GE Intelligent Platforms GFK-2936 PAC8* Controller 8139-SH-DC Addressable Smoke and Heat Detector Module User Manual
These instructions do not purport to cover all details or variations in equipment, nor to provide for every possible contingency to be met during installation, operation, and maintenance. The information is supplied for informational purposes only, and GE makes no warranty as to the accuracy of the information included herein. Changes, modifications, and/or improvements to equipment and specifications are made periodically and these changes may or may not be reflected herein. It is understood that GE may make changes, modifications, or improvements to the equipment referenced herein or to the document itself at any time. This document is intended for trained personnel familiar with the GE products referenced herein. This document is approved for public disclosure. GE may have patents or pending patent applications covering subject matter in this document. The furnishing of this document does not provide any license whatsoever to any of these patents. GE provides the following document and the information included therein as is and without warranty of any kind, expressed or implied, including but not limited to any implied statutory warranty of merchantability or fitness for particular purpose. For further assistance or technical information, contact the nearest GE Sales or Service Office, or an authorized GE Sales Representative. Issued: July 214 Copyright 214 General Electric Company, All rights reserved. * Indicates a trademark of General Electric Company and/or its subsidiaries. All other trademarks are the property of their respective owners. Refer to the section, Contact Information for support on this product. Please send documentation comments or suggestions to controls.doc@ge.com
Acronyms and Abbreviations ASH BFP FTA HMI MCP Addressable Smoke and Heat Detector Bussed Field Power Field terminal assemblies Human-machine Interface Manual Call Points GFK-2936 User Manual 3
Safety Symbol Legend Warning Indicates a procedure, condition, or statement that, if not strictly observed, could result in personal injury or death. Caution Indicates a procedure, condition, or statement that, if not strictly observed, could result in damage to or destruction of equipment. Attention Indicates a procedure, condition, or statement that should be strictly followed to improve these applications.
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Notes 6 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Contents 1 Introduction... 9 1.1 Operation Overview...9 1.2 Supported Controllers... 1 1.3 Specifications... 1 2 Installation... 11 3 Field Terminal Interface... 13 4 Module Powerup and Device Polling... 15 5 Control and Configuration... 17 5.1 Command Loop Power Control... 17 5.1.1 Workbench IO Configurator... 17 5.1.2 Modbus Ethernet Commands... 18 5.2 Control Bits... 19 5.2.1 Controlling Control Bits Using Modbus Ethernet Tags... 19 5.2.2 Controlling Control Bits Using IO Configurator... 2 5.3 LED Flash During Polls... 21 5.4 Failsafe Timeout and Recovery... 22 5.5 Line Fault Detection... 23 5.5.1 Open Circuit Detection... 23 5.5.2 Short Circuit Detection... 24 5.6 Channel Dynamic Data... 25 6 Device Support... 27 6.1 Group Membership for Sounders and Beacons... 27 6.2 Sensitivity Support for Discovery Detectors... 27 6.3 Drift Value Support for Discovery Detectors... 29 7 User and Field Data... 31 7.1 IO Configurator User Data... 31 7.2 Apollo Devices Extended Command Field Data... 33 7.2.1 Extended Command Field Data... 34 7.2.2 Send Enhanced Command Register (CS Space)... 36 7.2.3 Enhanced Command Status Register (IR Space)... 36 7.2.4 Read Enhanced Command Response Data Register (IR Space)... 37 7.2.5 Enhanced Command Registers (HR Space)... 38 8 Diagnostics... 39 8.1 Remote... 39 8.2 Event Log... 4 8.3 LED Interface... 42 8.4 Manual Call Point Response Time... 42 Appendix A Supported Apollo Devices... 43 Appendix B Location of Short/Open Circuits... 45 Appendix C Device Control Bit Functionality... 49 Appendix D 8139-SH-DC ASH Module Tags... 53 GFK-2936 User Manual 7
Notes 8 GFK-2936 PAC8 8139-SH-DC ASH Input Module
1 Introduction The 8139-SH-DC 128-Channel Addressable Smoke and Heat Detector (ASH) input module provides an interface between PAC8* nodes and Apollo addressable smoke and heat detectors. When the detectors are in an alarm state, the module reports to the PAC8 controller, which takes the appropriate action as defined in the application program. These include sounding alarms, communication with Human-machine Interfaces (HMIs), and switches to actuators as needed. Additionally, the module communicates with Apollo Manual Call Points (MCP) and other miscellaneous Apollo devices. It supports the Apollo Discovery protocol in normal mode to enable connection to the XP95 and Discovery devices. The module can also connect to retrofit, non-addressable units through the zone monitor, as well as IS devices. IS devices are connected to the loop through a Protocol Translator and Safety Barrier. The 8139-SH-DC module may be used with any Version 2 PAC8 controller (Hybrid, Logic, and Process) or 8851 SafetyNet controller. When used on a SIL 2 SafetyNet node, the 8139-SH-DC module is non-interfering, meaning it is not itself SIL 2 compliant but does not affect the other parts of the node that are. 1.1 Operation Overview The module is designed for use with the 861-FT-NA and 8611-FT-FU field terminals. The 861 is a standard, non-arcing field terminal assemblies (FTA), whereas the 8611 is a fused version. Connectivity is the same. The IN and OUT terminology is Apollo convention; loop drives are also referred to as A and B in some places. The ASH module is normally arranged in a ring. Using the associated field terminal, the 8139-SH-DC module provides two field loop ports, OUT and IN, that are connected to Apollo devices and drive