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Elster Instromet 2000 Instruction Manual

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MODEL 2000 FLOW COMPUTER
INSTRUMENT INSTRUCTION MANUAL
FIRMWARE LV6.400
Model 2000 iss 21
202/02-09
LV6.400

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  • Page 1 MODEL 2000 FLOW COMPUTER INSTRUMENT INSTRUCTION MANUAL FIRMWARE LV6.400 Model 2000 iss 21 202/02-09 LV6.400...
  • Page 2 Users are reminded that these regulations similarly apply to installation, operation and maintenance, safety being mainly dependent upon the skill of the operator and strict supervisory control. Model 2000 issue 21 Page No...
  • Page 3 Model 2000 issue 21 Page No...

  • Page 4: Table Of Contents

    CONTENTS Page No. INTRODUCTION ................................1 GENERAL DESCRIPTION ............................2 2.1. MODEL 2000 FLOW COMPUTER FACILITIES....................... 2 2.1.1. FLOW COMPUTER TYPES ..........................2 2.1.2. FLOW COMPUTER OPERATING MODES..................... 3 2.2. FRONT PANEL CONTROLS............................ 5 2.2.1. KEY FUNCTIONS............................5 2.2.1.1. MENU SCROLL UP AND DOWN KEYS ..................... 5 2.2.1.2.
  • Page 5 DENSITY ACCOUNTABLE ALARMS ....................... 48 2.6.1.6. STATION ACCOUNTABLE ALARMS ....................... 49 2.6.1.7. SMART INDEX ACCOUNTABLE ALARMS ....................49 2.6.1.8. CORIOLIS METER ACCOUNTABLE ALARMS ..................49 2.6.1.9. GRAB SAMPLER ACCOUNTABLE ALARMS ..................49 2.6.2. NON-ACCOUNTABLE ALARMS ........................49 Model 2000 issue 21 Page No...
  • Page 6 Alarm Information............................68 APPENDIX 1a Alarm, Warning and Fault Codes ......................68 APPENDIX 1b Parameter Symbols For Non-Accountable Alarms................68 APPENDIX 1c Parameter Symbols for Accountable Alarms..................69 APPENDIX 1d Temperature Alarm ..........................72 Model 2000 issue 21 Page No...
  • Page 7 APPENDIX 2 Event Codes..............................73 APPENDIX 3 Gas Chromatographs Supported ........................75 APPENDIX 3a Instromet Encal 2000, Daniels 2251, Daniels 2551 and ABB 8X00 Chromatographs ......76 APPENDIX 3b Yamatake Model HGC303 Chromatograph ..................78 APPENDIX 3c Siemens Optichrome Chromatograph....................79 APPENDIX 3d Rosemount GCX Chromatograph ......................

  • Page 8: Introduction

    Liquid in accordance with API standard chapters 11.2.1M, 11.2.2M & 12. The Model 2000 has the facility of both high and low alarms on all active input signals, the alarms can be selected to enable a default value to be used in flow calculation for the parameter in the alarm condition.

  • Page 9: General Description

    Model 2000 memory and select all of the displayed information. Input and output signals are connected to the Model 2000 by 9 pin D type connectors and plug in terminal blocks located at the rear or the unit.

  • Page 10: Flow Computer Operating Modes

    The security, set-up and operational modes of the Model 2000 is initiated by the setting of mode switches located under an access hole on the side of the Model 2000 the access hole is normally covered by a plastic cover and can also be sealed using a self adhesive security label (See figure 16 for details) .
  • Page 11 View of Microprocessor Board Showing Mode Switches and Backup Battery To place the Model 2000 in fully secure mode (i.e. no data can be altered either via communication or via the EDIT mode ) Mode switches 1 and 2 must be in the OFF position.

  • Page 12: Front Panel Controls

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.2. FRONT PANEL CONTROLS All of the controls necessary to operate the Model 2000 are located on the front panel and provide the following functions:- 2.2.1. KEY FUNCTIONS 2.2.1.1. MENU SCROLL UP AND DOWN KEYS...

