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Signal-20M User`s Manual

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1. D A heat detector D A normally open intrusion detector Ra 0 510 Ohm see NOTE above D2 A normally closed intrusion detector Rsh 8 2 kOhm Rt 4 7 kOhm Rt 4 7 kOhm Type 5 Type 3 Intrusion with Tamper Monitoring Heat Two Threshold Alarm Loop D D st L1 Ce Rsh Rsh i Ri LP K Tamper contact D A heat detector Ko Detector Contact Rsh 4 7 kOhm Rt 4 7 kOhm 41 Appendix E Continuation Wiring Smoke Detectors into an Alarm Loop of the Type 1 Lp 1 5k 2 l i E 3 4 D4 a smoke detector Wiring Heat Detectors into an Alarm Loop of the Type 3 D D TA CI Cie 4 7k 4 7k 4 7K LP lt D A heat detector Wiring Smoke and Heat Detectors into an Alarm Loop of the Tvpe 2 Wiring Foton SK Intrusion Detectors into an Alarm Loop of the Tvpe 5 LP 13k LP 8 2k Connecting IPR 513 3 42
2. or Alarm Output 2 16 executive programs the relay contacts being opened The internal sounder of the Signal 20M also is not activated upon a Panic Alarm An alarm integration time for this type of alarm loops can be 70 ms or 300 ms depending on the programmed value of the 300 ms Integration Time parameter Table 4 2 shows how the alarm loop resistances match with the states of an alarm loop of the Type 11 Panic buttons are wired into an alarm loop of the Type 7 similarly to connection of intrusion detectors into alarm loops of the type 4 see Appendix E 12 Programmable Auxiliarv Alarm Loop Tvpe 12 This type of alarm loops can be used to monitor conditions of various equipment and detectors including those which are not related directly with fire and intrusion alarms Any detectors or devices with dry contact or open collector outputs can be included into an alarm loop of the Type 12 A Programmable Auxiliary alarm loop can be in one of five different states which match each to its own resistance range These states and resistance values matched with them are user programmable Accordingly if a device can be in one of some different conditions and has several output contacts this device can be monitored by means of a single alarm loop In such a case the output contact of the device must be included into the alarm loop along with different additional or shunt resistors By such a manner the loop can be monitored for short and open fa
3. you should set the links between the relay and the alarm loops by means of the parameters Relay 1 5 Control for the relevant alarm loops set Relay 1 5 Activation Delay and set Executive Program and Relay Activation Time for each of the relays Executive program defines how the relay will be controlled for various states of the alarm loops assigned with the relay The executive programs are described in Table 4 4 Relay Activation Time gives the time of activation switching off the relay for the executive programs which have time parameters Switch On Off for a Time For all the executive programs except for No No 9 10 13 14 15 16 see Table 4 4 switching on off the relay when an alarm loop status changes will be delayed for the time specified in the parameter Relay Activation Delay for each the alarm loop Thus for various alarm loops of the panel assigned with the same relay output you can program various values of activation delay For executive programs No 1 to No 8 general purpose programs 11 ASPT 12 Siren 33 ASPT 1 34 ASPT A 35 ASPT AT activation of an Auxiliary alarm loop Type 6 assigned with the relay disables switching on the relay If after recovering the Auxiliary alarm loop the conditions of switching on the output from other alarm loops persist then for programs with unlimited activation time the programs 1 2 5 6 as well as for programs 11 ASPT and 33 ASPT 1 the relay output will
4. 1 shows the conditional distribution of available states and positions of threshold values between states 31 Rloop 0 bis Status 3 Status 4 Status 5 50K Status 1 Status 2 4 to 5 Threshold gt 3 to 4 Threshold gt 2 to 3 Threshold gt 1 to 2 Threshold Figure 1 States and State to State Transition Thresholds for a Programmable Auxiliary Alarm Loop Threshold values of resistance which define the transition bounds and codes of the states themselves are user programmable So equipment which can be in one of several states and thus several contact groups at the output can be monitored by a single alarm loop the contact groups being brought into the alarm loop with various additional or shunt resistors Also the alarm loop can be monitored for open and short failures Sound signaling light indication and relay control of the panel are defined by states the alarm loop reaches Change of states of a programmable auxiliary alarm loop is defined only by change in the resistance of the alarm loop and doesn t anyway depends on other parameters of the alarm loop as well as on commands of the network controller The integration time in case of changing a state is 300 milliseconds If an alarm loop enters such state as Armed Disarmed Auxiliary Zone Restored or any other Restored then the integration time the time of restore is equal to programmed Arming Delay for the alarm loop Table 5 6 shows status codes
5. 5 Control assign the alarm loop with the relays of the panel If a status of the alarm loop must have an effect on a panel relay then the relevant parameter must be set on Otherwise the parameter should be set off If a panel relay is expected to be controlled by the network controller centralized relay control then the parameters Relay 1 5 Control must be set on for all the alarm loops for the given relay If changing the alarm loop status must result in switching a relay on or off in accordance with the executive program for the relay then the relay will be switched on off not immediately but in time equal to Relay 1 5 Activation Delay for this alarm loop For the specific executive programs such as 9 Lamp 10 Alarm Output 1 13 Fire Output 14 Trouble Output 15 Fire Lamp and 16 Alarm Output 2 see Table 4 4 the parameter Relay 1 5 Activation Delay is ignored and the relay is switched immediately after changing the status of the alarm loop The parameter Fire Loop Requery Prohibition disables repeated queries of status of alarm loops of the Type 1 or 2 in case of a response of a single detector If Fire Loop Requery Prohibition is set on then activation of a single detector will switch the alarm loop to the Fire Pre alarm status immediately The 300 ms Integration Time parameter enables setting the integration time for intrusion alarm loop of the Types 4 5 7 11 The integration time of 300 milliseconds correspo
