Page 1 Reference Manual 00809-0100-4021, Rev JA April 2017 ™ Rosemount 3144P Temperature Transmitter ™ with Rosemount X-well Technology...
Page 3: Table Of Contents
1.2 Rosemount 3144P revisions ........
Page 4 Contents Reference Manual 00809-0100-4021, Rev JA April 2017 3Section 3: HART Commissioning 3.1 Overview ............... 29 3.2 Confirm HART revision capability .
Page 5 Reference Manual Contents 00809-0100-4021, Rev JA April 2017 3.11.3 Intermittent sensor detect ..........94 3.11.4 Intermittent threshold.
Page 6 Contents Reference Manual 00809-0100-4021, Rev JA April 2017 4.4.9 Signal characterizer (index number 2100)........137 4.5 Resource block.
Page 7 6.2 Rosemount 3144P safety certified identification ........
Page 8 Contents Reference Manual 00809-0100-4021, Rev JA April 2017 B.2.3 International ............205 B.2.4 Brazil .
Page 9 The products described in this document are NOT designed for nuclear-qualified applications. Using non-nuclear qualified products in applications that require nuclear-qualified hardware or products may cause inaccurate readings. For information on Rosemount nuclear-qualified products, contact your local Emerson Sales Representative. Title Page...
Page 10 Reference Manual Title Page 00809-0100-4021, Rev JA April 2017 Title Page...
Page 11: Section 1 Introduction
 Section 4: Foundation Fieldbus Configuration provides instruction on commissioning and operating  Rosemount 3144P Transmitter. Information on software functions, configuration parameters, and online variables is also included. Section 5: Operation and Maintenance contains operation and maintenance techniques. ...
Page 12: Rosemount 3144P Revisions
Rosemount DIN-Style Temperature Sensors and Thermowells (Metric) Product Data Sheet,  Rosemount 3144P revisions HART Protocol The initial release of the Rosemount 3144P HART was device revision 3. Each additional revision contains incremental improvements. Table 1-1 summarizes these changes. Table 1-1. HART Revisions Identify device...
Page 13 Reference Manual Introduction 00809-0100-4021, Rev JA April 2017 Fieldbus OUNDATION The following table summarizes the Rosemount 3144P F Fieldbus revision history. OUNDATION Table 1-2. F Fieldbus Revisions OUNDATION NAMUR NAMUR Device Software Hardware software hardware Description Date revision revision revision...
Page 14 Introduction Reference Manual 00809-0100-4021, Rev JA April 2017 Table 1-2. F Fieldbus Revisions OUNDATION NAMUR NAMUR Device Software Hardware software hardware Description Date revision revision revision revision revision Device Compliance to ITK 6.0.1. Addition of NE107 device diagnostic information. Ease of use improvements including: Hot Backup functionality has been moved to ...
Page 15: Confirm Hart Revision Capability
Reference Manual Introduction 00809-0100-4021, Rev JA April 2017 Confirm HART revision capability If using HART based control or asset management systems, confirm the HART capability of those systems prior to transmitter installation. Not all systems are capable of communicating with HART Revision 7 Protocol.
Page 16 Introduction Reference Manual 00809-0100-4021, Rev JA April 2017 Introduction...
Page 17: Safety Messages
Reference Manual Installation 00809-0100-4021, Rev JA April 2017 Section 2 Installation Safety messages ..............page 7 Electrical .
Page 18: Installation Considerations
Installation Reference Manual 00809-0100-4021, Rev JA April 2017 Installation considerations 2.2.1 General Electrical temperature sensors, such as resistance temperature detectors (RTDs) and thermocouples ™ (T/Cs), produce low-level signals proportional to temperature. The Rosemount 3144P Temperature ® ™ Transmitter converts low-level signals to HART or F Fieldbus and then transmits the signals OUNDATION...
Page 19: Moist Or Corrosive Environments
2.2.4 Moist or corrosive environments The Rosemount 3144P Transmitter has a highly reliable dual compartment housing designed to resist moisture and corrosion. The sealed electronics module is mounted in a compartment that is isolated from the terminal side with conduit entries. O-ring seals protect the interior when the covers are properly installed.
Page 20: Software Compatibility
The latest device descriptors (DD) are available with new Field Communicators or they can be loaded into existing communicators at any Emerson Service Center or via the Easy Upgrade process. For more information on upgrading a Field Communicator, see Section 3: HART Commissioning.
Page 21: Set The Switches
Reference Manual Installation 00809-0100-4021, Rev JA April 2017 2.3.2 Set the switches HART Without an LCD display 1. If the transmitter is installed in a loop, set the loop to manual mode and disconnect the power. 2. Remove the housing cover on the electronics side of the transmitter. Do not remove the transmitter cover in explosive atmospheres with a live circuit.
Page 22 Installation Reference Manual 00809-0100-4021, Rev JA April 2017 With an LCD display 1. If the transmitter is installed in a loop, set the loop to OOS (if applicable) and disconnect the power. 2. Remove the housing cover on the electronics side of the transmitter. Do not remove the transmitter cover in explosive atmospheres with a live circuit.
Page 23: Mounting
Reference Manual Installation 00809-0100-4021, Rev JA April 2017 Table 2-1. Values for Standard and NAMUR Operation Standard operation (factory default) NAMUR-compliant operation 21.75 mA ≤ I ≤ 23.0 mA 21 mA ≤ I ≤ 23.0 mA Fail high Fail high I ≥...
Page 24: Installation
Installation Reference Manual 00809-0100-4021, Rev JA April 2017 If mounting the transmitter directly to the sensor assembly, use the process shown in Figure 2-6 on page 15. If mounting the transmitter apart from the sensor assembly, use conduit between the sensor and transmitter.
Page 25: Typical European Installation
Reference Manual Installation 00809-0100-4021, Rev JA April 2017 Figure 2-6. Typical Direct Mounted Configuration 3.2 in. A. Thermowell D. Extension fitting length B. Extension E. Conduit for field wiring (dc power) C. Union or coupling Note ® The National Electrical Code (NEC ) requires that a barrier or seal be used in addition to the primary (sensor) seal to prevent process fluid from entering the electrical conduit and continuing to the control room.
Page 26: Rosemount X-Well ™ Installation
Rosemount X-well Technology is for temperature monitoring applications and is not intended for control or safety applications. It is available in the Rosemount 3144P Temperature Transmitter in a factory assembled direct mount configuration with a Rosemount 0085 Pipe Clamp Sensor. It cannot be used in a remote mount configuration.
Page 27: In Conjunction With A Rosemount 333 Hart Tri-Loop™ (Hart/4-20 Ma Only)
In conjunction with a Rosemount 333 HART Tri-Loop (HART/4–20 mA only) Use the dual-sensor option Rosemount 3144P Transmitter that is operating with two sensors in conjunction with a Rosemount 333 HART Tri-Loop HART-to-Analog Signal Converter to acquire an independent 4–20 mA analog output signal for each sensor input. The transmitter can be configured to...
Page 28 Tri-Loop to a DIN Refer to HART Rail Tri-Loop Pass System Reference Manual Test? 3144P Installed? Run Wires from Rosemount 3144P to Install the Burst Input Terminals Rosemount 3144P DONE Set the Rosemount Install Channel 1 3144P Burst Wires from...
Page 29: Lcd Display
Reference Manual Installation 00809-0100-4021, Rev JA April 2017 2.5.5 LCD display Transmitters ordered with the LCD display option (code M5) are shipped with the LCD display installed. After-market installation of the LCD display on a conventional transmitter requires a small instrument screwdriver and the LCD display kit, which includes: LCD display assembly ...
Page 30: Multichannel Installation (Hart/4-20 Ma Only)
Installation Reference Manual 00809-0100-4021, Rev JA April 2017 2.5.6 Multichannel installation (HART/4–20 mA only) Several transmitters can be connected to a single master power supply (see figure below). In this case, the system may be grounded only at the negative power supply terminal. In multichannel installations, where several transmitters depend on one power supply and the loss of all transmitters would cause operational problems, consider an uninterrupted power supply or a back-up battery.
