IFC-1010/2020 Operations - Johnson Controls
Contents
1. The panel is operating under an earlier version of software after newer software features have been programmed into the system Contact the factory to establish valid software compatibility Complete reprogramming of system Control By Event CBE equations may be required CATASTROPHIC LOOP INTERFACE BOARD X COMMUNICATION FLT Communication has failed between the IFC 1010 2020 and the Loop Interface Board LIB specified in the X field of the message This failure may be due to several reasons the LIB board has failed electronically the LIB is programmed but not installed in the system the LIB is installed but is not programmed into the system or a poor connection has been made between the CPU and the LIB COMMUNICATION LINK FAILURE IN PORT A Data is not being received on network MIB port A This trouble is only reported if the node is configured for dual port monitoring COMMUNICATION LINK FAILURE IN PORT B Data is not being received on network MIB port B This trouble is only reported if the node is configured for dual port monitoring DET FAILED TEST This detector failed its periodic detector test The periodic detector test verifies the alarm operation of the detector DRIFT TOLERANCE Operations IFC 1010 2020 Operations 41 This detector s drift compensation value is outside the allowable range This de2. INSTALLED POINT REPORT END 04 32P 03 01 97 O O M O K G E Figure 14 IFC 1010 2020 Special Function Report Printout 28 Operations IFC 1010 2020 Operations DPZ N LMD 20 LMM 20 LMC 20 72ABCD 71 RC BTYP N BCAP 12 BSBY 48 ERM Y BLN Y PAL N OO COC OCG COO 0 Prntout 3 History Buffer Read Status Menu Option 2 PRESS 1 PRINT 2 DISPLAY 3 STEP 4 RANGE STATUS scr3c Choices 1 2 and 3 will prompt the user for the beginning and end of the History Buffer range The maximum number of events that the system can save in the History Buffer is 400 Press 1 to produce a printed report of the History Buffer An example of a History Buffer printout is illustrated in Figure 15 Press 2 to perform an automatic display of the History Buffer on the DIA and CRT terminal if employed Press 3 to perform a manual display of the History Buffer on the DIA and CRT Use the Enter key on DIA or Return key on CRT to advance the display Press 4 to display the History Buffer range the number of entries contained in the buffer and current status active inactive Operations IFC 1010 2020 Operations 29 To differentiate between History Buffer printouts refer to Figure 15 and system printouts refer to Figure 14 the colon in the time field is replaced by the semicolon Figure 15 IFC 1010 2020 S
3. About the The term loop is used in a general sense It refers to a Class A looped circuit only Operation of the when referencing one of the following Panel e Style 6 7 for an SLC e Style D for an Initiating Device Circuit IDC e Style Y for a Notification Appliance Circuit NAC wiring installation Read Status Use the ACK STEP key to view any other devices in the alarm trouble disabled or active state See the Prior Next Autostep section CRT Terminal Since the system function keys Acknowledge Signal Silence and Reset are not key lock or password protected against unauthorized access on the CRT in order to comply with the UL Listing and NFPA standards the keyboard may not be connected to the CRT The only exceptions are during programming and maintenance of the system ifthe system is configured in compliance with the Proprietary Fire Alarm System configuration and the panel is operating as the Primary Supervising Station if modem is enabled in Additional System Parameters 9 portion of System Programming About the Although only addressable monitor modules M50xMJ and control monitor modules Operation of the M5x0CJ are identified addressable detectors are included Panel About the Walk Each time a device on the SLC selected for Walk Test is activated the 15 minute Test countdown timer is restarted About Priorities Node numbers are applicable only if an IFC 1010 2020 panel is connected to a Metasys Fire Netwo
4. Operations IFC 1010 2020 Operations 45 After servicing a system containing drift compensation software some detectors may cause a drift compensation trouble indication within 15 minutes after reapplication of power These detectors may have undergone several drift sensitivity adjustments in the past and may not be properly compensated during powerup compensation second compensation may be required before the trouble condition clears This second compensation will be completed automatically after 120 hours If a trouble condition for a detector still exists after a second compensation clean and or replace it If power has not been removed and reapplied recently and drift compensation trouble is indicated for a particular device clean and or replace the detector immediately 46 Operations IFC 1010 2020 Operations Application and Clarification Notes The IFC 1010 2020 product is UL Multiple Listed in association with its original manufacturer This allows Johnson Controls to provide the latest products upgrades and updates available from the manufacturer to the customer at the fastest rate and lowest cost To conform to this UL Multiple Listing process this documentation must closely reflect that which is distributed by the product s original manufacturer To supplement the UL Multiple Listed text given in this document the following table of descriptive numbered Notes has been added Table 6 Number Note Reference Table
5. clears View acknowledged alarms troubles and restorations e Silence the sounding of fire alarm notification appliances e Reset the IFC 1010 2020 system Test all intelligent addressable detectors in the system Test the panel s LED indicators Liquid Crystal Display LCD terminal and printer Read the status of the entire IFC 1010 2020 system including addressable devices Print out a report on the status of the system or access the history buffer Access to menu Levels One and Two require entry of specific passwords These levels allow an authorized programmer to initialize or alter the programming of the IFC 1010 2020 Level One and Level Two entry requirements are defined as follows Alter Status Level One password required Programming Level Two password required If the main operator of the system requires access to a function that is password protected contact the local Johnson Controls office for the required passwords For more information on programming or altering the status of the IFC 1010 2020 refer to IFC 1010 2020 Programming Technical Bulletin LIT 448060 Whenever the operator selects a menu the IFC 1010 2020 begins a minute timer If no key is pressed during this minute the function selected will be aborted and control will return to the state the panel was in prior to selection of that menu Note Unacknowledged points must be acknowledged prior to being reprogrammed An
6. only displayed when a SIB NET is installed 4 DACT 01 DACT Base address of the UDACT blank for none installed scri2 c Figure 6 Read Status Menu Option 8 Operations IFC 1010 2020 Operations 19 Point Read Read Status Menu Option 2 Detectors Selecting 2 from the Read Status menu allows the operator to review the various detector module software zone or annunciator point parameters entered into the system The system prompts the operator for the address of the point to be read ENTER LXX D M YY ZXXX OR AXXPYY FOR PT STATUS BCKSPC TO ABORT scri2r Upon entering the SLC or annunciator address zone number the system will display a distinct screen format depending on the particular type of device being read as illustrated below Note After a 1 minute timeout the Control By Event CBE and the annunciator point mapped address appears for devices and zones Cooperative Control By Event CCBE appears for reverse zones display this information immediately press Enter after the status line appears Status DISABLE ALARM Note NORMAL SMOKE ION COMPUTER ROOM SMOKE TROUBL NORMAL 20 character Software Type ID Custom Label D SH V000 H 034 Device Device Tracking Verification Percentage of Disabled in Alarm Selected Counter Alarm Threshold Device in Sensitivity Selection Trouble Low Medium High Day Night Detector Sensitivity
