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Guide to Operation
Satellite XT FTT Versions
Satellite XT 9602-0400 FTT
Satellite XT 9602-0405 FTT/R
Satellite XT 9602-0450 FTT/C
Including Options:
Extractive Module XT
Pyrolyzer Module XT

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Summary of Contents for Honeywell Satellite XT 9602-0400 FTT

  • Page 1 Guide to Operation Satellite XT FTT Versions Satellite XT 9602-0400 FTT Satellite XT 9602-0405 FTT/R Satellite XT 9602-0450 FTT/C Including Options: Extractive Module XT Pyrolyzer Module XT...
  • Page 2: Table Of Contents

    Table of Contents Section 1 Basic Operation page. Principle of Operation Operating States 1.2.1 Monitoring Mode 1.2.2 Maintenance Mode 1.2.3 Warning Condition 1.2.4 Diagnostics Menu structure 1.3.1 Maintenance Menu 1.3.2 Calibration Menu 1.3.3 Configuration Menu Operational Elements 1.4.1 Keypad Functions 1.4.2 Graphic Display 1.5 Technical Specifications...
  • Page 3 Section 6 Configuration page. Alarm Settings 6.1.1 Alarm 1 6.1.2 Alarm 2 Language Date Format Auto Selftest Security Password 6-10 Location 6-10 New Sensor Type 6-11 Gas Name 6-11 6.10 Relays 6-12 Section 7 Troubleshooting Warning and Fault Messages 7.1.1 Warnings 7.1.2 Faults...
  • Page 4: Principle Of Operation

    Basic Operation – Section 1 This section provides basic understanding of the instrument and its operation. Principle of Operation The Satellite XT is a gas monitoring instrument especially designed for the continuous surveillance of hazardous gas concentrations. The instrument is designed to interface with LONWORKS™...
  • Page 5: Maintenance Mode

    Basic Operation – Section 1 1.2.1.1 Alarm Level Settings The settings for Alarm Level 1 and Alarm Level 2 are automatically loaded when installing the sensor. Standard settings are 1x and 2x TLV or 20 and 40 % LEL for the target gas. The Alarm Setup function in the Configuration Menu allows the user to change the alarm levels as required.
  • Page 6: Diagnostics

    Basic Operation – Section 1 1.2.4 Diagnostics Instrument faults refer to a problem which prevents the Satellite XT from operating properly and interferes with the ability to monitor or document concentration alarms. When the instrument has detected an instrument fault, a fault message is transmitted to the communication network and the fault relay is activated (only instruments with relay option). The green status LED is off. The LCD display is flashing while indicating the specific fault message.
  • Page 7: Operational Elements

    Basic Operation – Section 1 Operational Elements Located at the front of the Satellite XT is S a t e l l i t e - the graphic display, A s H 3 0.00 - the keypad consisting of six keys, - the green status LED above the Set Key. 1.4.1 Keypad Functions Escape Key <esc>...
  • Page 8: Technical Specifications

    Basic Operation – Section 1 Technical Specifications Satellite XT Version FTT/R FTT/C Part Number 9602-0400 9602-0405 9602-0450 Sensor Type used electrochemical catalytic Power Requirements 12 ... 24 VDC (18 VDC minimum when using the voltage Extractive Module) consumption max. 0.6 W max. 1,4 W max. 0,9 W Standardized LonTalk TM protocol...
  • Page 9: Installation And Start-Up

    Installation and Start-Up - Section 2 General Guidelines Please consider the aspects indicated below before locating the instrument. The property of the target gas (lighter or heavier than air) must be considered. The instrument should be mounted as close to the monitoring location as possible and should be easily accessible for operation and maintenance.
  • Page 10 Installation and Start-Up - Section 2 For applications where wall mounting is not possible, an L-shaped mounting plate with DIN–rail is available as an option. L-shaped mounting plate with DIN–rail (P/N 9602.0051.10.02) ! Note: Do not apply power until system is ready for start-up! Satellite XT FTT Versions...
  • Page 11: Duct Mounting

