NFC Net Flow Computer Instruction Manual April 1996 Micro Motion FISHER-ROSE MOUNT Managing The Process
NFC Net Flow Computer Instruction Manual For technical assistance, phone the Micro Motion Customer Service Department: * In the phone 1-800-522-6277, 24 hours » Quayside the phone 303-530-8400, 24 hours « In Europe, phone +31 (0) 318 549 431 All contents ©1991, 1992, 1896, Micro Motion, Inc. Afl bights reserved. Micro Motion, ELITE, and Probing are registered trademarks, BASIS is a trademark, and PHOENIX and FAST MASS are service marks of Micro Motion, inc., Boulder, Colorado.
Table of Contents 1 Before You Begin 1 1.1 About this manual Introduction to the NFC . 1 1.3 NFC outputs and displays 2 2 Mounting the NFC 3 21 Location .. 3 2.2 Mounting the NFC fo a par 3 3 Wang Terminal block designations 3 2 Power wiring power supply DC power supply 3.3 Wiring to a transmitter . 34 Remote operation of NFC 35 Loads within maximum rating . Loads exceeding maximum rating . 3.6 Program lock 4 Startup and Operation Configuring the transmitter NFC display face . 43 Startup 4.
6 Configuration Mode Configuration mode overview . Accessing the configuration mode .. .. .. Entering configuration values or options 8.2 Temperature units 6.3 Mass or volume 6.4 Mass branch .. Mass units . Equations .. .. 8.5 Volume branch . Volumetric conversion . Volume 6.6 Variables for temperature compensation . 8.7 Relays . Relay 1 High or low alarm . Value Prewar . . Relay 2 6.8 Militia output . 610 Temperature input . 811 Density calibration . 612 Time constant 613 Identification number . . 6.
8 RS-232-C Communication Communication overview Cable length 59 8.3 Communications packet structure Communication commands 61 9 Maintenance and Troubleshooting 63 8.1 Maintenance Troubleshooting . 63 No display or output . 83 Incorrect or erratic display Customhouse 66 Appendixes Appendix A NFC Specifications .. .. .overrunning 87 Appendix B NFC Configuration Worksheet and Record 7 Appendix C Decontamination and Return Goods Policy 73 Appendix D instruction Manuals .. 75 Index 77 Tables Table 3-1.
Figures figure 2-1, Figure 2-2. Figure 2-3. Figure 2-4. Figure 2-5. Figure 2-6. Figure 3-1. Figure 3-2, Figure 3-8, Figure 3-4. Figures 3-5. Figure 3-6. Figure 3-7. Figure 3-8. Figure 3-9. Figure 4-2. Figure 7-1. Figure 7-2. Figure 8-1. Exploded-view drawing of NFC NFC dimensions for panel mounting . . NFG in NAME 4 (IP) housing .. NFC and RFT9712 in NAME 4 (IP) housing NFC and RFT9739 in NAME 4 (IP) housing NFC in explosion-proof housing AC power-supply wiring DC power-supply wiring . .
Conventions Throughout this manual, the term transmitter refers to the Model RFTO7239 transmitter. The term sensor refers to an ELITE® CMF, BASIS™ F, or Model sensor only. The term flow meter refers to the sensor and RFTS73¢ or CRAFTY transmitter installed as a flow metering system. [installation and operation of Micro Motion sensors are addressed In the sensor instruction manuals.
11 1.2 About this manual Introduction to the NFC Before You Begin This instruction mania! describes how to install, operate and maintain the Micro Motion® Net Flow Computer (NFC), » Chapter 1 provides a general overview of NFC capabilities. Chapter 2 explains how to mount the NFC in a panel. Chapter 3 explains how to wire the NFC. Chapter 4 explains NFC start-up and operation, Chapter 5 explains how 1o use operating modes. Chapter 6 explains how fo use the configuration mode.
1.3 NFC outputs and displays Quits include two integral L.CD displays, an RS-232-C port, two relays and a 4-20 mA signal. * The RS-232-C port enables users io print data messages or to interface the NFC with anther computer. * Each relay can function as an alarm or batch controller. * The 4-20 mA output can indicate net flow rate, net percent, density, or temperature.