6. 875 s off Trouble Alternately turns on in yellow and turns off 1 s on and 1 s off For an alarm loop of the Type 12 Fire equipment fault AC power failed Battery failed Flashes in yellow once per second 0 125 s on and 0 875 s off Others Off 5 Utilization 5 1 Preparation for Using 5 1 1 Safety precautions when preparing the panel for usage There are no potential hazard circuits within the Signal 20M DO SHUT OFF the panel power before mounting wiring or maintaining the panel Mounting and maintaining of the device must be implemented by qualified specialists 5 1 2 Mounting the panel The panel can be attached on walls or other constructions of the premises at places protected against atmospheric fallouts and mechanical damage Attach the panel on the wall at a convenient place If the panel is attached in an unwatched premises fix it at a height of at least 2 2 m above the floor Mount and wire the panel in accordance with the connection diagram in Appendix C Isolating diodes for outputs K4 and K5 must be wired as close to the light or sound alarm contacts as possible If the output K4 or and KS is are not in use close it them by a 1 K 0 5 W resistor 5 1 3 Connecting RS 485 Interface Bus To connect the panel to the network controller via the highway interface RS 485 do the following Connect A and B terminals of the panel PCB to lines A and B of the
7. Appendix D Wiring the Signal 20M for Operabilitv Inspection Signal 20M resistance bank R NO1 J NO2 rJ J COM2 b relav 2 NC2 NO3 rJ J COMS relay 3 NC3 S2000M K4 relav 4 KS relay 5 1 RS485 A 2 RS485 B PI U1 2 2 OV power supply 12V 2A 2 v HL1 HL5 is for an indicator PAT is for an amperemeter R1 R5 are for resistors 0 25 W 2 K 41096 VD1 VD2 are for diodes 1N4148 Appendix E Connecting Detectors into Alarm Loops Tvpe 1 Fire Smoke Two Threshold Alarm Loop Ra An additional resistance of 1 2 K to 2 4 K loop B Ra ji Ra D4 D Rt loop L Rt The termination resistor of 4 7 K D Asmoke detector NOTE When all the detectors are wired and connected to the relative Signal 20M contacts test the alarm loop Ensure that confirmed actuation of a single detector causes the loop to get the Fire Pre alarm status while actuation of two ones causes the loop to get the Fire Alarm status Light and sound indication of the Signal 20M must be in accordance with those described in Table 5 4 and Table 5 5 The network controller shall display the relative messages from the Signal 20M Otherwise if the test fails the values of additional resistances have to be corrected Type 2 Type 4 Combined Fire Alarm Loop Intrusion Alarm Loop D2 i Rsh R LP Ne lt D4 A smoke detector i
8. RS 485 interface respectively Connect OV circuit of the panel to the similar circuits of the previous device and the next device in the RS 485 interface bus this is not necessary if the devices are connected to the same power supply Unless the panel is not the end device in the interface bus the first device or the last device remove the jumper on the panel s PCB The jumper is located near the A and B contacts and includes a 620 Q EOL resistor in the interface bus On wiring the RS 485 interface it is recommended to implement the bus network configuration to connect devices in a chain If you need to have a sizable branch more than 50 m from the common RS 485 bus for example to reduce the length of the cable in is recommended to add an interface repeater S2000 PI at the place of the branch You can use no more than 10 interface repeater no more than 10 branches for a single RS 485 segment The number of sequentially wired S2000 PI repeaters the number of segments is not limited 5 1 4 Changing the Initial Configuration of the Panel If the panel is to be operated along with other devices in an Orion system it must be assigned to a unique distinguished from every other network address ranged 1 to 127 For doing so connect the panel to the network controller other devices must be disconnected from the interface and change the network address by means for example UProg exe Adjusting the panel for a specific appli
9. Reading the ADC values is provided either by S2000 S2000M console tools or by UProg Configuration Tool while programming the loop 5 5 Arming and Disarming Alarm Loops The panel provides arming and disarming alarm loops by the following ways Individual arming disarming by pressing the relevant key of the loop Arming disarming a group of alarm loops associated with the same User password Group or individual arming disarming remotely by commands of the network controller 5 5 1 An alarm loop can be armed disarmed separately only if the alarm loop is associated with no User passwords In this case the alarm loop can be armed disarmed just by pressing the key with the number of the selected alarm loop If the alarm loop is disarmed then on pressing the loop key the panel tries to arm the alarm loop Otherwise in any other case the panel disarms the loop If Never Disarmed is set on for an alarm loop then the loop can only be armed again if it is in any other state except for Armed If you hear a long sound while pressing a loop key this means that you cannot arm disarm the alarm loop directly probably because the alarm loop is associated with one of the User passwords 5 5 2 If at least one User password has been registered in the non volatile memory of the panel than the user can arm disarm all the group of alarm loops associated with the password For doing so make the following 1 Press or READY LED should be