Page 31 1. Transmitter must be configured for a 3-wire RTD in order to recognize an RTD with a compensation loop. 2. Emerson provides 4-wire sensors for all single-element RTDs. Use these RTDs in 2- or 3-wire configurations by leaving the unneeded leads disconnected and insulated with electrical tape.
Page 32 Installation Reference Manual 00809-0100-4021, Rev JA April 2017 Power/current loop connections Use copper wire of a sufficient size to ensure that the voltage across the transmitter power terminals does not go below 12.0 Vdc. 1. Connect the current signal leads as shown in Figure 2-13.
Page 33: Foundation Fieldbus
1. Transmitter must be configured for a 3-wire RTD in order to recognize an RTD with a compensation loop. 2. Emerson provides 4-wire sensors for all single-element RTDs. Use these RTDs in 2- or 3-wire configurations by leaving the unneeded leads disconnected and insulated with electrical tape.
Page 34: Power Supply
When using Rosemount X-well Technology, the Rosemount 3144P Temperature Transmitter is required to be assembled to a Rosemount 0085 Pipe Clamp RTD Sensor in a direct mount 4-wire configuration. It can be changed to 3- or 2-wired configuration, if required, in the field.
Page 35: Surges/Transients
If the technique does not eliminate the transmitter alarms, try another technique. If all of the techniques do not eliminate or prevent the transmitter alarms because of high EMI, contact an Emerson Process Management representative.
Page 36 Installation Reference Manual 00809-0100-4021, Rev JA April 2017 Ungrounded thermocouple, mV, and RTD/ohm inputs Option 1: Recommended for ungrounded transmitter housing 1. Connect the signal wiring shield to the sensor wiring shield. 2. Ensure the two shields are tied together and electrically isolated from the transmitter housing. 3.
Page 37: Transmitter Housing
Reference Manual Installation 00809-0100-4021, Rev JA April 2017 Option 3 1. Ground the sensor wiring shield at the sensor, if possible. 2. Ensure the sensor wiring and signal wiring shields are electrically isolated from the transmitter housing and other fixtures that may be grounded. 3.
Page 38 Installation Reference Manual 00809-0100-4021, Rev JA April 2017 Installation...
Page 39: Overview
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Section 3 HART Commissioning Overview ............... . . page 29 Confirm HART revision capability .
Page 40: Field Communicator
Updating the HART communication software The Field Communicator software may need to be updated to take advantage of the additional features available in the latest Rosemount 3144P. Perform the following steps to determine if an upgrade is necessary. 1. Select Rosemount from the list of manufacturers 5 and 6 and 3144 Temp from the list of models.
Page 41 00809-0100-4021, Rev JA April 2017 Note If communication is initiated with an improved Rosemount 3144P using a communicator that only has a previous version of the transmitter device descriptors (DDs), the communicator will display the following message: NOTICE: Upgrade to the field communicator software to access new XMTR functions.
Page 42: Device Dashboard Menu Tree
HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 3.4.2 Device dashboard menu tree Figure 3-1. Rosemount 3144P Device Dashboard HART 5- Overview Good 1. No Active Alerts Failed 1. Invalid Configuration 2. Electronics Failure 3. Calibration Error Active Alerts 4.
Page 43 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Figure 3-2. Rosemount 3144P Device Dashboard HART 5 - Configure Sensor 1 Guided Setup 1. Sensor 1 Temp 1. Configure Sensors 2. Sensor 1 Type 2. Calibrate Sensors 3. Sensor 1 Connection 3.
Page 44 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Figure 3-3. Rosemount 3144P Device Dashboard HART 5- Service Tools Good 1. No Active Alerts Failed 1. Invalid Configuration 2. Electronics Failure 3. Calibration Error Active Alerts 4. Sensor Drift Alert Active 1.
Page 45 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Figure 3-4. Rosemount 3144P Device Dashboard HART 7- Overview Good 1. No Active Alerts Failed 1. Invalid Configuration 2. Electronics Failure 3. Calibration Error Active Alerts 4. Sensor Drift Alert Active 1.
Page 46 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Figure 3-5. Rosemount 3144P Device Dashboard HART 7- Configure Sensor 1 Guided Setup SensorMatching-CVD Sensor 1 Temp 1. Configure Sensors Sensor 1 Status 1. RO Value 2. Calibrate Sensors Sensor 1 Type 2.
Page 47 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Figure 3-6. Rosemount 3144P Device Dashboard HART 7- Service Tools Good 1. No Active Alerts Failed 1. Invalid Configuration 2. Electronics Failure 3. Calibration Error Active Alerts 4. Sensor Drift Alert Active 1.
Page 48: Device Dashboard Fast Key Sequences
April 2017 3.4.3 Device dashboard Fast Key sequences Fast Key sequences are listed below for common Rosemount 3144P transmitter functions. Note The Fast Key sequences assume that “Device Revision Dev 5 (HART 5) or v7 (HART 7), DD v1” is being used.
Page 49: Review Configuration Data
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Table 3-1. Fast Key Sequences Function HART 5 Fast Keys HART 7 Fast Keys Sensor 2 setup 2, 2, 2 2, 2, 2 Sensor 2 status 2, 2, 2, 2 Sensor 2 type 2, 2, 2, 2 2, 2, 2, 3 Sensor 2 unit...
Page 50: Analog Output
The primary variable is 4–20 mA analog signal. Configuration The Rosemount 3144P must have certain basic variables configured to operate. In many cases, these variables are pre-configured at the factory. Configuration may be required if the configuration variables need revision.
Page 51: Change Type And Connections
–10 to 100 millivolts  2-, 3-, or 4-wire 0 to 2000 ohms  Contact an Emerson representative for information on temperature sensors, thermowells, and accessory mounting hardware that is available through Emerson. 3.7.4 Output units Sensor 1: 2, 2, 1, 4...
Page 52: Sensor 2 Serial Number
2, 2, 3, 1 Field Communicator The Rosemount 3144P configured for a dual-sensor can accept any two inputs then display the differential temperature between them. Use the following procedure with traditional Fast Keys to configure the transmitter to measure differential temperature: Note This procedure reports the differential temperature as the primary variable analog signal.
Page 53 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Note The transmitter determines the differential temperature by subtracting the reading of Sensor 2 from Sensor 1 (S1– S2). Ensure this order of subtraction is consistent with the desired reading for the application.
Page 54 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 First good configuration HART 5 Fast Keys 2, 2, 3, 2 HART 7 Fast Keys 2, 2, 3, 2 Field Communicator The first good device variable is useful for applications where dual-sensors (or a single dual element sensor) are used in a single process.
Page 55 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 How it works: Two sensors are wired to a dual-input transmitter. The two sensors are measured in alternating fashion, so when sensor 1 failure is detected, the transmitter can immediately switch the output to reflect the sensor 2 value.
Page 56 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 5. When prompted, choose which variable you would like as your primary variable (PV) and select ENTER. With Hot Backup enabled, the PV must either be First Good Temperature or Average Temperature.
Page 57 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 5. When prompted, choose which variable you would like as your primary variable (PV) and select ENTER. With Hot Backup disabled, the PV may be Sensor 1 Temperature, Sensor 2 Temperature, Differential Temperature, Average Temperature, or First Good Temperature.
Page 58 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 4. Select 1 Hot Backup. 5. Select 3 Config Hot Backup. 6. When prompted, select 1 Yes to enable Hot Backup. To exit, select 2 No. 7. When prompted, choose which variable you would like as your primary variable (PV) and select ENTER.
Page 59 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 2. Select 2 Manual Setup. 3. Select 4 Diagnostics. 4. Select 1 Hot Backup. 5. Select 3 Config Hot Backup. 6. When prompted, select 1 Yes to disable Hot Backup. To reconfigure Hot Backup, select 2 No.
Page 60 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 7. When prompted, choose which variable you would like as your primary variable (PV) and select ENTER. With Hot Backup disabled, the PV may be Sensor 1 Temperature, Sensor 2 Temperature, Differential Temperature, Average Temperature, or First Good Temperature.
