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XNX® Universal Transmitter Technical Manual • • • • Table of Contents Safety Information Introduction Installation and Operation • • • • Calibration Maintenance Warnings/Faults Specifications • • • • Control Drawings HART® Protocol Warranty Index
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XNX Universal Transmitter TOC Table of Contents Safety 2.1 Mounting and Location of Sensors �������������������������������������28 2.1.1 Mounting the XNX® Universal Transmitter ������������������28 2.2 Wiring the XNX Transmitter �������������������������������������������������30 2.2.1 General Wiring Considerations ����������������������������������30 2.2.2 Distance Considerations for Installation ��������������������31 2.2.3 POD Connections ������������������������������������������������������36 2.2.
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XNX Universal Transmitter Table of Contents ? 2.
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XNX Universal Transmitter Table of Contents 4 Maintenance 4.1 MPD Sensor Cartridge Replacement �������������������������������104 4.2 XNX® EC Sensor Cartridge Replacement ������������������������105 4.2.1 Replacing with the Same Cartridge Type �����������������105 4.2.2 Replacing with a Different Cartridge Type ���������������106 5 Warnings and Faults 5.1 Warning Messages �����������������������������������������������������������108 5.
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XNX Universal Transmitter Table of Contents Table of Contents 4
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XNX Universal Transmitter Safety • The sensor must be earthed/grounded for Intrinsic Safety, electrical safety and to limit the effects of radio frequency interference. Earth/ ground points are provided inside and outside the unit. EMI note for applications using shielded cable: Cable shield terminations must be made at the cable glands with suitable EMI type glands. Avoid terminating cable shields at the Earth ground lug inside the XNX enclosure.
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XNX Universal Transmitter • When the transmitter is equipped with the optional Remote Mount Kit, the remote sensor must be securely mounted in a fixed position. The Remote Sensor kit is not intended to be used as a hand-held sensor. • Keep the passwords in a secure area to prevent unauthorized access to the transmitter. If the passwords are lost, resetting the XNX transmitter will require a service technician. • Enclosures of remotely mounted sensors contain aluminum.
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XNX Universal Transmitter • Special Conditions for Safe Use • The options “Modbus interface” and “Foundation Fieldbus interface” are not subject of this EC-type examination certificate.
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XNX Universal Transmitter Information Honeywell Analytics assumes no responsibility for equipment that is not installed and used following the procedures in the Technical Manual. The reader of this manual should ensure that the appropriate equipment has been installed. If in doubt, contact Honeywell Analytics. Every effort has been made to ensure the accuracy of our documents, however, Honeywell Analytics can assume no responsibility for any errors or omissions in its documents or their consequences.
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XNX Universal Transmitter 1 Introduction XNX Universal Transmitter Technical Manual 9
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XNX Universal Transmitter 1.1 Product Description communication board. There are three types of boards: relay, Modbus®, or FoundationTM Fieldbus. See Section 1.1. 2 Communications for additional information. 1.1.
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XNX Universal Transmitter 1.1.2 20 mA/HART® Output The transmitter uses HART over 4-20mA as the standard communications protocol. Additional optional communication interfaces are available: relay communication, Modbus, or Foundation Fieldbus. Each communication option has a dedicated option board. For additional information, refer to Section 1.3 Options. All XNX Transmitters provide a 20mA Current Loop with HART Source (3-Wire) or Isolated (4-Wire) electrical interface based on installation requirements.
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XNX Universal Transmitter 1.1.5 Patents 1.2.1 Enclosure This table shows details about XNX-related patents. Available in either Stainless Steel or Aluminum, with 3/4” NPT (UL/CSA or UL/ INMETRO) or M25 (ATEX/IECEx only) threaded cable/conduit ports, the XNX Universal Transmitter enclosure is explosion-proof and suitable for use in -40°F to +149°F (-40°C to +65°C) operating conditions. A 5-coat marine finishing process provides the highest degree of corrosion protection.
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XNX Universal Transmitter 1.2.2 Cover While relay wiring can use any available cable/conduit port in the XNX enclosure, do not use the same cable/conduit port for both relay reset and relay signal lines to avoid electrical noise. The transmitter cover is supplied in the identical material specified for the enclosure. Cover Tempered Glass Window Cover Lock Screw, requires a 2mm hex key (included) Figure 3.
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XNX Universal Transmitter 1.2.3 POD 1.3 Options The POD (Personality, Options, and Display) encloses circuit boards for the personality module, optional interfaces, and display. 1.3.1 Local HART Available with any sensor technology or personality, an external access to the HART interface in the XNX transmitter is provided. An intrinsically safe (IS) barrier inside the transmitter gives the user full control using a hand-held interrogator for programming and configuration.
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XNX Universal Transmitter 1.3.5 XNX Accessories states. Two alarm levels can be set, allowing, for example, a level 1 alarm for the immediate area when a certain gas concentration is detected and a plant-wide level 2 alarm when a greater gas concentration is detected. Pipe Mount Kit The Pipe Mount kit (1226A0358) allows the XNX to be mounted to pipe from 2”-6” (50-150mm) in diameter. The kit includes the pipe mount bracket, two carriage bolts, nuts, and lock washers.
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XNX Universal Transmitter Weatherproof Cap Ceiling Mount Bracket Kit The weatherproof cap protects XNX sensors from harsh weather. Sensor Weatherproof Cap P/N XNX EC Included MPD 02000A1640 Sensepoint 02000-A-1640 705 00780-A-2076 MPD-*TCB1 SPXCDWP (included) The optional Ceiling Mount Bracket Kit (1226A0355) allows the XNX Transmitter to be mounted to the ceiling. The kit includes two stainless steel ceiling mount brackets, bolts, and nuts.
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XNX Universal Transmitter 1.4 The XNX Front Panel Weather Protector The Extreme Weather Protector (SPXCDWP) is designed to protect the sensor from environmental conditions in outdoor exposure applications. The XNX Transmitter uses magnetic switches to enable nonintrusive operation. To activate a magnetic switch, hold the magnetic end of the screwdriver up to the glass window and slowly swipe the magnet directly over the shaded area. For best results, hold the screwdriver as illustrated in Figure 9.
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XNX Universal Transmitter Power LED (green) Wand Instruction Decal Fault LED (yellow) Alarm LED (red) Escape Enter/Accept Switch Actuation Visual Indicator Move Left Decement Value Move Right Increment Value Figure 11. Front panel display of the XNX transmitter Figure 10. Operation decal 1.4.1 Controls and Navigation The switch is actuated by the flux lines between the poles of the magnet. This actuation method provides the most consistent response.
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XNX Universal Transmitter 1.4.2 The General Status Screen When a warning is triggered, the warning icon appears and information is displayed on the General Status Screen. The information displayed alternates between screens displaying the gas concentration and the warning code. See Section 5 Warnings/Faults for more warning code information. Warning Icon Warning Code \ Figure 12. General Status screen4 The General Status Screen shows the status of the XNX Transmitter. Figure 14.
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XNX Universal Transmitter 1.4.3 Entering the Menu Structure Alarm Level Triggered Alarm Icon Swiping the magnet over the magnetic switch ✓ or ✖ allows the user to reset faults or alarms, display current settings, or make adjustments to the device. Target Gas Concentration Figure 16. General Status Alarm detail Note: If the Easy Reset option is set to Lock, alarms and faults cannot be reset without logging in or entering a passcode. For more information, see Section 2.5.1 Configure Security.
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XNX Universal Transmitter Figure 21. Invalid Passcode screen Figure 19. Passcode screen 1.4.4 Displaying Transmitter Information Warning: The factory-set passcodes must be reset to prevent unauthorized access to the transmitter’s menus. While in the General Status display, swipe the magnet over the magnetic switch to display information about the transmitter.
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XNX Universal Transmitter 1.5 Main Menu Once the proper passcode has been entered, the transmitter displays the Main Menu. Figure 23. The Main Menu From the Main Menu, a Level 1 user can: • display the current settings/configuration • test the transmitter • calibrate and bump test the transmitter • configure the unit for language, date and time The Main Menu consists of these options: Menu ? Description See Section...
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XNX Universal Transmitter 1.5.1 XNX Menu Map Status Display 6 3 3 3 Alarm/Fault Reset Display 1. Information Mode Main Menu Passcode Display 3. Calibration Mode 2. Test Mode 4.
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XNX Universal Transmitter Information Mode Alarm/Fault Status Alarm/Fault Confirm Alarm/Fault Reset Reset Alarm/Fault Date & Time Transmitter ID, Serial #, Revision Transmitter Data Transmitter Status Transmitter Status Sensor Type, Serial #, Revision Sensor Data Sensor Status Sensor Status Gas Name, ID, Range Gas Data Range Settings, Alarm Settings Range/Alarm Settings mA Level Settings mA Level Settings Relay Settings5 Relay Set
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XNX Universal Transmitter Test Mode Inhibit Enable/Disable Inhibit Force mA Output Select Current: 0 to 22 mA Accept Force Relay7 Select Relay 1 Select Relay 2 Select Relay 3 Accept Alarm/Fault Simulation Alarm 1 Simulation Alarm 2 Simulation Warning Simulation Fault Simulation Calibration Mode Gas Calibration Enter Span Gas Concentration (Oxygen) Enter Span Gas Concentration (Not Oxygen) Bump Test mA Output Calibration Adjust 4 mA Output Adjust 2
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XNX Universal Transmitter Configuration Mode Select Language Set Date & Time Set Date Format Set Year, Month, Day Set Hours, Minutes, Seconds Sensor Type Selection Set mV Sensor Type10 Set mA Sensor Type11 Gas Selection Changing the Gas or Units Name Gas Selections and Alarm Limits Based on mV Sensor Type Range & Alarms Set Range Alarm 1 Type Alarm 1 Setpoint Alarm 1 Latching or N
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XNX Universal Transmitter 2 Installation and Operation XNX Universal Transmitter Technical Manual 27
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XNX Universal Transmitter 2.1 Mounting and Location of Sensors 7.75" 196.85 mm 6.00" 15.4 mm 5.6" 124.24 mm Caution: Locate transmitters and sensors in accordance with relevant local and national legiislation, standards, and codes of practice. 4.48" 113.8 mm 2.054" 52.18mm 0.625" 15.88mm 0.55" 14.35 mm 1.768" 44.