  • Page 13: Indicator Leds

    PC to the Model 2000. On earlier models of the Model 2000 in the bottom left hand corner as shown in Figure 1 is a small opaque red window, this is the Infra red programming port. It is designed such that a PC equipped with a Remote Infra red device connected externally to one of its communication ports can send and receive data to the Model 2000 through this port, without any physical contact.

  • Page 14: Display

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.2.4. DISPLAY The Display of the Model 2000 is divided into a number of sections as can be seen as follows:- Page Title Information Time and Date Main Display Area Function Typical Display Page The top of the Display page shows the page title, the information symbol (if information is available on this page) and the current Model 2000 time and date.

  • Page 15: Main Menu Functions

    The main operating Menu of the Model 2000 can be accessed in a number of ways depending upon the current operational state of the Model 2000 and the current display page. These methods are either to select Menu using the function keys, or to select Main Menu from the current menu list or if the unit has just been switched on and is displaying the start up page, the Main menu will be on the display.

  • Page 16: Main Menu Function Totals

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.2.6. MAIN MENU FUNCTION Totals This menu item is a read only display and when selected will show all the pages of flow totals available in this machine these will include:- For Turbine Machines +Vbu Uncorrected Volume from Meter “Un-haltable”...

  • Page 17: Main Menu Function Line Conditions

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION For Coriolis meter machines Mass of Liquid in kg primary flow source. +Mls Mass of Liquid in kg secondary flow source. +VGl Volume of Liquid at Line conditions in m3 +VNl Volume of Liquid at base conditions in m3 Mass of Water in kg.

  • Page 18: Main Menu Function Grab Sampler

    The items will be divided into pages with a maximum of four items per page. See page 75 for details of Gas Chromatographs that are supported and the Modbus Communication addresses that are read by the Model 2000. The above is a typical example so not all the above data items may be available for all types of Gas Chromatograph.

  • Page 19: Main Menu Function Gas Data

    N/A which means not available, a value has not been received. The menu item Used contains the gas data values that are being used in the Model 2000 and the origin of the number i.e. Keypad, OK or LGV.

  • Page 20: Main Menu Function Settings

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.2.15. MAIN MENU FUNCTION Settings This menu item is a read only display and when selected will show all the pages of Setting Information available in this machine these will include:- General sub-menu items that relate to the machine.

  • Page 21: Main Menu Function Edit

    Adjust the Time and Date If an incorrect password is entered or the Model 2000 is in secure mode then access to the Data items will be denied. If the Model 2000 is set into the partially secure Mode (See Section 2.1.2) then Operator3 / Password 3333 will remain fully secure on the Model 2000 and no access will be granted to any data under this position.

  • Page 22: Main Menu Function Output Set-Up

    At this stage in the edit session the number changes have been recorded but are not being used by the Model 2000, the user can go on to alter as many data items as are required.

  • Page 23: Main Menu Function Alarms

    Set (ON) and if the alarm has been cleared (OFF), the clear time and date. The Model 2000 allows the display of up to 168 current and past alarms, the cursor keys allow the various pages to be viewed.

  • Page 24: Main Menu Function Calibration

    This menu item when selected will allow access to the Input parameters that will require calibration via the Keyboard and Display of the Model 2000. When this menu item is selected the user will be prompted to enter a four digit numeric password, to gain access to the calibration pages.

  • Page 25: Main Menu Function Board Info

    This menu item when selected will allow access to the Information pages ( 1 to 6 ) that have been set up using the Model 2000 Windows software. If no pages have been set up then this menu item will not appear. It is intended that the information pages are used for data such as Approval Information, Calibration Information and Transmitter Information.

  • Page 26: Model 2000 Functions

    PROVING MODE The Model 2000 can be set to operate in a Proving Mode, this can be set up in the EDIT mode. The function of the proving mode is to operate the Model 2000 such that flow would be totalled on the proving counters and not on the Main counters when in this mode.

  • Page 27: Co2 Emission Calculation

    CO2 EMISSION CALCULATION The Model 2000 can be set to calculate an emission factor for CO2 based upon the Energy content of the measured Natural Gas. The function is enabled ON or OFF, if enabled an Emission Factor for CO2 will be calculated together with a Mass Total.
  • Page 28 In the output of the safety release valve a floating piston reed-switch sensor will be operated at sufficient (vent) flow rates. The Model 2000 can signal (and optionally latch) a Lubrication Vent Alarm if the pressure safety release valve is activated.