the detector loop from each end. Up to 126 Apollo devices are connected as a single wire (and return) multiple drop bus to form a ring, with one end connected to the OUT terminals and one end connected to the IN terminals. Although the terminals are marked as IN and OUT, both ends are capable of sending and receiving data and continued operation in the event of a break in the ring. All devices can be connected in a ring network and the 8139-SH-DC module polls each device sequentially. After polling is completed from one end, it polls from the other end. All Apollo devices connected in the loop are controlled by the module. Signals are sent to the Apollo devices through voltage pulses that are super-imposed upon the supply level (nominally 24 V dc). The return signals from the addressed device are sent by the devices modulating their impedance to produce current pulses on the nominal 2 ma power supply. Fault tolerance (short circuit, open circuit, and faulty or incorrectly installed devices) is provided by the device polling scheme and the action of Apollo isolators. The 8139-SH-DC module uses the carrier s internal 12 V system power, as well as the bussed field power (BFP) supply (19.2 3 V dc maximum) to source power for the field loops and the module s processor. LED indicators provide loop polling status, loop power status, loop power requested status, as well as power and fault indication. The power LED indicates the presence of both HVCC and BFP supplies. Introduction GFK-2936 User Manual 9
A maximum of 1 individual modules can be mounted on a single node. Other module types include a maximum of 64 modules per node). The module allows firmware upgrade through the controller. 1.2 Supported Controllers The following controllers support the 8139-SH-DC module. Each controller is capable of accessing a maximum of 1 modules simultaneously. Supporting Controllers Controller Hybrid, Logic, and Process Controllers SafetyNet Controller Workbench Firmware Version V2.8 and higher V1.28 and higher V8.4 and higher 1.3 Specifications Operating Specifications Item Specification Field power 24 V dc ±1% Operating temperature -4 to +7 C (-4 to 158 F) Humidity 5 to 95% (non-condensing) Loop span Up to 2 Km per loop (devices connected to and from module) Device connection capabilities per module Up to 126 Apollo devices (maximum) support Apollo Discovery and XP95 protocol Environmental Specifications Item Specification Material Plastic molding Type Polyamide 6 Designation AKULON F223D Manufacturer DSM (UK) Ltd Item FM Approval NI/1/2/ABCD/T5 Ta CSA Approval Safety Specifications Specification 7 C (158 F) Class 1 Division 2, Groups A, B, C, and D 1 GFK-2936 PAC8 8139-SH-DC ASH Input Module
2 Installation Warning EXPLOSION HAZARD Substitution of components may impair suitability for Class I, Division 2. Do not disconnect unless the area is known to be non-hazardous or bussed field power has been switched off. Warning For replaceable fuses installed in Division 2 Hazardous Locations, exposure to some chemicals may degrade the sealing properties of material used in the construction of the replaceable fuses. Install the 8139-SH-DC module strictly as per installation drawing numbers SCI-71, SCI-72, SCI-117 and SCI-118 in a suitable equipment enclosure that meets the following requirements: Complies with the enclosure, mounting, spacing and segregation requirements of the ultimate application Capable of accepting one or more of the Class I, Division 2 wiring methods as specified in the National Electrical Code (ANSI/NFPA 7), as well as Canadian Electrical Code, Part 1 Meets the requirements of ANSI/ISA 82.2.1 In accordance with the requirements of the Canadian Electrical Code, Part 1 In conjunction with the 861-FT-NA or 8611-FT-FU Field Terminal Assembly (FTA) The 8139-SH-DC module may only be mounted on a CSA/FM-Certified 8 Series carrier and can only be removed from the carrier when field power has been removed from the field terminals. This is achieved by removing bussed field power from the appropriate section of the carrier. Details of how bussed field power is distributed on the carrier are provided on drawings SCI-71 and SCI-72. Attention Caution The module may be removed or inserted on the carrier while the railbus power remains energized. It is recommended that removal or insertion is performed when the area is known to be non-hazardous. Fuses must not be removed or inserted from the 8611-FT-FU unless the area is known to be non-hazardous or field power has been removed from the system. Fuse replacement must be made using only the 2. A, 25 V fuses. Replaceable fuses must be periodically inspected for degradation of the plastic material. If degradation is observed, the fuses must be replaced. Installation GFK-2936 User Manual 11
Notes 12 GFK-2936 PAC8 8139-SH-DC ASH Input Module
3 Field Terminal Interface FTA 861-FT-NA and 8611-FT-FU may be used with the module for field connectivity. The 861 is a standard non-arcing FTA, whereas the 8611 FTA is a fused version; connectivity is the same. Connection Between 8139-SH-DC Module and FTAs Connectors Connector Signal Function 1 Not Used 2 Not Used 3 Not Used 4 Not Used 5 Not Used 6 Not Used 7 Not Used 8 Not Used 9 OUT+ Field loop port A Output 1 OUT+ Field loop port A Output 11 OUT- Field loop port A Return 12 OUT- Field loop port A Return 13 IN+ Field loop port B Output 14 IN+ Field loop port B Output 15 IN- Field loop port B Return 16 IN- Field loop port B Return Field Terminal Interface GFK-2936 User Manual 13
Notes 14 GFK-2936 PAC8 8139-SH-DC ASH Input Module