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XNX Universal Transmitter Warning: When the transmitter is equipped with the optional Remote Mount Kit, the remote sensor must be securely mounted in a fixed position. The Remote Sensor kit is not intended to be used as a hand-held sensor. Integral Mounting Lugs The transmitter is configured with five cable/conduit ports built into the housing for wiring and mounting sensors. Figure 25 provides the guidelines to proper installation of the XNX.
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XNX Universal Transmitter 2.2 Wiring the XNX Transmitter Caution: Before wiring the transmitter, confirm that the correct personality and communication boards are installed. The XNX transmitter is available in sensor technologies, or personality options, which support a variety of sensors and applications. Each of the personalities use dedicated interface boards. Pluggable terminal blocks are used for easy connection and service.
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XNX Universal Transmitter Single Transmitter is 16 to 32 VDC for EC and mV versions, 18 to 32 VDC for Searchpoint Optima Plus and Searchline Excel, and 16 to 32 VDC depending on the limitations of the device for the generic 4-20mA input. This is the simplest type of installation. It consists of a single XNX transmitter installation per power source. Loads The use of high inrush or inductive loads may affect the performance of the transmitter. For best reliability use resistive loads only.
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XNX Universal Transmitter • Fewer power sources. important. Power supplies are rated by voltage and power. The nominal voltage for all XNX transmitters is 24V with the power required depending on the number of points using the same power supply. Disadvantages: • Larger power source will be needed • If a power source fails, several monitoring points fail.
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XNX Universal Transmitter Searchpoint Optima Plus (10 watts). A 25 watt power supply would probably handle this installation, but a 30 watt power supply would be a better choice. Single Transmitter Distances Wire Selection The type of wire used for connections has an effect on the distance of the installation. This is because some of the voltage is lost in the wire on the way to the transmitter. Thinner wire (i.e., 18 AWG) will lose more voltage than thicker wire (i.e., 12 AWG).
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XNX Universal Transmitter Daisy-Chained Transmitter Distances 3 Transmitters - Distance “d” It is difficult to calculate distances for this configuration. There are many factors to be considered: distance from control room to first transmitter, distance between transmitters, sensor types, etc. A few scenarios are presented here to provide a base to work from. Transmitter 1 Transmitter 2 Transmitter 3 Transmitter 4 18 AWG [1.0 mm2] 16 AWG [1.5 mm2] 14 AWG [2.0 mm2] 12 AWG [3.
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XNX Universal Transmitter 2. Several transmitters installed in pairs with each pair equally spaced from the next pair and the power source. These distances assume the paired transmitters are installed within 10 feet [3 meters] of each other. Transmitters 1 and 2 Transmitters 3 and 4 6 Transmitters - Distance “d” Transmitters 5 and 6 Class 2 Power Supply “d” “d” “d” Figure 34. Transmitters in pairs 18 AWG [1.0 mm2] 16 AWG [1.5 mm2] 14 AWG [2.0 mm2] 12 AWG [3.
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XNX Universal Transmitter 2.2.3 POD Connections Table A This illustration shows the connections available on each of the terminal blocks for each type of personality board.
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XNX Universal Transmitter the maximum is 500 ohms. If the 20 mA output is not used, a 500 ohm resistor must be installed. The XNX Universal Transmitter power consumption is dependent on the sensor and options for the specific configuration. For proper operation, the input voltage must be maintained at 16 to 32 VDC for EC and mV units and 18 to 32 VDC for IR units. 2.2.
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XNX Universal Transmitter 2.2.6 Terminal Block Connections Labels applied to the back of the POD identify each of the connection points. Connections to the transmitter are made via pluggable terminal blocks secured to the back of the POD. The terminal blocks are keyed and polarized. A color coded label assists in wiring when the block is removed from the POD. Note: Pins 2 and 4 of terminal block TB1 have no internal connection on the personality board.
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XNX Universal Transmitter 2.2.7 EC Personality Wiring Caution: Do not force the POD into the enclosure. Doing so may result in damage to the wiring or the POD or may alter the switch settings. If resistance is felt, wires may be preventing the POD from being properly positioned. Terminal Block Jumper OUT IN LOCAL 20 mA Operation TB-1 Terminal Block S1 S2 4-20mA HART Source Sink S1 S2 Isolated +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 EC TB-1 16-32 VDC 6.2W max. Figure 40.
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XNX Universal Transmitter XNX Electrochemical Sensor Installation Optional Local HART IS Barrier must be connected to J1 S1 S2 J1 HART EC Sensor Installation 1 3 4 5 - 6 Terminal Block 1 2 + J2 EC Barrier EC IS Barrier must be connected to J2 Local HART IS Barrier (optional) Caution: A missing oxygen cell will result in 0% V/V O2 gas concentration, thus triggering alarm events. In this situation, check the connection of the EC cell to the sensor connector board.
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XNX Universal Transmitter 6. After the sensor is installed and the gas type is confirmed, the range, alarm levels, and other important settings must be set; see Section 2.5. 7. After the transmitter has been configured, calibrate the sensor following the procedures in Section 3 Calibrations. Note: Reference Control Drawing 3000E3157 and 3000E3159 for install requirements on EC cells and remote mounting.
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XNX Universal Transmitter 7. Mount the remote sensor junction box ensuring enough room below to fit the sensor and weatherproof cover. See control drawing 3000E3157 in Section 7.2 for specific mounting information. 8. Attach the cable to the remote terminal box via the gland provided. 9. Make the wiring connections as shown in Figure 43. 10. Fit the Terminal box lid. 11. Plug the sensor into the socket at the bottom of the terminal box. 12.
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XNX Universal Transmitter 2.2.8 mV Personality Wiring Caution: Do not force the POD into the enclosure. Doing so may result in damage to the wiring or the POD or may alter the switch settings. If resistance is felt, wires may be preventing the POD from being properly positioned. XNX Universal Transmitter with the mV personality Board allows interface to HA’s Multi Purpose Detector (MPD) and field proven 705 and Sensepoint devices.
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XNX Universal Transmitter J1 - Local HART Option Connector S1 and S2 - 20mA Output Jumper Switch S1 S2 J1 HART Source Sink Isolated S1 S2 ▼ ▲ ▼ ▲ ▼ ▼ 1 2 3 4 Source Sink S1 S2 Isolated 16-32 VDC 6.5W max.
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XNX Universal Transmitter mV Remote Sensor Mounting The sensor can be mounted remotely from the transmitter; the installation will vary by installed location, sensor and thread type used. To remotely mount the sensor, follow this procedure: 1. Unscrew the transmitter’s weatherproof cover and loosen the retainer locking screw with the supplied hex key. 2. Run conduit from one of the transmitter’s available conduit ports to the location of the remote terminal housing.
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XNX Universal Transmitter 5. Attach the conduit to the remote terminal box. 6. In the remote junction box, connect the wires from the transmitter to the 3-way terminal block in the terminal box. communication line as long as it is in agreement with the 4-20 mA output, otherwise the 4-20mA output takes precedence. Caution: Dress the wires properly so that cabling does not contact switches 1-4 on the back of the POD.
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XNX Universal Transmitter the XNX Transmitter and Optima Plus or Excel is 100 feet (33 meters) using 0.75 mm2 (18 AWG) wire minimum. XNX S3 and S4 must be in the UP position Set mA Device and XNX to the same output type. mA Device XNX Note: A second, black-handled screwdriver is included for use on terminal blocks 2 and 4. This tool is smaller than the magnetic wand and is designed to fit into the terminal connections on TB2 and TB4.
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XNX Universal Transmitter S1 S2 S1 and S2 - 20mA Output Jumper Switch Source Sink S1 S2 Isolated 4-20mA Searchline 18-32 VDC HART Searchpoint 13.2W max. Ir Figure 51.
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XNX Universal Transmitter Attaching the Searchpoint Optima Plus to the XNX Universal Transmitter Optional Local HART IS Barrier must be connected to J1 S1 S2 J1 HART 1 For M25 entries, insert the seal (P/N 1226-0410) into the proper cable/conduit opening then thread the locknut (P/N 1226-0409) onto the Optima to the end of the threads. Thread the Optima body into the transmitter until the seal compresses and/or the Optima bottoms out.
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Searchline Excel the Searchline Excel Technical Handbook (2104M0506) or Searchpoint Optima Plus Operating Instructions (2104M0508) for specifics on remote installations or contact your Honeywell Analytics representative for more information. Searchpoint Optima Plus XNX Universal Transmitter Section 2 - Installation and Operation 50 Unit Gnd (green) RS485- (blue) Figure 55. XNX IR Remote Wiring -ve S3 S4 TB-2 Ir Data TB-1 Ir 4-20mA Searchline 18-32 VDC HART Searchpoint 13.2W max.