24 22 Location Mounting the NFC o a panel Mounting the NFC WARNING improper installation can cause property damage, severe Injury, or death. For personal and system safely, install the NFC in an area compatible with the rating of the standard (IP) housing, optional NAME 4 (IP) housing, or optional explosion-proof {flameproof) housing, as certified by the governing approval organization, Exposing the NFC to direct sunlight will damage the LCD display.
Figure 2-2, NFC dimensions for panel mounting PLATE LETTUCE SERIAL HO. & AGENCY APPROVAL TAS. Bs737-0 5 s sore £ RIS wore 3427 DORSEY KNOCKOUT onion process inns rover sims TR STY G OF ALERTING PR AD. o 8614 N wive To mount the NFC on a panel, folio these steps: 1. Insert the NFC through the (138 mm) square cutout in the pans. 2. Insert the prongs of the mounting brackets into the square-shaped slots behind the face plate on both sides of the NFC case.
Figure 2-5. NFC and RFT9739 in NAME 4 (IP) housing 8GR ka elusive ool Tow A o Figure 2-6.
3.1 Terminal block designations Table 3-1. NFC terminal block designations Wiring improper installation of wiring, or installation with power supply on, can cause electric shock or property damage, For personal and system safety: 1. Shut off power before installing wiring. 2. install cables and wiring so they meet or exceed local code requirements. 3. Install wiring in accordance with Figure 3-1 through Figure 3-9. Proper installation of wiring depends on the transmitter and NFC power supply.
3.2 Power wiring The NFC has an AC/DC power-supply board, shown in Figure 3-3. Power consumption is approximately 15 watts, including the NFC, the transmitter, and the sensor. If the sensor is a Model D600, power consumption is approximately 75 watts. AC power supply For AG power, make connections to the NFC at terminals 12, 13, and 14, as shown in Figure 3-1. Terminal 14 is a line noise return only, nat a circuit ground.
Figure 3-3. NFC power-supply board 3.3 Wiring to a transmitter o 145/ 290¥A8 SWITCH PART NUMBER OK BOTTOM OF BOARD incorrect pairing and shielding of wires will cause measurement error. To prevent measurement error, make sure 1o isolate and shield signal inputs separately Locate the NFC as near as possible to the transmitter, » Install twisted-pair, shielded cable between the NFC and the transmitter. » Use 28 AWG (0.08 mm®) or larger wire for distances up to 50 feet (15 meters). Use 22 AWG (0.
= The terminal cover has {13 mm) conduit knockouts for power wiring and signal wiring. Refer to Table 3-2 and Figure 3-4 through Figure 3-8 for wiring configurations. + Depending on the manufacturing date, the NFC and the transmitter tight require jumper wiring. For jumper wiring connections, see Table 3-3. Improper installation of frequency input wiring can cause a ground loop in the control system. This wiring scheme ties the mass flow signal, tube period, and temperature signals fo the same ground.
Figure 3-4. Wiring, NFC to field-mount RFT9738 RFT9738 4 NFC 420 @A OUTPUT + 4-20 A QUIRT FLOW RATE FREQUENCY INPUT + FLOW RATE FREQUENCY INPUT ~ FROG RUN §§g§ PROGRAM LOCK Notes for Figure 34, 1. Paired cables with shield. 5¢ f1, max. length for 28 AWG wire {15 meter max. for 0.1 mm2 wire), 500 #. max. length for 22 AWG wire {150 meter max, for 0.3 e wire), 2. Clip shields et this end. 3. This wire not terminated. Figure 3-5. Wiring, NFC to rack-mount RFT9739 RFT9739 RACK MOUNT Nz 2 2 NFC ST .
Figure 3-6. Wiring, NFC to RFT8712 NFC RFT 9712 START/CLEAR SELECT/ENTER > /RESET * SEND DATA STOREFRONT SIGNAL GROUND/REMOTE FUNCTION COMMON TEMPERATURE {NUT TUBE FREQUENCY INPUT TG POWER GROUND 12-30 VDC INPUT AC LINE AC NEUTRAL AC GROUND RELAY T N O RELAY 1 COMMON RELAY | N © RELAY 2 N © RELAY 2 COMMON RELAY 2 N C TREBLE 1088 4-20 mA OUTFIT + 4-20 mh OUTPUT FLOW RATE FREQUENCY INPUT + FLOW RATE FREQUENCY. INPUT CROP LOCK + PRIG LOCK ~ NOTE 2~\ BRIG LOCK = ¢ Notes for Figure 36. 1.
