B/E/M/S/X Series Calibration Procedure
Contents
1. Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 1 1 Pos FS 0 99 0 98865 0 99135 0 98863 0 99137 1 1 0 0 0 00079 0 00079 0 00079 0 00079 1 1 Neg FS 0 99 0 99135 0 98865 0 99137 0 98863 0 5 0 5 Pos FS 0 495 0 494256 0 495744 0 494248 0 495752 0 5 0 5 0 0 0 000461 0 000461 0 000461 0 000461 0 5 0 5 Neg FS 0 495 0 495744 0 494256 0 495752 0 494248 0 2 0 2 Pos FS 0 198 0 197648 0 198352 0 197645 0 198355 0 2 0 2 0 0 0 000239 0 000239 0 000239 0 000239 0 2 0 2 Neg FS 0 198 0 198352 0 197648 0 198355 0 197645 Table 59 NI 6110 6111 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 99 9 982299 9 997701 9 981879 9 998121 10 10 0 0 0 005933 0 005933 0 005933 0 005933 10 10 Neg FS 9 99 9 997701 9 982299 9 998121 9 981879 Table 60 NI 6110 6111 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 sjuawnysuy jeuoney 69 BNPIIOS VOREIAIIEI SALAS X S N I 4 NI 6115 12 Bit Resolution Tables 61 through 63 include values for the PCI 6115 and PXI 6115 Table 61 NI 6115 Analog Input Values2. Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 9000000 9 892315 9 907685 9 891899 9 908101 10 10 0 0 0000000 0 005933 0 005933 0 005933 0 005933 10 10 Neg FS 9 9000000 9 907685 9 892315 9 908101 9 891899 Table 25 NI 6036E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 9000000 9 898009 9 901991 9 897603 9 902397 10 10 0 0 0000000 0 001100 0 001100 0 001100 0 001100 10 10 Neg FS 9 9000000 9 901991 9 898009 9 902397 9 897603 Table 26 NI 6034E 6035E 6036E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 BNPIIOSA VOREIAIEI SALAS X S N 3 8 Ov wog u NI DAQCard 6036E 16 Bit Resolution Tables 27 through 29 include values for the DAQCard 6036E Table 27 NI DAQCard 6036E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 900 9 8918 9 9082 9 8914 9 9086 10 10 0 0 000 0 0027 0 0027 0 0027 0 0027 10 10 Neg FS 9 900 9 9082 9 89
3. Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 42 42 Pos FS 41 16 40 980986 41 339014 40 980163 41 339837 42 42 0 0 0 036600 0 036600 0 036600 0 036600 42 42 Neg FS 41 16 41 339014 40 980986 41 339837 40 980163 20 20 Pos FS 19 6 19 532484 19 667516 19 532092 19 667908 20 20 0 0 0 014400 0 014400 0 014400 0 014400 20 20 Neg FS 19 6 19 667516 19 532484 19 667908 19 532092 10 10 Pos FS 9 8 9 790032 9 809968 9 789836 9 810164 10 10 0 0 0 007420 0 007420 0 007420 0 007420 10 10 Neg FS 9 8 9 809968 9 790032 9 810164 9 789836 5 9 Pos FS 4 9 4 895456 4 904544 4 895358 4 904642 5 5 0 0 0 003760 0 003760 0 003760 0 003760 5 5 Neg FS 4 9 4 904544 4 895456 4 904642 4 895358 2 2 Pos FS 1 96 1 957834 1 962166 1 957795 1 962205 2 2 0 0 0 001460 0 001460 0 001460 0 001460 2 2 Neg FS 1 96 1 962166 1 957834 1 962205 1 957795 1 1 Pos FS 0 98 0 978809 0 981191 0 978789 0 981211 BNPIIOS VOREIAIEI SALAS X S N 3 8 OL wog u Table 61 NI 6115 Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 1 1 0 0 0 000
4. uone10d107 suawndgsuj jeuoney 68 BNPIIOS UOHEIQ E SALAS X S N I 4 Table 82 NI 6351 6353 Analog Input Values Continued Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 2 0 2 Pos FS 0 199600 0 199558 0 199642 0 199550 0 199650 0 2 0 2 0 000000 0 000000 0 000026 0 000026 0 000026 0 000026 0 2 0 2 Neg FS 0 199600 0 199642 0 199558 0 199650 0 199550 0 1 0 1 Pos FS 0 099800 0 099772 0 099828 0 099768 0 099832 0 1 0 1 0 000000 0 000000 0 000019 0 000019 0 000019 0 000019 0 1 0 1 Neg FS 0 099800 0 099828 0 099772 0 099832 0 099768 Table 83 NI 6351 6353 Analog Output Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978481 9 981519 9 978112 9 981888 10 10 0 000000 0 000000 0 000990 0 000990 0 000990 0 000990 10 10 Neg FS 9 980000 9 981519 9 978481 9 981888 9 978112 5 5 Pos FS 4 990000 4 989251 4 990749 4 989066 4 990934 5 5 0 000000 0 000000 0 000495 0 000495 0 000495 0 000495 5 5 Neg FS 4 990000 4 990749 4 989251 4 990934 4 989066 BNPIIOS VOREIAIEI SALAS X S N 3 8 ve wog u Table 84 NI 6351 6353 Counter Values Set Point
5. BNPIIOS VOREIAIEI SALAS X S N 3 8 8c wog u Table 9 NI 6014 6015 6016 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8 9 795069 9 804931 9 794236 9 805764 10 10 0 0 0 002461 0 002461 0 002461 0 002461 10 10 Neg FS 9 8 9 804931 9 795069 9 805764 9 794236 Table 10 NI 6013 6014 6015 6016 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 sjuawmnysu jeuoney 6c BNPIIOS UOHEIQ E SALAS X S N I 4 E Series Test Limits NI 6011E 16 Bit Resolution Tables 11 through 13 include values for the NI 6011E PCI MIO 16XE 50 Table 11 NI 6011E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 98 9 978978 9 981022 9 978559 9 981441 10 10 0 0 0 000443 0 000443 0 000443 0 000443 10 10 Neg FS 9 98 9 981022 9 978978 9 981441 9 978559 5 5 Pos FS 4 99 4 988739 4 991261 4 988529 4 991471 5 5 0 0 0 000224 0 000224 0 000224 0 000224 5 5 Neg FS 4 99 4 991261 4 988739 4 991471 4 988529 1 1 Pos FS 0 998 0 997745 0 998255 0 997703 0
6. Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 uone10d107 sjuawnysu jeuoney Z9 BNPIIOS UOHEIQ E SALAS X S N I 4 S Series Test Limits NI 6110 6111 12 Bit Resolution Tables 58 through 60 include values for the PCI 6110 and PCI 6111 Table 58 NI 6110 6111 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 42 42 Pos FS 41 58 41 3301 41 8299 41 3294 41 8306 42 42 0 0 0 0391 0 0391 0 0391 0 0391 42 42 Neg FS 41 58 41 8299 41 3301 41 8306 41 3294 20 20 Pos FS 19 8 19 6780 19 9220 19 6776 19 9224 20 20 0 0 0 0216 0 0216 0 0216 0 0216 20 20 Neg FS 19 8 19 9220 19 6780 19 9224 19 6776 10 10 Pos FS 9 9 9 8828 9 9172 9 8826 9 9174 10 10 0 0 0 0066 0 0066 0 0066 0 0066 10 10 Neg FS 9 9 9 9172 9 8828 9 9174 9 8826 5 5 Pos FS 4 95 4 94376 4 95624 4 94368 4 95632 5 5 0 0 0 00341 0 00341 0 00341 0 00341 5 5 Neg FS 4 95 4 95624 4 94376 4 95632 4 94368 2 2 Pos FS 1 95 1 94744 1 95256 1 94741 1 95259 2 2 0 0 0 00145 0 00145 0 00145 0 00145 2 2 Neg FS 1 95 1 95256 1 94744 1 95259 1 94741 BNPIIOSA VOREIAIEI SALAS X S N 3 8 89 wo9 u Table 58 NI 6110 6111 Analog Input Values Continued
7. 13 B E M X Series MIO Devices Repeat steps 4 through 12 until all values have been verified on NI 60xx 60xxE 62xx 632x 634x 6351 6353 6361 6363 devices S X Series Simultaneous MIO Devices Repeat steps 4 through 12 for all channels and all values on NI 61xx 6356 6358 6366 6368 devices B E M S X Series Calibration Procedure 14 ni com 14 Disconnect the calibrator from the device You have finished verifying the analog input levels on your device Analog Output Verification This procedure checks the performance of all analog output channels Most B E M S X Series devices have two analog outputs AO 0 and AO 1 Some M X Series devices have four analog outputs two on each connector Skip this step if the device you are calibrating does not have analog output circuitry N Note The test limits used in this document assume a maximum temperature drift of 10 C from the last external calibration and a maximum temperature drift of 1 C from the last self calibration Refer to the Calibration Procedure section for more information and instructions on reading your device temperature and comparing it against the device temperature during the last external calibration Complete the following steps to check analog output measurements Connect your DMM to AO 0 as shown in Table 3 1 NG Note NI USB 6215 6216 6218 Devices For isolated devices you must also connect AO GND to a quiet earth ground reference or the ground refer
8. 0 2 0 0 0098 0 009689 0 009911 0 009688 0 009912 0 1 Pos FS 0 98 0 979547 0 980453 0 979530 0 980470 0 1 0 0 0098 0 009739 0 009861 0 009739 0 009861 0 0 5 Pos FS 0 49 0 489746 0 490254 0 489738 0 490262 0 0 5 0 0 0098 0 009764 0 009836 0 009764 0 009836 uone10d107 sjuawnysu jeuoney Lv BNPIIOS UOHEIQ E SALAS X S N I 4 Table 33 NI 6052E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 0 2 Pos FS 0 196 0 195895 0 196105 0 195891 0 196109 0 0 2 0 0 0098 0 009779 0 009821 0 009779 0 009821 0 0 1 Pos FS 0 098 0 097944 0 098056 0 097942 0 098058 0 0 1 0 0 0098 0 009784 0 009816 0 009784 0 009816 Table 34 NI 6052E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8000000 9 798771 9 801229 9 798604 9 801396 10 10 0 0 0000000 0 000798 0 000798 0 000798 0 000798 10 10 Neg FS 9 8000000 9 801229 9 798771 9 801396 9 798604 0 10 Pos FS 9 8000000 9 799000 9 801000 9 798833 9 801167 0 10 0 0 0098000 0 009231 0 010369 0 009230 0 010370 Table 35 NI 6052E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950
9. 9 978857 5 5 Pos FS 4 99 4 988012 4 991988 4 987928 4 992072 5 5 0 0 0 000271 0 000271 0 000271 0 000271 5 5 Neg FS 4 99 4 991988 4 988012 4 992072 4 987928 2 2 Pos FS 1 996 1 995200 1 996800 1 995166 1 996834 2 2 0 0 0 000113 0 000113 0 000113 0 000113 2 2 Neg FS 1 996 1 996800 1 995200 1 996834 1 995166 1 1 Pos FS 0 998 0 997596 0 998404 0 997579 0 998421 1 1 0 0 0 000061 0 000061 0 000061 0 000061 1 1 Neg FS 0 998 0 998404 0 997596 0 998421 0 997579 0 5 0 5 Pos FS 0 499 0 498794 0 499206 0 498785 0 499215 0 5 0 5 0 0 0 000035 0 000035 0 000035 0 000035 0 5 0 5 Neg FS 0 499 0 499206 0 498794 0 499215 0 498785 Table 20 NI 6030E 6031E 6032E 6033E Analog Input Values Continued BNPIIOS VOREIAIEI SALAS X S N 3 8 96 wo9 u Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 2 0 2 Pos FS 0 1996 0 199502 0 199698 0 199499 0 199701 0 2 0 2 0 0 0 000019 0 000019 0 000019 0 000019 02 0 2 Neg FS 0 1996 0 199698 0 199502 0 199701 0 199499 0 1 0 1 Pos FS 0 0998 0 099741 0 099859 0 099739 0 099861 0 1 0 1 0 0 0 000015 0 000015 0 000015 0 000015 0 1 0 1 Neg FS 0 0998 0 099859 0 099741 0 099861 0 099739 0 10 Pos FS 9 98 9 979198 9 980802 9 979028 9 980972 0 10 0 0 02 0 019636 0 020364 0 019
10. If unshielded cables or accessories are used the EMC specifications are no longer guaranteed unless all unshielded cables and or accessories are installed in a shielded enclosure with properly designed and shielded input output ports Table 1 Recommended Equipment Equipment Recommended Model Requirements Calibrator Fluke 5700A If this instrument is unavailable use a high precision voltage source that is at least 50 ppm 0 005 accurate for 12 bit devices and 10 ppm 0 001 accurate for 14 16 and 18 bit devices DMM NI 4070 If this instrument is unavailable use a multiranging 6 1 2 digit DMM with an accuracy of 40 ppm B E M S X Series Calibration Procedure ni com Table 1 Recommended Equipment Continued NI PXI 1042Q Equipment Recommended Model Requirements Counter Agilent 53131A If this instrument is unavailable use a counter accurate to 0 01 PXI chassis NI PXI 1042 Use with PXI modules PXI Express chassis NI PXIe 1062Q Use with PXI Express modules Low thermal copper EMF plug in cable Fluke 5440A 7002 Do not use standard banana cables hardware adapter Shielded DAQ cable NI SH68 68 EP Use with B E M S Series devices with 68 pin SCSI II NI SH68 68 EPM connectors NI SHC68 68 EP Use with E M S X Series devices with 68 pin VHDCI NI SHC68 68 EPM connectors NI SHC68 68 NI SH1006868 Use with E Series devices with 100 pin connector