4 Module Powerup and Device Polling Approximately 1 seconds after powerup, the 8139-SH-DC module begins polling the devices, which results in slow startup for the devices. Some Apollo devices take 1 seconds to stabilize after powerup. Default Powerup Conditions Attribute Condition Failsafe timeout s (failsafe timer is turned off) Loop power Off (Power On) IN loop connection isolated (not isolated) OUT loop connection isolated (not isolated) Device type No device Sensitivity All channel flags in custom data (no changed channel status data) Alarm flag (no alarm) Pre-alarm flag (no pre-alarm) No data flag 1 (address not polled) Unknown flag 1 (no data received) Unacknowledged alarm flag (no unacknowledged alarm) Input Status Bits, 1, 2 Line Fault status No communication flags both (no fault) Communication error flag (no fault) Wrong device type flag (no fault) Dual address flag (no fault) Drift flag (no fault) Module Powerup and Device Polling GFK-2936 User Manual 15
Notes 16 GFK-2936 PAC8 8139-SH-DC ASH Input Module
5 Control and Configuration The ASH module is configured through the Workbench IO Configurator or using Modbus* Ethernet commands. 5.1 Command Loop Power Control The ASH module s loop power can be turned on and off using either the IO Configurator or Modbus Ethernet commands. 5.1.1 Workbench IO Configurator Controlling loop power using the IO Configurator is achieved in one of two ways: Right-click the module and select Cmd Module Power Off or Cmd Module Power On Control and Configuration GFK-2936 User Manual 17
right-click and select Cmd Loop Power On or Cmd Loop Power Off 5.1.2 Modbus Ethernet Commands Controlling loop power using Modbus Ethernet commands is achieved through Modbus Ethernet tags that are automatically created during module configuration. Tag names are as follows: <ControllerName>_ASH_PhysicalSlotNo>_POF_CMD <ControllerName>_ASH_PhysicalSlotNo>_PON_CMD Modbus Ethernet Configuration Tags 18 GFK-2936 PAC8 8139-SH-DC ASH Input Module
5.2 Control Bits The user can control the Control Bits of the XP95 device and Discovery Detectors (three per device). Functionality depends on the device. Refer to Appendix C Device Control Bit Functionality for the function associated with each bit. 5.2.1 Controlling Control Bits Using Modbus Ethernet Tags When the user assigns tag names to the required channels of the 8139-SH-DC module, some tag names are automatically created in the workbench. Use XXXCB for Control Bit Use XXXCB1 for Control Bit 1 Use XXXCB2 for Control Bit 2 Tag Names Automatically Created The address of the Control Bits can also be calculated using register mapping, as follows: Tip Make a note of the register mapping for the desired module. Modbus address of Control Bit = Address + (2 x 128) + Channel Number Modbus address of Control Bit 1 = Address + (3 x 128) + Channel Number Modbus address of Control Bit 2 = Address + (4 x 128) + Channel Number Control and Configuration GFK-2936 User Manual 19
Register Mapping 5.2.2 Controlling Control Bits Using IO Configurator To set control bits using IO Configurator From the IO Configurator, right-click the device and select Set Control Bits. From the New column, select bit x: to control the related Control Bit of the device. The Current column indicates the current status of the device. 2 GFK-2936 PAC8 8139-SH-DC ASH Input Module
5.3 LED Flash During Polls With the IO Configurator, the user can configure the internal LED(s) of the Discovery detectors to flash whenever a device is polled by the module. To configure LED Flash on poll From the IO Configurator, right-click the device and select LED Flash State. Select the Commanded State to Flash On, then click Write. Each time the module polls the device, the internal LED(s) on the device flashes. Control and Configuration GFK-2936 User Manual 21
Click Read to get the current value of the LED Flash State. The check box displays the current status of the LED Flash on Poll. 5.4 Failsafe Timeout and Recovery Failsafe timeouts below three seconds are not recommended, especially for systems with large numbers of modules. The module may also be configured using the IO Configurator to be commanded into the failsafe state. The module failsafe timeout can be configured to define the maximum permitted period of loss of communications between the controller and the module. If this period is exceeded, the module adopts a failsafe state. When the module is in failsafe state, the red Fault LED will be lit. When the failsafe timeout is configured to, failsafe mode is disabled. If the module has entered failsafe because of a loss of communications, it will recover automatically when communications are re-established. If the module was commanded into failsafe, the user can clear the failsafe state from the IO Configurator module s right-click menu. 22 GFK-2936 PAC8 8139-SH-DC ASH Input Module
5.5 Line Fault Detection The 8139-SH-DC module detects short circuit or open circuit faults in the connected device loop. In addition to the tag names automatically created when a user configures the 8139-SH-DC module, a tag that monitors the status of the open/short detection is created called the Modbus Ethernet register. It can be used to detect the open/short circuit programmatically as follows: <ControllerName>_ASH_PhysicalSlotNo>_OPN_SHT 5.5.1 Open Circuit Detection If an open circuit is detected, the module reports it in the Event log within 9 seconds if it is a Negative line break and within 4 seconds if it is a Positive line break. The IO Configurator Module Dynamic Data tab displays the details for short/open circuit detection. Short/Open Circuit Detection Status 5.5.1.1 Positive Line Open Circuit Detection When an open circuit occurs on the Positive line, the loop continues to work. It takes up to 4 seconds to identify and report the occurrence of an open circuit. After detecting the open circuit, the Event log reports the occurrence. Positive Line Open Circuit Event Log Note Use the OpenCktLocator_Ver13.xls file (version 1.3 or higher) to identify the location of the open circuit. Control and Configuration GFK-2936 User Manual 23