7. 27 29 31 32 33 33 34 34 35 35 37 39 39 39 41 45 47 Location of Content Changes About the Operation of the Panel Introduction The product that this document supports is UL Underwriter s Laboratories Multiple Listed which requires that the content of the documentation inherited from the manufacturer remain intact Minor changes clarify information such as vendor specific product names and literature names and numbers More significant changes to the original technical content such as additions or corrections are identified with Note Number P For the Note Number content refer to the Application and Clarification Notes section at the end of this document Use of intelligent addressable detectors and modules provide the operator with precise information on the location of the alarm or trouble as well as what type of device is reporting the activity The IFC 1010 2020 control panel will only operate with Johnson Controls intelligent addressable devices installed operating power as well as data communications to and from intelligent addressable devices is transmitted on a 2 wire Signaling Line Circuit SLC loop N that may be wired to meet the requirements of either NFPA National Fire Protection Association Style 4 or Style 6 or 7 operation The IFC 2020 system can be configured with up to ten Loop Interface Boards LIB SLC loops and the IFC 1010 system with up to two loops Each
8. Display Interface Assembly Normal During normal fire alarm operation when no alarms or troubles exist the Operation system will display the following Custom 40 character Label JOHNSON CONTROLS ALL SYSTEM NORMAL 04 32 03 01 97 Current Time and Date Hour Minute A AM or P PM Month Day Year normalop Figure 2 Normal Operation The operator can perform the functions associated with the following keys without having to enter a password STATUS STEP SIGNAL SILENCE A description of the READ STATUS and the SPL FUNCT keys follows E SYSTEM RESET S SPL SYSTEM FUNCT TEST LAMP TEST Keypad Figure 3 Display Interface Assembly DIA Operations IFC 1010 2020 Operations 13 Refer to Table 1 Refer to Table 2 for details for details E F A C ie 4 E ALL SYSTEMS NORMAL 12 00P 3 01 98 POWER vam FIRE Amm SILENCE ALARM TROUBLE 9 d SECURITY PROG RESET ALARM E uu cu ee D SPLAY i 4 SIGNAL SYSTEM SYSTEM LAMP TROUBLE einer STEP ISILENCE RESET TEST TEST SIGNAL HEEL iem iiie isis SILENCE ni re ENTER x M interfce Refer to Table 3 Refer to Figure 4 for details for details Figure 4 Display Interface Components Table 1 Display Interface Components Piezo Sounder The local panel piezo sounder provides an audible indication of the system
9. loop is capable of supporting up to 99 intelligent detectors and up to 99 addressable control or monitor modules A fire alarm in the IFC 1010 2020 is initiated by activation of any of the following devices connected on the SLC e intelligent smoke or heat detectors 1251J 2251J 1551J 2551J 2551THJ 5551J 5551JR DH500J and DH502J e addressable manual pull stations BGX 101 e conventional normally open or normally closed contact fire alarm initiating devices connected to addressable M50xMJ monitor modules or equivalent XPM circuits Operations IFC 1010 2020 Operations 3 During an alarm condition LEDs Light Emitting Diodes on as few as 6 and as many as 99 addressable initiating devices such as smoke detectors heat detectors and M50xMJ modules and or output modules may be latched on A latched on LED on an initiating device indicates that the device has caused an activation signal to be transmitted to the IFC 1010 2020 A latched on LED on an output module indicates that the module has been activated An activation signal on the IFC 1010 2020 includes fire alarms security alarms supervisory conditions or non alarm inputs Note During loss of primary AC power when the IFC 1010 2020 is operating under secondary power only the LEDs on intelligent detectors including DH500J and DH502J duct detectors will be latched on during a fire alarm A os The IFC 1010 2020 can be programmed to latch the LEDs on up to 99 add
10. the trouble condition clears the panel will display CLR TB and the piezo will sound again To acknowledge the clearing of a trouble condition ACK STEP Push and the CLR TB status will change to ACL TB Acknowledged Clear Trouble 36 Operations IFC 1010 2020 Operations Displaying Current Alarms and Troubles When multiple events have occurred the IFC 1010 2020 will display the first event that occurred with the exception that the first fire alarm will always override any previous non sprinkler supervisory trouble When the Ack Step key is pressed the operator will have acknowledged the highest priority event not necessarily the event that appears on the CRT monitor and DIA The acknowledged message for the first prioritized event will be displayed for several seconds followed by display of the next priority unacknowledged event Note The piezo sounder will be silenced only after all events have been acknowledged To display alarms and troubles that have been acknowledged but not cleared ACK Press a and the next event in IFC 1010 2020 memory will appear on the LCD All events in memory can be reviewed by repeatedly pressing the Ack Step key Operations IFC 1010 2020 Operations 37 38 Operations IFC 1010 2020 Operations CRT Terminal Local Applications Receiving Unit Applications Printer Remote Peripherals The IFC 1010 2020 will support the installation of optional remote video display ter
11. 01 002 ARE FORWARD ACTIVATED ZONES 201 240 ARE REVERSE ACTIVATED TS N SL Y APM Y CMR Y NAR Y LEDL N PEC N BC N PTI N RPT N ISIB Y THESE ANNUNCIATORS ARE INSTALLED PRESS ENTER TO CONTINUE UNTIL DONE 1 N 2 N 3 N 4 N 5 N 6 N 7 N 8 N9 N 10 N 11 N 12 N 13 N 14 N 15 N 16 N 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 UPDN N ADDR 010 DBID BC00D148 MIBA HMIBB H PORTS 2 DACT 01 HIZNDET Z150 LOZNDET Z001 SERPT Y DRIFT Y PGR Y MDM Y NAM N RP N SYSTEM CONFIGURATION REPORT END PRESS 1 RPT 2 HIS PRESS1 SYS 2 POINT 3 ALM 4 TBL 5 DIS 6 MONON 7 CTLON PRESS 1 REQUEST 2 ABORT INSTALLED POINT REPORT BEGIN 04 32P 03 01 97 ALARM FORWARD ZONE FIRST FLOOR 2001 A01P01 A01P02 DISABL REVERSE ZONE SECOND FLOOR 2202 OR A01P02 OR ALARM SMOKE ION OFFICE AREA A SH V010 H 045 LO1DO 201 A01P03 TROUBL SMOKE PHOTO FACTORY SH V000 H 045 101002 202 A01P03 NORMAL HEAT ANALOG MAINTENANCE SH V000 H 045 L01D03 201 A01P03 NORMAL MONITOR FIRST AID 101 01 201 A01P04 ON CONTROL FIRST FLOOR SLO1MO2 OR Z01 A01P05 OFF CONTROL SECONDFLOOR SL01M03 OR Z01 01 06 ON ANN ZONE BUILDING ONE A01P01 DISABL ANN ZONE BUILDING ONE A01P02 ON ANN DETECTOR BUILDING ONE A01P03 OFF ANN MONITOR BUILDING ONE A01P04 ON ANN CONTROL BUILDING ONE A01P05 OFF ANN CONTROL BUILDING ONE A01P06
12. 03 01 97 2001 Software Zone Label Time and Date Zone Address of the first software zone Hour Minute Month Day Year in the Range that the device was mapped Z001 Z240 to during programming 5 52 Figure 18 Disabled Zone Trouble Conditions Display Note The piezo sounder will sound steadily for unacknowledged trouble conditions Trouble with the The following example illustrates the format used to display system IFC 1010 2020 trouble conditions For an explanation of some trouble messages refer to the Trouble Messages section of this publication System Device Specific Status Trouble Message TROUBL CASTASTROPHIC LOOP INTERFACE BOARD 2 COMMUNICATION FLT 04 32P 03 01 97 T19 Time and Date Trouble Index Hour Minute Month Day Year Provide this index to your Johnson Controls Field Support Services for troubleshooting 5 53 Figure 19 System Trouble Conditions Display 34 Operations IFC 1010 2020 Operations Trouble with the Annunciators Block Acknowledge The following example illustrates the format used to display trouble conditions with the Annunciator Control System modules For an explanation of some trouble messages refer to the Trouble Messages section of this publication Device Specific Status Trouble Message TROUBL ANNUNCIATOR 01 INSTALLATION ERROR MAIN LOBBY 04 32P 03 01 97 Time and Date Trou