Figure 3-7.
35 16 flays Loads within maximum rating Loads exceeding maximum rating Improper installation of device relays or user supplied intermediate relays can cause ignition of explosive atmospheres. * For personal and system safety, adhere 1o relay contact ratings of 0.2 amps at a maximum of 28 volts AC {RMS) or DC.
Figure 3-8. Relay wiring, DC external power supply INTERNED | ATE LAY NFC ? . e TERMINALS —a17(20 I { LOAD 0 e 619 OR EQU! {18) RELAY 1 (RELAY —RECOMMENDED FOR INDUCTIVE 28 VOLTS MAX. \ LOADS AND ELECTROCUTION MECHANICAL RELAYS Figure 3-9. Relay wiring, AC external power supply INTERNED [ ATE NFG RELAY TERMINALS i | —a17(20) \45(19) RC NETWORK l15(18) i i L RELAY 1 (RELAY 2) 28 VOLTS RMS MAX. OPTIONAL 3.6 Program lock A jumper wire between terminals 26 and 26 prevents access to the configuration mods.
41 42 G Configuring the transmitter NFC display face Startup and Operation Before using the NFC software: 1. Configure the transmitter o calculate the flow rate, density, and temperature in the measurement units used by the NFC. 2. Scale the transmitter frequency/pulse output for optimal resolution of the flow rates measured during the application. NOTE Unless the transmitter and NFC use the same flow, density, and temperature measurement units, the NFC might display incorrect flow measurement units.
43 4.4 NFC software modes 20 Figure 4-1. NFC display face Startup Operating modes Upper Mode {rate} Ode | Lower {totalizator) display | HOBNOBBED | keys indicators 4@» NFC Net Flow Computer At startup, the NFC conducts autocratic testing of its displays, During display testing, all display segments light up for approximately two secants. The 2-character mode display indicates the software mode. Figure 4-2 shows the NFC software flow diagram.
4.5 Configuration mode Function keys and LED indicators Function keys Use the configuration mode to: + Configure measurement units, * Enter equations and reference values for the application, * Configure relays and outputs, or + Perform a density calibration. To access the configuration mode, remove the jumper wire across NFC wiring terminals 25 and 26. NOTE Changes made in the configuration mode will not take effect until the NFC re-enters an operating mode.
22 LED indicators . Send Data Press Send Data to transmit an RS-232 message from the RS-282 port. Chapter 8 explains RS-232 communication. s i Stop/Run In the operating mode, press Stop/Run to stop or restart a batch in progress. « [ a batch is running, press Stop/Run to DE-gctivate the relays and stop the batch. » If a batch has been stopped, press Stop/Run to activate the relays and continue the batch.
Figure 4-2. NFC software flow diagram Operating l Configuration | Modes [ Modes [ Pro%ram H Removed MUy [y BRIE Branden E:K: A 1 1 roun—FHAHEEHEHS oes unseen —{SCHEHERAZADE) orc R [ erp k| Volume sweor{vHrH) (] Branch GO0 | ] ve freemen e Ko U1k VU {ca} .y errs o —[OW ety CFF o Hl L DENSITY .
5.1 52 Operating mode overview Operating mode functions Net total Net inventory Set point Operating Modes Use operating modes to perform the following tasks: * Reading on-line values of process variables, + Sending values of process variables to a printer, computer workstation, or another RS-232-C compatible recording/receiving device. To access operating modes, repeatedly press Select/Enter until the mode display reads *NT" {net total).
26 Entering the set point Batch control Gross total Gross inventory When the mode display reads "SP", follow these steps 1o enter the new set point: . Press When the upper display reads "SETTLEMENT, press The farthest left digit in the lower display will begin to blink. . Press T to increase the value of the blinking digit. . Press to set the value of the blinking digit and move to the next digit in the display. . Press Select/Enter to enter the set point and enable batch control.
Temperature and net material percentage Temperature and density T Press Select/Enter to access the temperature and percentage: Upper display: Measured temperature, in user-selected units Lower display: Net material percentage (will be 100% for voluminously, non-net configurations) Net percent over range is indicated by 102%.
6.1 Configuration mode overview Accessing the configuration mode Entering configuration values or options Configuration Mode Use the configuration mode to: + Configure measurement units » Enter equations and reference values for the application * Configure relays and outputs * Perform a density calibration Failure to set control devices for manual operation during configuration will affect measurement. Before using the configuration made, set process control devices for manual operation.