11. based on calibrator output from step 2 B E M S X Series Calibration Procedure 22 ni com 5 Save the adjustment to the EEPROM using the DAQmx Close External Calibration VI This VI also saves the date time and temperature of the adjustment to the onboard memory NG Note If an error occurs during adjustment no constants will be written to the EEPROM LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxCloseExtCal with the following parameters calHandle calHandle action DAQmx Val Action Commit 6 Disconnect the calibrator from the device The device is now calibrated with respect to your external source After calibrating the device you may want to verify the analog input and output operation To do this repeat the Verification Procedure section Test Limits The tables in this section list the specifications for B E M S X Series devices The specifications are divided into analog input analog output and counter timer tables of values The following definitions describe how to use the information from the tables in this section e Range Range refers to the maximum allowable voltage range of an input or output signal e Test Point The Test Point is the voltage value that is input or output for verification purposes This value is broken down into two columns Location and Value Location refers to where the test value fits within the test range Value refers to the vo
12. 0 2 0 2 Pos FS 0 199600 0 199565 0 199635 0 199558 0 199642 0 2 0 2 0 0 000000 0 000021 0 000021 0 000021 0 000021 0 2 0 2 Neg FS 0 199600 0 199635 0 199565 0 199642 0 199558 0 1 0 1 Pos FS 0 099800 0 099773 0 099827 0 099769 0 099831 0 1 0 1 0 0 000000 0 000016 0 000016 0 000016 0 000016 0 1 0 1 Neg FS 0 099800 0 099827 0 099773 0 099831 0 099769 BNPIIOS VOREIAIEI SALAS X S N 3 8 99 wog iu Table 56 NI 6281 6289 Analog Output Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978831 9 981169 9 978462 9 981538 10 10 0 0 000000 0 000740 0 000740 0 000740 0 000740 10 10 Neg FS 9 980000 9 981169 9 978831 9 981538 9 978462 5 5 Pos FS 4 990000 4 989365 4 990635 4 989181 4 990819 5 5 0 0 000000 0 000395 0 000395 0 000395 0 000395 5 5 Neg FS 4 990000 4 990635 4 989365 4 990819 4 989181 2 2 Pos FS 1 996000 1 995670 1 996330 1 995596 1 996404 2 2 0 0 000000 0 000204 0 000204 0 000204 0 000204 2 2 Neg FS 1 996000 1 996330 1 995670 1 996404 1 995596 1 1 Pos FS 0 998000 0 997778 0 998222 0 997741 0 998259 1 1 0 0 000000 0 000139 0 000139 0 000139 0 000139 1 1 Neg FS 0 998000 0 998222 0 997778 0 998259 0 997741 Table 57 NI 6280 6281 6284 6289 Counter Values
13. 048882 0 049118 0 05 0 05 0 0 000 0 000073 0 000073 0 000073 0 000073 0 05 0 05 Neg FS 0 049 0 049116 0 048884 0 049118 0 048882 BNPIIOS VOREIAIEI SALAS X S N 3 8 ve wog iu Table 18 NI DAQCard 6024E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8000000 9 789895 9 810105 9 789484 9 810516 10 10 0 0 0000000 0 008370 0 008370 0 008370 0 008370 10 10 Neg FS 9 8000000 9 810105 9 789895 9 810516 9 789484 Table 19 NI DAQCard 6024E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 sjuawnysu jeuoney GE BNPIIOS UOHEIQ E SALAS X S N I 4 NI 6030E 6031E 6032E 6033E 16 Bit Resolution Tables 20 through 22 include values for the PCI 6030E PCI MIO 16XE 10 PX1 6030E PCI 6031E PXI 603 1E PCI 6032E and PCI 6033E Table 20 NI 6030E 6031E 6032E 6033E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 98 9 979027 9 980973 9 978857 9 981143 10 10 0 0 0 000534 0 000534 0 000534 0 000534 10 10 Neg FS 9 98 9 980973 9 979027 9 981143
14. 24989 0 24911 0 24990 0 24910 0 1 0 1 Pos FS 0 099800 0 09963 0 09997 0 09962 0 09998 0 1 0 1 0 0 000000 0 00011 0 00011 0 00011 0 00011 0 1 0 1 Neg FS 0 099800 0 09997 0 09963 0 09998 0 09962 0 05 0 05 Pos FS 0 049900 0 04980 0 05000 0 04980 0 05000 0 05 0 05 0 0 000000 0 00006 0 00006 0 00006 0 00006 0 05 0 05 Neg FS 0 049900 0 05000 0 04980 0 05000 0 04980 0 10 Pos FS 9 980000 9 97316 9 98684 9 97274 9 98726 0 10 0 0 020000 0 01587 0 02413 0 01587 0 02413 0 5 Pos FS 4 990000 4 98458 4 99542 4 98437 4 99563 0 5 0 0 010000 0 00792 0 01208 0 00792 0 01208 0 2 Pos FS 1 996000 1 99382 1 99818 1 99373 1 99827 0 2 0 0 004000 0 00316 0 00484 0 00316 0 00484 0 1 Pos FS 0 998000 0 99690 0 99910 0 99686 0 99914 0 1 0 0 002000 0 00157 0 00243 0 00157 0 00243 0 0 5 Pos FS 0 499000 0 49844 0 49956 0 49842 0 49958 0 0 5 0 0 001000 0 00077 0 00123 0 00077 0 00123 BNPIIOS VOREIAINEI SALAS X S N 3 8 bb wog iu Table 30 NI 6040E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 0 2 Pos FS 0 199600 0 199361 0 199839 0 199352 0 199848 0 0 2 0 0 000400 0 000295 0 000505 0 000295 0 000505 0 0 1 Pos FS 0 099800 0 099669 0 099931 0 099665 0 099935 0 0 01 0 0 000200 0 000136 0 000264
15. 5 00050 BNPIIOSA VOREIAIEI SALAS X S N 3 8 8b wo91u NI DAQCard 6062E 12 Bit Resolution Tables 36 through 38 include values for the DAQCard 6062E Table 36 NI DAQCard 6062E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 80000 9 7802 9 8198 9 7797 9 8203 10 10 0 0 000000 0 0108 0 0108 0 0108 0 0108 10 10 Neg FS 9 80000 9 8198 9 7802 9 8203 9 7797 5 5 Pos FS 4 900000 4 9826 4 9074 4 8924 4 9076 5 5 0 0 000000 0 0054 0 0054 0 0054 0 0054 5 5 Neg FS 4 900000 4 9074 4 8926 4 9076 4 8924 2 5 2 5 Pos FS 2 450000 2 44503 2 45497 2 44492 2 45508 2 5 2 5 0 0 000000 0 00271 0 00271 0 00271 0 00271 2 5 2 5 Neg FS 2 450000 2 45497 2 44503 2 45508 2 44492 1 1 Pos FS 0 980000 0 977997 0 982003 0 977956 0 982044 1 1 0 0 000000 0 001099 0 001099 0 001099 0 001099 1 1 Neg FS 0 980000 0 982003 0 977997 0 982044 0 977956 0 5 0 5 Pos FS 0 490000 0 4890 0 4910 0 4890 0 4910 0 5 0 5 0 0 000000 0 0006 0 0006 0 0006 0 0006 0 5 0 5 Neg FS 0 490000 0 49051 0 48949 0 49053 0 48947 0 25 0 25 Pos FS 0 245000 0 2445 0 2455 0 2445 0 2455 Table 36 NI DAQCard 6062E Analog Input Values Continued uone10d107 suawndgsuj jeuoney 6t BNPIIOS VOREIAIIEI SALAS
16. 5 Pos FS 4 990000 4 986244 4 993756 4 984623 4 995377 5 5 0 000000 0 000000 0 001615 0 001615 0 001615 0 001615 5 5 Neg FS 4 990000 4 993756 4 986244 4 995377 4 984623 Table 7 NI 6010 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 uone10d107 sjuawnysu jeuoney 16 BNPIIOS UOHEIQ E SALAS X S N I 4 NI 6013 6014 6015 6016 16 Bit Resolution Tables 8 through 10 include values for the PCI 6013 analog input only PCI 6014 DAQPad 6015 and DAQPad 6016 Table 8 NI 6013 6014 6015 6016 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8 9 791572 9 808428 9 791160 9 808840 10 10 0 0 0 001980 0 001980 0 001980 0 001980 10 10 Neg FS 9 8 9 808428 9 791572 9 808840 9 791160 5 5 Pos FS 4 9 4 898225 4 901776 4 898019 4 901981 5 5 0 0 0 001001 0 001001 0 001001 0 001001 5 5 Neg FS 4 9 4 901776 4 898225 4 901981 4 898019 0 5 0 5 Pos FS 0 49 0 489557 0 490443 0 489536 0 490464 0 5 0 5 0 0 0 000121 0 000121 0 000121 0 000121 0 5 0 5 Neg FS 0 49 0 490443 0 489557 0 490464 0 489536 0 05 0 05 Pos FS 0 049 0 048933 0 049067 0 048931 0 049069 0 05 0 05 0 0 0 000034 0 000034 0 000034 0 000034 0 05 0 05 Neg FS 0 049 0 049067 0 048933 0 049069 0 048931
17. 998297 1 1 0 0 0 000048 0 000048 0 000048 0 000048 1 1 Neg FS 0 998 0 998255 0 997745 0 998297 0 997703 0 1 0 1 Pos FS 0 0998 0 099751 0 099849 0 099746 0 099854 0 1 0 1 0 0 0 000009 0 000009 0 000009 0 000009 0 1 0 1 Neg FS 0 0998 0 099849 0 099751 0 099854 0 099746 0 10 Pos FS 9 98 9 979154 9 980846 9 978735 9 981266 0 10 0 0 02 0 019731 0 020269 0 019731 0 020270 0 5 Pos FS 4 99 4 988826 4 991174 4 988617 4 991383 BNPIIOS VOREIAIEI SALAS X S N 3 8 08 wog iu Table 11 NI 6011E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 5 0 0 01 0 009862 0 010138 0 009862 0 010138 0 1 Pos FS 0 998 0 997762 0 998238 0 997720 0 998280 0 1 0 0 002 0 001969 0 002031 0 001969 0 002031 0 0 1 Pos FS 0 0998 0 099752 0 099848 0 099748 0 099852 0 0 1 0 0 0002 0 000193 0 000207 0 000193 0 000207 Table 12 NI 6011E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 9800000 9 973195 9 986805 9 972796 9 987204 10 10 0 0 0000000 0 005408 0 005408 0 005408 0 005408 10 10 Neg FS 9 9800000 9 986805 9 973195 9 987204 9 972796
18. Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 BNPIIOS VOREIAIEI SALAS X S N 3 8 c8 wog u NI 6351 6353 16 Bit Resolution Tables 82 through 84 include values for the NI PCIe 6351 NI USB 6351 NI PCIe 6353 and NI USB 6353 X Series MIO devices Table 82 NI 6351 6353 Analog Input Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978852 9 981148 9 978483 9 981517 10 10 0 000000 0 000000 0 000808 0 000808 0 000808 0 000808 10 10 Neg FS 9 980000 9 981148 9 978852 9 981517 9 978483 5 5 Pos FS 4 990000 4 989391 4 990609 4 989207 4 990793 5 5 0 000000 0 000000 0 000404 0 000404 0 000404 0 000404 5 5 Neg FS 4 990000 4 990609 4 989391 4 990793 4 989207 2 2 Pos FS 1 996000 1 995750 1 996250 1 995677 1 996323 2 2 0 000000 0 000000 0 000168 0 000168 0 000168 0 000168 2 2 Neg FS 1 996000 1 996250 1 995750 1 996323 1 995677 1 1 Pos FS 0 998000 0 997858 0 998142 0 997821 0 998179 1 1 0 000000 0 000000 0 000091 0 000091 0 000091 0 000091 1 1 Neg FS 0 998000 0 998142 0 997858 0 998179 0 997821 0 5 0 5 Pos FS 0 499000 0 498924 0 499076 0 498905 0 499095 0 5 0 5 0 000000 0 000000 0 000049 0 000049 0 000049 0 000049 0 5 0 5 Neg FS 0 499000 0 499076 0 498924 0 499095 0 498905
19. M S X Series Calibration Procedure Test Conditions Follow these guidelines to optimize the connections and the environment during calibration Keep connections to the device as short as possible Long cables and wires can act as antennae which could pick up extra noise that would affect measurements Use shielded copper wire for all cable connections to the device Use twisted pair wire to eliminate noise and thermal offsets Maintain the ambient temperature between 18 and 28 C The device temperature will be greater than the ambient temperature Refer to the Calibration Procedure section for more information about calibration temperatures and temperature drift For valid test limits maintain the device temperature within 1 C from the last self calibration and 10 C from the last external calibration Keep relative humidity below 80 Allow adequate warm up time generally between 15 and 30 minutes for most DAQ devices to ensure that the measurement circuitry is at a stable operating temperature Refer to your DAQ device specifications document for the recommended warm up time for your device Calibration Procedure The calibration process has six steps 1 sa Bi B E M S X Series Calibration Procedure Initial Setup Configure your device in NI DAQmx Self Calibration Adjust the self calibration constants of the device Checking Device Temperature Changes Verify that the current device temperatur
20. MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 uone10d107 sjuawnysu jeuoney 58 BNPIIOS UOHPIGIED SALAS X S N I 4 NI USB 6366 and NI PXIe 6368 X Series simultaneous MIO devices NI 6356 6358 6366 6368 16 Bit Resolution Tables 85 through 87 include values for the NI PXIe 6356 NI USB 6356 NI PXIe 6358 NI PXIe 6366 Table 85 NI 6356 6358 6366 6368 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978404 9 981596 9 977506 9 982495 10 10 0 000000 0 000000 0 000968 0 000968 0 000968 0 000968 10 10 Neg FS 9 980000 9 981596 9 978404 9 982495 9 977506 5 5 Pos FS 4 990000 4 989162 4 990838 4 988713 4 991287 5 5 0 000000 0 000000 0 000489 0 000489 0 000489 0 000489 5 5 Neg FS 4 990000 4 990838 4 989162 4 991287 4 988713 2 2 Pos FS 1 996000 1 995652 1 996348 1 995473 1 996527 2 2 0 000000 0 000000 0 000208 0 000208 0 000208 0 000208 2 2 Neg FS 1 996000 1 996348 1 995652 1 996527 1 995473 1 1 Pos FS 0 998000 0 997799 0 998201 0 997710 0 998290 1 1 0 000000 0 000000 0 000113 0 000113 0 000113 0 000113 1 1 Neg FS 0 998000 0 998201 0 997799 0 998290 0 997710 BNPIIOS VOREIAIEI SALAS X S N 3 8 98 wog iu Table 8