Page 61 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 5. You will see this screen. Under 1 Mode, it will say either Enabled or Disabled, as well as indicate what your primary variable is. Alerts configuration for Hot Backup Alerts for Hot Backup when configured with first good temperature Primary sensor failure Communicator message If your primary sensor fails, there will be a seamless transition where your second sensor immediately...
Page 62 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 It is recommended Hot Backup be reset immediately after repairing or replacing the affected sensor. See “Reset Hot Backup: Fast Keys 2-2-4-1-4” on page 76. After resetting Hot Backup, the Field Communicator will display an Advisory Device Status, indicating that the configuration has changed.
Page 63 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the LCD display on the transmitter will display a message WARN HOT BU as well as the output of the secondary sensor that has taken over the process. It is recommended that Hot Backup be reset immediately after repairing or replacing the affected sensor.
Page 64 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the Faceplate window in DeltaV will display boxes next to each alarm that has been addressed. You must acknowledge each alarm to clear it by checking the ACK box to the left of the alarm.
Page 65 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 ™ Yokogawa’s Centum PRM/DTM messages When the primary sensor fails, alarms will be displayed in the PRM (Plant Resource Manager) via yellow circles next to the device, as shown below. These yellow circles indicate that something in your process needs attention.
Page 66 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 To investigate why the device displays a Failed status, Select Troubleshoot in the red device status box. Another screen will display the active alerts indicating FAILED Sensor 1 Open, and MAINTENANCE Hot Backup Active, as shown below: After the sensor has been repaired or replaced, the device status in the Process Variable Overview section of the DTM will change from Failed to Maintenance.
Page 67 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Investigate this Maintenance alert by selecting Troubleshoot in the yellow device status box. Another screen will display the active alerts, indicating MAINTENANCE Hot Backup Active, as shown below: It is recommended that Hot Backup be reset immediately after repairing or replacing the affected sensor. “Reset Hot Backup: Fast Keys 2-2-4-1-4”...
Page 68 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 After resetting Hot Backup, the device status in the Process Variable Overview section of the DTM will change from Maintenance to Advisory, as shown below: Investigate this advisory alert by clicking Investigate in the blue device status box. Another screen will display the active alerts, indicating ADVISORY Configuration Changed, as shown below.
Page 69 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 When all of the alerts for this device have been addressed, the yellow circles in the PRM change to green, indicating that everything is good. Secondary sensor failure Communicator message If Hot Backup is enabled and your secondary sensor fails, your transmitter will report a Failed device status, as shown below on the Field Communicator in the Overview section.
Page 70 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 LCD display message The LCD display on the transmitter will display a message WARN SNSR 2 FAIL. It will also continue to display the output of your primary sensor: After the sensor has been repaired or replaced, the LCD display warning message will clear and display the output of the primary variable.
Page 71 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the faceplate in DeltaV will display boxes next to the alarms, shown below. You must acknowledge these alarms by clicking on the boxes in order to clear them.
Page 72 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 In the DTM, the device status will indicate a Failed status in the Process Variable Overview section, shown below: To investigate why the device displays a Failed status, select Troubleshoot in the red device status box. Another screen will display the active alerts indicating FAILED Sensor 2 Open, as shown below: HART Commissioning...
Page 73 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the alerts will clear, and the yellow circles in the PRM change to green, indicating that everything is good. Hot Backup does not need to be reset in this case. Alerts for Hot Backup when configured with average temperature Primary sensor failure Communicator message...
Page 74 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the Field Communicator will display a Maintenance Device Status, indicating Hot Backup is still active. This is shown on the Field Communicator in the Overview section.
Page 75 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 LCD display message The LCD display on the transmitter will display a message HOT BU SNSR 1 FAIL; WARN AV DEGRA as well as the output of the average temperature. Because Sensor 1 has failed, this average temperature output is the value of Sensor 2 only.
Page 76 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Note For all of these alarms to appear in DeltaV, all alarms in DeltaV must be configured to WARNING status. After the sensor has been repaired or replaced, the faceplate window in DeltaV will display boxes next to each alarm that has been addressed.
Page 77 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 It is recommended that Hot Backup be reset immediately after repairing or replacing the affected sensor. “Reset Hot Backup: Fast Keys 2-2-4-1-4” on page 76. After resetting Hot Backup, the DeltaV Faceplate window indicates the alarms ADVISE Configuration Change and MAINTENANCE Hot Backup Active.
Page 78 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 In the DTM, the device status will indicate a Failed status in the Process Variable Overview section, shown below: To investigate why the device displays a Failed status, select Troubleshoot in the red device status box. Another screen will display the active alerts indicating FAILED Sensor 1 Open, and MAINTENANCE Hot Backup Active, as shown below: HART Commissioning...
Page 79 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the device status in the Process Variable Overview section of the DTM will change from Failed to Maintenance. Investigate this Maintenance alert by selecting Troubleshoot in the yellow device status box. Another screen will display the active alerts, indicating MAINTENANCE Hot Backup Active, as shown below: HART Commissioning...
Page 80 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 It is recommended that Hot Backup be reset immediately after repairing or replacing the affected sensor. “Reset Hot Backup: Fast Keys 2-2-4-1-4” on page 76 with a Field Communicator handheld communicator or reset it directly in the DTM by going to the Diagnostics tab of the Manual Setup section and selecting Reset Hot Backup, as shown below: After resetting Hot Backup, the device status in the Process Variable Overview section of the DTM will change from Maintenance to Advisory, as shown below:...
Page 81 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 When all of the alerts for this device have been addressed, the yellow circles in the PRM change to green, indicating that everything is good. Secondary sensor failure Communicator message If Hot Backup is enabled and your secondary sensor fails, your transmitter will report a Failed device status.
Page 82 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 LCD display message The LCD display on the transmitter will display a message WARN SNSR 2 FAIL; WARN AV DEGRA as well as the output of the average temperature. Because Sensor 2 has failed, this average temperature output is the value of Sensor 1 only.
Page 83 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 After the sensor has been repaired or replaced, the faceplate in DeltaV will display boxes next to the alarms, shown below. You must acknowledge these alarms by clicking on the boxes in order to clear them.
Page 84 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Yokogawa’s Centum PRM/DTM messages When the secondary sensor fails, alarms will be displayed in the PRM (Plant Resource Manager) via yellow circles next to the device, as shown below. These yellow circles indicate that something in your process needs attention.
Page 85 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 To investigate why the device displays a Failed status, select Troubleshoot in the red device status box. Another screen will display the active alerts indicating FAILED Sensor 2 Open, as shown below: After the sensor has been repaired or replaced, the alerts will clear, and the yellow circles in the PRM change to green, indicating that everything is good.
Page 86 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Reset Hot Backup: Fast Keys 2-2-4-1-4 When the Primary Variable is set to First Good Temperature, the secondary sensor will remain on the 4–20 mA output until Hot Backup is reset, even after Sensor 1 has been replaced. Because of this, it is recommended to reset Hot Backup immediately after Sensor 1 is replaced.
Page 87 AO will go to alarm indicating the sensor drift condition. The combination of sensor drift alert and the Hot Backup feature improves sensor diagnostic coverage while maintaining a high level of availability. Refer to the Rosemount 3144P FMEDA report for the impact on safety.
Page 88 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 How it works: Two sensors are connected to a dual-input transmitter where the difference in sensor readings is continuously being measured. A threshold is set by the user to determine when an excessive drift (i.e. a significant delta) occurs between the two sensors.
Page 89 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 4. Select 1 Enable to activate Sensor Drift Alert and select ENTER. 5. When prompted, select whether you want Sensor Drift Alert to put the transmitter into “Alarm” or “Warning”, and select ENTER. Enabling drift alert option warning only will set a flag (through HART Protocol) whenever the maximum acceptable difference between Sensor 1 and Sensor 2 has been exceeded.
Page 90 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 8. Enter a damping value between 0 and 32 and select ENTER. This damping value is additional damping applied to the result of (S1–S2) after each sensor's individual damping value has already been applied. 9.