Temperature units Mass or volume Mass branch Mass units When the mode display reads "TU", the NFC is indicating the measured temperature in user-selected temperature units. Upper display: DEG F, DEG C, DEG K, or DEG R Lower display: Measured temperature Select degrees Celsius, Fahrenheit, Rankine, or Kelvin, NOTE Throughout the configuration process, enter all temperature values in the units selected at TU, VIVIAN Press Select Enter to enter the mass branch or volume branch.
Equations After selecting % MASS, press Selectmen to select linear or non-linear calculation of percent mass. Upper display: NON.LIN or LINEAR Lower display: Measured temperature » Select NON.LIN for non-soluble solutions, such as sand and water. See Equation 6-1 and Equation 6-2. * Select LINEAR for soluble solutions, such as salts. See Equation 6-3, Equation 6-4 and Equation 6-5.
. . . continued from previous page Linear percent mass allows customized calculations for two component fluid mixtures that can be characterized by a straight-line fit of percent concentration of one component versus Hood density. The NFC uses Equation 6-3 to calculate linear percent mass.
. . . continued from previous page Using known values for CV or TV will typically provide inadequate results. The user should analyze or plot data to ensure useful results with a straight-line fit. Values for TV and CV should be determined by using data at the two points that will provide the best straight-line fit of ali data. Selecting the end points for the applicable concentration range often will be less effective than selecting some intermediate points.
Operation theory: Gross volume is the actual volume of fluid flowing through the sensor. The NFC uses Equation 6-8 to calculate gross volume. Because temperature compensation Is not used, the user must set the value of the carrier temperature coefficient to zero. (See CT, page 39.) Temperature compensation can be implemented as described in Section 6.6.
continued from previous page Percent volume applies to solutions containing two non-linear components that are totally insoluble In one another, such as com starch and water, sand and water, oil in water, or a slurry of catalyst or pigment solids in a carrier fluid. The NFC uses Equation 6-9 to calculate percent volume. The equation does not incorporate temperature compensation. -V .
6.6 Variables for temperature compensation After selecting linear or non-linear calculation of percent mass as instructed in Section 6.4, or after selecting calculation of gross volume, net volume or percent volume as instructed in Section 6.5, press Select/Enter to configure variables for temperature compensation. The values used for the target and/or career densities may be temperature compensated. Temperature compensation adjusts density values for the effects of temperature.
m Target temperature coefficient Upper display: TMP.COF Lower display: Decrease in density per degree increase in temperature of target material, in calibrated density and selected temperature units, for the application range * If temperature compensation is not used, enter a value of zero. « [f temperature compensation is used, see Equation 6-12 to calculate the temperature coefficient for the target material. Operation theory: S -Th Equation 6-12 T .
I 1 Carrier value Upper display: RACIER Lower display: Carrier-material density value, in units used for density calibration. See Table 7-1 » [|f temperature compensation is not used, enter the carrier density at process temperature. » If temperature compensation is used, enter the carrier density at reference temperature.
m Carrier temperature coefficient Upper display: TMP.COF Lower display: Decrease in density per degree increases in temperature of carrier material, in calibrated density units and selected temperature units, for the application range * If temperature compensation is not used, enter a value of zero. » [f temperature compensation is used, see Equation 8-14 fo calculate the temperature coefficient for the carrier material.
8.7 40 Relays Relay 1 High or low alarm Value The NFC has two relays. Each relay can be configured to operate as an alarm or as a batch controller, or can be configured not to operate. The relays are independent of each other. i When the mode display reads "R1*, press to B configure the primary relay. Begin the configuration procedure by determining whether or not the relay will be operable: Upper display: ALARM or OFF Lower display: Measured temperature f OFF is selected, the software goes to the R2 mode.
Prewar Relay 2 After configuring the relay for batch control, enter the prewar value. Upper display: PREDAWN Lower display: Subtraction value at which batch-control relay switches to prewar condition . Press —/Reset. The farthest left digit in the Sower display will begin to blink, . Press T to increase the value of the blinking digit. . Press —/Reset to sel the value of the blinking digit and move to the next digit in the display. .