21. 0 000000 0 000494 0 000494 0 000494 0 000494 5 5 Neg FS 4 990000 4 990690 4 989310 4 991139 4 988861 1 1 Pos FS 0 998000 0 997840 0 998160 0 997750 0 998250 1 1 0 000000 0 000000 0 000115 0 000115 0 000115 0 000115 1 1 Neg FS 0 998000 0 998160 0 997840 0 998250 0 997750 0 2 0 2 Pos FS 0 199600 0 199549 0 199651 0 199531 0 199669 0 2 0 2 0 000000 0 000000 0 000036 0 000036 0 000036 0 000036 0 2 0 2 Neg FS 0 199600 0 199651 0 199549 0 199669 0 199531 uone10d107 sjuawnysul jeuoney 6 BNPIIOS VOREIAIIEI SALAS X S N I 4 Table 77 NI 6321 6323 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977630 9 982370 9 976732 9 983268 10 10 0 000000 0 000000 0 001858 0 001858 0 001858 0 001858 10 10 Neg FS 9 980000 9 982370 9 977630 9 983268 9 976732 Table 78 NI 6320 6321 6323 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 BNPIIOS VOREIAIEI SALAS X S N 3 8 08 wog iu NI 634x 16 Bit Resolution Tables 79 through 81 include values for the NI PCIe 6341 NI PXIe 6341 NI USB 6341 NI PCIe 6343 and NI USB 6343 X Series MIO devices Table 79 NI 6341 6343 Analog Input Values Range V Test Point 24 Ho
22. 0 000136 0 000264 Table 31 NI 6040E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 98 9 972304 9 987696 9 971884 9 988116 10 10 0 0 0 005930 0 005930 0 005930 0 005930 10 10 Neg FS 9 98 9 987696 9 972304 9 988116 9 971884 0 10 Pos FS 9 98 9 974744 9 985256 9 974324 9 985676 0 10 0 0 02 0 016506 0 023494 0 016506 0 023494 Table 32 NI 6040E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 sjuawnysul jeuoney Gb BNPIIOS VOREIAIIEI SALAS X S N I 4 Tables 33 through 35 include values for the PCI 6052E and PXI 6052E NI 6052E 16 Bit Resolution Table 33 NI 6052E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 800 9 7955 9 8045 9 7953 9 8047 10 10 0 0 00 0 0010 0 0010 0 0010 0 0010 10 10 Neg FS 9 800 9 8045 9 7955 9 8047 9 7953 5 5 Pos FS 4 900 4 8992 4 9008 4 8991 4 9009 5 5 0 0 000 0 0005 0 0005 0 0005 0 0005 5 5 Neg FS 4 900 4 9008 4 8992 4 9009 4 8991 2 5 2 5 Pos FS 2 450 2 44887 2 45113 2 44883 2 45117 2 5 2 5 0 0 000 0 00026 0 00026 0 00026 0 00026 2 5 2 5 Neg FS 2 4
23. 0 1 Neg FS 0 099800 0 099829 0 099771 0 099833 0 099767 Table 89 NI 6361 6363 Analog Output Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978481 9 981519 9 978112 9 981888 10 10 0 000000 0 000000 0 000990 0 000990 0 000990 0 000990 10 10 Neg FS 9 980000 9 981519 9 978481 9 981888 9 978112 5 5 Pos FS 4 990000 4 989251 4 990749 4 989066 4 990934 5 5 0 000000 0 000000 0 000495 0 000495 0 000495 0 000495 5 5 Neg FS 4 990000 4 990749 4 989251 4 990934 4 989066 Table 90 NI 6361 6363 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 CVI National Instruments NI ni com and LabVIEW are trademarks of National Instruments Refer to the Terms of Use section on ni com legal for more information about National Instruments trademarks The mark LabWindows is used under a license from Microsoft Corporation Windows is a registered trademark of Microsoft Corporation in the United States and other countries Other product and company names listed are trademarks or trade names of their respective companies For patents covering National Instruments products technology refer to the appropriate location Help Patents in your software the patents txt file on your media or the National Instruments Patent Notice at ni com patents 2004 2
24. 0 10 Pos FS 9 980000 9 978291 9 981709 9 977922 9 982078 10 10 0 0 000000 0 001060 0 001060 0 001060 0 001060 10 10 Neg FS 9 980000 9 981709 9 978291 9 982078 9 977922 5 5 Pos FS 4 990000 4 989141 4 990859 4 988956 4 991044 5 5 0 0 000000 0 000530 0 000530 0 000530 0 000530 5 5 Neg FS 4 990000 4 990859 4 989141 4 991044 4 988956 BNPIIOS VOREIAINEI SALAS X S N 3 8 c9 wog iu Table 53 NI 6250 6251 6254 6255 6259 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 uone10d107 sjuawnysu jeuoney amp 9 BNPIIOS UOHEIQ E SALAS X S N F 4 NI 6280 6281 6284 6289 18 Bit Resolution Tables 54 through 57 include values for the PCI 6280 analog input only PX1 6280 analog input only PCI 6281 PXI 6281 all USB 6281 variants PCI 6284 analog input only PXI 6284 analog input only PCI 6289 PXI 6289 and all USB 6289 variants Table 54 NI 6280 6281 6284 6289 Analog Input Values Filter On Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 979393 9 980607 9 979023 9 980977 10 10 0 0 000000 0 000308 0 000308 0 000308 0 000308 10 10 Neg FS 9 980000 9 980607 9 979393 9 980977 9 979023 5 5 Pos FS 4 990000 4 989671 4 990329 4 9
25. 0 10 Pos FS 9 9800000 9 975637 9 984363 9 975238 9 984762 0 10 0 0 0200000 0 017031 0 022969 0 017030 0 022970 Table 13 NI 6011E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 sjuawnysu jeuoney LE BNPIIOS UOHEIQ E SALAS X S N I 4 and PXI 6025E NI 6023E 6024E 6025E 12 Bit Resolution Tables 14 through 16 include values for the PCI 6023E analog input only PCI 6024E PCI 6025E Table 14 NI 6023E 6024E 6025E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 800 9 7841 9 8159 9 7837 9 8163 10 10 0 0 000 0 0074 0 0074 0 0074 0 0074 10 10 Neg FS 9 800 9 8159 9 7841 9 8163 9 7837 5 5 Pos FS 4 900 4 8950 4 9050 4 8948 4 9052 5 5 0 0 000 0 0037 0 0037 0 0037 0 0037 5 5 Neg FS 4 900 4 9050 4 8950 4 9052 4 8948 0 5 0 5 Pos FS 0 490 0 48918 0 49082 0 48916 0 49084 0 5 0 5 0 0 000 0 00039 0 00039 0 00039 0 00039 0 5 0 5 Neg FS 0 490 0 49082 0 48918 0 49084 0 48916 0 05 0 05 Pos FS 0 049 0 048897 0 049103 0 048895 0 049105 0 05 0 05 0 0 000 0 000060 0 000060 0 000060 0 000060 0 05 0 05 Neg FS 0 049 0 049103 0 048897 0 049105 0 048895 BNPIIOS VOREIAIEI SALAS X S N 3 8 ce wo9 u Table 15 NI 6024E 6025E Analog O
26. 000098 0 000098 0 000098 0 000098 0 2 0 2 Neg FS 0 196 0 196339 0 195661 0 196342 0 195658 Table 65 NI 6120 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8 9 793128 9 806872 9 792961 9 807039 10 10 0 0 0 001864 0 001864 0 001864 0 001864 10 10 Neg FS 9 8 9 806872 9 793128 9 807039 9 792961 Table 66 NI 6120 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 suswndgsuj jeuoney 61 BNPIIOS UOHEIQ E SALAS X S N I 4 NI 6122 6123 16 Bit Resolution Tables 67 and 68 include values for the PCI 6122 PXI 6122 PCI 6123 and PXI 6123 analog input only Table 67 NI 6122 6123 Analog Input Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 95 9 945926 9 954074 9 945647 9 954353 10 10 0 0 0 002880 0 002880 0 002880 0 002880 10 10 Neg FS 9 95 9 954074 9 945926 9 954353 9 945647 5 5 Pos FS 4 95 4 947896 4 952104 4 947757 4 952243 5 5 0 0 0 001510 0 001510 0 001510 0 001510 5 5 Neg FS 4 95 4 952104 4 947896 4 952243 4 947757 2 5 2 5 Pos FS 2 45 2 448836 2 451164 2 448768 2 451232 2 5 2 5 0 0 0 000
27. 006 0 00006 0 00006 0 00006 0 05 0 05 Neg FS 0 049900 0 04999 0 04981 0 04999 0 04981 0 10 Pos FS 9 980000 9 97366 9 98634 9 97324 9 98676 0 10 0 0 020000 0 01637 0 02363 0 01637 0 02363 0 5 Pos FS 4 990000 4 98483 4 99517 4 98462 4 99538 0 5 0 0 010000 0 00817 0 01183 0 00817 0 01183 0 2 Pos FS 1 996000 1 99392 1 99808 1 99384 1 99816 0 2 0 0 004000 0 00326 0 00474 0 00326 0 00474 0 1 Pos FS 0 998000 0 99695 0 99905 0 99691 0 99909 0 1 0 0 002000 0 00162 0 00238 0 00162 0 00238 0 0 5 Pos FS 0 499000 0 49846 0 49954 0 49844 0 49956 uone10d107 suawndgsuj jeuoney EG BNPIIOS VOREIAIIEI SALAS X S N I 4 Table 39 NI 6070E 6071E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 0 5 0 0 001000 0 00080 0 00120 0 00080 0 00120 0 0 2 Pos FS 0 199600 0 199374 0 199826 0 199365 0 199835 0 0 2 0 0 000400 0 000308 0 000492 0 000308 0 000492 0 0 1 Pos FS 0 099800 0 099677 0 099923 0 099673 0 099927 0 0 1 0 0 000200 0 000144 0 000256 0 000144 0 000256 Table 40 NI 6070E 6071E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 98 9
28. 010 National Instruments Corporation All rights reserved 370937K 01 Aug10
29. 016 16 Bit Resolution 27 7 NATIONAL p INSTRUMENTS E Series Test LUMISAN NANANA ANNA sau 29 NI 601 1E 16 Bit Resolution ursuesersensensennennennennenennen 29 NI 6023E 6024E 6025E 12 Bit Resolution 31 NI DAQCard 6024E 12 Bit Resolution 33 NI 6030E 603 1 E 6032E 6033E 16 Bit Resolution 35 NI 6034E 6035E 6036E 16 Bit Resolution 38 NI DAQCard 6036E 16 Bit Resolution eee 40 NI 6040E 12 Bit Resolution ursuesensensensennennennennenennnn 42 NI 6052E 16 Bit Resolution ursu2sessensensennennennennenennnn 45 NI DAQCard 6062E 12 Bit Resolution nesesersernennen 48 NI 6070E 607 1E 12 Bit Resolution nseessesserssennernnenn 51 M Series Test Limits usa ee 54 NI USB 6210 6211 6215 6218 16 Bit Resolution 54 NI USB 6212 6216 16 Bit Resolution eee 56 NI 6220 6221 6224 6225 6229 16 Bit Resolution 58 NI 6250 625 1 6254 6255 6259 16 Bit Resolution 60 NI 6280 628 1 6284 6289 18 Bit Resolution 63 S Series Test GAPAN 67 NI 6110 6111 12 Bit Resolution seeeeenenenen 67 NI 6115 12 Bit Resolution 00 eee eeeeseeeeeeeeseeeeeeees 69 NI 6120 16 Bit Resolution 00 0 eeeeseeeeeeeteeeeeeeees 71 NI 6122 6123 16 Bit Resolution 22eeennnenneneenen 73 N
30. 1 996411 2 2 0 0 000000 0 000225 0 000225 0 000225 0 000225 2 2 Neg FS 1 996000 1 996337 1 995663 1 996411 1 995589 1 1 Pos FS 0 998000 0 997818 0 998182 0 997781 0 998219 1 1 0 0 000000 0 000117 0 000117 0 000117 0 000117 1 1 Neg FS 0 998000 0 998182 0 997818 0 998219 0 997781 0 5 0 5 Pos FS 0 499000 0 498889 0 499111 0 498870 0 499130 0 5 0 5 0 0 000000 0 000073 0 000073 0 000073 0 000073 wo9 u uone10d107 suawndgsuj jeuoney 19 BNPIIOS VOREIAIIEI SALAS X S N I 4 Table 51 NI 6250 6251 6254 6255 6259 Analog Input Values Continued Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 5 0 5 Neg FS 0 499000 0 499111 0 498889 0 499130 0 498870 0 2 0 2 Pos FS 0 199600 0 199533 0 199667 0 199526 0 199674 0 2 0 2 0 0 000000 0 000044 0 000044 0 000044 0 000044 0 2 0 2 Neg FS 0 199600 0 199667 0 199533 0 199674 0 199526 0 1 0 1 Pos FS 0 099800 0 099752 0 099848 0 099748 0 099852 0 1 0 1 0 0 000000 0 000035 0 000035 0 000035 0 000035 0 1 0 1 Neg FS 0 099800 0 099848 0 099752 0 099852 0 099748 Table 52 NI 6251 6255 6259 Analog Output Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 1
31. 18 9 9086 9 8914 5 9 Pos FS 4 950 4 9479 4 9521 4 9477 4 9523 5 5 0 0 000 0 0014 0 0014 0 0014 0 0014 5 5 Neg FS 4 950 4 9521 4 9479 4 9523 4 9477 0 5 0 5 Pos FS 0 495 0 49457 0 49543 0 49455 0 49545 0 5 0 5 0 0 000 0 00016 0 00016 0 00016 0 00016 0 5 0 5 Neg FS 0 495 0 49543 0 49457 0 49545 0 49455 0 05 0 05 Pos FS 0 0495 0 049436 0 049564 0 049434 0 049566 0 05 0 05 0 0 000 0 000037 0 000037 0 000037 0 000037 0 05 0 05 Neg FS 0 0495 0 049564 0 049436 0 049566 0 049434 uone10d107 sjuawnysul jeuoney ib BNPIIOS VOREIAIIEI SALAS X S N I 4 Table 28 NI DAQCard 6036E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 9000000 9 897879 9 902121 9 897463 9 902537 10 10 0 0 0000000 0 001220 0 001220 0 001220 0 001220 10 10 Neg FS 9 9000000 9 902121 9 897879 9 902537 9 897463 Table 29 NI DAQCard 6036E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 BNPIIOS VOREIAINEI SALAS X S N 3 8 cv wog u NI 6040E 12 Bit Resolution Tables 30 through 32 include values for the PCI MIO 16E 4 and PXI 6040E Table 30 NI 6040E Analog Input Values Range V Test Point 24 Hour Limits 1 Year L
32. 199530 0 199670 0 199512 0 199688 0 2 0 2 0 000000 0 000000 0 000050 0 000050 0 000050 0 000050 0 2 0 2 Neg FS 0 199600 0 199670 0 199530 0 199688 0 199512 uone10d107 sjuawnysul jeuoney GG BNPIIOS UOHEIQ E SALAS X S N I 4 Table 43 NI USB 6211 6215 6218 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977391 9 982609 9 976493 9 983507 10 10 0 000000 0 000000 0 002000 0 002000 0 002000 0 002000 10 10 Neg FS 9 980000 9 982609 9 977391 9 983507 9 976493 Table 44 NI USB 6210 6211 6215 6218 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 BNPIIOSA VOREIAIEI SALAS X S N 3 8 9G wog u NI USB 6212 6216 16 Bit Resolution Tables 45 through 47 include values for all USB 6212 and USB 6216 variants Table 45 NI USB 6212 6216 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978189 9 981811 9 977291 9 982709 10 10 0 000000 0 000000 0 001389 0 001389 0 001389 0 001389 10 10 Neg FS 9 980000 9 981811 9 978189 9 982709 9 977291 5 5 P
