Scanner 2000 Hardware Manual Rev7 Copia

NUFLO™

Scanner® 2000 microEFM

Hardware User Manual

Manual No. 9A-30165023, Rev. 07

Important Safety Information

Symbols and Terms Used in this Manual

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CAUTION: Indicates actions or procedures which if not performed correctly may lead to personal injury or incorrect function of the instrument or connected equipment.

Important: Indicates actions or procedures which may affect instrument operation or may lead to an instrument response which is not planned.

Symbols Marked on Equipment

Attention! Refer to manual Protective (earth) ground

Technical Support Contact Information

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Scanner® 2000 microEFM Table of Contents

Contents

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Section 1—Introduction ................................................................................................................................... 7)ORZ�5DWH�DQG�)OXLG�3URSHUW\�&DOFXODWLRQV��

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Section 2—Installing the Scanner 2000........................................................................................................ 252YHUYLHZ��

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Table of Contents Scanner® 2000 microEFM

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Section 5—Scanner 2000 Maintenance ........................................................................................................ 75/LWKLXP�%DWWHU\�3DFN�5HSODFHPHQW�� &LUFXLW�$VVHPEO\�5HSODFHPHQW�� .H\SDG�5HSODFHPHQW�� 097�5HSODFHPHQW�� 80

Section 6—Spare Parts .................................................................................................................................. 817DEOH��²6FDQQHU��PLFUR()0�6SDUH�3DUWV�� 817DEOH��²6FDQQHU��PLFUR()0�6SDUH�3DUWV��FRQW¶G�� 7DEOH��²6FDQQHU��PLFUR()0�6SDUH�3DUWV��$7(;�$SSURYHG�� 7DEOH��²([SORVLRQ�3URRI�57'�DQG�&DEOH�$VVHPEOLHV��&6$�$SSURYHG�� 7DEOH��²0XOWL�9DULDEOH�7UDQVPLWWHUV��

Appendix A—Scanner 2000 Hardware Options ..........................................................................................A-1([SORVLRQ�3URRI�&RQWURO�6ZLWFK��A-1([SORVLRQ�3URRI�57'�$VVHPEO\��$��

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Scanner® 2000 microEFM Table of Contents

Appendix B—Lithium Battery Information ..................................................................................................B-1/LWKLXP�%DWWHU\�'LVSRVDO��%��7UDQVSRUWDWLRQ�,QIRUPDWLRQ��%��0DWHULDO�6DIHW\�'DWD�6KHHW��%��

Appendix C—Communications Protocol ....................................................................................................C-1&RPPXQLFDWLRQV�3URWRFRO��C-1,QWURGXFWLRQ��C-16XSSRUWHG�&RPPDQGV��C-1'DWD�7\SHV��&��6HFXULW\��&��5HJLVWHUV��&��3URGXFW�&RGH��C-5)LUPZDUH�9HUVLRQ�5HJLVWHU�7DEOH�9HUVLRQ��C-50DQXIDFWXUH�'DWH�6DOHV�'DWH��C-5

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Table of Contents Scanner® 2000 microEFM

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Scanner® 2000 microEFM Section 1

Section 1—IntroductionThe NuFlo Scanner 2000 microEFM (Figure 1.1, page 10) packs the gas, steam, and liquid measurement FDSDELOLWLHV�FRPPRQO\�DYDLODEOH�RQO\�LQ�ODUJH�LQVWUXPHQWV�LQWR�D�FRPSDFW��ORZ�SRZHU�ÀRZ�FRPSXWHU�WKDW�LV�rated for explosion-proof installations.

The instrument can operate on a single lithium battery pack for more than 1 year, making it ideal for remote locations where power supply options are limited.

7KH�6FDQQHU��LV�DQ�HFRQRPLFDO�FKDUW�UHFRUGHU�UHSODFHPHQW��VWDQG�DORQH�WRWDOL]HU��DQG�ÀRZ�FRPSXWHU��DOO�in one. It measures and computes standard volumes of gas, steam, petroleum liquids, and generic liquids with a high degree of accuracy. These measurements are typically based on the differential pressure outputs of an RUL¿FH�SODWH�RU�D�FRQH�PHWHU��RU�WKH�OLQHDU�SXOVH�RXWSXW�RI�D�WXUELQH��SRVLWLYH�GLVSODFHPHQW�RU�YRUWH[�ÀRZPHWHU��This combination is ideal for the gas and water measurement associated with coal bed methane operations.

Combining the differential pressure and static pressure inputs of an integral MVT with a process temperature input, the Scanner 2000 offers everything needed for an AGA-3 run in a compact, explosion-proof device. 6LPLODUO\��FRPSHQVDWHG�OLTXLG�PHDVXUHPHQWV�FDQ�EH�REWDLQHG�ZLWK�DQ�RUL¿FH�PHWHU�RU�FRQH�PHWHU�LQVWDOODWLRQ��XVLQJ�ÀRZ�FDOFXODWLRQV�EDVHG�RQ�$*$��RU�,62��FDOFXODWLRQ�PHWKRGV��

Alternatively, the Scanner 2000 can be paired with a pulse output gas meter to obtain gas measurements in FRPSOLDQFH�ZLWK�$*$��VWDQGDUGV��/LYH�WHPSHUDWXUH�DQG�SUHVVXUH�LQSXWV�DQG�WKH�$*$��DOJRULWKP�DOORZ�computations based on gas turbine, rotary or vortex meters.

When liquid measurement is the goal and pressure inputs are not required, simply purchase the Scanner 2000 ZLWKRXW�WKH�097�DQG�PRXQW�LW�GLUHFWO\�WR�D�OLTXLG�WXUELQH�PHWHU��WKHQ�LQVWDOO�DQ�57'�LQ�WKH�ÀRZ�OLQH�IRU�WHPSHUDWXUH�FRPSHQVDWLRQ��7KH�6FDQQHU��XVHV�DOJRULWKPV�EDVHG�RQ�$*$��SULQFLSOHV�WR�JLYH�DFFXUDWH�measurement of API liquids and other generic liquids.

The addition of an optional expansion board expands the input/output capabilities to include a second turbine PHWHU�LQSXW��HQDEOLQJ�WKH�6FDQQHU��WR�PHDVXUH�XS�WR�WKUHH�VHSDUDWH�ÀRZ�UXQV��ZKLFK�FRXOG�UHSUHVHQW�D�gas measurement, water measurement and oil measurement. A pulse input, two analog inputs, and an analog output are also included on the expansion board.

(YHU\�6FDQQHU��PLFUR()0�LV�VKLSSHG�FRPSOHWH�ZLWK�VRIWZDUH�IRU�IXOO\�FRQ¿JXULQJ�KDUGZDUH�DQG�ÀRZ�FDOFXODWLRQV��FDOLEUDWLQJ�LQSXWV��DQG�FROOHFWLQJ�DQG�YLHZLQJ�ÀRZ�KLVWRU\��:LWK�KDUGZDUH�DQG�VRIWZDUH�LQFOXGHG�in the standard product offering, the Scanner 2000 microEFM is a complete alternative to the chart recorder. Plus, because the Scanner can be powered by a lithium battery pack that is contained in the enclosure, the installation cost for a Scanner 2000 is about the same as that for a chart recorder. High-speed communication via industry standard Modbus® and Enron Modbus® protocols makes the integration of input and output devices easy and effective.

)RU�D�FRPSOHWH�OLVW�RI�VSHFL¿FDWLRQV��VHH�Table 1.1, page 13.

Flow Rate and Fluid Property Calculations7KH�6FDQQHU��FDOFXODWHV�ÀRZ�UDWHV�DQG�ÀXLG�SURSHUWLHV�IRU�QDWXUDO�JDV��VWHDP�DQG�OLTXLG�ÀRZ��7KH�following descriptions identify the industry standards upon which these calculations are based.

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Section 1 Scanner® 2000 microEFM

Natural Gas7KH�6FDQQHU��¶V�QDWXUDO�JDV�FDOFXODWLRQV�DQG�GDWD�VWRUDJH�FRQIRUP�WR�$*$��$*$��$*$��$3,��DQG�,62��LQGXVWU\�VWDQGDUGV��7KH�ÀRZ�FDOFXODWLRQV�FRPSHQVDWH�IRU�WKH�HIIHFWV�RI�SUHVVXUH��WHPSHUDWXUH��DQG�JDV�FRPSRVLWLRQ�WR�FDOFXODWH�WKH�YROXPH�RI�JDV�PHDVXUHG�DW�VSHFL¿HG�EDVH�FRQGLWLRQV��7KHVH�FDOFXODWLRQV�W\SLFDOO\�UHTXLUH�FRQ¿JXUDWLRQ�RI�LQSXWV�LQFOXGLQJ�GLIIHUHQWLDO�SUHVVXUH��VWDWLF�SUHVVXUH��SURFHVV�WHPSHUDWXUH��DQG�IRU�$*$��D�WXUELQH�PHWHU�LQSXW�

The integral multi-variable transmitter (MVT) is used to measure static pressure and differential pressure. A 4-wire, 100-ohm platinum RTD is recommended for measuring process temperature (except when measuring VWHDP��:KHUH�WHPSHUDWXUH�LV�UHODWLYHO\�FRQVWDQW��D�¿[HG�WHPSHUDWXUH�YDOXH�PD\�EH�FRQ¿JXUHG�

2UL¿FH�3ODWH��'3�,QSXW��7KH�6FDQQHU��FDOFXODWHV�QDWXUDO�JDV�ÀRZ�UDWH�IURP�RUL¿FH�SODWHV�XVLQJ�FDOFXODWLRQ�PHWKRGV�IRXQG�LQ�WKH�$*$��RU�,62��PHDVXUHPHQW�VWDQGDUGV��7KH�QDWXUDO�JDV�ÀXLG�SURSHUWLHV��VXFK�DV�GHQVLW\�DQG�FRPSUHVVLELOLW\��DUH�FDOFXODWHG�LQ�DFFRUGDQFH�ZLWK�$*$��'HWDLO�DQG�*URVV�PHWKRGV��+HDWLQJ�YDOXHV�DUH�FDOFXODWHG�LQ�DFFRUGDQFH�ZLWK�$*$�5HSRUW��3DUW��$SSHQGL[�)�DQG�*3$��XVLQJ�WKH�FRQVWDQWV�GH¿QHG�LQ�*3$��0RODU�PDVV��PROHFXODU�ZHLJKW��FDOFXODWLRQV�DUH�DOVR�EDVHG�RQ�*3$��

1X)OR�&RQH�0HWHU��'3�,QSXW��7KH�6FDQQHU��FDOFXODWHV�QDWXUDO�JDV�ÀRZ�UDWH�IURP�FRQH�PHWHUV�XVLQJ�LQGXVWU\�UHFRJQL]HG�DOJRULWKPV�LGHQWL¿HG�LQ�WKH�1X)OR�&RQH�0HWHU�8VHU�0DQXDO��7KH�QDWXUDO�JDV�ÀXLG�SURSHUWLHV��VXFK�DV�GHQVLW\�DQG�FRPSUHVVLELOLW\��DUH�FDOFXODWHG�LQ�DFFRUGDQFH�ZLWK�$*$��'HWDLO�DQG�*URVV�methods). Heating values are calculated in accordance with AGA Report 3, Part 3, Appendix F and GPA ��XVLQJ�WKH�FRQVWDQWV�GH¿QHG�LQ�*3$��0RODU�PDVV��PROHFXODU�ZHLJKW��FDOFXODWLRQV�DUH�DOVR�EDVHG�RQ�*3$��

*DV�7XUELQH�0HWHU��)UHTXHQF\�,QSXW��7KH�6FDQQHU��FDOFXODWHV�QDWXUDO�JDV�ÀRZ�UDWH�IURP�D�JDV�WXUELQH�PHWHU�XVLQJ�FDOFXODWLRQV�IRXQG�LQ�WKH�$*$��PHDVXUHPHQW�VWDQGDUG��7KH�QDWXUDO�JDV�ÀXLG�SURSHUWLHV��VXFK�DV�GHQVLW\�DQG�FRPSUHVVLELOLW\��DUH�FDOFXODWHG�LQ�DFFRUGDQFH�ZLWK�$*$��'HWDLO�DQG�*URVV�PHWKRGV��+HDWLQJ�YDOXHV�DUH�FDOFXODWHG�LQ�DFFRUGDQFH��ZLWK�$*$�5HSRUW��3DUW��$SSHQGL[�)�DQG�*3$��XVLQJ�WKH�FRQVWDQWV�GH¿QHG�LQ�*3$��0RODU�PDVV��PROHFXODU�ZHLJKW��FDOFXODWLRQV�DUH�DOVR�EDVHG�RQ�*3$��

SteamThe Scanner 2000’s saturated steam calculations compensate for the effects of pressure, temperature, steam properties, and steam quality.

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1X)OR�&RQH�0HWHU��'3�,QSXW�. The Scanner 2000 supports steam measurement using industry-recognized DOJRULWKPV�LGHQWL¿HG�LQ�WKH�1X)OR�&RQH�0HWHU�8VHU�0DQXDO��)OXLG�SURSHUWLHV�IRU�VWHDP�DUH�FDOFXODWHG�LQ�DFFRUGDQFH�ZLWK�WKH�,$3:6�,QGXVWULDO�)RUPXODWLRQ��,)��VWDQGDUG��7HPSHUDWXUH�LV�FDOFXODWHG�DFFRUGLQJ�WR�,)��IRU�VDWXUDWHG�VWHDP��EDVHG�RQ�VWDWLF�SUHVVXUH��7KH�RSWLRQDO�6WHYHQ�ZHW�FRUUHFWLRQ�PHWKRG�LV�VXSSRUWHG�IRU�WKH�PHDVXUHPHQW�RI�YDSRU�DQG�ÀXLG�

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/LTXLG�7XUELQH�0HWHU��)UHTXHQF\�,QSXW��7KH�6FDQQHU��FDOFXODWHV�ÀRZ�UDWHV�LQ�DFFRUGDQFH�ZLWK�WKH�PHDVXUHPHQW�SULQFLSOHV�XSRQ�ZKLFK�WKH�$*$��VWDQGDUG�LV�EDVHG��7KH�XVHU�VXSSOLHV�D�OLQHDU�RU�PXOWL�SRLQW�calibration factor, and the instrument performs the required compensation calculations, based on the RTD input.

Uncompensated Liquid 7KH�6FDQQHU��PHDVXUHV�XQFRPSHQVDWHG�OLTXLG�ÀRZ�EDVHG�RQ�WKH�LQSXW�IURP�D�OLTXLG�WXUELQH�PHWHU�RU�3'��meter.

/LTXLG�7XUELQH�0HWHU��)UHTXHQF\�,QSXW��RU�3'�0HWHU��3XOVH�,QSXW��7KH�6FDQQHU��FDOFXODWHV�ÀRZ�UDWH�from a liquid turbine meter via a frequency input, or from a contact closure (which requires the pulse input on the optional expansion board). Flow rates and totals are calculated using a user-supplied linear or multi-point FDOLEUDWLRQ�IDFWRU�LQ�DFFRUGDQFH�ZLWK�$3,�0DQXDO�RI�3HWUROHXP�0HDVXUHPHQW�6WDQGDUGV��&KDSWHU��6HFWLRQ��0HDVXUHPHQW�RI�/LTXLG�+\GURFDUERQV�E\�7XUELQH�0HWHUV��

Standard FeaturesThe standard Scanner 2000 microEFM features an explosion-proof enclosure with two conduit openings for VLJQDO�FDEOH��D�ODUJH�/&'��D�WKUHH�EXWWRQ�NH\SDG��LQWHJUDO�PXOWL�YDULDEOH�WUDQVPLWWHU�ZLWK�LQWHJUDO�YHQW�SOXJV��and a lithium double-D cell battery pack (Figure 1.1, page 10). MVTs are available in NACE and non-NACE models, and with bottom ports (gas measurement) and side ports (liquid and steam measurement). For devices that are powered externally, a double-A cell battery pack is available for backup power.

$OWHUQDWLYHO\��6FDQQHU��FRQ¿JXUDWLRQV�DUH�DYDLODEOH�IRU�GLUHFW�FRQQHFWLRQ�WR�D�WXUELQH�PHWHU��ZKLFK�LV�ideal for applications that do not require pressure measurement. The CSA-approved connection is shown in Figure 1.2, page 10; the ATEX-approved connection is shown in Figure 1.3, page 11.

The main circuit board offers a turbine input, two communications ports, an RTD input, and a digital output. See Section 2—Installing the Scanner 2000, page �� for wiring diagrams.

10


MVT adapter(NACE-compliant MVT available)

Multi-variable transmitter

High pressure/low pressureport indicator

Integral vent plugs

LCD / keypad

Mount for pole-mount hardware

Ground screw

Conduit plug

Enclosure lid(remove to access keypad)

Figure 1.1—Scanner 2000 microEFM with integral MVT; MVTs are available with bottom ports (shown) or side ports

LCD / keypad

CSA-approved 3/4 in. to 1 in. adapter

CSA-approvedunion (connects directly to the turbine meter)

LCD / keypad


Ground screw

Conduit plug


Figure 1.2—Scanner 2000 microEFM for direct connection to a turbine meter (CSA-approved)

11


ATEX-approved standoff (for use with Barton 7000 Series meters only)

LCD / keypad


Ground screw

Conduit plug


Figure 1.3—Scanner 2000 microEFM for direct connection to a Barton 7000 Series turbine meter (ATEX-approved)

3URGXFW�,GHQWL¿FDWLRQ(DFK�GHYLFH�LV�ODEHOHG�ZLWK�D�VHULDO�WDJ�WKDW�LGHQWL¿HV�WKH�SURGXFW�E\�PRGHO�QXPEHU�DQG�VHULDO�QXPEHU�DQG�LGHQWL¿HV�WKH�PD[LPXP�RSHUDWLQJ�SUHVVXUH��ZRUNLQJ�SUHVVXUH��DQG�GLIIHUHQWLDO�SUHVVXUH�RI�WKH�LQWHJUDO�097��)LJXUH��$�GHVFULSWLRQ�RI�WKH�HOHFWULFDO�SURWHFWLRQ�DIIRUGHG�E\�6,5$�FHUWL¿FDWLRQ�DQG�DVVRFLDWHG�VDIHW\�markings is also provided in Figure 1.4.

Equipment Group II, Category 2 (hazardous conditions are likely to occur in normal operation occasionally (>10<1000 hours/year)Explosive Atmosphere: Gas, Dust

Flameproof for explosive gas environments other than mines; temperature class

CE marking and number of notified body responsible for production

Explosion-proof marking

Certification number

Temperature tested for dust and suitable for use in Zone 21 area; ingress protection: dust-tight and protectedagainst the effects of continuous immersion in water; maximum surface temperature: 85°C

Figure 1.4—Device serial tag

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Hardware Options6HYHUDO�KDUGZDUH�RSWLRQV�DUH�DYDLODEOH�IRU�FXVWRPL]LQJ�WKH�6FDQQHU��WR�D�XVHU¶V�VSHFL¿F�QHHGV��

Input/Output Expansion Board (Kit: PN 9A-30188004)An expansion board allows the instrument to support a differential pressure meter run and two turbine meter runs simultaneously. The board features a turbine input, a pulse input, two analog inputs, an analog output, DQG��.%�RI�PHPRU\��6HH�$SSHQGL[�$²6FDQQHU��+DUGZDUH�2SWLRQV�for wiring diagrams.

Standard Device (Main Board Only)

Expanded Device (Main Board and Expansion Board)

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��FRQ¿JXUDEOH�GLJLWDO�RXWSXW ��FRQ¿JXUDEOH�GLJLWDO�RXWSXW² ��FRQ¿JXUDEOH�DQDORJ�RXWSXW��P$�

Explosion-Proof Control Switch (CSA: PN 9A-30054001; ATEX: Part No. 9A-30054002)'XULQJ�QRUPDO�RSHUDWLRQ��WKH�/&'�GLVSOD\V�WKH�VHOHFWHG�SDUDPHWHUV�LQ�D�FRQWLQXRXV�VFUROO��7KH�H[SORVLRQ�SURRI�FRQWURO�VZLWFK�DOORZV�WKH�XVHU�WR�PDQXDOO\�FRQWURO�WKH�GLVSOD\�RI�SDUDPHWHUV�RQ�WKH�/&'�DQG�YLHZ�daily logs instantaneously without removing the instrument cover. The control switch is available in both a &6$�DSSURYHG�PRGHO��3DUW�1R��$��DQG�DQ�$7(;�DSSURYHG�PRGHO��3DUW�1R��$��6HH�$SSHQGL[�$²6FDQQHU��+DUGZDUH�2SWLRQV�for details.

Explosion-Proof Flexible RTD7KH�%DUWRQ�0RGHO��ÀH[LEOH�DUPRUHG�57'�WHPSHUDWXUH�VHQVRU�SURYLGHV�OLYH�WHPSHUDWXUH�WR�WKH�6FDQQHU�2000. It is installed in a threaded conduit opening in the Scanner 2000 housing, and requires no conduit seals for installation. This instrument is CSA-approved for use in hazardous area installations. See Appendix A—6FDQQHU��+DUGZDUH�2SWLRQV�for details.

Explosion-Proof Communications Adapter (CSA: PN 9A-90017004; ATEX: PN 9A-90017008)The explosion-proof communications adapter provides a quick-connect option for communicating with the Scanner 2000 (downloading logs, for example) via laptop or PC without removing the instrument cover. 2SWLRQDO�DFFHVVRULHV�LQFOXGH�DQ�56��WR�56��FRQYHUWHU��7KH�&20�DGDSWHU�LV�DYDLODEOH�LQ�ERWK�D�&6$�DSSURYHG�PRGHO��3DUW�1R��$��DQG�DQ�$7(;�DSSURYHG�PRGHO��3DUW�1R��$��6HH�$SSHQGL[�$²6FDQQHU��+DUGZDUH�2SWLRQV�for details.

Pole-Mounting Kit (PN 9A-30028004)$�KDUGZDUH�NLW�FRQVLVWV�RI�D�PRXQWLQJ�EUDFNHW��WZR�8�EROWV�DQG�QXWV�DOORZV�WKH�6FDQQHU��WR�EH�PRXQWHG�on a 2-in. pole. The mounting bracket also provides the extension necessary to keep the instrument in a YHUWLFDO�SRVLWLRQ�ZKHQ�LW�LV�EXONKHDG�PRXQWHG�WR�D�ÀDW��YHUWLFDO�VXUIDFH��6HH�Pole-Mount Installation, page ��, for details.

Scanner 1000 Series Communication and Accessory PackagesThe NuFlo Scanner 1000 Series Communication and Accessory Packages provide wireless communications or telephone interface communication devices and the sub-systems to power them. Power can also be SURYLGHG�IRU�FRQWURO�HTXLSPHQW�VXFK�DV�VROHQRLGV�DQG�KLJK�FDSDFLW\�UHOD\V��7KHVH�SDFNDJHV�DUH�&6$�FHUWL¿HG�for Class I, Division 2 and NEMA 4 or 4X locations.

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Fluid Property Calculations (cont’d on next page)

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MVT Accuracy(cont’d on next page)

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16


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Turbine Setting Input Sensitivity��±��+] ��±��+] ��±��+]

/RZ��P9� ��P9SS ��P9SS ��P9SS0HG��P9� ��P9SS ��P9SS ��P9SS+LJK��P9� ��P9SS ��P9SS ��P9SS0D[��P9� ��P9SS ��P9SS ��P9SS

Output (Main Board) 'LJLWDO�2XWSXW�� &RQ¿JXUDEOH�DV�SXOVH�RXWSXW�RU�DODUP�RXWSXW�� 6ROLG�VWDWH�UHOD\�� 2XWSXW�UDWLQJ��P$�PD[�#��9'&:KHQ�FRQ¿JXUHG�DV�SXOVH�RXWSXW�� &RQ¿JXUDEOH�SXOVH�GXUDWLRQ�� &RQ¿JXUDEOH�SXOVH�UHSUHVHQWDWLRQ��SXOVH� ��0&)�� %DVHG�RQ�DQ\�DFFXPXODWRU��ÀRZ�UXQ�RU�WXUELQH�PHWHU�UXQ�:KHQ�FRQ¿JXUHG�DV�DODUP�RXWSXW�� /RZ�KLJK�� 2XW�RI�UDQJH�� 6WDWXV�GLDJQRVWLF�� /DWFKHG�XQODWFKHG�� 1RUPDOO\�RSHQ�QRUPDOO\�FORVHG

Output (Expansion Board) $QDORJ�2XWSXW�� P$�� $FFXUDF\��RI�IXOO�VFDOH�#��&��)��330��&��330��)��

WHPSHUDWXUH�GULIW�� 5HSUHVHQWV�DQ\�PHDVXUHG�YDULDEOH��H�J��GLIIHUHQWLDO�SUHVVXUH��RU�

FDOFXODWHG�SDUDPHWHU��H�J��ÀRZ�UDWH�� 2SWLFDOO\�LVRODWHG�� 5HVROXWLRQ��ELWV�

Interface Software (cont’d on next page)

3URYLGHG�DW�QR�FKDUJH(DV\�WR�XVH5HDO�WLPH�GDWD�SROOLQJ&RPSOHWH�FRQ¿JXUDWLRQ&RQ¿JXUDWLRQ�XSORDG�IRU�FRQ¿JXULQJ�PXOWLSOH�XQLWV0XOWL�OHYHO�VHFXULW\)LHOG�FDOLEUDWLRQ�� WR��FDOLEUDWLRQ�SRLQWV�IRU�HDFK�SDUDPHWHU�� 7KUHH�PHWKRGV��PXOWL�SRLQW��VHW�]HUR�SRLQW��DQG�YHULI\��$3,�FRPSOLDQW�� ,QSXWV�DUH�DXWRPDWLFDOO\�ORFNHG�GXULQJ�FDOLEUDWLRQ

18


7DEOH��²6FDQQHU��PLFUR()0�6SHFL¿FDWLRQVInterface Software (cont’d)

0DLQWHQDQFH�� &KDQJH�SODWH�� &KDQJH�FRQH��OLQHDUL]DWLRQ��WR��SRLQWV�� &KDQJH�JDV�FRPSRVLWLRQ�� &KDQJH�VWHDP�SURSHUWLHV�� &KDQJH�ÀRZ�FRHI¿FLHQWV�� &KDQJH�.�IDFWRU��OLQHDUL]DWLRQ��WR��SRLQWV�� &KDQJH�WXUELQH�ÀRZPHWHU�� &KDQJH�JHQHULF�$3,�OLTXLG�SDUDPHWHUV$UFKLYH�GDWD�GRZQORDGV�� &RQ¿JXUDEOH�GRZQORDGV�RI�³DOO´�RU�³QHZ´�UHFRUGV�� 'RZQORDG�W\SHV��GDLO\��LQWHUYDO��DQG�HYHQW�DODUP�UHFRUGV�� 'RZQORDGV�DUH�DXWRPDWLFDOO\�VDYHG�LQ�XQHGLWDEOH�ELQDU\��6')��¿OHV�� ([SRUWV�WR��[OV��FVY��UWI��KWPO��DQG�)ORZ�&DO®�IRUPDWV5HSRUWLQJ�� 'DLO\�ORJV��WDEOH�RU�WUHQG�JUDSK�� ,QWHUYDO�ORJV��WDEOH�RU�WUHQG�JUDSK�� (YHQW�DODUP�ORJV�� &RQ¿JXUDWLRQ�VHWWLQJV�� &DOLEUDWLRQ�VHWWLQJV�� 6QDSVKRW�RI�FXUUHQW�VWDWXV�GDWD�DQG�FDOFXODWHG�SDUDPHWHUV

System Requirements 2SHUDWLQJ�6\VWHP��:LQGRZV��RU�ODWHU��:LQGRZV�;3�UHFRPPHQGHG�&RPSXWHU�3URFHVVRU��*+]�RU�IDVWHU�3HQWLXP�FRPSDWLEOH�&380HPRU\��0%�RI�5$0+DUG�'LVN�6SDFH��0%�IRU�SURJUDP�¿OHV��0%�IRU�$GREH�5HDGHU��DGHTXDWH�VSDFH�IRU�GDWD�¿OHV'ULYH��&'�520�IRU�LQVWDOO'LVSOD\��[��ELW�FRORU�GLVSOD\�RU�JUHDWHU%URZVHU��,QWHUQHW�([SORUHU��RU�ODWHU,QWHUQHW�&RQQHFWLRQ��IRU�ZHE�OLQNV��WHFK�VXSSRUW&RPPXQLFDWLRQV�3RUW��SK\VLFDO�RU�YLUWXDO�56��FRPSDWLEOH�VHULDO�SRUW

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Power Options7KH�VWDQGDUG�6FDQQHU��PLFUR()0�FDQ�EH�SRZHUHG�WZR�ZD\V��

�� ZLWK�WKH�LQWHUQDO�OLWKLXP�EDWWHU\�SDFN�VXSSOLHG�ZLWK�HDFK�6FDQQHU��VKRZQ�LQ�)LJXUH��

�� ZLWK�DQ�H[WHUQDO�FXVWRPHU�VXSSOLHG�SRZHU�VXSSO\��WR��9'&��WKH�OLWKLXP�EDWWHU\�SURYLGHV�EDFNXS�power when an external power supply is used

Wiring diagrams are provided in Section 3—Wiring the Scanner 2000.

Lithium battery pack(double D cell), securedby a velcro strap

Main circuit board

Battery connector

Figure 1.5— Scanner 2000 microEFM, internal view

Interface Software FunctionsThe ModWorX™ Pro interface software is designed for simplicity and ease of use. Its intuitive, well-RUJDQL]HG�VFUHHQV�DOORZ�XVHUV�WR�FDOLEUDWH�DQG�FRQ¿JXUH�WKH�6FDQQHU��PLFUR()0�ZLWKLQ�MXVW�D�IHZ�PLQXWHV��DQG�GRZQORDG�ORJ�DUFKLYHV�LQ�DQ�HDV\�WR�UHDG�UHSRUW��578�0RGEXV®�SURWRFRO�DQG�56��FRPPXQLFDWLRQV�HQVXUH�HDV\�DFFHVV�WR�ORJV��8S�WR��XVHU�VHOHFWDEOH�SDUDPHWHUV�FDQ�EH�ORJJHG�DQG�downloaded using ModWorX™ Pro software.

7KH�VRIWZDUH�LQWHUIDFH�LV�GHVLJQHG�DURXQG�WKH�PRVW�FRPPRQ�QHHGV�RI�WKH�¿HOG�RSHUDWRU��$�UHDG�RQO\�0DLQ�screen ()LJXUH��SDJH�20��SURYLGHV�D�TXLFN�UHIHUHQFH�WR�UHDO�WLPH�WRWDOV�DQG�ÀRZ�UDWHV��LQSXW�GDWD��DQG�V\VWHP�GDWD��,W�LV�DOVR�KRPH�WR�IRXU�WDVN�EDVHG�PHQXV��&DOLEUDWH��0DLQWDLQ�)ORZ�5XQ��0DLQWDLQ�7XUELQH��RU�&RQ¿JXUH��DQG�D�ODUJH�UHG�³'RZQORDG´�EXWWRQ�XVHG�WR�GRZQORDG�ÀRZ�DUFKLYHV�

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Figure 1.6—ModWorX™ Pro software interface

The standard Scanner 2000 microEFM saves up to 2304 interval logs (interval periods are adjustable from ��VHF�WR��KRXUV��GDLO\�ORJV��DQG��HYHQW�DODUP�ORJV�LQ�QRQYRODWLOH�PHPRU\��:LWK�WKH�RSWLRQDO�H[SDQVLRQ�ERDUG��WKH�6FDQQHU��VDYHV�XS�WR��LQWHUYDO�ORJV��$�XVHU�FDQ�VHOHFWLYHO\�GRZQORDG�GDWD�ORJV�DQG�LQVWUXPHQW�FRQ¿JXUDWLRQ�VHWWLQJV�XVLQJ�WKH�0RG:RU;��3UR�VRIWZDUH��7KH�GRZQORDG�¿OHV�DUH�VWRUHG�LQ�DQ�XQHGLWDEOH�IRUPDW�RQ�WKH�XVHU¶V�&38��DQG�FDQ�EH�YLHZHG�LPPHGLDWHO\�RU�H[SRUWHG�WR�DQ�DOWHUQDWLYH�IRUPDW�(.csv, .xls, .rtf, html, or Flow-Cal®).

/RJ�GDWD�FDQ�EH�YLHZHG�RU�SULQWHG�DV�D�WDEOH�RU�D�WUHQG�FKDUW��RU�H[SRUWHG�WR�D�VSUHDGVKHHW��

(YHQW�ORJV�WUDFN�XVHU�FKDQJHV�WR�ÀRZ�SDUDPHWHUV�WKDW�LPSDFW�ORJ�GDWD��6XFK�FKDQJHV�PD\�LQFOXGH�RUL¿FH�SODWH�FKDQJHV��.�IDFWRU�FKDQJHV��LQSXW�VHWWLQJ�FKDQJHV��DQG�GHYLFH�HYHQWV�OLNH�RYHU�UDQJH�DQG�UHVHWV��(YHQW�DODUP�logs can be viewed or printed in tabular format. In addition to showing old and new values, each event log is time-stamped, and includes the register associated with the change.

Instructions for installing the software are provided on the installation CD pocket folder provided with each LQVWUXPHQW��8VHU�PDQXDOV�FRQWDLQLQJ�VWHS�E\�VWHS�LQVWUXFWLRQV�RQ�VRIWZDUH�IXQFWLRQV�DUH�OLQNHG�WR�WKH�VRIWZDUH�LQWHUIDFH�IRU�TXLFN�DQG�HDV\�DFFHVV��QRWH�WKH�WDEEHG�OLQNV�DW�WKH�ERWWRP�RI�WKH�VFUHHQ�LQ�)LJXUH��

/&'�.H\SDG�)XQFWLRQV)URP�WKH�WKUHH�EXWWRQ�NH\SDG�RQ�WKH�IURQW�RI�WKH�LQVWUXPHQW��WKH�XVHU�FDQ�SHUIRUP�WKH�IROORZLQJ�WDVNV�

�� scroll through display parameters

�� YLHZ�GDLO\�ÀRZ�WRWDOV�� save a current total

�� check the temperature and system voltage

�� FRQ¿JXUH�EDVLF�SDUDPHWHUV�VXFK�DV�VODYH�DGGUHVV��EDXG�UDWH��WLPH��WXUELQH�.�IDFWRU��DQG�RUL¿FH�SODWH�VL]H

��


6HFWLRQ��²&RQ¿JXUDWLRQ�DQG�2SHUDWLRQ�YLD�.H\SDG�JXLGHV�XVHUV�VWHS�E\�VWHS�WKURXJK�WKH�FRQ¿JXUDWLRQ�RI�these parameters using the keypad.

)LJXUH��VXPPDUL]HV�WKH�IXQFWLRQV�WKDW�FDQ�EH�DFFHVVHG�ZLWK�HDFK�EXWWRQ�

TEST ACCESS

CONFIGURATION:Move between menusand menu selections

OPERATION:View next parameter

OPERATION:View daily logs

CONFIGURATION:Change digits andother menu selections

CONFIGURATION:Save configurationsettings

OPERATION:Save totals

PRESS +

simultaneously to view time/date, temperature, and battery voltage

PRESS +

simultaneously to accessConfiguration menu

Figure 1.7—Keypad functions

,PSRUWDQW�� $OO�RSHUDWLQJ�SDUDPHWHUV�FDQ�EH�FRQ¿JXUHG�XVLQJ�WKH�0RG:RU;��3UR�VRIWZDUH�SURYLGHG�with the Scanner 2000. See Section 3—Wiring the Scanner 2000 for instructions on con-necting your laptop or PC to the instrument.

��


Viewing Real-Time Measurements8S�WR��SDUDPHWHUV�FDQ�EH�FRQ¿JXUHG�IRU�GLVSOD\�RQ�WKH�/&'�XVLQJ�0RG:RU;��3UR�VRIWZDUH��'XULQJ�QRUPDO�RSHUDWLRQ��WKH�/&'�GLVSOD\V�WKH�VHOHFWHG�SDUDPHWHUV�LQ�D�FRQWLQXRXV�VFUROO�

A user can stop the scrolling action and manually advance the parameter displayed on the screen by removing WKH�FRYHU�RI�WKH�LQVWUXPHQW�DQG�SUHVVLQJ�WKH�/()7�$552:�EXWWRQ�RQ�WKH�NH\SDG��)LJXUH��SDJH�21). The SDUDPHWHU�VHOHFWHG�IRU�GLVSOD\�ZLOO�DSSHDU�DV�VKRZQ�LQ�)LJXUH��

Parameter changes when LEFT ARROW button is pressed

Figure 1.8—LCD display of real-time measurements

1RWH�� ,I�WKH�LQVWUXPHQW�LV�HTXLSSHG�ZLWK�DQ�H[SORVLRQ�SURRI�VZLWFK��WKH�XVHU�FDQ�PDQXDOO\�FRQWURO�WKH�SD-UDPHWHU�GLVSOD\HG�ZLWKRXW�UHPRYLQJ�WKH�LQVWUXPHQW�FRYHU��6HH�$SSHQGL[�$²6FDQQHU��+DUGZDUH�2SWLRQV�IRU�PRUH�LQIRUPDWLRQ��

&RQ¿JXULQJ�%DVLF�3DUDPHWHUV3UHVVLQJ�WKH�83�$552:�DQG�(17(5�EXWWRQV�VLPXOWDQHRXVO\�DOORZV�WKH�XVHU�WR�HQWHU�WKH�FRQ¿JXUDWLRQ�PRGH�(Figure 1.9).