10. Specifications 2 The number of alarm loops initiating device circuits is 20 2 2 The branching index the number of commuted circuits is five 2 3 The number of inputs for monitored circuits is 25 Circuits of alarm loops 1 to 20 Monitored circuits of outputs Relay 4 and Relay 5 Power supply inputs of the panel RS 485 interface A B 2 4 The number of executive relay outputs is five including Three relay switch outputs of dry contact type with the maximum voltage up to 28 V and the current up to 2 A or up to 80 V and current 0 1 mA to 50 mA outputs Relay 1 Relay 2 Relay 3 Two outputs with monitoring alarm connection circuits with maximum voltage up to 28 V and with the current up to 0 8 A outputs Relay 4 Relay 5 2 5 Information capacity of the panel the number of types of the events exceeds 25 2 6 The panel transmits alarms to the network controller over the highway interface RS 485 Communication parameters Baud rate 9600 bps Type of communication halfOduplex If a PC operates as the network controller then data are communicated via a Bolid manufactured interface converter such as USB RS485 S2000 PI or S2000 USB 4 2 6 1 If at the moment of generating a message the panel couldn t communicate with the network controller the event is stored into the non volatile memory of the panel and when the communication over the RS 485 interface is restored the event is transmitted to th
11. be switched on again while for the programs 3 4 7 8 12 34 and 35 the relay output will not be switches on Thus a violation of an Auxiliary alarm loop stops executing of general purpose programs with unlimited activation time and the programs ASPT and ASPT 1 and disables the general purpose executive programs with limited activation time as well as the programs Siren ASPT A and ASPT AT If in the panel configuration a link of the relay with the alarm loops is programmed then remote control commands from the network controller over the RS 485 interface will be ignored Local control of a relay is of more priority than centralized control 16 In order a panel relav can be controlled remotelv bv commands of the network controller Inthe panel configuration disable the links between the relay and alarm loops set the parameter Relay 1 5 Control for all the alarm loops Assign the relay with any executive program implying a proper initial condition On or Off In the database of the network controller assign the relay with relevant partitions and define the executive program the activation delay and the relay activation time Executive Program in case of not assigning the relay with the alarm loops defines only the initial condition of the relay the condition which the relay has after powering up the panel For most cases for that relay of the panel which is to be controlled centrally you need to def
12. enters the Pre Operation mode A 23 Pre Operation Mode Table 4 8 READV LED Behavior in Different Operation Modes Operation Mode Indicator Behavior Quiescent Mode is ai green Entering User s Password Lit in red and green alternately 0 5 s in red then 0 5 s in green and so on Power Failure Turns on interruptedly in yellow 0 125 s on and 0 875 s off and so on Operator Mode Administrator Mode Flashes twice in red and green alternately every second Diagnostic Mode Flashes in red twice per second 0 25 s on and 0 25 s off Device Failure Fire Pre Alarm FAULT LED switches on and off alternately 1s 0n 1 s off Table 4 9 FIRE LED Behavior in Different Operation Modes Flashes with red 0 25 s on 0 75 s off Fire Alarm Flashes with red 0 25 s on 0 25 s off Others Intrusion Alarm Off Table 4 10 ALARM LED Behavior in Different Operation Modes Operation Mode Indicator Behavior Flashes with red 0 5 s on 0 5 s off Others Open or short failure of the alarm loop Off Table 4 11 FAULT LED Behavior in Different Operation Modes Operation Mode Indicator Behavior Flashes in yellow once per second 0 125 s on and 0 875 s off Open or short failure of the output circuit Flashes in yellow once per second 0 125 s on and 0 875 s off Power supply failure Flashes in yellow once per second 0 125 s on and 0
13. is considered to be in one of the following states Auxiliary Zone Restored Auxiliary Zone Alarm If the resistance of an alarm loop of the Type 6 has been out of the normal range for more than 300 ms then the alarm loop is considered to be in the Auxiliary Zone Alarm status When the loop is restored that is its resistance has been within the normal range for more than Arming Delay seconds the loop is considered to be in the Auxiliary Restored status An auxiliary alarm loop is always monitored it cannot be blocked or disarmed If the arming command addressed to this loop is received the device responds with the message about its current status When a status of an Auxiliary alarm loop has changed the Signal 20M transmits the network controller a relevant message The events related to an Auxiliary alarm loop are not stored in the Signal 20M non volatile memory Thus if a status of an Auxiliary alarm loop has changed several times during communication loss after communication s having restored the network controller receives either a single last message or no message if the current status of the loop is just like as the last transmitted status If an Auxiliary alarm loop is related to a Signal 20M relay output then activation of this loop locks starting the relay in accordance with executive programs 1 8 general purpose 11 ASPT 2 Siren 33 ASPT 1 34 ASPT A 35 ASPT A1 see Table 4 4 This functionality is