33. 2 41 234268 41 085732 20 20 Pos FS 19 6 19 569232 19 630768 19 568899 19 631101 20 20 0 0 0 003563 0 003563 0 003563 0 003563 20 20 Neg FS 19 6 19 630768 19 569232 19 631101 19 568899 10 10 Pos FS 9 8 9 795013 9 804987 9 794846 9 805154 10 10 0 0 0 001783 0 001783 0 001783 0 001783 10 10 Neg FS 9 8 9 804987 9 795013 9 805154 9 794846 5 5 Pos FS 4 9 4 897360 4 902640 4 897276 4 902724 5 5 0 0 0 000906 0 000906 0 000906 0 000906 5 5 Neg FS 4 9 4 902640 4 897360 4 902724 4 897276 2 2 Pos FS 1 96 1 958832 1 961168 1 958801 1 961199 2 2 0 0 0 000397 0 000397 0 000397 0 000397 2 2 Neg FS 1 96 1 961168 1 958832 1 961199 1 958801 1 1 Pos FS 0 98 0 978951 0 981049 0 978934 0 981066 BNPIIOS VOREIAIEI SALAS X S N 3 8 74 wog u Table 64 NI 6120 Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 1 1 0 0 0 000294 0 000294 0 000294 0 000294 1 1 Neg FS 0 98 0 981049 0 978951 0 981066 0 978934 0 5 0 5 Pos FS 0 49 0 489316 0 490684 0 489307 0 490693 0 5 0 5 0 0 0 000194 0 000194 0 000194 0 000194 0 5 0 5 Neg FS 0 49 0 490684 0 489316 0 490693 0 489307 0 2 0 2 Pos FS 0 196 0 195661 0 196339 0 195658 0 196342 0 2 0 2 0 0 0
34. 4 hour calibration period However the test point and upper and lower limits are provided for verification purposes B E M S X Series Calibration Procedure 24 ni com uoneiodiog sjuawnysu jeuoney GG BNPIIOS UOHEIQ E SALAS X S N I 4 B Series Test Limits NI 6010 16 Bit Resolution Tables 5 through 7 include values for the PCI 6010 Table 5 NI 6010 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 5 gt Pos FS 4 990000 4 986551 4 993449 4 984929 4 995071 5 5 0 000000 0 000000 0 002327 0 002327 0 002327 0 002327 5 5 Neg FS 4 990000 4 993449 4 986551 4 995071 4 984929 1 1 Pos FS 0 998000 0 997214 0 998786 0 996889 0 999111 1 1 0 000000 0 000000 0 000508 0 000508 0 000508 0 000508 1 1 Neg FS 0 998000 0 998786 0 997214 0 999111 0 996889 0 2 0 2 Pos FS 0 199600 0 199382 0 199818 0 199317 0 199883 0 2 0 2 0 000000 0 000000 0 000156 0 000156 0 000156 0 000156 0 2 0 2 Neg FS 0 199600 0 199818 0 199382 0 199883 0 199317 BNPIIOS VOREIAIEI SALAS X S N 3 8 9 wog u Table 6 NI 6010 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 5
35. 5 5 Pos FS 4 990000 4 98502 4 99498 4 98481 4 99519 5 5 0 0 00000 0 00362 0 00362 0 00362 0 00362 5 5 Neg FS 4 990000 4 99498 4 98502 4 99519 4 98481 2 5 2 5 Pos FS 2 495000 2 49150 2 49850 2 49140 2 49860 2 5 2 5 0 0 00000 0 00182 0 00182 0 00182 0 00182 2 5 29 Neg FS 2 495000 2 49850 2 49150 2 49860 2 49140 1 1 Pos FS 0 998000 0 99659 0 99941 0 99655 0 99945 1 1 0 0 00000 0 00074 0 00074 0 00074 0 00074 1 1 Neg FS 0 998000 0 99941 0 99659 0 99945 0 99655 0 5 0 5 Pos FS 0 499000 0 49829 0 49971 0 49827 0 49973 0 5 0 5 0 0 00000 0 00038 0 00038 0 00038 0 00038 0 5 0 5 Neg FS 0 499000 0 49971 0 49829 0 49973 0 49827 BNPIIOS VOREIAIEI SALAS X S N 3 8 cG wo9 u Table 39 NI 6070E 6071E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 25 0 25 Pos FS 0 249500 0 24913 0 24987 0 24912 0 24988 0 25 0 25 0 0 00000 0 00020 0 00020 0 00020 0 00020 0 25 0 25 Neg FS 0 249500 0 24987 0 24913 0 24988 0 24912 0 1 0 1 Pos FS 0 099800 0 09964 0 09996 0 09964 0 09996 0 1 0 1 0 0 00000 0 00009 0 00009 0 00009 0 00009 0 1 0 1 Neg FS 0 099800 0 09996 0 09964 0 09996 0 09964 0 05 0 05 Pos FS 0 049900 0 04981 0 04999 0 04981 0 04999 0 05 0 05 0 0 00000 0 00
36. 50 2 45113 2 44887 2 45117 2 44883 1 1 Pos FS 0 980 0 9795 0 9805 0 9795 0 9805 1 1 0 0 000 0 0001 0 0001 0 0001 0 0001 1 1 Neg FS 0 980 0 9805 0 9795 0 9805 0 9795 0 5 0 5 Pos FS 0 490 0 48977 0 49023 0 48976 0 49024 0 5 0 5 0 0 000 0 00006 0 00006 0 00006 0 00006 0 5 0 5 Neg FS 0 490 0 49023 0 48977 0 49024 0 48976 0 25 0 25 Pos FS 0 245 0 2449 0 2451 0 2449 0 2451 BNPIIOSA VOREIAIEI SALAS X S N 3 8 9p wog iu Table 33 NI 6052E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 25 0 25 0 0 000 0 0000316 0 0000316 0 0000316 0 0000316 0 25 0 25 Neg FS 0 245 0 2451 0 2449 0 2451 0 2449 0 1 0 1 Pos FS 0 098 0 09794 0 09806 0 09794 0 09806 0 1 0 1 0 0 000 0 0000165 0 0000165 0 0000165 0 0000165 0 1 0 1 Neg FS 0 098 0 09806 0 09794 0 09806 0 09794 0 05 0 05 Pos FS 0 049 0 048966 0 049034 0 048965 0 049035 0 05 0 05 0 0 000 0 000012 0 000012 0 000012 0 000012 0 05 0 05 Neg FS 0 049 0 049034 0 048966 0 049035 0 048965 0 10 Pos FS 9 8 9 798951 9 801049 9 798785 9 801215 0 10 0 0 0098 0 009280 0 010320 0 009280 0 010320 0 5 Pos FS 4 9 4 898003 4 901997 4 897919 4 902081 0 5 0 0 0098 0 009534 0 010066 0 009534 0 010066 0 2 Pos FS 1 96 1 959198 1 960802 1 959165 1 960835
37. 6 NI 6356 6358 6366 6368 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977832 9 982168 9 976934 9 983066 10 10 0 000000 0 000000 0 001300 0 001300 0 001300 0 001300 10 10 Neg FS 9 980000 9 982168 9 977832 9 983066 9 976934 5 5 Pos FS 4 990000 4 988926 4 991074 4 988477 4 991523 5 5 0 000000 0 000000 0 000650 0 000650 0 000650 0 000650 5 gt Neg FS 4 990000 4 991074 4 988926 4 991523 4 988477 Table 87 NI 6356 6358 6366 6368 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 uone10d107 sjuawnysu jeuoney 18 BNPIIOS UOHEIQ E SALAS X S N I 4 NI 6361 6363 16 Bit Resolution Tables 88 through 90 include values for the NI PCIe 6361 NI PXIe 6361 NI USB 6361 NI PCIe 6363 NI PXIe 6363 and NI USB 6363 X Series MIO devices Table 88 NI 6361 6363 Analog Input Values Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978711 9 981289 9 978342 9 981658 10 10 0 000000 0 000000 0 000949 0 000949 0 000949 0 000949 10 10 Neg FS 9 980000 9 981289 9 978711 9 981
38. 636 0 020364 0 5 Pos FS 4 99 4 988098 4 991902 4 988013 4 991987 0 5 0 0 01 0 009811 0 010189 0 009811 0 010189 0 2 Pos FS 1 996 1 995234 1 996766 1 995200 1 996800 0 2 0 0 004 0 003920 0 004080 0 003920 0 004080 0 1 Pos FS 0 998 0 997613 0 998387 0 997596 0 998404 0 1 0 0 002 0 001956 0 002044 0 001956 0 002044 0 0 5 Pos FS 0 499 0 498802 0 499198 0 498793 0 499207 0 0 5 0 0 001 0 000973 0 001027 0 000973 0 001027 0 0 2 Pos FS 0 1996 0 199505 0 199695 0 199502 0 199698 0 0 2 0 0 0004 0 000384 0 000416 0 000384 0 000416 uone10d107 sjuawinysul jeuoney ZE BNPIIOS UOHEIQ E SALAS X S N I 4 Table 20 NI 6030E 6031E 6032E 6033E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 0 1 Pos FS 0 0998 0 099743 0 099857 0 099741 0 099859 0 0 1 0 0 0002 0 000187 0 000213 0 000187 0 000213 Table 21 NI 6030E 6031E 6032E 6033E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 9800000 9 978738 9 981262 9 978568 9 981432 10 10 0 0 0000000 0 000813 0 000813 0 000813 0 000813 10 10 Neg FS 9 9800000 9 981262 9 978738 9 981432 9 978568 0 10 Pos FS 9 9800000 9 9
39. 658 9 978342 5 5 Pos FS 4 990000 4 989321 4 990679 4 989136 4 990864 5 5 0 000000 0 000000 0 000475 0 000475 0 000475 0 000475 5 5 Neg FS 4 990000 4 990679 4 989321 4 990864 4 989136 2 2 Pos FS 1 996000 1 995722 1 996278 1 995648 1 996352 2 2 0 000000 0 000000 0 000196 0 000196 0 000196 0 000196 2 2 Neg FS 1 996000 1 996278 1 995722 1 996352 1 995648 1 1 Pos FS 0 998000 0 997844 0 998156 0 997807 0 998193 1 1 0 000000 0 000000 0 000105 0 000105 0 000105 0 000105 1 1 Neg FS 0 998000 0 998156 0 997844 0 998193 0 997807 0 5 0 5 Pos FS 0 499000 0 498917 0 499083 0 498898 0 499102 0 5 0 5 0 000000 0 000000 0 000056 0 000056 0 000056 0 000056 0 5 0 5 Neg FS 0 499000 0 499083 0 498917 0 499102 0 498898 0 2 0 2 Pos FS 0 199600 0 199555 0 199645 0 199547 0 199653 BNPIIOS VOREIAIEI SALAS X S N 3 8 88 wo9 u Table 88 NI 6361 6363 Analog Input Values Continued Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 2 0 2 0 000000 0 000000 0 000029 0 000029 0 000029 0 000029 0 2 0 2 Neg FS 0 199600 0 199645 0 199555 0 199653 0 199547 0 1 0 1 Pos FS 0 099800 0 099771 0 099829 0 099767 0 099833 0 1 0 1 0 000000 0 000000 0 000020 0 000020 0 000020 0 000020 0 1
40. 7 sjuawnysu JeuoneN GL BNPIIOS UOHEIQ E SALAS X S N I 4 Table 70 NI PXle 6124 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 95 9 946739 9 953261 9 946451 9 953550 10 10 0 0 0 001460 0 001460 0 001460 0 001460 10 10 Neg FS 9 95 9 953261 9 946739 9 953550 9 946451 Table 71 NI PXle 6124 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 BNPIIOS VOREIAIEI SALAS X S N 3 8 9L wog u NI 6132 6133 14 Bit Resolution Tables 72 and 73 include values for the PCI 6132 PXI 6132 PCI 6133 and PXI 6133 analog input only Table 72 NI 6132 6133 Analog Input Values Range V Test Point 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V 10 10 Pos FS 9 8 9 7958 9 8042 10 10 0 0 0 0024 0 0024 10 10 Neg FS 9 8 9 8042 9 7958 5 5 Pos FS 4 9 4 8978 4 9022 5 5 0 0 0 0012 0 0012 5 5 Neg FS 4 9 4 9022 4 8978 2 5 2 5 Pos FS 2 45 2 44875 2 45125 2 5 2 5 0 0 0 00067 0 00067 2 5 2 5 Neg FS 2 45 2 45125 2 44875 1 25 1 25 Pos FS 1 225 1 22432 1 22568 1 25 1 25 0 0 0 00036 0 00036 1 25 1 25 Neg FS 1 225 1 22568 1 22432 Table 73 NI 6132 6133 Counter Values
41. 770 0 000770 0 000770 0 000770 1 1 Neg FS 0 98 0 981191 0 978809 0 981211 0 978789 0 5 0 5 Pos FS 0 49 0 489305 0 490695 0 489295 0 490705 1 1 0 0 0 000411 0 000411 0 000411 0 000411 1 1 Neg FS 0 49 0 490695 0 489305 0 490705 0 489295 0 2 0 2 Pos FS 0 196 0 195609 0 196391 0 195605 0 196395 0 2 0 2 0 0 0 000189 0 000189 0 000189 0 000189 0 2 0 2 Neg FS 0 196 0 196391 0 195609 0 196395 0 195605 Table 62 NI 6115 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8 9 786817 9 813183 9 786651 9 813349 10 10 0 0 0 008900 0 008900 0 008900 0 008900 10 10 Neg FS 9 8 9 813183 9 786817 9 813349 9 786651 Table 63 NI 6115 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 suswngsuj jeuoney IZ BNPIIOS VOREIAIIEI SALAS X S N I 4 NI 6120 16 Bit Resolution Tables 64 through 66 include values for the PCI 6120 and PXI 6120 Table 64 NI 6120 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 42 42 Pos FS 41 16 41 086432 41 233568 41 085732 41 234268 42 42 0 0 0 008906 0 008906 0 008906 0 008906 42 42 Neg FS 41 16 41 233568 41 08643
42. 78967 9 981033 9 978797 9 981203 0 10 0 0 0200000 0 019415 0 020585 0 019415 0 020585 Table 22 NI 6030E 6031E 6032E 6033E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 BNPIIOSA VOREIAIEI SALAS X S N 3 8 8E wog u NI 6034E 6035E 6036E 16 Bit Resolution Tables 23 through 26 include values for the PCI 6034E analog input only PCI 6035E and PCI 6036E Table 23 NI 6034E 6035E 6036E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 900 9 8929 9 9071 9 8925 9 9075 10 10 0 0 000 0 0017 0 0017 0 0017 0 0017 10 10 Neg FS 9 900 9 9071 9 8929 9 9075 9 8925 5 9 Pos FS 4 950 4 9484 4 9516 4 9482 4 9518 5 5 0 0 000 0 0009 0 0009 0 0009 0 0009 5 5 Neg FS 4 950 4 9516 4 9484 4 9518 4 9482 0 5 0 5 Pos FS 0 495 0 49462 0 49538 0 49460 0 49540 0 5 0 5 0 0 000 0 00011 0 00011 0 00011 0 00011 0 5 0 5 Neg FS 0 495 0 49538 0 49462 0 49540 0 49460 0 05 0 05 Pos FS 0 0495 0 049441 0 049559 0 049439 0 049561 0 05 0 05 0 0 000 0 000032 0 000032 0 000032 0 000032 0 05 0 05 Neg FS 0 0495 0 049559 0 049441 0 049561 0 049439 uone10d107 sjuawnysul jeuoney 66 BNPIIOS UOHEIQ E SALAS X S N I 4 Table 24 NI 6035E Analog Output Values