13. 551J 2251J 2551THJ photo detectors and 1551J 1251J ion detectors This software based compensation meets NFPA 72 1996 Chapter 7 Inspection Testing and Maintenance periodic sensitivity testing and maintenance requirements without removing and testing each smoke detector in an installed system This does not eliminate the need for visual inspection or testing for smoke entry Alarm sensitivity in a detector chamber tends to increase over time This increase is caused by chamber contamination In time if the clean air level exceeds the alarm threshold a false alarm occurs Drift compensation eliminates this problem by increasing the alarm threshold as needed to maintain constant sensitivity When the detector is too dirty to compensate a trouble is indicated automatically No additional programming is required for drift compensation Every detector has three sensitivity levels low medium and high These levels assign specific Percent Obscuration per Foot values for each device Table 5 Detector Sensitivity Low Medium High Sensitivity Sensitivity Sensitivity Percent Obscuration per Foot Drift compensation is executed when e the system powers up e non communication INVALID REPLY clears e every 120 hours based on at least four samples Whenever a detector is replaced an immediate compensation must be forced The installer should remove the existing detector wait for at least three minutes and then install the new detector
14. IB 9 PARM scri2b Note that when 4 is chosen from the menu the total number of AVPS and or APS 6R power supplies will be displayed Enter Menu Status Displayed Choice THESE LIB BOARDS ARE INSTALLED 1 1 Y 2 Y 3 Y 4 Y 5 N 6 N 7 N 8 N 9 N 10 N Y Installed N Not Installed THE SLC LOOP STYLES ARE AS FOLLOWS 2 1 6 2 6 3 6 4 6 5 4 6 4 7 4 8 4 9 4 10 4 The default value for SLC loops not installed is NFPA Style 4 ER 60 SIL 045 CUT 0000 VER Alarm Verification Time in seconds SIL Signal Silence Inhibit Time in seconds CUT Signal Cut out Time in seconds THERE ARE CURRENTLY 04 AVPS 24 INSTALLE 4 IN THE SYSTEM ES 001 200 ARE FORWARD ACTIVATED 5 ES 201 240 ARE REVERSED ACTIVATED scri2_a Figure 5a Read Status Menu Option 1 Continued on next page Operations IFC 1010 2020 Operations 17 SL N APM N CMR N N 6 i EC N BC N PTI N RPT N TS is the connection to the terminal supervised If TS N the terminal will not audibly indicate state changes i e no Bell characters will be sent SL Is the Status Line option enabled APMsis the connection to the auxiliary printer monitored NAR Is NONA NOA monitor module state reporting enabled LEDL LED latches on more activated addressable devices Continue to transmit under printer error conditio
15. IFC 1010 2020 Technical Manual 448 METASYS IFC 1010 2020 Operations Operations Section Technical Bulletin Issue Date 1198 Introduction e Location of Content Changes e About the Operation of the Panel e About This Technical Bulletin e About the Passwords e About the Software e About Addresses e About the Backspace Key e About Entering Alohanumerics e About the Walk Test e About the Display Time e About the Print Time e About Priorities e About System Test e About Periodic Test Display Interface Assembly e Normal Operation e Read Status e Display System Configuration e Menu Choice 8 e Point Read e Special Status Prior Next Autostep 1998 Johnson Controls Inc Code No LIT 448100 oO Page DN NN OO WO a a D 13 16 17 19 20 23 25 1 www johnsoncontrols com Special Function Page e To Select Special Function e Reports e History Buffer Fire Alarms e Acknowledging a Fire Alarm Troubles e Trouble with SLC Devices e Trouble with Disabled Zones e Trouble with the IFC 1010 2020 System e Trouble with the Annunciators e Block Acknowledge e Acknowledging Troubles in Receiving Unit Mode Block Acknowledge Disabled e Displaying Current Alarms and Troubles Remote Peripherals e CRT Terminal e Printer Trouble Messages Drift Compensation Application and Clarification Notes 2 Operations IFC 1010 2020 Operations 27 27
16. L STA TELEPHONE SMOKE PHOTO EQUIP MONITR MONITOR TRBL MONITOR FORMC MANUAL MONITOR PAGE TRBLS FORM C RELAY NON ALARM TROUBLE GENERAL PEND NON ALM MON TROUBLE FORC GN ALARM PAGE WATER FLOW au GN ALARM EVC POWER CONV Custom Device Label that was entered during programming COMPUTER ROOM Device Type TROUBL SMOKE PHOTO 7087 MAINTENANCE REQ 04 32P 03 01 97 124 ees ress in the Range 01 99 Time and Date SLC Number Hour Minute Month Day Year in the Range 0 9 with O SLC 10 Software Zone Label ofthe first software zone that the device was mapped to during programming Modules DEVICE DISABLED SECURITY NO COM DEVICE DISABLED INVALID REPLY SECURITY TAMPER DRIFT TOLERANCE OPEN CIRCUIT SHORT CIRCUIT INVALID REPLY POINT TROUBLE SPRNKLR TROUBLE LOW CHAMBER VAL SECURITY ALARM SUPRVSRY SIGNAL MAINTENANCE REQ SECURITY ALERT PRE ALARM ALERT Type of Trouble Detectors DET FAILED TEST secol Figure 17 Device Trouble Conditions Display Note The piezo sounder will sound steadily for unacknowledged trouble conditions Operations IFC 1010 2020 Operations 33 Trouble with The following example illustrates the format used to display disabled zone Disabled Zones touble conditions Device Device Type Status FORWARD ZONE REVERSE ZONE Custom Zone Label that was entered during programming TROUBL FORWARD ZONE FIRST FLOOR ZONE DISABLED 04 32P
17. NAM 232 enabled rapid polling enabled scri2 b N7 N9 Figure 5b Cont Read Status Menu Option 1 18 Operations IFC 1010 2020 Operations Menu Choice 8 ISIB Enter Menu Status Displayed Choice ISIB Y ISIB Is the Intelligent Serial Interface Board installed Note ISIBs available for the IFC 1010 2020 system include the SIB 2048A SIB NET and SIB N2 For an IFC 1010 2020 connected to a Fire Network system however the only ISIB that can be used is the SIB NET If a SIB NET is not installed the Fire Network s specific functions cannot be programmed or read under Read Status ESE ANNUNCIATORS ARE INSTALI 2 ESS ENTER TO CONTINUE UNTIL Due to its size the Annunciator Read Status display is separated into two screens illustrated below Pressing Enter invokes the next display 4 N 5 Y 6 Y 7 N 8 N 0 N 11 N 12 Y 13 Y 14 Y 15 N 16 N 17 Y 18 Y 19 Y 20 N 21 N 22 N 23 N 24 N 25 N 26 N 27 N 28 N 29 N 30 N 31 N 32 N UPDN N ADDR 010 DBID BC00D148 3 MIBA H MIBB H PORTS 2 UPDN Is the ACS Port upload download enabled ADDR FAC Fire Network address DBID Database identifier MIDA MIB W WF threshold for Channel A On the MIB WF only the Channel A threshold setting is used MIBB MIB W threshold for Channel PORTS Number of data ports monitored These items are Fire Network specific functions and are
18. RITY NO COM The IFC 1010 2020 has received either no response or an invalid response from an addressable SLC device programmed for security operation This may be the result of a burglary other security violation the failure of a device an improperly addressed device or failure of the field wiring SPRNKLR TROUBLE A supervisory condition that indicates sprinkler equipment supervised by a monitor module is in an abnormal state 1 a sprinkler valve has been closed Note that a break in the wiring of a supervisory circuit is a trouble condition that yields OPEN CIRCUIT not SPRNKLR TROUBLE Operations IFC 1010 2020 Operations 43 SUPRVSRY SIGNAL A supervisory condition that indicates equipment supervised by a monitor module is in an abnormal state 1 e low pressure indication Note that a break in the wiring of a supervisory circuit is a trouble condition that yields OPEN C RCU VER COUNT T not SUPRVSRY S GNAL This detector has exceeded the allowed detector verification limit This condition may be due to a dirty detector The detector should be inspected and cleaned as necessary by an authorized service representative Failure to do so may eventually result in false alarms 44 Operations IFC 1010 2020 Operations Drift Compensation IFC 1010 2020 software is designed to automatically compensate for chamber sensitivity drift due to detector contamination in 2