5.5.1.2 Negative Line Open Circuit Detection When an open circuit occurs on the Negative line, the loop continues to work. It takes up to 9 seconds to identify and report the occurrence of the open circuit. In the event of an open circuit on the negative line, some devices will lose communication three times, for ~1 seconds each time, as part of the detection process. After detecting the open circuit, the Event log reports the occurrence. Negative Line Open Circuit Event Log Note The firmware suspends the negative line test until the user issues a loop power command. Use the OpenCktLocator_Ver13.xls file (version 1.3 or higher) to identify the location of the open circuit. 5.5.2 Short Circuit Detection The IO Configurator Module Dynamic Data tab displays the details of short/open circuit detection and isolation. The devices are polled through the two ends, IN and OUT, alternately. If a short circuit fault is detected, only the loop end where the short circuit is detected will be powered down. The Event log reflects the short circuit event. When a short circuit has been detected, the firmware suspends testing of the open circuit until the user has issued the loop power command. When a short circuit is detected at one end, the module suspends normal operation for 1 seconds to isolate the short circuit end. Short Circuit Event Log If the short circuit is between two isolator devices, the module will not be able to detect it as a short circuit because the isolators on either side of the fault will quickly isolate the path. Isolator units cut off the loop between them and the module will lose communication to any devices fitted between the isolators and continue to poll from both ends. When the short circuit occurs between isolators, the module declares it as an open circuit and it will take ~9 seconds to be reported in the Event log. Note After identifying and removing the short circuit, restore power to the loop to clear the error indication and flag bits. Command the loop power on and restore normal module operation. If a short circuit occurred between two isolators in a loop, the module detects it as an open circuit and an excel spreadsheet sheet, OpenCktLocator_Ver13.xls file (version 1.3 or higher) detects the location of the open circuit so the user can check the area of the loop for shorts. 24 GFK-2936 PAC8 8139-SH-DC ASH Input Module
5.6 Channel Dynamic Data All channel data for the module (126 channels) can be viewed from the IO Configurator Channel Dynamic Data tab. It provides a table with the values for the flag bits of each channel. Double-clicking a channel displays the channel details. Channel Flag Bit Values Channel Details Control and Configuration GFK-2936 User Manual 25
Notes 26 GFK-2936 PAC8 8139-SH-DC ASH Input Module
6 Device Support 6.1 Group Membership for Sounders and Beacons Support is provided for the facility to group and synchronize Sounders and Beacons. Grouping of Beacons and Sounders can be added for channels 112 through 126 (15 channels) only. Note The GROUP/GLOBAL operation of the Discovery Sounder Beacon range of products is controlled differently. 6.2 Sensitivity Support for Discovery Detectors The sensitivity level of Apollo s Discovery detector can be configured through commands using the IO Configurator. In case of mismatch, the module will log a Sensitivity Mismatch message in the Event log. By default, the mode associated with the device is Mode 3 but this may be changed as necessary. There are five modes available (Mode 1 through 5) for adjusting the device sensitivity. The value of compensation can be applied at any time from the IO Configurator. The sensitivity value may also be read from the detector s memory. All Discovery devices support sensitivity, as follows: Discovery Ion Smoke Detector Discovery Carbon Monoxide Detector Discovery Heat Detector Discovery Optical Smoke Detector Discovery Multi Sensor Detector Note The Discovery MCP device does not have drift compensation; sensitivity is fixed and reports as F. Device Support GFK-2936 User Manual 27
To display Read and Write Sensitivity to access device sensitivity data: from the IO Configurator, right-click the device. Select Read/Write Sensitivity. From the drop down menu, select the required level of sensitivity and click Write to write the sensitivity to the device. Click Read to read the sensitivity of the device. When there is a mismatch between the sensitivity of the device and the configured value (the sensitivity value available on the device and the sensitivity value configured and downloaded to the module), a Sensitivity Mismatch message is logged in the Event log. Read Sensitivity Event Log 28 GFK-2936 PAC8 8139-SH-DC ASH Input Module
6.3 Drift Value Support for Discovery Detectors Discovery Smoke and Heat detectors include drift compensation, which compensates for changes in sensor output (due to dust). To read drift data from the IO Configurator Right-click the device and select Read Drift Data. Click Read Drift to read the data from the device. While the drift flag is, the drift compensation is working within its acceptable range. When the drift flag is set to 1, the device needs servicing. Device Support GFK-2936 User Manual 29
Notes 3 GFK-2936 PAC8 8139-SH-DC ASH Input Module
7 User and Field Data 7.1 IO Configurator User Data The user can access the Discovery detector s four user memory locations through the IO Configurator. Modbus Ethernet registers can also be used to access memory. The 4 byte memory begins at 11 at the Extended Command Field location. Refer to the section, Apollo Devices Extended Command Field Data. To access user data From the IO Configurator, right-click the device and select Read/Write User Data. To read user data Select the byte to read and click Read Data to get the current value from the device. User and Field Data GFK-2936 User Manual 31
To write user data Select the byte to be written to and the required byte value, then click Write Data toto update the value stored in the device. 32 GFK-2936 PAC8 8139-SH-DC ASH Input Module