6.8 42 Milliard output 4mA 20 mA [PTE) Tress Select/Enter to configure the mill lamp output. Begin the RUIN configuration procedure by selecting the process variable that the milliard output will represent. Upper display: DENSITY, % NET, TEMP, or RATE (net} Lower display: Measured temperature 1. Press —/Reset. The characters in the upper display will begin to blink. 2. Press T io scroll through the options. 3.
6.9 Sensor coefficient Table 6-1. Density temperature coefficients 6.10 Temperature input m Press Select/Enter o enter the sensor coefficient. Upper display: SENDOFF Lower display: Percent change in the elasticity modulus per °C for sensor tube construction material 1. Press The farthest left digit in the lower display will begin to blink, 2. Press T to increase the value of the blinking digit. 3. Press —/Reset 10 set the value of the blinking digit and move to the next digit in the display. 4.
6.11 Density calibration o D2 K1 Micro Motion calibrates each NFC to work with a specific sensor. The NFC requires field calibration in the following situations: « The sensor, transmitter, and NFC are purchased separately, or * The sensor or the NFC is replaced.
6.12 Time constant 6.13 Identification number 6.14 Baud rate Press Select/Enter to enter the value representing the sensor tube period that would be associated with the high-density calibration fluid. Upper display: DEN.CAL Lower display: Temperature-corrected tube period, in microseconds, associated with the high-density calibration fluid (D2) To enter the appropriate K2 value, sce Chapter 7. Crass Select/Enter to select the time constant for damping on density displays. Upper display: FLT.
6.15 6.16 Decimal point Decimal point for flow rate Decimal point for flow total Frequency input Frequency Rate m Press Select/Enter to place the decimal point for flow-rate and flow-total displays. Upper display: RATE Lower display: Number of digits to follow decimal point in displays indicating flow rate The position of the decimal point in displays indicating the flow rate should be no more than two places from the position of the decimal point in displays indicating the flow total.
6.17 Time base m Press Selectmen to select a time base for the flow rate. Upper display: SECOND, MINUTE, HOUR, or DAY Lower display: Mass or volume flow rate Select the time base for the flow-rate units that will be calculated by the transmitter. For example, if the transmitter will calculate the mass flow rate in lo/min, select MINUTE. 6,18 Return to operating After selecting the time base, press Select/Enter to return io the modes operating modes. To use operating modes, see Chapter 5.
71 Principles of Coriolis density measurement Calibrating the NFC to Measure Density The vibrating tubes of a Micro Motion Coriolis mass flow sensor provide an excellent means to measure the density of the process fluid. The tube period, in microseconds, reflates directly to the density of the fluid, as shown by the following equation: (1C, » ©,2) (TC, Where p = Fluid density « = Subscript for fluid to be measured 4 = Subscript for low-density calibration fluid (air) .
7.2 50 Density calibration overview Situations requiring density calibration Density calibration methods The Analog-to-Digital (A to D) converter turns voltage into digital values that the microprocessor can manipulate. The display controller drives the liquid crystal display (LCD). The keyboard encoder detects keyboard entries and transmits them to the microprocessor, The crystal oscillator provides a stable time base for the calculations.
52 Entering density calibration values Matching density units to the application Use the configuration mode to calibrate the NFC. To access the configuration mode, remove the jumper or normally closed switch across terminals 25 and 26, then repeatedly press Select/Enter until the mode display reads *D1*. Pressing —/Reset during density calibration will change calibration constants and will cause inaccurate calibration. To avoid inaccurate density measurement, do not press —/Reset during density calibration.
7.3 74 75 Table 7-1. Appropriate density units for calibration Recording existing density calibration factors Duplicating a previous NFC calibration Duplicating a factory calibration H NFC calculates: Calibrate for density in: kg/m® glace bigamist glee bt glace Kibble ogle % HF CS 56Uy Beatrix 8CUygq % mass glee % volume oleo To record existing density calibration factors, follow these steps: 1.
7.6 2-point calibration using Two-point density calibration involves deriving a K1 value when the air and water sensor contains a fluid with a known low density, then deriving a K2 value when the sensor contains a fluid with a known high density. Since air and wale are readily available and have well-defined densities, they can easily be used for a 2-point calibration of the NFC. Follow these steps: 1. Make sure the sensor is clean, empty, and dry. 2. Fill the sensor with air.