  • Page 29: Input Signals

    BI-DIRECTION METER OPERATION The Model 2000 can be configured to operate from a Flow Meter that can produce a pulse output for flow in both the forward or + direction and the reverse or – direction. If the unit is set to operate in this way the flow Totals are shown as separate positive totals for the forward direction and negative totals for the reverse direction.

  • Page 30: Blade Failure Detection

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.4.1.4. BLADE FAILURE DETECTION Turbine Meter blade failure check is accomplished by comparing the pulses from sensors on the turbine meter and turbine monitor wheels or from two sensors on the turbine meter wheel. The ratio of pulses from the turbine meter sensor and turbine monitor sensor is entered as the BR and is defined as the blade ratio.
  • Page 31 Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION × 3600 ≥ < × BR > impw 11× Then a BR Check will occur every 10 Monitor input (LF) pulses or every Meter input (HF) pulses. An Accountable alarm turbN hf An hf turbine meter alarm (blade failure) will be generated if ×...

  • Page 32: Ultrasonic Gas Meter

    ULTRASONIC GAS METER The Model 2000 Flow Computer can be connected to a Instromet Ultrasonic Gas Flow Meter type Check, Flare, P or Q Sonic which has 1, 2, 3, 4 or 5 acoustic paths. The electrical connection is made using one of the communication port sockets set up for the purpose.

  • Page 33: Meter Linearisation

    If no valid communication is received from the meter for 5 consecutive seconds after this time the flow rate will be set to zero. If the number of acoustic paths set in the Model 2000 is different from number indicated by the meter. If an invalid floating point number has been received from the meter.

  • Page 34: Orifice Plate & Venturi Tube Measurement

    Venturi Tube. A number of different calculation methods can be selected and used, these can be set in the main menu item EDIT or can be set-up using the Model 2000 configuration software. The various options are as follows;-...

  • Page 35: Differential Pressure Measurement

    2.4.3.1.1. DIFFERENTIAL PRESSURE UNITS The Units of differential pressure used in the Model 2000 can be set to be any of the following bar, mbar, psi inches of water gauge or mm of water gauge. In the case of analogue transmitters it is assumed that the 4-20mA current value is calibrated in the required units. However, where HART transmitters are used with digital communication, the units value is read from the transmitter and compared against the value selected, if the value read does not agree with the value selected then an accountable Unit alarm is raised.

  • Page 36: Wet Gas Flow Measurement

    Model 2000 flow computer with measurement data for Differential Pressure, Static Pressure and Temperature these values are input into the Model 2000 Flow Computer by means of a Hart connection loop to the Model 3095 transmitter, all three values are read in at one time.

  • Page 37: Coriolis Meter Serial Output

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.4.4.2. CORIOLIS METER SERIAL OUTPUT If the M2000 is configured to accept a serial communication signal from the coriolis meter pulse then these will be of the form of an RS232 or RS485 connection to one of the standard communication ports of the FC2000 see paragraph 2.9.
  • Page 38 Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION Calculation of Liquid Density at base conditions ρ ρ CTL × Where αT : Coefficient of thermal expansion of liquid Alpha in °C-1 Equation 3) CTLm : Meter Correction Factor to API MPMS 12.2.5.3 1st Edition Oct 1995...

  • Page 39: Pressure And Temperature Inputs

    TEMPERATURE UNITS The Units of Temperature used in the Model 2000 can be set to be either °C or °F. In the case of analogue transmitters it is assumed that the 4-20mA current value is calibrated in the required units. However, in the case of HART transmitters the units value is read from the transmitter and compared against the value selected, if the value read does not agree with the value selected an accountable Unit alarm is raised.
  • Page 40 Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION To interface with the hazardous area where intrinsically safe transmitters are used a digital safety barrier must be used a typical barrier is a Measurement Technology Ltd barrier Model MTL3046B or MTL 5042.

  • Page 41: Analogue Transmitter Pressure And Temperature Inputs

    100Ω at 0°C and operating range of -20°C to 100°C. PRT linearization is performed by the Model 2000 automatically. The PRT is energised at 3.5mA. with a constant current source and is connected to the Model 2000 in a 3 wire configuration compensating for line resistance changes due to ambient temperature changes.