)LJXUH��²,Q�FRQ¿JXUDWLRQ�PRGH��WKH�SDUDPHWHU�WR�EH�FRQ¿JXUHG�LV�GLVSOD\HG�DW�WKH�ERWWRP�RI�WKH�/&'�DQG�the setting for that parameter is displayed in the top LCD.

,Q�WKDW�PRGH��WKH�XVHU�FDQ�FRQ¿JXUH�WKH�IROORZLQJ�SDUDPHWHUV�ZLWKRXW�WKH�XVH�RI�D�ODSWRS�FRPSXWHU�

�� slave address

�� baud rate

�� date and time

�� contract hour

�� RUL¿FH�SODWH�VL]H�Step-by-step instructions are provided in Section 3—Wiring the Scanner 2000. All other instrument FRQ¿JXUDWLRQ�LV�SHUIRUPHG�YLD�WKH�0RG:RU;��3UR�VRIWZDUH�LQWHUIDFH��

��


Viewing Daily and Hourly Logs8S�WR��FRQVHFXWLYH�GDLO\�ORJV�FDQ�EH�YLHZHG�XVLQJ�WKH�NH\SDG�

3UHVVLQJ�WKH�/RJ�EXWWRQ�FKDQJHV�WKH�/&'�GLVSOD\�PRGH�IURP�QRUPDO�RSHUDWLRQ��VFUROOLQJ��WR�D�GDLO\�ORJ�YLHZ�PRGH��)LJXUH��7KH�WZR�GLJLW�ÀDVKLQJ�QXPEHU�RU�³ORJ�LQGH[´�RQ�WKH�OHIW�VLGH�RI�WKH�/&'�UHSUHVHQWV�WKH�number of days that have passed since the log was saved. The user can increment or decrement the number by FOLFNLQJ�WKH�83�$552:�RU�'2:1�$552:�EXWWRQV��)RU�H[DPSOH��³��´�ZLOO�GLVSOD\�WKH�ODVW�GDLO\�ORJ�VDYHG��$Q�LQGH[�RI�³��´�ZLOO�GLVSOD\�WKH�GDLO\�ORJ�VDYHG��GD\V�DJR��

%\�GHIDXOW��WKH�WRS�GLVSOD\�VKRZV�ÀRZ�YROXPH��KRZHYHU�WKH�XVHU�FDQ�FRQ¿JXUH�WKH�GLVSOD\�WR�VKRZ�DQ\�RI�WKH��SDUDPHWHUV�DYDLODEOH�XVLQJ�0RG:RU;��3UR�VRIWZDUH��7KH�ERWWRP�GLVSOD\�VKRZV�WKH�GDWH��7KH�HQWLUH�ORJ�DUFKLYH²XS�WR��GDLO\�ORJV��DGMXVWDEOH�LQWHUYDO�ORJV��DQG��HYHQW�DODUP�ORJV²�FDQ�EH�YLHZHG�using ModWorX™ Pro software.

Log index(Days since log was created)

Volume(or other assigned parameter)

Date stamp(MMDDYY)

Figure 1.10—LCD display of daily logs

Password-Protected SecurityA keypad security access code prevents unauthorized personnel from altering the calibration or accumulated volume data in the instrument. The security feature may be disabled if this protection is not required.

Password-protected security access is enabled using the ModWorX™ Pro software. When this feature is enabled, the user will be prompted for a four-digit password each time he attempts to enter a menu from the keypad (Figure 1.11). The ModWorX™ Pro software is required for establishing or changing the password.

Figure 1.11—LCD display of security password menu

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Section 2—Installing the Scanner 2000

OverviewThe Scanner 2000 microEFM is fully assembled at the time of shipment and ready for mounting. However, &DPHURQ�UHFRPPHQGV�WKDW�RSHUDWRUV�FRQ¿JXUH�WKH�PLFUR()0�SULRU�WR�PRXQWLQJ�LI�WKH�LQVWUXPHQW�LV�WR�EH�LQVWDOOHG�LQ�D�KD]DUGRXV�DUHD��7KH�HQFORVXUH�PXVW�EH�RSHQHG�WR�FRQ¿JXUH�WKH�GHYLFH��HLWKHU�YLD�NH\SDG�FRQWUROV�or via software, and once the instrument is mounted in a hazardous area, the cover should not be removed unless the area is void of combustible gas and vapors.

Hazardous Area Installations7KH�$7(;�FHUWL¿HG�VWDQGDUG�6FDQQHU��PLFUR()0�DQG�WKH�$7(;�FHUWL¿HG�6FDQQHU��PLFUR()0�ZLWK�H[SDQVLRQ�ERDUG�DUH�IXOO\�FRPSOLDQW�ZLWK�(XURSHDQ�$7(;�'LUHFWLYH��(&��$QQH[�,,��

7KH�IROORZLQJ�LQVWUXFWLRQV�DSSO\�WR�HTXLSPHQW�FRYHUHG�E\�FHUWL¿FDWH�QXPEHU��$7(;��;�

�� 7KH�LQVWUXPHQW�PD\�EH�ORFDWHG�ZKHUH�ÀDPPDEOH�JDVHV�DQG�YDSRXUV�RI�JURXSV�,,$��O,%�DQG�,,&�PD\�EH�present.

�� ,W�LV�RQO\�FHUWL¿HG�IRU�XVH�LQ�DPELHQW�WHPSHUDWXUHV�LQ�WKH�UDQJH��&�WR��&�DQG�VKRXOG�QRW�EH�XVHG�outside this range.

�� It has not been assessed as a safety-related device (as referred to by Directive 94/9/EC Annex II, clause ��

�� Installation shall be carried out by suitably trained personnel in accordance with the applicable code of SUDFWLFH��(1��ZLWKLQ�(XURSH��

�� Repair of this equipment shall be carried out by the manufacturer RU�LQ�DFFRUGDQFH�ZLWK�WKH�DSSOLFDEOH�FRGH�RI�SUDFWLFH��,(&��19).

�� If the instrument is likely to come into contact with aggressive substances, the user is responsible for taking suitable precautions to prevent it from being adversely affected, thus ensuring that the type of protection is not compromised.

– Aggressive substances may include, but are not limited to, acidic liquids or gases that may attack metals, or solvents that may affect polymeric materials.

– Suitable precautions may include, but are not limited to, regu-lar checks as part of routine inspections or establishing from WKH�PDWHULDO¶V�GDWD�VKHHW�WKDW�LW�LV�UHVLVWDQW�WR�VSHFL¿F�FKHPL-cals.

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Pressure Safety Precautions

! � :$51,1*��%HIRUH�FRQQHFWLQJ�WKH�6FDQQHU��PLFUR()0�WR�D�ÀRZ�OLQH��FRQVLGHU�WKH�SUHVVXUH�UDWLQJ�RI�WKH�VHQVRU��DQG�WKH�SUHVHQFH�RI�KDUPIXO�JDVHV��7KH�WXELQJ�DQG�¿[WXUHV�XVHG�WR�FRQ-QHFW�WKH�VHQVRU�WR�WKH�PDQLIROG�LQ�WKH�ÀRZ�OLQH�PXVW�EH�PDQXIDFWXUHG�IURP�PDWHULDOV�WKDW�DUH�appropriate for the pressure ratings of the sensor used.

! � :$51,1*��,I�+�6�LV�SUHVHQW��XVH�D�1$&(�VHQVRU�DQG�WDNH�DSSURSULDWH�SUHFDXWLRQV�WR�DYRLG�exposure to this hazardous gas.

7DEOH��²097�3UHVVXUH�/LPLWV�DQG�%ROW�6SHFL¿FDWLRQV

SP/SWP(PSIA)

DP(IN H2O)

Max. Overrange

(PSIA)

Standard Bolts

NACE Bolts

100 �� 150 %��RU��66 %�0

�� 450 %��RU��66 %�0

�� 840

500 �� %��RU��66 %�0

1500 �� %��RU��66 %�0

1500 ��

1500 400

1500 840

�� 4500 %��RU��66 ,QFRQHO

��

�� 400

�� 840

�� %� ,QFRQHO

��

�� 400

�� 840

Wiring Considerations in Hazardous Area Installations

&$87,21�� )RU�H[SORVLRQ�SURRI�LQVWDOODWLRQV��DOO�VLJQDO�FDEOH�IURP�RWKHU�GHYLFHV�DQG�SRZHU�PXVW�REVHUYH�ORFDO�ZLULQJ�SUDFWLFHV�IRU�DUHD�FODVVL¿FDWLRQ��7KH�FDEOH�XVHG�EHWZHHQ�WKH�6FDQ-ner 2000 and other devices must be either armored MC-HL type cable or standard cable routed through conduit. ,Q�DFFRUGDQFH�ZLWK�(1��&ODXVH��DOO�FDEOH�DQG�FDEOH�JODQGV�PXVW�EH�UDWHG�IRU�80ºC. )RU�=RQH��RU�'LYLVLRQ��H[SORVLRQ�SURRI�LQVWDOODWLRQV��FRQGXLW�VHDOV�PXVW�EH�LQVWDOOHG�within 18 in. of the Scanner 2000.

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RTD Assembly Options (for Gas and Liquid Flow Runs Only)The RTD is installed in a thermowell downstream of the primary differential pressure source. The location of the thermowell should conform to the relative standard to ensure accurate measurement.

&$87,21�� 7KH�57'�PXVW�EH�¿WWHG�WR�D�VXLWDEO\�FHUWL¿HG�DQG�GLPHQVLRQHG�HQFORVXUH�RU�¿WWHG�WR�DQ�enclosure in a non-hazardous area.

&DPHURQ�UHFRPPHQGV�WKH�XVH�RI�WKH�%DUWRQ�0RGHO��57'��D��ZLUH��RKP�H[SORVLRQ�SURRI�57'�assembly that can be connected to the Scanner 2000 enclosure without conduit or a conduit seal. For details, see Explosion-Proof RTD Assembly, page A-3.

A 2-wire, 3-wire, or 4-wire RTD assembly may be used to provide a process temperature input.

Mounting Options7KH�6FDQQHU��PLFUR()0�FDQ�EH�PRXQWHG�XVLQJ�WKH�IROORZLQJ�PHWKRGV��

�� 'LUHFW�PRXQW�WR�DQ�RUL¿FH�RU�FRQH�W\SH�'3�PHWHU��7KH�LQWHJUDO�PXOWL�YDULDEOH�VHQVRU�PD\�EH�FRQQHFWHG�WR�the pressure taps with stabilizers RU�D�KHDY\�ZDOO�QLSSOH�ZLWK�DGDSWHU�ÀDQJHV��DQG�D��YDOYH�PDQLIROG��$�bottom-port MVT is recommended for gas measurement; a side-mount MVT is recommended for liquid or steam measurement.

�� 'LUHFW�PRXQW�WR�D�WXUELQH�PHWHU��7KH�&6$�FHUWL¿HG�LQVWUXPHQW�FDQ�EH�PRXQWHG�WR�D�WXUELQH�PHWHU�XVLQJ�D�pipe adapter and union connection (Figure 2.2, page ��7KH�$7(;�FHUWL¿HG�LQVWUXPHQW�FDQ�EH�PRXQWHG�WR�D�%DUWRQ��6HULHV�PHWHU�XVLQJ�D�WXUELQH�PHWHU�SLFNXS�H[WHQVLRQ��Figure 2.3, page 29).

�� Pole-mount. The instrument can be mounted on a 2-in. pole using a NuFlo hardware kit, or bulkhead-PRXQWHG�WR�D�ÀDW��YHUWLFDO�VXUIDFH��Figure 2.4, page 29). Pole mounting may be preferred where limited space or pipe vibration prohibits direct-mount installation. A horizontal pipe mount is recommended for liquid and steam installations using a side-port MVT and block manifold. Tubing is used to connect the LQWHJUDO�097�WR�WKH�RUL¿FH�PHWHU�RU�FRQH�PHWHU��,I�D�6FDQQHU��ZLOO�EH�XVHG�IRU�VWHDP�PHDVXUHPHQW��D�condensate pot must also be installed to protect the Scanner 2000 from extreme temperatures. See Mea-suring Steam via a Differential Pressure Meter, page 39, for details.

7KH�IROORZLQJ�DFFHVVRULHV�DUH�DOVR�UHFRPPHQGHG�

�� D��YDOYH�PDQLIROG�IRU�FRQQHFWLQJ�SURFHVV�OLQHV�WR�WKH�LQWHJUDO�097�� an RTD assembly (see Explosion-Proof RTD Assembly, page A-3��IRU�SURFHVV�WHPSHUDWXUH�LQSXW�RQ�JDV�ÀRZ�

UXQV�DQG�FRPSHQVDWHG�OLTXLG�ÀRZ�UXQV��QRW�UHFRPPHQGHG�IRU�VWHDP�ÀRZ�UXQV�� tubing and/or pipe for plumbing process connections

�� explosion-proof signal cable for remote turbine connections (stranded, shielded cable is recommended)

Pole-Mount Installation7R�PRXQW�WKH�6FDQQHU��XVLQJ�WKH�RSWLRQDO�SROH�PRXQW�NLW��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. Determine the pipe orientation (horizontal or vertical) that will best accommodate process connections DQG�¿HOG�ZLULQJ�FRQQHFWLRQV��$�KRUL]RQWDO�SLSH�PRXQW�LV�UHFRPPHQGHG�IRU�OLTXLG�DQG�VWHDP�LQVWDOODWLRQV�using a side-port MVT and block manifold.

2. Connect the mounting bracket to the Scanner 2000 using the two bolts provided (Figure 2.4, page 29).

3. 3RVLWLRQ�WKH�8�EROW�DURXQG�WKH�SLSH�DQG�WKURXJK�WKH�VXSSRUW�EUDFNHW�SURYLGHG�ZLWK�WKH�8�EROW�

��


4. $OLJQ�WKH�PRXQWLQJ�EUDFNHW�DJDLQVW�WKH�SROH�VR�WKDW�WKH�8�EROW�SDVVHV�WKURXJK�WKH�PRXQWLQJ�KROHV�LQ�WKH�EUDFNHW��3ODFH�WKH�PRXQWLQJ�SODWH�RYHU�WKH�WKUHDGHG�HQGV�RI�WKH�8�EROW�DQG�DJDLQVW�WKH�EUDFNHW��DQG�VHFXUH�WKH�8�EROW�ZLWK�WKH�WZR�QXWV�SURYLGHG�

�� ,QVWDOO�DQG�FRQQHFW�SURFHVV�SLSLQJ�EHWZHHQ�WKH�6FDQQHU��DQG�WKH�WXUELQH�PHWHU�ZLWK�DSSURSULDWH�¿W-tings. Process piping installation procedures vary with each application.

MVT adapter

MVT4.96

(126.0)5.71

(145.0)

5.32(135.1)

0.32(8.1)

5.00(127)

9.60(243.8)

1/4-18 NPTprocess connections

2.125(53.98)

5.32(135.1)

4.94(125.5)

Figure 2.1—Scanner 2000 with direct-mount MVT (MVT with bottom ports shown)

3/4” NPT to 1” NPT M/F adapter

Union

Turbine flowmeter

5.71(145.0)

approx. 6.17(156.7)

approx. 7.92(201.2)

5.00(127)

)LJXUH��²6FDQQHU��GLUHFW�PRXQWHG�WR�D�1X)OR�WXUELQH�ÀRZPHWHU��&6$�DSSURYHG�ZKHQ�GLUHFW�PRXQWHG�WR�D�1X)OR�WXUELQH�ÀRZPHWHU�RU�D�%DUWRQ��6HULHV�ÀRZPHWHU�

��


7000 Series turbine meter

M20 to 3/4”-14 NPT reducer

3/4”-14 NPT to M20 stand-off tube

approx. 9.00(228.6)

)LJXUH��²6FDQQHU��GLUHFW�PRXQWHG�WR�D�%DUWRQ��6HULHV�ÀRZPHWHU��$7(;�DSSURYHG�RQO\�ZKHQ�GLUHFW�PRXQWHG�WR�D�%DUWRQ��6HULHV�ÀRZPHWHU�

Pole mount kit

MVT

MVT adapter

Pole mount kit

6.00(152.4) 6.95

(176.5)

6.56(166.6)

9.60(243.8)

Figure 2.4—Scanner 2000 with MVT, remote-mounted on a 2-in. pole using a NuFlo hardware kit (Part No. 9A-30028004)

,PSRUWDQW�� 7KH�YHUWLFDO�SLSH�PRXQW�FRQ¿JXUDWLRQ�VKRZQ�LQ�)LJXUH��LV�QRW�UHFRPPHQGHG�IRU�VLGH�SRUW�097V�ZKHQ�PDWHG�ZLWK�D�EORFN�PDQLIROG�IRU�OLTXLG�RU�VWHDP�PHDVXUHPHQW��$�KRUL-zontal pipe mount should be considered for these installations.

��


Measuring Natural Gas via a Differential Pressure Meter

Best Practices7R�HQVXUH�PHDVXUHPHQW�DFFXUDF\��HQVXUH�WKDW�WKH�PHWHU�UXQ�FRPSOLHV�ZLWK�WKH�IROORZLQJ�$*$��DQG�,62��JXLGHOLQHV��DV�DSSOLFDEOH��

�� Do not place unit near vents or bleed holes that discharge corrosive vapors or gases.

�� Consider the orientation of the meter run when determining the best position for mounting the Scanner 2000.

– If the Scanner 2000 is mounted to a horizontal pipeline, make sure process connections are at the top of the line, and mount the Scanner 2000 above the pressure connections at the pipe.

– If the Scanner 2000 is mounted to a vertical pipeline, install the sensor above the differential pressure source connections, or install a condensate (drip) pot to prevent the accumulation of liquid in inter-connecting tubes. Slope all tubing upward at least 1-inch/linear foot to avoid liquid entrapment.

�� 0RXQW�WKH�6FDQQHU��DV�QHDU�OHYHO�DV�SRVVLEOH�VXFK�WKDW�WKH�RSHUDWRU�KDV�D�FOHDU�YLHZ�RI�WKH�/&'��DQG�can access the keypad easily when the enclosure cover is removed. The location should be as free from vibration as possible.

�� Make sure the high port of the sensor (marked “H”) is connected to the upstream side of the meter run.

�� Flow should remain subsonic throughout the measuring section and should be single phase.

�� 3LSH�GLDPHWHUV��'��VKRXOG�EH�EHWZHHQ��LQ��PP��DQG��LQ��PP��SHU�,62��RU�JUHDWHU�WKDQ��LQ��PP��SHU�$*$��

�� 3LSH�5H\QROGV�QXPEHUV�PXVW�EH�DERYH�� d��RUL¿FH�GLDPHWHU��PXVW�EH�JUHDWHU�WKDQ�RU�HTXDO�WR��LQ��PP�� ȕ��GLDPHWHU�UDWLR��PXVW�EH�JUHDWHU�WKDQ�RU�HTXDO�WR��DQG�OHVV�WKDQ�RU�HTXDO�WR�� *DXJH�OLQHV�VKRXOG�EH�RI�XQLIRUP�LQWHUQDO�GLDPHWHU�DQG�FRQVWUXFWHG�RI�PDWHULDO�FRPSDWLEOH�ZLWK�WKH�ÀXLG�

EHLQJ�PHDVXUHG��)RU�PRVW�DSSOLFDWLRQV��WKH�ERUH�VKRXOG�EH�QR�VPDOOHU�WKDQ�ó�LQ��PP��DQG�SUHIHUDEO\��LQ��PP��LQ�GLDPHWHU��7KH�LQWHUQDO�GLDPHWHU�VKRXOG�QRW�H[FHHG��LQ��PP��,I�KLJK�WHPSHUDWXUH�ÀXLGV�DUH�OLNHO\�WR�EH�HQFRXQWHUHG��PDNH�VXUH�WKH�PHDVXULQJ�WXEH�XVHG�LV�UDWHG�IRU�WKH�DQWLFLSDWHG�WHP-perature range.

�� Gauge line length should be minimized to help prevent pulsation-induced errors.

�� Gauge lines should slope downward to the meter at a minimum of one inch per foot.

�� If gauge lines must slope in more than one direction, do not allow more than one bend and install a liquid or gas trap, as applicable. A liquid trap should be installed at the lowest point in a gas service installation.

�� Gauge lines should be supported to prevent sag and vibration.

�� Where pulsation is anticipated, full-port manifold valves with a nominal internal diameter consistent with the gauge lines are recommended.

If the Scanner 2000 is mounted to a cone meter, consider the following best practices in addition to the best practices listed above.

�� 3RVLWLRQ�WKH�FRQH�PHWHU�VR�WKDW�WKHUH�DUH�]HUR�WR�¿YH�SLSH�GLDPHWHUV�XSVWUHDP�RI�WKH�PHWHU�DQG�]HUR�WR�three pipe diameters downstream of the meter.

�� Install the meter so that the static pressure tap is upstream of the differential pressure tap. The high side of the integral Scanner 2000 sensor must also be situated upstream.

��


�� Install shut-off valves directly on the DP meter pressure taps. Choose a shut-off valve that is rated for the ambient temperatures of the location and the operating pressure of the pipe in which it will be installed, DQG�IRU�XVH�ZLWK�GDQJHURXV�RU�FRUURVLYH�ÀXLGV�RU�JDVHV��LI�DSSOLFDEOH��7KH�YDOYHV�PXVW�QRW�DIIHFW�WKH�WUDQV-mission of the differential pressure signal.

,QVWDOODWLRQ�3URFHGXUH²'LUHFW�0RXQW�WR�2UL¿FH�0HWHU�RU�&RQH�0HWHU$�6FDQQHU��FDQ�EH�PRXQWHG�GLUHFWO\�WR�DQ�RUL¿FH�PHWHU�RU�FRQH�PHWHU�IRU�JDV�PHDVXUHPHQW��7KH�VHWXS�RI�WKH�PHWHU�UXQ�DQG�SOXPELQJ�FRQ¿JXUDWLRQV�FDQ�YDU\�ZLGHO\��GHSHQGLQJ�XSRQ�WKH�FKDOOHQJHV�H[LVWLQJ�RQ�ORFDWLRQ��)LJXUH��VKRZV�D�W\SLFDO�GLUHFW�PRXQW�LQVWDOODWLRQ�

Flow

Model 21 explosion-proof RTD assembly or equivalent

Orifice flanges

3/4” conduit(for input/output and communications)

5-valvemanifold

Pressure ports(high/low)

H L

LH

Conduit seal (required for hazardous area installations)

Mountingadapter

)LJXUH��²'LUHFW�PRXQW�LQVWDOODWLRQ�LQ�DQ�RUL¿FH�PHWHU�UXQ��VKRZQ�KHUH�ZLWK�DQ�RUL¿FH�PHWHU��7KH�GLUHFW�mount method can be used with a cone meter as well.

1. 9HULI\�WKDW�WKH�PHWHU�LV�SURSHUO\�LQVWDOOHG�LQ�WKH�ÀRZ�OLQH��SHU�PDQXIDFWXUHU¶V�LQVWUXFWLRQV��

2. %ROW�D�ÀDQJH�E\�ÀDQJH��YDOYH�PDQLIROG��DV�UHFRPPHQGHG�E\�&DPHURQ��WR�WKH�6FDQQHU��097�VHQ-sor.

a. /RFDWH�WKH�+�DQG�/�PDUNLQJV�RQ�WKH�LQWHJUDO�097�VHQVRU�ERG\�DQG�SRVLWLRQ�WKH�097�PDQLIROG�DV-VHPEO\�VR�WKDW�WKH�XSVWUHDP�VLGH�RI�WKH�ÀRZ�OLQH�FDQ�HDVLO\�EH�FRQQHFWHG�WR�WKH�VHQVRU¶V�³+LJK´�SRUW�DQG�WKH�GRZQVWUHDP�VLGH�RI�WKH�ÀRZ�OLQH�FDQ�EH�FRQQHFWHG�WR�WKH�VHQVRU¶V�³/RZ´�SRUW��7KH�6FDQQHU�2000 enclosure can be rotated to face the desired direction.

b. Position the manifold so that all valves are accessible from the front of the instrument.

��


3. Connect the Scanner 2000 and manifold assembly to the differential pressure meter. Hardware require-PHQWV�ZLOO�YDU\��GHSHQGLQJ�XSRQ�WKH�LQVWDOODWLRQ�FRQ¿JXUDWLRQ��+RZHYHU��PLQLPDOO\��DQ�DGDSWHU�LV�UH-TXLUHG�WKDW�FDQ�VSDQ�EHWZHHQ�WKH�WKUHDGHG�SUHVVXUH�WDS�RUL¿FH�ÀDQJH�FRQQHFWRU�DQG�WKH�QRQ�WKUHDGHG�manifold. This adapter can be a one-piece stabilizer (often preferred for added strength and stability) or a VKRUW�KHDY\�ZDOO�SLSH�QLSSOH�DWWDFKHG�WR�D�IXWERO�ÀDQJH��DYDLODEOH�IURP�&DPHURQ��8VH�D�VXLWDEOH�FRP-pound or tape on all threaded process connections.

4. ,QVWDOO�WKH�H[SORVLRQ�SURRI�%DUWRQ�0RGHO��57'�DVVHPEO\�LQ�WKH�WKHUPRZHOO��5RXWH�WKH�57'�DVVHPEO\�cable through the conduit opening in the top of the Scanner 2000 to connect to the main circuit board. (If WKH�%DUWRQ�0RGHO��DVVHPEO\�LV�QRW�XVHG�DQG�WKH�6FDQQHU��LV�LQ�D�KD]DUGRXV�DUHD��D�%DUWRQ�0RGHO�20 RTD terminal housing or similar alternative must be used. In this case, the RTD signal cable must be URXWHG�WKURXJK�FRQGXLW�DQG�D�FRQGXLW�VHDO�PXVW�EH�LQVWDOOHG�ZLWKLQ��LQ��RI�WKH�6FDQQHU��$�ZLULQJ�diagram for the RTD assembly is provided in .

�� 5RXWH�DQ\�DGGLWLRQDO�LQSXWV�RXWSXWV�RU�&20�FRQQHFWLRQV��HWF��WKURXJK�WKH�FRQGXLW�RSHQLQJ�LQ�WKH�WRS�RI�WKH�6FDQQHU��,Q�KD]DUGRXV�HQYLURQPHQWV��DGG�D�FRQGXLW�VHDO�ZLWKLQ��LQFKHV�RI�WKH�6FDQQHU��)LJXUH��SDJH��.

�� Perform a manifold leak test as described on page ��.

�� Verify the zero offset, if required (and other calibration points, if desired). See the ModWorX™ Pro Soft-ZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��6HH�DOVR�=HUR�2IIVHW��6WDWLF�3UHV-sure or Differential Pressure), page ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��, and Differential 3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��.

CAUTION: Do not put the Scanner into operation until the valves are positioned properly so that SUHVVXUH�LV�VXSSOLHG�WR�ERWK�VLGHV�RI�WKH�097��)RU�LQVWUXFWLRQV�RQ�SURSHU�YDOYH�SRVLWLRQV��see 3ODFLQJ�WKH�6FDQQHU�LQWR�2SHUDWLRQ��SDJH�55.

��


,QVWDOODWLRQ�3URFHGXUH²5HPRWH�0RXQW�WR�2UL¿FH�0HWHU�RU�&RQH�0HWHU$�6FDQQHU��FDQ�EH�PRXQWHG�UHPRWHO\�DQG�FRQQHFWHG�WR�DQ�RUL¿FH�PHWHU�RU�FRQH�PHWHU�ZLWK�WXELQJ�IRU�JDV�PHDVXUHPHQW��7KH�VHWXS�RI�WKH�PHWHU�UXQ�DQG�SOXPELQJ�FRQ¿JXUDWLRQV�FDQ�YDU\�ZLGHO\��GHSHQGLQJ�XSRQ�WKH�FKDOOHQJHV�H[LVWLQJ�RQ�ORFDWLRQ��)LJXUH��VKRZV�D�W\SLFDO�UHPRWH�PRXQW�LQVWDOODWLRQ�

1RWH�� 7R�SUHYHQW�¿WWLQJV�IURP�WXUQLQJ�DQG�RU�WR�DYRLG�SXWWLQJ�WHQVLRQ�RQ�VWDLQOHVV�VWHHO�WXELQJ��XVH�D�EDFNXS�ZUHQFK�WR�DWWDFK�VWDLQOHVV�VWHHO�WXELQJ�WR�D�PDQLIROG��VKXW�RII�YDOYHV��RU�VHQVRU�SRUWV�

Flow

Manifold

Pressure ports(high/low)

LH

H L

3/4” conduit(for input/output and communications)



Figure 2.6—Remote-mount gas run installation (shown here with a cone meter). The remote-mount method FDQ�EH�XVHG�ZLWK�DQ�RUL¿FH�PHWHU�DV�ZHOO�


2. 0RXQW�WKH�6FDQQHU��WR�D��LQ��SLSH�RU�WR�D�ÀDW��YHUWLFDO�VXUIDFH�XVLQJ�EROWV�DQG�WKH�PRXQWLQJ�KROHV�LQ�the enclosure.

3. %ROW�D��YDOYH�ÀDQJH�E\�137�PDQLIROG��DV�UHFRPPHQGHG�E\�&DPHURQ��WR�WKH�6FDQQHU��097�VHQVRU�

a. /RFDWH�WKH�+�DQG�/�PDUNLQJV�RQ�WKH�LQWHJUDO�097�VHQVRU�ERG\�DQG�SRVLWLRQ�WKH�097�PDQLIROG�DV-VHPEO\�VR�WKDW�WKH�XSVWUHDP�VLGH�RI�WKH�ÀRZ�OLQH�FDQ�HDVLO\�EH�FRQQHFWHG�WR�WKH�VHQVRU¶V�³+LJK´�SRUW�DQG�WKH�GRZQVWUHDP�VLGH�RI�WKH�ÀRZ�OLQH�FDQ�EH�FRQQHFWHG�WR�WKH�VHQVRU¶V�³/RZ´�SRUW��7KH�6FDQQHU�2000 enclosure can be rotated to face the desired direction.

��


b. Position the manifold so that all valves are accessible from the front of the instrument.

4. ,QVWDOO�WXELQJ�DQG�¿WWLQJV�WR�FRQQHFW�WKH�6FDQQHU��DQG�PDQLIROG�DVVHPEO\�WR�WKH�GLIIHUHQWLDO�SUHVVXUH�PHWHU��VORSLQJ�WKH�JDXJH�OLQHV�GRZQZDUG�WR�WKH�PHWHU�DW�D�PLQLPXP�RI�RQH�LQFK�SHU�IRRW��8VH�D�VXLWDEOH�compound or tape on all threaded process connections.

�� ,QVWDOO�WKH�H[SORVLRQ�SURRI�%DUWRQ�0RGHO��57'�DVVHPEO\�LQ�WKH�WKHUPRZHOO��5RXWH�WKH�57'�DVVHPEO\�cable through the conduit opening in the top of the Scanner 2000 to connect to the main circuit board. �,I�WKH�%DUWRQ�0RGHO��VHULHV�LV�QRW�XVHG�DQG�WKH�6FDQQHU��LV�LQ�D�KD]DUGRXV�DUHD��D�%DUWRQ�0RGHO�20 RTD terminal housing or similar alternative must be used. In this case, the RTD signal cable must be URXWHG�WKURXJK�FRQGXLW�DQG�D�FRQGXLW�VHDO�PXVW�EH�LQVWDOOHG�ZLWKLQ��LQ��RI�WKH�6FDQQHU��$�ZLULQJ�diagram for the RTD assembly is provided in )LJXUH��SDJH��.

�� 5RXWH�DQ\�DGGLWLRQDO�LQSXWV�RXWSXWV�RU�&20�FRQQHFWLRQV��HWF��WKURXJK�WKH�FRQGXLW�RSHQLQJ�LQ�WKH�WRS�RI�WKH�6FDQQHU��,Q�KD]DUGRXV�HQYLURQPHQWV��DGG�D�FRQGXLW�VHDO�ZLWKLQ��LQ��RI�WKH�6FDQQHU��


�� Verify the zero offset, if required (and other calibration points, if desired). See the ModWorX™ Pro Soft-ZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��6HH�DOVR�=HUR�2IIVHW��6WDWLF�3UHV-sure or Differential Pressure), page ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��, and Differential 3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��.


��


Measuring Natural Gas via a Turbine Meter

Best Practices 7KH�6FDQQHU��PLFUR()0�FDOFXODWHV�JDV�ÀRZ�WKURXJK�D�WXUELQH�PHWHU�LQ�DFFRUGDQFH�ZLWK�$*$��DQG�API 21.1 industry standards. For optimum performance, ensure that the turbine and Scanner 2000 installation FRPSOLHV�ZLWK�WKH�LQGXVWU\�UHFRPPHQGDWLRQV�OLVWHG�EHORZ��

�� ,QVWDOO�WKH�WXUELQH�ÀRZPHWHU�LQ�WKH�PHWHU�UXQ�VXFK�WKDW�WKHUH�DUH��QRPLQDO�SLSH�GLDPHWHUV�XSVWUHDP�DQG�¿YH�QRPLQDO�SLSH�GLDPHWHUV�GRZQVWUHDP�RI�WKH�PHWHU��%RWK�LQOHW�DQG�RXWOHW�SLSH�VKRXOG�EH�RI�WKH�VDPH�nominal size as the meter.

�� Straightening vanes are recommended for eliminating swirl conditions. If used, they should be installed ¿YH�SLSH�GLDPHWHUV�XSVWUHDP�RI�WKH�PHWHU�

�� Where an RTD is used to facilitate compensated gas measurement from a gas turbine meter, locate the 57'�ZLWKLQ�¿YH�SLSH�GLDPHWHUV�GRZQVWUHDP�RI�WKH�PHWHU�RXWOHW�DQG�XSVWUHDP�RI�DQ\�YDOYH�RU�ÀRZ�UHVWULF-tion.

Installation Procedure—Remote Mount to a Turbine MeterA Scanner 2000 can be mounted remotely and connected to a gas turbine meter for measuring gas in DFFRUGDQFH�ZLWK�$*$��FDOFXODWLRQV��)LJXUH��SDJH��, shows an installation in which the pressure input is provided by the integral MVT. Alternatively, if an optional expansion board is installed in the Scanner 2000, an external explosion-proof pressure transducer can be used to supply the pressure. See Installation Procedure—Direct Mount to a Turbine Meter (CSA Compliant), page ��, for more information.

7KH�VHWXS�RI�WKH�PHWHU�UXQ�DQG�SOXPELQJ�FRQ¿JXUDWLRQV�FDQ�YDU\�ZLGHO\��GHSHQGLQJ�XSRQ�WKH�FKDOOHQJHV�existing on location.

7R�FRQQHFW�WKH�6FDQQHU��WR�D�WXUELQH�PHWHU��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. 9HULI\�WKDW�WKH�ÀRZPHWHU�DQG�PDJQHWLF�SLFNXS�DUH�LQVWDOOHG�LQ�WKH�ÀRZ�OLQH��

2. 0RXQW�WKH�6FDQQHU��WR�D��LQ��SLSH�RU�WR�D�ÀDW��YHUWLFDO�VXUIDFH�XVLQJ�EROWV�DQG�WKH�PRXQWLQJ�KROHV�LQ�the enclosure.

,PSRUWDQW�� )RU�H[SORVLRQ�SURRI�LQVWDOODWLRQV��DUPRUHG�0&�+/�W\SH�FDEOH�PXVW�EH�XVHG�RU�VWDQGDUG�FDEOH�PXVW�EH�UXQ�WKURXJK�FRQGXLW�IURP�WKH�6FDQQHU��WR�WKH�PHWHU��DQG�DQ�H[SORVLRQ�proof seal must be installed within 18 in. of the enclosure.

3. %ROW�D��YDOYH�ÀDQJH�E\�137�PDQLIROG��DV�UHFRPPHQGHG�E\�&DPHURQ��WR�WKH�6FDQQHU��097�VHQVRU�Position the manifold so that all valves are accessible from the front of the instrument.