Page 91 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 4. Select 2 Disable to disable Sensor Drift alert and select ENTER. 5. Sensor Drift Alert has been disabled. Select OK. Configure Sensor Drift in manual setup Enable Sensor Drift Alert in manual setup: Fast Keys 2-2-4-2-5 1.
Page 92 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 4. Select 2 Sensor Drift Alert. 5. Select 5 Config Drift Alert. 6. Select 1 Enable to activate Sensor Drift Alert and select ENTER. 7. When prompted, select whether you want Sensor Drift Alert to put the transmitter into “Alarm” or “Warning”, and select ENTER.
Page 93 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 9. Enter the Sensor Drift Alert threshold value and select ENTER. This is a digital value that triggers the Drift Alert feature. When this limit is exceeded, the transmitter will go into alarm or generate a warning (depending on the alert mode chosen previously).
Page 94 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 2. Select 2 Manual Setup. 3. Select 4 Diagnostics. 4. Select 2 Sensor Drift Alert. 5. Select 5 Config Drift Alert. 6. Select 2 Disable to disable Sensor Drift alert and select ENTER. HART Commissioning...
Page 95 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 7. Sensor Drift Alert has been disabled. Select OK. To verify Sensor Drift Alert is enabled: Fast Keys 2-2-4-2 1. From the Home Screen, select 2 Configure. 2. Select 2 Manual Setup. 3.
Page 96 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 5. You will see this screen. Under 1 Mode, it will say either Alarm or Warning if enabled, or Disable. If enabled, it will also display the current diagnostic values. Active sensor drift Alerts Viewing Active Sensor Drift Alerts: Fast Keys 1-1-2 When the Sensor Drift Alert diagnostic detects a drifting sensor, the LCD display will display a message;...
Page 97 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 If Sensor Drift Alert is configured in Warning Mode, select 1 Device Status: Maintenance. 3. Select 2 Sensor Drift Alert Active. Resetting active Sensor Drift Alerts: Fast Keys 1-1-1 1. Select 1 Overview. 2.
Page 98: Rosemount X-Well Technology Configuration
Rosemount X-well technology. This section is referring to the process pipe properties that Rosemount 3144P and 0085 Pipe Clamp Sensor with Rosemount X-well technology is going to be installed in. This information is required for the in-transmitter algorithm to accurately calculate process temperature.
Page 99 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 2. Select pipe material. 3. Select line size. 4. Select pipe schedule. 5. If process Pipe Material, Line Size, or Pipe Schedule is not available under Rosemount X-well Process selection, select Rosemount X-well Custom sensor type. 6.
Page 100: Device Output Configuration
HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Configure Rosemount X-well technology with AMS Device Manager Perform the following procedure: 1. Right click on the device and select Configure. 2. In the menu tree, select Manual Setup. 3. Select the Sensor tab. 4.
Page 101: Process Variable Damping
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Reranging the transmitter sets the measurement range to the limits of the expected readings, which maximizes transmitter performance; the transmitter is most accurate when operated within the expected temperature range for the application. The re-range functions should not be confused with the trim function.
Page 102: Alarm And Saturation
HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 3.9.2 Alarm and saturation HART 5 Fast Keys 2, 2, 5, 6 HART 7 Fast Keys 2, 2, 5, 6 Field Communicator The Alarm/Saturation command allows the user to view the alarm settings (Hi or Low). This command can change the alarm and saturation values.
Page 103: Device Information
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 3.10 Device information Access the transmitter information variables online using the Field Communicator or other suitable communications device. The following is a list of transmitter information variables, including device identifiers, factory-set configuration variables, and other information. A description of each variable, the corresponding fast key sequence, and a review are provided.
Page 104: Master Reset
HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 3.10.5 Message HART 5 Fast Keys 2, 2, 7, 1, 4 HART 7 Fast Keys 2, 2, 7, 1, 5 The Message variable provides the most specific user-defined means for identifying individual transmitters in multi-transmitter environments.
Page 105: Intermittent Threshold
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 3.11.4 Intermittent threshold HART 5 Fast Keys 2, 2, 7, 5 HART 7 Fast Keys 2, 2, 7, 5 The threshold value can be changed from the default value of 0.2 percent. Turning the Intermittent Sensor Detect feature OFF or leaving it ON and increasing the threshold value above the default does not affect the time needed for the transmitter to output the correct alarm signal after detecting a true open sensor condition.
Page 106: Open Sensor Holdoff
HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Transmitter behavior with Intermittent Sensor Detect OFF When the Intermittent Sensor Detect feature is switched OFF, the transmitter tracks all process temperature changes, even from an intermittent sensor. (The transmitter in effect behaves as though the threshold value had been set at 100 percent.) The output delay due to the intermittent sensor algorithm will be eliminated.
Page 107: Use With The Hart Tri-Loop
Transmitter the same as in a standard point-to-point installation. Note The Rosemount 3144P is set to address 0 at the factory, allowing it to operate in the standard point-to-point manner with a 4–20 mA output signal. To activate multidrop communication, the transmitter address must be changed to a number between 1 and 15, which deactivates the 4–20 mA...
Page 108 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Note The procedures are to be used when the sensors and transmitters are connected, powered, and functioning properly. Also, a Field Communicator must be connected and communicating to the transmitter control loop. For communicator usage instructions, see “Electrical”...
Page 109 HART Commissioning 00809-0100-4021, Rev JA April 2017 Use these steps to set up the HART Tri-Loop to transmit sensor failure alerts. 1. Configure the dual-sensor Rosemount 3144P variable map as shown. Variable Mapping Sensor 1 or Sensor Average Sensor 2...
Page 110 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 How it works: The thermocouple degradation diagnostic measures the amount of resistance on a thermocouple sensor path. Ideally a thermocouple would have zero resistance, but in reality it has some resistance especially for long thermocouple extension wires.
Page 111 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 4. Select 1 Config TC Diagnostic. 5. Select the sensor for which Thermocouple Diagnostic will be configured. Select from 1 Sensor 1 or 2 Sensor 2 and select ENTER. 6. Select 1 Enable to enable Thermocouple Diagnostic and select ENTER. 7.
Page 112 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 9. Review the summary provided on the communicator and select OK when satisfied or ABORT to exit. 10.Decide if you would like to reset the baseline resistance of the thermocouple you are configuring. If so, select 1 Yes.
Page 113 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 3. Select 7 Diagnostics Suite. 4. Select 1 Config TC Diagnostic. 5. Select the sensor for which Thermocouple Diagnostic will be disabled. Select from 1 Sensor 1 or 2 Sensor 2 and select ENTER. 6.
Page 114 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Configure Thermocouple Degradation in manual setup Enable Thermocouple Degradation in manual setup: Fast Keys 2-2-4-3-4 1. From the Home Screen, select 2 Configure. 2. Select 2 Manual Setup. 3. Select 4 Diagnostics. 4.
Page 115 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 6. Select the sensor for which Thermocouple Diagnostic will be configured. Select from 1 Sensor 1 or 2 Sensor 2 and select ENTER. Select 3 Exit to exit the setup. 7. Select 1 Enable to enable Thermocouple Diagnostic and select ENTER. 8.
Page 116 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 11. Decide if you would like to reset the baseline resistance of the thermocouple you are configuring. If so, select 1 Yes. If not, select 2 No. Return to Main Screen. 12.
Page 117 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 4. Select 3 Sensor and Process Diagnostics. 5. Select 4 Config TC Diagnostic. 6. Select the sensor for which Thermocouple Diagnostic will be disabled. Select from 1 Sensor 1 or 2 Sensor 2 and select ENTER.
Page 118 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Active Thermocouple Degradation alerts Verify Thermocouple Degradation is enabled: Fast Keys 2-2-4 1. From the Home Screen, select 2 Configure. 2. Select 2 Manual Setup. 3. Select 4 Diagnostics. 4. Select 3 Sensor and Process Diagnostics. 5.