    Installation and Start-Up - Section 2 Duct Mounting Observe the guidelines for installation of the instrument. For assembly and installation of the sensor extension see the schematics below and overleaf. 2.3.1 Connecting the Sensor Extension to the Instrument 1. Connect the Socket (A) to the plug in the sensor compartment located at the bottom of the Satellite XT.
  • Page 12 Installation and Start-Up - Section 2 2.3.2 Mounting the Sensor Extension to the Duct Duct 5,2cm *) Duct Mounting Saddle Assembly 3,3cm various types available, see spare parts list, Section 8, Reference Information 2,6cm 2,6cm Satellite XT Sensor Sensor Extension Duct Satellite XT Satellite XT FTT Versions...
  • Page 13: Network Wiring

    Installation and Start-Up - Section 2 Network Wiring For network wiring the 4-wire shielded cable extending from the bottom of the instrument is used. This cable has a length of 2 meters. The 4-wire shielded cable is required to power the instrument and to interface with additional control devices.
  • Page 14: Relay Wiring

    Installation and Start-Up - Section 2 Relay Wiring Instruments with relay option have an additional 6–wire shielded cable extending from the bottom of the instrument. This cable has a length of 3 meters and is also permanently attached to the instrument. The 6-wire shielded cable is used for relay wiring and provides a pair of connections for each of the 3 internal relays for activation of visual or audible external alarm devices.
  • Page 15 Installation and Start-Up - Section 2 Satellite XT FTT Only Satellite XT with relay option Junction Box 6-wire shielded cable 4-wire shielded cable 3 m provided with instrument 2 m provided wíth instrument Junction Box 230 / 115 VAC Power Supply 24 VDC 2-wire shielded cable 4-wire shielded cable...
  • Page 16: Initial Start-Up

    Installation and Start-Up - Section 2 Initial Start-Up When wiring is completed, a sensor must be assigned to each instrument. Every sensor is gas calibrated and these sensor specific calibration parameters are stored in its integrated data memory. Make sure to use only sensors designed for use with the Satellite XT. Ex factory the instruments are shipped either unconfigured or already preconfigured according to the customer's specifications. If the instruments are preconfigured, a certain sensor, which can be identified by its serial number printed on the packaging and the sensor label, is assigned and documented to one particular instrument. These data are stated in the test certificate provided with the shipment. Switch on power supply. If no sensor is fitted, the display of the instrument shows the below message. - - - - F A U L T - - - - NO S E N S OR ! For applications without sensor extension open the bayonet catch of the sensor housing located at bottom of the instrument with a quarter-turn left and remove the sensor housing.
  • Page 17: Main Menu

    Main Menu - Section 3 This section explains the different monitoring conditions and the submenus available under the Main Menu. The Main Menu Screens When the <esc> key is actuated, the instrument will leave the Monitoring Mode and go to the Main Menu. The instrument is now in the Maintenance Mode and the green LED is off. Actuate the cursor keys <up>...
  • Page 18: Main Menu - Monitoring

    Main Menu - Section 3 Main Menu - Monitoring M E N U The instrument is in the operating mode MON I T OR I NG Maintenance and the green LED is off. Actuate the cursor keys <up> or <down> to move s e l e c t : forwards and backwards in the Main Menu.
  • Page 19: Main Menu - Maintenance

    Main Menu - Section 3 Main Menu - Maintenance M E N U The instrument is in the Maintenance Mode and the MA I N T E N A N C E green LED is off. Actuate the cursor keys <up> or <down> to move for- s e l e c t : wards and backwards in the Main Menu.
  • Page 20: Main Menu - Calibration

    Main Menu - Section 3 M E N U Main Menu - Calibration C A L I B R A T I ON The instrument is in the Maintenance Mode and the green LED is off. s e l e c t : Actuate the cursor keys <up>...
  • Page 21: Main Menu - Configuration