19. RT Note In the IFC 1010 2020 security alarms are processed like fire trouble conditions The IFC 1010 2020 processes and displays events under the following priorities highest priority first 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Fire Alarms Security Alarms Supervisory Signals Device Troubles Disabled Zones System Troubles Annunciator Troubles Cleared Fire Alarms Cleared Security Alarms Cleared Supervisory Signals Cleared Device Troubles Cleared Disabled Zones Cleared System Troubles Cleared Annunciator Troubles 10 Operations IFC 1010 2020 Operations About System Test In addition detectors have a higher priority than modules within each detector module category the lower the address the higher the priority see list below The display of certain events can be pre empted by others at the time they are acknowledged Pay careful attention to the display when acknowledging events Node 1 NS Loop 1 Detector 1 Loop 1 Detector 2 Loop 1 Detector 3 Loop 10 Detector 99 followed in priority by Node 1 Loop 1 Module 1 Loop 1 Module 2 Loop 1 Module 3 Loop 10 Module 99 followed in priority by Node 1 Zone 1 Zone 2 Zone 3 Zone 240 followed in priority by Node 1 System Trouble Indices in Hex TOO TO1 TO2 TFF followed in priority by Node 1 Annunciator Trouble Indices in Hex N00 N01 N02 NFF System Test or Detector Test as it is often referred to is a man
20. Setting Low Medium High scri2s Figure 7 Detectors A detector may be in periodic test during a Read Status In this case the detector status will be normal but the percentage of alarm threshold will be greater than 100 If this happens wait one minute then perform another Read Status 20 Operations IFC 1010 2020 Operations Detector Verification If detector verification is enabled for this point the V indicator appears and the 3 digit counter shows the number of times the verification timer was activated for the point without going into alarm The counter returns to zero when power is cycled to the IFC 1010 2020 If you disable verification the counter will retain its last value If verification is not enabled for this point the V indicator does not appear however the 3 digit number still appears Note that the counter does not increment unless verification is enabled Control Modules Status DISABL ON TROUBL OFF OFHOOK NORMAL 20 character Software Type ID Custom Label DISABL CONTROL COMPUTER ROOM BELL D W S Device Signal Silence Disabled PP Enabled Control Device in Module Trouble CO On CF Off Device in Walk Test Activated Selected An OFHOOK status indicates that a telephone off hook ring in signal has been received but has not been answered by the operator at the fire fighters telephone ACS switchboard seri 2t Figure 8 Control Modules Operatio
21. alarm or trouble conditions The sounder will pulse to indicate the detection of at least one fire alarm condition in the System and will sound steadily when the system is in trouble The sounder is silenced when all conditions have been acknowledged If the sounder sounds steadily and it cannot be silenced by the acknowledgment of all system alarm trouble conditions call your Johnson Controls service representative immediately 80 character The LCD displays the current status of the entire IFC 1010 2020 system While programming the Liquid Crystal IFC 1010 2020 the LCD provides various system configuration menus and prompts This display Display also is illuminated when the IFC 1010 2020 is under AC power The display will remain illuminated for one minute after the loss of AC power any keypad or system activity will re illuminate the display for one minute Table 2 Display Interface Components Description A green LED will illuminate to indicate that the system is operating from the primary power supply A red LED will flash to indicate that the panel has detected at least one fire alarm in the system The red LED will light steadily when all fire alarms have been acknowledged The panel LCD text display will provide detailed information on any alarms received Trouble A yellow LED will flash to indicate any unacknowledged change of status in the system The panel Security Alarm LCD text display will provide detailed information abo
22. any intelligent detector addressable module software defined zone or annunciator point in the system Enter 3 for Alarm This selection provides information on the lowest addressed device or zone in an alarm state Enter 4 for Trouble This selection provides information on the lowest addressed device or zone in trouble P Enter 5 for Disable This selection provides information on the lowest N2 addressed device or zone disabled Enter 6 for Monitor On This selection provides information on the lowest addressed non fire or security monitor module activated Enter 7 for Control On This selection provides information on the lowest N2 addressed control module activated Note Read Status Options 3 4 5 6 and 7 and the Point Read option use the same format to display their indicated point information 1 For an IFC 1010 2020 FACP on the Metasys Fire Network System always perform Read Status operations from a Fire Operator Workstation OWS Never attempt to perform Read Status operations from a local panel when the Fire OWS is simultaneously attempting to do so 16 Operations IFC 1010 2020 Operations Display System Configuration Read Status Menu Option 1 Selecting 1 from the Read Status menu allows the operator to review the various system parameters entered into the IFC 1010 2020 The System Configuration menu PRESS 1 INST 2 STY 3 TDLY 4 AVPS 5 ZBNI 6 EXTEQ 7 LOCP 8 IS
23. ble Index Hour Minute Month Day Year Provide this index to your Johnson Controls Field Support Services Custom Annunciator Label for troubleshooting User defined during programming 54 Figure 20 Trouble Conditions Display Format Note The piezo sounder will sound steadily for unacknowledged trouble conditions The Block Acknowledge function gives the user the ability to acknowledge multiple trouble conditions with one press of the Ack Step key The IFC 1010 2020 Block Acknowledge function is normally enabled With Block Acknowledge enabled the IFC 1010 2020 will function as follows e Fire alarm conditions including clears tracking devices only must be acknowledged individually as described earlier Fire alarm conditions restored by pressing the System Reset key do not require acknowledgment e All current unacknowledged conditions must be processed by the system before Block Acknowledge is executed events will be acknowledged individually until then Acknowledged Event messages are not recorded for individual troubles once the Block Acknowledge message appears e Trouble clears will be recorded for individual troubles that have not been initiated by a system reset e Trouble clears no longer have to be acknowledged e Troubles may come and go without being acknowledged Upon completion of Block Acknowledge the IFC 1010 2020 will enter its display acknowledged events mode of operation see Displaying Current A