14. of switching Table 4 4 Executive Programs for Relay Outputs pae mel Description Initial Condition Remote Control The relay is controlled only remotely Switch On The relay is switched on if there is an Intrusion Alarm or Fire Alarm Switch Off The relay is switched off if there is an Intrusion Alarm or Fire Alarm 3 Switch On for a Time The relay i is switched on for a specified time if there is Off an Intrusion Alarm or Fire Alarm 4 Switch Off for a Time The relav is switched off for a specified time if there is On an Intrusion Alarm or Fire Alarm Blink From Off Condition The relay is switched on off once per second if there is an Intrusion Alarm or Fire Alarm Blink From On Condition The relay is switched on off once per second if there is an Intrusion Alarm or Fire Alarm Blink for a Time From Off Condition Blink for a Time From On Condition Alarm Output 1 iB il l 18 The relav is switched on off once per second fora specified time if there is an Intrusion Alarm or Fire Alarm The relav is switched on off once per second fora specified time if there is an Intrusion Alarm or Fire Alarm In case of a Fire Alarm the relav is switched on off alternatelv twice per second In case of a Fire Prealarm the relav is switched on fora short time everv second In case of an Intrusion Alarm or Entrance Alarm or Arming Failed the relav is switches on off alternatelv once per second In case of a Trouble the relav is s
15. on for a given time Switch Off Fora Time If arming of any related alarm loop has just failed the When Arming Failed relay is switched off for a given time O n Switch On for a Time Uponjif there is an Auxiliarv Alarm the relav is switched on for Off Auxiliary Loop Breaking a given time Upon Disarming switched on Upon Disarming switched off Off On Switch On If at least one related loop is armed the relay is Off Upon Arming switched on On Switch Off for a Time Uponjif there is an Auxiliary Alarm the relay is switched off for Auxiliary Loop Breaking a given time Switch Off If at least one related loop is armed the relay is Upon Arming switched off 13 14 15 16 17 18 19 20 21 22 Switch Off Fora Time If any related alarm loop has just been disarmed the Upon Disarming relay is switched off for a given time 23 24 25 26 27 28 29 30 31 Switch On Upon Auxiliary Loop In case of an Auxiliary Alarm the relay is switched on Breaking 19 No Program Description Initial Condition Switch Off Upon Auxiliary Loop In case of an Auxiliary Alarm the relay is switched off Breaking The relay is switched on for a specified time if the alarm loop has got Fire Alarm status and there are no broken Auxiliary alarm loops If an Auxiliary alarm loop is broken before Relay Activation Delay has not yet expired then when the loop is recovered the relay output will be switched on for a specified time That is brea
16. switched on off once per second in mode On for 25s and Off for 75s Fire Lamp In case of a Trouble the relay is switched on off once per 2 seconds in mode On for 25s and Off for 1 75s If all the alarm loops related with the relay are armed the relay is switched on Otherwise the relay is switched off Trouble Output Failed or Disarmed status the relay is switched off If all the alarm loops related to the relay are armed or disarmed that is there is neither Intruder Alarm nor Alarm Output 2 Silent Alarm nor Entrance Alarm nor Fire Alarm nor Trouble nor Arming Failed condition the relay is switched on otherwise the relay is switches off If the related alarm loop is being armed the Armin Switch On For a Time P 9 t g Delav has not vet expired the relav is switched on for a Before Arming l l given time l If the related alarm loop is being armed the Armin Switch Off For a Time P 9 t g Delav has not vet expired the relav is switched off for a Before Arming given time If any related alarm loop has just been armed the relay Upon Arming is switched on for a given time If any related alarm loop has just been armed the relay Upon Arming is switched off for a given time FAK If anv related alarm loop has just been disarmed the Upon Disarming relav is switched on for a given time Initial Condition Switch On For a Time If arming of any related alarm loop has just failed the When Arming Failed relay is switched
17. the Monitoring alarm loop and a set of states of the alarm loop 6 Auxiliary 7 Entrance 11 Panic 12 Auxiliary Programmable 0 to 254 s The delay for switching from the Entrance 255 means OFF Alarm status to the Intrusion Alarm status or do not switch to a Fire from the Fire Pre Alarm status to the Fire Alarm Alarm status on receiving a status response from a single detector Alarm Delay The pause between a command to arm the alarm Arming Delay loop and switching the alarm loop to the Armed 0 to 255 s state The time required to complete transient processes in alarm loops in case of restoring power after a power reset Within this time the status of each alarm loop is not analyzed Loop Analysis Delay 1s to 32s Relay 1 Activation Delay Relay 2 Activation Delay Relay 3 Activation A delay in seconds between changing an alarm Delay loop status and activation of the relay Relay 4 Activation Delay Relay 5 Activation Delay Never Disarmed The alarm loop cannot be disarmed in any way On Off 0 to 255 s Parameter Description Automatic switch from the Arming Failed mode to the Armed mode in case of recovering the On Off alarm loop Automatic switch from the Intrusion Alarm mode Panic Alarm mode or Fire Alarm mode On Off in case of recovering the alarm loop Provides transmitting messages about changing of a disarmed alarm loop status normal o