    Main Menu - Section 3 Main Menu - Configuration M E N U The instrument is in the Maintenance Mode and the CON F I GU R A T I ON green LED is off. Actuate the cursor keys <up> or <down> to move for- s e l e c t : wards and backwards in the Main Menu.
  • Page 22 Main Menu - Section 3 Main Menu - Configuration continued Submenus - Configuration Location C O N F I G U R A T I O N screen 7 of 10 L OC A T I ON s e l e c t : C O N F I G U R A T I O N New Sensor Type N EW S E N S OR T Y P E...
  • Page 23: Maintenance

    Maintenance - Section 4 This section explains routine maintenance procedures including sensor replacement and specific information on sensor and instrument. Main Menu - Maintenance M E N U The instrument is in the Maintenance Mode and the MA I N T E N A N C E green LED is off. Actuate the cursor keys <up>...
  • Page 24: Reset Device

    Maintenance - Section 4 Main Menu - Maintenance continued Submenus - Maintenance M A I N T E N A N C E Reset Device R E S E T D E V I C E screen 6 of 7 s e l e c t : M A I N T E N A N C E S E R V I C E...
  • Page 25 Maintenance - Section 4 Sensor Service To perform a sensor replacement with a new sensor, which must have the same part number. See section 8 for sensor information. Use the <set> key to enter and follow the dialogue displayed at the bottom line of the screen. When the instrument has finished the sensor service procedure, it will automatically enter the Monitoring Mode.
  • Page 26 Maintenance - Section 4 Alarm Reset M A I N T E N A N C E Alarm Reset allows the user to reset the alarm A L A RM R E S E T indication of latched alarms. An according message is sent to external alarm devices.
  • Page 27 Maintenance - Section 4 Alarm/Warn Test continued Set Warning ? A L A R M / W A R N T E S T Allows the user to simulate a warning condition. S E T WA R N I NG ? Actuate the <set>...
  • Page 28 Maintenance - Section 4 Sensor Infos M A I N T E N A N C E Provides specific information about the sensor S E N S OR I N F O S presently installed, i.e. part number, serial number, date of first calibration, sensitivity, and revision number. s e l e c t : These data are stored in the sensor’s memory. Actuate the <set>...
  • Page 29 Maintenance - Section 4 Sensor Infos continued Sensitivity S E N S O R I N F O S Use the <set> key to display the sensor sensitivity S E N S I T I V I T Y determined during the first calibration. s e l e c t : <Actual Sensitivity>...
  • Page 30 Maintenance - Section 4 Reset Device M A I N T E N A N C E Offers the possibility to perform a “warm start” of the R E S E T D E V I C E instrument. Actuate the <set> key to select. s e l e c t : Are You Sure ? R E S E T D E V I C E This screen is to confirm that a software reset should...
  • Page 31: Calibration

    Calibration - Section 5 This section describes calibration procedures for the Satellite XT. Calibration can be performed either automatically by a dynamic gas calibration or manually by entering a calculated correction factor called K-factor. Main Menu - Calibration The instrument is in the Maintenance Mode and the M E N U green LED is off.
  • Page 32: Zero Adjust

    Calibration - Section 5 Gas Calibration C A L I B R A T I O N The gas calibration submenu is used for dynamic G A S C A L I B R A T I ON calibration. For zero adjustment use clean or synthetic air free from measuring gas or any other interfering s e l e c t : gases.
  • Page 33: Span Adjust

    Calibration - Section 5 Gas Calibration continued Span Adjust G A S C A L I B R A T I O N Span adjustment applies for all sensors, including oxygen S P A N A D J U S T sensors. Use the <set> key to enter and follow the dialogue s e l e c t : displayed.
  • Page 34: Manual K-Factor

    Calibration - Section 5 Manual K-Factor C A L I B R A T I O N This submenu is used to manually calibrate the MA N U A L K - F A C T OR instrument by entering a new K-Factor. This factor is a multiplication or correction value used to calibrate the s e l e c t : response of the instrument to a specific...
  • Page 35: Alarm Settings