7.2 Apollo Devices Extended Command Field Data This section is applicable only for Apollo Discovery devices. Apollo Discovery devices have Extended Command Field Data that the user can access through Modbus Ethernet registers. For details on what Field data can be read or written, refer to the table, Extended Command Field Data. Note Read/Write commands will be rejected, without reporting any error, if they are sent before the response to any previous read/write command that has been received. Users should send Read/Write commands only when the Send Enhanced Command coil has been cleared by the controller. To access field data 1. Populate the Enhanced Command registers for the device. Each module has a specific address set defined in the table, Enhanced Command Registers (HR Space). a. Command ( = READ, 1 = WRITE) b. Device Address (1-126) c. Field Address (-14, except 4, 5, 6, 7 and 9 which are reserved for Apollo) d. Data (written during Write operation) 2. Set the Send Enhanced Command Register (CS Space) register of the module being accessed and wait until the register is automatically reset. Once the command has executed, the status is returned in the Enhanced Command Status Register (IR Space) register of the module being accessed. Zero indicates success. The result of a Read command and the data written for a Write command are available in the Read Enhanced Command Response Data Register (IR Space). For this example, an 8139 module is located in slot 1 of the rack and the user wants to read 1 byte (11th location) from the 1th device of the loop connected to the module. Example Read Data from Device Step Action Result/Description 1 Place 1 in the Register Address 265 Command to Read 2 Place 1 in the Register Address 266 Module Address 1th Device 3 Place 11 in the Register Address 267 Accessing 1st byte of User data 4 Place 1 in the Register Address 257 Send Enhanced command 5 Wait until Register Address 257 is Command completed 6 Check value in the Register Address 12554 Check Status register; x indicates successful execution of command 7 Check value in the Register Address 12555 Value read from device s user register 11 User and Field Data GFK-2936 User Manual 33
7.2.1 Extended Command Field Data Extended Command Field Location 1 2 Extended Command Field Data Order of Data Read Write Type code: 5 bit XP95 + 3 bits Contains the type code that will be the same as the corresponding XP95 type code plus an additional 3 bits. The additional 3 bits will not be used in the first available discovery products. Month of manufacture Contains 1n 8 bit number to record the month of manufacture starting with = 1 January 1998 and incrementing by one each month Apollo Approval Data Apollo approval data (Apollo specific) Drift Data: Drift Flag, 5 drift range Contains a drift flag, two spare bits and a five-bit message to indicate the extent of drift. It is not possible to disable the drift compensation on Discovery devices. Type bits : 2 1 4 3 7 6 5 8 bit number X 8 bit data X X Discovery devices sample the ambient air on initial powerup and normalize the analog value of 23 +4/- is reported. Subsequent drift - upward or downward - of the analog value is compensated, so that the analog value remains at 23. 3 A discovery device will set the drift flag in normal mode to logic 1 when the limit of drift compensation is reached. The device will continue to operate satisfactorily but since the analog value will continue to drift and no further compensation can be made, arrangement for servicing the device in question should be made. Drift Flag, Spare, Spare, Drift range bits: 4, 3, 2, 1, X The five bits that indicate the drift range return a count of 16 if the amount of compensation of the analog value is zero. If the direction of drift is upward, the drift flag will be set when the drift range reaches a count of 31. If the direction of drift is downward, the drift flag will be set when the drift range count is 3. At a drift range count of the detector will send a fault signal (the analog value returned will be 6). A condition that indicates a pre-alarm or an alarm, such as any analog value over 45, will always override the fault signal. Discovery devices must not be used on control panels that incorporate a drift compensation algorithm. 4 Spare 8 bit data X 5 Spare 8 bit data X Reserved for Apollo 6 Spare 8 bit data X 7 Spare 8 bit data X 34 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Extended Command Field Location 8 9 Extended Command Field Data Order of Data Read Write Rapid Compensation Used to initiate rapid compensation of the monitor, typically after servicing. On receiving the command to initiate rapid compensation, the device samples its environment within a 3-second period and assumes that this constitutes a normal condition. The monitor reports a value of 23 +4/- when normal polling is resumed. For ease of polling, this command may be sent as 11111111. Once rapid compensation is complete, data in location 8 returns automatically to. Do not enter location 8 in write mode during the 3 second rapid compensation period. Spare Reserved for Apollo Flashing LED, Sensitivity Used to select an optional flashing LED, which will illuminate as the monitor is polled. Following this, there are three spare bits and four bits to select the sensitivity bands. Spare, Spare, Spare, Spare, Spare, Spare, Spare, Rapid Compensation bit 8 bit data X X During manufacture, the monitors will be programmed to operate on a mid-range sensitivity band corresponding to the existing XP95 sensitivity setting. The sensitivity band or mode may be changed during commissioning or may be programmed to vary (for instance day to night). Sensitivity bands are as follows: 1 Bits 3 2 1 Increased sensitivity 1 (1) 1 (2) Mid-range (factory-set) sensitivity 1 1 (3) Flashing LED, Spare, Spare, Spare, 4 bit sensitivity Decreased sensitivity 1 (4) 1 1 (5) The sensitivity band selected is reported in normal mode protocol. Of the 16 possible combinations of the four sensitivity bits, eleven are not defined (with the exception of Discovery MCP). If a non-defined sensitivity is accidently selected, the device in question will return to the mid-range sensitivity ad 11 will be reported. 11 User Data These are spare non-volatile data fields which may 8 bit data 12 User Data be read or written to by the User and their use is 8 bit data 13 User Data entirely optional. They could be used for functions such as storing dates for test and servicing or 8 bit data 14 User Data perhaps to include a unique site or location code. 8 bit data 15 Not Available User and Field Data GFK-2936 User Manual 35