  • Page 42: Multiple Transmitter Inputs

    Low alarm settings and a Keypad or preset value. These values are displayed under the Preset menu item. If the Model 2000 has either gas data written into it via a suitable Modbus port or is set to receive gas data from a connected gas chromatograph or has Analogue inputs set for gas component values, then the values received will be displayed under the Received menu item.

  • Page 43: Normal Operation

    Pre-Set Gas Data To operate the Model 2000 in preset gas data mode, it is only required to set a keypad value for all gas data items, it is not necessary to enter any Max, Min, Hi or Lo values. Under the Used menu option the Model 2000 will display the gas data values currently being used and the origin status of those values, in this case as the Model 2000 has no other values it will use the keypad values and display the source for each item as Keypad.

  • Page 44: Alarm Operation

    GAS CHROMATOGRAPH INPUT The Model 2000 can be set to operate with a Gas Chromatograph input for Gas Data, See paragraph 2.4.7 for details of Gas data inputs and page 75 for details of Gas Chromatograph types that are supported. The following parameters will need to...

  • Page 45: Average Gas Data

    DENSITY TRANSDUCER INPUTS The density meter input to the Model 2000 is for a high frequency periodic type meter. It uses the same type of input as would be configured for a turbine pulse inputs and this is of the form of one periodic input signal with the following parameters.

  • Page 46: Solartron Density Transducer Inputs

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION 2.4.8.2. SOLARTRON DENSITY TRANSDUCER INPUTS The basic equation used for calculation of the Line density is as follows:- − − ρ × × × × Where ρ : Line Density of gas in kg/m3...
  • Page 47 Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION Velocity of Sound in Flowing gas γ × × − − × × ρ × × ρ ρ Where : Velocity of Sound in Flowing gas Equation 4) γ0 : Low Pressure Ratio of Specific Heats DATA ENTRY : Line gas Pressure in Bar.a...

  • Page 48: Sarasota Density Transducer Inputs

    RELATIVE DENSITY TRANSDUCER INPUT The relative density meter input to the Model 2000 is for a high frequency periodic type meter. It uses the same type of input as would be configured for a turbine pulse inputs and this is of the form of one periodic input signal with the following parameters.

  • Page 49: Switch Status Inputs

    Model 2000 either On (contact closed) or Off (contact open).

  • Page 50: Station Pressure And Temperature Inputs

    STATION PRESSURE UNITS The Units of station pressure used in the Model 2000 can be set to be either bar, Kpa, Kg/cm2 or psi in either absolute or gauge form. In the case of analogue transmitters it is assumed that the 4-20mA current value is calibrated in the required units.

  • Page 51: Analogue Transmitter Station Pressure And Temperature Inputs

    NAMUR serial communication protocol. When used in this way the Model 2000 displays the received information, it does not use it for any flow calculation purposes. The Model 2000 will read and display the following Parameters from the attached device:- Meaning a<US>...

  • Page 52: Output Signals

    As an alternative to the Digital inputs described in paragraph 2.5.10 to indicate that a Grab Sampler Can is full the Model 2000 can also accept current input signals for sample can level indication this is fed into an single sided amplifier and having a response time of approximately 470ms.
  • Page 53 Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION Epsilon, if “SP Control” is “As PV Control” − − ∆ − − Epsilon, if “SP Control” is “Only I -action”: − − initial ∆ − − When the PID controller is used in reverse mode: = −...

  • Page 54: Switched Output Signals

    Pressure sensor 1 is below the values of pressure.N min. There is no value for pressure sensor 1 pr1.N val. A communications failure has occurred between the Model 2000 and pressure sensor 1 pr1.N hart. Pressure sensor 1 is in a sensor generated alarm condition pr1.N hsts.

  • Page 55: Turbine Accountable Alarms

    In all cases above the character N will refer to the stream number 1, 2 or 3. 2.6.1.5. DENSITY ACCOUNTABLE ALARMS If the Model 2000 is set-up for use with a periodic measured Density or Relative Density input then the following alarm types can also occur:- Density frequency High alarm (above 5000Hz) densN f hi.