18. 11 After the first press the indicator 11 begins flashing while after the second press the network address will be assigned to 127 5 6 3 To switch to the Diagnostic mode press the button 12 Entering and exiting the Diagnostic mode the panel plays a specific melody Refer to Clause 5 8 4 to read more about the Diagnostic mode 5 6 4 To change the Operator password press the button 13 After the first press the panel waits for entering a new six digit PIN code the indicator 13 being flashing After pressing the last sixth digit the new password is written to the non volatile memory of the device 5 6 5 To reset all the panel settings to their default values double press the button 14 After the first press the button 14 starts flashing while after the second press of this button all the settings are unset to the values specified in Tables 5 1 5 2 5 3 The values of the PIN codes of Operator and Administrator are 123456 and 000000 respectively Success in resetting to the default values is to be confirmed by panel s playing a specific melody Then the panel restarts operating entering the Pre operation mode 5 6 6 If you have forgotten the Operator password you can reset the panel to the default values by pressing the panel tamper switch by the following way a short press a long press a short press a short press To avoid unauthorized resetting the panel you can prohibit manual reset by pressing the code combination sett
19. 4 and relay 5 K5 3 Short Failure 4 Open and Short Failure Executive Program defines the method the relay output will be controlled depending on the current status of the alarm loops related with the relay output for local control or the initial condition of the relay after powering the Signal 20M until receiving a first control command from the network controller for centralized control Table 4 4 describes all available executive programs for the Signal 20M Relay Activation Time gives the time interval the relay will be activated for switched on or off if the assigned executive program implies the limited activation time The maximum time interval the relay can be activated foris that is 65535 intervals of 0 125 s each Monitor For parameters for outputs relay 4 K4 and relay 5 K5 define the kind of troubles of external device circuits connected to these outputs which will be monitored for The failures such as open circuit failures short circuit failures or both open and short failures will be monitored without regard to relay output s being switched on or off Table 4 5 shows how the Signal 20M considers the values of load circuit resistances to be matched to the various circuit conditions 17 Relav ON OFF Events can be set on individuallv for each relav output If the parameter is set on then anv change of output state is transmitted to a network controller as an event with specifving the mode
20. Exit Delay defines the time in seconds in which the panel tries to arm the alarm loop after receiving the relevant command Non zero Arming Delay is usually used for an entrance alarm loop when after issuing an arming command the alarm loop can be violated by user protection of the entrance door Moreover if before arming the alarm loop a panel relay should be activated the executive program Switch On for a Time before Arming then the alarm loop must have a non zero Arming Delay Otherwise the relay will not switch because the time of activation of the relay for this program cannot exceed Arming Delay Alarm Delay for an Entrance alarm loop Type 7 is a delay of switching from The Entrance Alarm status to the Intrusion Alarm status the entry delay It should be selected so that a user can have enough time to disarm the alarm loop after entering the premises For a fire alarm loop of the Type 1 2 or 3 the Alarm Delay means the time of switching from the Fire Pre alarm status to the Fire Alarm status Alarm loops of the Types 1 and 3 with recognition of double activation can switch to the Fire Alarm status in case of activation of a second fire alarm in an alarm loop If Alarm Delay is equal to 255 s the panel doesn t enter the Fire Alarm mode by time unlimited delay In such case alarm loops of the Type 1 and 3 can enter the Fire Alarm status only after activation of a second detector in the alarm loop while an alarm loop of the Type 2 wi
21. Fire Prealarm status The loop can switch from the Fire Prealarm status to the Fire Alarm status after expiring of the set Alarm Delay If the value of the Alarm Delay equals to zero then the loop will switch from the Fire Prealarm status to the Fire Alarm status immediately The Alarm Delay value of 255 s maximum possible value means unlimited time delay so the loop never switches from the Fire Prealarm status to the Fire Alarm status The integration time for an alarm loop of the Type 2 is defined in accordance with the requirements mentioned in Clause 4 1 3 Table 4 2 shows the match between current resistance values and corresponding statuses of alarm loops of the Type 2 The wiring diagram for including fire smoke normally open and fire heat normally closed detectors into alarm loops of the Type 2 is presented in Appendix E Heat Two Threshold Alarm Loop Type 3 A loop of the Type 3 Heat Two Threshold is intended to involve fire heat normally closed detectors This loop is considered to be in one of the following states Armed The alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored Arming Delay The programmed Arming Delay has not been expired Fire Prealarm A single detector has actuated within the alarm loop Fire Alarm At least two detectors brought in the alarm loop have actuated or the Alarm Delay has expired after actuation of a single detector Short Circuit Failure Th
22. INTRUSION AND FIRE ALARM PANEL SIGNAL 20M User s Manual TABLE OF CONTENTS ki General ia a i aa 3 2 Specifications iss Fidiel p a ga pea 4 SENEC 6 4 Description and PertOPmance soie e eoi D E talea R IRR ue aene see ue SUUS T pines s 6 ALN Alarm LOOPS eU EC 6 42 RELAYS C 16 4 3 Device Parameters eR ERI EVA Te oat bot RUNE EN ERE EYE EE ERE eR Pe Ye nee Ph Ti 20 44 Operation Modes toe REDUCE na eie 22 So UtlhizatON PE HE 25 5 Preparation for Using oeste et etin as eI cet aree ae e elei R E SS CSV eK SENER aE oN 25 5 2 Fire Alarms eee etie ra Wiese iubes me pde ter ipee e rd RR we 27 3 3 ntr sion Alarms ee RO e e D WA EA SI e a HERE e e p eas 28 23 4 Auxa y Alaris i sod A tie a eee deitate e etu e e d Ree 31 5 5 Arming and Disarming Alarm Loops eese eene nennen nene ne enee enne tenete tenete ne nn tren tren nr enne rennes 33 5 6 Operator Mod ii si i IN Oen GIRO REA IE A ORIS 33 SI Administrator Mode s etr fe G EE A ERN SERRE Ue DRE RE ERE RSEN EUR 34 2 8 Maintenance nier eee eee obit ge vegeta t oec bs ulis de consis Mabe beens A sees ix bene a etun 35 6 Manulactijer s DADA nia ot ut nati iut do adiecto a desti ates Med a Due umet tess 36 APPENDIX A cM 37 APPENDIX Bieb PC 38 APPENDIX C i i tes Satya cael ud att a E qa