7.2.2 Send Enhanced Command Register (CS Space) This register automatically cleared after execution of the previous enhanced command. 1 = Send enhanced command Mod Addr API Mod Addr API Mod Addr API Mod Addr API 1 257 1 17 769 3 33 1281 5 49 1793 7 2 289 12 18 81 32 34 1313 52 5 1825 72 3 321 14 19 833 34 35 1345 54 51 1857 74 4 353 16 2 865 36 36 1377 56 52 1889 76 5 385 18 21 897 38 37 149 58 53 1921 78 6 417 1A 22 929 3A 38 1441 5A 54 1953 7A 7 449 1C 23 961 3C 39 1473 5C 55 1985 7C 8 481 1.E+ 24 993 3.E+ 4 155 5.E+ 56 217 7.E+ 9 513 2 25 125 4 41 1537 6 57 249 8 1 545 22 26 157 42 42 1569 62 58 281 82 11 577 24 27 189 44 43 161 64 59 2113 84 12 69 26 28 1121 46 44 1633 66 6 2145 86 13 641 28 29 1153 48 45 1665 68 61 2177 88 14 673 2A 3 1185 4A 46 1697 6A 62 229 8A 15 75 2C 31 1217 4C 47 1729 6C 63 2241 8C 16 737 2.E+ 32 1249 4.E+ 48 1761 6.E+ 64 2273 8.E+ 7.2.3 Enhanced Command Status Register (IR Space) Mod Addr API Mod Addr API Mod Addr API Mod Addr API 1 12554 319 17 1462 399 33 1665 419 49 18698 499 2 12682 3189 18 1473 3989 34 16778 4189 5 18826 4989 3 1281 329 19 14858 3A9 35 1696 429 51 18954 4A9 4 12938 3289 2 14986 3A89 36 1734 4289 52 1982 4A89 5 1366 339 21 15114 3B9 37 17162 439 53 1921 4B9 6 13194 3389 22 15242 3B89 38 1729 4389 54 19338 4B89 7 13322 349 23 1537 3C9 39 17418 449 55 19466 4C9 8 1345 3489 24 15498 3C89 4 17546 4489 56 19594 4C89 9 13578 359 25 15626 3D9 41 17674 459 57 19722 4D9 1 1376 3589 26 15754 3D89 42 1782 4589 58 1985 4D89 11 13834 369 27 15882 3.E+9 43 1793 469 59 19978 4.E+9 12 13962 3689 28 161 3.E+89 44 1858 4689 6 216 4.E+89 13 149 379 29 16138 3F9 45 18186 479 61 2234 4F9 14 14218 3789 3 16266 3F89 46 18314 4789 62 2362 4F89 15 14346 389 31 16394 49 47 18442 489 63 249 59 16 14474 3889 32 16522 489 48 1857 4889 64 2618 589 36 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Command Status Response Description x = Enhanced command execution successful x1 = Invalid command (Valid data: = Read, 1 = Write) x2 = Invalid device address (Valid data: 1-126) x3 = Invalid field address (Valid addresses: -14) x4 = Read/Write operation not allowed on given field address (Read and Write not allowed on address 4, 5, 6, 7, 9) x5 = Timeout, operation read/write failed x6 = Module busy in executing previous enhanced read/write command x7 = Invalid device type. Device is not Discovery type of device x8 = Device is not healthy x9 = Response is received from multiple device xa = Parity error in response xb = Device is busy in processing last read/write command xc = Device is not responding to read/write command 7.2.4 Read Enhanced Command Response Data Register (IR Space) This field holds the data read from the Apollo device after a Read operation. Mod Addr API Mod Addr API Mod Addr API Mod Addr API 1 12555 31A 17 1463 39A 33 16651 41A 49 18699 49A 2 12683 318A 18 14731 398A 34 16779 418A 5 18827 498A 3 12811 32A 19 14859 3AA 35 1697 42A 51 18955 4AA 4 12939 328A 2 14987 3A8A 36 1735 428A 52 1983 4A8A 5 1367 33A 21 15115 3BA 37 17163 43A 53 19211 4BA 6 13195 338A 22 15243 3B8A 38 17291 438A 54 19339 4B8A 7 13323 34A 23 15371 3CA 39 17419 44A 55 19467 4CA 8 13451 348A 24 15499 3C8A 4 17547 448A 56 19595 4C8A 9 13579 35A 25 15627 3DA 41 17675 45A 57 19723 4DA 1 1377 358A 26 15755 3D8A 42 1783 458A 58 19851 4D8A 11 13835 36A 27 15883 3EA 43 17931 46A 59 19979 4EA 12 13963 368A 28 1611 3E8A 44 1859 468A 6 217 4E8A 13 1491 37A 29 16139 3FA 45 18187 47A 61 2235 4FA 14 14219 378A 3 16267 3F8A 46 18315 478A 62 2363 4F8A 15 14347 38A 31 16395 4A 47 18443 48A 63 2491 5A 16 14475 388A 32 16523 48A 48 18571 488A 64 2619 58A User and Field Data GFK-2936 User Manual 37
7.2.5 Enhanced Command Registers (HR Space) This field holds the command data to be sent to the module. Mod Addr API Mod Addr API Mod Addr API Mod Addr API 1 265 18 17 521 28 33 777 38 49 133 48 2 281 118 18 537 218 34 793 318 5 149 418 3 297 128 19 553 228 35 89 328 51 165 428 4 313 138 2 569 238 36 825 338 52 181 438 5 329 148 21 585 248 37 841 348 53 197 448 6 345 158 22 61 258 38 857 358 54 1113 458 7 361 168 23 617 268 39 873 368 55 1129 468 8 377 178 24 633 278 4 889 378 56 1145 478 9 393 188 25 649 288 41 95 388 57 1161 488 1 49 198 26 665 298 42 921 398 58 1177 498 11 425 1A8 27 681 2A8 43 937 3A8 59 1193 4A8 12 441 1B8 28 697 2B8 44 953 3B8 6 129 4B8 13 457 1C8 29 713 2C8 45 969 3C8 61 1225 4C8 14 473 1D8 3 729 2D8 46 985 3D8 62 1241 4D8 15 489 1.E+8 31 745 2.E+8 47 11 3.E+8 63 1257 4.E+8 16 55 1F8 32 761 2F8 48 117 3F8 64 1273 4F8 38 GFK-2936 PAC8 8139-SH-DC ASH Input Module
8 Diagnostics 8.1 Remote The XP95, Apollo Discovery detectors, and MCPs can be forced into an alarm condition for test purposes. Remote self-test can be used to find out which Control Bit is associated with the self-test on the device to be tested. When the self-test is started through the Control Bit (with either IO Configurator or a Modbus Ethernet command), the IO Configurator Channel Dynamic Data tab displays the Alarm State. Acknowledge Alarm Acknowledging can be performed by using either the IO Configurator right-click menu or a Modbus tag. Upon acknowledgment, Unack Alarm will clear but In Alarm and Raw Alarm will persist until the self-test Control Bit is reset. From the IO Configurator, right-click the device and select Acknowledge Alarm. <Tag Name>ACK Address = Register mapping coil address The Modbus Address of Acknowledge Alarm = Address + (5 x 128) + Channel Number Diagnostics GFK-2936 User Manual 39
