic 0309020 or 0309020–1 Digital Voltmeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.000 –0.001 to 0.001
” ” 10 V x .1 1.000 0.999 to 1.001
” ” 10 V x .2 2.000 1.999 to 2.001
” ” 10 V x .3 3.000 2.999 to 3.001
” ” 10 V x .4 4.000 3.999 to 4.001
” ” 10 V x .5 5.000 4.998 to 5.002
” ” 10 V x .6 6.000 5.998 to 6.002
” ” 10 V x .7 7.000 6.998 to 7.002
” ” 10 V x .8 8.000 7.998 to 8.002
” ” 10 V x .9 9.000 8.998 to 9.002
” TI Range Calibrator (V) (V) (V)
4.1.9 100 V 100 V 100 99.98 to 100.02
” 1000 V 100 V 100 99.9 to 100.1
NAVAIR 17–20VQ–05
(10 blank) 9
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Hewlett–Packard 2402A with Options 02 and/or 03 Digital Voltmeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 2
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.0000 –0.0003 to 0.0003
” ” 10 V x .1 1.0000 0.9996 to 1.0004
” ” 10 V x .2 2.0000 1.9995 to 2.0005
” ” 10 V x .3 3.0000 2.9994 to 3.0006
” ” 10 V x .4 4.0000 3.9993 to 4.0007
” ” 10 V x .5 5.0000 4.9992 to 5.0008
” ” 10 V x .6 6.0000 5.9991 to 6.0009
” ” 10 V x .7 7.0000 6.9990 to 7.0010
” ” 10 V x .8 8.0000 7.9989 to 8.0011
” ” 10 V x .9 9.0000 8.9988 to 9.0012
” ” 10 V x 1 10.0000 9.9987 to 10.0013
4.1.6 –10 V 10 V x 1 10.0000 9.9987 to 10.0013
TI Range Calibrator (mV) (mV) (mV)
4.1.9 1000 mV 1 V x 1 1000.00 999.87 to1000.13
TI Range Calibrator (V) (V) (V)
4.1.9 100 V 100 V 100.00 99.992 to 100.008
1000 V 100 V 100.00 99.96 to 100.04
TI 100 mV range (V) (V) (V)
4.1.13 1 V LSD 502 501 to 503
4.1.14 1 V LSD 498 497 to 499
4.2 Alternating–Voltage Measurements (02)
Range Calibrator (V) (V) (V)
4.2.2 1 V 400 Hz–1 V 1.00000 0.99910 to 1.00090
” 10 V 400 Hz–10 V 10.0000 9.9910 to 10.0090
” 100 V 400 Hz–100 V 100.000 99.910 to 100.090
” 1000 V 400 Hz–100 V 100.00 99.91 to 100.09
” 10 4 kHz–10 V 10.0000 9.9910 to 10.0090
” 10 50 kHz–10 V 10.0000 9.9610 to 10.0390
” 1000 50 kHz–10 V 10.00 9.38 to 10.62
NAVAIR 17–20VQ–05
11
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO. MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 2 of 2
4.3 Resistance Measurements (03)
TI & Calibrator (k)(k)(k)
4.3.2 1 krange 1.00000 0.99800 to 1.00200
” 10 krange 10.0000 9.9800 to 10.0200
” 100 krange 100.000 99.800 to 100.200
” 1000 krange 1000.00 998.00 to1002.00
(M)(M)(M)
4.3.2 10 Mrange 10.0000 9.9800 to 10.0200
Affix a special calibration label stating:
1. The resistance ranges have been calibrated to 0.2% of range.
2. The 100 mV V dc range has not been calibrated.
3. The V ac function of the TI has been calibrated up to 50 kHz only.
Hewlett–Packard 2402A with Options 02 and/or 03 Digital Voltmeter
NAVAIR 17–20VQ–05
12
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Cimron Digital Multimeter, Sanders P/N 3005896G1 as used with 0Q–10/ALM–64*
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.0000 –0.0002 to 0.0002
” +10 V 10 V x .1 1.0000 0.9997 to 1.0003
” +10 V 10 V x .2 2.0000 1.9995 to 2.0005
” +10 V 10 V x .3 3.0000 2.9992 to 3.0008
” +10 V 10 V x .4 4.0000 3.9990 to 4.0010
” +10 V 10 V x .5 5.0000 4.9987 to 5.0013
” +10 V 10 V x .6 6.0000 5.9985 to 6.0015
” +10 V 10 V x .7 7.0000 6.9982 to 7.0018
” +10 V 10 V x .8 8.0000 7.9980 to 8.0020
” +10 V 10 V x .9 9.0000 8.9977 to 9.0023
” +10 V 10 V x 1 10.0000 9.9975 to 10.0025
” –10 V 10 V x 1 10.0000 9.9975 to 10.0025
” TI Range Calibrator (V) (V) (V)
4.1.9 100 V 100 V 100.000 99.975 to 100.025
” 1000 V 100 V 100.00 99.97 to 100.03
TI 10–volt range (mV) (mV) (mV)
4.1.13 100 mV LSD 700 600 to 800
4.1.14 100 mV LSD 300 200 to 400
*Affix a special calibration label to the TI stating:
“This TI is calibrated in accordance with the usage requirement of 0Q–10/ALM–64”.
NAVAIR 17–20VQ–05
(14 blank) 13
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Hewlett–Packard 3460B Digital Voltmeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.0000 –0.0002 to 0.0002
” +10 V 10 V x .1 1.0000 0.9998 to 1.0002
” +10 V 10 V x .2 2.0000 1.9997 to 2.0003
” +10 V 10 V x .3 3.0000 2.9997 to 3.0003
” +10 V 10 V x .4 4.0000 3.9996 to 4.0004
” +10 V 10 V x .5 5.0000 4.9996 to 5.0004
” +10 V 10 V x .6 6.0000 5.9996 to 6.0004
” +10 V 10 V x .7 7.0000 6.9995 to 7.0005
” +10 V 10 V x .8 8.0000 7.9995 to 8.0005
” +10 V 10 V x .9 9.0000 8.9994 to 9.0006
” +10 V 10 V x 1 10.0000 9.9994 to 10.0006
” –10 V 10 V x 1 10.0000 9.9994 to 10.0006
” TI Range Calibrator (V) (V) (V)
4.1.9 1 V 1 V x 1 1.00000 0.99994 to 1.00006
” 100 V 100 V 100.000 99.994 to 100.006
” 1000 V 100 V 100.00 99.98 to 100.02
TI 1 volt range (mV) (mV) (mV)
4.1.13 10 mV LSD 520 510 to 530
4.1.14 10 mV LSD 480 470 to 490
NAVAIR 17–20VQ–05
(16 blank) 15
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Hewlett–Packard 34703A Option E01 as used with the Mardan Test Set for FBM*
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.000 –0.006 to 0.006
” +10 V 10 V x .1 1.000 0.991 to 1.009
” +10 V 10 V x .2 2.000 1.989 to 2.011
” +10 V 10 V x .3 3.000 2.988 to 3.012
” +10 V 10 V x .4 4.000 3.986 to 4.014
” +10 V 10 V x .5 5.000 4.984 to 5.016
” +10 V 10 V x .6 6.000 5.982 to 6.018
” +10 V 10 V x .7 7.000 6.980 to 7.020
” +10 V 10 V x .8 8.000 7.979 to 8.021
” +10 V 10 V x .9 9.000 8.977 to 9.023
” +10 V 10 V x 1 10.000 9.975 to 10.025
” –10 V 10 V x 1 10.000 9.975 to 10.025
” TI Range Calibrator (mV) (mV) (mV)
4.1.9 10 mV 1000 mV 1.000 0.499 to 1.501
” 100 V 1 V X .1 100.00 99.75 to 100.25
TI Range Calibrator (V) (V) (V)
4.1.9 1 V 1 V x 1 1.0000 0.9975 to 1.0025
” 100 V 100 V 100.00 99.75 to 100.25
” 1000 V 100 V 100.0 99.2 to 100.8
TI 1 volt range (mV) (mV) (mV)
4.1.13 100 mV LSD 700 600 to 800
4.1.14 100 mV LSD 300 200 to 400
*Affix a special calibration label to the TI stating:
“Calibration is performed in accordance with the usage requirement of the Mardan Test Set.”