24. ce boards the addressable detectors and the control and monitor modules Alter Status Provides access to Level One functions such as setting the FACP clock This Level Two function key provides access to Programming mode for configuring the IFC 1010 2020 SPL Funct This key generates system and installed point reports Alpha Enter During Programming mode pressing the Alpha Enter key stores the character displayed and permits the alternate character on that key to be entered next Erases the last alphanumeric keypress or serves as an escape key during programming Menu selections are entered and programming data is stored in IFC 1010 2020 memory upon pressing this key Operations IFC 1010 2020 Operations 15 Read Status The Read Status feature of the IFC 1010 2020 allows the operator to display the status of the entire system A READ To execute the Read Status Press The display will show PRESS 1 SYS 2 PTREAD 3 ALM 4 TBL 5 DI 6 MONON 7 CTLON Scr12A Enter 1 for Display System Configuration This selection provides information on any of the system parameters programmed into the IFC 1010 2020 such as the number and style of the loop interface boards the number of AVPS 24 and or AVPS 24E and or APS 6R power supplies the software zone boundary the system time delays and the annunciator modules installed Enter 2 for Point Read This selection provides information on the status of
25. e general terms used for specific part numbers PRN is used for PRN 4 CRT is used for CRT 2 MS5x0CJ is used for M500CJ or M510CJ M50xMJ is used for MSOOMJ M501MJ or M502MJ This chapter refers to M5x0CJ control modules and M50xMJ monitor modules If XP Series transponders are used unless otherwise stated the following substitutions may be made M50xM J monitor modules can be substituted with XPM circuits M5x0CJ control modules configured as Form C contacts tabs broken can be substituted with XPR circuits M5x0CJ control modules not configured as Form C contacts can be substituted with XPC circuits The Transponder may be programmed so that it will revert to local program operation upon loss of communications with the IFC 1010 2020 Therefore use extreme care when assigning software Type IDs to XP Transponder circuits For instance an XP circuit assigned software Type ID SPSU will initiate a supervisory condition under communication with the IFC 1010 2020 but will result in an alarm condition under local XP operation Note For more information refer to XP Transponder Technical Bulletin LIT 448180 Operations IFC 1010 2020 Operations 5 About the The IFC 1010 2020 functions in one of three levels Operational Level Passwords Level One and Level Two In Operational mode the operator may perform the following keypad or menu displayed functions Acknowledge alarms troubles and restorations
26. ering data or making a selection from a menu ENTER LXX D M YY ZXXX OR AXXPYY FOR PT STATUS BCKSPC TO ABORT L4D3 scintr2 The Backspace key erases the last character or menu choice entered Operations IFC 1010 2020 Operations 7 About Entering Most of the keys on the DIA Display Interface Assembly keypad serve Alphanumerics more than one function For instance the 3 key is used to enter the digit 3 or the letter D when entering the address of a detector The IFC 1010 2020 toggles which character appears on the LCD with each successive press of that key This allows the operator to press one key until the desired character appears That character is entered into the display whenever the next different key is pressed If two of the characters contained on a key for instance the D and the 3 need to be entered in succession the Alpha Enter key must be used see the example that follows After the full address has been entered into the display press Enter to transfer the display contents to the system for processing Example To enter L8D3 SIGNAL Press and the letter appears Press SILENCE again and the K will change to L Press and the letter appears to the right of the displayed letter L Press e again to change the letter O to the digit 8 Press and the letter D appears to the right of the characters L8 The partial address displayed now reads L8D ALPHA Press to enter the let
27. he DIA CRT and LCD 80s if installed will display the time this event occurred The display will show the actual time that the first unacknowledged event occurred After the first event is acknowledged the time shown on the display does not represent the time at which the event occurred but instead indicates the time at which the event appears The time shown for an acknowledged event is the time at which that event was last placed in the display by activation of the Ack Step key not the time at which the event occurred Output to the printer for a particular event such as alarm trouble and acknowledgment includes the time the event was sent to the printer which in most cases 1s identical to the time the event occurred In extreme cases when many events have occurred within a few seconds the time printed for a particular event may differ from the actual event time by up to one minute After events have been acknowledged only the event history table if enabled and the un printer will provide a record of the time at which events occurred Operations IFC 1010 2020 Operations 9 About Priorities Every event that the IFC 1010 2020 displays is prioritized This includes the processing of incoming alarm and trouble events acknowledging events the clearing of events and acknowledging the clearing of events receiving unit operation only Security alarms will increment the trouble counter on the terminal status line of the C
28. he first software zone Hour Minute Month Day Year in the Range 0 9 that the device was mapped with O2 Loop 10 to during programming sec4pic Figure 16 Fire Alarm Conditions Display Note The piezo sounder will pulse for fire alarm conditions Operations IFC 1010 2020 Operations 31 Acknowledging a Fire Alarm To acknowledge a fire alarm condition at the panel ACK Press and the Alarm device status will change to ACK AL Acknowledged Fire Alarm When the fire alarm condition clears either automatically in the case of devices programmed for tracking or by the pressing of the System Reset key the panel will display CLR AL and the piezo will resound To acknowledge the clearing of a fire alarm ACK Press the CLR AL device status will change to ACL AL Acknowledged Clear Fire Alarm When multiple events have occurred the system will display the first event that occurred with the exception that the first fire alarm will always override any previous trouble When the Ack Step key is pressed the operator will have acknowledged the highest priority event not necessarily the event that is being displayed on the CRT monitor and DIA The Acknowledge message for the first prioritized event will be displayed for several seconds followed by display of the next priority unacknowledged event Notes The piezo sounder will be silenced only after all events have been acknowledged Security alarms are treated li
29. ke fire trouble conditions in the IFC 1010 2020 For an IFC 1010 2020 panel on the Metasys Fire Network system acknowledgment of any event may be accomplished from the local fire alarm panel Intelligent Network Annunciator INA or Fire OWS Acknowledging alarms and events from any of these locations automatically provides acknowledgment at all locations Fire alarm signals are acknowledged individually at the local fire alarm panel Fire OWS or INA If the same event on the same point occurs on multiple nodes the event on the node with the lowest node address has the highest priority For more information on priorities and acknowledging events on the Fire Network system refer to the Metasys Intelligent Fire Network Technical Bulletin LIT 448196 Fire Operator Workstation Fire OWS Technical Bulletin LIT 636014 and the Fire OWS section of the Metasys Operator Workstation User s Manual FAN 634 32 Operations IFC 1010 2020 Operations Trouble with SLC Devices Troubles The following example illustrates the format used to display device trouble conditions Device Type Detectors Modules FIXED PHOT D ACCESS MONTR GNALARM FORC PULL STATION FIXED THER D ALARMS PEND GN SUPR FORC SMOKE CONV HEAD ANALOG AREA MONITOR TRBL SPEAKER ION DUCT DET CMX CONTROL GN WAT FORC SPRNKLR MNTR SMOKE ION CMX FORM C GN WATER FLW SPRVSRY MNTR SMOKE ION HP CONTROL MON NORM CLD SYSTEM MONTR SMOKE ION LP DACT CONNECT MON PUL