  • Page 56: Station Accountable Alarms

    GENERAL DESCRIPTION 2.6.1.6. STATION ACCOUNTABLE ALARMS If the Model 2000 is set-up for use with Station Pressure or Temperature inputs then the following alarm types can also occur:- Station Pressure is above the values of S.prN max. Station Pressure is below the values of S.prN min.

  • Page 57: Turbine Non Accountable Alarms

    2.6.2.5. DENSITY ACCOUNTABLE ALARMS If the Model 2000 is set-up for use with a periodic measured Density input then the following alarm types can also occur:- Density value is above the High alarm limit densN hi. Density value is below the Low alarm limit densN lo.

  • Page 58: Faults

    All faults will cause the Model 2000 to halt flow calculation and to wait for the defective board to be rectified. When a fault occurs the fault LED is illuminated and the fault identification is shown on the alarm pages of the LCD display.

  • Page 59: Pulsed Outputs For Total Flows

    Total energy flow calculated from either Hs. or Hi. Total energy flow calculated from either Hs. or Hi. Un-haltable counter For Model 2000 set up for Wet Gas Venturi machines type 1 Mass gas from Venturi no correction for wet gas...
  • Page 60 Each of the above totals (not the Un-haltable counters) is available for normal flows as listed and for Error (or Alarm) flows. They are available for each a fitted stream and for the sum of the streams if available. If the Model 2000 is set-up to use a Bi- directional Turbine meter or Ultrasonic meter input then all totals are also available in both forward (+) direction or reverse (-) direction.

  • Page 61: Pulsed Outputs For Control Functions

    If the Value 254 is written then the Output is set OFF permanently. 2.8.5. FUNCTION OUTPUT A function output can be used to output the results of an internal module from the Model 2000. This can be from a valve module, a lubrication module or any other module. 2.8.6.

  • Page 62: Grab Sampler Calculations

    Model 2000 Flow Computer Instruction Manual GENERAL DESCRIPTION The operator can only modify the cylinder size, grab size and output pulse duration samples if no sampling is in progress and the volume in the cylinder has been reset. The operator can modify the expected production and sample pulse duration to allow for changes in flow during the production period.

  • Page 63: Communications Ports

    COMMUNICATIONS PORTS The Model 2000 has as standard two communication ports operating to the RS232 or RS485 communication standard. Each port can be set up to have separate settings for Baud rate, parity, start and stop bits and handshaking. These ports can be...

  • Page 64: Input 2 Board

    Liquid Meter Input Board This functions assumes that the Model 2000 flow computer is connected to a Liquid Turbine Meter with two inputs A and B this function is preset and cannot be altered by the operator. This function is not defined in this manual see Manual type M2000-230.

  • Page 65: Network 2 Communication Board

    NETWORK 2 COMMUNICATION BOARD The Model 2000 can as an option be fitted with an Ethernet networking board, to enable selected data items to be read via a Network connection. The Network Board can be placed in any of the user board slot position, its functions can be enabled and set-up using the M2000 Windows software Ethernet Access options.

  • Page 66: Printer Facility

    2.11.5. SNTP SYNCHRONISATION The Model 2000 can be synhronised with upto 3 SNTP servers. If more than 1 server is configured, then the first set of valied data received will be used, although the remaining servers will still be read.

  • Page 67: Installation, Initialisation & Calibration

    A power supply with a dc. voltage of between 21 V and 28 V is connected to the terminal block on the rear panel of the Model 2000 ensuring that the polarity is as marked. Ensure that a 3.15A fuse is fitted in the fuse holder located above the terminal block.

  • Page 68: Operation

    Input parameters that will require calibration via the Keyboard and Display of the Model 2000. When this menu item is selected the user will be prompted to enter a four digit numeric password, to gain access to the calibration pages.

  • Page 69: Analogue Input Signals

    At this stage in the calibration session the High and Low calibration point number changes have been recorded but are not being used by the Model 2000. The input parameter should now be physically altered until it corresponds to the High or Low calibration point and the display cursor set to point at which ever (High or Low) calibration point is being entered.