NAVAIR 17–20VQ–05
(18 blank) 17
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Hewlett–Packard 3490A Digital Multimeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 2
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.0000 –0.0002 to 0.0002
” +10 V 10 V x .1 1.0000 0.9996 to 1.0004
” +10 V 10 V x .2 2.0000 1.9995 to 2.0005
” +10 V 10 V x .3 3.0000 2.9993 to 3.0007
” +10 V 10 V x .4 4.0000 3.9992 to 4.0008
” +10 V 10 V x .5 5.0000 4.9990 to 5.0010
” +10 V 10 V x .6 6.0000 5.9989 to 6.0011
” +10 V 10 V x .7 7.0000 6.9987 to 7.0013
” +10 V 10 V x .8 8.0000 7.9986 to 8.0014
” +10 V 10 V x .9 9.0000 8.9984 to 9.0016
” +10 V 10 V x 1 10.0000 9.9983 to 10.0017
” –10 V 10 V x 1 10.0000 9.9983 to 10.0017
” TI Range Calibrator (V) (V) (V)
4.1.9 0.1 V 1 V x .1 .100000 0.099980to 0.100020
” 1 V 1 V x 1 1.00000 0.99983 to 1.00017
” 100 V 100 V 100.000 99.983 to 100.017
” 1000 V 100 V 100.00 99.96 to 100.04
TI 0.1 volt range (mV) (mV) (mV)
4.1.13 1 mV LSD 502 501 to 503
4.1.14 1 mV LSD 498 497 to 499
4.2 Alternating–Voltage Measurements
Range Calibrator (V) (V) (V)
4.2.2 1 V 400 Hz–1 V 1.00000 0.99845 to 1.00155
” 10 V 400 Hz–10 V 10.0000 9.9845 to 10.0155
” 100 V 400 Hz–100 V 100.000 99.845 to 100.155
” 1000 V 400 Hz–100 V 100.00 99.53 to 100.47
” 10 V 4 kHz–10 V 10.0000 9.9845 to 10.0155
” 10 V 50 kHz–10 V 10.0000 9.9845 to 10.0155
NAVAIR 17–20VQ–05
19
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Hewlett–Packard 3490A Digital Multimeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 2 of 2
Affix a special calibration label stating:
1. The 0.1 krange has not been calibrated.
2. All other resistance ranges have been calibrated to 0.2% of range.
3. The V ac function of the TI has been calibrated up to 50 kHz only.
4.3 Resistance Measurements
TI & Calibrator (k)(k)(k)
4.3.2 1 krange 1.00000 0.99800 to 1.00200
” 10 krange 10.0000 9.9800 to 10.0200
” 100 krange 100.000 99.800 to 100.200
” 1000 krange 1000.00 998.00 to 1002.00
” 10000 krange 10000.0 9980.0 to 10020.0
NAVAIR 17–20VQ–05
20
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Electro Instruments, Inc. 4010 DC Voltmeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.000 –0.001 to 0.001
” +10 V 10 V x .1 1.000 0.999 to 1.001
” +10 V 10 V x .2 2.000 1.999 to 2.001
” +10 V 10 V x .3 3.000 2.999 to 3.001
” +10 V 10 V x .4 4.000 3.999 to 4.001
” +10 V 10 V x .5 5.000 4.999 to 5.001
” +10 V 10 V x .6 6.000 5.999 to 6.001
” +10 V 10 V x .7 7.000 6.999 to 7.001
” +10 V 10 V x .8 8.000 7.999 to 8.001
” +10 V 10 V x .9 9.000 8.999 to 9.001
4.1.6 –10 V 10 V x .9 9.000 8.999 to 9.001
TI Range Calibrator (V) (V) (V)
4.1.9 100 V 100 V 100.00 99.99 to 100.01
” 1000 V 100 V 100.0 99.9 to 100.1
NAVAIR 17–20VQ–05
(22 blank) 21
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Hewlett–packard 405A, 405AR, 405BR, or 405CR Digital Voltmeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 1
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 10 V 10 V x 0 0.00 –0.01 to 0.01
” 10 V 10 V x .1 1.00 0.99 to 1.01
” 10 V 10 V x .2 2.00 1.99 to 2.01
” 10 V 10 V x .3 3.00 2.98 to 3.02
” 10 V 10 V x .4 4.00 3.98 to 4.02
” 10 V 10 V x .5 5.00 4.98 to 5.02
” 10 V 10 V x .6 6.00 5.98 to 6.02
” 10 V 10 V x .7 7.00 6.98 to 7.02
” 10 V 10 V x .8 8.00 7.97 to 8.03
” 10 V 10 V x .9 9.00 8.97 to 9.03
4.1.6 –10 V 10 V x .9 9.00 8.97 to 9.03
TI Range Calibrator (V) (V) (V)
4.1.9 1 V 1 V x .9 0.900 0.897 to 0.903
” 100 V 100 V 100.0 99.7 to 100.3
” 1000 V 100 V 100 99 to 101
NAVAIR 17–20VQ–05
(24 blank) 23
TEST INST (S)
CALIBRATION CHECKLIST
PROC. NO.
Dana 4700 or 4700A Digital Voltmeter
MFG. MODEL SER. NO.
PROCEDURE
STEP
NO.
(1)
FUNCTION TESTED
(2)
NOMINAL
(3)
MEASURED VALUES
FIRST RUN
(4)
SECOND RUN
(5)
OUT
OF
TOL (6)
CALIBRATION TOLERANCES
(7)
NA 17–20VQ–05
Page 1 of 2
4.1 Direct–Voltage Measurements
TI Range Calibrator (V) (V) (V)
4.1.3 +10 V 10 V x 0 0.000 –0.001 to 0.001
” +10 V 10 V x .1 1.000 0.999 to 1.001
” +10 V 10 V x .2 2.000 1.998 to 2.002
” +10 V 10 V x .3 3.000 2.998 to 3.002
” +10 V 10 V x .4 4.000 3.998 to 4.002
” +10 V 10 V x .5 5.000 4.997 to 5.003
” +10 V 10 V x .6 6.000 5.997 to 6.003
” +10 V 10 V x .7 7.000 6.997 to 7.003
” +10 V 10 V x .8 8.000 7.997 to 8.003
” +10 V 10 V x .9 9.000 8.996 to 9.004
4.1.6 –10 V 10 V x .9 9.000 9.996 to 9.004
TI Range Calibrator (V) (V) (V)
4.1.9 1 V 10 V x 1 1.0000 0.9996 to 1.0004
” 100 V 100 V 100.00 99.96 to 100.04
” 1000 V 100 V 100.0 99.9 to 100.1
TI 0.1 volt range V) (V) (V)
4.1.13 10 V LSD 520 510 to 530
4.1.14 10 V LSD 480 470 to 490
4.2 Alternating–Voltage Measurements
Range Calibrator (V) (V) (V)
4.2.2 1 V 400 Hz–1 V 1.0000 0.9988 to 1.0012
” 10 V 400 Hz–10 V 10.000 9.998 to 10.012
” 100 V 400 Hz–100 V 100.00 99.88 to 100.12
” 1000 V 400 Hz–100 V 100.0 99.7 to 100.3
” 10 V 4 kHz–10 V 10.000 9.988 to 10.012
” 10 V 50 kHz–10 V 10.000 9.896 to 10.104
NAVAIR 17–20VQ–05
25
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