Page 119 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Review configuration of the Thermocouple Diagnostic: Fast Keys 2-2-4 1. From the Home Screen, select 3 Service Tools. 2. Select 4 Maintenance. 3. Select 1 T/C Diag Snsr 1 or 2 T/C Diag Snsr 2 depending on which sensor you are interested in. 4.
Page 120 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Viewing Thermocouple Diagnostic Alerts: Fast Keys 1-1-2 When the Thermocouple Degradation diagnostic detects a degraded sensor, the LCD display will display a message; “ALARM SNSR 1 FAIL AO” 1. Select 1 Overview. 2.
Page 121 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 2. Select 1 Device Status: Maintenance. 3. Select 1 Refresh Alerts. Minimum and maximum temperature tracking Minimum and maximum temperature tracking (min/max tracking) can record lifetime minimum and maximum temperatures with date and time stamps on the transmitter. This feature records values for Sensor 1, Sensor 2, differential and terminal (body) temperatures.
Page 122 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Configure Min/Max Tracking in guided setup Enable Min/Max Tracking in guided setup: Fast Keys 2-1-7-2 1. From the Home Screen, select 2 Configure. 2. Select 1 Guided Setup. 3. Select 7 Diagnostics Suite. 4.
Page 123 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 6. Select which parameters you would like to track the minimum and maximum temperatures for. Select between Parameter 1, Parameter 2, Parameter 3, Parameter 4, or all Parameters. 7. Select which variable to track with the selected parameter. Select between Sensor 1, Sensor 2, Average Temperature, First Good Temperature, Differential Temperature, and Terminal Temperature.
Page 124 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 3. Select 4 Diagnostics. 4. Select 3 Sensor and Process Diagnostics. 5. Select 5 Config Min/Max Tracking. 6. Select 1 Enable to enable the Min/Max Tracking feature and select ENTER. 7. Select which parameters you would like to track the minimum and maximum temperatures for. Choose between Parameter 1, Parameter 2, Parameter 3, Parameter 4, or all Parameters.
Page 125 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 8. Select which variable to track with the selected parameter. Select between Sensor 1, Sensor 2, Average Temperature, First Good Temperature, Differential Temperature, and Terminal Temperature. Select ENTER. 9. Repeat Step 7 Step 8 until all desired parameters have been assigned a variable to track.
Page 126 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 4. To view the minimum and maximum recorded temperatures of a parameter, select the parameter you wish to view. 5. To reset all of the minimum and maximum recorded temperature values for all parameters, select 2 Reset All Min/Max.
Page 127: Calibration Frequency
The trim functions allow the user to make adjustments to the factory-stored characterization curve by digitally altering the transmitter’s interpretation of the sensor input. Calibration of the Rosemount 3144P may include: Sensor input trim: Digitally alter the transmitter’s interpretation of the input signal ...
Page 128: Trim The Transmitter
RequiredPerformance TPE  CalFreq ---------------------------------------------------------------------------------------- - StabilityPerMonth Example for Rosemount 3144P Pt 100 (α = 0.00385) Reference temperature is 20 °F Process temperature change is 0–100 °C Ambient temperature is 30 °C 1. Required performance: ± 0.35 °C 2. TPE = 0.102 °C a.
Page 129: Sensor Input Trim
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Figure 3-12. Trim Single-point trim Two-point trim Temperature Temperature Transmitter system curve Site-standard curve Application: Linear offset (single-point trim solution) 1. Connect sensor to transmitter. Place sensor in bath between range points. 2.
Page 130: Active Calibrator And Emf Compensation
12 mV reading equates to 390 °F or 60 Ω error for a PT100 385 RTD. The Emerson EMF Compensation detects these externally induced voltages and eliminates the erroneous voltages from the calculations performed by the transmitters. Externally induced voltages come from motors, calibration devices (dry block calibrator), etc.
Page 131: Transmitter-Sensor Matching
See the comparison below: System accuracy comparison at 150 °C using a PT 100 (α=0.00385) RTD with a span of 0 to 200 °C Standard RTD Matched RTD Rosemount 3144P ±0.08 °C Rosemount 3144P ±0.08 °C Standard RTD ±1.05 °C Matched RTD ±0.18 °C...
Page 132 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 1. From the Home Screen, select 2 Configure. 2. Select 1 Guided Setup. 3. Select 1 Configure Sensors. 4. When prompted, select 1 Configure Sensor 1. If you are using dual RTDs, you may also select 2 Configure Sensor 2, or 3 Configure Both Sensors the Same.
Page 133 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 6. This will reset any Min/Max values tracking this sensor and any Min/Max values tracking Differential, Average, or First Good. Select OK. 7. It will now display the current CVD coefficients for the sensor (Alpha, beta, Delta, R0, A, B, C). Select 8.
Page 134 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 11. Finish the remaining steps of the sensor configuration according to the Communicator. When you are satisfied with your selection, select 6 Exit from the main screen, or select Abort. Configure transmitter sensor matching in manual setup 1.
Page 135 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 5. The screen would display a summary screen of the coefficients R0, A, B, and C. Select 5 Set CVD Coefficients to set these coefficients. 6. When prompted, select which set of coefficients you would like to enter for that sensor. Select between 1 R0, A, B, C, and 2 R0, Alpha, Beta, Delta.
Page 136 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 View the set CVD coefficients 1. From the Home Screen, select 2 Configure. 2. Select 2 Manual Setup. 3. Select the sensor you would like to configure. 4. Select 9 Sensor Matching-CVD. 5.
Page 137: D/A Output Trim Or Scaled Output Trim
Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 The following input constants, included with specially-ordered Rosemount temperature sensors, are required: = Resistance at Ice Point Alpha = Sensor Specific Constant Beta = Sensor Specific Constant Delta = Sensor Specific Constant Other sensor may have “A, B, or C”...
Page 138: Troubleshooting
The communicator should report Dev v4, DD v1 (improved), or reference “Field Communicator” on page 30 for previous versions. Contact Emerson Customer Central for assistance. • Check for a minimum of 250 ohms resistance between the power supply and Transmitter does not Field Communicator connection.
Page 139 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Table 3-2. HART / 4–20 mA Basic Troubleshooting Symptom Potential source Corrective action • Connect a Field Communicator and enter the transmitter test mode to isolate a sensor failure. Sensor element •...
Page 140 HART Commissioning Reference Manual 00809-0100-4021, Rev JA April 2017 Table 3-3. Field Communicator Error Warning Descriptions – HART Message Description Asked after displaying device status. Softkey answer determines whether next 50 Ignore next 50 occurrences of status? occurrences of device status will be ignored or displayed. Illegal character An invalid character for the variable type was entered.
Page 141 Reference Manual HART Commissioning 00809-0100-4021, Rev JA April 2017 Table 3-3. Field Communicator Error Warning Descriptions – HART Message Description There is unsent data. Send it before Press YES to send unsent data and turn the Field Communicator off. Press NO to turn the shutting off? Field Communicator off and lose the unsent data.
Page 142: Lcd Display
The transmitter self-test has failed. If diagnostics indicate a failure of the electronics module, replace the electronics module with a new one. Contact the nearest Emerson Field Service Center if necessary. SNSR 1 FAIL -or- The transmitter has detected an open or shorted sensor condition. The sensor(s) might be disconnected, SNSR 2 FAIL connected improperly, or malfunctioning.
Page 143: Overview
Configuration Reference Manual April 2017 00809-0100-4021, Rev JA Section 4 Fieldbus Configuration OUNDATION Overview ............... . page 133 Safety messages .
Page 144: Device Description
Before configuring the device, ensure the host has the appropriate device description file revision. The device descriptor can be found on the F Fieldbus page on Emerson.com/Rosemount. As of OUNDATION February 2011, the current revision of the Rosemount 3144P with F Fieldbus Protocol is device OUNDATION revision 3.
Page 145: Link Active Scheduler (Las)
4.3.4 Link Active Scheduler (LAS) The Rosemount 3144P can be designated to act as the backup LAS in the event that the designated LAS is disconnected from the segment. As the backup LAS, the transmitter takes over the management of communications until the host is restored.