    Configuration - Section 6 This section describes the instrument's default configuration and procedures how to adapt it to individual requirements. Main Menu - Configuration The instrument is in the Maintenance Mode and the M E N U green LED is off. CON F I GU R A T I ON Actuate the cursor keys <up>...
  • Page 36 Configuration - Section 6 Main Menu - Configuration continued Submenus - Configuration Password C O N F I G U R A T I O N screen 6 of 10 P A S SWOR D s e l e c t : Location C O N F I G U R A T I O N screen 7 of 10...
  • Page 37: A L A Rm 1

    Configuration - Section 6 Alarm Settings C O N F I G U R A T I O N Allows the user to enter or change various settings for A L A RM S E T T I NG S Alarm 1 and Alarm 2 activation.
  • Page 38 Configuration - Section 6 Alarm 1 A L A R M S E T T I N G S Allows the user to configure all parameters for Alarm 1 A L A RM 1 (lower alarm level) activation. s e l e c t : Alarm 1 State Used to enable / disable the Alarm 1 activation. A L A R M 1 A L A RM 1 S T A T E s e l e c t :...
  • Page 39 Configuration - Section 6 Alarm 1 State A L A R M 1 Used to enable / disable the Alarm 1 activation. Default A L A RM 1 S T A T E setting is enabled. Use the <set> key to enter. The instrument will show the actual setting.
  • Page 40 Configuration - Section 6 Alarm 1 Trigger A L A R M 1 Used to define the trigger condition for Alarm 1 A L A RM 1 T R I GG E R activation. Default setting is Greater Than. Use the <set> key to enter. The instrument will show the actual s e l e c t : setting.
  • Page 41 Configuration - Section 6 Alarm 2 A L A R M S E T T I N G S Allows the user to configure all parameters for Alarm 2 A L A RM 2 (upper alarm level) activation. For all subsequent Alarm 2 settings, please follow the s e l e c t : procedures described in the corresponding section for Alarm 1 settings.
  • Page 42: Language

    Configuration - Section 6 Language C O N F I G U R A T I O N Used to select the desired language for menu L A NGU A G E operation. Default setting is English. Use the <set> key to enter. The instrument will display s e l e c t : the actual language.
  • Page 43: Auto Selftest

    Configuration - Section 6 Auto Selftest C O N F I G U R A T I O N The instrument's self-diagnostics provides an on-line A U T O S E L F T E S T preventive sensor selftest performed automatically every 24 hours, which may be enabled or disabled.
  • Page 44: Password

    Configuration - Section 6 Password C O N F I G U R A T I O N Allows the user to enter or change the password. P A S SWOR D Ex factory the password is <000>. Use the <set> key to enter. The instrument will display s e l e c t : the actual password.
  • Page 45: New Sensor Type

    Configuration - Section 6 New Sensor Type C O N F I G U R A T I O N Allows the user to configure the instrument for a new N EW S E N S OR T Y P E sensor type with a part number, which is different from the one presently used. s e l e c t : See Section 8 for Sensor Information.
  • Page 46: Relays

    Configuration - Section 6 Relays C O N F I G U R A T I O N Allows the user to enter or change various settings for R E L A Y S the internal relay contacts for Alarm 1, Alarm 2, and Fault. Use the <set> key to enter. s e l e c t : !The RELAYS menu and all subsequent menu items are only available for instruments with relay option.
  • Page 47 Configuration - Section 6 Relay State R E L A Y S Used to individually define the Alarm 1, Alarm 2, and R E L A Y S T A T E Fault Relay to be either deenergized (normally open contact) or energized (normally closed contact). s e l e c t : Ex factory the relays are deenergized (normally open contacts).
  • Page 48 Configuration - Section 6 Defines the Alarm 1 Relay to be energized (normally R E L A Y S closed R E L A Y S T A T E contact). Actuate the cursor keys <up> or <down> to change. s e l e c t : Actuate the <set> key to confirm or <esc> to exit. Fault Relay R E L A Y S T A T E Allows to set the Fault Relay state.
  • Page 49 Configuration - Section 6 Alarm 2 Relay R E L A Y S T A T E Allows the user to set the Alarm 2 Relay state. A L A RM 2 R E L A Y Use the <set> key to enter. The instrument will show the actual setting.
  • Page 50 Configuration - Section 6 Alarm Delay R E L A Y S Used to define an alarm delay for concentration alarms. A L A RM D E L A Y Minimum value is 0, maximum setting is 99.9 seconds. Default setting is 3.0 seconds. s e l e c t : Actuate the <set> key to enter and show the actual setting.
  • Page 51: Warning And Fault Messages