4. Connect the pressure port of the turbine meter to either manifold process port with tubing. The unused pressure port can be used as a “vent” as required. Always leave the equalizer valves open to allow pres-VXUH�WR�ERWK�VLGHV�RI�WKH�097��8VH�D�VXLWDEOH�FRPSRXQG�RU�WDSH�RQ�DOO�WKUHDGHG�SURFHVV�FRQQHFWLRQV��

�� Remove the plug from the conduit opening in the top of the Scanner 2000 enclosure, route the turbine signal cable through the opening, and connect it to the main circuit board. A wiring diagram for the tur-bine input is provided in Figure 3.4, page ��. In hazardous environments, the signal cable must be routed WKURXJK�FRQGXLW�DQG�FRQGXLW�VHDOV�PXVW�EH�LQVWDOOHG�ZLWKLQ��LQFKHV�RI�WKH�WXUELQH�PHWHU�DQG�ZLWKLQ��inches of the Scanner 2000.

��


Flow

Manifold

Static pressure input (manifold equalizer valve must remain open)

H LHazardouslocation wiring



10 pipe diametersupstream

5 pipe diametersdownstream

Figure 2.7—Remote-mount installation in an AGA-7 turbine meter run

�� Install the RTD assembly in the thermowell. Remove the plug from the other conduit opening in the top of the Scanner 2000 enclosure, route the RTD assembly cable through the conduit opening in the top of the Scanner 2000, and connect it to the main circuit board. A wiring diagram for the RTD assembly is provided in )LJXUH��SDJH��.

1RWH�� ,I�DGGLWLRQDO�LQSXWV�RXWSXWV�RU�FRPPXQLFDWLRQ�FRQQHFWLRQV�DUH�UHTXLUHG��D�FRQGXOHW�ER[�VKRXOG�EH�DGGHG�WR�WKH�LQVWDOODWLRQ�

�� Zero the static pressure and recalibrate the static pressure, if required. See the ModWorX™ Pro Software 8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��6HH�DOVR�=HUR�2IIVHW��6WDWLF�3UHVVXUH�RU�Differential Pressure), page ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��, and Differential Pres-VXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��.


��


Installation Procedure—Direct Mount to a Turbine Meter (CSA Compliant)A Scanner 2000 without the MVT bottomworks can be mounted directly to a gas turbine meter for measuring natural gas. A pipe adapter and union are attached to the Scanner, allowing a direct connection to the turbine meter.

$Q�H[WHUQDO�H[SORVLRQ�SURRI�SUHVVXUH�WUDQVGXFHU�LV�UHTXLUHG�IRU�FRQYHUWLQJ�WKH�SUHVVXUH�WR�D��P$�RU��9�signal, and the Scanner 2000 must be equipped with the optional expansion board, which provides the analog input necessary to receive the pressure signal from the transducer.

Flow

Adapter/union(CSA-approved)


10 pipe diametersupstream (minimum)

5 pipe diametersdownstream (minimum)

External explosion-proofpressure transducer(connected to meter pressure port)

Figure 2.8—Direct-mount installation for use with a gas turbine meter

7R�FRQQHFW�WKH�6FDQQHU��WR�D�WXUELQH�PHWHU�XVLQJ�WKLV�PHWKRG��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. 3RVLWLRQ�WKH�6FDQQHU��DERYH�WKH�JDV�WXUELQH�ÀRZPHWHU�

2. Plug the Scanner 2000 cable connector into the magnetic pickup of the turbine meter and hand-tighten the knurled nut on the connector.

3. 6FUHZ�WKH�6FDQQHU��RQWR�WKH�ÀRZPHWHU�WKUHDGV�VXUURXQGLQJ�WKH�PDJQHWLF�SLFNXS�ZLWK�WKH�GLVSOD\�IDF-ing the desired direction.

4. Tighten all sections of the pipe union.

�� Connect the pressure port of the turbine meter to the external pressure transducer.

�� Remove the plug from the conduit opening in the top of the Scanner 2000 enclosure, route the cable from the pressure transducer through the opening, and connect it to the analog input terminal of the expansion circuit board. A wiring diagram for the analog input is provided in Figure A.11, page $��. In hazardous envi-URQPHQWV��WKH�FDEOH�PXVW�EH�URXWHG�WKURXJK�FRQGXLW�DQG�FRQGXLW�VHDOV�PXVW�EH�LQVWDOOHG�ZLWKLQ��LQFKHV�RI�WKH�WXUELQH�PHWHU�DQG�ZLWKLQ��LQFKHV�RI�WKH�6FDQQHU��

��


�� Install the RTD assembly in the thermowell. Remove the plug from the other conduit opening in the top of the Scanner 2000 enclosure, route the RTD assembly cable through the conduit opening in the top of the Scanner 2000, and connect it to the main circuit board. A wiring diagram for the RTD assembly is provided in )LJXUH��SDJH��.

&$87,21�� 'R�QRW�XVH�7HÀRQ®�WDSH�RQ�WKH�WKUHDGV��RI�WKH�XQLRQ��DGDSWHU��RU�SLSH�SOXJV��8VH�RI�7HÀRQ® tape will void the explosion-proof rating of the instrument.

��


Measuring Steam via a Differential Pressure Meter

Best Practices7KH�6FDQQHU��PLFUR()0�FDOFXODWHV�VWHDP�ÀRZ�LQ�DFFRUGDQFH�ZLWK�,)��$*$��DQG�,62��LQGXVWU\�standards. For optimum performance, ensure that the Scanner 2000 installation complies with the industry UHFRPPHQGDWLRQV�OLVWHG�EHORZ�

Condensate pots�� A condensate pot for a small-volume transducer like the Scanner 2000 MVT can be a simple pipe tee,

oriented so that one port extends downward (into the cold leg), the opposite port extends upward and is closed by a pipe cap or blowdown valve, and the tee extends horizontally into the hot leg.

�� The pots should be the highest point in the system.

�� The pots should be mounted at the same level, and one or both should be adjustable vertically to remove zero shifts in the differential pressure measurement.

Hot legs�� +RW�OHJV�VKRXOG�EH�ODUJH�GLDPHWHU��LQ��RU��LQ��LI�SRVVLEOH�� Hot legs should be as short as possible. If these sections must be more than 1 ft. in length, insulate them.

�� Elbows and bends should not form any traps in which liquid can accumulate.

�� Hot legs should be sloped along their entire length to allow liquids to drain back into the pipe.

Cold legs�� Cold legs should enter the multi-variable sensor through its side ports.

�� Cold legs should be a minimum of 2 ft in length to allow proper convection cooling and should be run KRUL]RQWDOO\�ZLWK�D�VORSH�RI�DSSUR[LPDWHO\��LQFK�SHU�IRRW�WR�DOORZ�DLU�EXEEOHV�WR�ÀRDW�XS�LQWR�WKH�SRWV�

�� Elbows and bends should not form any traps for air bubbles.

�� &ROG�OHJV�VKRXOG�EH�¿OOHG�ZLWK�D�VXLWDEOH�DQWLIUHH]H��'LEXW\O�SKWKDODWH�LV�UHFRPPHQGHG�Antifreeze�� 'LEXW\O�SKWKDODWH��'%3��KDV�WKH�IROORZLQJ�DGYDQWDJHV�RYHU�JO\FRO�DQWLIUHH]H�

– '%3�GRHVQ¶W�PL[�ZLWK�ZDWHU��DQG�VR�GRHVQ¶W�EHFRPH�GLOXWH�RYHU�WLPH��LWV�VSHFL¿F�JUDYLW\�GRHVQ¶W�VKLIW� – It is slightly denser than water, so it will stay in the pot permanently.

– ,W�LV�QRQ�ÀDPPDEOH� – It is much less toxic than glycol.

– It is available from industrial suppliers.

Valves�� 8VH�RQO\�IXOO�RSHQLQJ�EORFN�YDOYHV�WKDW�DUH�UDWHG�IRU�VWHDP�VHUYLFH�� 8VH�RQO\�EORZGRZQ�YDOYHV�WKDW�DUH�UDWHG�IRU�VWHDP�VHUYLFH��3HULRGLF�EORZGRZQV�DUH�UHFRPPHQGHG�IRU�

preventing buildup of scale.

&$87,21�� %HIRUH�VWDUWLQJ�WKH�V\VWHP��UHPRYH�WKH�FDSV�DQG�DGG�ZDWHU�RU�DQWLIUHH]H�LI�QHFHVVDU\�WR�FRPSOHWHO\�¿OO�WKH�SRWV�DQG�FROG�OHJV��$LU�WUDSSHG�LQ�WKH�OLQHV�ZLOO�SURGXFH�HUURUV�LQ�GLI-ferential pressure measurements.

40


,QVWDOODWLRQ�3URFHGXUH²5HPRWH�0RXQW�WR�2UL¿FH�0HWHU�RU�&RQH�0HWHU$�6FDQQHU��FDQ�EH�PRXQWHG�UHPRWHO\�DQG�FRQQHFWHG�WR�DQ�RUL¿FH�PHWHU�RU�FRQH�PHWHU�ZLWK�WXELQJ�IRU�VWHDP�PHDVXUHPHQW��7KH�VHWXS�RI�WKH�PHWHU�UXQ�DQG�SOXPELQJ�FRQ¿JXUDWLRQV�FDQ�YDU\�ZLGHO\��GHSHQGLQJ�upon the challenges existing on location.

3/4 in. conduit connection for input/output & communications;conduit seal also required in hazardous areas (not shown)

Cold legs connect to manifold(slope to eliminate air trap)

Condensate pot (pipe tee with blowdown valve attached)

Long cold legs protect the sensor from extreme processtemperatures

Hot legs, insulated to within 1 ft of condensate pot(1/2 in. diameter recommended)

MVT vent (use for for filling cold legs)

Horizontal pole mount providesclearance for block manifold

Figure 2.9—Remote-mount steam run installation (shown here with a cone meter). The remote-mount method FDQ�EH�XVHG�ZLWK�DQ�RUL¿FH�PHWHU�DV�ZHOO�

&$87,21�� :KHQ�PHDVXULQJ�VWHDP��SURFHVV�FRQQHFWLRQV�PXVW�EH�GHVLJQHG�WR�HOLPLQDWH�DLU�SRFN-HWV��7KLV�LV�DFKLHYHG�E\�PDNLQJ�VXUH�DOO�WXELQJ�LQ�WKH�FROG�OHJV�VORSHV�XSZDUG��$�VLGH�SRUW�097�DQG�EORFN�PDQLIROG��VKRZQ�LQ�)LJXUH��LV�UHFRPPHQGHG�WR�KHOS�SUHYHQW�DLU�bubbles from being trapped in the sensor. ,I�D�ERWWRP�SRUW�097�LV�XVHG��WKH�ERWWRP�SURFHVV�SRUWV�PXVW�EH�SOXJJHG�RU�UHSODFHG�ZLWK�D�GUDLQ�YDOYH��DQG�VLGH�YHQWV�PXVW�EH�XVHG�IRU�SURFHVV�FRQQHFWLRQV��$�EORFN�PDQLIROG�LV�QRW�UHFRPPHQGHG�IRU�XVH�ZLWK�ERWWRP�SRUW�097V��&RQWDFW�D�&DPHURQ�¿HOG�UHSUHVHQWDWLYH�for assistance.

41



2. 0RXQW�WKH�6FDQQHU��WR�D��LQ��SLSH�RU�WR�D�ÀDW��YHUWLFDO�VXUIDFH�XVLQJ�EROWV�DQG�WKH�PRXQWLQJ�KROHV�LQ�the enclosure. A horizontal pipe is recommended, as additional hardware may be required for a vertical pipe mount to provide clearance for the manifold block.

3. Mount a set of pipe tees (which serve as condensate pots) typically on either side of the Scanner 2000 at an elevation above the process connections of the Scanner 2000 MVT (for proper drainage). They should be a considerable distance (4 ft) from the sensor ports, but as close as possible to the pressure taps on the meter.

4. Install a pipe cap or a blowdown valve that is rated for steam service at the top of each pipe tee. A blow-down valve is recommended when the steam passing through the meter is known to be dirty.

�� ,QVWDOO�WXELQJ�DQG�¿WWLQJV�WR�FRQQHFW�WKH�KLJK�SUHVVXUH�DQG�ORZ�SUHVVXUH�WDSV�RI�WKH�'3�PHWHU�WR�WKH�SLSH�tees. This section is typically referred to as the KRW�OHJV of the installation, as this section of tubing en-counters steam at its highest temperature. Install a shut-off valve near the high and low ports of the DP PHWHU��8VH�D�VXLWDEOH�FRPSRXQG�RU�WDSH�RQ�DOO�WKUHDGHG�SURFHVV�FRQQHFWLRQV�

�� 5RXWH�DQ\�DGGLWLRQDO�LQSXWV�RXWSXWV�RU�&20�FRQQHFWLRQV��HWF��WKURXJK�WKH�FRQGXLW�RSHQLQJ�LQ�WKH�WRS�RI�WKH�6FDQQHU��,Q�KD]DUGRXV�HQYLURQPHQWV��DGG�D�FRQGXLW�VHDO�ZLWKLQ��LQ��RI�WKH�6FDQQHU��

1RWH�� 7R�SUHYHQW�¿WWLQJV�IURP�WXUQLQJ�DQG�RU�WR�DYRLG�SXWWLQJ�WHQVLRQ�RQ�VWDLQOHVV�VWHHO�WXELQJ��XVH�D�EDFNXS�ZUHQFK�WR�DWWDFK�VWDLQOHVV�VWHHO�WXELQJ�WR�VKXW�RII�YDOYHV��RU�VHQVRU�SRUWV�

&$87,21�� :KHQHYHU�SRVVLEOH��ORFDWH�WKH�KRW�OHJV�RI�D�VWHDP�LQVWDOODWLRQ�EHKLQG�WKH�6FDQQHU��safely out of the operator’s normal reach. This will help prevent accidental burns.

�� Install tubing to connect the high-pressure and low-pressure process connections of the block manifold to the pipe tees installed in step 3. This tubing section is typically referred to as the FROG�OHJV of the installa-WLRQ��VLQFH�LW�LV�¿OOHG�ZLWK�ZDWHU�

�� 7R�HOLPLQDWH�DLU�EXEEOHV��¿OO�WKH�FROG�OHJV�ZLWK�ZDWHU�RU�RWKHU�¿OO�ÀXLG�IURP�WKH�ORZHVW�SRLQW�LQ�WKH�V\VWHP��W\SLFDOO\�WKH�097��XVLQJ�WKH�IROORZLQJ�VWHSV�

a. 2SHQ�WKH�EORZGRZQ�YDOYH�RU�UHPRYH�WKH�¿OOLQJ�SOXJ�IURP�RQH�RI�WKH�SLSH�WHHV�FRQGHQVDWH�SRWV�

b. 2SHQ�WKH�HTXDOL]HU�DQG�E\SDVV�EORFN�YDOYHV�RQ�WKH�EORFN�PDQLIROG��0DNH�VXUH�WKH�YHQW�YDOYH�LV�closed.

c. Remove the corresponding (high pressure or low pressure) vent screw from the side of the MVT and LQVHUW�D�¿WWLQJ�WR�DOORZ�FRQQHFWLRQ�RI�D�KDQG�SXPS�RU�IXQQHO��,I�D�IXQQHO�LV�XVHG��DWWDFK�D�OHQJWK�RI�7\JRQ�WXELQJ�WKDW�LV�ORQJ�HQRXJK�WR�HOHYDWH�WKH�IXQQHO�ZHOO�DERYH�WKH�FRQGHQVDWH�SRW�WR�IRUFH�WKH�ÀXLG�up the legs.

d. &RQQHFW�D�KDQG�SXPS�RU�IXQQHO�WR�WKH�¿WWLQJ�

e. 3RXU�¿OO�OLTXLG�LQWR�WKH�IXQQHO�RU�SXPS�LW�LQWR�WKH�FROG�OHJ��WDSSLQJ�WKH�FROG�OHJ�RFFDVLRQDOO\�WR�GLV-lodge any bubbles.

f. 2EVHUYH�WKH�SLSH�WHH�FRQGHQVDWH�SRW�DQG�VWRS�SRXULQJ�ZKHQ�WKH�¿OO�OLTXLG�LV�YLVLEOH�DW�WKH�WRS�DQG�QR�air bubbles can be seen.

g. 5HPRYH�WKH�¿WWLQJ�IURP�WKH�YHQW�RI�WKH�097�DQG�TXLFNO\�UHSODFH�WKH�YHQW�VFUHZ�DQG�WLJKWHQ�

h. &ORVH�WKH�EORZGRZQ�YDOYH�RU�UHSODFH�WKH�¿OOLQJ�SOXJ�IURP�RQH�RI�WKH�SLSH�WHHV�FRQGHQVDWH�SRWV�

��


i. Repeat steps a through h for the other cold leg.

9. To eliminate an offset of the differential pressure reading, open the equalizer valves on the block manifold, remove the caps from the seal pots, and adjust either seal pot vertically to bring the water levels to the exact same elevation.

10. Perform a manifold leak test as described on page ��.

11. Verify the zero offset, if required (and other calibration points, if desired). See the ModWorX™ Pro Soft-ZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��6HH�DOVR�=HUR�2IIVHW��6WDWLF�3UHVVXUH�or Differential Pressure), page ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��, and Differential Pres-VXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��.


��


Measuring Liquid via a Differential Pressure Meter

Best Practices7R�HQVXUH�PHDVXUHPHQW�DFFXUDF\��HQVXUH�WKDW�WKH�PHWHU�UXQ�FRPSOLHV�ZLWK�WKH�IROORZLQJ�$*$��DQG�,62��JXLGHOLQHV��DV�DSSOLFDEOH��

�� Do not place unit near vents or bleed holes that discharge corrosive vapors or gases.

�� Consider the orientation of the meter run when determining the best position for mounting the Scanner.

– If the Scanner 2000 is mounted to a horizontal pipeline, make sure process connections are horizon-tal with the pipeline, or sloped downwards towards the Scanner. Mount the Scanner 2000 below the SUHVVXUH�WDSV�DW�WKH�SLSH��8VH�WKH�VLGH��XSSHU��SRUWV�DV�SURFHVV�FRQQHFWLRQV�DQG�WKH�ERWWRP�SRUWV�IRU�GUDLQLQJ�DQG�¿OOLQJ�WKH�'3�KRXVLQJV�

– If the Scanner 2000 is mounted to a vertical pipeline, install the sensor below the differential pressure source connections. Slope all tubing downward at least 1-inch/linear foot to avoid gas entrapment.

�� 0RXQW�WKH�6FDQQHU��DV�QHDU�OHYHO�DV�SRVVLEOH�VXFK�WKDW�WKH�RSHUDWRU�KDV�D�FOHDU�YLHZ�RI�WKH�/&'��DQG�can access the keypad easily when the enclosure cover is removed. The location should be as free from vibration as possible.

�� Make sure the high port of the sensor (marked “H”) is connected to the upstream side of the meter run.

�� 3LSH�GLDPHWHUV��'��VKRXOG�EH�EHWZHHQ��LQ��PP��DQG��LQ��PP��SHU�,62��RU�JUHDWHU�WKDQ��LQ��PP��SHU�$*$��

�� 3LSH�5H\QROGV�QXPEHUV�PXVW�EH�DERYH��$YRLG�KLJK�YLVFRVLW\�OLTXLGV��JUHDWHU�WKDQ��F3�� G��RUL¿FH�GLDPHWHU��PXVW�EH�JUHDWHU�WKDQ�RU�HTXDO�WR��LQ��PP�� 2UL¿FH�ȕ��GLDPHWHU�UDWLR��PXVW�EH�JUHDWHU�WKDQ�RU�HTXDO�WR��DQG�OHVV�WKDQ�RU�HTXDO�WR�� *DXJH�OLQHV�VKRXOG�EH�RI�XQLIRUP�LQWHUQDO�GLDPHWHU�DQG�FRQVWUXFWHG�RI�PDWHULDO�FRPSDWLEOH�ZLWK�WKH�ÀXLG�

EHLQJ�PHDVXUHG��)RU�PRVW�DSSOLFDWLRQV��WKH�ERUH�VKRXOG�EH�QR�VPDOOHU�WKDQ�ó�LQ��PP��DQG�SUHIHUDEO\��LQ��PP��LQ�GLDPHWHU��7KH�LQWHUQDO�GLDPHWHU�VKRXOG�QRW�H[FHHG��LQ��PP��,I�KLJK�WHPSHUDWXUH�ÀXLGV�DUH�OLNHO\�WR�EH�HQFRXQWHUHG��PDNH�VXUH�WKH�PHDVXULQJ�WXEH�XVHG�LV�UDWHG�IRU�WKH�DQWLFLSDWHG�WHP-perature range.

�� ,I�WKHUH�LV�SRVVLELOLW\�RI�IUHH]LQJ��WKH�JDXJH�OLQHV�FDQ�EH�¿OOHG�ZLWK�D�VXLWDEOH�VHDO�OLTXLG��7KH�VHDO�OLTXLG�VKRXOG�EH�VRPHZKDW�GHQVHU�WKDQ�WKH�SURFHVV�ÀXLG��VKRXOG�QRW�GLVVROYH�LQ�LW��VKRXOG�KDYH�D�VXI¿FLHQWO\�ORZ�freezing point, and should be non-toxic. Alternatively, heat tracing can be used.

�� Gauge line length should be minimized to help prevent pulsation-induced errors.

�� Gauge lines should slope upward to the meter at a minimum of one inch per foot.

�� If gauge lines must slope in more than one direction, do not allow more than one bend and install a gas trap.

�� Gauge lines should be supported to prevent sag and vibration.

�� Where pulsation is anticipated, full-port manifold valves with a nominal internal diameter consistent with the gauge lines are recommended.

If the Scanner 2000 is mounted to a cone meter, consider the following guidelines in addition to the best practices listed above.

�� 3RVLWLRQ�WKH�FRQH�PHWHU�VR�WKDW�WKHUH�DUH�]HUR�WR�¿YH�SLSH�GLDPHWHUV�XSVWUHDP�RI�WKH�PHWHU�DQG�]HUR�WR�three pipe diameters downstream of the meter.

44


�� Install the meter so that the static pressure tap is upstream of the differential pressure tap. The high side of the integral Scanner 2000 sensor must also be situated upstream.

�� Install shut-off valves directly on the DP meter pressure taps. Choose a shut-off valve that is rated for the ambient temperatures of the location and the operating pressure of the pipe in which it will be installed, DQG�IRU�XVH�ZLWK�GDQJHURXV�RU�FRUURVLYH�ÀXLGV�RU�JDVHV��LI�DSSOLFDEOH��7KH�YDOYHV�PXVW�QRW�DIIHFW�WKH�WUDQV-mission of the differential pressure signal.

,QVWDOODWLRQ�3URFHGXUH²'LUHFW�0RXQW�WR�2UL¿FH�0HWHU�RU�&RQH�0HWHU$�6FDQQHU��FDQ�EH�PRXQWHG�GLUHFWO\�WR�DQ�RUL¿FH�PHWHU�RU�FRQH�PHWHU�IRU�OLTXLG�PHDVXUHPHQW�XVLQJ�D�VLGH�SRUW�097��D�EORFN�PDQLIROG�DQG�WZR�IRRWEDOO�ÀDQJH�DGDSWHUV��)LJXUH��7KH�VHWXS�RI�WKH�PHWHU�UXQ�DQG�SOXPELQJ�FRQ¿JXUDWLRQV�FDQ�YDU\�ZLGHO\��GHSHQGLQJ�XSRQ�WKH�FKDOOHQJHV�H[LVWLQJ�RQ�ORFDWLRQ�

MVT withside ports Block

manifold

Adapter(2 typ.)

Figure 2.10—Direct-mount liquid run installation (shown here with a cone meter). Downstream RTD is not shown.

&$87,21�� :KHQ�PHDVXULQJ�OLTXLG�ZLWK�D�GLUHFW�PRXQW�6FDQQHU��SURFHVV�FRQQHFWLRQV�PXVW�EH�SDUDOOHO�WR�WKH�KRUL]RQWDO�FHQWHUOLQH�RI�WKH�PHWHU��RU�EHORZ�WKH�FHQWHUOLQH�WR�HOLPLQDWH�DLU�SRFNHWV��


2. 6FUHZ�D�IRRWEDOO�ÀDQJH�DGDSWHU�RQWR�HDFK�PHWHU�SUHVVXUH�WDS�XVLQJ�SLSH�WDSH�RU�SLSH�GRSH�WR�VHDO�WKH�threads.

3. Align the bolt holes in the Scanner 2000 MVT and manifold, and install bolts to mate these components WR�WKH�IRRWEDOO�ÀDQJHV��XVLQJ�R�ULQJV�DV�DSSURSULDWH��7RUTXH�WKH�EROWV�WR�WKH�PDQXIDFWXUHU¶V�VSHFL¿FDWLRQ�

4. 5RXWH�DQ\�DGGLWLRQDO�LQSXWV�RXWSXWV�RU�&20�FRQQHFWLRQV��HWF��WKURXJK�WKH�FRQGXLW�RSHQLQJ�LQ�WKH�WRS�RI�WKH�6FDQQHU��,Q�KD]DUGRXV�HQYLURQPHQWV��DGG�D�FRQGXLW�VHDO�ZLWKLQ��LQ��RI�WKH�6FDQQHU��

45


�� 9HULI\�WKDW�DOO�PDQLIROG�YDOYHV�DUH�FORVHG��DQG�¿OO�WKH�PHWHU�ZLWK�SURFHVV�ÀXLG�

�� /RRVHQ�RQH�RI�WKH�YHQW�VFUHZV�LQ�WKH�VLGH�RI�WKH�097�

�� 2SHQ�WKH�HTXDOL]HU�YDOYHV�DQG�WKH�YHQW�YDOYH�RQ�WKH�PDQLIROG�

�� 6ORZO\�RSHQ�RQH�RI�WKH�E\SDVV�EORFN�YDOYHV�RQ�WKH�PDQLIROG��3URFHVV�ÀXLG�VKRXOG�LPPHGLDWHO\�VSXUW�IURP�the MVT vent.

9. When air bubbles are no longer visible around the MVT vent, tighten the MVT vent screw.

10. /RRVHQ�WKH�RWKHU�YHQW�VFUHZ�LQ�WKH�VLGH�RI�WKH�097��DQG�UHSHDW�VWHSV��WKURXJK��

11. Perform a manifold leak test as described on page ��.

12. Verify the zero offset, if required (and other calibration points, if desired). See the ModWorX™ Pro Soft-ZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��6HH�DOVR�=HUR�2IIVHW��6WDWLF�3UHVVXUH�or Differential Pressure), page ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��, and Differential Pres-VXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��.


46


,QVWDOODWLRQ�3URFHGXUH²5HPRWH�0RXQW�WR�2UL¿FH�0HWHU�RU�&RQH�0HWHU$�6FDQQHU��FDQ�EH�PRXQWHG�UHPRWHO\�DQG�FRQQHFWHG�WR�DQ�RUL¿FH�PHWHU�RU�FRQH�PHWHU�ZLWK�WXELQJ�IRU�OLTXLG�PHDVXUHPHQW��)LJXUH��7KH�VHWXS�RI�WKH�PHWHU�UXQ�DQG�SOXPELQJ�FRQ¿JXUDWLRQV�FDQ�YDU\�ZLGHO\��depending upon the challenges existing on location.

&$87,21�� :KHQ�PHDVXULQJ�OLTXLG��SURFHVV�FRQQHFWLRQV�PXVW�EH�GHVLJQHG�WR�HOLPLQDWH�DLU�SRFNHWV��This is achieved by mounting the sensor below the metering device and sloping all tub-LQJ�GRZQZDUG�IURP�WKH�PHWHU�WR�WKH�VHQVRU��$�VLGH�SRUW�097�DQG�EORFN�PDQLIROG��VKRZQ�in Figure 2.11) is recommended to help prevent air bubbles from being trapped in the sensor. ,I�D�ERWWRP�SRUW�097�LV�XVHG��WKH�ERWWRP�SURFHVV�SRUWV�PXVW�EH�SOXJJHG�RU�UHSODFHG�ZLWK�D�GUDLQ�YDOYH��DQG�VLGH�YHQWV�PXVW�EH�XVHG�IRU�SURFHVV�FRQQHFWLRQV��$�EORFN�PDQLIROG�LV�QRW�UHFRPPHQGHG�IRU�XVH�ZLWK�ERWWRP�SRUW�097V��&RQWDFW�D�&DPHURQ�¿HOG�UHSUHVHQWDWLYH�for assistance.


Positioning of sensor below themeter and slope of tubing helpsprevent gas bubbles from enteringthe liquid

Shut-off valves throttle flow tothe manifold and MVT

Figure 2.11—Remote-mount liquid run installation (shown here with a cone meter). The remote-mount method FDQ�EH�XVHG�ZLWK�DQ�RUL¿FH�PHWHU�DV�ZHOO�

��



2. 0RXQW�WKH�6FDQQHU��WR�D��LQ��SLSH�RU�WR�D�ÀDW��YHUWLFDO�VXUIDFH�XVLQJ�EROWV�DQG�WKH�PRXQWLQJ�KROHV�LQ�the enclosure. A horizontal pipe is recommended, as additional hardware may be required for a vertical pipe mount to provide clearance for the manifold block.

3. ,QVWDOO�WXELQJ�DQG�¿WWLQJV�WR�FRQQHFW�WKH�KLJK�SUHVVXUH�DQG�ORZ�SUHVVXUH�WDSV�RI�WKH�'3�PHWHU�WR�WKH�SUR-cess connections of the block manifold. Install a pair of shut-off valves near the high and low ports of the '3�PHWHU��8VH�D�VXLWDEOH�FRPSRXQG�RU�WDSH�RQ�DOO�WKUHDGHG�SURFHVV�FRQQHFWLRQV�

4. 5RXWH�DQ\�DGGLWLRQDO�LQSXWV�RXWSXWV�RU�&20�FRQQHFWLRQV��HWF��WKURXJK�WKH�FRQGXLW�RSHQLQJ�LQ�WKH�WRS�RI�WKH�6FDQQHU��,Q�KD]DUGRXV�HQYLURQPHQWV��DGG�D�FRQGXLW�VHDO�ZLWKLQ��LQ��RI�WKH�6FDQQHU��

1RWH�� 7R�SUHYHQW�¿WWLQJV�IURP�WXUQLQJ�DQG�RU�WR�DYRLG�SXWWLQJ�WHQVLRQ�RQ�VWDLQOHVV�VWHHO�WXELQJ��XVH�D�EDFNXS�ZUHQFK�WR�DWWDFK�VWDLQOHVV�VWHHO�WXELQJ�WR�VKXW�RII�YDOYHV��RU�VHQVRU�SRUWV�

�� 7R�HOLPLQDWH�DLU�EXEEOHV�LQ�WKH�097��PDQLIROG��DQG�OHJV�FRQQHFWLQJ�WKHP�WR�WKH�PHWHU��¿OO�WKH�OHJV�ZLWK�ÀXLG��&KRRVH�D�ÀXLG�WKDW�LV�VDIH�IRU�WKH�HQYLURQPHQW��DQG�VWDEOH�ZKHQ�GHSUHVVXUL]HG�

,PSRUWDQW�� ,I�WKH�SURFHVV�ÀXLG�GRHV�QRW�SUHVHQW�DQ�HQYLURQPHQWDO�ULVN�DQG�LV�VWDEOH�ZKHQ�GHSUHVVXU-L]HG��LW�PD\�EH�XVHG�WR�EOHHG�DLU�IURP�WKH�OLQHV��,I�WKH�SURFHVV�ÀXLG�FDQ�FRQWDPLQDWH�WKH�HQYLURQPHQW��RU�LV�KLJKO\�YRODWLOH�ZKHQ�GHSUHVVXUL]HG�DV�ZLWK�OLTXL¿HG�JDVHV��D�GLIIHUHQW�VHDO�ÀXLG�VKRXOG�EH�XVHG�WR�¿OO�WKH�OHJV��$Q�LGHDO�VHDO�ÀXLG�LV�RQH�WKDW�GRHV�QRW�GLVVROYH�LQ�WKH�SURFHVV�ÀXLG�

Bleeding with Process Fluid

a. Make sure the shut-off valves in the tubing near the meter pressure taps are closed, and the meter is ¿OOHG�ZLWK�SURFHVV�ÀXLG�


c. 2SHQ�RQH�RI�WKH�VKXW�RII�YDOYHV�QHDU�WKH�PHWHU��

d. 6ORZO\�ORRVHQ�WKH�FRUUHVSRQGLQJ�YHQW�VFUHZ�RQ�WKH�097��DQG�WKURWWOH�WKH�UDWH�RI�ÀRZ�IURP�WKH�YHQW�with the shut-off valve.

e. When air bubbles are no longer visible around the MVT vent, tighten the MVT vent screw.

f. Repeat steps a through e for the other leg.

Bleeding with a Different Seal Fluid

a. Make sure the shut-off valves in the tubing near the pressure taps are open.


c. 5HPRYH�WKH�YHQW�VFUHZ�IURP�RQH�VLGH�RI�WKH�097�DQG�LQVHUW�D�¿WWLQJ�WR�DOORZ�FRQQHFWLRQ�RI�D�KDQG�pump or funnel. If a funnel is used, attach a length of Tygon tubing that is long enough to elevate the IXQQHO�ZHOO�DERYH�WKH�PHWHU�SUHVVXUH�WDSV�WR�IRUFH�WKH�ÀXLG�XS�WKH�OHJV��

48


d. &RQQHFW�D�KDQG�SXPS�RU�IXQQHO�WR�WKH�¿WWLQJ��

e. (VWLPDWH�WKH�DPRXQW�RI�¿OO�ÀXLG�UHTXLUHG�WR�¿OO�WKH�WXELQJ�DQG�SXVK�DQ\�DLU�EXEEOHV�LQWR�WKH�PHWHU�

f. 3RXU�¿OO�OLTXLG�LQWR�WKH�IXQQHO��WDSSLQJ�WKH�WXELQJ�RFFDVLRQDOO\�WR�GLVORGJH�DQ\�EXEEOHV�

g. :KHQ�WKH�OHJ�LV�IXOO�RI�ÀXLG��UHPRYH�WKH�¿WWLQJ�IURP�WKH�YHQW�RI�WKH�097�DQG�TXLFNO\�UHSODFH�WKH�YHQW�screw and tighten.

h. Repeat steps a through g for the other leg.


�� Verify the zero offset, if required (and other calibration points, if desired). See the ModWorX™ Pro Soft-ZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��6HH�DOVR�=HUR�2IIVHW��6WDWLF�3UHVVXUH�or Differential Pressure), page ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��, and Differential Pres-VXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ��SDJH��.


��


Measuring Compensated Liquid via a Turbine Meter

Best Practices 7KH�6FDQQHU��PLFUR()0�FDOFXODWHV�FRPSHQVDWHG�OLTXLG�ÀRZ�WKURXJK�D�WXUELQH�PHWHU�LQ�DFFRUGDQFH�ZLWK�$3,��DQG�WKH�PHDVXUHPHQW�SULQFLSOHV�XSRQ�ZKLFK�WKH�$*$��VWDQGDUG�LV�EDVHG��7KH�XVHU�VXSSOLHV�D�linear or multi-point calibration factor, and the instrument performs the required compensation calculations, based on the RTD input.

For optimum performance, ensure that the turbine and Scanner 2000 installation complies with the industry UHFRPPHQGDWLRQV�OLVWHG�EHORZ��

�� ,QVWDOO�WKH�WXUELQH�ÀRZPHWHU�LQ�WKH�PHWHU�UXQ�VXFK�WKDW�WKHUH�DUH�DW�OHDVW��QRPLQDO�SLSH�GLDPHWHUV�XS-VWUHDP�DQG�¿YH�QRPLQDO�SLSH�GLDPHWHUV�GRZQVWUHDP�RI�WKH�PHWHU��%RWK�LQOHW�DQG�RXWOHW�SLSH�VKRXOG�EH�RI�the same nominal size as the meter.


Installation Procedure—Direct Mount to a Turbine Meter (CSA Compliant)A Scanner 2000 without the MVT bottomworks can be mounted directly to a liquid turbine meter for measuring liquid (Figure 2.12). A pipe adapter and union are attached to the Scanner, allowing a direct connection to the turbine meter. An explosion-proof RTD is required for the temperature input.

Flow



10 pipe diametersupstream

5 pipe diametersdownstream

Figure 2.12—Direct-mount installation for use with a Barton 7000 Series meter

7R�FRQQHFW�WKH�6FDQQHU��WR�D�OLTXLG�WXUELQH�PHWHU�XVLQJ�WKLV�PHWKRG��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. 3RVLWLRQ�WKH�6FDQQHU��DERYH�WKH�ÀRZPHWHU�




50


�� Install the RTD assembly in the thermowell. Remove the plug from a conduit opening in the top of the Scanner 2000 enclosure, route the RTD assembly cable through the conduit opening and connect it to the main circuit board. A wiring diagram for the RTD assembly is provided in )LJXUH��SDJH��.