Page 146: Resource Block (Index Number 1000)
Reference Manual Configuration 00809-0100-4021, Rev JA April 2017 Table 4-1. Network Parameters Network parameter Value Slot Time Maximum Response Delay Maximum Inactivity to Claim LAS Delay Minimum Inter DLPDU Delay Time Sync class 4 (1 ms) Maximum Scheduling Overhead Per CLPDU PhL Overhead Maximum Inter-channel Signal Skew Required Number of Post-transmission-gab-ext Units Required Number of Preamble-extension Units...
Page 147: Sensor Transducer Block (Index Number 1100)
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA 4.4.2 Sensor transducer block (index number 1100) The Sensor Transducer Function Block (STB) temperature measurement data, includes sensor and terminal (body) temperature. The STB also includes information about sensor type, engineering units, linearization, reranging, damping, temperature compensation, and diagnostics.
Page 148: Resource Block
Reference Manual Configuration 00809-0100-4021, Rev JA April 2017 Resource block 4.5.1 Features and Features_Sel The FEATURES and FEATURE_SEL parameters determine optional behavior of the transmitter. FEATURES The FEATURES parameter is read only and defines which features are supported by the transmitter. The list of FEATURES the transmitter supports is listed below.
Page 149: Plantweb ™ Alerts
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA The following table displays all possible configurations of the WRITE_LOCK parameter. FEATURE_SEL FEATURE_SEL SECURITY WRITE_LOCK DEFINE_WRITE_ Write access to WRITE_LOCK HW_SEL bit SW_SEL bit SWITCH Read/Write LOCK blocks 0 (off) 0 (off) 1 (unlocked) Read only 0 (off)
Page 150 Reference Manual Configuration 00809-0100-4021, Rev JA April 2017 FAILED_ENABLED This parameter contains a list of failures that makes the device non-operational and causes an alert to be sent. Below is a list of the failures with the highest priority first. 1.
Page 151 Reference Manual Configuration April 2017 00809-0100-4021, Rev JA MAINT_ACTIVE The MAINT_ACTIVE parameter displays which of the alarms is active. Only the condition with the highest priority will be displayed. This priority is not the same as the MAINT_PRI parameter described above. This priority is hard coded within the device and is not user configurable.
Page 152: Recommended Actions For Plantweb Alerts
Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 4.5.3 Recommended actions for Plantweb alerts RECOMMENDED_ACTION The RECOMMENDED_ACTION parameter displays a text string that gives a recommended course of action based on the type and specific event of the Plantweb alerts are active. Table 4-2.
Page 153: Recommended Actions For Field Diagnostics Per Ne107
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA 4.5.4 Recommended actions for field diagnostics per NE107 Alarm type Active event name Recommended action text string Diagnostic Error Device sensor diagnostic has been triggered. Maintenance Required Process Anomoly Detected Configuration Error Re-write the sensor configuration.
Page 154: Sensor Transducer Block
Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Table 4-4. Resource Block RB.FD_EXTENDED_ACTIVE RB.DETAILED_STATUS Description Sensor Transducer block error Active when any SENSOR_DETAILED_STATUS bit is on Manufacturing Block integrity error The manufacturing block size, revision, or checksum is wrong Verify the manufacturing block revision and the hardware revision are Hardware/software incompatible correct/compatible with the software revision Non-volatile memory integrity error...
Page 155: Sensor Transducer Block Diagnostics
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA 4.6.1 Sensor transducer block diagnostics Table 4-5. Sensor Transducer Block BLOCK_ERR Messages Condition name Description Other Out of Service The actual mode is out of service. Table 4-6. Sensor Transducer Block XD_ERR Messages Condition name Description Electronics Failure...
Page 156: Lcd Display Transducer Block
Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Table 4-7. Sensor Transducer Block STB.SENSOR_DETAILED_ STATUS Messages STB.SENSOR_DETAILED_STATUS Description PRT readings have gone below 2% of lower range or above 6% of upper Terminal (Body) Temperature Beyond range of PRT. (These ranges are calculated and are not the actual range Operating Limits of the PRT which is a PT100 A385).
Page 157: Lcd Display Transducer Block Diagnostics
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA BLK_TYPE_# Enter the block type of the function block containing the parameter to be displayed. This parameter is generally selected by a drop-down menu with a list of possible function block types (e.g. transducer, pid, AI, etc.).
Page 158: Hot Backup Transducer
Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Symptom Possible causes Recommended action The LCD display displays “DSPLY#INVLID.” One or more of the display Read the BLOCK_ERR and if it says “BLOCK “LCD display transducer parameters are not configured CONFIGURATION” perform the block”...
Page 159 Reference Manual Configuration April 2017 00809-0100-4021, Rev JA Sensor 1 as a default sensor Primary value Primary value FEATURE_VAL/ Recommended action 1 status 2 status FEATURE_STATUS Primary Value 1/ Good Good No Error Good Primary Value 1/ Sensor 2 out of operating range or Sensor 2 Good Uncertain Good...
Page 160: Manual Mode
Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Analog Input (AI) 4.9.1 Simulation Simulate replaces the channel value coming from the sensor transducer block. For testing purposes, there are two ways to manually drive the output of the analog input block to a desired value. Manual mode To change only the OUT_VALUE and not the OUT_STATUS of the AI Block, place the target mode of the block to MANUAL, then change the OUT_VALUE to the desired value.
Page 161 Reference Manual Configuration April 2017 00809-0100-4021, Rev JA CHANNEL Select the channel that corresponds to the desired sensor measurement . Channel Measurement Input 1 Input 2 Differential Terminal (Body) Temperature Input 1 minimum value Input 1 maximum value Input 2 minimum values Input 2 maximum values Differential minimum value Differential maximum value...
Page 162 Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Note To avoid configuration errors, only select Engineering Units for XD_SCALE and OUT_SCALE that are supported by the device. The supported units are: Temperature (channel 1 and 2) Terminal (body) temperature ° °...
Page 163 Reference Manual Configuration April 2017 00809-0100-4021, Rev JA AI blocks (basic configuration) AI1 as process temperature 1. Put the AI Block into OOS mode. a. Go to MODE_BLK.TARGET. b. Select OOS (0 80). 2. Go to CHANNEL. a. Select Sensor 1. 3.
Page 164: Filtering
Configuration Reference Manual April 2017 00809-0100-4021, Rev JA 4.9.3 Filtering Note If damping has already been configured in the transducer block, setting a non-zero value for PV_FTIME will add to that damping. The filtering feature changes the response time of the device to smooth variations in output readings caused by rapid changes in input.
Page 165: Advanced Features
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA 4.9.5 Status When a PV is passed from one function block to another, it passes a STATUS along with the PV. The STATUS can be: GOOD, BAD, or UNCERTAIN. When a fault occurs in the device, the PV will look at the last value with a STATUS of GOOD and the STATUS will change from GOOD to BAD, or from GOOD to UNCERTAIN.
Page 166: Analog Input Diagnostics
Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 4.9.7 Analog input diagnostics Table 4-9. AI BLOCK_ERR Conditions Condition Condition name and description number Other Block Configuration Error: the selected channel carries a measurement that is incompatible with the engineering units selected in XD_SCALE, the L_TYPE parameter is not configured, or CHANNEL = zero.
Page 167: Operation
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA 4.10 Operation 4.10.1 Overview This section contains information on operation and maintenance procedures. Methods and manual operation Each F Fieldbus host or configuration tool has different ways of displaying and performing OUNDATION operations.
Page 168 Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Sensor calibration, lower and upper trim methods In order to calibrate the transmitter, run the lower and upper trim methods. If your system does not support methods, manually configure the transducer block parameters listed below. 1.
Page 169: Advanced Diagnostics
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA Recall factory trim To recall a factory trim on the transmitter, run the recall factory trim. If your system does not support methods, manually configure the transducer block parameters listed below. 1. Set MODE_BLK.TARGET_X to OOS. 2.