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XNX Universal Transmitter 2.3 Options Layer Test Procedure, HCF_TEST-2. • Data transfer rate: 1200 bps. 2.3.1 Local HART Interface HART devices can operate in point-to-point or multidrop configurations. Available with any sensor technology or option, this option provides an external access to the HART interface in the transmitter. An IS barrier inside the transmitter allows the user to attach an external hand-held interrogator for programming and configuration.
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XNX Universal Transmitter Multidrop Mode The multidrop mode of operation requires only a single pair of wires and, if applicable, safety barriers and an auxiliary power supply for up to 8 field devices (Figure 58). All process values are transmitted digitally. In multidrop mode, all field device polling addresses are >0, and the current through each device is fixed at a minimum value (typically 4 mA). Control System or Other Host Application Handheld Terminal The minimum conductor size is 0.
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XNX Universal Transmitter 2.3.2 Relays The relay option (XNX-Relay) provides 3 form “C” SPCO contacts for alarm and fault indication. TB4 allows alarms to be reset remotely. 8 TB4 7 6 Remote Reset SW TB3 5 4 3 Wiring for the relays is through an available cable/conduit port to a pluggable terminal block. See Figure 35 for the terminal block legend.
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XNX Universal Transmitter S5 EOL Term Out In RT =120 10 9 8 7 TB3 Modbus Connections Use Jumper to maintain connection during service 6 5 4 3 TB3 2 1 1 + 2 + 3 - 4 - 5 A 6 A 7 B 8 B 9 S 10 1 2 3 4 5 6 Foundation Fieldbus ground cable S5 Sim Mode Out Use shorting jumper supplied to maintain connection during service SW5 - Loop Termination In + + A A B B S S Foundation Fieldbus connections to the XNX transmitter are made through a pluggable terminal block on the Fo
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XNX Universal Transmitter 2.4 Powering the XNX for the First Time Note: Inspect the cover O-ring for cracking or any other defects that might compromise the integrity of the seal. If it is damaged, replace with the O-ring supplied in the accessory kit. 2.4.1 XNX Units Configured for EC, mV, and IR (except Searchline Excel) After mounting, wiring the transmitter, wiring the specific mV or IR sensor or installing the EC cartridge, the installation is visually and electrically tested as described below.
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XNX Universal Transmitter version numbers, gas type, the detection range and span calibration gas level, estimated time to next calibration due, and self test result. This will take about 45 seconds. Note: Calibration of sensors attached to the transmitter is mandatory before the sensor can be used for gas monitoring. Refer to Section 3 - Calibration for the procedure. Note: For initial commissioning, refer to EN 60079-29-2. Figure 63. XNX Initialization and General Status Screens 2.4.
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XNX Universal Transmitter Technical Manual for calibration information P/N 2104M0506). 8. Reset any faults that appear in the transmitter’s display. The XNX transmitter and Searchline Excel sensor are now ready to monitor. Warning: When configuring or communicating with the transmitter using the front panel displays, resume monitoring by exiting all menus and returning to the General Status menu manually. No time outs are invoked. 2.
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XNX Universal Transmitter Set Date Figure 65. Language Selection Screen Figure 69. Set Date Format Screen / Set Date Menu Use the Set Date selection to set the current date. Use the switches to select the year, month, and day. Select ✓ to set the desired date. Figure 66. Accept Language Change Screen Set Date & Time Figure 70. Setting the Date Screen Use the switches to decrement or increment the values until the desired value appears. Select ✓ to set the value and move to the next character.
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XNX Universal Transmitter Set mV Sensor Type Figure 72. Set Time Screen Use the switches to navigate to the ü. Select it to save the changes. If ü is not selected, no changes will be saved. Figure 75. Set mV Sensor Type Screen Set mV Sensor Type sets the identity of the type of mV sensor attached to the transmitter. The available mV sensor type selections are: Sensor Figure 73. Accept Time-Date Changes When the new settings have been saved, the “Settings Accepted” screen will be displayed. Figure 74.
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XNX Universal Transmitter selection, retain the previously selected sensor, and return to the previous menu. Note: This configuration option is not available for XNX transmitters with EC sensors. Figure 76. Current configured mV sensor and mV Available Sensor List The first screen displays the currently configured sensor. Select ✓ to navigate to the Sensor Selection screen. To select a new switches to scroll through the list.
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XNX Universal Transmitter Changing the Gas or Units Name If “Other mA Sensor” has been selected as the sensor type, the existing gas and units can be renamed. From the Gas Selection menu, select ✓ to open the Gas Name menu. Select ✓ again to open the Gas Name editing display. The first letter of the current selection will be highlighted (Figure 82). When a new gas is selected, these screens are displayed: Figure 81.
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XNX Universal Transmitter Gas Selections and Alarm Limits Based on mV Sensor Type The following tables show the tranmsitter’s programmable alarm limits. Note: -2 Gas Selection %LEL values are per IEC 60079-20-1:2010 MPD-IC1 (5%V) Carbon Dioxide Lower Alarm Limit (% Vol) 0.5 Upper Alarm Limit (% Vol) 5.0 MPD-IV1 (5%V/V, 100%LEL) Methane Methane-1 Methane-2 Lower Alarm Limit 0.5% Vol 10% LEL 10% LEL Upper Alarm Limit 5.0% Vol 60% LEL 60% LEL % Volume Reference n/a 5.0 4.
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XNX Universal Transmitter Hydrogen Methane-1 Methane-2 Methanol Ethelyne-1 Ethelyne-2 Ethanol-1 Ethanol-2 Propane-1 Propane-2 Butane-1 Butane-2 Hexane-1 Hexane-2 Star 1 Star 2 Star 3 Star 4 Star 5 Star 6 Star 7 Star 8 MPD-CB1 (100% LEL) Lower Alarm Limit (% LEL) 10 10 10 10 10 10 10 10 10 10 10 10 10 10 20 20 20 10 10 10 10 10 Upper Alarm Limit (% LEL) 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 % Volume Reference 4
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XNX Universal Transmitter Hydrogen Methane-1 Methane-2 Methanol Ethelyne-1 Ethelyne-2 Ethanol-1 Ethanol-2 Propane-1 Propane-2 Butane-1 Butane-2 Hexane-1 Hexane-2 Star 1 Star 2 Star 3 Star 4 Star 5 Star 6 Star 7 Star 8 705-HT (100% LEL) Lower Alarm Limit (% LEL) 20 15 20 20 20 20 20 20 20 20 20 20 20 20 50 30 25 20 20 20 15 15 Upper Alarm Limit (% LEL) 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 % Volume Reference 4.
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XNX Universal Transmitter Hydrogen Methane-1 Methane-2 Methanol Ethelyne-1 Ethelyne-2 Ethanol-1 Ethanol-2 Propane-1 Propane-2 Butane-1 Butane-2 Hexane-1 Hexane-2 Star 1 Star 2 Star 3 Star 4 Star 5 Star 6 Star 7 Star 8 SP-STD (100% LEL) Lower Alarm Limit (% LEL) 20 15 20 20 20 20 20 20 20 20 20 20 20 20 50 30 25 20 20 20 15 15 Upper Alarm Limit (% LEL) 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 % Volume Reference 4.
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XNX Universal Transmitter SP-PPM (10% LEL) SP-HT-NH3 Hydrogen Methane-1 Methane-2 Lower Alarm Limit (% LEL) 2.0 2.0 2.0 Lower Alarm Limit (% LEL) 3000 ppm Upper Alarm Limit (% LEL) 10 10 10 Upper Alarm Limit (% LEL) 30000 ppm % Volume Reference 4.0 5.0 4.
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XNX Universal Transmitter When the Range option is highlighted, use the switches to decrement or increment the value. Use ✓ to accept the displayed value and move to the next field. When all fields have been updated, use the switch to highlight ü on the right side of the display. Use ✓ to accept the changes. Range & Alarms Warning: XNX Universal Transmitters carrying UL/CSA approvals that are configured for devices measuring %LEL will not allow adjustments to the full scale value.
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XNX Universal Transmitter When complete, the display will return to the main Range & Alarm screen. When all settings have been made, use to move to the ✓ on the display to Accept Settings. Figure 87. Alarm Direction The icons next to the bell images indicate whether the alarm has been triggered by rising ( ) or falling ( ) gas concentrations. Use the switches to highlight the appropriate trigger. Use ✓ to make the selection or ✖ to discard it. Figure 91.
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XNX Universal Transmitter Selecting the Numeric Format If “Other mA Sensor” has been selected as the sensor type, the transmitter’s output can be displayed in one of three numeric formats. From the Ranges & Alarms menu, select the ✓ switch to open the Range menu (Figure 93). Select the ✓ switch again to display the Range Lower Limit menu. Select the switch twice to open the first Numeric Format menu.
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XNX Universal Transmitter transmitted via HART, Modbus, or Foundation Fieldbus sensors attached to the XNX transmitter, reporting concentrations in PPM or %VOL (except oxygen). Figure 97. Setting Alarm Latching/Unlatching Use the same procedure to set the desired values for Alarm 2 and Faults. When all settings have been made, use to navigate to the ✓ on the display. Use ✓ to accept settings. Figure 100. Set Units Menu To change the units, use the switches to highlight the units icon.