Installation Procedure—Direct Mount to a Barton 7000 Series Turbine Meter (ATEX Compliant)$�6FDQQHU��ZLWKRXW�WKH�097�ERWWRPZRUNV�FDQ�EH�PRXQWHG�GLUHFWO\�WR�D�%DUWRQ��VHULHV�WXUELQH�PHWHU�for measuring liquid (Figure 2.13). A stainless steel turbine meter pickup extension supports the Scanner 2000 and provides the elevation necessary for good visibility of the display. An explosion-proof RTD is required for the temperature input.

Flow

Turbine meter pickupextension (ATEX-approved)






1. 3RVLWLRQ�WKH�6FDQQHU��DQG�SLFNXS�H[WHQVLRQ�DVVHPEO\�DERYH�WKH�ÀRZPHWHU�


3. 6FUHZ�WKH�6FDQQHU��SLFNXS�H[WHQVLRQ�DVVHPEO\�RQWR�WKH�ÀRZPHWHU�WKUHDGV�VXUURXQGLQJ�WKH�PDJQHWLF�pickup with the display facing the desired direction, and tighten.

4. Install the RTD assembly in the thermowell. Remove the plug from a conduit opening in the top of the Scanner 2000 enclosure, route the RTD assembly cable through the conduit opening and connect it to the main circuit board. A wiring diagram for the RTD assembly is provided in )LJXUH��SDJH��.

51


Measuring Uncompensated Liquid via a Turbine Meter

Best Practices 7KH�6FDQQHU��PLFUR()0�FDOFXODWHV�XQFRPSHQVDWHG�OLTXLG�ÀRZ�WKURXJK�D�WXUELQH�PHWHU�LQ�DFFRUGDQFH�ZLWK�$3,�0306��&KDSWHU��6HFWLRQ��0HDVXUHPHQW�RI�/LTXLG�+\GURFDUERQV�E\�7XUELQH�0HWHUV��)RU�optimum performance, ensure that the turbine and Scanner 2000 installation complies with the industry UHFRPPHQGDWLRQV�OLVWHG�EHORZ��

�� ,QVWDOO�WKH�WXUELQH�ÀRZPHWHU�LQ�WKH�PHWHU�UXQ�VXFK�WKDW�WKHUH�DUH�DW�OHDVW��QRPLQDO�SLSH�GLDPHWHUV�XS-VWUHDP�DQG�¿YH�QRPLQDO�SLSH�GLDPHWHUV�GRZQVWUHDP�RI�WKH�PHWHU��%RWK�LQOHW�DQG�RXWOHW�SLSH�VKRXOG�EH�RI�the same nominal size as the meter.


Installation Procedure—Direct Mount to a Turbine Meter (CSA Compliant)A Scanner 2000 without the MVT bottomworks can be mounted directly to a liquid turbine meter for measuring liquid (Figure 2.14). A pipe adapter and union are attached to the Scanner, allowing a direct connection to the turbine meter.

Flow





7R�FRQQHFW�WKH�6FDQQHU��WR�D�OLTXLG�WXUELQH�PHWHU�XVLQJ�WKLV�PHWKRG��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. 3RVLWLRQ�WKH�6FDQQHU��DERYH�WKH�ÀRZPHWHU�





��


Installation Procedure—Direct Mount to a Barton 7000 Series Turbine Meter (ATEX Compliant)$�6FDQQHU��ZLWKRXW�WKH�097�ERWWRPZRUNV�FDQ�EH�PRXQWHG�GLUHFWO\�WR�D�%DUWRQ��VHULHV�WXUELQH�PHWHU�IRU�PHDVXULQJ�OLTXLG��)LJXUH��$�VWDLQOHVV�VWHHO�WXUELQH�PHWHU�SLFNXS�H[WHQVLRQ�VXSSRUWV�WKH�6FDQQHU��and provides the elevation necessary for good visibility of the display.

Flow

Turbine meter pickupextension (ATEX-approved)





1. 3RVLWLRQ�WKH�6FDQQHU��DQG�SLFNXS�H[WHQVLRQ�DVVHPEO\�DERYH�WKH�ÀRZPHWHU�


3. 6FUHZ�WKH�6FDQQHU��SLFNXS�H[WHQVLRQ�DVVHPEO\�RQWR�WKH�ÀRZPHWHU�WKUHDGV�VXUURXQGLQJ�WKH�PDJQHWLF�pickup with the display facing the desired direction, and tighten.

3HUIRUPLQJ�D�0DQLIROG�/HDN�7HVWA manifold leak test is recommended prior to operating any differential pressure meter into service. Check the manifold for leaks as follows.

1. Verify that the instrument is approximately level and is properly connected to the pressure source.

2. Make sure the vent valve in the manifold is closed. (The bypass/block valves should be open.)

3. Close both bypass/block valves on the manifold to isolate pressure between the block valve and the MVT.

4. 2SHQ�ERWK�HTXDOL]HU�YDOYHV�WR�GLVWULEXWH�SUHVVXUH�WKURXJKRXW�

�� Monitor the pressure readout and watch for a steady decrease in pressure. If leakage is indicated, depres-surize the system by opening both bypass/block valves, then check all manifold and piping joints. Tighten connections as necessary.

GENERAL OPERATIONFor general operation, the equalizer valves and vent valves are closed, and the bypass/block valves are open, so that there is a direct supply of pressurefrom the orifice to the MVT.

ZERO SPTo zero the static pressure, close the bypass valves to isolate the pressure below the manifoldopen the equalizer and vent valves.

CALIBRATE SPTo calibrate the static pressure,close the bypass valves to isolate the pressure below the manifoldopen the equalizer valves and vent valve to purge the linesClose the vent valveConnect a test device to manifold (either side).Apply pressure to the MVT.

ZERO DPTo zero the differential pressure,close the bypass valves to isolate the pressure below the manifoldopen the equalizer and vent valves.

CALIBRATE DPTo calibrate the differential pressure,close the bypass valves to isolate the pressure below the manifoldopen the equalizer valve on the low-pressure side of the manifold and open the vent valve to purge the low-pressure linesConnect a test device to the high pressure side of the manifold.Apply pressure to the high side of the MVT.

VENT

BYPASS/BLOCK

EQUALIZER

BYPASS/BLOCK

EQUALIZER

��


�� 5HSHDW�VWHSV��WKURXJK��WR�UHWHVW�WKH�PDQLIROG�IRU�OHDNV�

$Q�DGGLWLRQDO�WHVW�FDQ�YHULI\�WKH�FRQGLWLRQ�RI�WKH�HTXDOL]LQJ�YDOYHV��$VVXPLQJ�WKH�DERYH�WHVW�KDV�FRQ¿UPHG�the system is leak free, close both equalizing valves and open the vent. Monitor the differential pressure reading for any change. Repair or replace the manifold as required if the differential pressure varies.

Zero Offset (Static Pressure or Differential Pressure)The static pressure input for the Scanner 2000 is zeroed at the factory before shipment. However, changes in temperature and atmospheric pressure can cause the static pressure and differential pressure readings to vary. 7KH�LQSXWV�FDQ�EH�HDVLO\�]HURHG�LQ�WKH�¿HOG��LI�QHFHVVDU\��SULRU�WR�SXWWLQJ�WKH�6FDQQHU��LQWR�VHUYLFH��

To zero the static pressure or differential pressure

1. Close the bypass valves to isolate the pressure below the manifold.

2. 2SHQ�WKH�HTXDOL]HU�DQG�YHQW�YDOYHV�

3. Connect to the Scanner 2000 with the ModWorX™ Pro software, and apply zero pressure from the Calibrate Inputs screen (see the ModWorX™ Pro 6RIWZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU� complete instructions).

6WDWLF�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ1RWH�� 7KH�SUHVVXUH�UDQJH�VWDPSHG�RQ�WKH�097�LV�H[SUHVVHG�DV�SVLD��DEVROXWH��+RZHYHU��6FDQQHU��

SUHVVXUH�LQSXWV�DUH�UHFDOLEUDWHG�DV�SVLJ��JDXJH��DW�WKH�IDFWRU\�EHIRUH�WKH�GHYLFH�LV�VKLSSHG��7KHUH-IRUH��SUHVVXUH�UHDGLQJV�GLVSOD\HG�RQ�WKH�/&'�DQG�LQ�WKH�0RG:RU;�3UR�VRIWZDUH�DUH�LQ�WHUPV�RI�SVLJ�

7KH�VWDWLF�SUHVVXUH�DQG�GLIIHUHQWLDO�SUHVVXUH�LQSXWV�DUH�FDOLEUDWHG�DQG�YHUL¿HG�EHIRUH�WKH�6FDQQHU��OHDYHV�WKH�IDFWRU\��DQG�UHFDOLEUDWLRQ�LQ�WKH�¿HOG�PD\�RU�PD\�QRW�EH�UHTXLUHG��7R�FRPSO\�ZLWK�$3,�VWDQGDUGV�IRU�YHUL¿FDWLRQ��³DV�IRXQG´�UHDGLQJV�VKRXOG�EH�UHFRUGHG�DW�DSSUR[LPDWHO\��DQG��SHUFHQW�RI�WKH�RSHUDWLQJ�SUHVVXUH�UDQJH��LQFUHDVLQJ��DQG�DW��DQG��SHUFHQW�RI�WKH�RSHUDWLQJ�SUHVVXUH�UDQJH��GHFUHDVLQJ��)RU�H[DPSOH��WKH�VWDWLF�SUHVVXUH�PHDVXUHPHQWV�RI�D��SVL�VHQVRU�VKRXOG�EH�YHUL¿HG�DW��SVL��SVL��DQG��psi, then at 1200 psi, 300 psi, and 0 psi.

! � :$51,1*��'R�QRW�VXEMHFW�WKH�6FDQQHU��PLFUR()0�WR�XQQHFHVVDU\�VKRFN�RU�RYHU�UDQJH�pressure during maintenance operations.

To calibrate the static pressure


2. 2SHQ�WKH�HTXDOL]HU�YDOYHV�DQG�YHQW�YDOYH�WR�SXUJH�the lines.

3. Close the vent valve.

4. Connect a static pressure simulator to the manifold (either side).






VENT

BYPASS/BLOCK

EQUALIZER

BYPASS/BLOCK

EQUALIZER






VENT

BYPASS/BLOCK

EQUALIZER

BYPASS/BLOCK

EQUALIZER

54


�� Connect to the Scanner 2000 with the ModWorX™ Pro software. Click on the &DOLEUDWH�,QSXWV menu EXWWRQ�DQG�SURFHHG�WKURXJK�WKH�FDOLEUDWLRQ�SHU�LQVWUXFWLRQV�LQ�WKH�0RG:RU;��3UR�6RIWZDUH�8VHU�0DQX-al.

�� At the appropriate software prompt, enter a known pressure.

�� Apply the same amount of pressure to the MVT using the simulator (see the ModWorX™ Pro Software 8VHU�0DQXDO�IRU�FRPSOHWH�LQVWUXFWLRQV��7KH�0RG:RU;��3UR�VRIWZDUH�ZLOO�GLVSOD\�D�PHDVXUHG�YDOXH�DQG�a percentage of change.

�� 5HSHDW�VWHSV��DQG��DV�QHFHVVDU\�WR�HQWHU�PXOWLSOH�FDOLEUDWLRQ�SRLQWV�

9. When all calibration points have been entered, click 6DYH�&KDQJHV to apply the new calibration settings.

To verify the static pressure, perform the steps described in the calibration procedure above, except instead of choosing &DOLEUDWH from the Change Calibration Task window, choose 9HULI\��<RX�ZLOO�EH�SURPSWHG�WR�enter an applied value, and you will apply the same amount of pressure to the MVT, just as in the calibration process. The ModWorX™ Pro software will display a measured value and a percentage of error. When you click Save Changes, the measured values are written to memory for reference.

'LIIHUHQWLDO�3UHVVXUH�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ7KH�VWDWLF�SUHVVXUH�DQG�GLIIHUHQWLDO�SUHVVXUH�LQSXWV�DUH�FDOLEUDWHG�DQG�YHUL¿HG�EHIRUH�WKH�6FDQQHU��OHDYHV�WKH�IDFWRU\��DQG�UHFDOLEUDWLRQ�LQ�WKH�¿HOG�PD\�RU�PD\�QRW�EH�UHTXLUHG��7R�FRPSO\�ZLWK�$3,�VWDQGDUGV�IRU�YHUL¿FDWLRQ��³DV�IRXQG´�UHDGLQJV�VKRXOG�EH�UHFRUGHG�DW�DSSUR[LPDWHO\��DQG��SHUFHQW�RI�WKH�RSHUDWLQJ�SUHVVXUH�UDQJH��LQFUHDVLQJ��DQG�DW��DQG��SHUFHQW�RI�WKH�RSHUDWLQJ�SUHVVXUH�UDQJH��GHFUHDVLQJ��)RU�H[DPSOH��WKH�GLIIHUHQWLDO�SUHVVXUH�PHDVXUHPHQWV�RI�D��,Q��+�2�VHQVRU�VKRXOG�EH�YHUL¿HG�DW��,Q��+�2��,Q��+�2��,Q��+�2��WKHQ�DW��,Q��+�2��,Q��+�2��DQG��,Q��+�2�

! � :$51,1*��'R�QRW�VXEMHFW�WKH�6FDQQHU��PLFUR()0�WR�XQQHFHVVDU\�VKRFN�RU�RYHU�UDQJH�pressure during maintenance operations.

To calibrate the differential pressure


2. 2SHQ�WKH�HTXDOL]HU�YDOYHV�DQG�YHQW�YDOYH�WR�SXUJH�the lines.

3. Close the high-pressure side equalizer valve.

4. Connect a pressure simulator to the high-pressure side of the manifold.

�� Connect to the Scanner 2000 with the ModWorX™ Pro software. Click on the &DOLEUDWH�,QSXWV menu EXWWRQ�DQG�SURFHHG�WKURXJK�WKH�FDOLEUDWLRQ�SHU�LQVWUXFWLRQV�LQ�WKH�0RG:RU;��3UR�6RIWZDUH�8VHU�0DQX-DO��3DUW�1R��$��

�� At the appropriate software prompt, enter a known pressure.

�� Apply the same amount of pressure to the high side of the MVT using the simulator (see the ModWorX™ 3UR�6RIWZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�FRPSOHWH�LQVWUXFWLRQV��7KH�0RG:RU;��3UR�software will display a measured value.






VENT

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EQUALIZER

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55


�� 5HSHDW�VWHSV��DQG��DV�QHFHVVDU\��WR�HQWHU�PXOWLSOH�FDOLEUDWLRQ�SRLQWV��DQG�DSSO\�WKH�QHZ�PHDVXUHG�YDOXHV�from the ModWorX™ Pro interface.

9. When all calibration points have been entered, click 6DYH�&KDQJHV�to apply the new calibration settings.

To verify the differential pressure, perform the steps described in the calibration procedure above, except instead of choosing &DOLEUDWH from the Change Calibration Task window, choose 9HULI\��<RX�ZLOO�EH�prompted to enter an applied value, and you will apply the same amount of pressure to the MVT, just as in the calibration process. The ModWorX™ Pro software will display a measured value and a percentage of error. When you click 6DYH�&KDQJHV, the measured values are written to memory for reference.

Placing the Scanner into OperationTo put the Scanner into operation;

1. Close the vent valve.

2. 2SHQ�WKH�HTXDOL]HU�YDOYHV�

3. 2SHQ�WKH�E\SDVV�EORFN�YDOYHV�WR�DOORZ�SUHVVXUH� to be supplied to both sides of the MVT.

4. Close the equalizer valves.

�� 2SHQ�WKH�YHQW�YDOYH��RSWLRQDO��VRPH�XVHUV�PD\� choose to leave the vent closed).

Industry Standard Compliance7R�HQVXUH�PHDVXUHPHQW�DFFXUDF\��ÀRZ�UXQV�DQG�WXUELQH�PHWHU�UXQV�PXVW�EH�LQVWDOOHG�LQ�DFFRUGDQFH�ZLWK�industry standards. Table 2.2, page ��, and Table 2.3, page ��, reference the sections in these standards that apply VSHFL¿FDOO\�WR�ÀRZ�UXQ�DQG�KDUGZDUH�LQVWDOODWLRQ�

Table 2.4, page ��,�UHIHUHQFHV�VWDQGDUGV�WKDW�DSSO\�WR�ÀXLG�SURSHUWLHV�IRU�JDV��VWHDP��DQG�OLTXLG�PHDVXUHPHQW��Fluid properties used for gas measurement calculations such as compressibility factors and density are in DFFRUGDQFH�ZLWK�$*$�5HSRUW�1R��)RU�VWHDP�PHDVXUHPHQW��DOJRULWKPV�DUH�EDVHG�RQ�WKH�,$3:6�,QGXVWULDO�)RUPXODWLRQ��,)��VWDQGDUG��)RU�WHPSHUDWXUH�FRPSHQVDWHG�OLTXLG�PHDVXUHPHQW��ÀXLG�SURSHUW\�FDOFXODWLRQV�DUH�EDVHG�RQ�$3,��3HWUROHXP�0HDVXUHPHQW�7DEOHV��

Heating values for gas measurement are calculated in accordance with AGA Report No. 3, Part 3, Appendix F, DQG�*3$��XVLQJ�WKH�FRQVWDQWV�GH¿QHG�LQ�*3$��

)RU�PRUH�LQIRUPDWLRQ��VHH�WKH�0RG:RU;��3UR�6RIWZDUH�8VHU�0DQXDO��3DUW�1R��$��






VENT

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56


7DEOH��²,QGXVWU\�6WDQGDUGV�IRU�2UL¿FH�0HWHUVStandard Applicable Section Description Notes$*$�5HSRUW�1R��2UL¿FH�0HWHULQJ�RI�1DWXUDO�*DV�DQG�2WKHU�5HODWHG�+\GURFDUERQ�)OXLGV

3DUW��6SHFL¿FDWLRQ�DQG�,QVWDOODWLRQ�5HTXLUHPHQWV��6HFWLRQ��,QVWDOODWLRQ�UHTXLUHPHQWV�

6SHFL¿FDWLRQV�IRU�RUL¿FH�PHWHUV��WR�LQFOXGH�EHWD�UDWLRV�

,QVWDOODWLRQ�UHTXLUHPHQWV�IRU�RUL¿FH�SODWHV��PHWHU�WXEHV��ÀRZ�FRQGLWLRQHUV��DQG�WKHUPRPHWHU�wells

7KLV�VWDQGDUG�LV�DOVR�GLVWULEXWHG�XQGHU�WKH�IROORZLQJ�QDPHV��$3,�0306�&KDSWHU��3DUW��$16,�$3,��3DUW��DQG�*3$��3DUW��

,62��0HDVXUHPHQW�RI�)OXLG�)ORZ�E\�0HDQV�RI�3UHVVXUH�'LIIHUHQWLDO�'HYLFHV�,QVHUWHG�LQ�&LUFXODU�&URVV�6HFWLRQ�&RQGXLWV�5XQQLQJ�)XOO

3DUW��*HQHUDO�3ULQFLSOHV�DQG�5HTXLUHPHQWV

,QVWDOODWLRQ�RI�RUL¿FH�SODWHV�LQVHUWHG�LQWR�D�FLUFXODU�FURVV�VHFWLRQ�FRQGXLW�UXQQLQJ�IXOO

/LPLWDWLRQ�RI�SLSH�VL]H�DQG�5H\QROGV�QXPEHU�

,62��LV�DSSOLFDEOH�RQO\�WR�ÀRZ�WKDW�UHPDLQV�VXEVRQLF�WKURXJKRXW�WKH�PHDVXULQJ�VHFWLRQ�DQG�ZKHUH�WKH�ÀXLG�FDQ�EH�FRQVLGHUHG�VLQJOH�SKDVH��,W�LV�QRW�DSSOLFDEOH�WR�WKH�PHDVXUHPHQW�RI�SXOVDWLQJ�ÀRZ��,W�GRHV�QRW�FRYHU�WKH�XVH�RI�RUL¿FH�SODWHV�LQ�SLSH�VL]HV�OHVV�WKDQ��PP��LQ��RU�PRUH�WKDQ��PP��LQ��RU�IRU�SLSH�5H\QROGV�QXPEHUV�EHORZ��

,62��0HDVXUHPHQW�RI�)OXLG�)ORZ�E\�0HDQV�RI�3UHVVXUH�'LIIHUHQWLDO�'HYLFHV�,QVHUWHG�LQ�&LUFXODU�&URVV�6HFWLRQ�&RQGXLWV�5XQQLQJ�)XOO

3DUW��2UL¿FH�3ODWHV

6SHFL¿HV�RUL¿FH�SODWHV�WKDW�FDQ�EH�XVHG�ZLWK�ÀDQJH�SUHVVXUH�WDSSLQJV��FRUQHU�SUHVVXUH�WDSSLQJV��'�DQG�'��SUHVVXUH�WDSSLQJV�

$3,�0DQXDO�RI�3HWUROHXP�0HDVXUHPHQW�6WDQGDUGV��&KDSWHU��(OHFWURQLF�*DV�0HDVXUHPHQW�

6HFWLRQ��(TXLSPHQW�,QVWDOODWLRQ

,QVWDOODWLRQ�RI�HOHFWURQLF�JDV�PHDVXUHPHQW�GHYLFHV�DQG�DVVRFLDWHG�FRPPXQLFDWLRQV��JDXJH�LPSXOVH�OLQHV��DQG�FDEOLQJ

6HFWLRQ��(TXLSPHQW�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ

5HTXLUHPHQWV�IRU�FDOLEUDWLQJ�DQG�YHULI\LQJ�WKH�DFFXUDF\�RI�HOHFWURQLF�JDV�PHDVXUHPHQW�GHYLFHV�

Industry Standards for Cone Meters

)RU�LQVWDOODWLRQ�UHTXLUHPHQWV�IRU�XVH�ZLWK�D�FRQH�PHWHU�DQG�DSSOLFDEOH�ÀRZ�UDWH�FDOFXODWLRQV��VHH�WKH�1X)OR�&RQH�0HWHU�8VHU�0DQXDO��3DUW�1R��$��

��


Table 2.3—Industry Standards for Turbine Meters

Standard Applicable Section Description Notes$*$�5HSRUW�1R��0HDVXUHPHQW�RI�1DWXUDO�*DV�E\�7XUELQH�0HWHUV

6HFWLRQ��,QVWDOODWLRQ�6SHFL¿FDWLRQV

,QVWDOODWLRQ�RI�JDV�WXUELQH�PHWHUV�WR�LQFOXGH�ÀRZ�GLUHFWLRQ��PHWHU�RULHQWDWLRQ��PHWHU�UXQ�FRQQHFWLRQV��LQWHUQDO�VXUIDFHV��WHPSHUDWXUH�ZHOO�ORFDWLRQ��SUHVVXUH�WDS�ORFDWLRQ��DQG�ÀRZ�FRQGLWLRQLQJ�

,OOXVWUDWLRQV�RI�UHFRPPHQGHG�LQVWDOODWLRQ�FRQ¿JXUDWLRQV

(QYLURQPHQWDO�FRQVLGHUDWLRQV��WKH�XVH�RI�RWKHU�GHYLFHV�WR�LPSURYH�PHWHU�SHUIRUPDQFH��DQG�SUHFDXWLRQDU\�PHDVXUHV�

7KLV�VSHFL¿FDWLRQ�DSSOLHV�WR�D[LDO�ÀRZ�WXUELQH�ÀRZPHWHUV�IRU�PHDVXUHPHQW�RI�QDWXUDO�JDV��W\SLFDOO\��LQ��DQG�ODUJHU�ERUH�GLDPHWHU��LQ�ZKLFK�WKH�HQWLUH�JDV�VWUHDP�ÀRZV�WKURXJK�WKH�PHWHU�URWRU�

$3,�0DQXDO�RI�3HWUROHXP�0HDVXUHPHQW�6WDQGDUGV��&KDSWHU��(OHFWURQLF�*DV�0HDVXUHPHQW�

6HFWLRQ��(TXLSPHQW�,QVWDOODWLRQ

,QVWDOODWLRQ�RI�HOHFWURQLF�JDV�PHDVXUHPHQW�GHYLFHV�DQG�DVVRFLDWHG�FRPPXQLFDWLRQV��JDXJH�LPSXOVH�OLQHV��DQG�FDEOLQJ

6HFWLRQ��(TXLSPHQW�&DOLEUDWLRQ�DQG�9HUL¿FDWLRQ

5HTXLUHPHQWV�IRU�FDOLEUDWLQJ�DQG�YHULI\LQJ�WKH�DFFXUDF\�RI�HOHFWURQLF�JDV�PHDVXUHPHQW�GHYLFHV�

$3,�0DQXDO�RI�3HWUROHXP�0HDVXUHPHQW�6WDQGDUGV��&KDSWHU��0HWHULQJ�

6HFWLRQ��0HDVXUHPHQW�RI�/LTXLG�+\GURFDUERQV�E\�7XUELQH�0HWHUV

'HVFULSWLRQ�RI�XQLTXH�LQVWDOODWLRQ�UHTXLUHPHQWV�DQG�SHUIRUPDQFH�FKDUDFWHULVWLFV�RI�WXUELQH�PHWHUV�LQ�OLTXLG�K\GURFDUERQ�VHUYLFH�

7KLV�VHFWLRQ�GRHV�QRW�DSSO\�WR�WKH�PHDVXUHPHQW�RI�WZR�SKDVH�ÀXLGV�

Table 2.4—Industry Standards for Fluid Properties

$*$�5HSRUW�1R��³2UL¿FH�0HWHULQJ�RI�1DWXUDO�*DV�DQG�2WKHU�5HODWHG�+\GURFDUERQ�)OXLGV�´�3DUW��³1DWXUDO�*DV�$SSOLFDWLRQV�´�7KLUG�(GLWLRQ��$SSHQGL[�)��³+HDWLQJ�9DOXH�&DOFXODWLRQ�´*3$��³&DOFXODWLRQ�RI�*URVV�+HDWLQJ�9DOXH��5HODWLYH�'HQVLW\�DQG�&RPSUHVVLELOLW\�)DFWRU�IRU�1DWXUDO�*DV�0L[WXUHV�IURP�&RPSRVLWLRQDO�$QDO\VLV´��*DV�3URFHVVRUV�$VVRFLDWLRQ��7XOVD�2NODKRPD��*3$��³7DEOH�RI�3K\VLFDO�3URSHUWLHV�IRU�+\GURFDUERQV�DQG�2WKHU�&RPSRXQGV�RI�,QWHUHVW�WR�WKH�1DWXUDO�*DV�,QGXVWU\�´�*DV�3URFHVVRUV�$VVRFLDWLRQ��7XOVD�2NODKRPD��$*$�5HSRUW�1R��³&RPSUHVVLELOLW\�)DFWRUV�RI�1DWXUDO�*DV�DQG�2WKHU�5HODWHG�+\GURFDUERQ�*DVHV�´�6HFRQG�(GLWLRQ��$*$�&DWDORJXH�;4��$PHULFDQ�*DV�$VVRFLDWLRQ��$UOLQJWRQ�9LUJLQLD��:��:DJQHU�DQG�$��.UXVH��³3URSHUWLHV�RI�:DWHU�DQG�6WHDP��7KH�,QGXVWULDO�6WDQGDUG�,$3:6�,)��IRU�WKH�7KHUPRG\QDPLF�3URSHUWLHV�DQG�6XSSOHPHQWDU\�(TXDWLRQV�IRU�2WKHU�3URSHUWLHV�´�6SULQJHU�9HUODJ��%HUOLQ�+HLGHOEXUJ��,6%1��$3,��³3HWUROHXP�0HDVXUHPHQW�7DEOHV�´�$PHULFDQ�3HWUROHXP�,QVWLWXWH��

58


��


Section 3—Wiring the Scanner 2000

Field Wiring Connections

! � :$51,1*��7R�SUHYHQW�LJQLWLRQ�RI�KD]DUGRXV�DWPRVSKHUHV��GR�QRW�UHPRYH�WKH�FRYHU�ZKLOH�FLU-cuits are alive. The Scanner 2000 poses no hazard when opened in a safe area.

&$87,21�� $OO�¿HOG�ZLULQJ�PXVW�FRQIRUP�WR�WKH�1DWLRQDO�(OHFWULFDO�&RGH��1)3$��$UWLFOH��E��for installations within the United States or the Canadian Electric Code for installations ZLWKLQ�&DQDGD��/RFDO�ZLULQJ�RUGLQDQFHV�PD\�DOVR�DSSO\��$OO�¿HOG�ZLULQJ�PXVW�EH�UDWHG�IRU�temperatures of 90°&�RU�KLJKHU��DQG�KDYH�D�ZLUH�UDQJH�RI��WR��$:*��7HUPLQDO�EORFN�screws must be tightened to a minimum torque of 5 to 7 in-lbs. to secure the wiring ZLWKLQ�WKH�WHUPLQDO�EORFN��2QO\�SHUVRQQHO�ZKR�DUH�H[SHULHQFHG�ZLWK�¿HOG�ZLULQJ�VKRXOG�perform these procedures.

7R�ZLUH�WKH�6FDQQHU��IRU�RSHUDWLRQ��FRPSOHWH�WKH�IROORZLQJ�¿HOG�FRQQHFWLRQV�

1. 8QVFUHZ�WKH�FRYHU�RI�WKH�HQFORVXUH�FRXQWHU�FORFNZLVH�XQWLO�LW�VHSDUDWHV�IURP�WKH�PDLQ�ERG\�RI�WKH�HQFOR-sure.

2. 8VLQJ�D�VPDOO�VWDQGDUG�EODGH�VFUHZGULYHU��UHPRYH�WKH�WZR��î��´�VFUHZV�ORFDWHG�WR�WKH�ULJKW�DQG�left side of the display.

3. /LIW�WKH�GLVSOD\�NH\SDG�DVVHPEO\�IURP�WKH�HQFORVXUH��PDNLQJ�VXUH�WKH�FLUFXLW�DVVHPEO\�GRHV�QRW�FRQWDFW�the enclosure.

4. Connect the lithium battery to the J1 connector on the circuit assembly. See Figure 3.2, page ��.

�� Connect wiring for external power, if appropriate. See Grounding Procedures, page ��, and see Figure 3.3, page �� for a wiring diagram.

�� &RQQHFW�WKH�ÀRZPHWHU�LQSXW�ZLULQJ�WR�WHUPLQDO�EORFN�7%��LI�DSSURSULDWH��6HH�Figure 3.4, page ��.

�� &RQQHFW�WKH�SURFHVV�WHPSHUDWXUH�LQSXW�ZLULQJ�WR�WHUPLQDO�EORFN�7%��LI�DSSURSULDWH��6HH�)LJXUH��SDJH��.

�� Connect wiring for output signals, if appropriate. See )LJXUH��SDJH��)LJXUH��SDJH��, and Figure ��SDJH��. If the instrument is equipped with an expansion board, connect wiring for expansion board inputs/outputs, if appropriate. See page $�� for expansion board wiring diagrams.

10. 3ODFH�WKH�FLUFXLW�DVVHPEO\�RYHU�WKH�VWDQGRIIV�DQG�IDVWHQ�ZLWK�WKH�WZR��î��´�VFUHZV��HQVXULQJ�WKDW�all connector wiring is inside the enclosure and in no position where it may be damaged when the enclo-sure cover is replaced.

11. Recalibrate the Scanner 2000 (if necessary).

12. If external and internal power supplies were removed, reset the clock to ensure that the time stamps in the log data are accurate. The clock can be reset using the instrument keypad or ModWorX™ Pro software.

13. Replace the enclosure cover by threading it onto the enclosure in a clockwise direction.

60


Grounding Procedures To power the Scanner 2000 microEFM with an external DC supply, route the ground conductor through a conduit opening in the top of the Scanner 2000 enclosure with the power conductors and connect it to the ground screw inside the enclosure (note the round sticker that marks this location in Figure 3.1).

If national or local electrical codes require the enclosure to be grounded, a protective earth grounding conductor may be required. To install a protective earth ground, connect an earth ground conductor to the stainless ground lug near the top of the Scanner 2000 enclosure (also shown in Figure 3.1) or to the internal ground screw, and connect the other end to a ground rod or other suitable system earth ground. The ground lugs will accept wire sizes from 14 AWG solid conductor to 4 AWG stranded conductor.

Internal ground screw

External ground screw

Figure 3.1—Ground screw locations

61


Power Supply Wiring

Internal Power SupplyThe Scanner 2000 microEFM is shipped with a lithium battery pack. To supply power to the instrument, connect the battery cable to connector J1 on the main circuit assembly (Figure 3.2).

/RZ�SRZHU�PLFURSURFHVVRU�WHFKQRORJ\�HQDEOHV�WKH�6FDQQHU��WR�RSHUDWH�IRU�DQ�HVWLPDWHG��\HDU�RQ�D�lithium battery pack. The lithium battery pack is ideal for use in extreme temperatures, although extreme cold temperatures may reduce battery life.

To maximize battery life,

�� RSHUDWH�WKH�6FDQQHU�XVLQJ�WKH�IROORZLQJ�GHIDXOW�FRQ¿JXUDWLRQ�VHWWLQJV� – FDOFXODWLRQ�IUHTXHQF\��PLQXWH – ORJJLQJ�IUHTXHQF\��LQWHUYDO��KRXU – GRZQORDG�IUHTXHQF\��PRQWKO\

�� GLVFRQQHFW�WKH�6FDQQHU��IURP�WKH�56��WR�56��FRQYHUWHU�ZKHQ�0RG:RU;�3UR�VRIWZDUH�LV�QRW�in use. When ModWorX Pro is running, the computer powers the converter; when the software is not run-ning, the Scanner 2000 powers the converter, causing a current drain to the Scanner battery.

�� DYRLG�WKH�IROORZLQJ�FRQGLWLRQV�DFWLYLWLHV� – operation at extremely cold temperatures

– use of digital output (pulse or alarm)

– use of analog input without external power (when expansion board is installed)

J1

TB1 TB2

TB3

BATTERY

1314

J2

PO

WE

R

RTD

PO

RT 2

PO

RT 1

I +R +

R-

I-

SCANNER 2000Main Circuit BoardPN: 9A-30160010

–

+

–+

–+

–+

2

3

4

56

1 7

8

9

10

11

12TFM

1

SWITCH

DIG OUT 1

Figure 3.2—Lithium battery pack connection

��


When an external power supply is used as the primary power source, the lithium battery pack serves as a backup power supply. The use of an alternate power source extends battery life and helps ensure that timekeeping and volume accumulation will not be interrupted during a power failure.

External Power Supply The Scanner 2000 can be connected to a remote power supply by a two-conductor cable (Figure 3.3). The SRZHU�VXSSO\�DQG�FDEOH�PXVW�EH�FDSDEOH�RI�VXSSO\LQJ��WR��9'&�#��P$��

7KH�H[WHUQDO�SRZHU�VXSSO\�PXVW�EH�DQ�DSSURYHG�6(/9�VRXUFH��LQVXODWHG�IURP�WKH�$&�PDLQ�E\�GRXEOH�UHLQIRUFHG�LQVXODWLRQ�SHU�&6$�&��1R��8/��±��QG�(GLWLRQ�

,PSRUWDQW�� ,Q�DOO�DSSOLFDWLRQV�XVLQJ�DQ�H[WHUQDO�SRZHU�VXSSO\��D�VZLWFK�RU�FLUFXLW�EUHDNHU�PXVW�EH�LQ-cluded in the safe area external power supply installation within easy reach of the opera-WRU��7KH�VZLWFK�RU�FLUFXLW�EUHDNHU�PXVW�EH�PDUNHG�DV�WKH�³GLVFRQQHFW´�IRU�WKH�VDIH�DUHD�external DC power supply.

,PSRUWDQW�� ,I�WKH�PDLQ�FLUFXLW�ERDUG�LV�PDUNHG�ZLWK�D�UHYLVLRQ�OHYHO�RI��RU�ROGHU��UHYLVLRQV��&��%��RU�$��D�]HQHU�GLRGH��3DUW�1R��.(��&$��PXVW�EH�LQVWDOOHG�IRU�&(�DSSURYDO��7KH�]HQHU�diode is not required for revision 03 and newer circuit boards.

J1

TB1 TB2

TB3

BATTERY

1314

J2

PO

WE

R

RTD

PO

RT 2

PO

RT 1

I +R +

R-

I -


POWER SUPPLY6 to 30 VDC

–

+

–+

–+

–+

2

3

4

56

1 7

8

9

10

11

12TFM

1

GND

GROUND SCREW INSIDE ENCLOSURE

SWITCH

DIG OUT 1

Figure 3.3—External power supply wiring

��


Input Wiring

Turbine Flowmeter Input7KH�7XUELQH�,QSXW��RQ�WKH�PDLQ�FLUFXLW�ERDUG�SURYLGHV�WKH�WXUELQH�ÀRZPHWHU�LQSXW�VLJQDO�JHQHUDWHG�E\�D�PDJQHWLF�SLFNXS��HQDEOLQJ�WKH�6FDQQHU��WR�FDOFXODWH�DQG�GLVSOD\�LQVWDQWDQHRXV�ÀRZ�UDWHV�DQG�accumulated totals. Wire as shown in Figure 3.4.