43. 858 0 000858 0 000858 0 000858 2 5 2 5 Neg FS 2 45 2451164 2 448836 2 451232 2 448768 1 25 1 25 Pos FS 1 2 1 199386 1 200614 1 199353 1 200647 1 25 1 25 0 0 0 000464 0 000464 0 000464 0 000464 1 25 1 25 Neg FS 1 2 1 200614 1 199386 1 200647 1 199353 Table 68 NI 6122 6123 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 BNPIIOSA VOREIAIEI SALAS X S N 3 8 bl wog u NI PXle 6124 16 Bit Resolution Tables 69 through 71 include values for the NI PXIe 6124 Table 69 NI PXle 6124 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 95 9 947151 9 952849 9 946863 9 953137 10 10 0 0 0 001217 0 001217 0 001217 0 001217 10 10 Neg FS 9 95 9 952849 9 947151 9 953137 9 946863 5 5 Pos FS 4 975 4 973513 4 976487 4 973369 4 976631 5 5 0 0 0 000621 0 000621 0 000621 0 000621 5 5 Neg FS 4 975 4 976487 4 973513 4 976631 4 973369 2 2 Pos FS 1 99 1 989346 1 990654 1 989289 1 990711 2 2 0 0 0 000268 0 000268 0 000268 0 000268 2 2 Neg FS 1 99 1 990654 1 989346 1 990711 1 989289 1 1 Pos FS 0 995 0 994638 0 995362 0 994609 0 995391 1 1 0 0 0 000149 0 000149 0 000149 0 000149 1 1 Neg FS 0 995 0 995362 0 994638 0 995391 0 994609 uone10d10
44. 89487 4 990513 5 5 0 0 000000 0 000154 0 000154 0 000154 0 000154 5 5 Neg FS 4 990000 4 990329 4 989671 4 990513 4 989487 2 2 Pos FS 1 996000 1 995865 1 996135 1 995791 1 996209 2 2 0 0 000000 0 000066 0 000066 0 000066 0 000066 2 2 Neg FS 1 996000 1 996135 1 995865 1 996209 1 995791 1 1 Pos FS 0 998000 0 997913 0 998087 0 997876 0 998124 1 1 0 0 000000 0 000042 0 000042 0 000042 0 000042 1 1 Neg FS 0 998000 0 998087 0 997913 0 998124 0 997876 0 5 0 5 Pos FS 0 499000 0 498946 0 499054 0 498928 0 499072 0 5 0 5 0 0 000000 0 000031 0 000031 0 000031 0 000031 0 5 0 5 Neg FS 0 499000 0 499054 0 498946 0 499072 0 498928 BNPIIOS VOREIAIEI SALAS X S N 3 8 v9 wog u Table 54 NI 6280 6281 6284 6289 Analog Input Values Filter On Continued Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 2 0 2 Pos FS 0 199600 0 199568 0 199632 0 199561 0 199639 0 2 0 2 0 0 000000 0 000019 0 000019 0 000019 0 000019 02 0 2 Neg FS 0 199600 0 199632 0 199568 0 199639 0 199561 0 1 0 1 Pos FS 0 099800 0 099775 0 099825 0 099772 0 099828 0 1 0 1 0 0 000000 0 000014 0 000014 0 000014 0 000014 0 1 0 1 Neg FS 0 099800 0 099825 0 099775 0 099828 0 099772 Table 55 NI 6280 6281 6284 6289 Anal
45. 972304 9 987696 9 971884 9 988116 10 10 0 0 0 005930 0 005930 0 005930 0 005930 10 10 Neg FS 9 98 9 987696 9 972304 9 988116 9 971884 0 10 Pos FS 9 98 9 974744 9 985256 9 974324 9 985676 0 10 0 0 02 0 016506 0 023494 0 016506 0 023494 Table 41 NI 6070E 6071E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 M Series Test Limits NI USB 6210 6211 6215 6218 16 Bit Resolution Tables 42 through 44 include values for all USB 6210 analog input only USB 6211 USB 6215 and USB 6218 variants Table 42 NI USB 6210 6211 6215 6218 Analog Input Values BNPIIOS UOHBIGIED SALAS X S N 3 8 nG wo9 u Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978209 9 981791 9 977311 9 982689 10 10 0 000000 0 000000 0 001369 0 001369 0 001369 0 001369 10 10 Neg FS 9 980000 9 981791 9 978209 9 982689 9 977311 5 5 Pos FS 4 990000 4 989044 4 990956 4 988595 4 991405 5 5 0 000000 0 000000 0 000695 0 000695 0 000695 0 000695 5 5 Neg FS 4 990000 4 990956 4 989044 4 991405 4 988595 1 1 Pos FS 0 998000 0 997780 0 998220 0 997690 0 998310 1 1 0 000000 0 000000 0 000158 0 000158 0 000158 0 000158 1 1 Neg FS 0 998000 0 998220 0 997780 0 998310 0 997690 0 2 0 2 Pos FS 0 199600 0
46. Call 5 Ja DAQmx Channel 3 Br paaa P Al Dither Enable Call DAOmxSetAIDitherEnable with the following parameters taskHandle taskHandle channel MyVoltageChannel bool32 TRUE National Instruments Corporation B E M S X Series Calibration Procedure 9 Start the acquisition using the DAQmx Start Task VI LabVIEW Block Diagram NI DAQmx Function Call Call DAOmxStartTask with the following parameter taskHandle taskHandle 10 Acquire 10 000 points of voltage data using the DAQmx Read VI NI 6011E PCI MIO 16XE 50 and NI 6115 6120 Devices Acquire 20 000 points of voltage data using the DAQmx Read VI LabVIEW Block Diagram NI DAQmx Function Call Call DAOmxReadAnalogF64 with the following parameters askichannels in taskHandle taskHandle numSampsPerChan 1 timeout 10 0 fillMode DAOmx_Val_GroupByChannel readArray data arraySizeInSamples 10000 or 20000 sampsPerChanRead amp read reserved NULL 11 Average the voltage values that you acquired Compare the resulting average to the upper and lower limits listed in the table in the Test Limits section If the result is between these values the device passes the test 12 Clear the acquisition using the DAQmx Clear Task VI LabVIEW Block Diagram NI DAQmx Function Call Call DAOmxClearTask with the following parameter taskHandle taskHandle
47. Call DAQmxStartTask with the following parameter taskHandle taskHandle The device generates a5 MHz square wave when the VI completes execution National Instruments Corporation 19 B E M S X Series Calibration Procedure 6 Configure the counter to measure frequency and use a 1 MQ impedance 7 Take a measurement of the square wave 8 Compare the value read by your counter to the test limits shown on the device table in the Test Limits section If the value falls between these limits the device passes the test 9 Stop the generation using the DAQmx Stop Task VI LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxStopTask with the following parameter taskHandle taskHandle Clear the generatio n using the DAQmx Clear Task VI LabVIEW Block Diagram NI DAQmx Function Call Call DAOmxClearTask with the following parameter taskHandle taskHandle 11 Disconnect the counter from your device You have verified the counter on your device Adjustment Procedure Use the B E M S X Series adjustment procedure to adjust the analog input onstants At the end of each calibration procedure and output calibration c these new constants are EEPROM These value accidental access or modification of any calibration constants adjusted stored in the external calibration area of the s are password protected which prevents the by the metrology laborat
48. EEE CALIBRATION PROCEDURE B E M S X Series For NI DAQ mx This document contains instructions for calibrating National Instruments B E M S and X Series data acquisition DAQ devices This document does not discuss programming techniques or compiler configuration The NI DAQmx driver contains online help files that have compiler specific instructions and detailed function explanations You can add these help files when you install NI DAQmx on the calibration computer Contents CONVENON S AA namen 2 SOFC Walle aap NN han INN DAN Ta TING Gaan JN 3 Documentation 11111 aaa 3 Calibration Interval u anne aan 4 Password anak aa kannada aala Aanhin sateen 4 Test Equipment imi BANG BANNA anne an teenie 4 Test Conditions ccccccccccessscccccesssseececcesssscececessnseeececessaeeeceesessaeeeeeesees 6 Calibration Procedure an AGA nn 6 Manta StU eat eine na um 7 Self Calibration NEE NESON i T Checking Device Temperature Changes nnenesseeenenn 8 Verification Procedure u nen 9 Analog Input Verification uessessessessesneesnensernennennnennennnennen 10 Analog Output Verification suesnessersennersennnennnnnennennnennen 15 Counter Verification aaa 18 Adjustment Procedure uessessesnersesnennensnennnennennnennennnennnnnannnenn 20 Test LUMIS ana nna NGARAN Bian ADD KANG naaa 23 B Serles Test DIM aT nase 25 NI 6010 16 Bit Resolution aaa 25 NI 6013 6014 6015 6
49. I PXIe 6124 16 Bit Resolution 74 NI 6132 6133 14 Bit Resolution 2eeeenenneneenen 76 NI 6143 16 Bit Resolution 0 0 eee eeeeseeeeeeeeeeeeeeeneees 77 X Series Test Limits eu een 78 NI 632x 16 Bit Resolution 22u22222020002nernnennennnennennennnnn 78 NI 634x 16 Bit Resolution 2 0 cece eeeeseseeeeseeseeeeeeaeens 80 NI 6351 6353 16 Bit Resolution cece eee eeseeeeeeeeeeeee 82 NI 6356 6358 6366 6368 16 Bit Resolution 85 NI 6361 6363 16 Bit Resolution eee eeeeeseeeeeeeeee 87 Conventions The following conventions are used in this manual The symbol leads you through nested menu items and dialog box options to a final action The sequence File Page Setup Options directs you to pull down the File menu select the Page Setup item and select Options from the last dialog box NG This icon denotes a note which alerts you to important information UN This icon denotes a caution which advises you of precautions to take to avoid injury data loss or a system crash When this symbol is marked on B E M S X Series Calibration Procedure 2 ni com bold italic monospace monospace italic Platform Software a product refer to the Read Me First Safety and Electromagnetic Compatibility for information about precautions to take Bold text denotes items that you must select or click in the software such as menu items and dialog box options Bold text als
50. Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 suswngsuj jeuoney ZL BNPIIOS UOHEIQ E SALAS X S N I 4 NI 6143 16 Bit Resolution Tables 74 and 75 include values for the PCI 6143 and PXI 6143 analog input only Table 74 NI 6143 Analog Input Values Range V Test Point 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V 5 5 Pos FS 4 95 4 946455 4 953545 5 5 0 0 0 000708 0 000708 5 5 Neg FS 4 95 4 953545 4 946455 Table 75 NI 6143 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 4 99950 5 00050 BNPIIOS VOREIAIEI SALAS X S N 3 8 81 wo9 u X Series Test Limits NI 632x 16 Bit Resolution Tables 76 through 78 include values for the NI PCIe 6320 analog input only NI PCIe 6321 and NI PCIe 6323 X Series MIO devices Table 76 NI 6320 6321 6323 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978701 9 981299 9 977803 9 982197 10 10 0 000000 0 000000 0 000977 0 000977 0 000977 0 000977 10 10 Neg FS 9 980000 9 981299 9 978701 9 982197 9 977803 5 5 Pos FS 4 990000 4 989310 4 990690 4 988861 4 991139 5 5 0 000000
51. X S N I 4 Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 25 0 25 0 0 000000 0 0003 0 0003 0 0003 0 0003 0 25 0 25 Neg FS 0 245000 0 2455 0 2445 0 2455 0 2445 0 1 0 1 Pos FS 0 098000 0 09778 0 09822 0 09777 0 09823 0 1 0 1 0 0 000000 0 00013 0 00013 0 00013 0 00013 0 1 0 1 Neg FS 0 098000 0 09822 0 09778 0 09823 0 09777 0 05 0 05 Pos FS 0 049000 0 048877 0 049123 0 048875 0 049125 0 05 0 05 0 0 000000 0 000078 0 000078 0 000078 0 000078 0 05 0 05 Neg FS 0 049000 0 049123 0 048877 0 049125 0 048875 0 10 Pos FS 9 800000 9 7907 9 8093 9 7903 9 8097 0 10 0 0 020000 0 0146 0 0254 0 0146 0 0254 0 5 Pos FS 4 900000 4 8928 4 9072 4 8926 4 9074 0 5 0 0 010000 0 0073 0 0127 0 0073 0 0127 0 2 Pos FS 1 996000 1 9571 1 9629 1 9570 1 9630 0 2 0 0 004000 0 0029 0 0051 0 0029 0 0051 0 1 Pos FS 0 980000 0 97854 0 98146 0 97850 0 98150 0 1 0 0 002000 0 00144 0 00256 0 00144 0 00256 0 0 5 Pos FS 0 490000 0 48925 0 49075 0 48923 0 49077 0 0 5 0 0 001000 0 000704 0 001296 0 000704 0 001296 BNPIIOS VOREIAIEI SALAS X S N 3 8 09 wog iu Table 36 NI DAQCard 6062E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Mini