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XNX Universal Transmitter Searchline (see the table in the next column). After all changes have been made, use the switches to move to the ‘ü’ and use ✓ on the front panel to accept and save the settings. If ‘ü’ is not selected, none of the changes will be saved. Figure 102. mA Levels Menu Using the switches, move to the mA output to be changed and use ✓ to select it. Figure 105.
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XNX Universal Transmitter days (or fewer, in accordance with customer site procedures) to assure the highest level of safety. Use the switches to highlight the current interval and use to select it. ✓ Accept New Sensor Type When replacing EC cells or mV sensors, use Accept New Sensor Type to load default parameters into the XNX transmitter for calibration and sensor life. Accept New Sensor Type is also used when replacing an EC cell with another EC cell for a different target gas. (See Section 4.2.2).
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XNX Universal Transmitter Set Time to Fault sets the minimum time the beam is blocked before generating a fault. Figure 111. Beam Block Menu If the infrared beam from the Excel transmitter is blocked or inhibited in such a way that the intensity of the beam drops to a level below the readable threshold set by the receiver, a warning will be generated by the XNX transmitter.
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XNX Universal Transmitter to decrement or increment the value until the desired value appears. Use ✓ to select the value and move to the next setting. Figure 120. Path Length Menu Setting the Path Length or distance between the transmitter and receiver of the Excel lets the devices determine the optimum settings for the beam strength for the application. Figure 117.
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XNX Universal Transmitter Edit ID Each XNX is assigned a default Unit ID from the factory. The Edit ID menu allows the assigned ID to be modified. Figure 123. Accepting Path Length Changes Figure 126. Edit Unit ID Screen From the Edit ID Screen, use the switches and ✓ to select Edit ID. The current Unit ID is displayed. When editing an existing ID, the list of available characters begins at the value displayed. Figure 124.
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XNX Universal Transmitter Figure 128. Clear Unit ID and Cleared Unit ID Screens Figure 131. Relay Options Screen Set ID to Default XNX relays can be set to Energized or De-energized. The default is De-energized. The two states for each relay are represented by the symbols for energized and for de-energized. The Set ID to Default option returns the Unit ID to the factory default. Figure 129. Set ID to Default Screen Figure 132.
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XNX Universal Transmitter Fieldbus Options The Fieldbus Options menu allows configuration of the HART address or the optional Modbus fieldbus address and baud rate. Figure 136. HART Address and Address Value Screens Use the switches to move to the HART option and use ✓ switches to scroll through the options to select it. Use the until the desired option is highlighted. Use ✓ to accept the new state. See Section 2.3.1 and Appendix A for more information on available HART modes. Figure 134.
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XNX Universal Transmitter Figure 139. Modbus Options Screen Figure 142. Accept Settings and Fieldbus Address Settings Accepted From the Set Fieldbus Address screen, select . To set the Fieldbus address, use the switches to move to the desired position and use ✓ to select it. Use the switches to decrement or increment the value until the desired value appears. Use ✓ to select the value and moves to the next setting. ✓ Figure 140.
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XNX Universal Transmitter 2.6 Verifying the XNX Configuration Level 1 and Level 2 Passcode 2.6.1 Level 1 and 2 passcode screens give the administrator the ability to assign new passcodes for either or both access levels. Test Menu The test menu icons are shown in this table: From the Configure Security Screen, use the switches to ✓ highlight Passcode 1. Use to choose the first digit and the switches to decrement or increment the values. Use ✓ to accept the new value and move to the next digit.
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XNX Universal Transmitter Figure 148. Inhibit Menu Use the with the Figure 151. Inhibit Status Screen switches to inhibit alarms by selecting Inhibit On ✓ . The confirmation screen appears. When the XNX transmitter is in Inhibit mode, the General Status display will display the inhibit icon . Force mA Output Caution: The mA output set in this menu will revert to the normal operating values when exiting the Test Menu.
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XNX Universal Transmitter Figure 153. New mA Output Screen Figure 155. Relay State Screen Once the new value is input, use the switches to move to the ✓ ‘ü’ and use the magnetic switch on the front panel to set the mA output. Once the new value is input, use the switches to move to the ‘ü’ and use the ✓ magnetic switch on the front panel to change the condition of the relay.
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XNX Universal Transmitter A confirmation screen will appear. Figure 158. Confirmation Selecting ✓ will simulate the alarm from the transmitter. If the is selected, the simulation will be aborted. Figure 162. Alarm/Fault Reset Screen ✖ Select to reset the alarms, faults, or warnings generated by the simulation. If the ✖ is selected, the simulation continues.
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XNX Universal Transmitter generated by the transmitter then return to the Alarm/Fault Status screen. Select the ✖ switch to return to the Alarm/Fault Status The Information Menu Displays the current status information for screen without resetting faults or alarms. these parmeters: 2.6.
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XNX Universal Transmitter ? Transmitter Status Figure 168. Transmitter Software, 4-20 Monitor and Option Version Transmitter Data is also used to update the configuration of the XNX when an option board is added or changed. To add the new option, use the switches to navigate to the Option Revision screen, then swipe the ✓ magnetic switch on the front panel to display the Accept New Option Screen. The screen will show the current option (if any) and the newly installed option.
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XNX Universal Transmitter Sensor Data Gas Data Figure 172. Sensor Data Screen Figure 176. Gas Settings Screen Sensor Data displays information about the transmitter including sensor type and sensor software revision. Gas Data displays the current detectable gas as configured for the attached sensor. Figure 173. Sensor Type and Software Screens ? Figure 177. Gas Abbreviation and Full Scale Screens Sensor Status Range/Alarm Settings Figure 174. Sensor Status Screen Figure 178.
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XNX Universal Transmitter mA Level Settings Figure 183. HART Configuration Settings Modbus displays the current address and communication data rate assigned to the transmitter. Figure 180. mA Level Settings Screen mA Level Settings shows the current values for mA output for Inhibit, Warning, and Overrange output. Figure 184. Modbus Configuration Display Screen Figure 181. mA Output Inhibit, Warning and Overrange Screens.
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XNX Universal Transmitter Relay Data displays the current setting of the optional relays on the transmitter. To change the relay settings, see Relay Options. ? Searchpoint Optima, the data reported in the event will be the fault code from the Searchline Excel or Searchpoint Optima. The transmitter records up to 1280 events in a circular buffer. When event 1281 is recorded, the oldest event will be bumped from the list.
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XNX Universal Transmitter Figure 190. Chronological Event List by Day Figure 191. Chronological Alarm List Figure 192. Chronological Fault List The transmitter is configured with five cable/conduit ports built into the housing for wiring and mounting sensors.
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XNX Universal Transmitter 3 Calibration XNX Universal Transmitter Technical Manual 89
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XNX Universal Transmitter 3.1 3.2 Calibration Gas Calibration Menu Each of the sensor technologies supported by the XNX® Universal Transmitter uses unique calibration procedures. The description provided illustrates the XNX interface with the sensor. The description does not replace the procedures found in each sensor’s operating manual. Warning: Do not use the XNX Universal Transmitter in oxygen-enriched atmospheres. Concentrations displayed will be adversely affected by oxygen depletion.
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XNX Universal Transmitter 3.2.1 Zero and Span Calibration for XNX EC Sensors, mV Sensors, and Searchpoint Optima 3.2.2 Calibration Procedure This section outlines the steps for calibrating the transmitter’s attached sensors. Caution: Before initial calibration, allow the sensor to stabilize for 30 minutes after applying power. When in Zero and Span Calibration modes, the current output from the sensor is inhibited (default 2mA) to avoid false alarms.
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XNX Universal Transmitter As the sensor detects the gas and the concentration increases, the values displayed will reflect the changing concentration. When the concentration values are stable, 3 minutes, select ✓ to allow the transmitter to calculate the zero adjustment. Selecting ✖ will return to the Gas Calibration menu. Figure 198.Span Gas Concentration Screen 5. Enter the concentration of the span gas by selecting ✓ to choose the first digit. Use the switches to increment or decrement the values.
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XNX Universal Transmitter 3.2.3 Using the Calibration Cup Refer to Figure 203 to attach the calibration cup: 1. Snap the calibration cup into the weather protector. The two protrusions on the cup fit into recesses in the weather protector. Figure 200.Span Passed Screen 2. Attach the hose from the gas cylinder to the calibration cup. Note that the cup’s flow is unidirectional.
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XNX Universal Transmitter 3.2.4 Zero and Span Calibration of XNX EC Hydrogen Sulfide (H2S) Sensors Caution: Before initial calibration, allow the sensor to stabilize for 30 minutes after applying power. When in zero and span calibration modes, the current output from the sensor is inhibited (default 2mA) to avoid false alarms. Warning: Long-term exposure (> 20 minutes) to concentrations exceediing the full-scale range of the sensor can cause it to lose sensitivity.
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XNX Universal Transmitter 4. Begin the span calibration by entering the concentration value of the calibration gas: Select ✓ ✓ to choose the first digit. Use +/- to increment/decrement values. Select ✓ ✓ to accept the value and move to the next digit. Use calibration cover P/N 2108B0272 to perform span calibration at a flow regulator of 1 LPM. (If a span calibration is not required, select ✖ to return to the calibration menu.) z Figure 205.Gas Calibration menu 2. Perform a zero calibration.