1RWH�� ,I�WKH�H[SDQVLRQ�ERDUG�RSWLRQ�LV�LQVWDOOHG��D�VHFRQG�WXUELQH�LQSXW�LV�DYDLODEOH��6HH�)LJXUH�$��SDJH�A-10��IRU�7XUELQH�,QSXW��ZLULQJ�LQVWUXFWLRQV�

TURBINE MAGNETIC PICKUP

A

B

TB1 TB2

PO

WE

R

TFM

1R

TD

–+

PO

RT 2

PO

RT 1

–I+

+

R+R-

I -


J1TB3

BATTERY

1314

J2

2

3

4

56

1 7

8

9

10

11

12

SWITCH

DIG OUT 1

–+

–+

Figure 3.4—Flowmeter input wiring

64


RTD Input$��ZLUH�H[SORVLRQ�SURRI��RKP�SODWLQXP��2+0�2+0�&�57'�UDWHG�IRU�&ODVV�,��'LY��*URXSV�%��&��DQG�'�XVDJH�LV�UHFRPPHQGHG�IRU�SHUIRUPLQJ�RUL¿FH�JDV�DQG�FRPSHQVDWHG�OLTXLG�FDOFXODWLRQV�RU�JDV�WXUELQH�FDOFXODWLRQV��WKRXJK�D��RU��ZLUH�57'�PD\�SURYH�IXQFWLRQDO��:LUH�DV�VKRZQ�LQ�)LJXUH��

J1

TB1

TB3

BATTERY

1314

J2 TB2

PO

WE

R

TFM

1R

TD

–+

PO

RT 2

PO

RT 1

–I +

+

R +R-

I -

I RTD+RTD-

IÄ RTD CONNECTIONS

(4-WIRE RECOMMENDED)

SCANNER 2000Main Circuit Board

PN: 30160010

2

3

4

56

1 7

8

9

10

11

12

RED

WHITEWHITE

3 - WIRE

WHITE

RED

I-

RTD -

RTD+

I+

JUMPERWIRE

JUMPERWIRE

2 - WIRE

SWITCH

DIG OUT 1

RED

JUMPERWIRE

WHITE

WHITE

RED

I-

RTD -

RTD+

I+

–+

–+

Figure 3.5—Process temperature input wiring

65


Output Wiring

Digital Output (Pulse or Alarm)7KH�VWDQGDUG�6FDQQHU��VXSSRUWV�D�VROLG�VWDWH�GLJLWDO�RXWSXW�WKDW�LV�FRQ¿JXUDEOH�DV�HLWKHU�D�SXOVH�RXWSXW�RU�DQ�DODUP�RXWSXW��$V�D�SXOVH�RXWSXW��WKH�SXOVH�ZLGWK�GXUDWLRQ�DQG�SXOVH�UHSUHVHQWDWLRQ�DUH�ERWK�FRQ¿JXUDEOH��%HFDXVH�WKH�FLUFXLW�LV�LVRODWHG��LW�FDQ�EH�XVHG�LQ�FRQMXQFWLRQ�ZLWK�DQ\�RWKHU�IHDWXUH�RQ�WKH�6FDQQHU��$�two-conductor cable from the Scanner 2000 to the remote location is required. The maximum rating of the GLJLWDO�RXWSXW�FLUFXLW�LV��P$�DW��9'&��:LUH�DV�VKRZQ�LQ�)LJXUH��

For reduced power consumption, turn the digital output feature off when it is not in use.

,PSRUWDQW�� ,I�WKH�PDLQ�FLUFXLW�ERDUG�LV�PDUNHG�ZLWK�D�UHYLVLRQ�OHYHO�RI��RU�ROGHU��UHYLVLRQ��&��%��RU�$��D�]HQHU�GLRGH��3DUW�1R��,1��PXVW�EH�LQVWDOOHG�IRU�&(�DSSURYDO��7KH�]HQHU�GLRGH�is not required for revision 03 and newer circuit boards.

J1

TB1 TB2

TB3

BATTERY

1314

J2

PO

WE

R

TFM

1R

TD PO

RT 2

PO

RT 1

I+R+

R-

I- SCANNER 2000Main Circuit BoardPN: 9A-30160010

–

+

–+

–+

–+

2

3

4

56

1

Leave the end of thisshield disconnected.

Resistor may be includedin pulse readout device. Size the resistor to limit the current to 60 mA.

7

8

9

10

11

12

SWITCH

DIG OUT 1

PULSE READOUTDEVICE

POWER SUPPLY5 to 30 VDC

Figure 3.6—Pulse output wiring

66


RS-485 Output—Permanent Computer Connection7KH�56��RXWSXW�LV�UHTXLUHG�IRU�FRPPXQLFDWLRQ�ZLWK�WKH�LQWHUIDFH�VRIWZDUH��7KH�ZLULQJ�GLDJUDP�LQ�)LJXUH��VXSSRUWV�D�SHUPDQHQW�FRQQHFWLRQ�

TB1 TB2

POW

ER

TFM

1R

TD

–+

POR

T 2PO

RT 1

–I+

+R+

R-

I -

PORT 2 RS-485COMMUNICATIONS

PORT 1 RS-485COMMUNICATIONS


J1TB3

BATTERY13

14

J2

2

3

4

56

1 7

8

9

10

11

12

SWITCH

DIG OUT 1

–+

–+

+–

+–

Figure 3.7—RS-485 output (permanent connection)

��


RS-485 Output—Laptop Computer Connection7KH�56��RXWSXW�LV�UHTXLUHG�IRU�FRPPXQLFDWLRQ�ZLWK�WKH�LQWHUIDFH�VRIWZDUH��7KH�ZLULQJ�GLDJUDP�LQ�)LJXUH��VXSSRUWV�D�WHPSRUDU\�ODSWRS�FRQQHFWLRQV�XVLQJ�DQ�56��WR�56��FRQYHUWHU�

TD(A)

TD(B)

GND

RS-2329 - PIN

CONNECTOR

Part No. 9A-101283116

TX-

TX+

TB1 TB2P

OW

ER

TFM

1R

TD

PO

RT 2

PO

RT 1

I+R+

R-

I - SCANNER 2000Main Circuit BoardPN: 9A-30160010

–

+

–+

–+

–+

2

3

4

56

1

J1TB3

BATTERY

1314

J2

7

8

9

10

11

12

SWITCH

DIG OUT 1

GND

+12V

PORT 2 CONNECTIONS ARE SHOWN IN THIS DIAGRAM.

TO USE PORT 1: CONNECT TD(B) TO TERMINAL 11 (+).CONNECT TD(A) TO TERMINAL 12 (-).

Figure 3.8—RS-485 output (connection to laptop with 9-pin converter)

68


&RQ¿JXUDWLRQ�YLD�.H\SDGCommunication parameters such as slave address and baud rate, the date and time, contract hour and plate VL]H�FDQ�DOO�EH�FRQ¿JXUHG�YLD�WKH�WKUHH�EXWWRQ�NH\SDG�RQ�WKH�IURQW�RI�WKH�LQVWUXPHQW��6HH�Section 4—&RQ¿JXUDWLRQ�DQG�2SHUDWLRQ�YLD�.H\SDG�for step-by-step instructions. All other instrument calibration is performed via the ModWorX™ Pro software.


&RQ¿JXUDWLRQ�YLD�0RG:RU;��3UR�6RIWZDUH�A laptop connection and the ModWorX™ Pro software provided with the Scanner 2000 are required for WKH�FDOLEUDWLRQ�DQG�FRQ¿JXUDWLRQ�RI�WKH�LQVWUXPHQW��7KH�6FDQQHU��¶V�QDWXUDO�JDV�DQG�VWHDP�FDOFXODWLRQV�W\SLFDOO\�UHTXLUH�FRQ¿JXUDWLRQ�RI�LQSXWV�LQFOXGLQJ�GLIIHUHQWLDO�SUHVVXUH��VWDWLF�SUHVVXUH��SURFHVV�WHPSHUDWXUH��DQG�IRU�$*$��D�WXUELQH�PHWHU�LQSXW�

7KH�6FDQQHU��PLFUR()0�VXSSRUWV�GLJLWDO�VHULDO�FRPPXQLFDWLRQV�XVLQJ�(,$�56��KDUGZDUH�ZLWK�Modicon Modbus® protocol. Either of two Modbus® slave ports facilitates communications with a laptop or 3&��7KH�EDXG�UDWH�UDQJH�IRU�ERWK�SRUWV�LV��WR��.��%RWK�SRUWV�DUH�SURWHFWHG�IURP�KLJK�YROWDJH�WUDQVLHQWV�

$Q�56��WR�56��FRQYHUWHU�LV�UHTXLUHG�IRU�FRQQHFWLQJ�WKH�PLFUR()0�WR�D�ODSWRS�RU�3&��7KH�FRQYHUWHUV�available from Cameron require no handshaking or external power to operate. See 6HFWLRQ��²6SDUH�3DUWV for ordering information; see )LJXUH��SDJH��, and )LJXUH��SDJH��, for wiring instructions.


��


6HFWLRQ��²&RQ¿JXUDWLRQ�DQG�2SHUDWLRQ�YLD�.H\SDG7KH�IROORZLQJ�SDUDPHWHUV�FDQ�EH�FRQ¿JXUHG�XVLQJ�WKH�WKUHH�EXWWRQ�NH\SDG�RQ�WKH�IURQW�RI�WKH�LQVWUXPHQW��DV�VKRZQ�LQ�)LJXUH��

�� slave address

�� baud rate

�� date and time

�� contract hour

�� plate size

$OO�RWKHU�LQVWUXPHQW�FRQ¿JXUDWLRQ�LV�SHUIRUPHG�YLD�WKH�0RG:RU;��3UR�VRIWZDUH��

%HFDXVH�WKH�NH\SDG�LV�SURWHFWHG�EHQHDWK�WKH�OLG�RI�WKH�LQVWUXPHQW��WKH�HQFORVXUH�PXVW�EH�RSHQHG�WR�DFFHVV�WKH�NH\SDG��)RU�WKLV�UHDVRQ��LW�LV�LPSRUWDQW�WR�FRQ¿JXUH�WKHVH�VHWWLQJV�EHIRUH�LQVWDOOLQJ�LW�LQ�D�KD]DUGRXV�DUHD��

! � :$51,1*��7R�SUHYHQW�LJQLWLRQ�RI�KD]DUGRXV�DWPRVSKHUHV��GR�QRW�UHPRYH�WKH�FRYHU�ZKLOH�FLU-cuits are alive. The Scanner 2000 microEFM poses no hazard when opened in a safe area.

TEST ACCESS

CONFIGURATION:Move between menusand menu selections

OPERATION:View next parameter

OPERATION:View daily logs

CONFIGURATION:Change digits andother menu selections

CONFIGURATION:Save configurationsettings

OPERATION:Save totals

PRESS +

simultaneously to view time/date, temperature, and battery voltage

PRESS +

simultaneously to accessConfiguration menu

Figure 4.1—Scanner 2000 keypad operation and calibration functions

��


Entering the Slave AddressThe slave address is a setting used in Modbus®�FRPPXQLFDWLRQV��,W�LV�D�QXPEHU�WKDW�UDQJHV�IURP��WR��H[FOXGLQJ��WR��DQG��ZKLFK�DUH�UHVHUYHG��,I�WKH�0RGEXV® request message contains the matching address, the device will respond to the request. In network arrangements, the device must have a unique slave address. For more information about Modbus® communications, refer to Appendix C—Communications Protocol. If Modbus® communications are not used, leave the slave address at the factory setting (1).

To Enter a Port 1 Slave Address:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�

VLPXOWDQHRXVO\� �

00000000

...

00000000

...

00000000

...

00000000

...

/RFDWH�WKH�6ODYH�$GGUHVV�VHWWLQJ� 3257��6/$9(�$''5(66�ZLOO�DSSHDU�LQ�WKH�ORZHU�GLVSOD\��DQG�WKH�ULJKWPRVW�GLJLW�LQ�WKH�WRS�GLVSOD\�ZLOO�EHJLQ�EOLQNLQJ��

00000000

...(QWHU�WKH�6ODYH�$GGUHVV� �UDQJH��WR��H[FOXGLQJ��WR��DQG��

3UHVV�83�$552:�XQWLO�WKH�FRUUHFW�GLJLW�LV�GLVSOD\HG�

7KHQ�SUHVV�/()7�$552:�WR�VHOHFW�WKH�QH[W�GLJLW�WR�WKH�OHIW��

5HSHDW�XVLQJ�83�DQG�/()7�DUURZV�WR�HQWHU�DOO�UHPDLQLQJ�GLJLWV�

3UHVV�(17(5�

To Enter a Port 2 Slave Address:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�


00000000

...

00000000

...

00000000

...

00000000

...

/RFDWH�WKH�6ODYH�$GGUHVV�VHWWLQJ� 3UHVV�(17(5�WZLFH�XQWLO�3257��6/$9(�$''5(66�DSSHDUV�LQ�WKH�ORZHU�GLVSOD\��7KH�ULJKWPRVW�GLJLW�LQ�WKH�WRS�GLVSOD\�ZLOO�EHJLQ�EOLQNLQJ��

00000000

...(QWHU�WKH�6ODYH�$GGUHVV� �UDQJH��WR��H[FOXGLQJ��WR��DQG��

3UHVV�83�$552:�XQWLO�WKH�FRUUHFW�GLJLW�LV�GLVSOD\HG�



3UHVV�(17(5�

7KH�%DXG�5DWH�PHQX�SURPSW�ZLOO�DSSHDU�LPPHGLDWHO\�IROORZLQJ�WKH�HQWU\�RI�WKH�VODYH�DGGUHVV��6HH�(QWHULQJ�WKH�%DXG�5DWH below for the baud rate entry procedure.

��


Entering the Baud RateThe baud rate is the number of bits per second that are on the serial port. This setting must match the setting of the master device polling the Scanner 2000 or the serial port. This only applies to the Modbus® communi-cations; if Modbus®�FRPPXQLFDWLRQV�DUH�QRW�XVHG��OHDYH�WKH�EDXG�UDWH�DW�WKH�IDFWRU\�VHWWLQJ��

To Enter the Port 1 Baud Rate:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�


/RFDWH�WKH�%DXG�5DWH�VHWWLQJ� 3UHVV�(17(5��7KH�ZRUGV�³3257��

%$8'�5$7(´�ZLOO�DSSHDU�LQ�WKH�ORZHU�GLVSOD\�

(QWHU�WKH�EDXG�UDWH� 3UHVV�83�$552:�XQWLO�WKH�FRUUHFW�EDXG�UDWH�LV�GLVSOD\HG�

3UHVV�(17(5��´3257��6/$9(�$''5(66´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

To Enter the Port 2 Baud Rate:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�


/RFDWH�WKH�%DXG�5DWH�VHWWLQJ� 3UHVV�(17(5�WKUHH�WLPHV��7KH�

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(QWHU�WKH�EDXG�UDWH� 3UHVV�83�$552:�XQWLO�WKH�GHVLUHG�EDXG�UDWH�LV�GLVSOD\HG�

3UHVV�(17(5��´(',7�'$7(�7,0(´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

��


Editing the Date and TimeA user can change the date and time from the keypad.

To Edit the Date and Time:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�


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(QWHU�WKH�WLPH��KRXU��PLQXWH��DQG�VHFRQGV��7KH�IRUPDW�LV�++�00�66�

7R�FKDQJH�WKH�VHFRQGV�GLVSOD\HG��SUHVV�WKH�83�$552:��UHSHDWHGO\�LI�QHFHVVDU\��XQWLO�WKH�FRUUHFW�WLPH��VHFRQGV��LV�GLVSOD\HG��

7R�FKDQJH�WKH�PLQXWHV�GLVSOD\HG��SUHVV�WKH�/()7�$552:��7KH�PLGGOH�WZR�GLJLWV�ZLOO�EHJLQ�ÀDVKLQJ��3UHVV�WKH�83�$552:�XQWLO�WKH�FRUUHFW�WLPH��PLQXWHV��LV�GLVSOD\HG�

5HSHDW�WKH�SUHYLRXV�VWHS�WR�VHOHFW�WKH�¿UVW�WZR�GLJLWV�DQG�HQWHU�WKH�KRXU��PLOLWDU\�WLPH��([��S�P��

3UHVV�(17(5��´&2175$&7�+285´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

��


Editing the Contract Hour$�XVHU�FDQ�VHW�WKH�FRQWUDFW�KRXU�IURP�WKH�NH\SDG��7KH�FRQWUDFW�KRXU�GHWHUPLQHV�WKH�H[DFW�WLPH�WKH�GDLO\�ÀRZ�LV�logged, and is represented by a four-digit number displayed in military time.

To Edit the Contract Hour:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�


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3UHVV�(17(5��³'$7(�00''<<´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

3UHVV�(17(5�D�VHFRQG�WLPH��´&2175$&7�+285´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

(QWHU�WKH�FRQWUDFW�KRXU� 3UHVV�WKH�83�$552:��UHSHDWHGO\�LI�QHFHVVDU\��WR�FKDQJH�WKH�FRQWUDFW�KRXU��(DFK�SUHVV�RI�WKH�EXWWRQ�ZLOO�LQFUHPHQW�WKH�WLPH�E\��KRXU�

3UHVV�(17(5��´6$9,1*´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

��


Editing the Plate Size:KHQ�WKH�GLIIHUHQWLDO�SUHVVXUH�SURGXFHU�LQ�D�6FDQQHU��LQVWDOODWLRQ�LV�DQ�RUL¿FH�PHWHU�DQG�VHFXULW\�FRQWUROV�DOORZ��D�XVHU�FDQ�FKDQJH�WKH�VL]H�RI�WKH�RUL¿FH�SODWH�IURP�WKH�NH\SDG��7KH�SODWH�VL]H�LV�GLVSOD\HG�LQ�LQFKHV��,I�“Strict API compliance” is enabled in the Security menu of the ModWorX™ Pro software, this parameter can EH�FRQ¿JXUHG�RQO\�IURP�WKH�0RG:RU;��3UR�LQWHUIDFH��ZKLFK�DOORZV�WKH�RSHUDWRU�WR�SXW�WKH�LQVWUXPHQW�LQWR�maintenance mode (locked inputs) while the plate change is in process. See Section 3 of the ModWorX™ Pro 6RIWZDUH�8VHU�0DQXDO��3DUW�1R��$��IRU�GHWDLOV�

To Edit the Plate Size:(QWHU�WKH�$FFHVV�PHQX� 3UHVV�83�$552:�DQG�(17(5�


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3UHVV�(17(5��³3/$7(�6,=(��,1&+(6´�ZLOO�DSSHDU�LQ�WKH�ERWWRP�GLVSOD\�

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��


Section 5—Scanner 2000 Maintenance7KH�6FDQQHU��LV�HQJLQHHUHG�WR�SURYLGH�\HDUV�RI�GHSHQGDEOH�VHUYLFH�ZLWK�PLQLPDO�PDLQWHQDQFH��%DWWHULHV�require periodic replacement, and battery life depends on whether battery power is the primary or secondary SRZHU�VRXUFH��WKH�FRQ¿JXUDWLRQ�VHWWLQJV�RI�WKH��6FDQQHU��DQG�DPELHQW�WHPSHUDWXUH�FRQGLWLRQV�

$OO�FRQ¿JXUDWLRQ�VHWWLQJV�DUH�VWRUHG�LQ�QRQYRODWLOH�PHPRU\��WKHUHIRUH��FRQ¿JXUDWLRQ�VHWWLQJV�ZLOO�QRW�EH�ORVW�in the event of battery failure.

The circuit assembly or keypad may also require replacement over the life of the instrument. Replacement procedures are provided in this section.

! � �:$51,1*��%HIRUH�VHUYLFLQJ�WKH�6FDQQHU��GLVFRQQHFW�DOO�SRZHU�VRXUFHV�VLJQDO�VRXUFHV�RU�verify that the atmosphere is free of hazardous gases.

/LWKLXP�%DWWHU\�3DFN�5HSODFHPHQW7KH�6FDQQHU��XVHV�D�OLWKLXP�EDWWHU\�SDFN�ZLWK�D�W\SLFDO�OLIH�H[SHFWDQF\�RI��\HDU��'XH�WR�WKH�ÀDW�GLVFKDUJH�FKDUDFWHULVWLFV�RI�WKH�OLWKLXP�EDWWHU\��LW�LV�GLI¿FXOW�WR�GHWHUPLQH�KRZ�PXFK�OLIH�UHPDLQV�LQ�D�EDWWHU\�DW�DQ\�JLYHQ�WLPH��7R�SUHVHUYH�FRQ¿JXUDWLRQ�DQG�DFFXPXODWHG�YROXPH�GDWD��UHSODFH�WKH�EDWWHU\�SDFN�DW��\HDU�LQWHUYDOV�


! � :$51,1*��7KH�OLWKLXP�EDWWHU\�SDFN�WKDW�SRZHUV�WKH�6FDQQHU��LV�D�VHDOHG�XQLW��KRZHYHU��VKRXOG�D�OLWKLXP�EDWWHU\�GHYHORS�D�OHDN��WR[LF�IXPHV�FRXOG�HVFDSH�XSRQ�RSHQLQJ�WKH�HQFORVXUH��Ensure that the instrument is in a well-ventilated area before opening the enclosure to avoid breathing fumes trapped inside the enclosure. Exercise caution in handling and disposing of VSHQW�RU�GDPDJHG�EDWWHU\�SDFNV��6HH�DGGLWLRQDO�LQIRUPDWLRQ�LQ�Appendix B—Lithium Battery Information.

,PSRUWDQW�� 3UHVV�WKH�(17(5�6$9(�NH\�RQ�WKH�NH\SDG�EHIRUH�UHSODFLQJ�WKH�OLWKLXP�EDWWHU\�SDFN�WR�VDYH�DFFXPXODWHG�JUDQG�WRWDOV�DQG�SUHYLRXV�GD\�WRWDOV�IRU�ÀRZ�UXQ�DQG�WXUELQH�YROXPH��HQHUJ\��DQG�PDVV�WR�QRQYRODWLOH�PHPRU\��2QFH�WKH�EDWWHU\�SDFN�LV�UHSODFHG�DQG�SRZHU�LV�UHVWRUHG�WR�WKH�XQLW��WKH�ODVW�VDYHG�DFFXPXODWHG�WRWDOV�ZLOO�EH�GLVSOD\HG�LQ�WKH�/&'��7KH�LQVWUXPHQW�FORFN�ZLOO�QHHG�WR�EH�UHVHW�IROORZLQJ�EDWWHU\�UHSODFHPHQW��$OO�FRQ¿JXUDWLRQ�and calibration settings are automatically saved to non-volatile memory and are not af-fected by a temporary loss of battery power.

The lithium battery pack is secured inside the enclosure by a velcro strap and connected to a connector (J1) near the top of the circuit assembly.

7R�UHSODFH�D�OLWKLXP�EDWWHU\�SDFN�LQ�WKH�6FDQQHU��SHUIRUP�WKH�IROORZLQJ�VWHSV�


2. 8VLQJ�D�VPDOO�VWDQGDUG�EODGH�VFUHZGULYHU��UHPRYH�WKH�WZR��î��´�VFUHZV�ORFDWHG�WR�WKH�ULJKW�DQG�left side of the display ()LJXUH��SDJH��).

��


3. /LIW�WKH�GLVSOD\�NH\SDG�DVVHPEO\�IURP�WKH�HQFORVXUH��PDNLQJ�VXUH�WKH�FLUFXLW�DVVHPEO\�GRHV�QRW�FRQWDFW�the enclosure.

4. /RRVHQ�WKH�YHOFUR�VWUDS��GLVFRQQHFW�WKH�EDWWHU\�IURP�WKH�-��FRQQHFWRU�RQ�WKH�FLUFXLW�DVVHPEO\��DQG�UHPRYH�WKH�VSHQW�EDWWHU\�SDFN�IURP�WKH�HQFORVXUH��)LJXUH��

Remove screws torelease keypad/circuit boardassembly from enclosure

Figure 5.1—Removal of the battery pack from the enclosure

�� Install the new battery pack in the enclosure in the same position as the original battery pack, and secure the Velcro tightly around it.

�� Connect the replacement battery pack to the J1 connector.

�� 3ODFH�WKH�FLUFXLW�DVVHPEO\�RYHU�WKH�VWDQGRIIV�DQG�IDVWHQ�ZLWK�WKH�WZR��î��´�VFUHZV��HQVXULQJ�WKDW�all connector wiring is inside the enclosure.

�� Replace the enclosure cover, threading it onto the enclosure in a clockwise direction.

,PSRUWDQW�� $Q�LQWHUUXSWLRQ�RI�SRZHU�WR�WKH�6FDQQHU��ZLOO�FDXVH�WKH�LQWHUQDO�FORFN�WLPH�WR�EH�LQFRUUHFW��5HVHW�WKH�WLPH�XVLQJ�WKH�NH\SDG�RQ�WKH�VZLWFKSODWH�RU�WKH�0RG:RU;��3UR�VRIW-ware. See (GLWLQJ�WKH�'DWH�DQG�7LPH��SDJH�72��IRU�GHWDLOV�

Circuit Assembly Replacement


,PSRUWDQW�� 6WDWLF�HOHFWULFLW\�FDQ�GDPDJH�D�FLUFXLW�ERDUG��+DQGOH�QHZ�ERDUGV�RQO\�E\�WKHLU�HGJHV��and use proper anti-static techniques (such as wearing anti-static wrist strap or touching metal to establish an earth ground) prior to handling a board.

��


,PSRUWDQW�� ,I�SRVVLEOH��GRZQORDG�WKH�FRQ¿JXUDWLRQ�VHWWLQJV�DQG�DOO�DUFKLYH�ORJV�EHIRUH�UHSODFLQJ�WKH�FLUFXLW�ERDUG��3UHVV�WKH�(17(5�6$9(�NH\�RQ�WKH�NH\SDG�EHIRUH�GLVFRQQHFWLQJ�WKH�EDWWHU\�WR�VDYH�DFFXPXODWHG�ÀRZ�UXQ�DQG�WXUELQH�YROXPH�WRWDOV��JUDQG�WRWDO�DQG�SUHYLRXV�GD\�WRWDO��DQG�HQHUJ\�DQG�PDVV�WRWDOV�WR�PHPRU\�

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3. /LIW�WKH�GLVSOD\�NH\SDG�DVVHPEO\�IURP�WKH�HQFORVXUH�

4. Record the locations of all cable connections to the circuit board.

�� 8VLQJ�D�VPDOO�VWDQGDUG�EODGH�VFUHZGULYHU��UHPRYH�DOO�ZLULQJ�IURP�WHUPLQDO�EORFNV�7%��7%��DQG�7%��and J2, ensuring that all wiring that is connected to powered circuits is insulated with tape.

�� 8QSOXJ�WKH�EDWWHU\�FDEOH�IURP�FRQQHFWRU�-��RQ�WKH�FLUFXLW�ERDUG�

�� 'LVFRQQHFW�WKH�VHQVRU�ULEERQ�FDEOH�IURP�WKH�-��FRQQHFWRU�RQ�WKH�FLUFXLW�ERDUG�DV�IROORZV�

a. /LIW�WKH�ODWFK�IURP�WKH�EODFN�FOLS�VHFXULQJ�WKH�ULEERQ�FDEOH��)LJXUH��

b. When the latch is fully open, the ribbon cable will release freely.

Figure 5.2—Latch securing the ribbon cable

�� Remove the original circuit board/keypad assembly from the enclosure.

9. 5HPRYH�WKH�WZR��î��´�VFUHZV�IDVWHQLQJ�WKH�FLUFXLW�ERDUG�WR�WKH�NH\SDG��)LJXUH��SDJH��).

10. 5HPRYH�WKH�NH\SDG�ULEERQ�FDEOH�IURP�WKH�-��FRQQHFWRU�RQ�WKH�/&'�VLGH�RI�WKH�FLUFXLW�ERDUG�E\�SUHVVLQJ�in on the sides of the black plastic clip and pulling gently on the clip. Do not pull on the ribbon cable; the cable will release freely when the clip opens ()LJXUH��SDJH��).

11. Remove the circuit board from the enclosure and remove the replacement circuit board from its packag-ing.

12. &RQQHFW�WKH�NH\SDG�ULEERQ�FDEOH�WR�WKH�-��FRQQHFWRU�RQ�WKH�/&'�VLGH�RI�WKH�QHZ�FLUFXLW�ERDUG�E\�VOLGLQJ�the end of the ribbon into the black clip as far as it will go and pressing the black plastic clip into the con-nector until it snaps.

��


Figure 5.3—Disassembly of circuit board/keypad assembly

13. &RQQHFW�WKH�FLUFXLW�ERDUG�WR�WKH�NH\SDG�ZLWK�WKH�WZR��î��´�VFUHZV�UHPRYHG�LQ�VWHS��

14. 5HFRQQHFW�WKH�VHQVRU�ULEERQ�FDEOH�WR�WKH�-��FRQQHFWRU�DW�WKH�WRS�RI�WKH�FLUFXLW�ERDUG��E\�LQVHUWLQJ�WKH�ULE-bon cable into the black clip and securing the latch on the clip to hold it tightly in place.

��Reconnect the battery cable to connector J1 on the circuit board.

��5HFRQQHFW�DOO�ZLULQJ�WR�WHUPLQDO�EORFNV�7%��7%��DQG�7%��DQG�-��LI�DSSOLFDEOH��

��5HDWWDFK�WKH�GLVSOD\�NH\SDG�DVVHPEO\�WR�WKH�VWDQGRIIV�LQVLGH�WKH�HQFORVXUH�ZLWK�WKH�WZR��î��´�screws removed in step 2.

Figure 5.4—To release the ribbon cable from the connector, press in on the side tabs of the J7 connector (white arrows) and gently pull forward (black arrow).

��


��Recalibrate the Scanner 2000 and replace the enclosure cover.

,PSRUWDQW�� 'R�QRW�RYHUORRN�WKH�QHHG�WR�UHFDOLEUDWH�WKH�6FDQQHU��%RDUGV�WKDW�DUH�VKLSSHG�LQGH-SHQGHQWO\�RI�D�6FDQQHU��DUH�QRW�FDOLEUDWHG�WR�FRPSHQVDWH�IRU�DWPRVSKHULF�SUHVVXUH��WKHUHIRUH��D�6FDQQHU��ZLOO�QRW�GLVSOD\�DFFXUDWH�SUHVVXUH�UHDGLQJV�XQWLO�LW�LV�UHFDOLEUDWHG�

19. Re-establish power to the peripheral circuitry.

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4. 5HPRYH�WKH�WZR��î��´�VFUHZV�IDVWHQLQJ�WKH�FLUFXLW�DVVHPEO\�WR�WKH�NH\SDG��)LJXUH��SDJH��).

�� 'LVFRQQHFW�WKH�NH\SDG�ULEERQ�FDEOH�IURP�WKH�-��FRQQHFWRU�RQ�WKH�/&'�VLGH�RI�WKH�FLUFXLW�DVVHPEO\�DV�IRO-ORZV�

a. *UDVS�WKH�EODFN�FOLS�EHWZHHQ�D�WKXPE�DQG�IRUH¿QJHU��)LJXUH��SDJH��).

b. Squeeze both sides of the clip and gently pull to release the clip from the plastic connector that holds LW�LQ�SODFH��'2�127�38//�RQ�WKH�ULEERQ�FDEOH��:KHQ�WKH�EODFN�SODVWLF�FOLS�LV�SURSHUO\�GLVHQJDJHG��the cable will release freely.

�� Remove the old keypad.

�� &RQQHFW�WKH�ULEERQ�FDEOH�RI�WKH�UHSODFHPHQW�NH\SDG�WR�WKH�-��FRQQHFWRU�RQ�WKH�/&'�VLGH�RI�WKH�FLUFXLW�DVVHPEO\�DV�IROORZV�

a. Insert the end of the ribbon cable into the plastic clip.

b. While holding the ribbon cable in place, press the black plastic clip into the connector until it snaps.

�� 0RXQW�WKH�FLUFXLW�DVVHPEO\�WR�WKH�NH\SDG�ZLWK�WKH�WZR��î��´�VFUHZV�UHPRYHG�LQ�VWHS��

9. 0RXQW�WKH�GLVSOD\�NH\SDG�DVVHPEO\�WR�WKH�HQFORVXUH�ZLWK�WKH�WZR��î��´�VFUHZV�UHPRYHG�LQ�VWHS��

10. Recalibrate the Scanner 2000 if necessary.

11. Replace the enclosure cover and tighten.

80


MVT Replacement

,PSRUWDQW�� 3UHVV�WKH�(17(5�6$9(�NH\�RQ�WKH�NH\SDG�EHIRUH�GLVFRQQHFWLQJ�WKH�EDWWHU\�WR�VDYH�DF-FXPXODWHG�ÀRZ�UXQ�DQG�WXUELQH�YROXPH�WRWDOV��JUDQG�WRWDO�DQG�SUHYLRXV�GD\�WRWDO��DQG�energy and mass totals to memory.

7R�UHSODFH�WKH�097�RI�WKH�6FDQQHU��SHUIRUP�WKH�IROORZLQJ�VWHSV�


2. 8VLQJ�D�VPDOO�VWDQGDUG�EODGH�VFUHZGULYHU��UHPRYH�WKH�WZR��î��´�VFUHZV�ORFDWHG�WR�WKH�ULJKW�DQG�leftside of the display ()LJXUH��SDJH��).


4. 8QSOXJ�WKH�EDWWHU\�FDEOH�IURP�FRQQHFWRU�-��RQ�WKH�FLUFXLW�ERDUG�

�� 'LVFRQQHFW�WKH�VHQVRU�ULEERQ�FDEOH�IURP�WKH�-��FRQQHFWRU�RQ�WKH�FLUFXLW�ERDUG�DV�IROORZV�

a. /LIW�WKH�ODWFK�IURP�WKH�EODFN�FOLS�VHFXULQJ�WKH�ULEERQ�FDEOH��)LJXUH��SDJH��).

b. When the latch is fully open, the ribbon cable will release freely.

�� /RRVHQ�WKH�VHW�VFUHZ�LQ�WKH�VLGH�RI�WKH�097�DGDSWHU�

�� Rotate the adapter counterclockwise to break the connection with the MVT sensor body.

�� Detach the MVT sensor from the adapter, pulling the ribbon cable free.

9. Remove the replacement MVT from its packaging and route the ribbon cable through the adapter and up into the Scanner 2000 enclosure.

10. Screw the MVT into the adapter until it meets with resistance.

11. Slowly unscrew the MVT sensor until the vents on the sides of the MVT are oriented to the back of the enclosure.

12. Replace the set screw in the adapter and tighten.

13. &RQQHFW�WKH�ULEERQ�FDEOH�IURP�WKH�VHQVRU�WR�WKH�097�FRQQHFWRU��-��RQ�WKH�PDLQ�FLUFXLW�ERDUG�

14. Reconnect the battery cable to connector J1 on the main board.

��Reinstall the display/keypad assembly in the enclosure, using the screws that were removed in step 2.

��Recalibrate the Scanner 2000 and replace the cover on the enclosure.

,PSRUWDQW�� 'R�QRW�RYHUORRN�WKH�QHHG�WR�UHFDOLEUDWH�WKH�6FDQQHU��097V�WKDW�DUH�VKLSSHG�LQGH-SHQGHQWO\�RI�D�6FDQQHU��DUH�QRW�FDOLEUDWHG�WR�FRPSHQVDWH�IRU�DWPRVSKHULF�SUHVVXUH��WKHUHIRUH��D�6FDQQHU��ZLOO�QRW�GLVSOD\�DFFXUDWH�SUHVVXUH�UHDGLQJV�XQWLO�LW�LV�UHFDOLEUDW-ed.

81


Section 6—Spare Parts

! � :$51,1*��(;3/26,21�+$=$5'�±�6XEVWLWXWLRQ�RI�FRPSRQHQWV�PD\�LPSDLU�VXLWDELOLW\�IRU�&ODVV�,��'LYLVLRQ��8VH�RI�VSDUH�SDUWV�RWKHU�WKDQ�WKRVH�LGHQWL¿HG�E\�Cameron International &RUSRUDWLRQ�YRLGV�KD]DUGRXV�DUHD�FHUWL¿FDWLRQ��&DPHURQ�EHDUV�QR�OHJDO�UHVSRQVLELOLW\�IRU�WKH�performance of a product that has been serviced or repaired with parts that are not authorized by Cameron.