    This message indicates that the sensor sensitivity does not comply with the specifications. The sensor must soon be p p m replaced. Whilst most sensors will work for another 2-6 weeks, there are circumstances that may cause an earlier failure of the sensor cell. Honeywell therefore suggests that customers with more critical needs carry out the replacement of the sensor cell within 3 days (72 hours) of receiving the "check sensor" message. To receive this message, the function Auto Selftest must be configured enabled; refer to Section 6, Configuration.
  • Page 52: Faults

    Troubleshooting - Section 7 7.1.2 Faults Instrument faults refer to a problem which prevents the instrument from operating properly and interferes with the ability to monitor or document concentration alarms. When the instrument has detected an instrument fault, a fault message for each different fault condition is sent to the communication network. The green status LED is off and the fault relay is activated. The LCD display is flashing while indicating the specific fault message.
  • Page 53 Troubleshooting - Section 7 Fault - Extractive ! - - - Only for instruments with Extractive Module. This message indicates that there is a problem with the Extractive Module. Check power supply, sample tubing, sample tubing connections, and sample line filter. Perform any corrective action required. If the message is still shown, please contact our service department for further instructions. Fault - Pyrolyzer ! Only for instruments with Pyrolyzer Module.
  • Page 54: Reference Information

    Reference Information - Section 8 Sensor Order Information Substance / Sensor Part No Nominal Unit Note Dust Filter Sensor Range allowed AsH3 Arsine (3 El.) 9602-6004 0 ... 1.00 AsH3 Arsine (2 El.) 9602-6000 0 ... 1.00 AsH3 Arsine (2 El.) 9602-6002 0 ...
  • Page 55: K-Factors For Satellite Xt C-Versions

    Reference Information - Section 8 Substance / Sensor Part No Nominal Unit Note Dust Filter Sensor Range allowed Trimethyl borate 9602-7510 0 ... Trimethyl phosphite 9602-7800 0 ... 30.0 Notes: 1) Special application 2) Special range 3) Pyrolyzer Module required for detection 4) Only for use with Satellite XT C-versions Further gases and ranges on request K-Factors for Satellite XT C-Versions...
  • Page 56: Spares And Accessories

    Reference Information - Section 8 Spares and Accessories Part Number Description 9602.0050.10.03 Mounting Rail Standard 9602.0050.10.02 Mounting Plate DIN-Rail, Option 9602.0051.10.02 Mounting Plate L-shaped with DIN-Rail, Option 9602.0090.00.01 Sensor Extension, 2 meters 9602.0091.00.01 Sensor Extension, 3 meters 9602.0092.00.01 Sensor Extension, 1 meter 9602.0093.00.01 Sensor Extension Combustible Gases, 2 meters 9602.0094.00.01 Sensor Extension Combustible Gases 3 meters 9602.0095.40.00 Calibration Cap 9630-0146 PC Network Adapter PCLTA-21 TP/FT-10 9650-0540 PC LonTalk Adapter PCC-10 TP/FT 10 for notebook use 9630-0423...
  • Page 57: Network Terminators

    Reference Information - Section 8 Network Terminators Network Terminators are designed to provide electrical termination for twisted pair channels. They are passive devices and do not require electrical power. In a free topology FTT-10 segment, one Network Terminator type 9630-0441 is required and may be located anywhere on the segment. In a bus topology FTT-10 channel, two Network Terminators type 9630-0443 are required, one located at each end of the bus. Technical Specifications Network Standardized LonTalk™...
  • Page 58: Relay Output Module