8.2 Event Log For Event log operation details, refer to the controller manual. The Event log for a particular module, all modules, and the controller can be viewed in the IO Configurator. Some of the important event notifications for the 8139-SH-DC ASH module are as follows: Device is in the alarm state Detector is in the pre-alarm state Drift is reported by detector Devices are missing or communication is lost Device faults in communication Devices are faulty Devices are of the wrong type according to the configuration More than one device is at the same address Unexpected devices are in the loop 4 GFK-2936 PAC8 8139-SH-DC ASH Input Module
To view the Event log From the Navigation tree, right-click the module and select Event Log. Diagnostics GFK-2936 User Manual 41
8.3 LED Interface LED indicators are accessible from the top of the module. 8139-SH-DC Module LED Indicators LED On Off Flash Pwr Power OK Power Off Fault Failsafe Running Flash = waiting for module training Blink* = fault or halt Request Controller requests loop power ON Controller requests loop power OFF Status Loop power ON Loop power OFF Poll IN Polling through IN port Not polling through IN port Poll OUT Polling through OUT port Not polling through OUT port 8.4 Manual Call Point Response Time Note During the certification, the user must check the response time using mock alarm on the MCP. The response to the Manual Call Point (MCP) alarm depends on various parameters, as follows: Number of output types of Apollo devices in the loop Rail Bus traffic Controller cycle time 42 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Appendix A Supported Apollo Devices Range Description Apollo Part No. XP95 Detector Ionization Smoke Detector 55-5/52/66 XP95 Detector Optical Smoke Detector 55-6/62/66 XP95 Detector Multi-sensor Detector 55-885 XP95 Detector Heat Detector 55-4/42 XP95 Detector High-temperature Heat Detector 55-41 XP95 Detector Manual Call Point 551-95/98 Standard Interface Input/Output Unit 55-847 Standard Interface Three-channel Input/Output Unit 55-588 Standard Interface Mains Switching Input/Output Unit (non-isolated) 55-875 Standard Interface Output Unit 55-849 Standard Interface Sounder Control Unit 55-852 Standard Interface Switch Monitor 55-843 Standard Interface Switch Monitor Plus 55-841 Standard Interface Zone Monitor 55-845 Mini Interface mini-switch Monitor (includes interrupt operation) 55-76 Audio-Visual Intelligent Open-Area Sounder 55-1/2 Audio-Visual Intelligent 1dB(A) Open-Area Sounder 55-278/279 Audio-Visual Intelligent Weatherproof 1dB(A) Open-Area Sounder 55-274/275 Audio-Visual Intelligent Open-area Beacon 55-9/1 Audio-Visual Loop-Powered Beacon 55-877/878/879 Audio-Visual Multi-Tone Open-Area Sounder Beacon 55-291/292/293/294 Audio-Visual Weather proof Multi-Tone Open-Area Sounder Beacon 55-296/297/298/299 Audio-Visual Intelligent Open-Area Sounder Beacon 55-5/6 Sounder Beacon Base Sounder Beacon Base 45681-331 Sounder Beacon Base Sounder Beacon Base with Isolator 45681-33 Beacon Base Loop Powered Beacon Base with Isolator 45681-333 Flame Detector Intelligent Base Mounted UV Flame Detector 55-22/23/24 Flame Detector Intelligent UV Dual IR Flame Detector 55-28/295 Flame Detector Intelligent Triple IR Flame Detector 55-2/21 Discovery Detector Ionization Smoke Detector 58-5 Discovery Detector Optical Smoke Detector 58-6 Discovery Detector Multi-sensor Detector 58-7 Discovery Detector Heat Detector 58-4 Discovery Detector Carbon Monoxide Detector 58-3 Discovery Detector Manual Call Point 58-98/91 XP95 IS 1 Ionization Smoke Detector 55-54 XP95 IS 1 Optical Smoke Detector 55-64 XP95 IS 1 Heat Detector 55-44 XP95 IS 1 Manual Call Point 55-94 2 1 XP95 IS devices require a Barrier and Protocol Translator to connect into the loop. 2 Variants available in different enclosures. The items listed in this table are subject to change. Refer to the support website for compatible devices. Appendix A Supported Apollo Devices GFK-2936 User Manual 43
Notes 44 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Appendix B Location of Short/Open Circuits The OpenCktLocator_Ver13. xls file can be downloaded from the GE Intelligent Platforms support website. To identify the location of the short/open circuit 1. Open the OpenCktLocator_Ver13.xls file and enter the device location in the order in which they are connected to the module. 2. Fill in the device number in the block. Each green block indicates the device. The Event log reports the location of the short/open circuit. Appendix B Location of Short/Open Circuits GFK-2936 User Manual 45
Apollo Loop Wiring Diagram 46 GFK-2936 PAC8 8139-SH-DC ASH Input Module
3. Copy the location details NC from end B (IN+): 8888115148484944 to the.xls file as displayed in the following figure. Location details Click Find Open Ckt. Location Details The.xls file decodes the message and displays the possible location of the open circuit, as indicated by the red line below the circuit fault description in the following figure. Open Circuit Detector Appendix B Location of Short/Open Circuits GFK-2936 User Manual 47