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XNX Universal Transmitter Calibration Gas Concentration Sensor Reading at Current Settings Figure 210.Span adjustment calculation Figure 212.Span Passed screen 8. Exit the Calibration Menu. After the zero and span calibrations have been successfully completed, the user will be prompted to: 7. Select ✖ ✖ to return to the Gas Calibration menu. If the calibration is not successful, the Span Failed screen will be displayed.
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XNX Universal Transmitter 3.2.8 Zero and Span Calibration for MPD Sensors Caution: Extended or frequent exposure to elevated concentrations of combustible gases may affect sensor sensitivity. Verify sensor performance by frequent calibration. Figure 214.Flow Housing 3. Reverse the cap removal procedure. Figure 215 shows the flow housing accessory fitted to the MPD. Caution: Before initial calibration allow the sensor to stabilize for 30 minutes after applying power.
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XNX Universal Transmitter 3.2.10 XNX EC Sensor Operational Life Sensors should be calibrated at concentrations representative of those to be measured. It is always recommended that the sensor be calibrated with the target gas it is to detect. The typical life of a toxic gas sensor dependst on the application, frequency, and amount of gas exposure.
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XNX Universal Transmitter 3.3 Functional Gas Testing (Bump Testing) 2. If the difference between the reading and the applied gas concentration is outside the acceptable limits for the application, follow the procedures for zeroing and calibrating the sensor (see Section 3.2.1). 3. If the reading is still inaccurate, replace the sensor (see Section 4.1). Figure 216.
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XNX Universal Transmitter 3.4 Calibrate mA Output Note: Calibrated mA output is required for proper operation of internal diagnostics. Use Calibrate mA Output to adjust the milliamp output to provide the correct output levels at peripheral devices connected to the transmitter. An F165 fault will be reported if the 4-20 mA calibration fails. 3.5 Align Excel (Searchline Excel) Figure 219.
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XNX Universal Transmitter 3.6 Soft Reset (Searchline Excel and Searchpoint Optima Plus only) Figure 224.Soft Reset Menu For transmitters connected to a Searchline Excel or Searchpoint Optima Plus sensor, the Soft Reset sends these infrared devices a signal to restart the sensor. Section 3 - Calibration Figure 225.
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XNX Universal Transmitter Section 3 - Calibration 102
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XNX Universal Transmitter 4 Maintenance XNX Universal Transmitter Technical Manual 103
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XNX Universal Transmitter Warning: When servicing or replacing sensors, reduce the risk of ignition of hazardous atmosphere by declassifying the area or disconnecting the equipment from the supply circuit before opening the sensor enclosure. Keep the assembly tightly closed during operation. 4.1 MPD Sensor Cartridge Replacement Using Figure 226 as a guide, follow this procedure: 1. Verify that the label on the new sensor is the correct gas type. 2. Remove power from the transmitter. 3.
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XNX Universal Transmitter 4.2 XNX® EC Sensor Cartridge Replacement Caution: For toxic sensors, remove the shorting clip from the bottom of the sensor prior to installation. No shorting clip is provided with oxygen sensors. The serviceable sensor allows replacement of the cell inside the sensor. The sensor cell can be replaced with a cell of the same type or changed to detect a different target gas. Both procedures follow. Figure 227.Sensor screens during warmup 9.
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XNX Universal Transmitter 4.2.2 Replacing with a Different Cartridge Type and the original cell is no longer recognized. This fault condition will clear after the transmitter has been properly reconfigured. To replace the cell with a cell for a different gas, follow this procedure: 1. Unscrew the weatherproof cover, loosen the sensor retainer locking screw, and unscrew the sensor retainer. 2. Remove the old sensor by pulling without twisting. 3. Unscrew the sensor cap. 4.
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XNX Universal Transmitter 5 Warnings and Faults XNX Universal Transmitter Technical Manual 107
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XNX Universal Transmitter 5.1 Warning Messages Warning Description Applicable Sensors Latching / Non-Latching Frequency of Diagnostic Event History Data Action For Resolution W001 XNX® 24 VDC Supply Bad All Non-latching 2 seconds XNX supply voltage x1000 Check wire of 24V power supply to XNX as well as power supply operation. W002 XNX Temperature Error All Non-latching 2 seconds XNX temperature (Celsius) Check location for heat sources. Fit with sunshade or other protection.
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XNX Universal Transmitter Warning W009 Description Sensor 24 VDC Supply Bad Sensor Path Obscured Applicable Sensors Optima, Excel Optima Latching / Non-Latching Excel W011 Sensor Internal Lamp Issue Optima W012 Excessive Float Optima, Excel W013 Sensor Loop Failure, (Sensor is losing/ has lost mA output signal. These are detected by Optima and Excel.
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XNX Universal Transmitter Warning Description Sensor Internal Failure Applicable Sensors Optima, Excel Latching / Non-Latching Excel Event History Data Action For Resolution Latching and Nonlatching XNX polls sensor every 2 seconds, diagnostic frequency controlled by sensor Sensor fault or warning code (Note 4) Remove and return to Honeywell for repair.
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XNX Universal Transmitter Warning Description Applicable Sensors Latching / Non-Latching Frequency of Diagnostic Non-latching Sensor fault or warning code (Note 4) Check location for external interference or obstructions in the IR path. Check sensor for dirty windows. Check Excel alignment. Check Beam Block Low Signal Percentage setting in the transmitter. 0 ECC sensor is nearing end of life. Replace sensor. Note 3 Contact Honeyewell Analytics Service Department.
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XNX Universal Transmitter NOTES Note 3: Subtypes Fault 2 Event Bits Fault 3 Event Bits Decimal 1 2 4 Description CRC error in safety critical RAM block Error reloading safety critical RAM block from EEPROM Error loading data from Personality board 8 Excel signal level has been below the low signal level threshold for at least 24 hours 16 32 64 128 256 512 1024 2048 4096 8192 16384 32768 Excel beam blocked Personality board error code > 0 Option board error code > 0 IR mA input > 1 mA and < 3.
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XNX Universal Transmitter 5.2 Fault Messages Fault Description Applicable Sensors Latching / NonLatching Frequency of Diagnostic Event History Data Note 2.
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XNX Universal Transmitter Fault Description Applicable Sensors Optima, Excel Latching / NonLatching Frequency of Diagnostic Non-latching Sensor fault or warning code (Note 4) Check the wire of the 24V power supply to the transmitter and the power supply operation. Also check the wiring between the transmitter and the Optima/Excel.
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XNX Universal Transmitter Fault Description Applicable Sensors Latching / NonLatching Frequency of Diagnostic Event History Data Action For Resolution F119 Cartridge Internal Electrical Failure ECC, mV Non-latching XNX polls sensor every 2 seconds, diagnostic frequency controlled by sensor F120 No Sensor ECC, mV, Optima, Excel Non-latching 2 seconds Note 2 Indicates a loss of communication with the sensor.
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XNX Universal Transmitter Fault F126 F127 Description Sensor Path Obscured Beam Block Applicable Sensors Optima Excel Latching / NonLatching Frequency of Diagnostic Event History Data Action For Resolution Non-latching XNX polls sensor every 2 seconds, diagnostic frequency controlled by sensor Sensor fault or warning code (Note 4) Check location for external interference. Check sensor for dirty windows.
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XNX Universal Transmitter Fault Description Applicable Sensors Latching / NonLatching Frequency of Diagnostic Event History Data Action For Resolution F149 Internal 4-20 mA monitoring circuit communication failure All Non-latching 3.366 seconds 0 Contact Honeywell Analytics’ Service Department. F150 mA Output Monitor Communications Watchdog Error All Non-latching 138 us Communication error count Contact Honeywell Analytics’ Service Department.
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XNX Universal Transmitter Fault Description Applicable Sensors Latching / NonLatching Frequency of Diagnostic Event History Data Action For Resolution Non-latching Only at powerup or every 125 ms when no option board detected Entire option part # Check that installed option matches the option indicated in the XNX part number, check wiring to Optima/Excel. Non-latching Main loop x2 Gain1 high byte, Gain2 low byte Replace defective EC cartridge or mV personality board.
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XNX Universal Transmitter Fault Description Applicable Sensors Latching / NonLatching Frequency of Diagnostic Event History Data Action For Resolution DAC: Digital to Analog Converter (4-20 mA output) ADC: Analog to Digital Converter (4-20 mA internal feedback) F165 mA Calibration failure all Section 5 - Warnings/Faults Latching 2 seconds 0 OK 1 DAC 4 mA point is too low 2 DAC 4 mA point is too high 4 DAC 20 mA point is too low 8 DAC 20 mA point is too high 16 ADC 4 mA point is too low 32 ADC
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XNX Universal Transmitter NOTES Note 2: Spi Event Bits Decimal 1 2 4 8 16 32 64 128 256 512 1024 2048 4096 8192 16384 32768 Description SPI1 Starting TX SPI1 transmitting falling clock edge, 0 = rising edge SPI1 port open, 0 = closed SPI1 no response SPI1 ECC no response SPI1 missing data Not used SPI3 Starting TX SPI3 transmitting falling clock edge, 0 = rising edge SPI3 port open, 0 = closed Not used SPI2 Starting TX Section 5 - Warnings/Faults 120
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XNX Universal Transmitter Note 3: Subtypes Fault 2 Event Bits Fault 3 Event Bits Decimal Description 1 2 4 CRC error in safety critical RAM block Error reloading safety critical RAM block from EEPROM Error loading data from Personality board 8 Excel signal level has been below the low signal level threshold for at least 24 hours 16 32 64 128 256 512 1024 2048 4096 8192 16384 32768 1 Excel beam blocked Personality board error code > 0 Option board error code > 0 IR mA input > 1 mA and < 3.