30. larms and Troubles section Operations IFC 1010 2020 Operations 35 To disable the Block Acknowledge function refer to the local parameters NFPA programming section in FC 010 2020 Programming Technical Bulletin LIT 448060 If the IFC 1010 2020 Block Acknowledge function is disabled the IFC 1010 2020 will process alarm and trouble conditions in Receiving Unit mode See the Caution note that follows for restrictions ACK Press to execute Block Acknowledge The following message will appear ckckckckck ck ck KKK BLOCK ACKNOWLEDGE Ckck ck ck k kk kk 04 32P 03 01 97 5 55 dico For an IFC 1010 2020 connected to a Metasys Fire Network system operating as a Proprietary Fire Alarm System and which also includes a Fire OWS Block Acknowledge is not permitted under the UL Listing Therefore all IFC and INA panel nodes should be programmed for the Receive mode of operation and the Fire OWS Block Acknowledge disabled see the Fire Operator Workstation Fire OWS Technical Bulletin LIT 636014 All nodes must be operated in the same mode Acknowledging The Receiving Unit mode of operation is required for all NFPA Troubles in Proprietary Supervising Station and Central Station Receiving Units Receiving Unit To acknowledge a device zone system or annunciator module trouble Mode Block condition Acknowledge m Disabled STE Press 2 and the TROUBL status will change to ACK TB Acknowledged Trouble When
31. minals and printers The CRT terminal displays all system information The CRT can also display system reports if printer reports are redirected to the CRT during programming The CRT is provided with a keyboard that can be used to program the IFC 1010 2020 The keyboard can be used to operate the IFC 1010 2020 provided the keyboard is either removed or locked up when not in use NS If employed under NFPA 72 1996 Proprietary Fire Alarm System Receiving Unit applications the keyboard cannot be removed or locked up The keyboard must remain connected and operationally functional in the system The printer can be used to provide a permanent record of all system events Alarms troubles and acknowledgments are recorded as they occur in the system In addition the printer can be used to print out status information and system reports Operations IFC 1010 2020 Operations 39 40 Operations IFC 1010 2020 Operations Trouble Messages Many of the IFC 1010 2020 device zone system and annunciator trouble messages are self explanatory Those messages needing further clarification are listed below If the system is displaying a message that is not self explanatory and is not listed here contact Johnson Controls CAT COMM FAULT Catastrophic communications failure the annunciator associated with this message is no longer functioning The connection may be broken CAT FAIL INCOMPATIBLE SOFIWARE OR INVALID CBE
32. n 6 provides information on activated non fire or security monitor modules Option 7 provides information on activated control modules Selecting 3 4 or 5 from the Read Status menu prompts the operator to choose between zones and devices The following example performs a search for the lowest devices in a fire alarm state PRESS 1 SYS 2 PTREAD 3 ALM 4 TBL 5 DIS 6 MONON 7 CTLON 3 DO YOU WANT ZONE EVICE STATUS Y ZONE N DEVICE KSPC TO ABORT N SMOKE ION COMPUTER ROOM SMOKE M 034 L02 scri2x Figure 12 Special Status Note The Control By Event and the annunciator point mapped address appears for devices and zones after a one minute timeout In a Metasys Fire Network system Cooperative Control By Event equations are displayed for reverse zones To display this information immediately press Enter after the status line appears Operations IFC 1010 2020 Operations 23 24 Operations IFC 1010 2020 Operations Prior Next Autostep The Prior Next and Autostep keys are used with Options 2 through 7 of the Read Status menu Upon selection of one of these options an address range is defined by the IFC 1010 2020 for which similar searches can be performed using the Prior Next and Autostep keys These functions enhance and speed up the search process because they eliminate the need to re enter the Read Status menu for the same function being repeating Prior Sea
33. ns bidirectional copy enabled PTl Is the prmary printer trouble inhibitied RPT Are printer reports directed to terminal output THESE LIB BOARDS ARE INSTALLED 7 1 Y 2 Y 3 Y 4 Y 5 N 6 N 7 N 8 N 9 N 10 N DPX ls the piezo disabled during programming LMD Local Mode Dectector address LMM Local Mode Monitor module address LMC Local Mode Control module address 72A Protected premises local fire alarm system 72B Auxiliary fire alarm service 72C Do no use 72D Do no use 71 Do no use L Lead Acid N Ni cad RC Proprietary supervising station or central station receiving unit BTYP Type of battery installed in the system BCAP Ni cad battery capacity BSBY Ni cad battery standby time 5 event reminder enabled BLN Is device blinking enabled PAL Is pre alarm option enabled PRESS 1 INSTL 2 ANN 3 XINT 4 DACT Option 8 provides you with a Read Status submenu for viewing the status of the intelligent SIB installed annunciators external interface or DACT This menu is described later HINZNDET Z150 LOZNDET Z001 9 SERPT Y DRIFT Y PGR Y MDM Y NAM N RP Y HIZNDET High zone for day night detector sensitivity LOZNEDT Low zone for day night detector sensitivity 15 monitor module state reporting enabled DRIFT Is drift compensation enabled PGR Is PAGE 1 enabled MDM Is modem enabled 5 the
34. ns IFC 1010 2020 Operations 21 i Fire Status DISABL TROUBL NORMAL Monitor Modules Non Fire and Security Status DISABL ON TROUBL OFF 20 character Software Type ID Custom Label NORMAL MONITOR BASEMENT SMOKES L05MI124 Address D MOAT K Device Signal Silence Enabled Disabled Monitor Device in Module On Trouble Non Fire and Security types Only Tracking Selected Device Activated Active in a Non Fire Mode scri2u Figure 9 Monitor Modules Software Zones Status DISABL TROUBL NORMAL 20 character Software Type ID Custom Label ALARM FORWARD ZONE ATTIC DEVICE ZONE D A T 2023 Zone Zonein Disabled Alarm Zone in Trouble scri2v Figure 10 Software Zones 22 Operations IFC 1010 2020 Operations Annunciator Annunciator Points Points Status ON TROUBL OFF REQEST or blank 20 character Software Type ID Custom Label ANN CONTROL ANNUNCIATOR ONE AO1P23 Address An REQEST status indicates that a telephone off hook ring in signal has been received and answered by the operator at the fire fighters telephone ACS switchboard but has not been connected to the telephone line scri2w Figure 11 Annunciator Points Special Status Option 3 provides information on devices or zones in an alarm state Option 4 provides information on devices or zones in a trouble state Option 5 provides information on disabled devices or zones Optio
35. pecial Function History Buffer Printout 30 Operations IFC 1010 2020 Operations e PRESS 1 RPTS 2 HIS 2 9 PRESS 1 PRINT 2 DISPLAY 3 STEP 4 RANGE STATUS 3 ENTER FIRST EVENT 1 008 1 ENTER LAST EVENT 001 008 FRERE HISTORY REPORT BEGIN 04 32P 03 01 97 ALARM SMOKE ION DETECTOR ONE 04 32P 03 01 97 101 ACK AL SMOKE ION DETECTOR ONE 04 32P 03 01 97 101 e SIGNAL SILENCE REQUESTED 04 32P 03 01 97 ACTIVATED 04 32P 03 01 97 CLR AL SMOKE ION DETECTOR ONE 04 32P 03 01 97 101 O ACK AL SMOKE ION DETECTOR ONE 04 32P 03 01 97 101 NOTIFIER TEST SYSTEM ONE ALL SYSTEMS NORMAL 04 32P 03 01 97 OQ DETECTOR TEST ALL OK 02 00 00 00 00 00 00 00 00 00 002 04 32 03 01 97 FRERE HISTORY REPORT END m 04 32P 03 01 97 O e e PRINT2 Fire Alarms The following example illustrates the system format used to display fire alarm conditions Detectors Modules FIXED PHOT D MON NORM CLD FIXED THER D MON PULL STA HEAD ANALOG MONITOR ION DUCT DET PULL STATION SMOKE ION SMOKE CONV SMOKE ION HP WATER FLOW SMOKE ION LP SMOKE PHOTO Device Status Custom Device Label that was entered during Device Type ID programming ALARM SMOKE PHOTO COMPUTER ROOM 124 Device FOURTEENTH FLOOR 04 32P 03 01 97 Address in the Range 01 99 Software Zone Label Time and Date Loop Number of t