23. N has been entered the following functions becoming available Resetting the network address of the panel Switching the Diagnostic mode on Changing the Operator password Unsetting the panel configuration to their default values 5 6 1 For switching to the Operator mode make the following 1 Double press seu lor DIS READY LED shall double flash with green and red alternately 33 2 Enter the Operator password The password consists of six digits the factory value is 123456 A long sound after entering the last digit of the password means that the password has been entered wrongly If the password is entered correctly the panel acknowledges this by a melody 3 As soon as the last password digit has been typed the loop indicators 11 12 13 14 start lighting with red To select the necessary function use the following loop buttons highlighted with red to reset the network address of the panel to start the Diagnostic mode to change the Operator password x to reset all parameters to their factory values To exit the Operator mode press or wait for 15 s since last pressing any key Quitting from the Operator mode is acknowledged by a melodic signal After resetting the network address of the panel or after finishing the Diagnostic mode or after changing the password the panel returns to selecting of Operator functions 5 6 2 To reset the network address double press the button
24. Short Circuit Failure Tamper Alarm 5 3 2 1 States Armed Arming Delay Arming Failed Intrusion Alarm are similar to relevant states of alarm loops of the Type 4 see Clauses 5 3 1 1 5 3 1 2 5 3 2 2 The alarm loop switches from the state Disarmed to the state Tamper Alarm if tamper alarm contacts have been open for more than 300 milliseconds When the detector tamper alarm has been closed the alarm loop recovers Disarmed state the recovery time being 15 s the contacts of the tamper switch of the detector must be closed 5 3 2 3 The alarm loop switches from the Disarmed state to the Short Circuit Failure state in case of the relevant failure of the alarm loop for more than 300 milliseconds When the short circuit failure has been repaired the alarm loop recovers the Disarmed state the recovery time being 3 s the resistance of the alarm loop must be in norm 5 3 3 The panel operates in the mode of entrance alarm control if at least one alarm loop is configured with the Type 7 In this mode the panel recognizes the following alarm loop states Armed Disarmed Arming Delay Arming Failed Entrance Alarm Intrusion Alarm 5 3 3 1 The states Armed Arming Delay Arming Failed are similar to the relevant states of alarm loops of the Type 4 see Clauses 5 3 1 1 5 3 3 2 The alarm loop switches from the Armed mode to the Entrance Alarm mode in the following cases The violation time of the alarm loo
25. and states which can be programmed for an alarm loop of the Type 12 Table 5 6 Programmable States of Auxiliary Programmable Alarm Loops Status Status Status Code Code AC Power Restored Too Low Level AC Power Failed Normal Temperature Intrusion Alarm Heat Sensor Failed Arming Failed Disarmed Armed Entrance Alarm Auxiliary Zone Restored Pump On Auxiliary Zone Alarm Pump Off Fire Alarm Tamper Alarm Auxiliary Zone Alarm 2 Tamper Restored Fire Equipment Restored Power Failed Fire Equipment Trouble Power Restored Fire Prealarm Battery Restored Loop Open Failure Battery Failed Panic Alarm Service Required Low Level Low Temperature Normal Level Loop Short Failure High Level Fire Signal Too High Level Gas Press Signal High Temperature Patrol Check Status While programming resistance thresholds for states of an alarm loop of the Type 12 you must know strictly the resistance range for each of the loop states As it is quite a difficult task really the actual alarm loop resistances can be approximately calculated based on resistance values expressed in ACD units and measured by the Signal 20M using the formula 270 sose T KI top ADC PS 92 Where Rioo is the actual resistance value of an alarm loop and ADC is the ADC value of the resistance measured by the Signal 20M This formula enables adequate calculating resistance values of the loop ranged from 0 1 K to 50 K
26. as actuated within the alarm loop Fire Alarm At least two detectors in the alarm loop have actuated or Alarm Delay has expired after a single detector actuation Short Circuit Failure The resistance of the alarm loop is less than 100 Q Open Circuit Failure The resistance of the alarm loop is more than 6 KQ Arming Failed The alarm loop has been open at the moment of being armed As soon as a detector included in the alarm loop have actuated the Signal 20M generates a FIRE SIGNAL message and repeatedly queries the condition of the alarm loop by doing the following The panel unsets loop power for 3 s If within 55 s after power reset the detector actuates repeatedly then the alarm loop is considered to be in the Fire Prealarm status Otherwise if the detector has not actuated repeatedly within 55 s the alarm loop is considered to be in Armed status The alarm loop can switch from the Fire Prealarm status to the Fire Alarm status if a second detector included into this alarm loop has actuated as well as if the given Alarm Delay has expired If Alarm Delay is set with zero value Fire Prealarm status will switch to Fire Alarm status immediately The Alarm Delay value of 255 s the maximum possible value corresponds to unlimited timeout and switching from the Fire Prealarm status 8 to the Fire Alarm status is implemented only after actuating of another detector included into the alarm loop The integration time for an alarm loop of t