    Reference Information - Section 8 Relay Output Module The Relay Output Module is a generic unit interfacing with LONWORKS™ systems, that use a free topology wiring scheme supporting star, loop, and/or bus wiring. The Relay Output Module contains four relays with SPDT contacts and one dedicated power loss relay with SPST contact for activation of external alarm devices. The relays can be operated in either energized or deenergized condition. All relay states are indicated by LEDs.
  • Page 59: Supervisor Module

    Reference Information - Section 8 Supervisor Module The Supervisor Module is designed to identify a fault condition within a subnet (max. 127 nodes) of a twisted pair LONWORKS™ network. Meaning one or more nodes on the subnet lose the ability to communicate, due to a bad node hardware or a broken wire. In the latter case, the Supervisor Module automatically restores communication by closing the relay bus switch and thus reconnecting the both sides of the open circuit. Either fault condition is indicated by individual fault relays and reported to an optional monitoring station.
  • Page 60: Digital Input Module

    Reference Information - Section 8 Digital Input Module The Digital Input Module is a generic unit interfacing with LONWORKS™ systems, that use a free topology wiring scheme supporting star, loop, and/or bus wiring. The Digital Input Module contains two groups of four optocoupler isolated digital inputs, each group with separate common signal ground. It is used for processing binary and digital values, e.g. switch signals. All input states are indicated by LEDs. The module provides one dedicated power loss relay with SPST contact for activation of external alarm devices.
  • Page 61: Analog Input Module

    Reference Information - Section 8 Analog Input Module The Analog Input Module is a generic unit interfacing with LONWORKS™ systems, that use a free topology wiring scheme supporting star, loop, and/or bus wiring. The Analog Input Module contains two isolated groups of each two analog input channels, for processing ± 0-10 VDC or ± 0-25 mA current signals. The analog inputs can be logically connected via a network to different input/output modules and data visualization software. For each channel the module offers two user-settable alarm levels and input scaling.
  • Page 62: Router Modules

    Reference Information - Section 8 Router Modules Router Modules connect two communication channels and route LonTalk™ messages between them. These modules interface two different twisted-pair channels, e.g. high speed backbone and a free topology channel. Additionally the routers are used to manage network traffic, increase the total number of nodes, or extend the maximum channel length. All states are indicated by LEDs. The module provides one dedicated power loss relay with SPST contact for activation of external alarm devices.
  • Page 63: Extractive Module Xt - Option

    Extractive Module XT - Section 9 Principle of Operation The Extractive Module XT is an add-on module for use in combination with the Satellite XT. I t enables for keeping hazardous, difficult to reach, or otherwise inaccessible areas under continuous surveillance. It is capable of sampling areas up to 50 m away. Power is supplied via the Satellite XT.
  • Page 64: Instrument Design

    Extractive Module XT - Section 9 Instrument Design Front View showing Extractive Module XT connected to Satellite XT. А Exhaust Line - Outlet A Exhaust Line - Outlet В Sensor Holder B Sensor Holder MST Extractive MST Satellite Satellite XT FTT Versions...
  • Page 65 Extractive Module XT - Section 9 Side View (left) Side View (right) A Exhaust Line - Outlet B Sensor Holder B Sensor Holder D Sensor Connection to Satellite XT C Sample Line - Gas Inlet E Connection Extractive Module XT and Satellite XT Inlet Outlet Top View (only Extractive Module XT)
  • Page 66: Mounting

    Extractive Module XT - Section 9 Mounting The Extractive Module XT is prepared for DIN-rail mounting. An appropriate mounting rail is delivered with the instrument, which allows mounting the Extractive Module XT and the Satellite XT side by side. Mount this rail to a wall with the appropriate fasteners and slide both modules onto it. Plug in male and female connector of Satellite XT and Extractive Module XT.
  • Page 67: Sensor Replacement