36. rches the database in a reverse direction from the current address refer to Note Next Searches the database in a forward direction from the current address refer to Note Autostep Performs an automatic search of the database in the forward direction from the current address with a two second display of status line followed by a two second display of the CBE and annunciator point mapped address for each of the points found The CCBE equation appears for reverse zones on the Metasys Fire Network system Note The Control By Event and the annunciator point mapped address appears for devices and zones after a one minute timeout The Cooperative Control By Event appears for reverse zones To display this information immediately press Enter after the status line appears Starting C rreni Ending Search 4 Prior Next Autostep gt Search Address Address sec2pic Figure 13 Database Search The Autostep key can be used as an alternate method for generating special reports Operations IFC 1010 2020 Operations 25 26 Operations IFC 1010 2020 Operations To Select Special Function Reports SPL FUNCT Menu Option 1 Special Function The Special Function feature of the IFC 1010 2020 allows the operator to generate IFC 1010 2020 status reports or view the IFC 1010 2020 History Buffer To select the Special Function feature S SPL FUNCT Press The di
37. ressable devices such as 50 and M5x0CJ y This software feature can be used only if all installed addressable devices purchased from Johnson Controls after April 1 1991 are stamped with the code R4 on the product marking label Use of this feature under any other circumstances can cause the SLC loops to shut down during a fire alarm condition RA400 Remote LEDs are not permitted for use with this feature excluding those wired to a DH500J Duct Detector Use only the RA400Z Remote LED when extending the number of latched on LEDs beyond six The 2551J Photoelectric Detectors can also have an H code after their model numbers Note Detectors have priority over modules Detectors that come into alarm will assume LED latch priority over previously latched module LEDs Output devices such as alarm notification appliances and output relays are controlled by activation of M5x0CJ control modules or equivalent XPC or XPR circuits connected along the SLC loop An addressable control module may serve as a Form C output relay or as a Notification Appliance Circuit NAC 4 Operations IFC 1010 2020 Operations About This Technical Bulletin This technical bulletin covers the operation of the IFC 1010 2020 Combination Fire Security Protective Signaling System and the control features available to the operator presented through the perspective of the Display Interface Assembly DIA 1010 or DIA 2020 see Figure 3 Following ar
38. rk N7 Read Status Menu The ISIB selection should also be Yes if an SIB N2 or SIB 2048 Serial Interface Board Option 1 is installed instead of an SIB NET Read Status Menu The CCBE is displayed only for a reverse zone if the panel is part of the Metasys Fire Option 2 Network Read Status Menu Use of the NAM interface to the IFC 200 and IFC 400 is not supported in the Option 1 IFC 1010 2020 unless Merge firmware is installed in the panel Continued on next Operations IFC 1010 2020 Operations 47 Note Number Cont About the Addressable points should not be reprogrammed while they are in the trouble or alarm Passwords conditions About the Print Events recorded in the control panels history file buffer also record the time of the Time event See About Priorities for a description of how the recorded event time may be displaced by one to several minutes N2 Read Status See the Special Status section for examples for the display for each section JANSON CONTR LS www johnsoncontrols com Controls Group FAN 448 507 E Michigan Street IFC 1010 2020 Technical Manual P O Box 423 Release 1 0 Milwaukee WI 53201 Printed in U S A 48 Operations IFC 1010 2020 Operations
39. splay will show ESS l RPTS 2 HIS scr3a PRESS 1 SYS 2 POINT 3 ALM 4 TBL 5 DIS 6 MONON 7 CLTON scr3b Enter 1 for a System Configuration report 2 for an Installed Point report 3 for a Fire Alarm report 4 for a Trouble report 5 for a Disable report 6 for a Monitor Module On report including non fire and security monitor modules or 7 for a Control Module On report The display will show EST 2 ABORT scr3e Enter to execute the report or 2 to abort a report already in progress Note Only one report can be conducted at any one time The reports are not displayed on the DIA Reports are either displayed on the CRT and or printed by the printer depending on whether or not printer reports are redirected to the CRT during programming An example of a report printout is illustrated in Figure 14 The Special Function report printouts refer to Figure 14 have the same display format as the Point Read option under Read Status For a description of the various report fields refer to Point Read Operations IFC 1010 2020 Operations 27 PRESS 1 RPTS 2 HIS PRESS 1 SYS 2 POINT 3 ALM 4 TBL 5 DIS 6 MONON 7 CTLON PRESS 1 REQUEST 2 ABORT SYSTEM CONFIGURATION REPORT BEGIN THESE LIB BOARDS ARE INSTALLED N 8 N 9 N 10 N THE SLCLOOP STYLES ARE AS FOLLOWS 8 4 9 4 10 4 VER 05 SIL 005 CUT 0504 THERE ARE CURRENTLY 00 AVPS 24 INSTALLED IN THE SYSTEM ZONES 0
40. t a 26 hour period This condition may be due to a dirty detector The detector should be inspected and cleaned as necessary by an authorized service representative Failure to do so may eventually result in false alarms MANUAL CONTROL This annunciator is being controlled manually 42 Operations IFC 1010 2020 Operations PRE ALARM ALERT The chamber value of the detector has exceeded 8046 of the alarm threshold determined by the sensitivity selection of Low Medium or High and has remained there for at least a 60 second period This condition may be due to a dirty detector The detector should be inspected and cleaned as necessary by an authorized service representative Failure to do so may eventually result in false alarms POINT TROUBLE A monitor module dedicated to monitoring trouble conditions has been activated SECURITY ALARM A security device programmed as Type ID SARM has been activated indicating a burglary or security violation This condition should be checked immediately SECURITY ALERT A security device programmed as Type ID SACM has been activated indicating that a monitored event has occurred SECURITY TAMPER A security device programmed as Type ID SSYM or Type ID SEQM has been activated indicating that monitored equipment has been tampered with This condition should be checked immediately for a SSYM device because it may be due to a burglary or security violation SECU