Notes 48 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Appendix C Device Control Bit Functionality Name XP95 - Ionization Smoke Detector XP95 - Optical Smoke Detector XP95 - Multi-sensor Detector XP95 - Heat Detector XP95 - High-temperature Heat Detector XP95 - Manual Call Point Standard Interface - I/O Unit Standard Interface - Three-channel I/O Unit Standard Interface - Mains Switching I/O Unit (non-isolated) Standard Interface - Output Unit Standard Interface - Sounder Control Unit Device Type 1 2 4 3 6 5 7 8 9 1 11 Default Sensitivity Output/Control Bits Input/Status Bits Bit 2 Bit 1 Bit Bit 2 Bit 1 Bit Self test LED Remote LED LED Confirm Remote LED LED LED LED LED LED Relay 3 Group Mode Relay 2 Pulse Mode Remote LED Remote LED Remote LED Remote LED Not Used Relay 1 Relay 1 Relay 1 Relay 1 Continuous Mode LED Confirm LED Confirm LED Confirm LED Confirm LED Confirm Input 3 Status = Normal 1 = SW Closed Self-test Self-test Self-test Self-test Low=Alm High=Qui Unmonitored Opto Input Status 1 = 4v = 1v Input 2 Status = Normal 1 = SW Closed Remote LED Remote LED Remote LED Remote LED Low=Qui High=Alm Monitored Input Status = Quiescent 1 = I/P Recvd Input 1 Status = Normal 1 = SW Closed Monitored Input Status = Quiescent 1 = I/P Recvd Group Mode = Individual 1 = Group Pulse Mode Continuous Mode Appendix C Device Control Bit Functionality GFK-2936 User Manual 49
Name Standard Interface - Switch Monitor Standard Interface - Switch Monitor Plus Standard Interface - Zone Monitor Mini Interface - Mini-switch Monitor (Standard Mode) Mini Interface - Mini-switch Monitor (Interrupt Mode) Audio-Visual - Intelligent Open-Area Sounder Audio-Visual - Multi-Tone Open-Area Sounder (Description changed from 1dB(A)) Audio-Visual - Weatherproof Multi-Tone open-area Sounder (Description changed from 1dB(A)) Audio-Visual - Intelligent Open-area Beacon Audio-Visual - Loop-Powered Beacon Device Type 12 13 14 15 56 16 17 18 19 2 Default Sensitivity LED LED LED/Increase Zone Current LED/Rem LED/Rem Group Mode Group Mode Group Mode Group Mode Output/Control Bits Pulse Mode Pulse Mode Pulse Mode Pulse Mode Beacon Control (Ancillary Base Sounder OFF) Opto-Reset Zone Reset Continuous Mode Continuous Mode Continuous Mode Continuous Mode Beacon Control (Ancillary Base Sounder ON) LED Confirm LED Confirm LED/Increase Zone Current Confirm LED Confirm LED Confirm Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group (Returns status of O/P bit 2) Input/Status Bits Low=Alm High=Qui Pulse Mode Pulse Mode Pulse Mode Pulse Mode Beacon status (O/P bit 1) confirmation (Reflects Status of O/P Bit ) Opto-Reset Zone Reset Confirm Low=Qui High=Alm Continuous Mode Continuous Mode Continuous Mode Beacon status confirmation Beacon status (O/P bit ) confirmation 5 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Name Audio-Visual - Multi-Tone Open-Area Sounder Beacon Audio-Visual - Weatherproof Multi-Tone Open-Area Sounder Beacon Audio-Visual - Intelligent Open-Area Sounder Beacon Sounder Beacon Base Sounder Beacon Base with Isolator Loop Powered Beacon Base with Isolator Intelligent Base Mounted UV Flame Detector Intelligent UV Dual IR Flame Detector Intelligent Triple IR Flame Detector Discovery Detector - Ionization Smoke Detector Discovery Detector - Optical Smoke Detector Discovery Detector - Multi-sensor Detector Device Type 21 22 23 24 25 26 27 28 29 Default Sensitivity 5 3 53 3 54 3 Group Mode Group Mode Group Mode Group Mode Group Mode Group Mode LED LED LED LED LED LED Output/Control Bits Pulse Mode Pulse Mode Pulse Mode Pulse Mode Pulse Mode Beacon Control Continuous Mode Continuous Mode Continuous Mode Continuous Mode Continuous Mode Beacon Control Remote LED Remote LED Remote LED Remote LED Remote LED Remote LED Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group Group Mode = Individual 1 = Group LED Confirm LED Confirm LED Confirm LED Confirm LED Confirm LED Confirm Input/Status Bits Pulse Mode Pulse Mode Pulse Mode Pulse Mode Pulse Mode Beacon status (O/P bit 1) confirmation Self-test Self-test Continuous Mode Continuous Mode Continuous Mode Continuous Mode Continuous Mode Beacon status (O/P bit ) confirmation Remote LED Remote LED Remote LED Remote LED Remote LED Remote LED Appendix C Device Control Bit Functionality GFK-2936 User Manual 51
Name Discovery Detector - Heat Detector Discovery Detector - Carbon Monoxide Detector Discovery Detector - Manual Call Point Device Type Default Sensitivity 52 3 51 3 55 15 LED LED LED Output/Control Bits Remote LED Remote LED LED Confirm LED Confirm LED Confirm Input/Status Bits Low=Alm High=Qui Remote LED Remote LED Low=Qui High=Alm 52 GFK-2936 PAC8 8139-SH-DC ASH Input Module
Appendix D 8139-SH-DC ASH Module Tags When the 8139-SH-DC module is configured in the workbench, the following tags are automatically created and available to use for application programing. The following table lists the tag names and their descriptions. Module Tags Tag Name Description <ControllerName>_ASH_<PhysicalSlotNo>_CMD_STS Module Command Status Register <ControllerName>_ASH_<PhysicalSlotNo>_CTRL Module Control Register <ControllerName>_ASH_<PhysicalSlotNo>_STS Module Status Register <ControllerName>_ASH_<PhysicalSlotNo>_ENH_STS Enhanced Command Status Register <ControllerName>_ASH_<PhysicalSlotNo>_ENH_RSP Enhanced Command Response Data Register holds the data read from Apollo device after read operation <ControllerName>_ASH_<PhysicalSlotNo>_CMD_PK1 Enhanced Command Register 1 holds the command data to be sent to module to control device; -> read, 1 -> write <ControllerName>_ASH_<PhysicalSlotNo>_CMD_PK2 Enhanced Command Register 2 holds the device address (channel number) of the device when reading or writing enhanced commands <ControllerName>_ASH_<PhysicalSlotNo>_CMD_PK3 Enhanced Command Register 3 holds the data item desired when reading or writing enhanced commands <ControllerName>_ASH_<PhysicalSlotNo>_CMD_PK4 Enhanced Command Register 4 holds data to be written when writing enhanced commands for Read <ControllerName>_ASH_<PhysicalSlotNo>_ ENH_WRT Send (Write) Enhanced Command Register <ControllerName>_ASH_<PhysicalSlotNo>_ PON_CMD Power On Command <ControllerName>_ASH_<PhysicalSlotNo>_ POF_CMD Power Off Command <ControllerName>_ASH_<PhysicalSlotNo>_ PWR_OFF_STS Power Off Status <ControllerName>_ASH_<PhysicalSlotNo>_OPN_SHT Power on Command Status Appendix D 8139-SH-DC ASH Module Tags GFK-2936 User Manual 53
Notes 54 GFK-2936 PAC8 8139-SH-DC ASH Input Module
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