    Extractive Module XT - Section 9 Sensor Replacement This procedure is used to replace a depleted sensor by a fresh sensor. The replacement sensor must have the same part number as the installed sensor. Press the <esc> key on the Satellite XT keypad and enter the password to exit the Monitoring Mode. The green status LED of the Satellite XT is off, the instrument is not monitoring.
  • Page 68: Technical Specifications

    Extractive Module XT - Section 9 Technical Specifications Power Requirements Voltage power is provided by the Satellite XT, power supply range 18 - 24 VDC Consumption max. 2.4 W Physical Dimensions Size 78 x 95,5 x 50 mm (W x H x D) 3,1" x 3,8" x 2,0" (W x H x D) Weight 500 g 17.6 oz Housing Protection Class IP 30...
  • Page 69: Pyrolyzer Module Xt - Option

    Pyrolyzer Module XT - Section 10 10.1 Principle of Operation The Pyrolyzer Module XT is an add-on module for monitoring gases requiring pyrolytic sample preparation for detectability. It requires both, a Satellite XT and an Extractive Module XT. The connected Satellite XT displays the module’s status of operation and provides the digital interface. Each instrument is only configured for monitoring the substance specified on the identification label.
  • Page 70: Instrument Design

    Pyrolyzer Module XT - Section 10 10.4 Instrument Design The Pyrolyzer Module XT can only be operated in combination with the Satellite XT and the Extractive Module XT. All three modules are prepared for DIN-rail assembly. Figure 2: Front view of the complete assembly Figure 1: Side view of the Pyrolyzer Pyrolyzer Module, Extractive Module, and Satellite XT.
  • Page 71: Mounting

    Pyrolyzer Module XT - Section 10 10.5 Mounting The Pyrolyzer Module XT is prepared for DIN-rail assembly. An appropriate mounting rail is delivered with the instrument. Mount this rail to a flat surface with the appropriate fasteners. When the rail is mounted, follow the steps below: 1. Slide the Pyrolyzer Module XT onto the rail mounted to the wall, see Figure 4. Figure 4 Figure 4 2. Slide the Extractive Module XT onto the rail at the front of the Pyrolyzer Module XT, see Figure 5.
  • Page 72: Tubing Connections

    Pyrolyzer Module XT - Section 10 10.6 Tubing Connections Tubing material is PTFE or PFA with an outer diameter of 1/4” and an inner diameter of 3/16”. Length and inner diameter of the sample line will affect the response time. Length of the sample lines should be kept as short as possible. With a sample line ID of 3/16” (4.7 mm) and a length of 10 m, the delay in response does not exceed 30 seconds. Moisture may occur either as rain entering a line at an outdoor sampling location or as condensation from outdoor-to-indoor temperature fluctuations. In case of unusual quantities of moisture, appropriate steps must be taken to protect the instrument; consult us for respective assistance.
  • Page 73 Pyrolyzer Module XT - Section 10 Inlet Outlet Inlet Outlet Extractive Modul XT Satellite XT Pyrolyzer XT with bypass for C5F8 When the Pyrolyzer is used with C5F8, the flow needs to be adjusted at the outlet of the Extractive Module XT to 0.5 l/min or 30 l/h. 30 l/h 0,5 l/min On the underside of the Extractive Module XT is the interconnection to the Pyrolyzer Module XT, and next to it, two small holes which gives access to two pushbuttons. The left hand button will increase the flow, and the right hand button will decrease it. Flowmeter The adjustment is required as the internal flow resistance is different to the other types of the Pyrolyzer Module XT and this resistance would damage the Extractive Module XT. Satellite XT FTT Versions 10-5...
  • Page 74: Technical Specifications

    Pyrolyzer Module XT - Section 10 10.9 Technical Specifications Power requirements Voltage 90 ... 240 VAC Consumption approx. 22 W / 2.13 A Physical dimensions Size: 223 х 97 х 100 mm (W х H х D) 8,8" x 3,8" x 3,9" (W х H х D) Weight: 1800 g 4 lbs Housing Protection Class IP 30 RFI / EMC EN 61010-1 EN 50270 Operating Conditions...

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