Table 7-3. Density and specific gravity of water Temperature Density Temperature Density Temperature Density °F ¢ glee S Guy. °F °c glee S5GU,, °F °c give Slug 32 0.0 0.5808 10016 56 13.3 00994 1.0012 80 287 0.9966 0.9984 33 08 0.9998 1.0016 57 13.9 08e2 1.0010 81 27.2 0.9964 0.6082 34 11 05998 1.0017 58 14.4 0.9992 1.0010 82 278 09963 09981 35 17 0.6998 1.0017 59 15.0 08991 10008 83 263 0.9961 0.9979 36 22 06999 1.0017 60 15.6 0.8991 1.0009 84 288 0.8960 0.0878 a7 28 09888 1.0017 81 16.1 09988 1.
10. Use the and T keys to set the lower display to the known density of the fluid, 11. Allow several seconds for the NFC to measure an average tube period, then press Select/Enter to store the value. The NFC will measure the period and temperature of the sensor tube(s), and will calculate the second calibration constant 7.8 Calibration from sensor if the factory calibration certificate is unavailable, D1, D2, K1, and K2 serial number tag values can be determined as instructed below.
Example 1: A D300 sensor with stainless steel flow tubes is connected to an RFT9712 transmitter. The serial number tag for the sensor shows the following density calibration factor: 11904132924.44 Derive appropriate density calibration values for the NFC. 2 Klpps = 190% _ 14170502 2 Koy = 131232 = 17667726 D1 = D2 = The information on a serial number tag for an ELITE or BASIS sensor includes values for K1, K2y, D1, and D2.
8 RS-232-C Communication 8.1 Communication overview The NFC can communicate with other devices via an RS-232-C serial port, The interface consists of a transceiver circuit and standard 25-pin D-sub miniature female connector, which provide a communications link between the NFC and a computer or printer. Figure 8-1 shows RS-232-C cable connections for the NFC., Frequent polling can cause data loss and measurement error.
Figure 8-1. AS-232-C signals TE Host RS-232-C seminal Signals Jumpers for converter Printer NFC to DTE on serial board > BA (Pin 2) [ Transmit Data In [ {Data Out) 2 Receive BB (Pin 3) {Data In} Data out l <> CA (Pin 4) RTS Request to send {DTE requests) CB (Pin 5) lair to send {not used in NFC always active) CC (Pin 6) DSR Data Set Ready ) D (Pin 20 DTR Data Terminal Ready Signal AB {Pin 7) Signal Ground Ground = Pins 8-19 and 21-25 — no connection Protective AA (Pin 1) Protective Ground _/ \ / Ground male
8.3 8.4 Communications packet structure Communication commands Each communication packet includes a start-of-text character, a 2-bye command or 1-byte response, and an end-of-text character. Some commands and responses also include a variable-length data field. The structure has an ASCII format of 11 bits per character. Each character consists of 1 start bit, 8 data bits, and 2 stop bits, without a parity bit.
9 Maintenance and Troubleshooting 9.1 Maintenance The NFC does not require any routine maintenance. 9.2 Troubleshooting Failure to set control devices for manual operation during troubleshooting will affect measurement.
Table 8-1.
NOTE A normal discrepancy of 5.4°F (3°C) or less may occur between the temperature outputs from the NFC and the RFTY712, since the NFC has a mare accurate circuit for calculating temperature. 4, Measure the mass flow (frequency) input to the NFC. Connect the positive lead of a DMM to NFC terminal 23 {Flow Rate Frequency input then connect the negative lead to NFC terminal 24 (Flow Rate Frequency Input ). Without flow, the measured voltage should be between 0 and 15 VDC.
Table 9-2. Symptoms NFC and transmitter both produce erratic outputs DMM connected to terminals 7 and & reads voltage chert than approximately 14.5 VAC peak-to peak for RFTE712, or approximately 8.
Functional specifications Displays Density Units Display resolution Display range Density-dependent variables Time constant for damping Flow units Mass Volume Time units Temperature Units Display resolution Process fluid range Electronics operating range Storage range Power supply 4-20 mA output Input/output port Alarm relays &8 Alphanumeric LCD, 2-character mode display, 6-digit rate display, 8-digit totalizator display Two alarm LED indicate alarm conditions and the state of alarm relays Grams per cubic c
Environmental effects Vibration Shock Sunlight and heat Housing Standard Optional Heater Certification NFC in DIN housing NFC in NAME 4X explosion proof housing Meets SAMEY PMC 31.1, Level 2, field mount conditions Meets SAMEY PMC 31.