27. as failed because the loop is activated Tamper Alarm The case of the disarmed detector has been tampered Tamper Restored The tamper of the disarmed detector has been restored 10 When the alarm loop is armed either any skip of the resistance value by more than 1090 or actuation of the detector opening of its alarm contact or tamper switch actuation causes the loop to be considered as being in the Intrusion Alarm status When the alarm loop is disarmed either tamper switch actuation or loop short circuit failure causes the alarm loop to be considered as being in the Tamper Alarm status An alarm integration time for this type of alarm loops can be 70 ms or 300 ms depending on the programmed value of the 300 ms Integration Time parameter The recovery time of the alarm loop the time to transit from the Tamper Alarm status to the Tamper Restored status is 15 s Table 4 2 shows how the alarm loop resistances match with the states of an alarm loop of the Type 5 The wiring diagram for including intrusion detectors into alarm loops of the Type 5 is presented in Appendix E Auxiliary Alarm Loop Type 6 Auxiliary alarm loops loops of the Type 6 are intended to monitor operability and conditions of firefighting equipment as well as sensors and indicators not related directly with fire or intrusion alarms Devices with dry contact both normally closed and open or open collector outputs can be included into such alarm loop This loop
28. be used Loops of these types can neither be armed nor disarmed they are always monitored by the panel 5 4 1 Auxiliary alarm loops of the Type 6 can be in one of two available states Auxiliary Zone Alarm and Auxiliary Zone Restored The alarm loop switches from an Auxiliary Zone Alarm status to an Auxiliary Zone Restored status if the time of violation exceeds 300 milliseconds Recovery of the alarm loop switching from the Auxiliary Zone Alarm to the Auxiliary Zone Restored status can be carried out automatically if the resistance of the alarm loop has been normal within the time equal to programmed Arming Delay When an Auxiliary alarm loop is broken the following executive programs are blocked 1 8 general purpose programs 11 ASPT 12 Siren 33 ASPT 1 34 ASPT A 35 ASPT A1 Blocking of a relay upon breaking of a loop of the Type 6 implies that The relay is not activated if the loop has already been broken The relay is returned to an initial condition of the given executive program if the relay is being controlled when the loop has been broken The relays controlled by programs 1 8 11 ASPT and 33 ASPT 1 will be activated again after recovering the auxiliary alarm loop while the relays controlled by the programs 34 ASPT A and 35 ASPT A1 will be off 5 4 2 Programmable Auxiliary alarm loops of the Type 12 each have five various states defined by threshold values of alarm loop resistance Figure
29. cation and using the panel features optimally can require changing some configuration parameters The configuration parameters on receipt have values shown in Tables 5 1 5 2 and 5 3 Table 5 1 Panel Factory Values Parameter Network Address 127 Set Response Pause 1 5 milliseconds Number of Digits in PIN Code 4 Prohibit Factory Reset Off Both Power Inputs Monitoring Off Password Confirmed Siren Silence Off 25 Table 5 2 Panel Default Configuration m Configuration Parameters see Notes Z 10 e c1 T co jo ci RAION N Co AZ ol o N Olojoococojolooocococ o oocoloc5i lo o o i N Olojoococojolooococo joocolol o o o 25 o 1 4 4 4 4 4 4 4 4 o 4 5 10 4 E G 4 a 4 4 4 4 4 4 4 4 7 MOU o olol lolololololo lolo lololololololololola o olol lolololololololololololololololololo o olo lolololololo lolo lolololololololololNn o olololololol lololololololololololololo o olololololol lololololololololololololo xL j f 14 l4 4 4 J 4 4 4 4 4 TIN A A 14 f A EA SE SE SE SEAE N o o j 17 4 4 o eo Co o Notes a The number refer to the following pa
30. e Pre Operation mode is defined by the requirements of Clause 1 12 22 4 4 2 As soon as the Pre Operation mode has finished the panel enters the quiescent mode when it performs its basic functions monitoring and analyzing states of alarm loops controlling relays and light and sound alarms and communicates with the network controller The panel sounds with a melody to enable user to easily recognize that the panel has successfully switched to the quiescent mode 4 4 3 The panel switches from the quiescent mode to the Power Failure mode if the power supply voltage at one or both power inputs has dropped below 10 V see Clause 4 3 1 for Both Power Inputs Monitoring In this mode the panel keeps operating but issues warning signals by its READY and FAULT LEDs and transmits a Power Failed message If the power supply voltage has dropped below 9 V the panel shuts off If then the power supply voltage at one or both power inputs has increased above 11 V the panel automatically switches from the Power Failure mode to the quiescent mode generating a Power Restored message 4 4 4 The panel switches from the quiescent mode to the Password Enter mode when one of the buttons a and To get more information about this operation mode please refer to Clause 5 5 2 4 4 5 The panel switches from the quiescent mode to the Operator mode on typing an Operator PIN code on the panel keypad To get more information about this mode please refer to Clause 5 6 4 4 6 Th