52. anges of one analog input channel in differential mode Optional Then perform verification on one range of all remaining analog input channels in differential mode to verify that the device mux and analog input lines are operating properly Refer to your device user documentation for signal connection locations National Instruments Corporation 11 B E M S X Series Calibration Procedure 2 Choose the table from the Test Limits section that corresponds with the device you are verifying This table shows all acceptable settings for the device type NIrecommends that you verify all ranges although you may want to save time by checking only the ranges used in your application 3 Set the calibrator voltage to the test value indicated in the device table 4 Create a task using DAOmxCreateTask LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxCreateTask with the following f f parameters LabVIEW does not require this step taskName AIVerificationTask taskHandle amp taskHandle 5 Adda channel to the task using the DAQmx Create Virtual Channel VI and configure the channel Use the tables in the Test Limits section to determine the minimum and maximum values for your device Note Throughout the procedure refer to the NI DAQmx function call parameters for the LabVIEW input values LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxCreateAIVoltageChan with the following param
53. ariants PCI 6224 analog input only PXI 6224 analog input only PCI 6225 PXI 6225 all USB 6225 variants PCI 6229 PXI 6229 and all USB 6229 variants Table 48 NI 6220 6221 6224 6225 6229 Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977798 9 982202 9 976900 9 983100 10 10 0 0 000000 0 001603 0 001603 0 001603 0 001603 10 10 Neg FS 9 980000 9 982202 9 977798 9 983100 9 976900 5 5 Pos FS 4 990000 4 988834 4 991166 4 988385 4 991615 5 5 0 0 000000 0 000817 0 000817 0 000817 0 000817 5 5 Neg FS 4 990000 4 991166 4 988834 4 991615 4 988385 1 1 Pos FS 0 998000 0 997731 0 998269 0 997641 0 998359 1 1 0 0 000000 0 000189 0 000189 0 000189 0 000189 1 1 Neg FS 0 998000 0 998269 0 997731 0 998359 0 997641 0 2 0 2 Pos FS 0 199600 0 199506 0 199694 0 199488 0 199712 0 2 0 2 0 0 000000 0 000070 0 000070 0 000070 0 000070 0 2 0 2 Neg FS 0 199600 0 199694 0 199506 0 199712 0 199488 uone10d107 sjuawnysu JeuoneN 6S BNPIIOS UOHEIQ E SALAS X S N I 4 Table 49 NI 6221 6225 6229 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lo
54. between the current temperature and the temperature from the last external calibration is greater than 10 C the limits in the calibration tables are not valid Note The maximum temperature change for most DAQ devices is 10 C To find the valid temperature drifts for your B E M S X device refer to the Absolute Accuracy table s in your DAQ device specifications document Note You also can read the current device temperature the temperature during the last self calibration and the temperature during the last external calibration in MAX Launch MAX select My System Devices and Interfaces your device and then click the Calibration tab If the device temperature is outside the maximum range you should choose one of the following options e Change the test limits to include the additional error due to temperature drift Refer to your DAQ device specifications document for more information e Change the system so that the temperature will be closer to the temperature recorded during the last external calibration Verification Procedure Verification determines how well the DAQ device is meeting its specifications By performing this procedure you can see how your device has operated over time You can use this information to help determine the appropriate calibration interval for your application The verification procedure is divided into the major functions of the device Throughout the verification process use the ta
55. bles in the Test Limits section to determine if your device needs to be adjusted National Instruments Corporation 9 B E M S X Series Calibration Procedure Analog Input Verification Since B E M S X Series devices have many different ranges you must check measurements for each available range B E M X Series MIO Devices Because there is only one analog to digital converter ADC on B E M Series and X Series NI 632x 634x 6351 6353 6361 6363 devices you must perform verification on all ranges of one analog input channel in differential mode Optional Then perform verification on one range of all remaining analog input channels in differential mode to verify that the device mux and analog input lines are operating properly S X Series Simultaneous MIO Devices You must perform verification on all ranges of all analog input channels of S Series and X Series NI 6356 6358 6366 6368 devices in differential mode Ng Note The test limits used in this document assume a maximum temperature drift of 10 C from the last external calibration and a maximum temperature drift of 1 C from the last self calibration Refer to the Calibration Procedure section for more information and instructions on reading your device temperature and comparing it against the device temperature during the last external calibration Complete the following steps to check the performance of the analog input 1 Connect the calibrator to the device Re
56. complete the following steps to compare the current device temperature to the temperatures measured during the last self calibration and external calibration 1 Read the current temperature measured by the device by using the DevTemp property node LabVIEW Block Diagram a DAQmx Calibration Info NI DAQmx Function Call Call DAQmxGetCalDevTemp with the following parameter ictiveDey deviceName dev1 2 Get the temperature of the device recorded during the last self calibration by using the SelfCal LastTemp property node LabVIEW Block Diagram NI DAQmx Function Call ictiveDey a 8 DAQmx Calibration Info SelfCal LastTemp SelfCal LastTemp Call DAQmxGet Sel fCalLast Temp with the following parameter deviceName dev1 If the difference between the current temperature and the temperature from the last self calibration is greater than 1 C the limits in the calibration tables are not valid B E M S X Series Calibration Procedure 8 ni com 3 Get the temperature of the device recorded during the last external calibration by using the ExtCal LastTemp property node LabVIEW Block Diagram NI DAQmx Function Call ActiveDev DAQmx Calibration Info Li ExtCal LastTemp b xtCal LastTemp Call DAQmxGetExtCalLastTemp with the following parameter deviceName dev1 If the difference
57. e NG Note Throughout the procedure refer to the NI DAQmx function call parameters for the LabVIEW input values LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxCreateAOVoltageChan with the following parameters taskHandle taskHandle physicalChannel dev1 a00 nameToAssignToChannel AOVoltageChannel minVal 10 0 maxVal 10 0 units DAQmx_Val_Volts customScaleName NULL 5 Start the generation using the DAQmx Start Task VI LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxStartTask with the following parameter taskHandle taskHandle B E M S X Series Calibration Procedure 16 ni com 6 Write a voltage to the AO channel using the DAQmx Write VI LabVIEW Block Diagram NI DAQmx Function Call ask channels in AnalogDBL 1Chan 15amp Call DAQmxWrit eAnalogF64 with the following parameters taskHandle taskHandle numSampsPerChan 1 autoStart 1 timeout 10 0 dataLayout DAQmx Val GroupByChannel writeArray amp data sampsPerChanWritten amp sampleswritten reserved NULL 7 Compare the resulting value shown by the DMM to the upper and lower limits in the table in the Test Limits section If the value is between these limits the device passes the test 8 Clear the acquisition using the DAQmx Clear Task VI LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxClearTask with the following pa
58. e will not cause you to incorrectly calibrate your device Verification Procedure Verify the existing operation of the device This step allows you to confirm that the device was operating within its specified range prior to calibration Adjustment Procedure Perform an external calibration that adjusts the device calibration constants with respect to a known voltage source Reverification Perform another verification to ensure that the device is operating within its specifications after adjustment 6 ni com Initial Setup These steps are described in detail in the following sections Although NI recommends that you verify allranges you can save time by checking only the ranges used in your application The device must be configured in Measurement amp Automation Explorer MAX to communicate with NI DAQmx Complete the following steps to configure a device in MAX 1 Install the NI DAQmx driver software 2 Power off the host computer or chassis that will hold the device and install the device 3 Power on the computer or chassis and launch Measurement amp Automation Explorer MAX 4 Configure the device identifier and select Self Test to ensure that the device is working properly NG Note When a device is configured with MAX it is assigned a device identifier Each function call uses this identifier to determine which DAQ device to calibrate Self Calibration Self calibration should be performed after the de
59. ence of the DMM Table 3 Analog Output Connections DMM Analog Output Positive Input Negative Input AO 0 Connector 0 AO 0 pin 22 Connector 0 AO GND pin 55 AO 1 Connector 0 AO 1 pin 21 Connector 0 AO GND pin 55 AO2 Connector 1 AO 2 pin 22 Connector 1 AD GND pin 55 AO3 Connector 1 AO 3 pin 21 Connector 1 AO GND pin 55 Pin numbers are given for 68 pin connectors only If you are using a BNC DAQPad USB screw terminal 34 pin IDC header 50 pin IDC header 37 pin or 100 pin connector refer to your device user documentation for signal connection locations National Instruments Corporation Choose the table from the Test Limits section that corresponds with the device you are verifying This table shows all acceptable settings for the device NI recommends that you verify all ranges although you may want to save time by checking only the ranges used in your application 15 B E M S X Series Calibration Procedure 3 Create a task using DAQmxCreateTask LabVIEW Block Diagram NI DAQmx Function Call Call DAOmxCreateTask with the following parameters LabVIEW does not require this step taskName MyAOVoltageTask taskHandle amp taskHandle 4 Add an AO voltage task using the DAQmx Create Virtual Channel VI and configure the channel AO 0 Use the tables in the Test Limits section to determine the minimum and maximum values for your devic
60. ers LabVIEW does not require this step taskName MyCounterOutput Task taskHandle amp taskHandle Pin numbers are given for 68 pin connectors only If you are using a BNC DAQPad USB screw terminal 34 pin IDC header 50 pin IDC header 37 pin or 100 pin connector refer to your device user documentation for signal connection locations B E M S X Series Calibration Procedure 18 ni com 3 Add a counter output channel to the task using the DAQmx Create Virtual Channel VI and configure the channel Note Throughout the procedure refer to the NI DAQmx function call parameters for the LabVIEW input values LabVIEW Block Diagram NI DAQmx Function Call DAQmx an Call DAQmxCreateCOPulseChanFreg with the following parameters taskHandle taskHandle counter dev1 ctr0 nameToAssignToChannel CounterOutputChannel units DAQmx_Val_Hz idleState DAQmx_Val_Low initialDelay 0 0 freq 5000000 0 dutyCycle 5 4 Configure the counter for continuous square wave generation using the DAQmx Timing VI LabVIEW Block Diagram NI DAQmx Function Call Continuous Samples Y ask channels in Call DAOmxCfgImplicitTiming with the following parameters taskHandle taskHandle sampleMode DA9mx Val ContSamps sampsPerChan 10000 9 Start the generation of a square wave using the DAQmx Start Task VI LabVIEW Block Diagram NI DAQmx Function Call