Appendix B NFC Configuration Worksheet and Record Measurement units and equations Temperature units [31°C Mass or volume [ Mass I volume Mass units Volume conversion 0 Beatrix [ Grams to cubic centimeters 1 % HF CS [ Kilograms to cubic meters 1 % mass O Kilograms to liters Percent mass ] Pounds mass to u.
Milliard output Process variable indicated by output O Density [ % net [ Temperature [ Flow rate Value at 4 mA Value at 20 mA Sensor coefficient Sensor model Coefficient [ CMF, D, and DL sensors with 318L. stainless stew! flow tubes 0.000444 [3 D and DT sensors with Costello C-22 flow tubes 0.000275 L] CMF025 sensors with Costello C-22 flow tubes 0.000310 {1 CMF050 and CMF100 sensors with Costello C-22 flow tubes 0.000300 {3 CMF200 sensors with Costello C-22 flow tubes 0.
Appendix C Decontamination and Return Goods Policy NOTE A Return Material Authorization (RMA) Number must be obtained prior to returning any equipment o Micro Motion for any reason. RMA Numbers can be obtained by calling {or faxing) the Customer Service Department at 1-800-522-6277 or 1-303-530-8422 between 7:30 am. and 400 p.m, (MST) Monday-Friday. The Customer Service Representative wilt ask for product model and serial numbers.
Decontamination Statement RMA number: Equipment to be returned: List all chemicals and process fluids in contact with the equipment * Attach additional pages if necessary » + MADS required if non-food grade product used » information Product #1 Product #2 Chemical name Description Health safety hazards Precautions First aid 1 hereby certify that the equipment being returned has been cleaned and decontaminated in accordance with good industrial practices and is in compliance with OSHA and DOT regulations.
Appendix D Sensors Transmitters Communications Peripheral Products Instruction Manuals To obtain any of the Micro Motion instruction manuals listed below, the Micro Mason Customer Service Department: + In the U.S.A, phone 1-800-522-MASS (1-800-522-6277), 24 hours + Outside the U.S.
Index Bold type indicates illustration % HF CS. See Measurement units, Density-dependent variables, Percent HF CS % mass. See Measurement units, Density-dependent variables, Percent mass % volume. See Measurement units, Density-dependent variables, Percent volume "Brie. See Measurement units, Density-dependent variables, Degrees Brie 2-point density calibration. See Density calibration Absolute density. See Density AC power supply.
Configuring transmitter 19. See also Density, Flow rate, Output, Temperature, Transmitter Customer service telephone number 75 D1 density value 44, See also Densely calibration, Displays 02 densely values 44. See also Density calibration, Displays Damping. See Time constant DC power supply. See Wiring Decimal point. See also Configuration mode, Displays For flow rate 48, 72 For flow total 486, 72 Decontamination and rectum goods policy 73 Degrees Brie 30.
Displays 3, 8.
Identification number 72.
Percent HF CS 30. See also Density-dependent variables, Measurement units Percent mass 30-32. See also Density-dependent-variables, Measurement units, Equations Linear 31 Non-finer 32 Percent volume 35. See also Density-dependent variables, Measurement units, Equations Power supply 10. See also Power-supply board, Wiring Power-supply board 11 Prewar 71.
Temperature compensation. Seg also Configuration mode, Displays, Equations, Density units Carrier values Density 38 Reference temperature 39 Temperature coefficient 39 Target values Density 36 Reference temperature 37 Temperature coefficient 37 Variables for 36, 71 Terminal block 9. Ses also Output, Wiring Time base 72. See also Displays, Flow rate, Mass, Volume Display 47 For density calculation 50 Time constant 72.
Visit us on the Internet at www.micrometion.com Hire Motion Europe Migrant Motion Asia Grosneveldasiaan & 1 Panda Crescent 2503 AZ Standalone Singapore 128461 The Netherlands Republic of Singapore Tal 431 (0) 318 549 549 Tel (65) 777-8211 Fax +31 (0) 318 548 559 Fax (65} 770-8003 Micro Mason Inc. USA Worldwide Headquarters 7070 Winchester Circle Boulder, Colorado 8301 Tet (30) 530-8400 o ST Micro Motion Rt om0 FISHER-BOSE MOUNT " Managing The Process Better: PIN 1003386, Rev.