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XNX Universal Transmitter Note 4: Optima and Excel fault and warning codes are displayed in the Event History data field.
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XNX Universal Transmitter Note 6: Relay Option Board Error Status Decimal Description 1 Didn't receive STX or ETX 2 Received undefined command 4 Exceeded maximum data bytes 8 Write collision or buffer overrun Relay Option Board Error Status 16 CRC error in SPI packet 32 Stack overflow or underflow 64 Program memory CRC error 128 Galpat RAM test failure Section 5 - Warnings/Faults 123
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XNX Universal Transmitter 5.3 Informational Messages Number Description Number Contents of Data Field I001 Unused I002 Force Relay Mode Started Bitpattern for relays. (E.G. 7.0 ==All) I003 Force Relay Mode Ended. N/A I004 Force mA Mode Started Force current. (E.G. 20.
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XNX Universal Transmitter Number Description Contents of Data Field I048 Alarm 2 Reconfigured for Increasing Concentrations N/A I049 Alarm 2 Reconfigured for Depleting Concentrations N/A I050 Alarm 1 Value Changed fAlarmThres[0] I051 Alarm 2 Value Changed fAlarmThres[1] I052 Clock Set N/A I053 Date Format Changed iDateFormat I054 Sensor Boots N/A I055 Unused I056 Sensor RTC Adjusted I057 Fault Set Latching I058 Fault Set Non-Latching I059 LCD Heater On I060 LCD Heater Off
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XNX Universal Transmitter Section 5 - Warnings/Faults 126
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XNX Universal Transmitter 6 Specifications XNX Universal Transmitter Technical Manual 127
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XNX Universal Transmitter 6.1 Product Specifications Electrical Operating Voltage Power Consumption Termination User Interface EC/mV: 16V to 32V (24V nominal) ** Startup/Normal values ** IR: 18V to 32V (24V nominal) ** Startup/Normal values ** Configuration Max Power Inrush XNX EC 6.2 w <1A, <10ms@24VDC XNX mV 6.5 w <750mA <2ms@24VDC XNX IR (Optima) 9.7w <1A, <10ms@24VDC XNX IR (Excel) 13.
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XNX Universal Transmitter Communication Options Hazardous Area Approvals [See Section 6.2 Certifications by Part Number for other approvals (pending)] Relays Type: 3 form “C” SPCO contacts for alarm and fault indication. Rating: 250 VAC, 5A/24 VDC, 5A (2 Alarm, 1 Fault) A remote reset is provided to silence alarms. (The Foundation Fieldbus, relay, and Modbus options are mutually exclusive.) Modbus Modbus/RTU over RS-485 physical layer.
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XNX Universal Transmitter See Section 6.2 Certifications by Part Number for other approvals 6.2 Sensor Data 6.2.1 Operating and Storage Conditions for Performance Tested EC Cartridges Gas Cartridge P/N H2S XNXXSO1SS Oxygen XNXXSO1FM XNXXSH1SS Hydrogen Sulfide XNXXSH1FM H2S (High) Hydrogen Sulfide XNXXSH2SS O2 Operating Air Speed Warm-up Time (minimum) Temperature Pressure Humidity Time** 80 kPa ~ 120 kPa 0 ~ 6 m/sec 60 sec.
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XNX Universal Transmitter 6.2.2 EC Sensor Performance Data, Factory Mutual Verified (see Section 6.3) Gas Cartridge P/N Selectable Full Scale Range (Display and 4-20mA Full Scale) Default Range Range Increments Lower Alarm Limit Operating Temperature Lower Lower Selectable Response Response Explosive Zero Default Detection Cal Gas Time (T50) Time (T90) Limit Deviation Cal Point Limit Range sec sec (% Vol) Accuracy 20.9 %Vol (fixed) <+/-0.5 %Vol O2 Oxygen XNXXSO1FM n/a 23.0% Vol n/a 5.
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XNX Universal Transmitter 6.2.3 EC Sensor Performance Data, DEKRA EXAM verified (see Section 6.3) Gas Cartridge P/N Selectable Full Scale Range (Display and 4-20mA Full Scale) Default Range Range Increments Lower Alarm Limit Lower Detection Limit Zero Variation O2 Oxygen XNXXSO1SS n/a 25.0 %Vol n/a 5.0%Vol 3.5 %Vol n/a H 2S Hydrogen Sulfide XNXXSH1SS 10.0 to 50.0 ppm 15.0 ppm 0.1ppm 3.0 ppm 1.0 ppm 2.
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XNX Universal Transmitter 6.2.4 Other EC Sensors Gas HCl Hydrogen Chloride H2S (Low) Hydrogen Sulfide SO2 Sulfur Dioxide SO2 (High) Sulfur Dioxide Selectable Full Scale Range (Display and 4-20mA Full Scale) Default Range Range Increments Lower Alarm Limit XNXXSR1SS 10.0 to 20.0 ppm 10.0 ppm 1.0 ppm 5.0 ppm 0.6 ppm -1.0 ppm 5.0 ppm <452, 3 <1502, 3 XNXXSH3SS n/a 15.0 ppm n/a 3.0 ppm 1.0 ppm -2.5 ppm 10 ppm <20 <40 XNXXSS1SS 5.0 to 20.0 ppm 15.0 ppm 5.0 ppm 2.0 ppm 0.
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XNX Universal Transmitter FOOTNOTES (SEE TABLE ON PREVIOUS PAGE): 1. Accuracy of reading at default Alarm 1 concentration (typically 10%FS or defined minimum alarm level setting, whichever greater) when operated at default full scale. 2. System conditioning may be required to achieve stated results. Contact Honeywell Analytics for details. 3. Measured using calibration flow housing at calibration flow rate (300-375 ml/min) with dry gas.
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XNX Universal Transmitter 6.2.5 XNX EC Sensor Cross-sensitivity Gas type O2 HCl H2S (Low Range) Section 6 - Specifications Part Number Gas Type Applied XNXXS01SS XNXXSO1FM Carbon Dioxide XNXXSR1SS XNXXSH3SS Concentration Unit Reading Unit 5 %vol 0.1 %vol (change O2 reading) per %vol CO2 Carbon monoxide 2000 0 Hydrogen 20000 0 Chlorine 5 5.6 Nitrogen dioxide 5 0.9 Propan-2-ol 500 0 Methanol 500 ppm 0 5 Hydrogen suflfide 25 -3.6 Sulphur dioxide 50 22.
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XNX Universal Transmitter Gas type H2S H2S (High Range) Section 6 - Specifications Part Number XNXXSH1SS XNXXSH1FM XNXXSH2SS Gas Type Applied Concentration Unit Reading Unit Ammonia 50 0 ppm H2S Carbon Monoxide 100 <2 ppm H2S Carbon Dioxide 5000 0 ppm H2S Chlorine 0.
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XNX Universal Transmitter Gas type CO SO2 SO2 Section 6 - Specifications Part Number XNXXSC1SS XNXXSC1FM XNXXSS1SS XNXXSS2SS Gas Type Applied Concentration Unit Reading Unit Acetone 1000 0 ppm CO Acetylene 40 80 ppm CO Ammonia 100 0 ppm CO Carbon Monoxide 100 100 ppm CO Chlorine 2 0 ppm CO Ethanol 2000 3 ppm CO Ethylene 100 85 ppm CO Hydrogen 100 20 ppm CO Hydrogen Sulfide 25 0 ppm CO Iso-Propanol 200 0 ppm CO Nitrogen Monoxide 50 8 ppm CO Nitrogen D
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XNX Universal Transmitter Gas type NH3 Part Number XNXXSA1SS Gas Type Applied Alcohols 1000 Carbon Dioxide 5000 Carbon Monoxide 100 Hydrocarbons Hydrogen Hydrogen Sulfide NH3 (High Range) XNXXSA2SS ClO2 Section 6 - Specifications XNXXSL1SS XNXXSX1SS % range 10000 20 ppm Unit 0 ppm NH3 0 ppm NH3 0 ppm NH3 0 ppm NH3 0 ppm NH3 2 ppm NH3 0 ppm NH3 Carbon Monoxide 100 0 ppm NH3 Chlorine 5 0 ppm NH3 Nitrogen Dioxide 10 0 ppm NH3 Sulfur Dioxide 20 -40 ppm NH3 3000
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XNX Universal Transmitter Gas type Part Number Gas Type Applied Carbon Monoxide NO NO2 H2 XNXXSM1SS XNXXSN1SS XNXXSG1SS Sulfur Dioxide Unit 300 5 ppm Reading Unit 0 ppm NO 0 ppm NO Nitrogen Dioxide 5 <1.5 ppm NO Hydrogen Sulfide 15 ~1.5 ppm NO Carbon Monoxide 300 0 ppm NO2 Hydrogen Sulfide 15 ~ -1.
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XNX Universal Transmitter Gas type H2 (High Range) Part Number XNXXSG2SS Gas Type Applied Concentration Unit Reading Ammonia 100 ppm 0 ppm H2 Arsine 0.2 ppm 0 ppm H2 Carbon Dioxide 1000 ppm 0 ppm H2 Carbon Monoxide 100 ppm 150 ppm H2 Chlorine 1 ppm 0 ppm H2 Ethylene 500 ppm yes; n/d ppm H2 Hydrogen Cyanide 20 ppm 0 ppm H2 Hydrogen Sulfide 20 ppm 4 ppm H2 1100 ppm yes; n/d ppm H2 Methane 1 % 0 ppm H2 Nitrogen Dioxide 10 ppm -40 ppm H2 0.