Table 6.1—Scanner 2000 microEFM Spare Parts

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,QSXW��'XDO�$QDORJ�,QSXW��$QDORJ�2XWSXW��.%�0HPRU\��DQG�4XLFN�6WDUW�*XLGH

1 �$�� $VVHPEO\��6ZLWFKSODWH1 �$��;;�<<

�VHH�7DEOH��$VVHPEO\��57'�DQG�&DEOH��([SORVLRQ�3URRI��0RGHO��;; FDEOH�OHQJWK��<< SUREH�OHQJWK�$YDLODEOH�FDEOH�OHQJWKV��RU��IW$YDLODEOH�SUREH�OHQJWKV��LQ��LQ��RWKHU��FXVWRP�

1 �$�� 'HVLFFDQW��+XPLGLVRUE��6HOI�5HJHQHUDWH��LQ��[��LQ��3DFNHW�ZLWK�$GKHVLYH

1 �$�� %DWWHU\�3DFN��³'´�%DWWHULHV�LQ�6HULHV��9��/LWKLXP��ZLWK�&XUUHQW�/LPLWLQJ�5HVLVWRU�DQG�'LRGH��&6$�

1 �$�� %DWWHU\�3DFN��³$´�%DWWHULHV�LQ�6HULHV��9��/LWKLXP��ZLWK�&XUUHQW�/LPLWLQJ�5HVLVWRU�DQG�'LRGH��IRU�EDFNXS�SRZHU�RQO\�LQ�DQ�H[WHUQDOO\�SRZHUHG�GHYLFH��&6$�

1 �$��7 56��WR�56��&RQYHUWHU��6HULDO�3RUW�3RZHUHG��'%��&RQQHFWRU�RQ�%RWK�(QGV

1 �$�� 56��WR�56��&RQYHUWHU��6HULDO�3RUW�3RZHUHG��'%��&RQQHFWRU�RQ�3&�(QG��2SHQ�7HUPLQDOV�RQ�,QVWUXPHQW�(QG

1 �$�� $VVHPEO\��([WHUQDO�([SORVLRQ�3URRI�6ZLWFK��ZLWK�([WHQVLRQ��)LWV�ô�LQ��)HPDOH�3LSH�7KUHDG��&6$�

1 �$�� &DEOH�$VVHPEO\��LQ��137�([SORVLRQ�3URRI�8QLRQ��3LQ�&RQQHFWRU��LQ��IRU�([WHUQDO�56��&RPPXQLFDWLRQV��&6$�

1 �$�� $GDSWHU��LQ��)HPDOH�3LSH�WR�ô�LQ��0DOH�3LSH��3ODWHG�6WHHO

1 �$�� $GDSWHU��LQ��)HPDOH�3LSH�WR�ô�LQ��0DOH�3LSH��%UDVV1 �$�� $GDSWHU��LQ��)HPDOH�3LSH�WR�ô�LQ��0DOH�3LSH��6WDLQOHVV�

6WHHO1 �$�� $GDSWHU��LQ��)HPDOH�3LSH�WR�ô�LQ��0DOH�3LSH��$7(;�

)ODPHSURRI��*URXS�,,&��3ODWHG�6WHHO1 �$�� 8QLRQ��LQ��137��$7(;�)ODPHSURRI��=RQH��*URXS�,,%1 �$�� 8QLRQ��LQ��([SORVLRQ�3URRI��3ODWHG�6WHHO1 �$�� 8QLRQ��LQ��([SORVLRQ�3URRI��%UDVV

��


Table 6.1—Scanner 2000 microEFM Spare Parts (cont’d)

1 �$�� 8QLRQ��LQ��([SORVLRQ�3URRI��6WDLQOHVV�6WHHO1 �$�� &DEOH�$VVHPEO\��3LQ�0ROGHG�&RQQHFWRU��LQFKHV�ORQJ1 �$�� 3LSH�3OXJ��([SORVLRQ�3URRI��ô��137��+H[�6RFNHW��%UDVV1 �$�� 3LSH�3OXJ��([SORVLRQ�3URRI��ô��137��+H[�6RFNHW��

6WDLQOHVV�6WHHO1 �$�� 2�5LQJ��PP�[��PP��;'�,��IRU�([SORVLRQ�3URRI�

(QFORVXUH1 �$�� 6FUHZ��6HW��;��+H[�6RFNHW��6WDLQOHVV1 �$�� 6FUHZ��3DQ�+HDG��6ORWWHG��;��6WHHO�%ODFN�2[LGH1 �$�� :DVKHU��)ODW��6WHHO�%ODFN�2[LGH1 �$�� .LW��3ROH�0RXQW��3ODWHG�6WHHO1 �$�� .LW��3ROH�0RXQW��6WDLQOHVV�6WHHO1 �$�� 0DQXDO��8VHU��4XLFN�6WDUW1 �$�� 0DQXDO��8VHU��([SDQVLRQ�%RDUG�4XLFN�6WDUW1 �$�� $VVHPEO\��,QVWDOODWLRQ�6RIWZDUH�&'�DQG�&'�3RFNHW�)ROGHU��

0RG:RU;��3UR6HH�7DEOH�� 0XOWL�9DULDEOH�7UDQVPLWWHU�

�VHOHFWLRQ�EDVHG�RQ�SUHVVXUH�UHTXLUHPHQWV�

Table 6.2—Scanner 2000 microEFM Spare Parts (ATEX-Approved)

1 �$�� %DWWHU\�3DFN��³'´�%DWWHULHV�LQ�6HULHV��9��/LWKLXP��ZLWK�&XUUHQW�/LPLWLQJ�5HVLVWRU�DQG�'LRGH

1 �$�� %DWWHU\�3DFN��³$´�%DWWHULHV�LQ�6HULHV��9��/LWKLXP��ZLWK�&XUUHQW�/LPLWLQJ�5HVLVWRU�DQG�'LRGH��IRU�EDFNXS�SRZHU�RQO\�LQ�DQ�H[WHUQDOO\�SRZHUHG�GHYLFH��

1 �$�� .LW��6FDQQHU��([SDQVLRQ�%RDUG��7)0�,QSXW��3XOVH�,QSXW��'XDO�$QDORJ�,QSXW��$QDORJ�2XWSXW��.%�0HPRU\��DQG�4XLFN�6WDUW�*XLGH

1 �$�� $VVHPEO\��([WHUQDO�([SORVLRQ�3URRI�6ZLWFK��ZLWK�([WHQVLRQ��)LWV�ô�LQ��)HPDOH�3LSH�7KUHDG

1 �$�� &DEOH�$VVHPEO\��LQ��137�([SORVLRQ�3URRI�%UDVV�8QLRQ��3LQ�&RQQHFWRU��LQ��IRU�([WHUQDO�56��&RPPXQLFDWLRQV

1 �$�� 7XEH��6WDQGRII��6WDLQOHVV�6WHHO��LQ��+H[�;��LQ��ORQJ�ZLWK��LQ��137�0DOH��)HPDOH�(QGV




��


Table 6.3—Explosion-Proof RTD and Cable Assemblies (CSA-Approved)

6HOHFW�RQH�EDVHG�RQ�VSHFL¿F�DSSOLFDWLRQ� Qty. Part No. Description1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH1 �$�� 0RGHO��57'��IW�&DEOH��LQ��3UREH

Table 6.4—Multi-Variable Transmitters 6HOHFW�RQH�EDVHG�RQ�VSHFL¿F�DSSOLFDWLRQ��7KH�097V�OLVWHG�EHORZ�KDYH�

ERWWRP�SRUWV��6LGH�SRUW�PRGHOV�DUH�DYDLODEOH�RQ�UHTXHVW�Qty. Part No.

(non-NACE)Part No.(NACE)

Part No.(Stainless Bolts)

Description

1 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� $�� 36,$��,1�+�21 �$�� $�� ² ��36,$��,1�+�21 �$�� $�� ² ��36,$��,1�+�21 �$�� $�� ² ��36,$��,1�+�21 �$�� $�� ² ��36,$��,1�+�2

84


A-1

Scanner® 2000 microEFM Appendix A

Appendix A—Scanner 2000 Hardware Options

Explosion-Proof Control Switch$Q�DOWHUQDWLYH�WR�WKH�DXWRPDWLF�VFUROO�GLVSOD\�RI�SDUDPHWHUV�RQ�WKH�/&'��DQ�H[WHUQDO�H[SORVLRQ�SURRI�FRQWURO�VZLWFK��)LJXUH�$��DOORZV�WKH�XVHU�WR�PDQXDOO\�VHOHFW�ZKLFK�SDUDPHWHU�LV�GLVSOD\HG�RQ�WKH�/&'�DQG�YLHZ�daily logs instantaneously without removing the instrument cover or connecting the instrument to a laptop computer.

Figure A.1—Explosion-proof control switch

The switch mounts in either threaded conduit opening in the instrument housing. If both network communications and an RTD are required, a small junction box must be installed to establish a third conduit connection location.

4.87(123.6)

7.72(196.1)

Figure A.2—Dimensions of explosion-proof control switch; inches (mm)

$��

Appendix A Scanner® 2000 microEFM

If the switch is ordered with a Scanner 2000 microEFM, it will be installed prior to shipment. To add a switch to an existing Scanner 2000, terminate the leads to connector J2 on the main circuit board (Figure A.3).

SWITCH

J1

TB1

BATTERY

1314

J2


TFM

1R

TDI +

R +R-

I-–

+

2

34

56

1 PO

WE

RP

OR

T 2P

OR

T 1–

+–

+–

+

78910

1112

TB2

TB3

DIG OUT 1

Figure A.3—Wiring of explosion-proof control switch

To select a display parameter for viewing, press and release the push-button switch. With each subsequent press RI�WKH�VZLWFK��WKH�/&'�ZLOO�GLVSOD\�D�QHZ�SDUDPHWHU��)LJXUH�$��3DUDPHWHUV�ZLOO�DSSHDU�LQ�WKH�RUGHU�VSHFL¿HG�E\�WKH�XVHU�ZKHQ�KH�FRQ¿JXUHG�WKH�GLVSOD\��,I�WKH�XVHU�GRHV�QRW�SUHVV�WKH�EXWWRQ�WR�PDQXDOO\�DGYDQFH�WR�WKH�QH[W�SDUDPHWHU��HDFK�SDUDPHWHU�ZLOO�EH�GLVSOD\HG�IRU��VHFRQGV�EHIRUH�WKH�/&'�UHVXPHV�LWV�DXWRPDWLF�VFUROO�

Parameter changes when push-buttonswitch is pressed

Figure A.4—LCD display of real-time measurements

To access daily logs, press and hold the push-button switch for approximately 4 seconds. In the daily log YLHZLQJ�PRGH��WKH�/&'�ZLOO�GLVSOD\�WKH�GDLO\�YROXPH�UHFRUGHG��DW�WKH�WRS��WKH�GDWH�VWDPS��ERWWRP��DQG�D�WZR�GLJLW�LQGH[�WKDW�LQGLFDWHV�WKH�QXPEHU�RI�GD\V�VLQFH�WKH�ORJ�ZDV�FUHDWHG��)LJXUH�$��:KHQ�\RX�HQWHU�WKLV�PRGH��WKH�/&'�DXWRPDWLFDOO\�GLVSOD\V�WKH�GDLO\�ORJ�YDOXH�IURP�WKH�SUHYLRXV�GD\��ZKLFK�LV�PDUNHG�E\�DQ�LQGH[�value of “01.”

Log index(Days since log was created)

Volume

Date stamp(MMDDYY)

Figure A.5—LCD display of daily logs

$��


To view logs recorded prior to this date, press the push-button switch repeatedly. The index number will increase in value (02, 03, etc.) as the logs progress back in time, and the corresponding daily log volumes and GDWHV�ZLOO�DSSHDU�RQ�WKH�/&'��7KH�ORJ�GLVSOD\�ZLOO�UHPDLQ�LQ�YLHZ�IRU��VHFRQGV�EHIRUH�WKH�/&'�UHVXPHV�LWV�automatic scroll of display parameters.

Explosion-Proof RTD Assembly7KH�%DUWRQ�0RGHO��57'��VKRZQ�LQ�)LJXUH�$��LV�D��ZLUH��RKP�H[SORVLRQ�SURRI�57'�DVVHPEO\�WKDW�can be connected to the Scanner 2000 enclosure without conduit. Factory-sealed, armored leads are covered in 39&��7KH�57'�DVVHPEO\�FDQ�EH�RUGHUHG�ZLWK�WHFK�FDEOH�OHQJWKV�RI��RU��IW��DQG�LV�DYDLODEOH�ZLWK�D��LQ��RU��LQ��57'�SUREH��&DEOH�OHQJWK�DQG�SUREH�OHQJWK�DUH�VSHFL¿HG�LQ�WKH�PRGHO�SDUW�QXPEHU��$��;;�<<�ZKHUH�;;�LV�WKH�FDEOH�OHQJWK�DQG�<<�LV�WKH�SUREH�OHQJWK�

7KH�0RGHO��57'�LV�&6$�FHUWL¿HG�IRU�XVH�LQ�&ODVV�,�*URXSV�%��&��DQG�'�DQG�&ODVV�,,��*URXSV�(��)�DQG�*��and Class III hazardous area environments.

(DFK�57'�DVVHPEO\�LV�¿WWHG�ZLWK��LQ��DQG��LQ��FRQQHFWRUV�IRU�DGDSWLQJ�WR�YDULRXV�VL]H�FRQGXLW�RSHQLQJV�DQG�WKUHDGROHWV��7KH�57'�LV�¿HOG�DGMXVWDEOH�IRU�LQVHUWLRQ�OHQJWKV�RI�XS�WR��LQ��)RU�ZLULQJ�LQVWUXFWLRQV��VHH�)LJXUH��SDJH��.

Probe length

Cable length

Figure A.6—Explosion-proof RTD assembly

Explosion-Proof Communications AdapterThe explosion-proof communications adapter ()LJXUH�$��SDJH�A-4��SURYLGHV�DQ�56��FRQQHFWLRQ�IRU�connecting a laptop or PC to the instrument without removing the instrument cover. When the adapter is ordered with a Scanner 2000, it is factory installed. It may be relocated to either conduit opening in the instrument housing.

$Q�56��WR�56��FRQYHUWHU�FDEOH��DYDLODEOH�IURP�&DPHURQ¶V�0HDVXUHPHQW�6\VWHPV�'LYLVLRQ��LV�UHTXLUHG�for connecting the adapter to a laptop computer. A variety of converter cable options are listed in the Spare Parts list of this manual (see page ��).

The adapter is shipped pre-assembled in the Scanner 2000 when it is ordered with the unit. The installed DGDSWHU�LV�FRPSULVHG�RI�DQ�56��DGDSWHU�VRFNHW��D�EODQNLQJ�SOXJ��DQG�D�XQLRQ�QXW��$�SOXJ�FRQQHFWRU�WKDW�PDWHV�ZLWK�WKH�56��DGDSWHU�VRFNHW�ZKHQ�WKH�DGDSWHU�LV�LQ�XVH�LV�VKLSSHG�ZLWK�WKH�GHYLFH��XQLQVWDOOHG��7KLV�SOXJ�FRQQHFWRU�VKRXOG�EH�ZLUHG�WR�DQ�56��FRQYHUWHU�FDEOH��DQG�VWRUHG�ZLWK�WKH�FDEOH�ZKHQ�WKH�&20�DGDSWHU�LV�QRW�LQ�XVH��:LULQJ�LQVWUXFWLRQV�IRU�FRQQHFWLQJ�WKH�SOXJ�FRQQHFWRU�WR�DQ�56��FRQYHUWHU�FDEOH�DUH�provided in Figure A.9, page $��.

A-4


Adapter socket

Union nut

Blanking plug

Figure A.7—Explosion-proof communications adapter

3.95(100.4)

6.81(172.9)

Figure A.8—Dimensions of explosion-proof communications adapter; inches (mm)

! � :$51,1*��:KHQ�D�KD]DUGRXV�DUHD�LV�SUHVHQW��HQVXUH�WKH�XQLRQ�QXW�DQG�EODQNLQJ�SOXJ�DUH�SURSHUO\�¿WWHG�LQ�WKH�FRQGXLW�RSHQLQJ��7KH�H[SORVLRQ�SURRI�UDWLQJ�DSSOLHV�RQO\�ZKHQ�WKH�XQLRQ�QXW�DQG�EODQNLQJ�SOXJ�DUH�VHFXUHG�LQ�SODFH��:KHQ�WKH�XQLRQ�LV�EURNHQ��WKH�GHYLFH�LV�QR�ORQJHU�explosion-proof.

! � :$51,1*��%HIRUH�GLVDVVHPEOLQJ�WKH�XQLRQ�QXW�DQG�EODQNLQJ�SOXJ��PDNH�VXUH�WKH�DUHD�LV�QRQ�hazardous.

A-5


7R�FRQQHFW�D�3&�RU�ODSWRS�WR�WKH�FRPPXQLFDWLRQV�DGDSWHU��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. 8QVFUHZ�WKH�XQLRQ�QXW�WR�H[SRVH�WKH�FRQQHFWRU�VRFNHW�VKRZQ�LQ�)LJXUH�$��SDJH�A-4. A blanking plug will be removed with the union nut. Store the union nut and blanking plug in a safe place. (They will need to be reinstalled when the adapter is not in use.)

2. &RQQHFW�WKH�SOXJ�FRQQHFWRU�WR�DQ�56��FRQYHUWHU�FDEOH��LI�LW�LV�QRW�DOUHDG\�DWWDFKHG��)LJXUH�$��

PLUG CONNECTOR(LEFT AND RIGHT WIRE POSITIONS ARE VALID ONLYWHEN PLUG IS FACING SOCKET IN POSITION SHOWN)

COM ADAPTER SOCKET

RS-485 CONVERTER

RS-232 9-PIN CONNECTOR

TD(A)

TD(B)

GND

Part No. 101283116

GND

+12V

Figure A.9—Wiring of plug connector to Cameron 9-pin RS-232 to RS-485 converter cable

3. Insert the plug connector into the adapter socket.

4. Connect the converter cable to the PC or laptop.

To disconnect the adapter, remove the plug connector (with converter cable attached) from the socket, place the blanking plug inside the union nut (removed in step 1) and screw the union nut onto the union half to cover the socket. Hand-tighten to ensure a snug connection.

1RWH�� 'R�QRW�GLVFRQQHFW�WKH�SOXJ�FRQQHFWRU�IURP�WKH�56��WR�56��FRQYHUWHU�FDEOH�ZKHQ�LW�LV�QRW�LQ�XVH��)RU�EHVW�UHVXOWV��VWRUH�WKH�SOXJ�FRQQHFWRU�ZLWK�WKH�FRQYHUWHU�FDEOH��

A-6


Communications Adapter Installation (for adapters purchased separately from a Scanner 2000)

! WARNING: If the communications adapter is ordered separately from the Scanner 2000 micro-()0��WKH�FRQGXLW�RSHQLQJV�LQ�WKH�6FDQQHU��HQFORVXUH�ZLOO�EH�VHDOHG�ZLWK�EUDVV�RU�VWDLQOHVV�steel plugs. Do not remove the plug from the enclosure to install the adapter unless the area is NQRZQ�WR�EH�QRQ�KD]DUGRXV�

To install a communications adapter purchased separately from a Scanner 2000 microEFM, perform the IROORZLQJ�VWHSV�

1. Thread the cable of the adapter through a conduit opening in the instrument housing and screw the adapter into place.

2. Connect the adapter cable to either communications port on the main circuit board inside the Scanner 2000 housing. See )LJXUH��SDJH��, for a wiring diagram.

3. &RQQHFW�WKH�SOXJ�FRQQHFWRU�WR�DQ�56��FRQYHUWHU�FDEOH��LI�DSSOLFDEOH��

Input/Output Expansion BoardWith the installation of the Scanner 2000 input/output expansion board, the instrument can support up to three ÀRZ�UXQV�VLPXOWDQHRXVO\²D�ÀRZ�UXQ�DQG�WZR�WXUELQH�PHWHU�UXQV��$OO�LQSXWV�DQG�RXWSXWV�DUH�FRQ¿JXUHG�ZLWK�ModWorX™ Pro software provided with each Scanner 2000 microEFM. See the ModWorX™ Pro Software 8VHU�0DQXDO��3DUW�1R��$��IRU�GHWDLOV��

The expansion board shown in Figure A.10, page $��LQFOXGHV�WKH�IROORZLQJ�LQSXWV�DQG�RXWSXWV��

�� DQDORJ�LQSXWV��FDQ�EH�FRQ¿JXUHG�IRU��9��9�RU��P$�� 1 turbine meter input

�� 1 pulse input

�� 1 analog output (4-20 mA)

If the expansion board is ordered with a Scanner 2000, it is installed at the factory. If the board is purchased separately, the user will need to install it on the Scanner 2000 main board using the instructions below.

$��


Installation (for boards purchased separately from a Scanner 2000)

,PSRUWDQW�� %HIRUH�LQVWDOOLQJ�WKH�H[SDQVLRQ�ERDUG��UHPRYH�DOO�SRZHU�IURP�WKH�6FDQQHU�� (battery and external power). Remove wiring from the main board if necessary to guide the expansion board into position.

The expansion board attaches to two headers positioned between the two large green terminal blocks on the PDLQ�ERDUG��7R�LQVWDOO��SHUIRUP�WKH�IROORZLQJ�VWHSV�

1. Remove the standoff from packaging and push it into the hole near the middle of the main board until it snaps into place.

2. Guide the expansion board over the standoff and align the pins on the under side of the expansion board ZLWK�WKH�KHDGHUV�RQ�WKH�PDLQ�ERDUG��)$,/85(�72�$/,*1�3,16�$1'�+($'(56�&$1�5(68/7�,1�'$0$*(�72�7+(�%2$5'��:KHQ�WKH�ERDUG�LV�SRVLWLRQHG�FRUUHFWO\��WKH�WH[W�RQ�ERWK�ERDUGV�VKRXOG�IDFH�the same direction.

3. Gently press the expansion board and the main board together until the expansion board snaps into place over the standoff.

4. 5HVWRUH�¿HOG�ZLULQJ�FRQQHFWLRQV�WR�WKH�PDLQ�ERDUG��LI�DSSOLFDEOH��DQG�LQVWDOO�¿HOG�ZLULQJ�RQ�WKH�H[SDQVLRQ�board.

�� Restore power to the Scanner 2000 and reboot the Scanner to allow it to detect the expansion board.

Align hole in expansion board with stando!.

Align pins on backof expansion boardwith black headers.

Figure A.10—Scanner 2000 input/output expansion board

A-8


Wiring Diagrams Analog Inputs 1 and 27KH�DQDORJ�LQSXWV��ZKLFK�FDQ�EH�FRQ¿JXUHG�IRU�D��9��9�RU��P$�VLJQDO��FDQ�EH�XVHG�WR�UHFHLYH�UHDGLQJV�IURP�D�SUHVVXUH�RU�WHPSHUDWXUH�WUDQVPLWWHU�IRU�XVH�LQ�$*$��JDV�FDOFXODWLRQV��$OWHUQDWLYHO\��WKH\�FDQ�EH�XVHG�WR�ORJ�PHDVXUHPHQWV�IURP�DQ\�GHYLFH�ZLWK�D��9��9�RU��P$�RXWSXW�

Transmitter power is provided by the Scanner 2000 only when the Scanner is externally powered. The output YROWDJH�HTXDOV�WKH�LQSXW�YROWDJH�OHVV��9'&��DQG�LV�OLPLWHG�WR��P$�

If a 4-20 mA transmitter is used, a resistor must be added to the circuit, as shown in Figure A.11. The H[SDQVLRQ�ERDUG�FLUFXLW�ZLOO�VXSSRUW�D�UHVLVWRU�UDQJH�RI��WR��RKPV��RKPV�LV�UHFRPPHQGHG��

ANALOG INPUT 1 (TB5)

17 18 19

TB9

TB8

TB7 TB6

TB5

1-5 VDCTRANSMITTER

POWER

RETURN

SIGNAL

PWRIN+IN-TB4

ExpansionBoard PN:9A-30160014

ANALOG INPUT 2 (TB6)

2021

TB9

TB8

TB7 TB6

TB5

PWR

IN+

IN-

221-5 VDC

TRANSMITTER POWERRETURNSIGNAL

TB4


4-20 mATRANSMITTER

Resistor Required(250-ohm recommended)

17 18 19

PWRIN+IN-

TB5

4-20 mA TRANSMITTER WIRING(CAN BE USED WITH ANALOG INPUT 1 OR 2)

Figure A.11—0-5 V, 1-5 V and 4-20 mA analog input wiring

$��


Pulse InputThe pulse input provides an optically isolated input for high-amplitude pulse (frequency) signals, which LQFOXGHV�VLJQDOV�IURP�D�WXUELQH�PHWHU�HTXLSSHG�ZLWK�D�SUHDPSOL¿HU��)LJXUH�$��WRS�GLDJUDP��RU�VLJQDOV�IURP�a positive displacement meter (Figure A.12, bottom diagram).

7KH�6FDQQHU��FDQ�FDOFXODWH�ÀRZ�IURP�QR�PRUH�WKDQ�WZR�SXOVH��IUHTXHQF\��LQSXWV�DW�D�WLPH��7KHUHIRUH��D�pulse input can be used simultaneously with only one turbine input (main board or expansion board).

25 26

TB9

TB8

TB7 TB6

TB4

TB5

PULSE INPUT3 TO 30 VDC

PULSE INPUT (TB8)


25

24

26

23SWITCH CLOSURE

TB9

TB8

TB7 TB6

TB4

TB5

PULSE INPUT/SWITCH (TB7 &TB8)

TB7 AND TB8 ARE CONNECTED BY JUMPER;TB7 IS THEN WIRED TO THE SWITCH.


Figure A.12—Pulse input wiring

A-10


Turbine Flowmeter Input 27XUELQH�,QSXW��)LJXUH�$��DFFHSWV�D�WXUELQH�ÀRZPHWHU�LQSXW�VLJQDO�JHQHUDWHG�E\�D�PDJQHWLF�SLFNXS��7KH�6FDQQHU��FDQ�EH�FRQ¿JXUHG�WR�XVH�WKLV�VLJQDO�WR�FDOFXODWH�DQG�GLVSOD\�LQVWDQWDQHRXV�ÀRZ�UDWHV�DQG�accumulated totals. Turbine Input 2 is in addition to the turbine input on the main circuit board. When the H[SDQVLRQ�ERDUG�LV�LQVWDOOHG��D�GLIIHUHQWLDO�SUHVVXUH�ÀRZ�UXQ�DQG�WZR�WXUELQH�UXQV�FDQ�EH�PRQLWRUHG�DQG�logged simultaneously.

TURBINE MAGNETIC PICKUP

B

A2827RED

BLACK

TB9

TB8

TB7 TB6

TB4

TB5

TURBINE INPUT (TB9)


Figure A.13—Turbine Input 2 wiring

Analog (4-20 mA) Output7KH��P$�RXWSXW�SURYLGHV�D�OLQHDU�FXUUHQW�RXWSXW�WKDW�FDQ�EH�FRQ¿JXUHG�XVLQJ�0RG:RU;�3UR�VRIWZDUH�WR�represent any parameter in the holding registers. This output requires a two-conductor cable to be connected WR�DQ��WR��9'&�SRZHU�VXSSO\��YROWDJH�UHTXLUHG�LV�GHSHQGHQW�RQ�ORRS�UHVLVWDQFH��DQG�D�FXUUHQW�UHDGRXW�GHYLFH�WR�EH�ORFDWHG�LQ�WKH�UHPRWH�ORFDWLRQ��6HH�WKH�0RG:RU;�3UR�6RIWZDUH�8VHU�0DQXDO�IRU�LQIRUPDWLRQ�RQ�FRQ¿JXULQJ�]HUR�DQG�IXOO�VFDOH�YDOXHV�XVLQJ�0RG:RU;�3UR�VRIWZDUH�

The graph below the wiring diagram in Figure A.14, page A-11, shows the minimum voltage required to power the instrument for a given loop resistance. In addition, the mathematical relationship between loop voltage and load resistance is given. For example, if a power supply voltage of 24 volts is available to power the FXUUHQW�ORRS��WKH�PD[LPXP�ORDG�UHVLVWDQFH�ZRXOG�EH��RKPV�

A-11


15 16

TB

9

TB

8T

B7 TB6

TB

4

TB

5

Resistor may be included in readout device.

*

TB2

POW

ER–+

7

8

9

10

11

12

GROUND SCREW INSIDE ENCLOSURE

ANALOG DEVICEPOWER SUPPLY

8-30 VDCGND

ANALOG OUTPUT (TB4)(WITH POWER SUPPLIED VIA MAIN BOARD (TB2)



1100

800

200

0

8 12 24 30

LOOP SUPPLY VOLTAGE (VDC)

LOA

D R

ES

ISTA

NC

E (O

HM

S)

OPERATING REGION

Figure A.14—Analog (4-20 mA) output wiring

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Scanner® 2000 microEFM Appendix B

Appendix B—Lithium Battery Information

Lithium Battery Disposal 2QFH�D�OLWKLXP�EDWWHU\�LV�UHPRYHG�IURP�D�GHYLFH�DQG�RU�LV�GHVWLQHG�IRU�GLVSRVDO��LW�LV�FODVVL¿HG�DV�VROLG�ZDVWH�under EPA guidelines. Depleted lithium batteries are also considered to be hazardous waste because they meet WKH�GH¿QLWLRQ�RI�5HDFWLYLW\��DV�SHU��&)5��D��DQG��7KLV�GRFXPHQW�GHVFULEHV�KRZ�WKH�OLWKLXP�reacts violently with water, forms potentially explosive mixtures with water, and when exposed to certain pH FRQGLWLRQV��JHQHUDWHV�WR[LF�F\DQLGH�RU�VXO¿GH�JDVHV�

Federal law requires that depleted lithium battery packs be sent to a fully permitted Treatment, Storage and Disposal Facility (TSDF) or to a permitted recycling/reclamation facility.

,PSRUWDQW�� 'R�QRW�VKLS�OLWKLXP�EDWWHU\�SDFNV�WR�&DPHURQ¶V�0HDVXUHPHQW�6\VWHPV�'LYLVLRQ�� Cameron facilities are not permitted recycling/ reclamation facilities.

&$87,21�� 3UR¿OLQJ�DQG�ZDVWH�FKDUDFWHUL]DWLRQ�SURFHGXUHV�PXVW�EH�IROORZHG�SULRU�WR�VKLSSLQJ�D�lithium battery to a disposal site. It is the shipper’s responsibility to comply with all ap-plicable federal transportation regulations (see below).

Transportation Information

! WARNING: The Scanner 2000 microEFM contains lithium batteries. The internal component (thionyl chloride) is hazardous under the criteria of the Federal OHSA Hazard Communica-tion Standard 29 CFR 1920.1200. Before shipping a lithium battery or equipment containing a OLWKLXP�EDWWHU\��YHULI\�WKDW�WKH�SDFNDJLQJ�DQG�ODEHOLQJ�FRQIRUPV�ZLWK�WKH�ODWHVW�YHUVLRQ�RI�DOO�applicable regulations.

7KH�WUDQVSRUW�RI�WKH�OLWKLXP�EDWWHULHV�LV�UHJXODWHG�E\�WKH�8QLWHG�1DWLRQV��³0RGHO�5HJXODWLRQV�RQ�7UDQVSRUW�RI�'DQJHURXV�*RRGV�´��VSHFLDO�SURYLVLRQV��DQG��ODWHVW�UHYLVLRQ�

:LWKLQ�WKH�86�WKH�OLWKLXP�EDWWHULHV�DQG�FHOOV�DUH�VXEMHFW�WR�VKLSSLQJ�UHTXLUHPHQWV�XQGHU�3DUW��RI�WKH�&RGH�RI�)HGHUDO�5HJXODWLRQV��&)5��3DUWV��DQG��RI�WKH�86�+D]DUGRXV�0DWHULDOV�5HJXODWLRQV�(HMR), latest revision.

6KLSSLQJ�RI�OLWKLXP�EDWWHULHV�LQ�DLUFUDIW�LV�UHJXODWHG�E\�WKH�,QWHUQDWLRQDO�&LYLO�$YLDWLRQ�2UJDQL]DWLRQ��,&$2��DQG�WKH�,QWHUQDWLRQDO�$LU�7UDQVSRUW�$VVRFLDWLRQ��,$7$��UHTXLUHPHQWV�LQ�6SHFLDO�3URYLVLRQV�$��$��DQG�$��latest revision.

Shipping of lithium batteries on sea is regulated the International Maritime Dangerous Goods (IMDG) UHTXLUHPHQWV�LQ�VSHFLDO�SURYLVLRQV��DQG��ODWHVW�UHYLVLRQ�

6KLSSLQJ�RI�OLWKLXP�EDWWHULHV�RQ�URDG�DQG�UDLO�LV�UHJXODWHG�E\�UHTXLUHPHQWV�LQ�VSHFLDO�SURYLVLRQV��DQG�310, latest revision.

Material Safety Data SheetFor a link to the current MSDS for the lithium batteries used to power the Scanner 2000 microEFM, see the 0HDVXUHPHQW�6\VWHPV�'LYLVLRQ�VHFWLRQ�RI�WKH�&DPHURQ�ZHEVLWH��ZZZ�F�D�P�FRP�

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Appendix B Scanner® 2000 microEFM

C-1

Scanner® 2000 microEFM Appendix C

Appendix C—Communications Protocol

Communications Protocol)LUPZDUH�9HUVLRQ�� 5HJLVWHU�7DEOH�9HUVLRQ��

Introduction7KH�FRPPXQLFDWLRQV�SURWRFRO�IRU�WKH�6FDQQHU��LV�LQ�DFFRUGDQFH�ZLWK�0RGLFRQ��,QF��578�0RGH�Modbus® as described in 0RGLFRQ�0RGEXV�3URWRFRO�5HIHUHQFH�*XLGH��3,�0%86��5HY��-��-XQH��$OO�registers are implemented as 4X or holding registers. Reading of registers is implemented via function code 03H (Read Holding Registers). Writing to registers is implemented via function code 10H (Preset Multiple Registers). The instrument provides Enron Modbus® compliant downloads for interval, daily and event records. For details on Enron Modbus®, refer to 6SHFL¿FDWLRQV�DQG�5HTXLUHPHQWV�IRU�DQ�(OHFWURQLF�)ORZ�0HDVXUHPHQW�5HPRWH�7HUPLQDO�8QLW�IRU�(QURQ�&RUS��'HF��

Supported Commands7KH�0RGEXV��IXQFWLRQV�VXSSRUWHG�E\�WKH�6FDQQHU��DUH�DV�IROORZV��

Function Code (Hex) Description�� 5HDG�+ROGLQJ�5HJLVWHUV05 3UHVHW�%RROHDQ

�IRU�(QURQ�HYHQW�UHFRUG�DFNQRZOHGJHPHQW�10 3UHVHW�0XOWLSOH�5HJLVWHUV11 5HSRUW�6ODYH�,'

)RU�WKH�UHDG�KROGLQJ�DQG�SUHVHW�PXOWLSOH�UHJLVWHUV��WKH�LQVWUXPHQW�VXSSRUWV�WKH�IXOO��E\WHV�RI�GDWD�LQ�D�PHVVDJH��7KLV�FRUUHVSRQGV�WR��UHJLVWHUV�LQ��ELW�KROGLQJ�UHJLVWHU�VL]H�DQG��UHJLVWHUV�LQ��ELW�KROGLQJ�register size.

7KH�UHSRUW�VODYH�,'�IXQFWLRQ�FRGH�UHWXUQV�WKH�IROORZLQJ�

�� Product Code

�� Register Table Number

�� Firmware Version

�� Manufacture Date

�� Sales Date

�� Sensor Serial Number[1]

�� Sensor Serial Number[2]

�� Power Mode

�� Number of Connected Port (1 or 2)

�� 3RUW��RU��8VDJH�� Port (1 or 2) Slave Address

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Appendix C Scanner® 2000 microEFM

�� 3RUW��RU��%DXG�5DWH�� 3RUW��RU��%XV�'HOD\�� 3RUW��RU��%XV�7LPHRXW�� Real Date

�� Real Time

Data TypesVarious data types are implemented in the Scanner 2000. The following table lists the formats and the numbers of bytes and registers associated with each type.

Data Type Byte Count Register Count)ORDWLQJ�3RLQW��)3� 4 �)ORDWLQJ�3RLQW��)3�� 4 18QVLJQHG�:RUG��8�� 18QVLJQHG�/RQJ��8�� 4 �3DFNHG�$6&,,��3$� � 1

7KH�ZRUG�RUGHULQJ�IRU�PXOWLSOH�UHJLVWHU�GDWD�W\SHV��VXFK�DV�ÀRDWLQJ�SRLQW�QXPEHUV�RU�ORQJ�LQWHJHUV��LV�IRU�WKH�PRVW�VLJQL¿FDQW�ZRUG�WR�DSSHDU�¿UVW�LQ�WKH�PHVVDJH��

7KH�8QVLJQHG�:RUG��8��W\SH�LV�XVHG�IRU��ELW�LQWHJHUV�DQG�¿WV�LQWR�RQH�UHJLVWHU��

The Packed ASCII (PA) type contains two bytes that are two unsigned characters. Generally, multiple Packed ASCII types are arranged consecutively for implementing strings. For example, the Device Name is a string of 20 unsigned characters that is implemented as 10 Packed ASCII registers. Here is an example of a device name that contains the string, “Test Well 413.”