  • Page 70: Output Signals

    OUTPUT SIGNALS 3.5.2.1. DIGITAL OUTPUT SIGNALS The Digital Output signals in the Model 2000 do not require any customer calibration to be carried out. 3.5.2.2. ANALOGUE OUTPUT SIGNALS The Analogue Output signals are factory calibrated and should not require any customer adjustment, however, each Output has individual Gain (G) and Zero (Z) controls which can be adjusted to customer settings if required.

  • Page 71: Maintenance

    Switch off the power to the Model 2000 and check that all of the circuit boards are fully engaged in their sockets and are positioned in the correct location.

  • Page 72: Input Board Link Settings

    Model 2000 Flow Computer Instruction Manual MAINTENANCE 4.3. INPUT BOARD LINK SETTINGS Link No. Function Factory setting Notes HF Input 1 Resistor bypass OMIT HF Input 1 0V 24 Connection OMIT HF Input 2 Resistor bypass OMIT HF Input 2 0V 24 Connection...

  • Page 73: Input 2 Board 4 Wire Prt Link Settings

    Model 2000 Flow Computer Instruction Manual MAINTENANCE 4.5. INPUT 2 BOARD 4 WIRE PRT LINK SETTINGS Link No. Function Factory setting Notes HF Input 1 Resistor bypass OMIT HF Input 1 0V 24 Connection OMIT HF Input 2 Resistor bypass...

  • Page 74: Display Board Link Settings

    HF Input 2 de-bounce ON OMIT See figure 15 for the location of the links. 4.9. COMMS BOARD LINK SETTINGS Issue 4 type Communication Board Assy 2000-3-032 are fitted with Links 1 – 4 as described below Link No. Function Factory setting Notes...

  • Page 75: Appendix 1 Alarm Information

    Model 2000 Flow Computer Instruction Manual APPENDIX 1 ALARM, WARNING & FAULT CODES APPENDIX 1 Alarm Information. APPENDIX 1a Alarm, Warning and Fault Codes The alarm, warning and fault codes shown on the display when the alarm pages are selected contain a alarm function code as listed below together with the time and date that the alarm was set and reset (if that has occurred).

  • Page 76: Appendix 1C Parameter Symbols For Accountable Alarms

    Pressure of sensor 1 is below the values of pressureN min. pr1.N val There is no value for pressure sensor 1. pr1.N hart A communications failure has occurred between the Model 2000 and pressure sensor 1. pr1.N hsts Pressure sensor 1 is in a sensor generated alarm condition. pr1.N unit The selected pressure units do not match the units indicated by pressure sensor 1.
  • Page 77 S.pr1 val There is no value for Station pressure 1. S.pr1 hart A comms failure has occurred between the Model 2000 and Station pressure sensor 1. S.pr1 hsts Station Pressure sensor 1 has a sensor generated alarm condition. S.pr1 unit The selected Station pressure units do not match the units indicated by Station pressure sensor 1.
  • Page 78 There is no value for high range dp sensor 1. dph1.N hrt A comms failure has occurred between the Model 2000 and high range dp sensor. dph1.N hst high range dp sensor 1 is in a sensor generated alarm condition.

  • Page 79: Appendix 1D Temperature Alarm

    Model 2000 Flow Computer Instruction Manual APPENDIX 1 ALARM, WARNING & FAULT CODES n-C7.N min/max Heptane below min or above max alarm levels. n-C8.N min/max Octane below min or above max alarm levels. n-C9.N min/max Nonane below min or above max alarm levels.

  • Page 80: Appendix 2

    Model 2000 Flow Computer Instruction Manual APPENDIX 2 AUDIT LOG EVENT CODES APPENDIX 2 Event Codes The following is a list of Events that can be recorded by the Model 2000 in the event log. Event Status Code EVENT TYPE No Event...
  • Page 81 Model 2000 Flow Computer Instruction Manual APPENDIX 2 AUDIT LOG EVENT CODES Event Status Code EVENT TYPE Lubrication Start 1 Lubrication Start 2 Lubrication Start 3 Lubrication Start 4 Lubrication Start 5 Lubrication Error 1 Lubrication Error 2 Lubrication Error 3...