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XNX Universal Transmitter Gas type PH3 NOTES: Part Number XNXXSP1SS Gas Type Applied Concentration Unit Reading Carbon Monoxide 2000 ppm <10 ppm PH3 Hydrogen 5000 ppm <10 ppm PH3 Chlorine 1 ppm -70 ppm PH3 Nitrogen Dioxide 8 ppm -860 ppm PH3 Ethanol 2000 ppm <10 ppm PH3 Iso-Propanol 1000 ppm <10 ppm PH3 Hydrogen Chloride 10 ppm <10 ppm PH3 Hydrogen Fluoride 10 ppm <10 ppm PH3 Hydrogen Sulfide 0.
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XNX Universal Transmitter 6.2.6 XNX MPD Sensor Performance Data Sensor Type Gas Typical Typical Accuracy Response Response Maximum (% of full scale or Time Time Range % of applied gas) (T50) sec (T90) sec Drift Over Time Operating Temperature Operating Humidity Min Max Operating Pressure Operating Air Speed MPD-IC1 Carbon Dioxide <30 <70 5.00 %Vol ±5%FS or ±15% < 3%/yr -20°C / -4°F +50°C / 122°F 80kPa ~ 110kPa 0 ~ 6m/sec MPD-IV1 Methane <15 <30 5.
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XNX Universal Transmitter 6.2.7 EN60079-29-1 Performance Approved Gases for mV Sensor Types MPD AMCB1 SP-HT Verified Gas Selections EN60079-29-1 Reference Hydrogen Methane-2 Propane-2 Standard Test Gas l Sensor Type Other Gases Other Gases Star 2 l n-nonane Star 4 l l l Standard Test Gas Butane-2 l l l n-nonane Max Zero Deviation (see note 1) -7% LEL -9% LEL -7% LEL LDL (see note 2) 3% LEL 5% LEL 3% LEL NOTES: 1.
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XNX Universal Transmitter 6.3 XNX Certifications by Part Number Series Contact Honeywell Analytics for information about approvals not shown in this section.
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XNX Universal Transmitter XNX Certifications by XNX-AM Series XNX Transmitter EC Personality XNX-AMSI-***** XNX-AMAI-***** XNX-AMSV-***** / XNX-AMAV-***** XNX-AMSE-***** / XNX-AMAE-***** With Optima Plus With Searchline Excel MPD-AMCB1 (Cat Bead) MPD-AMIV1 (IR Methane) MPD-AMIF1 (IR Flam) MPD-AMIC1 (IR CO2) With 705 HT With Sensepoint With Sensepoint PPM With Sensepoint HT With Oxygen Cartrdige With H2S Low Cartridge With H2S Med Cartridge With H2S High Cartridge With CO Cartridge SO2, NH
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XNX Universal Transmitter XNX Certifications XNX-AM Series TÜV Rhineland M N/A N/A N/A N/A N/A N/A N/A N/A N/A Foundation Fieldbus EN 50271:2010 M Local HART M M Relays N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A M Modbus EN 50104:2010** N/A N/A N/A N/A Options SO2, NH3, Cl2, ClO2, NO, NO2, H2 PPM HCL, HCN, HF, O3, PH3 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A With XNXXSC1SS CO Cartridge EN 45544:1999 With XNXXSH2SS H2S Cartridge M With XNXXSH1SS H2S Cartridge With Sensepoint
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XNX Universal Transmitter XNX Certifications - MPD-BT**.
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XNX Universal Transmitter 6..3.1 Certification Labels Figure 229.
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XNX Universal Transmitter XNXDEMKO 09 ATEX 0809943X 11-KB4BO-0120X to 32 VDC Max. Pmax = 0539 0539 1180 Figure 230.
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XNX Universal Transmitter 6.4 Product Identification 6.4.1 XNX Universal Transmitter The XNX part numbering system contains all of the information necessary to convey the product configuration, including options. Agency, port thread, enclosure material, and sensor personality define the standard unit. Three option fields define optional relay or fieldbus interfaces and factory installed local HART.
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XNX Universal Transmitter 6.4.2 XNX EC Replacement Sensors XNX ID Target Gas Cartridge Part No Maximum Range XNXXS01SS 25.0 %Vol XNXXSO1FM 23.0% Vol Selectable Range Increment Default Range N/A N/A N/A 15.0 ppm 5.0 to 10.0 ppm GFV263 10 ppm H2S 25.0 %Vol Cal Gas Range O2 Oxygen 2 H 2S Hydrogen Sulfide (Low Range) XNXXSH3SS 15.0 ppm N/A 3 H2S Hydrogen Sulfide XNXXSH1SS XNXXSH1FM 50.0 ppm 10.0 to 50.0 ppm 0.1 ppm 15.
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XNX Universal Transmitter 6.4.
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XNX Universal Transmitter 6.4.4 Multi Purpose Detector (MPD) Similar to the XNX Transmitter, the MPD part numbering system defines the agency approval and thread type. The only material selection is Stainless Steel. Four sensor selections are available. Agency Approvals are specific to the 4 sensor types. Ensure the approval of the specific sensor type meets the requirements of the installation. Model Type Port Config Installed Sensor (See Section 6.
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XNX Universal Transmitter 6.4.6 Accessories/Spares Accessory/Spare Pipe Mount Kit Remote EC Sensor Mounting Kit Ceiling Mount Bracket Kit Duct Mount Kit 1226A0382 MPD Adapter Ring MPD Interface Adapter Part Number 1226A0358 S3KRMK 1226A0355 For use on pipes from 2-6 inches (50-150mm) in diameter. Kit includes: Pipe Mount Bracket, (2) Carriage Bolts, Nuts and Lock Washers.
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XNX Universal Transmitter Accessory/Spare Part Number Included Weatherproof Cap Description XNX EC 02000-A-1640 MPD 02000-A-1640 Sensepoint The weatherproof cap protects the XNX sensors from harsh weather. 02000-A-1635 705 Extreme Weather Protector SPXCDWP S3KCC Collecting Cone Sensor XNX-EC or MPD; the weather protection is designed to protect the sensor from environmental conditions in outdoor exposure applications.
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XNX Universal Transmitter Accessory/Spare Part Number Description 1226-0257 M25 Plug w/protective cap and O-ring. (Certified for use with XNX Universal Transmitter only) 1226-0258 3/4 NPT w/protective cap.
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XNX Universal Transmitter Accessory/Spare Part Number Description Weather Housing 0200-A-1635 For use with Series 2000, SensePoint, and SignalPoint EEC Sensor Products Weather Housing 0200-A-1640 For use with Series 2000, SensePoint, and SignalPoint Combustible Sensor Products Section 6 - Specifications 157
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XNX Universal Transmitter 7 Control Drawings XNX Universal Transmitter Technical Manual 159
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XNX Universal Transmitter 7.
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XNX Universal Transmitter Section 7 - Control Drawings 160
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XNX Universal Transmitter Section 7 - Control Drawings 161
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XNX Universal Transmitter XNX UL/CSA/FM ˚ ˚ Control Drawings ˚ ˚ 162
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XNX Universal Transmitter 18-32 VDC 6.2W max.
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XNX Universal Transmitter OUTPUT INPUT Uo = 24.15V Ui = 21.85V Io = 136mA Ii = 120mA Po = 0.82W Pi = 1.0W Lo = 1.4mH Li = 0.0mH Co = 0.122uF Ci = 0.
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XNX Universal Transmitter Remote Sensor Mount Gas Type Sensor Part No. H2S(L) S3KXSH1SS or XNXXSH1SS, XNXXSH1FM H2S(H) S3KXSH2SS or XNXXSH2SS H2S(LL) Gas Type Sens or Part No. Gas Type Sensor Part No.
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XNX Universal Transmitter Appendix A - HART® Protocol XNX Universal Transmitter Technical Manual 167
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XNX Universal Transmitter A.1 HART® Interface The XNX Universal Transmitter is registered with the HART Communication Foundation. high a frequency (1200 Hz) to interfere with analog control equipment. Another novel feature of HART networks is that two masters can be present. The primary master is usually a distributed control system (DCS), programmable logic controller (PLC), or a personal computer (PC). The secondary master can be a handheld terminal.
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XNX Universal Transmitter J1 - Local HART Option Connector J1 HART Figure 235. XNX mV Personality Board Terminal Blocks, Jumper Switches and Wire Color Chart Source Sink S1 S2 Isolated mV +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 Sense 1-7 0v 1-8 Ref 1-9 S1 and S2 - 20mA Output Jumper Switch Source Sink Isolated S1 S2 ▼ ▲ ▼ ▲ ▼ ▼ 510 Ohm Resistor 1 TB-1 2 3 4 6 7 8 9 mV Sensor Type Catalytic Bead MPD TB-1 Desc.
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XNX Universal Transmitter A.1.1 HART Sink, Source, and Isolated Wiring The following figures illustrate the proper HART Multidrop wiring for the XNX. S1 S2 S1 S2 S1 S2 EC TB-1 Other loop + powered HART devices Source Sink S1 S2 Isolated 4-20mA HART +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 S1 S2 +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 EC TB-1 16-32 VDC 6.2W max. XNX Address 7 4-20mA HART TB-1 Source Sink S1 S2 Isolated 16-32 VDC 6.2W max. EC 16-32 VDC 6.2W max.