Register Hexadecimal # ASCII Characters�� 54 65 Te�� st�� 63$&(!�:�� 65 6C el�� &�� O�63$&(!�� 41�� )) ��8186('!�� FF FF �8186('!�8186('!�� FF FF �8186('!�8186('!�� FF FF �8186('!�8186('!

8QXVHG�FKDUDFWHUV�DW�WKH�HQG�RI�HDFK�VWULQJ�ZLOO�UHSRUW��[))�KH[DGHFLPDO�

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SecurityTo communicate with a Scanner 2000 without the use of ModWorX Pro software (i.e. via a third-party polling device), security permissions for the applicable Scanner 2000 communications port must be set to the default (unrestricted) state. If a different security level is required, contact Cameron technical support for details. Security levels can be restored to default permissions with ModWorX Pro software.

Registers(DFK�UHJLVWHU�KDV�DQ�$FFHVV�W\SH��UHDG�RQO\�RU�UHDG�ZULWH��DV�GHVFULEHG�EHORZ��

$FFHVV�7\SH 'HVFULSWLRQ5HDG�2QO\��52� 5HJLVWHU�FDQ�RQO\�EH�UHDG5HDG�:ULWH��5�:� 5HJLVWHU�FDQ�EH�UHDG�DQG�ZULWWHQ

The registers are grouped into Modbus® map blocks according to function. The Scanner 2000 contains the following map functions.

Map Starting Register&RQWURO�5HJLVWHUV ��6\VWHP�&RQ¿JXUDWLRQ 1000&RPPXQLFDWLRQV�&RQ¿JXUDWLRQ 11005HDO�7LPH ��3RZHU�&RQ¿JXUDWLRQ ��$UFKLYH�&RQ¿JXUDWLRQ 14007XUELQH��&RQ¿JXUDWLRQ ��7XUELQH��&DOLEUDWLRQ ��7XUELQH��&RQ¿JXUDWLRQ ��7XUELQH��&DOLEUDWLRQ ��6WDWLF�3UHVVXUH�&RQ¿JXUDWLRQ ��6WDWLF�3UHVVXUH�&DOLEUDWLRQ ��57'�&RQ¿JXUDWLRQ ��57'�&DOLEUDWLRQ ��'LIIHUHQWLDO�3UHVVXUH�&RQ¿JXUDWLRQ ��'LIIHUHQWLDO�3UHVVXUH�&DOLEUDWLRQ ��$QDORJ�,QSXW��&RQ¿JXUDWLRQ ��$QDORJ�,QSXW��&DOLEUDWLRQ ��$QDORJ�,QSXW��&RQ¿JXUDWLRQ ��$QDORJ�,QSXW��&DOLEUDWLRQ ��)ORZ�5XQ��&RQ¿JXUDWLRQ ��)ORZ�5XQ��&DOLEUDWLRQ ��)ORZ�5XQ�$ODUPV ��2XWSXW�&RQ¿JXUDWLRQ 4000+ROGLQJ�5HJLVWHUV��ELW� ��+ROGLQJ�5HJLVWHUV 80008VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�&RQ¿JXUDWLRQ ��8VHU�'H¿QHG�+ROGLQJ�5HJLVWHUV ��'HYLFH�6WDWXV ��

C-4


1RWH�� $OO�UHJLVWHUV�FLWHG�LQ�WKLV�GRFXPHQW�UHIHU�WR�WKH�DGGUHVV�RI�WKH�UHJLVWHU�WKDW�DSSHDUV�LQ�WKH�DFWXDO� 0RGEXV��PHVVDJH��)RU�H[DPSOH��UHJLVWHU��KDV�DQ�DGGUHVV�RI��[�)��KH[DGHFLPDO�LQ�WKH� PHVVDJH�

Control RegistersRegister (Decimal)

Register (Hex) Description

Data Type Access

�� 46 &RQWURO�5HJLVWHU�� 8�� 5�:

7KH�&RQWURO�5HJLVWHUV�DOORZ�VSHFL¿F�IXQFWLRQV�WR�EH�LPSOHPHQWHG�YLD�WKH�FRPPXQLFDWLRQV�SRUW��7KH�following table shows the value to be written to the control register to implement the desired function.

Code Function�� 7UDQVIHUV�WKH�SROOLQJ�WRWDOV�DQG�DYHUDJHV�DQG�SROOLQJ�UXQ�WLPHV�WR�WKH�SUHYLRXV�SROOLQJ�WRWDOV��

DYHUDJHV�DQG�SUHYLRXV�UXQ�WLPH�UHJLVWHUV��LQFUHPHQWV�WKH�SROOLQJ�LQGH[�UHJLVWHU��DQG�UHVHWV�WKH�SROOLQJ�WRWDOV��DYHUDJHV�DQG�SROOLQJ�UXQ�WLPH�UHJLVWHUV�

�� &OHDUV�DOO�ÀRZ�WRWDOV�� &OHDUV�)ORZ�5XQ��WRWDOV�� &OHDUV�7XUELQH��WRWDOV�� &OHDUV�7XUELQH��WRWDOV�� &OHDUV�DOO�3XOVH�2XWSXW�ODWFKHV40040 5HVHWV�WKH�PLFURFRQWUROOHU��ZDWFKGRJ�50050 &UHDWHV�D�SDUWLDO�UHFRUG

6\VWHP�&RQ¿JXUDWLRQRegister (Decimal)


Data Type Access

1000 �(� 3URGXFW�&RGH 8�� 521001 �(� 5HJLVWHU�7DEOH�9HUVLRQ 8�� 52�� ($ )LUPZDUH�9HUVLRQ 8�� 52�� (% 0DQXIDFWXUH�'DWH 8�� 521004 �(& 6DOHV�'DWH 8�� 521005 �(' 6HULDO�1XPEHU�+LJK 8�� 521006 �(( 6HULDO�1XPEHU�/RZ 8�� 52�� () 6HQVRU�6HULDO�1XPEHU>�@ PA 521008 �)� 6HQVRU�6HULDO�1XPEHU>�@ PA 52�� )� 6HQVRU�6HULDO�1XPEHU>�@ PA 521010 �)� 6HQVRU�6HULDO�1XPEHU>�@ PA 521011 �)� 6HQVRU�6HULDO�1XPEHU>�@ PA 52�� )� 6HQVRU�6HULDO�1XPEHU>�@ PA 52�� )� ([SDQVLRQ�%RDUG�0DQXIDFWXUH�'DWH� 8�� 521014 �)� ([SDQVLRQ�%RDUG�6DOHV�'DWH 8�� 521015 �)� ([SDQVLRQ�%RDUG�6HULDO�1XPEHU�+LJK 8�� 521016 �)� ([SDQVLRQ�%RDUG�6HULDO�1XPEHU�/RZ 8�� 52�� )� ([SDQVLRQ�%RDUG�&RQ¿JXUDWLRQ 8�� 52

C-5


Product CodeThe Product Code is a read-only parameter used for identifying a Scanner 2000 device using the ModWorX 3UR�VRIWZDUH��7KLV�SDUDPHWHU�LV�GH¿QHG�DW�WKH�IDFWRU\��

Firmware Version/Register Table VersionThe Firmware Version and Register Table Version numbers are set by the factory and are read-only. To determine the version number, read the appropriate register and divide the value by 100. The general format IRU�YHUVLRQ�QXPEHUV�LV�$�%&��)RU�H[DPSOH�WKH�¿UPZDUH�UHJLVWHU�QXPEHU�LV�UHDG�DV��[$��KH[DGHFLPDO��7KLV�UHSUHVHQWV�WKH�YDOXH��DQG�D�¿UPZDUH�YHUVLRQ�RI��

Manufacture Date/Sales Date7KHVH�SDUDPHWHUV�DUH�VHW�DW�WKH�IDFWRU\�DQG�DUH�UHDG�RQO\��7KHVH�UHJLVWHUV�DUH�IRUPDWWHG�DV�00<<��)RU�H[DPSOH��D�YDOXH�RI��UHSUHVHQWV�WKH�GDWH�6HSWHPEHU��

&RPPXQLFDWLRQV�&RQ¿JXUDWLRQRegister (Decimal)


Data Type Access Default

1100 44C 3RUW��3RUW�8VDJH ��6ODYH ��0DVWHU

8�� 5�: 0

1101 ��' 3RUW��6ODYH�$GGUHVV >��WR��H[FOXGLQJ��WR��DQG��@

8�� 5�: 1

�� ( 3RUW��%DXG�5DWH �� 1 - 600 �� 4 - 4800

��

8�� 5�: 5

�� 44F 3RUW��%XV�'HOD\ P6�RI�GHOD\�EHIRUH�WUDQVPLWWLQJ�GDWD

8�� 5�: 10

1104 450 3RUW��%XV�7LPHRXW P6�RI�GHOD\�EHIRUH�UHVHWWLQJ�FRPPXQLFDWLRQV

8�� 5�: 50

1105 451 3RUW��3RUW�8VDJH ��6ODYH

8�� 5�: 0

1106 �� 3RUW��6ODYH�$GGUHVV >��WR��H[FOXGLQJ��WR��DQG��@

8�� 5�: 1

�� 3RUW��%DXG�5DWH �� 1 - 600 �� 4 - 4800

��

8�� 5�: 5

1108 454 3RUW��%XV�'HOD\ P6�RI�GHOD\�EHIRUH�WUDQVPLWWLQJ�GDWD

8�� 5�: 10

�� 455 3RUW��%XV�7LPHRXW P6�RI�GHOD\�EHIRUH�UHVHWWLQJ�FRPPXQLFDWLRQV

8�� 5�: 50

C-6


Real TimeRegister (Decimal)


Data Type Access

�� %� <HDU��5HDO�<HDU� �UHJLVWHU�YDOXH�SOXV�� 8�� 5�:�� %� 0RQWK�>��@ 8�� 5�:�� %� 'D\�>��@ 8�� 5�:�� %� +RXU�>��@ 8�� 5�:�� %� 0LQXWH�>��@ 8�� 5�:�� %� 6HFRQG�>��@ 8�� 5�:

This block of registers is used to set the instrument’s internal clock. To set the time, it is recommended that all registers be written in one message.

7KH�WLPH�DQG�GDWH�FDQ�DOVR�EH�UHDG�LQ�WKH�KROGLQJ�UHJLVWHU�JURXSV�DV�ÀRDWLQJ�SRLQW�GDWD��

3RZHU�&RQ¿JXUDWLRQRegister (Decimal)



�� 514 3RZHU�0RGH ��+LJK�3RZHU ��/RZ�3RZHU

8�� 5�: 0

�� 515 &ORFN�2YHUULGH 8�� 5�: 0�� 516 ,QWHUQDO�6\VWHP�6DPSOH�3HULRG

>QXPEHU�RI�VHFRQGV�EHWZHHQ�EDWWHU\�YROWDJH�DQG�HOHFWURQLFV�WHPSHUDWXUH�PHDVXUHPHQWV@

8�� 5�: ��

�� ([WHUQDO�6HQVRU�3RZHU�&RQWURO 8�� 5�: ��

$UFKLYH�&RQ¿JXUDWLRQRegister (Decimal)



1400 �� $UFKLYH�5HIHUHQFH�1XPEHU 8�� 52 10000

1401 �� &RQWUDFW�+RXU >��@ 8�� 5�: ��$0�

�� $ ,QWHUYDO�3HULRG >��VHFRQGV�WR��KRXUV@ 8�� 5�: ��VHFRQGV�

��KRXU�

�� %3DUWLDO�5HFRUGV ��1RW�(QDEOHG ��±�(QDEOHG

8�� 5�: 0

1404 ��& 1XPEHU�RI�'DLO\�5HFRUGV 8�� 52 ��1405 ��' 1XPEHU�RI�,QWHUYDO�5HFRUGV 8�� 52 ��VWG��

��ZLWK�H[SDQVLRQ�ERDUG

1406 ��( 1XPEHU�RI�(YHQWV�5HFRUGV 8�� 52 �� ) 1XPEHU�RI�3DUDPHWHUV 8�� 5�: 111408 580 $UFKLYH�)LHOG�� 8�� 52 'DWH

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$UFKLYH�&RQ¿JXUDWLRQRegister (Decimal)



�� 581 $UFKLYH�)LHOG�� 8�� 52 Time1410 �� $UFKLYH�)LHOG�� 8�� 5�: )5��9ROXPH1411 �� $UFKLYH�)LHOG�� 8�� 5�: )5��0DVV�� 584 $UFKLYH�)LHOG�� 8�� 5�: )5��(QHUJ\

�� 585 $UFKLYH�)LHOG�� 8�� 5�: 'LIIHUHQWLDO�3UHVVXUH

1414 586 $UFKLYH�)LHOG�� 8�� 5�: 6WDWLF�3UHVVXUH

1415 �� $UFKLYH�)LHOG�� 8�� 5�: 3URFHVV7HPSHUDWXUH

1416 588 $UFKLYH�)LHOG�� 8�� 5�: )5��5XQ�7LPH�� $UFKLYH�)LHOG�� 8�� 5�: 7��9ROXPH1418 58A $UFKLYH�)LHOG�� 8�� 5�: 7��5XQ�7LPH�� % $UFKLYH�)LHOG�� 8�� 5�: 8QXVHG�� 58C $UFKLYH�)LHOG�� 8�� 5�: 8QXVHG�� ' $UFKLYH�)LHOG�� 8�� 5�: 8QXVHG�� ( $UFKLYH�)LHOG�� 8�� 5�: 8QXVHG�� 58F $UFKLYH�)LHOG�� 8�� 5�: 8QXVHG

7XUELQH��&RQ¿JXUDWLRQRegister (Decimal)



�� '� 7��8QLWV 6HH�8QLWV�7DEOH

8�� 5�: ��±�%%/

�� '� 7��7LPH�%DVH�� 6HFRQG�� 0LQXWH�� +RXU�� 'D\

8�� 5�: �

�� '� 7��6DPSOLQJ�3HULRG��VHF� 8�� 5�: 5�� '� 7��'DPSHQLQJ�)DFWRU 8�� 5�: 0�� '� 7��,QSXW�&RQ¿JXUDWLRQ

��7)0�/RZ��P9�#��+]� ��7)0�0HG��P9�#��+]� ��7)0�+LJK��P9�#��+]� ��7)0�0D[��P9�#��+]� ��3XOVH�,QSXW

8�� 5�: 1

�� '� 7��2YHUULGH�(QDEOH ��'LVDEOHG ��(QDEOHG

8�� 5�: 0

�� '� 7��2YHUULGH�9DOXH FP 5�: �� '� 7��)DLO�9DOXH FP 5�: �� '$ 7��/RZ�)UHTXHQF\�&XWRII FP 5�: ��

C-8





�� '& 7��/RZ�)ORZ�&XWRII FP 5�: �� '( 7��6HQVRU�5DQJH�/RZ FP 5�: �� (� 7��6HQVRU�5DQJH�+LJK FP 5�: �� (� 7��8QLWV�6FDOH�)DFWRU FP 5�: �� (� 7��8QLWV�2IIVHW�)DFWRU FP 5�: 0�� (� 7��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� (� 7��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� (� 7��8QLW�'HVFULSWLRQ�� /&' 5�: ²

Turbine 1 CalibrationRegister (Decimal)



�� (( 7��&DOLEUDWLRQ�7\SH1 8�� 5�: 1�� () 7��/LQHDU�)DFWRU FP 5�: �� )� 7��&DOLEUDWLRQ�$EVROXWH�2IIVHW FP 5�: �� )� 7��)DFWRU�� FP 5�: �� )� 7��)DFWRU�� FP 5�: �� )� 7��)DFWRU�� FP 5�: �� )� 7��)DFWRU�� FP 5�: �� )% 7��)DFWRU�� FP 5�: �� )' 7��)DFWRU�� FP 5�: �� )) 7��)DFWRU�� FP 5�: �� 801 7��)DFWRU�� FP 5�: �� 7��)DFWRU�� FP 5�: �� 805 7��)DFWRU�� FP 5�: �� 7��)DFWRU�� FP 5�: �� 7��)DFWRU�� FP 5�: �� % 7��)UHTXHQF\�� FP 5�: �� ' 7��)UHTXHQF\�� FP 5�: �� 80F 7��)UHTXHQF\�� FP 5�: �� 811 7��)UHTXHQF\�� FP 5�: �� 7��)UHTXHQF\�� FP 5�: �� 815 7��)UHTXHQF\�� FP 5�: �� 7��)UHTXHQF\�� FP 5�: �� 7��)UHTXHQF\�� FP 5�: �� % 7��)UHTXHQF\�� FP 5�: �� ' 7��)UHTXHQF\�� FP 5�: �� 81F 7��)UHTXHQF\�� FP 5�: �� 7��)UHTXHQF\�� FP 5�: �� 7��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��

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�� 7��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� 7��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� 7��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� % 7��±�$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��

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8�� 5�: 1

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C-10





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C-11


2XWSXW�&RQ¿JXUDWLRQRegister (Decimal)

Register (Hex) Description Data

Type Access Default

4000 FA0 3XOVH�2XW��6RXUFH 8�� 5�: 04001 FA1 3XOVH�2XW��'XUDWLRQ 8�� 5�: 0�� )$� 3XOVH�2XW��'HFLPDO�/RFDWLRQ 8�� 5�: 0�� )$� 3XOVH�2XW��'DWD�3RLQWHU 8�� 5�: 04004 FA4 3XOVH�2XW��6FDOH�)DFWRU FP 5�: 04006 FA6 3XOVH�2XW��/RZ�/HYHO FP 5�: 04008 FA8 3XOVH�2XW��+LJK�/HYHO FP 5�: 0

��WR�� 5HVHUYHG�� )%( $QDORJ�2XW��6RXUFH 8�� 5�: 0�� )%) $QDORJ�2XW��'HFLPDO�/RFDWLRQ 8�� 5�: 0�� FC0 $QDORJ�2XW��/RZ�9DOXH FP 5�: 0�� )&� $QDORJ�2XW��+LJK�9DOXH FP 5�: 0�� FC4 $QDORJ�2XW��/RZ�$GMXVW 8�� 5�: 0�� FC6 $QDORJ�2XW��+LJK�$GMXVW 8�� 5�: 0

6WDWLF�3UHVVXUH�&RQ¿JXUDWLRQRegister (Decimal)



�� 63��8QLWV6HH�8QLWV�7DEOH

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Static Pressure CalibrationRegister (Decimal)



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57'�&RQ¿JXUDWLRQRegister (Decimal)



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8�� 5�: 501

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RTD CalibrationRegister (Decimal)



�� $ 37��&DOLEUDWLRQ�7\SH 8�� 5�: 0�� % 37��1RPLQDO�9DOXH FP 5�: �� ' 37��&DOLEUDWLRQ�$EVROXWH�2IIVHW FP 5�: �� ) 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� % 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� ' 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� ) 37��&DOLEUDWLRQ�$FWXDO�� FP 5�: ��

C-14


RTD CalibrationRegister (Decimal)



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'LIIHUHQWLDO�3UHVVXUH�&RQ¿JXUDWLRQRegister (Decimal)



�� '3��8QLWV 6HH�8QLWV�7DEOH

8�� 5�: 401

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8�� 5�: 0

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C-15


'LIIHUHQWLDO�3UHVVXUH�&RQ¿JXUDWLRQRegister (Decimal)



�� & '3��/RZ�)ORZ�&XWRII FP 5�: �� ( '3��6HQVRU�5DQJH�/RZ FP 52 IURP�097�� '3��6HQVRU�5DQJH�+LJK FP 52 IURP�097�� '3��8QLWV�6FDOH�)DFWRU FP 5�: �� '3��8QLWV�2IIVHW�)DFWRU FP 5�: �� '3��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� '3��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� '3��8QLW�'HVFULSWLRQ�� /&' 5�: ²

Differential Pressure CalibrationRegister (Decimal)



�� ( '3��&DOLEUDWLRQ�7\SH1 8�� 5�: 0�� ) '3��1RPLQDO�9DOXH FP 5�: �� '3��&DOLEUDWLRQ�$EVROXWH�2IIVHW FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� % '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� ' '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� ) '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� '3��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� % '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� ' '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� ) '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $� '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $� '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $� '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $� '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $� '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $% '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $' '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $) '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� %� '3��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� %� '3��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��

C-16


Differential Pressure CalibrationRegister (Decimal)



�� %� '3��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� %� '3��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� %� '3��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� %% '3��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��


$QDORJ�,QSXW��&RQ¿JXUDWLRQRegister (Decimal)



�� &� $��8QLWV 8�� 5�: 0�� &� $��7LPH�%DVH 8�� 5�: 0�� &� $��6DPSOLQJ�3HULRG 8�� 5�: 1�� &� $��'DPSHQLQJ�)DFWRU 8�� 5�: 0�� &� $��,QSXW�&RQ¿JXUDWLRQ 8�� 5�: 0�� &� $��2YHUULGH�(QDEOH 8�� 5�: 0�� &$ $��2YHUULGH�9DOXH FP 5�: �� && $��)DLO�9DOXH FP 5�: �� &( $��/RZ�,QSXW�&XWRII FP 5�: �� '� $��/RZ�)ORZ�&XWRII FP 5�: �� '� $��6HQVRU�5DQJH�/RZ FP 52 �� '� $��6HQVRU�5DQJH�+LJK FP 52 0�� '� $��8QLWV�6FDOH�)DFWRU FP 5�: 1�� '� $��8QLWV�2IIVHW�)DFWRU FP 5�: 0�� '$ $��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� '% $��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� '& $��8QLW�'HVFULSWLRQ�� /&' 5�: ²

Analog Input 1 CalibrationRegister (Decimal)



�� (� $��&DOLEUDWLRQ�7\SH1 8�� 5�: 0�� (� $��1RPLQDO�9DOXH FP 5�: �� (� $��&DOLEUDWLRQ�$EVROXWH�2IIVHW FP 5�: �� (� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� (� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� (% $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� (' $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� () $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: ��

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�� )� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )% $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )' $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� )) $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A01 $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A05 $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�% $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�' $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A0F $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A11 $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A15 $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� $�� $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� $�% $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� $�' $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� A1F $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��





�� $�� $��8QLWV 8�� 5�: 0�� $�� $��7LPH�%DVH 8�� 5�: 0�� $�$ $��6DPSOLQJ�3HULRG 8�� 5�: 1�� $�% $��'DPSHQLQJ�)DFWRU 8�� 5�: 0�� $�& $��,QSXW�&RQ¿J 8�� 5�: 0�� $�' $��2YHUULGH�(QDEOH 8�� 5�: 0�� $�( $��2YHUULGH�9DOXH FP 5�: �� $�� $��)DLO�9DOXH FP 5�: �� $�� $��/RZ�,QSXW�&XWRII FP 5�: �� $�� $��/RZ�)ORZ�&XWRII FP 5�: �� $�� $��6HQVRU�5DQJH�/RZ FP 52 ��

C-18





�� $�� $��6HQVRU�5DQJH�+LJK FP 52 0�� $�$ $��8QLWV�6FDOH�)DFWRU FP 5�: 1�� $�& $��8QLWV�2IIVHW�)DFWRU FP 5�: 0�� $�( $��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� $�) $��8QLW�'HVFULSWLRQ�� /&' 5�: ²�� A40 $��8QLW�'HVFULSWLRQ�� /&' 5�: ²




�� A46 $��&DOLEUDWLRQ�7\SH1 8�� 5�: 0�� $�� $��1RPLQDO�9DOXH FP 5�: �� $�� $��&DOLEUDWLRQ�$EVROXWH�2IIVHW FP 5�: �� $�% $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�' $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� A4F $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� A51 $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� A55 $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�� $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�% $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�' $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� A5F $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� A61 $��&DOLEUDWLRQ�$FWXDO�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A65 $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�% $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�' $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� A6F $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�� $��&DOLEUDWLRQ�0HDVXUHG�� FP 5�: �� $�% $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� $�' $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� $�) $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��

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�� A81 $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: �� $�� $��$FWLYH�&DOLEUDWLRQ�&RHI¿FLHQW�� FP 5�: ��


'LJLWDO�,QSXW�&RQ¿JXUDWLRQRegister (Decimal)



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)ORZ�5XQ��&RQ¿JXUDWLRQRegister (Decimal)



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Flow Run 1 CalibrationRegister (Decimal)



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Flow Run 1 CalibrationRegister (Decimal)



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Holding RegistersRegister (Decimal)

Register (Hex) Description Data Type Access

8000 1F40 ,QWHUYDO�3RLQWHU FP 52�� )�� 'DLO\�3RLQWHU FP 528004 1F44 (YHQW�&RXQWHU FP 528006 1F46 5HDO�'DWH FP 528008 1F48 5HDO�7LPH FP 528010 1F4A )ORZ�5XQ�$ODUPV FP 52�� 1F4C )ORZ�5XQ�$ODUP�/RZ FP 528014 �)�( )ORZ�5XQ�$ODUP�+LJK FP 528016 1F50 'LDJQRVWLF�� FP 528018 �)�� 'LDJQRVWLF�� FP 52�� 1F54 'LDJQRVWLF�� FP 52�� 1F56 'LDJQRVWLF�� FP 52�� 1F58 3ROOLQJ�,QGH[ FP 52�� 1F5A )5��*UDQG�7RWDO FP 52�� 1F5C )5��,QVWDQWDQHRXV�)ORZ�5DWH FP 52�� )�( )5��'DLO\�7RWDO FP 52�� 1F60 )5��,QWHUYDO�7RWDO FP 52�� )�� )5��3ROOLQJ�7RWDO FP 52�� 1F64 )5��3UHYLRXV�'D\�7RWDO FP 52�� 1F66 )5��3UHYLRXV�,QWHUYDO FP 528040 1F68 )5��3UHYLRXV�3ROOLQJ�7RWDO FP 52�� 1F6A )5��*UDQG�0DVV�7RWDO FP 528044 1F6C )5��,QVWDQWDQHRXV�0DVV�)ORZ�5DWH FP 528046 �)�( )5��'DLO\�0DVV�7RWDO FP 528048 �)�� )5��,QWHUYDO�0DVV�7RWDO FP 52

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8050 �)�� )5��3ROOLQJ�0DVV�7RWDO FP 52�� )�� )5��3UHYLRXV�'D\�0DVV FP 528054 �)�� )5��3UHYLRXV�,QWHUYDO�0DVV FP 528056 �)�� )5��3UHYLRXV�3ROOLQJ�0DVV FP 528058 �)�$ )5��*UDQG�(QHUJ\�7RWDO FP 528060 �)�& )5��,QVWDQWDQHRXV�(QHUJ\�)ORZ�5DWH FP 52�� )�( )5��'DLO\�(QHUJ\�7RWDO FP 528064 1F80 )5��,QWHUYDO�(QHUJ\�7RWDO FP 528066 �)�� )5��3ROOLQJ�(QHUJ\�7RWDO FP 528068 1F84 )5��3UHYLRXV�'D\�(QHUJ\ FP 52�� 1F86 )5��3UHYLRXV�,QWHUYDO�(QHUJ\ FP 52�� 1F88 )5��3UHYLRXV�3ROOLQJ�(QHUJ\ FP 52�� 1F8A )5��'DLO\�(VWLPDWHG�7RWDO FP 52�� 1F8C )5��0RQWKO\�7RWDO FP 52�� )�( )5��3UHYLRXV�0RQWK�7RWDO FP 528080 �)�� )5��'DLO\�5XQ�7LPH FP 52�� )�� )5��,QWHUYDO�5XQ�7LPH FP 528084 �)�� )5��3ROOLQJ�5XQ�7LPH FP 528086 �)�� )5��3UHYLRXV�'DLO\�5XQ�7LPH FP 528088 �)�� )5��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� )�$ )5��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� )�& )5��6WDWLF�3UHVVXUH FP 52�� )�( )5��'LIIHUHQWLDO�3UHVVXUH FP 52�� 1FA0 )5��3URFHVV�7HPSHUDWXUH FP 52�� )$� )5��8Q&RUUHFWHG�9ROXPH FP 528100 1FA4 )5��6TUW'3 FP 52

�� 1FA6 )5��&RPSUHVVLELOLW\��1DWXUDO�*DV��)5��&RPSUHVVLRQ�)DFWRU��/LTXLGV� FP 52

8104 1FA8 )5��'HQVLW\ FP 528106 1FAA )5��%DVH�&RPSUHVVLELOLW\ FP 528108 1FAC )5��%DVH�'HQVLW\ FP 528110 �)$( )5��$YHUDJH�0ROHFXODU�:HLJKW FP 52�� )%� )5��0RODU�)UDFWLRQ�6XP FP 528114 �)%� )5��0DVV�+HDWLQJ�9DOXH FP 528116 �)%� )5��+HDWLQJ�9DOXH�9ROXPH�%DVLV FP 528118 �)%� )5��6SHFL¿F�*UDYLW\ FP 52�� )%� )5��9LVFRVLW\ FP 52�� )%$ )5��,VHQWURSLF�([SRQHQW FP 52�� )%& )5��5H\QROGV�1XPEHU FP 52�� )%( )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� 1FC0 )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52

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�� )5��,QVWDQWDQHRXV�(QHUJ\�5DWH�>00%78@ FP 52

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�� %� 63�3UHYLRXV�'DLO\�$YHUDJH�>36,@ FP 52�� %� 63�3UHYLRXV�,QWHUYDO�$YHUDJH�>36,@ FP 52�� %$ 63�3UHYLRXV�3ROOLQJ�$YHUDJH�>36,@ FP 52�� %& '3�,QVWDQWDQHRXV�5HDGLQJ FP 52�� %( '3�5DWH�2I�&KDQJH FP 52�� &� '3�'DLO\�$YHUDJH FP 52�� &� '3�,QWHUYDO�$YHUDJH FP 52�� &� '3�3ROOLQJ�$YHUDJH FP 52�� &� '3�3UHYLRXV�'DLO\�$YHUDJH FP 52�� &� '3�3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� &$ '3�3UHYLRXV�3ROOLQJ�$YHUDJH FP 52�� && '3�'DLO\�5XQ�7LPH FP 52�� &( '3�,QWHUYDO�5XQ�7LPH FP 528400 ��'� '3�3ROOLQJ�5XQ�7LPH FP 52�� '� '3�3UHYLRXV�'DLO\�5XQ�7LPH FP 528404 ��'� '3�3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 528406 ��'� '3�3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 528408 ��'� '3�,QVWDQWDQHRXV�5HDGLQJ�>,1+�2@ FP 528410 ��'$ '3�5DWH�RI�&KDQJH�>,1+�2@ FP 52�� '& '3�'DLO\�$YHUDJH�>,1+�2@ FP 528414 ��'( '3�,QWHUYDO�$YHUDJH�>,1+�2@ FP 528416 ��(� '3�3ROOLQJ�$YHUDJH�>,1+�2@ FP 528418 ��(� '3�3UHYLRXV�'DLO\�$YHUDJH�>,1+�2@ FP 52�� (� '3�3UHYLRXV�,QWHUYDO�$YHUDJH�>,1+�2@ FP 52�� (� '3�3UHYLRXV�3ROOLQJ�$YHUDJH�>,1+�2@ FP 52�� (� 37�,QVWDQWDQHRXV�5HDGLQJ FP 52�� ($ 37�5DWH�2I�&KDQJH FP 52�� (& 37�'DLO\�$YHUDJH FP 52�� (( 37�,QWHUYDO�$YHUDJH FP 52�� )� 37�3ROOLQJ�$YHUDJH FP 52�� )� 37�3UHYLRXV�'DLO\�$YHUDJH FP 52�� )� 37�3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� )� 37�3UHYLRXV�3ROOLQJ�$YHUDJH FP 528440 ��)� 37�'DLO\�5XQ�7LPH FP 52�� )$ 37�,QWHUYDO�5XQ�7LPH FP 528444 ��)& 37�3ROOLQJ�5XQ�7LPH FP 528446 ��)( 37�3UHYLRXV�'DLO\�5XQ�7LPH FP 528448 �� 37�3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 528450 �� 37�3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� 37�,QVWDQWDQHRXV�5HDGLQJ�>'(*)@ FP 528454 �� 37�5DWH�RI�&KDQJH�>'(*)@ FP 52

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8456 �� 37�'DLO\�$YHUDJH�>'(*)@ FP 528458 ��$ 37�,QWHUYDO�$YHUDJH�>'(*)@ FP 528460 ��& 37�3ROOLQJ�$YHUDJH�>'(*)@ FP 52�� ( 37�3UHYLRXV�'DLO\�$YHUDJH�>'(*)@ FP 528464 �� 37�3UHYLRXV�,QWHUYDO�$YHUDJH�>'(*)@ FP 528466 �� 37�3UHYLRXV�3ROOLQJ�$YHUDJH�>'(*)@ FP 528468 �� $��,QVWDQWDQHRXV�5HDGLQJ FP 52�� $��5DWH�2I�&KDQJH FP 52�� $��'DLO\�$YHUDJH FP 52�� $ $��,QWHUYDO�$YHUDJH FP 52�� & $��3ROOLQJ�$YHUDJH FP 52�� ( $��3UHYLRXV�'DLO\�$YHUDJH FP 528480 �� $��3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� $��3UHYLRXV�3ROOLQJ�$YHUDJH FP 528484 �� $��'DLO\�5XQ�7LPH FP 528486 �� $��,QWHUYDO�5XQ�7LPH FP 528488 �� $��3ROOLQJ�5XQ�7LPH FP 52�� $ $��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� & $��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� ( $��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� $��,QVWDQWDQHRXV�5HDGLQJ�>92/7@ FP 52�� $��5DWH�RI�&KDQJH�>92/7@ FP 528500 �� $��'DLO\�$YHUDJH�>92/7@ FP 52�� $��,QWHUYDO�$YHUDJH�>92/7@ FP 528504 �� $��3ROOLQJ�$YHUDJH�>92/7@ FP 528506 ��$ $��3UHYLRXV�'DLO\�$YHUDJH�>92/7@ FP 528508 ��& $��3UHYLRXV�,QWHUYDO�$YHUDJH�>92/7@ FP 528510 ��( $��3UHYLRXV�3ROOLQJ�$YHUDJH�>92/7@ FP 52�� $��,QVWDQWDQHRXV�5HDGLQJ FP 528514 �� $��5DWH�2I�&KDQJH FP 528516 �� $��'DLO\�$YHUDJH FP 528518 �� $��,QWHUYDO�$YHUDJH FP 52�� $��3ROOLQJ�$YHUDJH FP 52�� $ $��3UHYLRXV�'DLO\�$YHUDJH FP 52�� & $��3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� ( $��3UHYLRXV�3ROOLQJ�$YHUDJH FP 52�� $��'DLO\�5XQ�7LPH FP 52�� $��,QWHUYDO�5XQ�7LPH FP 52�� $��3ROOLQJ�5XQ�7LPH FP 52�� $��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� $��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52

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�� $ $��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 528540 ��& $��,QVWDQWDQHRXV�5HDGLQJ�>92/7@ FP 52�� ( $��5DWH�RI�&KDQJH�>92/7@ FP 528544 �� $��'DLO\�$YHUDJH�>92/7@ FP 528546 �� $��,QWHUYDO�$YHUDJH�>92/7@ FP 528548 �� $��3ROOLQJ�$YHUDJH�>92/7@ FP 528550 �� $��3UHYLRXV�'DLO\�$YHUDJH�>92/7@ FP 52�� $��3UHYLRXV�,QWHUYDO�$YHUDJH�>92/7@ FP 528554 ��$ $��3UHYLRXV�3ROOLQJ�$YHUDJH�>92/7@ FP 528556 ��& ,QWHUQDO�7HPSHUDWXUH FP 528558 ��( 6XSSO\�9ROWDJH FP 528560 �� %DWWHU\�9ROWDJH FP 52

�� /LYH�)5��,QVWDQWDQHRXV�)ORZ�5DWH�>%$6(@

FP 52

8564 5HVHUYHG8566 �� /LYH�7��,QVWDQWDQHRXV�)ORZ�5DWH�>*$/@ FP 528568 �� /LYH�7��,QVWDQWDQHRXV�)ORZ�5DWH�>*$/@ FP 52�� $ /LYH�7XUELQH�)UHTXHQF\�'LIIHUHQWLDO FP 52�� & /LYH�7XUELQH�)UHTXHQF\�5DWLR FP 52�� ( /LYH�6WDWLF�3UHVVXUH FP 52�� /LYH�'LIIHUHQWLDO�3UHVVXUH FP 52�� /LYH�097�7HPSHUDWXUH FP 528580 �� /LYH�%ULGJH�9ROWDJH FP 52�� /LYH�$QDORJ�� FP 528584 �� /LYH�$QDORJ�� FP 528586 ��$ /LYH�3URGXFWLRQ�7HPSHUDWXUH FP 528588 ��& /LYH�57'�5HVLVWDQFH FP 52�� ( 32��3XOVHV FP 52��WR��

5HVHUYHG

�� $2��2XWSXW�&XUUHQW FP 52�� 3,��6WDWH FP 528600 �� 3,��&RXQW FP 52��WR�8605 5HVHUYHG8606 ��( 'DLO\�$UFKLYH�'DWH FP 528608 ��$� ,QWHUYDO�$UFKLYH�'DWH FP 528610 ��$� 'DLO\�$UFKLYH�7LPH FP 52�� $� ,QWHUYDO�$UFKLYH�7LPH FP 52

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Flow Calculation Parameter Registers (1-16)7KH�)ORZ�&DOFXODWLRQ�3DUDPHWHU�5HJLVWHUV�GH¿QLWLRQ�LV�GHSHQGHQW�XSRQ�WKH�ÀRZ�UDWH�FDOFXODWLRQ�PHWKRG�that is implemented. The following table describes the function of each of these registers for each of the supported calculation methods.