41. tector can no longer be compensated and should be replaced EXPANDER MODULES The number of annunciator expander modules for this annunciator is less than the number indicated by its DIP switch settings EXT EQP ANN XX OR AUDIO TELEPHON External equipment connected to the trouble contacts of an annunciator AMG or FFT 7 has failed INSTALL ERROR Installation error with an Annunciator Control System module An annunciator has been physically installed in an IFC 1010 2020 system but has not been programmed or has been programmed but not installed NVALID REPLY The IFC 1010 2020 has received either no response or an invalid response from an addressable LIB SLC loop device Confirm that the LIB SLC loop is connected properly to the device and that the device address has been set correctly LAN COMMUNICATION FAILURE Fire Network Systems Only The specific network node panel can no longer communicate with the rest of the network indicating a problem with the network connections LOW CHAMBER VAL The chamber value of the detector is too low for operation This indicates a malfunction in the detector The detector must be removed and replaced by an authorized service representative MAINTENANCE REQ The chamber value of the detector has exceeded 80 96 of the alarm threshold determined by the sensitivity selection of Low Medium or High and has remained there for at leas
42. ted control modules that have been programmed to permit signal silencing System Reset This key is used to clear all system alarm and trouble conditions If an alarm or trouble condition still exists after System Reset that alarm trouble condition will resound the DIA sounder and display the condition on the LCD and LEDs Note The function of the key is inhibited until all alarms and troubles have been acknowledged System Test This key is used to automatically perform a test of all intelligent detectors in the system Results of the system detector test are then indicated on the panel display Lamp Test This key is used to perform a test of LEDs on the control panel and to test the panel display The test will illuminate the panel LEDs in sequence for a timed period and flash the panel display When the test has been completed the panel LEDs and the panel display will return to their prior status Note These keys and their functions are repeated on the alphanumeric keypad of the DIA Table 4 Display Interface Components Auto Step During Read Status this function key automatically scrolls the display through a list of system conditions such as devices that are in alarm or trouble During Read Status these keys allow the user to step forward or backward through a list of system conditions such as devices that are in alarm or trouble Read Status Allows the status of the entire system to be read including the status of the loop interfa
43. ter D into the display Press and a second letter D will appear to the right of the characters L8D The partial address displayed now reads L8DD Press again to change the second D to the digit 3 The completed address now reads L8D3 Press to transfer the display contents to the IFC 1010 2020 system for processing 8 Operations IFC 1010 2020 Operations About the Walk Test About the Display Time All Systems Normal Single Unacknowledged Event Multiple Unacknowledged Events Single Multiple Previously Acknowledged Events About the Print Time The Walk Test function is a service feature that allows 1 person testing of devices on any selected SLC The Walk Test feature will abort automatically after 15 minutes of inactivity or if inadvertently left enabled by the service representative NS The IFC 1010 2020 has a separate time field in the display for each event that occurs in the system During periods of no activity the time field reflects the current time For IFC 1010 2020 systems interfaced with the Metasys on the N2 or the Metasys Fire Network the time is synchronized every midnight by the Metasys master time If a new time is programmed for any IFC 1010 2020 node on the network all of the IFC nodes will synchronize to that time until the entire Metasys Fire Network is again synchronized at midnight When an event has occurred but has not been acknowledged and no other event has occurred t
44. ually initiated test of all intelligent detectors installed in the system When the user presses the System Test key the fire panel performs a chamber test of each intelligent detector to ensure its proper operation System Test can take up to one minute before displaying its results There are two types of display DETECTOR TEST ALL OK 01 05 00 02 00 80 25 00 06 00 TOT 119 05 00P 05 55 97 systesti Each LIB displays the total number of intelligent devices installed on it as well as the overall system total DETECTOR TEST FAIL 110 119 211 213 605 617 799 815 015 020 05 30 05 22 97 systest2 Each failed device is represented by a three digit number The first digit indicates the LIB number 0 10 and the last two the device address If more than ten devices have failed a is shown after the last detector number If more than ten detectors failed the serviceman would have to repair replace or disable the ten listed and then rerun System Test in order to locate the remaining ones Operations IFC 1010 2020 Operations 11 About Periodic The fire panel performs a periodic automatic chamber test of all intelligent Test detectors installed in the system to ensure their proper operation When a detector has failed its automatic chamber test it will generate a trouble message The service person would then have to repair or replace the indicated device 12 Operations IFC 1010 2020 Operations
45. ut each change of status signal received After all change of status conditions have been acknowledged and while at least one trouble condition still exists the Trouble Security Alarm LED will illuminate steadily Note Security alarms are treated as fire trouble conditions in this combination fire alarm security system Display Trouble yellow LED will illuminate when a trouble condition is detected in the DIA display assembly If this LED is illuminated the contents of the DIA display must be considered invalid Call your Johnson Controls service representative immediately Signal Silence A yellow LED will illuminate steadily when all the control modules in the system which can be silenced have been silenced A flashing yellow LED indicates a partial signal silence condition some of the control modules that can be silenced have been silenced 14 Operations IFC 1010 2020 Operations Table 3 Display Interface Components This key is used to acknowledge system alarm or trouble conditions When depressed the operator acknowledges the new status of the device indicated on the LCD text display Pressing this key will also step the display to the next device in alarm or trouble After all such system alarm and trouble conditions have been acknowledged the Ack Step key may be used to step display through the existing system alarm and trouble conditions Signal Silence This key during a fire alarm condition will deactivate all activa
46. y new trouble or alarm reports received during programming may disrupt the programming process 6 Operations IFC 1010 2020 Operations About the Depending on the particular release of software in your system some Software menu functions and system features may not be operable If you attempt to execute a function that is not operable the panel will respond with the message FUNCTION NOT ENABLED About Addresses For certain functions such as Read Status the operator must enter a device software zone or annunciator point address Leading zeroes are not required The address assumes the following format LXX D M Y Y ZXXX or AXXPYY SLC Loop Annunciator Point Enter L followed by 1 to 10 for IFC 2020 Software Zone Enter A followed by 1 to 32 Enter L followed by 1 to 2 for IFC 1010 Enter Z followed by 1 to 240 for the annunciator module address then P followed by SLC Loop Device the module point 1 to 64 Enter D for an intelligent detector or M for an addressable module followed by an address the range 1 to 99 TS Figure 1 Addresses For example L3M44 must be entered as the address for the 44th module on LIB SLC Loop 3 About the The Backspace key serves two purposes Backspace Key BACK SPACE 1 Ata menu prompt PRESS 1 SYS 2 PTREAD 3 ALM 4 TBL 5 DIS 6 MONON 7 CLTON scintr1 The Backspace key aborts the selection of that menu 2 When ent
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