Page 170 Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Note The thermocouple resistance algorithm does not calculate resistance values while the active calibrator mode is enabled. Table 4-11. AMS Device Manager terms Term Definition Threshold resistance value for the thermocouple loop. The Trigger Level may be set for Trigger level 2, 3, or 4 3 Baseline or the default of 5000 Ohms.
Page 171: Statistical Process Monitoring (Spm)
These diagnostics aid in the engineering and maintenance of the devices. False alarms and missed detections may occur. If a reoccurring problem in the process exists, contact Emerson for assistance. Configuration phase The configuration phase is an inactive state when the SPM algorithm can be configured.
Page 172: Spm Configuration
Reference Manual Configuration 00809-0100-4021, Rev JA April 2017 4.10.5 SPM configuration SPM_Bypass_Verification “Yes” means that the verification of the baseline is turned off while “No” indicates the learned baseline is compared to the next current calculated value to ensure a good baseline value. The recommended value is NO.
Page 173: Troubleshooting Guides
Reference Manual Configuration April 2017 00809-0100-4021, Rev JA SPM#_User command Select “Learn” after all of the parameters have been configured to begin the Learning Phase. The monitoring phase starts after the learning process is complete. Select “Quit” to stop the SPM. “Detect” may be selected to return to the monitoring phase.
Page 174 Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 Table 4-12. Troubleshooting guide Symptom Cause Recommended actions Unknown Recycle power to device. 1. Ensure the device is connected to the segment. 2. Check voltage at terminals. There should be 9–32 Vdc. No power to device 3.
Page 175 XD_ERR (see Table 4-6) DETAILED_STATUS (see Table 4-6) RECOMMENDED_ACTION (see Table 4-6) Perform recommended SENSOR_DETAILED STATUS (see Table 4-6) action, see Table 4-10. Problem identified? If the problem persists contact your local Emerson representative. Perform recommended action, see Table 4-6. Configuration...
Page 176 Configuration Reference Manual 00809-0100-4021, Rev JA April 2017 4.11.1 Fieldbus OUNDATION If a malfunction is suspected despite the absence of a diagnostics message, follow the procedures described in Table 4-12 to verify that transmitter hardware and process connections are in good working order.
Page 177: Lcd Display
April 2017 00809-0100-4021, Rev JA 4.11.2 LCD display Note For Rosemount 3144P Transmitters with F Fieldbus, the following LCD display options are not OUNDATION used: Bar graph, sensor 1, sensor 2, differential, multidrop, and burst mode. LCD display LCD display...
Page 178 Reference Manual Configuration 00809-0100-4021, Rev JA April 2017 The following are the default tags for each of the possible Function blocks which display data on the LCD display: Block name LCD display bottom line Transducer “TRANS” AI 1400 “AI 14” AI 1500 “AI 15”...
Page 179: Safety Messages
Reference Manual Operation and Maintenance 00809-0100-4021, Rev JA April 2017 Section 5 Operation and Maintenance Safety messages ..............page 169 Maintenance .
Page 180: Sensor Checkout
Operation and Maintenance Reference Manual 00809-0100-4021, Rev JA April 2017 ® 5.2.1 Test terminal (HART /4–20 mA only) The test terminal, marked as TEST or (“T”) on the terminal block, and the negative (–) terminal accept ™ MINIGRABBER , or alligator clips, facilitate in-process checks (see Figure 2-14 on page 23).
Page 181: Return Of Materials
AMS Device Manager. Return of materials To expedite the return process in North America, call the Emerson National Response Center (800-654-7768) for assistance with any needed information or materials. The center will ask for the following information: Product model ...
Page 182: Rev Ja April
Operation and Maintenance Reference Manual 00809-0100-4021, Rev JA April 2017 Operation and Maintenance...
Page 183: Sis Certification
Rosemount 3144P safety certified identification ........
Page 184 The loop should be designed so the terminal voltage does not drop below 12 Vdc when the transmitter output is 24.5 mA. Environmental limits are available in the Rosemount 3144P Temperature Transmitter Product Page. Configuration Use any HART Protocol capable configuration tool to communicate with and verify the initial configuration or any configuration changes made to the transmitter prior to operating in Safety Mode.
Page 185: Operation And Maintenance
The partial proof test 1 consists of a power cycle plus reasonability checks of the transmitter output. Reference the FMEDA Report for percent of possible DU failures in the device. FMEDA report can be found at Rosemount 3144P Temperature Transmitter Product Page.
Page 186: Comprehensive Proof Test 2
Reference Manual Certified Safety Instrumented System 00809-0100-4021, Rev JA April 2017 1. Bypass the safety PLC or take other appropriate action to avoid a false trip. 2. Send a HART command to the transmitter to go to high alarm current output and verify that the analog current reaches that value.
Page 187: Visual Inspection
All failures detected by the transmitter diagnostics or by the proof-test must be reported. Feedback can be submitted electronically at Emerson.com/Rosemount/Contact-Us. Specifications The Rosemount 3144P Transmitter must be operated according to the functional and performance specifications provided in the Rosemount 3144P Product Data Sheet...
Page 188 Reference Manual Certified Safety Instrumented System 00809-0100-4021, Rev JA April 2017 Certified Safety Instrumented System...
Page 189: A.1.1 Functional Specifications
Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Appendix A Specifications and Reference Data HART and Foundation Fieldbus specifications ......... . . page 179 HART/4–20 mA specifications .
Page 190: A.1.3 Performance Specifications
Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Weight CE electromagnetic compatibility compliance testing Aluminum Stainless steel 3.1 lb. (1.4 kg) 7.8 lb. (3.5 kg) The transmitter meets all requirements listed under IEC Add 0.5-lb. (0.2 kg) for meter or 1.0 lb. (0.5 kg) for bracket options. 61326: Amendment 1, 2006.
Page 191 Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Transmitter accuracy Enhanced Minimum Digital Sensor options Sensor reference Input ranges accuracy span accuracy (4)(5) accuracy 2-, 3-, 4-wire RTDs °C °F °C °F °C °F °C Pt 100 IEC 751 –200 to 850 –328 to 1562...
Page 192 Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Minimum Digital Enhanced Sensor options Sensor reference Input ranges (10) (11) (12)(13) span accuracy accuracy accuracy NIST Monograph Type S 0 to 1768 32 to 3214 ±0.50 ±0.90 ±0.02% of span 175, IEC 584 NIST Monograph Type T...
Page 193 Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Ambient temperature effect Table A-1. Ambient Temperature Effect Digital accuracy per 1.0 °C (1.8 °F) Sensor options Range D/A effect (1)(2) change in ambient 2-, 3-, or 4- wire RTDs Pt 100 (α...
Page 194 Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Digital accuracy per 1.0 °C (1.8 °F) Sensor options Range D/A effect (1)(2) change in ambient T ≥ 200 °C 0.016 °C Type W5Re/W26Re 0.001% of span T < 200 °C 0.023 °C + (0.0036% of T) 0.005 °C T ³...
Page 195: Wiring Diagram
Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Transient protection (option code T1) Total probable error  0.10 °C 0.10 0.02 0.015 0.01 The transient protector helps prevent damage to the Rosemount X-well temperature effects transmitter from transients induced on the loop wiring by example lightning, welding, heavy electrical equipment, or switch gears.
Page 196: Temperature Limits
Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA SIS safety transmitter failure values Table A-3. Operation Parameters IEC 61508 Safety Certified SIL 2 claim limit Standard NAMUR-compliant Safety accuracy:  Linear output: 3.9 ≤ I ≤ 20.5 3.8 ≤...
Page 197 Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Alarms Note When ordering a spare electronics module assembly, the The AI function block allows the user to configure the LCD display transducer block will display the default alarms to HIGH-HIGH, HIGH, LOW, or LOW-LOW with a parameter.
Page 198: Function Blocks
Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Function blocks Resource block Contains physical transmitter information including  available memory, manufacture identification, device type, software tag, and unique identification ™ Plantweb Alerts enable the full power of the PW ...