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XNX Universal Transmitter S1 S2 S1 S2 S1 S2 EC TB-1 Other loop + powered HART devices XNX Address 2 Source Sink S1 S2 Isolated 4-20mA HART +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 S1 S2 +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 EC TB-1 16-32 VDC 6.2W max. XNX Address 7 4-20mA HART TB-1 Source Sink S1 S2 Isolated 16-32 VDC 6.2W max. EC 16-32 VDC 6.2W max. 4-20mA HART Source Sink S1 S2 Isolated +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 +V 1-1 1 6.
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XNX Universal Transmitter S1 S2 S1 S2 S1 S2 EC TB-1 Other loop + powered HART devices XNX Address 2 + 24 VDC - Source Sink S1 S2 Isolated 4-20mA HART +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 S1 S2 +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 EC TB-1 16-32 VDC 6.2W max. XNX Address 7 4-20mA HART TB-1 Source Sink S1 S2 Isolated 16-32 VDC 6.2W max. EC 16-32 VDC 6.2W max. 4-20mA HART Source Sink S1 S2 Isolated +V 1-1 1-2 -V 1-3 1-4 +mA 1-5 -mA 1-6 +V 1-1 1 6.
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XNX Universal Transmitter A.1.2 DevComm PC-based HART Interface Overview The XNX-HART interface facilitates remote access to all features of the local user interface including displaying status, testing, calibrating, and configuring. A device descriptor (DD) file is available to adapt standard tools for use with the transmitter. Warning: After changing parameters with a handheld device, verify that the parameter settings are correct at the transmitter.
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XNX Universal Transmitter Functions in the Configure Menu and the security levels required to change them are explained in this table.
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XNX Universal Transmitter Information Screens All of the information in the Configuration Summary can be viewed live on various informational displays. For example, alarm settings are shown in Figure 242. Figure 243. HART Event History Display Test The test menu provides methods for inhibiting the output, exercising the analog output, or simulating alarms or faults. These methods simplify common tasks by providing a simple user interface. Figure 242.
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XNX Universal Transmitter Calibration The calibration menu permits calibrating zero or span and bump testing. Additionally, when fitted with a Searchline EXCEL sensor, the Calibrate menu displays the optical signal strength for mechanical alignment. The gas calibrate operation is shown below. Figure 246.Set Range and Alarm Figure 245.Gas Calibrate Method Conclusion Caution: Do not back out of a menu selection while a calibration is in progress.
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XNX Universal Transmitter A.1.3 Handheld Online Menu When HART communication is established with the XNX, the Root menu is displayed: Main Menu Key Sub Menus Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Device Setup... 1 User Login 2 XNX Display... 3 Display Menu... 4 Test Menu... 5 Calibration... 6 Configuration... 7 Device Status... 8 Detailed Setup...
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XNX Universal Transmitter Main Menu Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Key Sub Menus Device Setup... 1 User Login 2 XNX Display... 3 Display Menu... 4 Test Menu... 5 Calibration... 6 Configuration...
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XNX Universal Transmitter Main Menu Key Sub Menus Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Device Setup... 1 User Login 2 XNX Display... 3 Display Menu... 4 Test Menu... 5 Calibration... 6 Configuration... 7 Device Status... 8 Detailed Setup... 9 Review Display Menu... 1 Reset Alarm Faults 2 Event History 3 Display Basic Info... 4 Display SW Info...
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XNX Universal Transmitter Main Menu Key Sub Menus Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Device Setup... 1 User Login 2 XNX Display... 3 Display Menu... 4 Test Menu... 5 Calibration... 6 Configuration... 7 Device Status... 8 Detailed Setup... 9 Review Display Menu... 1 Reset Alarm Faults 2 Event History 3 Display Basic Info... 4 Display SW Info...
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XNX Universal Transmitter Main Menu Key Sub Menus Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Device Setup... 1 User Login 2 XNX Display... 3 Display Menu... 4 Test Menu... 5 Calibration... 6 Configuration... 7 Device Status... 8 Detailed Setup... 9 Review Calibration... 1 Gas Calibrn 2 Bump Test 3 Calibrate mA Offset 4 Soft Reset 5 Align Excel Online...
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XNX Universal Transmitter Main Menu Key Sub Menus Online... 1 Device Setup 2 Concentration 0.00 %LEL 3 PV Alrm Typ 4 Monitoring State Normal Monitoring 5 Reset Alarm Fault(s) None 6 Gas Name Methane 7 Sensor Type Optima Device Setup... 1 User Login 2 XNX Display... 3 Display Menu... 4 Test Menu... 5 Calibration... 6 Configuration... 7 Device Status... 8 Detailed Setup... 9 Review Detailed Setup... 1 Output Condition... 2 Device Information... Online... 1 Device Setup 2 Concentration 0.
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XNX Universal Transmitter Appendix B - Modbus® Protocol XNX Universal Transmitter Technical Manual 183
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XNX Universal Transmitter B.1 Modbus and the XNX transmitter See Section 2.3.4 for information on installing the optional Modbus hardware. See Section 2.5.1 for information on setting the Modbus baud rate and address using the local user interface. See Section A.1.1 for information on setting the Modbus parameters using the HART interface. The XNX® gas sensor may be fitted with the optional Modbus® interface card (P/N XNX-MB). Authoritative information on the Modbus protocol can be found at www.modbus.
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XNX Universal Transmitter S5 EOL Term Out In R T =120Ω TB-3 Modbus 3-1 + 3-2 + 3-3 3-4 3-5 A 3-6 A 3-7 B 3-8 B 3-9 S 3-10 S Use shorting jumper supplied to maintain connection during service Figure 248.
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XNX Universal Transmitter B.2 Modbus Registers Modbus Holding Register Address Datatype Variable Name 40001 Int16 ID MSB always 0x24 to facilitate automatic identification. LSB repeat of Modbus address. 40002 Int16 ID Identical to 40001 Float32 fCurrentConc The reported gas concentration in current measurement units. For example, methane at 50% LEL would be reported as 50.0 here. This concentration is forced to zero during inhibit mode.
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XNX Universal Transmitter Modbus Holding Register Address Datatype Variable Name Description This has the following meanings: 40007 40008 40009 to 40010 uint8 iMonitoringState int16 iHeartBeat float32 fSensorLifeDays Appendix B - Modbus Protocol 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21255 reserved normal monitoring in warm-up long-term inhibit alarm simulation fault simulation Loop current stimulated in warning MFlt in Instrument Flt in beam block in bump test short-term inhibi
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XNX Universal Transmitter Modbus Holding Register Address Datatype Variable Name Description The meaning of this datum is as enumerated below: 40011 0 1 2 3 4 5 6 7 8 9 10 11 12 to 255 Default mg/m3 g/m3 %vol ppm %LEL UEG Ratio %LEL*M ppm*m EG*m %vol * meter for future expansion int8 iMeasurementUnits string[5] strGenericUnits 40015 int8 iWinTemp 40016 int8 iTransTemp Temperature of the XNX in Celcius.
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XNX Universal Transmitter Modbus Holding Register Address Datatype Variable Name Description 40038 int16 iTransVoltage24000 The voltage supplied to the XNX at the nominal 24.0 volt input, in millivolts. 40039 int16 iTransVoltage_3300 The voltage on a nominal 3.3 volt supply in the XNX, in millivolts. 40041 int16 iOptional3300 40042 int16 iPersonality3300 The voltage on a nominal 3.3 volt supply in the XNX personality board, in millivolts.
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XNX Universal Transmitter Appendix B - Modbus Protocol 189
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XNX Universal Transmitter Appendix C - Warranty XNX Universal Transmitter Technical Manual 191
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XNX Universal Transmitter Warranty Statement All products are designed and manufactured to the latest internationally recognized standards by Honeywell Analytics under a Quality Management System that is certified to ISO 9001.
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XNX Universal Transmitter Index XNX Universal Transmitter Technical Manual 193
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XNX Universal Transmitter Symbols C 4-20mA output 11, 37, 38 705, calibrating 94 705HT, calibrating 94 cable length 52 ports 128 recommended 132 cal gas range 134, 135, 133 Calibration 93–106 calibration for MPD sensors 101 gas 90 gas flow adapter 15, 156 interval 71 span 90, 91 zero 90, 91 cal point 130, 131, 133 cartridges catalytic bead replacement 155 IR replacement 155 part numbers 130, 131, 133 Cautions 7 ceiling mount bracket kit 16, 156 cells, replacement 154 certifications 11, 12 by part number
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XNX Universal Transmitter J jumpers 38 jumper switch 54 L language 22 selecting 57 latching 69 LCD. See liquid crystal display LDL. See lower detection limit LED.
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XNX Universal Transmitter T W temperature 128, 130 ranges, extended 134 range, standard 134 terminal blocks 38, 54 connections 38 jumpers 157 pluggable 158 termination 128 test menu 79 time 22, 58, 83 transmitter configuring 57 data 83, 84 information, displaying 21 status 83, 83 testing 22 warm-up time 132 Warnings 5 Warnings and Faults 107–126 warranty 191–192 weatherproof cap 16, 157 weather protector 17, 157 weight 128 wiring 30 isolated 37 X XNX front panel 17 Z zero calibration 184 U units name,
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