Reg.Num AGA-3 ISO-5167

&RQH�±6SRROCone -Wafer AGA-7

1 3LSH�6L]H��&RUUHFWHG� 3LSH�6L]H��&RUUHFWHG� 3LSH�6L]H��&RUUHFWHG� 3LSH�6L]H��&RUUHFWHG�� 3ODWH�6L]H��&RUUHFWHG� 3ODWH�6L]H��&RUUHFWHG� 3ODWH�6L]H��&RUUHFWHG� 7HPSHUDWXUH�5DWLR� %HWD��&RUUHFWHG� %HWD��&RUUHFWHG� %HWD��&RUUHFWHG� 3UHVVXUH�5DWLR

4 3ODWH�6L]H��FRQ¿JXUHG�

3ODWH�6L]H��FRQ¿JXUHG�

3ODWH�6L]H��FRQ¿JXUHG� 6XSHUFRPSUHVVLELOW\

5 6WDELOLW\�,QGH[ 6WDELOLW\�,QGH[ 6WDELOLW\�,QGH[ �5HVHUYHG!6 < < < �5HVHUYHG!� Cd Cd Cd �5HVHUYHG!8 (Y (Y (Y �5HVHUYHG!� �5HVHUYHG! �5HVHUYHG! �5HVHUYHG! �5HVHUYHG!

10 )ORZLQJ�'HQVLW\� �NJ�P��

)ORZLQJ�'HQVLW\� �NJ�P��



11 4XDOLW\��9DSRU�/LTXLG�)UDFWLRQ�

4XDOLW\��9DSRU�/LTXLG�)UDFWLRQ�

4XDOLW\��9DSRU�/LTXLG�)UDFWLRQ� �5HVHUYHG!

�� /LTXLG�+HDWLQJ�9DOXH /LTXLG�+HDWLQJ�9DOXH /LTXLG�+HDWLQJ�9DOXH �5HVHUYHG!

�� /LTXLG�)ORZLQJ�'HQVLW\

/LTXLG�)ORZLQJ�'HQVLW\

/LTXLG�)ORZLQJ�'HQVLW\ �5HVHUYHG!

14 (VWLPDWHG�/LTXLG�0DVV�)ORZ�5DWH

(VWLPDWHG�/LTXLG�0DVV�)ORZ�5DWH

(VWLPDWHG�/LTXLG�0DVV�)ORZ�5DWH �5HVHUYHG!

15 $SSDUHQW�0DVV�)ORZ�5DWH

$SSDUHQW�0DVV�)ORZ�5DWH



16 /RFNKDUW�0DUWLQHOOL /RFNKDUW�0DUWLQHOOL /RFNKDUW�0DUWLQHOOL �5HVHUYHG!

%DVH�8QLWV�&RQ¿JXUHG�8QLWVThe holding registers allow users to read data in terms of FRQ¿JXUHG units of measurement and EDVH units. The FRQ¿JXUHG�XQLWV�IROORZ�WKH�VHWWLQJV�EDVHG�RQ�WKH�8QLW�VHWWLQJ�UHJLVWHU�DQG�WKH�XQLW�VFDOH�DQG�RIIVHW�UHJLVWHUV��The base units will always have the same unit of measurement independent of the unit, scale and offset VHWWLQJV��$OVR�QRWH�WKDW�WKH�ORJ�GDWD�LV�DOZD\V�LQ�WHUPV�RI�EDVH�XQLWV��,W�LV�UHFRPPHQGHG�WR�FRQ¿JXUH�WKH�XQLWV�of measurement using the software.

Polling Registers7KH�6FDQQHU��VWRUHV�YROXPHV��DYHUDJHG�YDOXHV��DQG�ÀRZ�WLPHV�VLQFH�WKH�ODVW�SROOLQJ�VHTXHQFH�LQ�D�VHW�RI�polling registers. Additionally, the instrument stores the number of polls requested in the polling index.

The polling sequence is started by writing a value of 20,000 to the Control Register. This transfers the polling totals, averages, and run times to the previous polling registers, increments the polling index and resets the polling totals, averages and run-time registers. Note that the polling registers are displayed in base units and FRQ¿JXUHG�XQLWV��

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Interval/Daily/Event Pointer RegistersThese registers provide an index of the last record that was stored in the log data. These values start at 1 and increment with each newly created log. When the maximum number of records is reached, the pointer resets to 1 and starts incrementing again.

Holding Registers (32-bit) Register(Decimal)

Register(Hex) Description

DataType Access

�� %�� ,QWHUYDO�3RLQWHU FP 52�� %�� 'DLO\�3RLQWHU FP 52�� %�$ (YHQW�&RXQWHU FP 52�� %�% 5HDO�'DWH FP 52�� %�& 5HDO�7LPH FP 52�� %�' )ORZ�5XQ�$ODUPV FP 52�� %�( )ORZ�5XQ�$ODUP�/RZ FP 52�� %�) )ORZ�5XQ�$ODUP�+LJK FP 52�� %�� 'LDJQRVWLF�� FP 52�� %�� 'LDJQRVWLF�� FP 52�� %�� 'LDJQRVWLF�� FP 52�� %�� 'LDJQRVWLF�� FP 52�� %�� 3ROOLQJ�,QGH[ FP 52�� %�� )5��*UDQG�9ROXPH�7RWDO FP 52�� %�� )5��,QVWDQWDQHRXV�)ORZ�5DWH FP 52�� %�� )5��'DLO\�7RWDO FP 52�� %�� )5��,QWHUYDO�7RWDO FP 52�� %�� )5��3ROOLQJ�7RWDO FP 52�� %�$ )5��3UHYLRXV�'D\�7RWDO FP 52�� %�% )5��3UHYLRXV�,QWHUYDO FP 52�� %�& )5��3UHYLRXV�3ROOLQJ�7RWDO FP 52�� %�' )5��*UDQG�0DVV�7RWDO FP 52�� %�( )5��,QVWDQWDQRXV�0DVV�)ORZ�5DWH FP 52�� %�) )5��'DLO\�0DVV�7RWDO FP 52�� %�� )5��,QWHUYDO�0DVV�7RWDO FP 52�� %�� )5��3ROOLQJ�0DVV�7RWDO FP 52�� %�� )5��3UHYLRXV�'D\�0DVV FP 52�� %�� )5��3UHYLRXV�,QWHUYDO�0DVV FP 52�� %�� )5��3UHYLRXV�3ROOLQJ�0DVV FP 52�� %�� )5��*UDQG�(QHUJ\�7RWDO FP 52�� %�� )5��,QVWDQWDQHRXV�(QHUJ\�)ORZ�5DWH FP 52�� %�� )5��'DLO\�(QHUJ\�7RWDO FP 52�� %�� )5��,QWHUYDO�(QHUJ\�7RWDO FP 52�� %�� )5��3ROOLQJ�(QHUJ\�7RWDO FP 52�� %�$ )5��3UHYLRXV�'D\�(QHUJ\ FP 52�� %�% )5��3UHYLRXV�,QWHUYDO�(QHUJ\ FP 52�� %�& )5��3UHYLRXV�3ROOLQJ�(QHUJ\ FP 52

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DataType Access

�� %�' )5��'DLO\�(VWLPDWHG�7RWDO FP 52�� %�( )5��0RQWKO\�7RWDO FP 52�� %�) )5��3UHYLRXV�0RQWK�7RWDO FP 52�� %�� )5��'DLO\�5XQ�7LPH FP 52�� %�� )5��,QWHUYDO�5XQ�7LPH FP 52�� %�� )5��3ROOLQJ�5XQ�7LPH FP 52�� %�� )5��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� %�� )5��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� %�� )5��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� %�� )5��6WDWLF�3UHVVXUH FP 52�� %�� )5��'LIIHUHQWLDO�3UHVVXUH FP 52�� %�� )5��3URFHVV�7HPSHUDWXUH FP 52�� %�� )5��8QFRUUHFWHG�9ROXPH FP 52�� %�$ )5��6TUW'3 FP 52�� %�% )5��&RPSUHVVLELOLW\ FP 52�� %�& )5��'HQVLW\ FP 52�� %�' )5��%DVH�&RPSUHVVLELOLW\ FP 52�� %�( )5��%DVH�'HQVLW\ FP 52�� %�) )5��$YHUDJH�0ROHFXODU�:HLJKW FP 52�� %�� )5��0RODU�)UDFWLRQ�6XP FP 52�� %�� )5��0DVV�+HDWLQJ�9DOXH FP 52�� %�� )5��+HDWLQJ�9DOXH�9ROXPH�%DVLV FP 52�� %�� )5��6SHFL¿F�*UDYLW\ FP 52�� %�� )5��9LVFRVLW\ FP 52�� %�� )5��,VHQWURSLF�([SRQHQW FP 52�� %�� )5��5H\QROGV�1XPEHU FP 52�� %�� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�$ )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�% )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�& )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�' )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�( )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %�) )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52

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DataType Access

�� %$� )5��&DOFXODWLRQ�3DUDPHWHU�� FP 52�� %$� )5��*UDQG�7RWDO�>0&)@ FP 52�� %$� )5��,QVWDQWDQHRXV�)ORZ�5DWH�>0&)@ FP 52�� %$� )5��'DLO\�7RWDO�>0&)@ FP 52�� %$$ )5��,QWHUYDO�7RWDO�>0&)@ FP 52�� %$% )5��3ROOLQJ�7RWDO�>0&)@ FP 52�� %$& )5��3UHYLRXV�'D\�>0&)@ FP 52�� %$' )5��3UHYLRXV�,QWHUYDO�>0&)@ FP 52�� %$( )5��3UHYLRXV�3ROOLQJ�7RWDO�>0&)@ FP 52�� %$) )5��*UDQG�0DVV�7RWDO�>/%0@ FP 52�� %%� )5��,QVWDQWDQHRXV�0DVV�5DWH�>/%0@ FP 52�� %%� )5��'DLO\�0DVV�7RWDO�>/%0@ FP 52�� %%� )5��,QWHUYDO�0DVV�7RWDO�>/%0@ FP 52�� %%� )5��3ROOLQJ�0DVV�7RWDO�>/%0@ FP 52�� %%� )5��3UHYLRXV�'D\�0DVV�>/%0@ FP 52�� %%� )5��3UHYLRXV�,QWHUYDO�0DVV�>/%0@ FP 52�� %%� )5��3UHYLRXV�3ROOLQJ�0DVV�>/%0@ FP 52�� %%� )5��*UDQG�(QHUJ\�7RWDO�>00%78@ FP 52�� %%� )5��,QVWDQWHRXV�(QHUJ\�5DWH�>00%78@ FP 52�� %%� )5��'DLO\�(QHUJ\�7RWDO�>00%78@ FP 52�� %%$ )5��,QWHUYDO�(QHUJ\�7RWDO�>00%78@ FP 52�� %%% )5��3ROOLQJ�(QHUJ\�7RWDO�>00%78@ FP 52�� %%& )5��3UHYLRXV�'D\�(QHUJ\�>00%78@ FP 52�� %%' )5��3UHYLRXV�,QWHUYDO�(QHUJ\�>00%78@ FP 52�� %%( )5��3UHYLRXV�3ROOLQJ�(QHUJ\�>00%78@ FP 52�� %%) )5��'DLO\�(VWLPDWHG�7RWDO�>0&)@ FP 52�� %&� )5��0RQWKO\�7RWDO�>0&)@ FP 52�� %&� )5��3UHYLRXV�0RQWK�7RWDO�>0&)@ FP 52�� %&� )5��0DVV�+HDWLQJ�9DOXH�>%$6(@ FP 52�� %&� )5��9ROXPHWULF�+HDWLQJ�9DOXH�>%$6(@ FP 52�� %&� 7��*UDQG�7RWDO FP 52�� %&� 7��,QVWDQWDQHRXV�)ORZ�5DWH FP 52�� %&� 7��'DLO\�7RWDO FP 52�� %&� 7��,QWHUYDO�7RWDO FP 52�� %&� 7��3ROOLQJ�7RWDO FP 52�� %&� 7��3UHYLRXV�'D\ FP 52�� %&$ 7��3UHYLRXV�,QWHUYDO FP 52�� %&% 7��3UHYLRXV�3ROOLQJ�7RWDO FP 52�� %&& 7��'DLO\�(VWLPDWHG�7RWDO FP 52�� %&' 7��0RQWKO\�7RWDO FP 52�� %&( 7��3UHYLRXV�0RQWK�7RWDO FP 52

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DataType Access

�� %&) 7��'DLO\�5XQ�7LPH FP 52�� %'� 7��,QWHUYDO�5XQ�7LPH FP 52�� %'� 7��3ROOLQJ�5XQ�7LPH FP 52�� %'� 7��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� %'� 7��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� %'� 7��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� %'� 7��*UDQG�7RWDO�>*$/@ FP 52�� %'� 7��,QVWDQWDQHRXV�)ORZ�5DWH�>*$/@ FP 52�� %'� 7��'DLO\�7RWDO�>*$/@ FP 52�� %'� 7��,QWHUYDO�7RWDO�>*$/@ FP 52�� %'� 7��3ROOLQJ�7RWDO�>*$/@ FP 52�� %'$ 7��3UHYLRXV�'D\�>*$/@ FP 52�� %'% 7��3UHYLRXV�,QWHUYDO�>*$/@ FP 52�� %'& 7��3UHYLRXV�3ROOLQJ�7RWDO�>*$/@ FP 52�� %'' 7��'DLO\�(VWLPDWHG�7RWDO�>*$/@ FP 52�� %'( 7��0RQWKO\�7RWDO�>*$/@ FP 52�� %') 7��3UHYLRXV�0RQWK�7RWDO�>*$/@ FP 52�� %(� 7��)UHTXHQF\ FP 52�� %(� 7��$FWLYH�.�)DFWRU FP 52�� %(� 7��*UDQG�7RWDO FP 52�� %(� 7��,QVWDQWDQHRXV�)ORZ�5DWH FP 52�� %(� 7��'DLO\�7RWDO FP 52�� %(� 7��,QWHUYDO�7RWDO FP 52�� %(� 7��3ROOLQJ�7RWDO FP 52�� %(� 7��3UHYLRXV�'D\ FP 52�� %(� 7��3UHYLRXV�,QWHUYDO FP 52�� %(� 7��3UHYLRXV�3ROOLQJ�7RWDO FP 52�� %($ 7��'DLO\�(VWLPDWHG�7RWDO FP 52�� %(% 7��0RQWKO\�7RWDO FP 52�� %(& 7��3UHYLRXV�0RQWK�7RWDO FP 52�� %(' 7��'DLO\�5XQ�7LPH FP 52�� %(( 7��,QWHUYDO�5XQ�7LPH FP 52�� %() 7��3ROOLQJ�5XQ�7LPH FP 52�� %)� 7��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� %)� 7��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� %)� 7��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� %)� 7��*UDQG�7RWDO�>*$/@ FP 52�� %)� 7��,QVWDQWDQHRXV�)ORZ�5DWH�>*$/@ FP 52�� %)� 7��'DLO\�7RWDO�>*$/@ FP 52�� %)� 7��,QWHUYDO�7RWDO�>*$/@ FP 52�� %)� 7��3ROOLQJ�7RWDO�>*$/@ FP 52

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DataType Access

�� %)� 7��3UHYLRXV�'D\�7RWDO�>*$/@ FP 52�� %)� 7��3UHYLRXV�,QWHUYDO�>*$/@ FP 52�� %)$ 7��3UHYLRXV�3ROOLQJ�7RWDO�>*$/@ FP 52�� %)% 7��'DLO\�(VWLPDWHG�7RWDO�>*$/@ FP 52�� %)& 7��0RQWKO\�7RWDO�>*$/@ FP 52�� %)' 7��3UHYLRXV�0RQWK�7RWDO�>*$/@ FP 52�� %)( 7��)UHTXHQF\ FP 52�� %)) 7��$FWLYH�.�)DFWRU FP 52�� 1C00 63�,QVWDQWDQHRXV�5HDGLQJ FP 52�� 1C01 63�5DWH�2I�&KDQJH FP 52�� &�� 63�'DLO\�$YHUDJH FP 52�� &�� 63�,QWHUYDO�$YHUDJH FP 52�� 1C04 63�3ROOLQJ�$YHUDJH FP 52�� 1C05 63�3UHYLRXV�'DLO\�$YHUDJH FP 52�� 1C06 63�3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� &�� 63�3UHYLRXV�3ROOLQJ�$YHUDJH FP 52�� 1C08 63�'DLO\�5XQ�7LPH FP 52�� &�� 63�,QWHUYDO�5XQ�7LPH FP 52�� 1C0A 63�3ROOLQJ�5XQ�7LPH FP 52�� &�% 63�3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� 1C0C 63�3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� &�' 63�3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� &�( 63�,QVWDQWDQHRXV�5HDGLQJ�>36,@ FP 52�� 1C0F 63�5DWH�RI�&KDQJH�>36,@ FP 52�� 1C10 63�'DLO\�$YHUDJH�>36,@ FP 52�� 1C11 63�,QWHUYDO�$YHUDJH�>36,@ FP 52�� &�� 63�3ROOLQJ�$YHUDJH�>36,@ FP 52�� &�� 63�3UHYLRXV�'DLO\�$YHUDJH�>36,@ FP 52�� 1C14 63�3UHYLRXV�,QWHUYDO�$YHUDJH�>36,@ FP 52�� 1C15 63�3UHYLRXV�3ROOLQJ�$YHUDJH�>36,@ FP 52�� 1C16 '3�,QVWDQWDQHRXV�5HDGLQJ FP 52�� &�� '3�5DWH�2I�&KDQJH FP 52�� 1C18 '3�'DLO\�$YHUDJH FP 52�� &�� '3�,QWHUYDO�$YHUDJH FP 52�� 1C1A '3�3ROOLQJ�$YHUDJH FP 52�� &�% '3�3UHYLRXV�'DLO\�$YHUDJH FP 52�� 1C1C '3�3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� &�' '3�3UHYLRXV�3ROOLQJ�$YHUDJH FP 52�� &�( '3�'DLO\�5XQ�7LPH FP 52�� 1C1F '3�,QWHUYDO�5XQ�7LPH FP 52�� &�� '3�3ROOLQJ�5XQ�7LPH FP 52

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DataType Access

�� &�� '3�3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� &�� '3�3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� &�� '3�3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� &�� '3�,QVWDQWDQHRXV�5HDGLQJ�>,1+�2@ FP 52�� &�� '3�5DWH�RI�&KDQJH�>,1+�2@ FP 52�� &�� '3�'DLO\�$YHUDJH�>,1+�2@ FP 52�� &�� '3�,QWHUYDO�$YHUDJH�>,1+�2@ FP 52�� &�� '3�3ROOLQJ�$YHUDJH�>,1+�2@ FP 52�� &�� '3�3UHYLRXV�'DLO\�$YHUDJH�>,1+�2@ FP 52�� &�$ '3�3UHYLRXV�,QWHUYDO�$YHUDJH�>,1+�2@ FP 52�� &�% '3�3UHYLRXV�3ROOLQJ�$YHUDJH�>,1+�2@ FP 52�� &�& 37�,QVWDQWDQHRXV�5HDGLQJ FP 52�� &�' 37�5DWH�2I�&KDQJH FP 52�� &�( 37�'DLO\�$YHUDJH FP 52�� &�) 37�,QWHUYDO�$YHUDJH FP 52�� &�� 37�3ROOLQJ�$YHUDJH FP 52�� &�� 37�3UHYLRXV�'DLO\�$YHUDJH FP 52�� &�� 37�3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� &�� 37�3UHYLRXV�3ROOLQJ�$YHUDJH FP 52�� &�� 37�'DLO\�5XQ�7LPH FP 52�� &�� 37�,QWHUYDO�5XQ�7LPH FP 52�� &�� 37�3ROOLQJ�5XQ�7LPH FP 52�� &�� 37�3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� &�� 37�3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� &�� 37�3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� &�$ 37�,QVWDQWDQHRXV�5HDGLQJ�>'(*)@ FP 52�� &�% 37�5DWH�RI�&KDQJH�>'(*)@ FP 52�� &�& 37�'DLO\�$YHUDJH�>'(*)@ FP 52�� &�' 37�,QWHUYDO�$YHUDJH�>'(*)@ FP 52�� &�( 37�3ROOLQJ�$YHUDJH�>'(*)@ FP 52�� &�) 37�3UHYLRXV�'DLO\�$YHUDJH�>'(*)@ FP 52�� 1C40 37�3UHYLRXV�,QWHUYDO�$YHUDJH�>'(*)@ FP 52�� 1C41 37�3UHYLRXV�3ROOLQJ�$YHUDJH�>'(*)@ FP 52�� &�� $��,QVWDQWDQHRXV�5HDGLQJ FP 52�� &�� $��5DWH�2I�&KDQJH FP 52�� 1C44 $��'DLO\�$YHUDJH FP 52�� 1C45 $��,QWHUYDO�$YHUDJH FP 52�� 1C46 $��3ROOLQJ�$YHUDJH FP 52�� &�� $��3UHYLRXV�'DLO\�$YHUDJH FP 52�� 1C48 $��3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� &�� $��3UHYLRXV�3ROOLQJ�$YHUDJH FP 52

C-40




DataType Access

�� 1C4A $��'DLO\�5XQ�7LPH FP 52�� &�% $��,QWHUYDO�5XQ�7LPH FP 52�� 1C4C $��3ROOLQJ�5XQ�7LPH FP 52�� &�' $��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� &�( $��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� 1C4F $��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� 1C50 $��,QVWDQWDQHRXV�5HDGLQJ�>92/7@ FP 52�� 1C51 $��5DWH�RI�&KDQJH�>92/7@ FP 52�� &�� $��'DLO\�$YHUDJH�>92/7@ FP 52�� &�� $��,QWHUYDO�$YHUDJH�>92/7@ FP 52�� 1C54 $��3ROOLQJ�$YHUDJH�>92/7@ FP 52�� 1C55 $��3UHYLRXV�'DLO\�$YHUDJH�>92/7@ FP 52�� 1C56 $��3UHYLRXV�,QWHUYDO�$YHUDJH�>92/7@ FP 52�� &�� $��3UHYLRXV�3ROOLQJ�$YHUDJH�>92/7@ FP 52�� 1C58 $��,QVWDQWDQHRXV�5HDGLQJ FP 52�� &�� $��5DWH�2I�&KDQJH FP 52�� 1C5A $��'DLO\�$YHUDJH FP 52�� &�% $��,QWHUYDO�$YHUDJH FP 52�� 1C5C $��3ROOLQJ�$YHUDJH FP 52�� &�' $��3UHYLRXV�'DLO\�$YHUDJH FP 52�� &�( $��3UHYLRXV�,QWHUYDO�$YHUDJH FP 52�� 1C5F $��3UHYLRXV�3ROOLQJ�$YHUDJH FP 52�� 1C60 $��'DLO\�5XQ�7LPH FP 52�� 1C61 $��,QWHUYDO�5XQ�7LPH FP 52�� &�� $��3ROOLQJ�5XQ�7LPH FP 52�� &�� $��3UHYLRXV�'DLO\�5XQ�7LPH FP 52�� 1C64 $��3UHYLRXV�,QWHUYDO�5XQ�7LPH FP 52�� 1C65 $��3UHYLRXV�3ROOLQJ�5XQ�7LPH FP 52�� 1C66 $��,QVWDQWDQHRXV�5HDGLQJ�>92/7@ FP 52�� &�� $��5DWH�RI�&KDQJH�>92/7@ FP 52�� 1C68 $��'DLO\�$YHUDJH�>92/7@ FP 52�� &�� $��,QWHUYDO�$YHUDJH�>92/7@ FP 52�� 1C6A $��3ROOLQJ�$YHUDJH�>92/7@ FP 52�� &�% $��3UHYLRXV�'DLO\�$YHUDJH�>92/7@ FP 52�� 1C6C $��3UHYLRXV�,QWHUYDO�$YHUDJH�>92/7@ FP 52�� &�' $��3UHYLRXV�3ROOLQJ�$YHUDJH�>92/7@ FP 52�� &�( ,QWHUQDO�7HPSHUDWXUH FP 52�� 1C6F 6XSSO\�9ROWDJH FP 52�� &�� %DWWHU\�9ROWDJH FP 52�� &�� /LYH�)5��,QVWDQWDQHRXV�)ORZ�5DWH�>%$6(@ FP 52�� 5HVHUYHG

C-41




DataType Access

�� &�� /LYH�7��,QVWDQWDQHRXV�)ORZ�5DWH�>*$/@ FP 52�� &�� /LYH�7��,QVWDQWDQHRXV�)ORZ�5DWH�>*$/@ FP 52�� &�� /LYH�7XUELQH�)UHTXHQF\�'LIIHUHQWLDO FP 52�� &�� /LYH�7XUELQH�)UHTXHQF\�5DWLR FP 52�� &�� /LYH�6WDWLF�3UHVVXUH FP 52�� &�� /LYH�'LIIHUHQWLDO�3UHVVXUH FP 52�� &�� /LYH�097�7HPSHUDWXUH FP 52�� &�$ /LYH�%ULGJH�9ROWDJH FP 52�� &�% /LYH�$QDORJ�� FP 52�� &�& /LYH�$QDORJ�� FP 52�� &�' /LYH�3URGXFWLRQ�7HPSHUDWXUH FP 52�� &�( /LYH�57'�5HVLVWDQFH FP 52�� &�) 32��3XOVHV FP 52

��DQG�� 5HVHUYHG�� &�� $2��2XWSXW�&XUUHQW FP 52�� &�� 3,��6WDWH FP 52�� 1C84 3,��&RXQW FP 52

��DQG�� 5HVHUYHG�� &�� 'DLO\�$UFKLYH�'DWH FP 52�� 1C88 ,QWHUYDO�$UFKLYH�'DWH FP 52�� &�� 'DLO\�$UFKLYH�7LPH FP 52�� 1C8A ,QWHUYDO�$UFKLYH�7LPH FP 52

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8VHU�'H¿QHG�0RGEXV�5HJLVWHUV�&RQ¿JXUDWLRQ7KH�6FDQQHU��SURYLGHV�D�EORFN�RI��ÀRDWLQJ�SRLQW�YDOXHV�WKDW�WKH�XVHU�FDQ�DVVLJQ�WR�DQ\�UHJLVWHU�LQ�WKH�holding register map. This optimizes communication by allowing the parameters that are of interest for a JLYHQ�DSSOLFDWLRQ�WR�EH�RUJDQL]HG�DQG�UHDG�LQ�D�VLQJOH�EORFN�UHDG��)RU�GHWDLOV�RQ�FRQ¿JXULQJ�8VHU�'H¿QHG�+ROGLQJ�5HJLVWHUV��VHH�6HFWLRQ��RI�WKH�0RG:RU;�3UR�6RIWZDUH�8VHU�0DQXDO��(DFK�RI�WKH�XVHU�GH¿QHG�KROGLQJ�UHJLVWHUV�LV�GHWHUPLQHG�E\�D�SRLQWHU�YDOXH�LQ�WKH�KROGLQJ�UHJLVWHU�PDS��,W�LV�HDVLHVW�WR�FRQ¿JXUH�the pointer values with the ModWorX Pro software; however the pointer value can be determined with the IROORZLQJ�FDOFXODWLRQ��+ROGLQJ�5HJLVWHU�1XPEHU�±��

8VHU�'H¿QHG�5HJLVWHU�3RLQWHUVRegister (Decimal)


Data Type Access

�� 8VHU�'H¿QHG�6WDUWLQJ�$GGUHVV �$OZD\V�� 8�� 52

�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� $ 5HJLVWHU�3RLQWHU�� 8�� 5�:�� % 5HJLVWHU�3RLQWHU�� 8�� 5�:�� & 5HJLVWHU�3RLQWHU�� 8�� 5�:�� ' 5HJLVWHU�3RLQWHU�� 8�� 5�:�� ( 5HJLVWHU�3RLQWHU�� 8�� 5�:�� ) 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� $ 5HJLVWHU�3RLQWHU�� 8�� 5�:�� % 5HJLVWHU�3RLQWHU�� 8�� 5�:�� & 5HJLVWHU�3RLQWHU�� 8�� 5�:�� ' 5HJLVWHU�3RLQWHU�� 8�� 5�:�� ( 5HJLVWHU�3RLQWHU�� 8�� 5�:�� ) 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:�� 5HJLVWHU�3RLQWHU�� 8�� 5�:

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8VHU�'H¿QHG�+ROGLQJ�5HJLVWHUVRegister (Decimal)


Data Type Access

�� & 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� ( 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $ 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� & 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� ( 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $$ 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $& 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� $( 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %� 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %$ 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52�� %& 8VHU�'H¿QHG�+ROGLQJ�5HJLVWHU�� FP 52

C-44


Device StatusThe device status includes alarm status and diagnostic information such as input status and calculation status. 7KH�6FDQQHU��SURYLGHV��XVHU�FRQ¿JXUDEOH�DODUPV�GHVLJQDWHG�DV�)ORZ�5XQ�$ODUPV��7KH�XVHU�FDQ�DVVLJQ�WKH�DODUPV�WR�DQ\�SDUDPHWHU�LQ�WKH�KROGLQJ�UHJLVWHU�PDS��$ODUPV�FDQ�EH�GH¿QHG�DV�ORZ�DODUPV�RU�KLJK�DODUPV��)RU�GHWDLOV�RQ�FRQ¿JXULQJ�)ORZ�5XQ�$ODUPV��VHH�6HFWLRQ��RI�WKH�0RG:RU;�3UR�6RIWZDUH�8VHU�0DQXDO��7KH�current status of the alarms can be obtained by reading the Flow Run Alarm registers in the device status map. A bit value of 1 indicates an alarm condition. Also contained in the device status map are diagnostic registers. The bits in these registers provide system status for inputs (under range, above range or failed), calculation VWDWXV��IRU�FRQ¿UPLQJ�ZKHWKHU�WKH�ÀRZ�UXQ�LV�ZRUNLQJ�SURSHUO\��DQG�GHWDLOV�UHJDUGLQJ�WKH�KHDOWK�RI�WKH�097��

Device Status RegistersRegister (Decimal)


Data Type Access

�� $& )ORZ�5XQ�$ODUPV�+LJK 8�� 5�:�� $( ,QSXW�6WDWXV 8�� 5�:�� %� &DOFXODWLRQ�6WDWXV 8�� 5�:

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BitFlow Run

Alarm HighFlow Run

Alarm Low Diagnostic 1 Diagnostic 2 Diagnostic 3 Diagnostic 4

15 )5$��+LJK )5$��/RZ )5��)DLO )5��+LJK 5HVHUYHG 5HVHUYHG

14 )5$��+LJK )5$��/RZ 7��)DLO 7��+LJK 5HVHUYHG 5HVHUYHG

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�� )5$��+LJK )5$��/RZ 63�)DLO 63�+LJK 7��&DOF�:DUQLQJ 5HVHUYHG

11 )5$��+LJK )5$��/RZ '3�)DLO '3�+LJK 5HVHUYHG 5HVHUYHG

10 )5$��+LJK )5$��/RZ 37�)DLO 37�+LJK 5HVHUYHG 5HVHUYHG

� )5$��+LJK )5$��/RZ $��)DLO $��+LJK 5HVHUYHG 5HVHUYHG

8 )5$��+LJK )5$��/RZ $��)DLO� $��+LJK )5��&DOF�:DUQLQJ 5HVHUYHG

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6 )5$��+LJK )5$��/RZ 7��2YHUULGH 7��/RZ NA 5HVHUYHG

5 )5$��+LJK )5$��/RZ 7��2YHUULGH 63�/RZ 097�0��)RUPXOD�)DLO 5HVHUYHG

4 )5$��+LJK )5$��/RZ 63�2YHUULGH 5HVHUYHG 097�0��)RUPXOD�)DLO 3RZHU�0RGH

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C-45


%LW�'H¿QLWLRQV²$ODUPV�DQG�'LDJQRVWLFV

BitFlow Run

Alarm HighFlow Run

Alarm Low Diagnostic 1 Diagnostic 2 Diagnostic 3 Diagnostic 4

� )5$��+LJK )5$��/RZ 37�2YHUULGH 37�/RZ097�8VHU�3DUDPHWHU�&5&�IDLO

5HVHUYHG

1 )5$��+LJK )5$��/RZ $��2YHUULGH $��/RZ097�)DFWRU\�3DUDPHWHU�&5&�IDLO

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0 )5$��+LJK )5$��/RZ $��2YHUULGH $��/RZ MVT Not 3UHVHQW ([W��6ZLWFK

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Status 5DQJH�&KHFN/RZ /RZHU�5DQJH�/LPLW��RI�VSDQ)DLO�/RZ /RZHU�5DQJH�/LPLW��RI�VSDQ+LJK 8SSHU�5DQJH�/LPLW��RI�VSDQ)DLO�+LJK 8SSHU�5DQJH�/LPLW��RI�VSDQ

Units of MeasurementValue Units Scale Offset101 *$/��%$6( �� %%/ �� 0� �� 104 /,7 �� 105 CF �� 106 ACF �� ACM �� 0&)��%$6( �� 6&) �� 0� �� *$/ �� %%/ �� /,7 �� 36,*��%$6( �� 3D �� .SD �� 0SD �� %DU �� ,Q�+�2 �� 401 ,Q�+�2��%$6( �� 3D �� .SD �� 404 PP+J ��

C-46


Units of MeasurementValue Units Scale Offset405 ,Q�+J �� 406 36, �� NJI�FP� �� 501 'HJ�)��%$6( �� 'HJ�& �� . �� 504 'HJ�5 �� 601 /%0��%$6( �� NJ �� 00%78��%$6( �� *- �� %78 �� .- �� 801 *$/��%$6( �� %%/ �� 0� �� 804 /,7 �� 805 CF �� 806 ACF �� ACM �� Volts �� 0LOOLYROWV �� 1001 /%0�&8�)7 �� .*�0� �� LQFKHV �� IW �� \DUG �� mile �� mm �� FP �� m �� NP �� +] �� N+] �� 0+] �� 1401 ohms �� NLORRKPV �� PHJDRKPV �� 1501 mA �� A �� 1601 F3 �� OEP�IW�VHF ��

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Log CapacityLog Type Capacity

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Enron Log DataThe Scanner 2000 provides Enron Modbus® compliant downloads. For detailed instructions on downloading interval, daily and event data, refer to 6SHFL¿FDWLRQV�DQG�5HTXLUHPHQWV�IRU�DQ�(OHFWURQLF�)ORZ�0HDVXUHPHQW�5HPRWH�7HUPLQDO�8QLW�IRU�(QURQ�&RUS��,I�DQ�(QURQ�KRVW�LV�QRW�DYDLODEOH�RU�LV�WRR�FXPEHUVRPH�RU�LQHI¿FLHQW�for the host system, there are other methods that are available to retrieve the log data from the instrument. Contact Cameron technical support for details.

The following registers are used for interval, daily and event log registers. Interval and daily records contain ��XVHU�FRQ¿JXUDEOH�YDOXHV��)RU�GHWDLOV�RQ�WKH�DUFKLYH�FRQ¿JXUDWLRQ��VHH�6HFWLRQ��RI�WKH�0RG:RU;�3UR�6RIWZDUH�8VHU�0DQXDO��

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Enron RegistersRegister Description Data Type

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Parameter Data Type'DWH��00''<<� )3��7LPH��++�00�66� )3��)5��3UHYLRXV�9ROXPH��EDVH�XQLWV� )3��)5��3UHYLRXV�0DVV��EDVH�XQLWV� )3��)5��3UHYLRXV�(QHUJ\��EDVH�XQLWV� )3��'LIIHUHQWLDO�3UHVVXUH�3UHYLRXV�$YHUDJH��,Q+�2� )3��

C-48


Enron Interval/Daily Record Format (cont’d)Parameter Data Type

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Enron Event Record FormatParameter Data Type

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The status parameter in the event record can be decoded with the following table.

Alarm DecodingDescription Bit

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Log CapacityLog Type Capacity

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Documents

Scanner 2000 Hardware Manual Rev7 Copia