Page 199: A.4 Dimensional Drawings
Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA A.4 Dimensional drawings Figure A-1. Transmitter Exploded View A. Housing with permanent terminal block D. Electronic module B. Cover with wiring diagram label E. LCD display C. Nameplate F. Display cover Figure A-2.
Page 200 Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Figure A-3. Transmitter Top view Side view 5.12-in. (129,9 mm) with LCD display 4.33-in. (110 mm) 4.40-in. (111,8 mm) 4.37-in. (110,0 mm) 1.93-in. (49,0 mm) 3/8-16 UN-2B A. Conduit entry B.
Page 201 Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Figure A-5. Mounting Configurations with Optional Mounting Bracket Pipe mounting 1.00 (25,4) 2.31 (58,7) 4.62 (117,2) 4.00 (101,5) 2.00 (51) 3/8-16 bolt 4.80 (121,9) 3/8-16 bolt A. For transmitter mounting B.
Page 202 1. Transmitter must be configured for a 3-wire RTD in order to recognize an RTD with a compensation loop. 2. Emerson provides 4-wire sensors for all single-element RTDs. Use these RTDs in 2-wire or 3-wire configurations by leaving the unneeded leads disconnected and insulated with electrical tape.
Page 203 1. Transmitter must be configured for a 3-wire RTD in order to recognize an RTD with a compensation loop. 2. Emerson provides 4-wire sensors for all single-element RTDs. Use these RTDs in 2-wire or 3-wire configurations by leaving the unneeded leads disconnected and insulated with electrical tape.
Page 204: A.5 Ordering Information
00809-0100-4021, Rev JA A.5 Ordering information Table A-4. Rosemount 3144P Temperature Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
Page 205 Reference Manual April 2017 00809-0100-4021, Rev JA Table A-4. Rosemount 3144P Temperature Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
Page 206 Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Table A-4. Rosemount 3144P Temperature Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
Page 207 Reference Manual April 2017 00809-0100-4021, Rev JA Table A-4. Rosemount 3144P Temperature Transmitter Ordering Information The starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
Page 208: A.5.1 How To Order Rosemount X-Well Technology
Rosemount X-well Technology is for temperature monitoring applications and is not intended for control or safety applications. It is available in the Rosemount 3144P Transmitter in a factory assembled direct mount configuration with a Rosemount 0085 Pipe Clamp Sensor. It cannot be used in a remote mount configuration. Rosemount X-well Technology will only work as specified with factory supplied and assembled Rosemount 0085 Sensor silver tipped single element sensor with an 80 mm extension length.
Page 209: A.6 Spare Parts List
03144-3111-0007 Rosemount 3144P Hart SIS electronics spare kit 03144-3111-1007 Rosemount 3144P Fieldbus device rev. 2 electronic spare kit (configured as single sensor) 03144-5601-0003 M5 meter kit (Includes meter display, captive mounting hardware, 10-pin interconnection header and cover) M5 Meter Kit - aluminum...
Page 210: Standard Configuration
Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Standard configuration Both standard and custom configuration settings may be changed. Unless specified, the transmitter will be shipped as follows: Standard configuration Setting 4 mA value/lower range (HART/4–20 mA) measurement point LO (F Fieldbus) 0 °C OUNDATION...
Page 211 Specifications and Reference Data Reference Manual April 2017 00809-0100-4021, Rev JA Custom configuration The Rosemount 3144P can be ordered with custom configuration. The table below lists the requirements necessary to specify a custom configuration. Option code Requirements/specification Date: day/month/year Descriptor: 16 alphanumeric character...
Page 212 Reference Manual Specifications and Reference Data April 2017 00809-0100-4021, Rev JA Option code U2: Average temperature with hot backup and sensor drift alert—warning mode Critical applications, such as safety interlocks and control loops. Outputs the average of two measurements and sends a digital alert if temperature difference exceeds the set maximum differential (Sensor Drift Alert –...
Page 213: B.1 European Directive Information
EU Declaration of Conformity can be found at T4(–60 °C ≤ T ≤ +60 °C); IS [Entity] CL I, Emerson.com/Rosemount. Zone 0, AEx ia IIC T4(–60 °C ≤ T ≤ +60 °C); NI CL I, DIV 2, GP A, B, C, D;...
Page 214: April
Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Markings: Explosionproof for Class I, Groups A, B, C, ATEX Intrinsic Safety D; Class II, Groups E, F, G; Class III; Certificate: BAS01ATEX1431X [HART]; [HART only zone markings]: Suitable for Baseefa03ATEX0708X [Fieldbus] Class I Zone 1 Group IIC;...
Page 215 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Special Conditions for Safe Use (X): 6. Care shall be taken by the end user to ensure that the 1. See certificate for ambient temperature range external surface temperature on the equipment and the neck of DIN Style Sensor probe does not exceed 2.
Page 216 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Markings: Ex d IIC T6...T1* Gb; T6…T1*: Special Condition for Safe Use (X): (–50 °C ≤ T ≤ +40 °C) 1. When mounted with the terminal options with T5...T1*:(–50 °C ≤ T ≤...
Page 217 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA 8. When installation, use and maintenance of this 4. Sensor terminal (1 to 5) product, observe following standards: Maximum GB3836.13-2013 “Electrical apparatus for explosive Maximum Maximum Maximum internal input input input gas atmospheres Part 13: Repair and overhaul for Output parameters...
Page 218 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA B.8 EAC - Belarus, Kazakhstan, 8. When installation, use and maintenance of this product, observe following standards: Russia GB3836.13-2013 “Electrical apparatus for explosive gas atmospheres Part 13: Repair and overhaul for EM Technical Regulation Customs Union (EAC) Flameproof apparatus used in explosive gas atmospheres”...
Page 219 110 °C 110 °C 110 °C 110 °C 110 °C Application: Class notations: AUT-UMS, AUT-CCS, Transmitter without LCD display AUT-PORT and AUT-IMS; Temperature transmitter type Rosemount 3144P 0-in. 55 °C 70 °C 100 °C 170 °C 280 °C 440 °C 100 °C cannot be installed on diesel engines 3-in.
Page 220 Reference Manual Product Certifications April 2017 00809-0100-4021, Rev JA B.13 Installation drawing Figure B-1. FM Intrinsically Safe (Fieldbus) Installation Drawing 03144-5075 Product Certifications...
Page 221 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 222 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 223 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 224 Reference Manual Product Certifications April 2017 00809-0100-4021, Rev JA Figure B-2. FM Intrinsically Safe and Nonincendive (HART) Field Circuit Configuration Installation Drawing 03144-0321 Product Certifications...
Page 225 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 226 Reference Manual Product Certifications April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 227 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Figure B-3. Rosemount 3144P FM Explosion-proof Approval Installation Drawing 03144-0320 Product Certifications...
Page 228 Reference Manual Product Certifications April 2017 00809-0100-4021, Rev JA Figure B-4. Rosemount 3144P (HART) CSA Intrinsic Safety Approval Installation Drawing 03144-0322 Product Certifications...
Page 229 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Figure B-5. Rosemount 3144P SAA Flameproof Approval Installation Drawing 03144-0325 Product Certifications...
Page 230 Reference Manual Product Certifications April 2017 00809-0100-4021, Rev JA Figure B-6. Rosemount 3144P CSA Explosion-proof Approval Installation Drawing 03144-0326 Product Certifications...
Page 231 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Figure B-7. Rosemount 3144P (Fieldbus) CSA Intrinsically Safe Approval Installation Drawing 03144-5076 Product Certifications...
Page 232 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 233 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 234 Product Certifications Reference Manual April 2017 00809-0100-4021, Rev JA Product Certifications...
Page 235 Reference Manual April 2017 00809-0100-4021, Rev JA...
Page 236 Terms and Conditions of Emerson Automation Solutions Sale page. The Emerson logo is a trademark and service mark of Emerson Electric Co. Emerson FZE P.O. Box 17033 DeltaV, PlantWeb, Hot Backup, Complete Point Solution, Rosemount X-well Jebel Ali Free Zone - South 2 Technology, Rosemount, and Rosemount logotype are trademarks of Emerson.

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