61. eters Differential Y inimum value taskHandle taskHandle physicalChannel dev1 ai0 nameToAssignToChannel myVoltageChannel terminalConfig DAQmx_Val_Cfg_Default minVal 10 0 maxVal 10 0 Al voltage Y units DAQmx_Val_Volts customScaleName NULL hysical channels B E M S X Series Calibration Procedure 12 ni com 6 NI 628x Devices Configure the lowpass filter by setting the AI Lowpass Enable property node to True LabVIEW Block Diagram NI DAQmx Function Call A DAQmx Channel A gt AL Lowpass Enable Call DAQmxSetChanAttribute with the following parameters taskHandle taskHandle Channel Attribute DAOmx_AI_Lowpass_Enable Value 0 filter off or 1 filter on 7 Configure timing for the voltage acquisition using the DAQmx Timing VI NI 6011E PCI MIO 16XE 50 and NI 6115 6120 Devices Use 20000 0 for rate and 20000 for sampsPerChan error out LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxC fgSampC1kTiming with the following parameters taskHandle taskHandle source NULL rate 100000 0 or 20000 0 activeEdge DAQmx Val Rising sampleMode DAQmx Val FiniteSamps sampsPerChan 10000 or 20000 8 NI 6023E 6024E 6025E 6040E 6062E Devices For 12 bit E Series devices configure dither to be on by setting the AI Dither Enable property node to True Lab VIEW Block Diagram NI DAQmx Function
62. fer to Table 2 to determine connections between the device and the calibrator NG Note If your calibrator has a guard connection connect that terminal to AI GND If your calibrator does not have a guard comnection and has a floating output connect the negative output to AI GND If the calibrator output is not floating do not make any other connections For more information refer to the user documentation for the device you are using If you are using the E M S Series calibration hardware adapter connect the device as described in the E Series Calibration Fixture Installation Guide NG Note NI USB 6215 6216 6218 Devices For isolated devices if the calibrator outputs are truly floating the negative output must be connected to a quiet earth ground as well as AI GND to give the entire system a ground reference B E M S X Series Calibration Procedure 10 ni com Table 2 Analog Input Connections Calibrator Device Positive Output Negative Output Guard Connection B E M X Series MIO ALO pin 68 AI 8 pin 34 AI GND pin 67 S X Series ALO pin 68 ALO pin 34 AI 0 GND pin 67 DE MI AI 1 pin 33 AI 1 pin 66 AI 1 GND pin 3t Connector 0 pin 33 pin 66 ND pin 32 AI 2 pin 65 AI 2 pin 31 AI 2 GND pin 64 A13 pin 30 AL3 pin 63 AI 3 GND pin 29 AI 4 pin 28 AI 4 pin 61 AI 4 GND pin 27 AL5 pin 60 ALS pin 26 AI 5 GND pi
63. imits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 96507 9 99493 9 96465 9 99535 10 10 0 0 000000 0 00823 0 00823 0 00823 0 00823 10 10 Neg FS 9 980000 9 99493 9 96507 9 99535 9 96465 5 5 Pos FS 4 99 4 98452 4 99548 4 98431 4 99569 5 5 0 0 000000 0 00412 0 00412 0 00412 0 00412 5 5 Neg FS 4 99 4 99548 4 98452 4 99569 4 98431 2 5 2 5 Pos FS 2 495000 2 49125 2 49875 2 49115 2 49885 2 5 2 5 0 0 000000 0 00207 0 00207 0 00207 0 00207 2 5 2 5 Neg FS 2 495000 2 49875 2 49125 2 49885 2 49115 1 1 Pos FS 0 998000 0 99649 0 99951 0 99645 0 99955 1 1 0 0 000000 0 00084 0 00084 0 00084 0 00084 1 1 Neg FS 0 998000 0 99951 0 99649 0 99955 0 99645 0 5 0 5 Pos FS 0 499000 0 49823 0 49977 0 49821 0 49979 0 5 0 5 0 0 000000 0 00043 0 00043 0 00043 0 00043 0 5 0 5 Neg FS 0 499000 0 49977 0 49823 0 49979 0 49821 0 25 0 25 Pos FS 0 249500 0 24911 0 24989 0 24910 0 24990 uone10d107 suswngsuj jeuoney 6b BNPIIOS UOHEIQ E SALAS X S N I 4 Table 30 NI 6040E Analog Input Values Continued Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 25 0 25 0 0 000000 0 00023 0 00023 0 00023 0 00023 0 25 0 25 Neg FS 0 249500 0
64. ing applications that use the NI DAQmx driver e The NI DAQmx C Reference Help includes information about the functions in the driver National Instruments Corporation 3 B E M S X Series Calibration Procedure e E Series Calibration Fixture Installation Guide provides information on installing and operating the E M S Series calibration hardware adapter The NI 6010 Help E Series User Manual M Series User Manual NI USB 621x User Manual S Series User Manual NI 6124 6154 User Manual or X Series User Manual provides information about your DAQ device e The specifications document for your DAQ device provides detailed specifications Calibration Interval Password B E M S X Series devices should be calibrated at a regular interval as defined by the measurement accuracy requirements of your application National Instruments recommends that you routinely perform a complete calibration at least once every year once every two years for some M S X Series devices You can shorten this interval based on the accuracy demands of your application or requirements of your processes The default password for password protected operations is NI Test Equipment National Instruments recommends that you use the instruments in Table 1 for calibrating a B E M S X Series device UN Caution For compliance with Electromagnetic Compatibility EMC requirements this product must be operated with shielded cables and accessories
65. ltage value to be verified and is in volts Pos FS stands for positive full scale and Neg FS stands for negative full scale National Instruments Corporation 23 B E M S X Series Calibration Procedure e 24 Hour Limits The values shown in the 24 hour tables are the valid specifications when a device has been calibrated with an external source The 24 Hour Limits column contains the Upper Limits and Lower Limits for the test point value That is when the device is within its 24 hour calibration interval the test point value should fall between the upper and lower limit values Upper and lower limits are expressed in volts or amps depending on the device BR Note Some devices only have 1 year limits specifications e 1 Year Limits The 1 year limits display the specifications that the devices should meet if it has been one year between calibrations The I Year Limits column contains the Upper Limits and Lower Limits for the test point value That is when the device is within its one year calibration interval the test point value should fall between the upper and lower limit values Upper and lower limits are expressed in volts or amps depending on the device Note NI 6122 6123 625x 628x 6351 6353 6361 6363 Devices NI 6122 6123 625x 628x 635 1 6353 6361 6363 devices have 2 year and 24 hour calibration intervals e Counters It is not possible to adjust the resolution of the counters Therefore these values do not have a 1 year or 2
66. mum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 0 0 2 Pos FS 0 199600 0 195688 0 196312 0 195680 0 196320 0 0 2 0 0 000400 0 000269 0 000531 0 000269 0 000531 0 0 01 Pos FS 0 099800 0 0978 0 0982 0 0978 0 0982 0 0 01 0 0 000200 0 0001 0 0003 0 0001 0 0003 Table 37 NI DAQCard 6062E Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 8000000 9 789895 9 810105 9 789484 9 810516 10 10 0 0 0 008370 0 008370 0 008370 0 008370 10 10 Neg FS 9 8000000 9 810105 9 789895 9 810516 9 789484 Table 38 NI DAQCard 6062E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 sjuawnysu jeuoney LG BNPIIOS UOHEIQ E SALAS X S N I 4 NI 6070E 6071E 12 Bit Resolution Tables 39 through 41 include values for the PCI MIO 16E 1 PCI 6070E PXI 6070E PCI 6071E and PXI 6071E Table 39 NI 6070E 6071E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 96607 9 99393 9 96565 9 99435 10 10 0 0 00000 0 00723 0 00723 0 00723 0 00723 10 10 Neg FS 9 980000 9 99393 9 96607 9 99435 9 96565
67. n 59 AI 6 pin 25 AI 6 pin 58 AI 6 GND pin 24 A17 pin 57 A17 pin 23 A17 GND pin 56 X Series AI 8 pin 68 AI 8 pin 34 AI 8 GND pin 67 Simultaneous MIO P RER AI 9 pin 33 AI 9 pin 66 AI 9 GND pin 32 AL 10 pin 65 AI 11 pin 30 AI 10 pin 3D AL 11 pin 63 AI 10 GND pin 64 AI 11 GND pin 29 AI 12 pin 28 AI 12 pin 61 AI 12 GND pin 27 AI 13 pin 60 AI 13 pin 26 AI 13 GND pin 59 AI 14 pin 25 AI 14 pin 58 AI 14 GND pin 24 AI 15 pin 57 AI 15 pin 23 AT 15 GND pin 56 locations NI 6358 6368 X Series simultaneous MIO devices tt NI 6356 6358 6366 6368 X Series simultaneous MIO devices Pin numbers are given for 68 pin connectors only If you are using a BNC DAQPad USB screw terminal 34 pin IDC header 50 pin IDC header 37 pin or 100 pin connector refer to your device user documentation for signal connection If your calibrator has a guard connection connect that terminal to AI GND If your calibrator does not have a guard connection and has a floating output connect the negative output to AI GND If the calibrator output is not floating do not make any other connections For more information refer to the user documentation for the device you are using NI 632x 634x 635 1 6353 6361 6363 X Series MIO devices You must perform verification on all r
68. o denotes parameter names and hardware labels Italic text denotes variables emphasis a cross reference or an introduction to akey concept Italic text also denotes text that is a placeholder for a word or value that you must supply Monospace text denotes text or characters that you should enter from the keyboard sections of code programming examples and syntax examples This font is also used for the proper names of disk drives paths directories programs subprograms subroutines device names functions operations variables filenames and extensions Italic text in this font denotes text that is a placeholder for a word or value that you must supply Text in this font denotes a specific platform and indicates that the text following it applies only to that platform Calibration requires the latest NI DAQmx driver NI DAQmx includes high level function calls to simplify the task of writing software to calibrate devices The driver supports many programming languages including LabVIEW LabWindows CVI C C C and Visual Basic NET Documentation The following documents are your primary references for writing your calibration utility with NI DAQmx e The DAQ Getting Started guides for NI DAQ 9 2 or later provides instructions for installing and configuring NI DAQ devices NI USB 621x users should refer to the NJ DAQmx for USB Devices Getting Started Guide e The NI DAQmx Help includes information about creat
69. og Input Values Filter Off Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 979320 9 980680 9 978950 9 981050 10 10 0 0 000000 0 000331 0 000331 0 000331 0 000331 10 10 Neg FS 9 980000 9 980680 9 979320 9 981050 9 978950 5 5 Pos FS 4 990000 4 989635 4 990365 4 989450 4 990550 5 5 0 0 000000 0 000166 0 000166 0 000166 0 000166 5 5 Neg FS 4 990000 4 990365 4 989635 4 990550 4 989450 2 2 Pos FS 1 996000 1 995850 1 996150 1 995776 1 996224 2 2 0 0 000000 0 000071 0 000071 0 000071 0 000071 uone10d107 suawndgsuj jeuoney G9 BNPIIOS UOHEIQ E SALAS X S N I 4 Table 55 NI 6280 6281 6284 6289 Analog Input Values Filter Off Continued Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 2 2 Neg FS 1 996000 1 996150 1 995850 1 996224 1 995776 1 1 Pos FS 0 998000 0 997905 0 998096 0 997868 0 998132 1 1 0 0 000000 0 000046 0 000046 0 000046 0 000046 1 1 Neg FS 0 998000 0 998096 0 997905 0 998132 0 997868 0 5 0 5 Pos FS 0 499000 0 498941 0 499059 0 498923 0 499077 0 5 0 5 0 0 000000 0 000034 0 000034 0 000034 0 000034 0 5 0 5 Neg FS 0 499000 0 499059 0 498941 0 499077 0 498923