  • Page 82: Appendix 3 Gas Chromatographs Supported

    APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3 Gas Chromatographs Supported The following is a list of Gas Chromatographs that are supported for connection to the Model 2000 and the Modbus Addresses that will be read. Appendix 3a Instromet ENCAL 2000...

  • Page 83: Appendix 3A Instromet Encal 2000, Daniels 2251, Daniels 2551 And Abb 8X00 Chromatographs

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3a Instromet Encal 2000, Daniels 2251, Daniels 2551 and ABB 8X00 Chromatographs Status information Instromet/Daniels/ABB models Addr. Function Code Number Format 3034 GC Stream Number 1, 2 or 3...
  • Page 84 Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED Gas Analysis results Instromet/Daniels/ABB models Example codes 7001 to 7016 can appear in any order Address Function Number Format 7001 Mol % C6+ IEEE 32 bit Float 7002 Mol % N2...

  • Page 85: Appendix 3B Yamatake Model Hgc303 Chromatograph

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3b Yamatake Model HGC303 Chromatograph Address Function Number Format 3058 New data available flag 1 = Ready unsigned 16 bit integer 0 = Copy Data 3059 Analysis/Calibration 1 = Analysis...

  • Page 86: Appendix 3C Siemens Optichrome Chromatograph

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3c Siemens Optichrome Chromatograph Gas Component Default Address Number Format Status 30001 unsigned 16 bit integer Unit will continue to read the above register until the following conditions are correct...

  • Page 87: Appendix 3D Rosemount Gcx Chromatograph

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3d Rosemount GCX Chromatograph Gas Component Default Address Number Format Status 10001 0 = OK 1 = Reset Status 10002 0 = Run 1 = Stopped Status 10003 to 10008...

  • Page 88: Appendix 3E Instromet Station Controller Type 793-7Sc Chromatograph Emulation

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3e Instromet Station Controller Type 793-7SC Chromatograph Emulation Addr. Function Number Format 10380 Stream Number Double 4321 8 bytes 10381 Alarms Double 4321 8 bytes Unit will continue to read the above registers if the Stream Number is a required Stream and there are no communication alarms or status alarms it will then read the following data.

  • Page 89: Appendix 3F Instromet Model 2000 And Ensonic Chromatograph Emulation

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3f Instromet Model 2000 and ENSonic Chromatograph Emulation Addr. Function Number Format 1000 GC Stream Number unsigned short integer 4321 2 bytes 1001 Chr.Analysed stream unsigned short integer 4321 2 bytes...

  • Page 90: Appendix 3G Abb Model 3100 Chromatograph

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3g ABB Model 3100 Chromatograph. Model 2000 will read the following Coil addresses, to determine what mode the Analyser is in Coil Addresses Read using Modbus Function 01 Address Function...

  • Page 91: Appendix 3H Instromet Encal 3000 Chromatograph

    The order of the variables in the modbus listings of the Encal 3000 must match the order of the components found in the “Encal Component Codes” tab of the Model 2000 Configuration Software. This allows for quick and easy changing of one or many components.
  • Page 92 Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED 7#10 Component Number 11 Default iC5 7#11 Component Number 12 Default nC5 7#12 Component Number 13 Default nC6 7#13 Component Number 14 Default nC7 7#14 Component Number 15 Default nC8...

  • Page 93: Appendix 3I Siemens Maxum Ii Chromatograph

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3i Siemens Maxum II Chromatograph. When communicating with the Siemens Maxum II Gas Chromatograph the Model 2000 request the following data. Address Modbus Function Function Values Alarms 1100...

  • Page 94: Appendix 3J Daniels 2350 Chromatograph

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED APPENDIX 3j Daniels 2350 Chromatograph Status information Addr. Function Code Number Format 3034 GC Stream Number 1, 2 or 3 etc. unsigned 16 bit integer 3059 Analysis/Calibration 1=Analysis unsigned 16 bit integer...

  • Page 95: Appendix

    Model 2000 Flow Computer Instruction Manual APPENDIX 3 GAS CHROMATOGRAPHS SUPPORTED 3012 Component code for H2 unsigned 16 bit integer 3013 Component code for Helium unsigned 16 bit integer 3014 Component code for Oxygen unsigned 16 bit integer 3015 Component code for CO...