70. ory The default password is NI B E M S X Series Calibration Procedure 20 Complete the following steps to perform device adjustment with a calibrator Connect the calibrator to the device Refer to Table 4 to determine connections between the device and the calibrator The calibrator connections depend on the resolution of the device you are calibrating NG Note If you are using the E M S Series calibration hardware adapter connect the device as described in the E Series Calibration Fixture Installation Guide Table 4 Calibrator Connections Calibrator Positive Negative Guard Additional Device Output Output Connection Connections 12 Bit E Series AI 8 AI SENSE AI GND Connect AO 0 pin 34 pin 62 pin 67 pin 22 line to ALO pin 68 16 Bit E Series AIO AI 8 AI GND M X Series MIO pin 68 pin 34 pin 67 S X Series AIO AIO AIO GND Simultaneous MIO pin 68 pin 34 pin 67 locations documentation t NI 632x 634x 6351 6353 6361 6363 X Series MIO devices NI 6356 6358 6366 6368 X Series simultaneous MIO devices Pin numbers are given for 68 pin connectors only If you are using a BNC DAQPad USB screw terminal 34 pin IDC header 50 pin IDC header 37 pin or 100 pin connector refer to your device user documentation for signal connection Tig your calibrator does not have a guard connection and has a floating output connect the negative output
71. os FS 4 990000 4 989034 4 990966 4 988585 4 991415 5 5 0 000000 0 000000 0 000705 0 000705 0 000705 0 000705 5 5 Neg FS 4 990000 4 990966 4 989034 4 991415 4 988585 1 1 Pos FS 0 998000 0 997778 0 998222 0 997688 0 998312 1 1 0 000000 0 000000 0 000160 0 000160 0 000160 0 000160 1 1 Neg FS 0 998000 0 998222 0 997778 0 998312 0 997688 0 2 0 2 Pos FS 0 199600 0 199529 0 199671 0 199511 0 199689 0 2 0 2 0 000000 0 000000 0 000050 0 000050 0 000050 0 000050 0 2 0 2 Neg FS 0 199600 0 199671 0 199529 0 199689 0 199511 uone10d107 sjuawnysul jeuoney 19 BNPIIOS UOHEIQ E SALAS X S N I 4 Table 46 NI USB 6212 6216 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977391 9 982609 9 976493 9 983507 10 10 0 000000 0 000000 0 002000 0 002000 0 002000 0 002000 10 10 Neg FS 9 980000 9 982609 9 977391 9 983507 9 976493 Table 47 NI USB 6212 6216 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 00000 4 99975 5 00025 BNPIIOS VOREIAIEI SALAS X S N 3 8 89 wo9 u NI 6220 6221 6224 6225 6229 16 Bit Resolution Tables 48 through 50 include values for the PCI 6220 analog input only PXI 6220 analog input only PCI 6221 37 pin PCI 6221 68 pin PXI 6221 all USB 6221 v
72. rameter taskHandle taskHandle 9 Repeat steps 3 through 8 until all values have been tested 10 Disconnect the DMM from AO 0 and reconnect it to AO 1 making the connections shown in Table 3 11 Repeat steps 3 through 10 for all AO channels on the device 12 Disconnect your DMM from the device You have finished verifying the analog output levels on your device National Instruments Corporation B E M S X Series Calibration Procedure Counter Verification This procedure verifies the performance of the counter B E M S X Series devices have only one timebase to verify so only Counter 0 needs to be checked It is not possible to adjust this timebase so only verification can be performed NG Note The test limits used in this document assume a maximum temperature drift of 10 C from the last external calibration and a maximum temperature drift of 1 C from the last self calibration Refer to the Calibration Procedure section for more information and instructions on reading your device temperature and comparing it against the device temperature during the last external calibration Complete the following steps to perform checks on the counter 1 Connect your counter positive input to CTR 0 OUT pin 2 and your counter negative input to D GND pin 35 2 Create a task using DAQmxCreateTask LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxCreateTask with the following f f paramet
73. s NI SH37F 37M 1 Use with B M Series devices with 37 pin D SUB connectors DAQ accessory NI E M S Series calibration Connects your calibration equipment to your 68 pin E M S X Series device If you programmatically control this fixture you will not need to disconnect and reconnect cables at each step of the procedure NI 61xx Devices S Series devices must use revision B or later of the calibration adapter NI SCC 68 V O connector block with screw terminals general breadboard area bus terminals and four expansion slots for SCC signal conditioning modules NI SCB 68 Shielded I O connector block with 68 screw terminals for easy signal connection to 68 or 100 pin DAQ devices NI CB 68LP Low cost termination accessories with 68 screw terminals for NI CB 68LPR easy connection of field I O signals to 68 pin DAQ devices NI TBX 68 NI BNC 2110 Desktop and DIN rail mountable BNC adapter you can connect to DAQ devices NI CB 37F LP Low cost termination accessory with 37 screw terminals for easy connection of field I O signals to 37 pin DAQ devices Connect the 68 pin cable labeled MIO 16 to the accessory The 68 pin cable labeled Extended I O remains unconnected For M S X Series devices with two connectors you will need to disconnect the calibration equipment from Connector 0 and reconnect to Connector 1 midway through the verification procedure National Instruments Corporation 5 B E
74. to AI GND If the calibrator output is not floating do not make any other connections For more information refer to your DAQ device user National Instruments Corporation Set your calibrator to output a voltage of 7 5 V NI 6010 Devices Set your calibrator to output a voltage of 3 75 V NI 6115 6120 Devices Set your calibrator to output a voltage of 5 0 V NI 6143 Devices Set your calibrator to output a voltage of 4 5 V 21 B E M S X Series Calibration Procedure 3 Open a calibration session on your device using the DAQmx Initialize External Calibration VI The default password is NI 3 LabVIEW input values Note Throughout the procedure refer to the NI DAQmx function call parameters for the LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxInitExtCal with the following parameters deviceName dev1 password NI calHandle amp calHandle 4 Perform an external calibration adjustment using the DAQmx Adjust Y Series Calibration VI where Y is the letter of the device series DAQmxMSeriesCalAdjust DAQmxESeriesCalAdjust Note NI 6010 Devices Use the DAQmx Adjust M Series Calibration VI Note NI 6013 6014 6015 6016 Devices Use the DAQmx Adjust E Series Calibration VI LabVIEW Block Diagram NI DAQmx Function Call Call DAOmxYSeriesCalAdjust with the following parameters calHandle calHandle reference Voltage 7 5 3 75 5 0r 4 5
75. ur Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978710 9 981290 9 977811 9 982189 10 10 0 000000 0 000000 0 000968 0 000968 0 000968 0 000968 10 10 Neg FS 9 980000 9 981290 9 978710 9 982189 9 977811 5 5 Pos FS 4 990000 4 989320 4 990680 4 988871 4 991129 5 5 0 000000 0 000000 0 000484 0 000484 0 000484 0 000484 5 5 Neg FS 4 990000 4 990680 4 989320 4 991129 4 988871 1 1 Pos FS 0 998000 0 997851 0 998149 0 997761 0 998239 1 1 0 000000 0 000000 0 000104 0 000104 0 000104 0 000104 1 1 Neg FS 0 998000 0 998149 0 997851 0 998239 0 997761 0 2 0 2 Pos FS 0 199600 0 199560 0 199640 0 199542 0 199658 0 2 0 2 0 000000 0 000000 0 000025 0 000025 0 000025 0 000025 02 0 2 Neg FS 0 199600 0 199640 0 199560 0 199658 0 199542 uone10d107 sjuawnysul jeuoney 18 BNPIIOS UOHEIQ E SALAS X S N I 4 Table 80 NI 6341 6343 Analog Output Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977630 9 982370 9 976732 9 983268 10 10 0 000000 0 000000 0 001858 0 001858 0 001858 0 001858 10 10 Neg FS 9 980000 9 982370 9 977630 9 983268 9 976732 Table 81 NI 6341 6343 Counter Values Set Point MHz
76. utput Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 800000 9 792335 9 807665 9 791924 9 808076 10 10 0 0 0000000 0 005930 0 005930 0 005930 0 005930 10 10 Neg FS 9 800000 9 807665 9 792335 9 808076 9 791924 Table 16 NI 6023E 6024E 6025E Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99950 5 00050 uone10d107 suswndgsuj jeuoney EE BNPIIOS VOREIAIIEI SALAS X S N I 4 NI DAQCard 6024E 12 Bit Resolution Tables 17 through 19 include values for the DAQCard 6024E Table 17 NI DAQCard 6024E Analog Input Values Range V Test Point 24 Hour Limits 1 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 800 9 7816 9 8184 9 7812 9 8188 10 10 0 0 000 0 0099 0 0099 0 0099 0 0099 10 10 Neg FS 9 800 9 8184 9 7816 9 8188 9 7812 5 5 Pos FS 4 900 4 8937 4 9063 4 8935 4 9065 5 5 0 0 000 0 0049 0 0049 0 0049 0 0049 5 5 Neg FS 4 900 4 9063 4 8937 4 9065 4 8935 0 5 0 5 Pos FS 0 490 0 48906 0 49094 0 48904 0 49096 0 5 0 5 0 0 000 0 00051 0 00051 0 00051 0 00051 0 5 0 5 Neg FS 0 490 0 49094 0 48906 0 49096 0 48904 0 05 0 05 Pos FS 0 049 0 048884 0 049116 0
77. vice has warmed up for the recommended time period generally between 15 and 30 minutes for most DAQ devices Refer to your DAQ device specifications document for the recommended warm up time for your device Call self calibration before doing the first verification This function measures the onboard reference voltage of the device and adjusts the self calibration constants to account for any errors caused by short term fluctuations in the environment Disconnect all external signals when you self calibrate a device LabVIEW Block Diagram NI DAQmx Function Call Call DAQmxSel fCa1 with the following parameter deviceName dev1 National Instruments Corporation 7 B E M S X Series Calibration Procedure You also can initiate self calibration using MAX by completing the following steps 1 Launch MAX 2 Select My System Devices and Interfaces your device 3 Initiate self calibration using one of the following methods e Click Self Calibrate in the upper right corner of MAX e Right click the name of the device in the MAX configuration tree and select Self Calibrate from the drop down menu Checking Device Temperature Changes Device temperature changes greater than 10 C since the previous external calibration or greater than 1 C since the previous self calibration can cause you to incorrectly calibrate your device After self calibrating your device as described in the Self Calibration section
78. wer Limit V Upper Limit V 10 10 Pos FS 9 980000 9 977671 9 982329 9 976773 9 983227 10 10 0 0 000000 0 001730 0 001730 0 001730 0 001730 10 10 Neg FS 9 980000 9 982329 9 977671 9 983227 9 976773 Table 50 NI 6220 6221 6224 6225 6229 Counter Values Set Point MHz Lower Limit MHz Upper Limit MHz 5 4 99975 5 00025 NI 6250 6251 6254 6255 6259 16 Bit Resolution Tables 51 through 53 include values for the PCI 6250 analog input only PXI 6250 analog input only PCI 6251 NI PCIe 6251 PX1 6251 NI PXIe 6251 all USB 6251 variants PCI 6254 analog input only PX1 6254 analog input only PCI 6255 PXI 6255 all USB 6255 variants PCI 6259 NI PCIe 6259 PXI 6259 NI PXIe 6259 and all USB 6259 variants Table 51 NI 6250 6251 6254 6255 6259 Analog Input Values BNPIIOS VOREIAIEI SALAS X S N 3 8 09 Range V Test Point 24 Hour Limits 2 Year Limits Minimum Maximum Location Value V Lower Limit V Upper Limit V Lower Limit V Upper Limit V 10 10 Pos FS 9 980000 9 978447 9 981553 9 978078 9 981922 10 10 0 0 000000 0 001094 0 001094 0 001094 0 001094 10 10 Neg FS 9 980000 9 981553 9 978447 9 981922 9 978078 5 5 Pos FS 4 990000 4 989174 4 990826 4 988989 4 991011 5 5 0 0 000000 0 000547 0 000547 0 000547 0 000547 5 5 Neg FS 4 990000 4 990826 4 989174 4 991011 4 988989 2 2 Pos FS 1 996000 1 995663 1 996337 1 995589
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