  • Page 96: External Connections

    Model 2000 Flow Computer Instruction Manual APPENDIX 4 CONNECTOR PIN IDENTIFICATION APPENDIX 4 External Connections CONNECTOR PIN IDENTIFICATION FOR INPUT AND OUTPUT SIGNALS SOCKET No SKT 1 RS232/RS485 SIGNALS COMMS PORT 1 9 Pin Female D type Pin No. FUNCTION...
  • Page 97 Model 2000 Flow Computer Instruction Manual APPENDIX 4 CONNECTOR PIN IDENTIFICATION INPUT MODULE TERMINAL CONNECTIONS Terminal FUNCTION Terminal FUNCTION Status Input 1 LED + High Freq. Input 2 LED + Status Input 1 LED – High Freq. Input 2 LED –...
  • Page 98 4-20mA Input 1 + 3 Wire PRT Input B 4-20mA Input 3 – 3 Wire PRT Input A 4-20mA Input 3 + INPUT 2 BOARD MODULE TERMINAL CONNECTIONS. Type 2 (4 wire PRT Input) ASSY 2000-3-180 Terminal FUNCTION Terminal FUNCTION Status Input 1 LED + High Freq.
  • Page 99 Model 2000 Flow Computer Instruction Manual APPENDIX 4 CONNECTOR PIN IDENTIFICATION POWER SUPPLY INPUT CONNECTOR Terminal No. FUNCTION +24V +24V dc positive power supply Terminal Earth connection terminal 0V24 Power Supply 0V terminal AUXILIARY POWER SUPPLY OUTPUT CONNECTOR Terminal No.

  • Page 100: Appendix 5

    Model 2000 Flow Computer Instruction Manual APPENDIX 5 APPENDIX 5 Coriolis Communications Micro Motion Modbus List Size Num. Register Address Type (Bytes) Name Registers Size Action 16 bit U.Int Flow Units (Mass) 16 bit U.Int Total Units (Mass) 16 bit U.Int Flow Units (Volume) 16 bit U.Int...

  • Page 101: Appendix 6 Ultrasonic Meters

    Model 2000 Flow Computer Instruction Manual APPENDIX 6 APPENDIX 6 Ultrasonic Meters APPENDIX 6a Instromet QSonic The Instromet QSonic meter is read using 2 modbus packets. Packet 1 contains the following data:- Address Type Size Name 1000 Unsigned Integer 2 bytes...

  • Page 102: Appendix 6B Daniels Senior Sonic

    Model 2000 Flow Computer Instruction Manual APPENDIX 6 APPENDIX 6b Daniels Senior Sonic The Daniels Senior Sonic ultrasonic meter is read using 3 modbus packets. Packet 1 contains the following data:- Address Type Size Name 62 - 65 Unsigned Integer 2 bytes Path Status.

  • Page 103: Appendix 6C Flowsic 600

    Model 2000 Flow Computer Instruction Manual APPENDIX 6 APPENDIX 6c FlowSIC 600 The FlowSIC 600 ultrasonic meter is read using 4 modbus packets. Packet 1 contains the following data:- Address Type Size Name 3001 Unsigned Integer 2 bytes Type 3002...

  • Page 104: Appendix 6E Panametrics Igm 878

    Model 2000 Flow Computer Instruction Manual APPENDIX 6 APPENDIX 6e Panametrics IGM 878 The Panametrics IGM 878 ultrasonic meter is read using 1 modbus packet. This packet contains the following data:- Address Type Size Name 1 - 2 Floating Point...
  • Page 105 Model 2000 Flow Computer Instruction Manual APPENDIX 6 Unsigned Integer 2 bytes Number of paths Unsigned Integer 2 bytes Modbus address Model 2000 issue 21 Page No...

  • Page 106: Appendix 7 Figure List

    Typical HART Transmitter Connections (no barriers) Fig. 19 Typical Analogue Pressure Transmitter Connections Fig. 20 Typical Analogue 3 Wire PRT Transmitter Connections Fig. 21 Use of the Model 2000 Programming Cable Fig. 22 Typical HART Transmitter Connections Fig. 23 Typical Turbine Meter Connections Fig. 24 Display Board USB connector Type Fig.

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