31. e network controller along with the time and date of its origin The capacity of the event buffer in the non volatile memory is 511 events 2 7 If the power supply voltage has dropped to 10 V the panel enters the Power Failure mode As soon as the power supply voltage rises up to 11 V and above the panel returns to the quiescent mode 2 8 The typical valuations of current consumed by the panel in main operation modes in case of normal operation are demonstrated in Table 2 1 Table 2 1 Standard Values of the Consumed Current 7 Supply Voltage Panel Condition Swe p e eae m All the alarm loops are armed and all the detectors Norm are contacting no detectors powered via the Intrusion Alarm alarm loops All the alarm loops are armed all the detectors Norm consume current are powered via the alarm loops the current consumed by the detectors in Fire Alarm If the alarm loops of the panel are loaded not in full there are current consuming detectors but their total consumed current is less than the maximum value then the current consumed by the panel can be considered to rise in direct ration with increasing of the current consumed by the detectors Hence the current consumed by the panel can be estimated using the following formulas 1 In case of powering from a 12 V power supply 3 33 i 400 mA 2 Incase of powering from a 24 V power supply 1 67 i 200 mA Where I stands for the total current co
32. e panel switches from the quiescent mode to the Administrator mode on typing an Administrator PIN code on the panel keypad To get more information about this mode please refer to Clause 5 7 4 4 7 The panel switches from the Operator mode top the Diagnostic mode on pressing the 12 button To get more information about this mode please refer to Clause 5 8 4 4 8 The panel enters the Device Failure mode in case of it s detecting a failure while testing the program memory of the microprocessor The program memory is tested each time the panel s power is turned on When the panel has switched to the Device Failure mode READY LED is off FAULT LED switches on for a second and switches off for a second alternately The sounder issues interrupted sounds Other indicators are off If the panel switches to the Device Failure mode just after powering on please update its firmware For doing so 1 Forward the Bolid Company the relevant request specifying the panel version 2 As a response you will receive the program ORION PROG exe and an e file with microprocessor firmware 3 Connect the panel to a PC via one of the interface converters such as S2000 USB or S2000 PI Run ORION_PROG exe and turn the panel power on 5 Follow on screen instruction until firmware has been updated The process of writing the program into the panel is being displayed by FAULT LED while the sounder silences Firmware having been updated the panel
33. e resistance of the loop is less than 2 K Open Circuit Failure The resistance of the loop is more than 25 KQ Arming Failed An attempt to arm the loop has failed because the loop is activated An included detector having actuated the loop switches to the Fire Prealarm status The loop can switch from the Fire Prealarm status to the Fire Alarm status if a second detector in the loop has actuated or the programmed Alarm Delay has expired If the Alarm Delay is equal to zero then the loop switches from the Fire Prealarm status to the Fire Alarm status immediately The Alarm Delay value of 255 s maximum possible value is considered as infinite time delay when switching from the Fire Prealarm status to the Fire Alarm status can be implemented only after actuation of a second detector within this alarm loop The integration time for an alarm loop of the Type 3 is defined in accordance with the requirements mentioned in Clause 4 1 3 Table 4 2 shows how current resistance values of alarm loops of the Type 3 matches with its corresponding states The wiring diagram for including fire heat normally closed detectors into alarm loops of the Type 3 is presented in Appendix E Intrusion Alarm Loop Type 4 A loop of the Type 4 Intrusion is intended to involve any intrusion detectors both normally open and normally closed and powered either over the loop or separately This loop is considered to be in one of the following states Armed T
34. e two drawers 3 for sticking labels with user s remarks for example Alarm loops 1 to 8 the ground floor intrusion alarms Alarm loops 9 to 15 the first floor intrusion alarms Alarm loops 16 to 18 fire alarms the ground floor and the first floor Alarm loops 19 to 20 the entrance doors The structural diagram of the panel is shown in Appendix B The panel consists of the following main elements Push button micro switches Channel commutator Voltage converter to power the alarm loops Processors Light indicators Relays Alarm loop power reset device RS 485 interface converter Non volatile memory Tamper switch Voltage from measuring circuits of the alarm loops arrives to the input of the channel commutator The processor which operates the commutator one by one connects the input of the built in ADC to the alarm loops In this process the resistance of the alarm loops is estimated and the states of the alarm loops are defined The voltage converter generates stabilized voltage to supply power to the alarm loops and the processor The processor controls the overall operation of the panel Cyclically polls the alarm loops and monitors their conditions by measuring their resistance Operates the internal light indicators and relays resets the power of the alarm loops Receives commands and send messages over the RS 485 interface For adapting with the
35. eeps proper operability the panel should be inspected by a competent specialist at least annually The inspection algorithm shall include Visual checking the Signal 20M for contaminations and mechanical damage Inspection of panel s operability in accordance with Clause 5 8 3 of this Manual Verifving the Signal 20M for secure mounting and wire connection conditions 5 8 1 This technique is designed to inspect operability of the panel on receipt and while operating in protected premises The inspection is to be carried out by maintenance engineers 35 If the panel fails to meet the requirements of the inspection techniques you can make a claim to the manufacturer 5 8 2 The panel should be inspected under the following ambient conditions Temperature 25 10 C Relative humidity 45 80 96 Atmospheric pressure 630 800 mm Hg 5 8 3 The diagram for wiring the panel for inspecting its operability is shown in Appendix D The operability inspection of a single panel takes 10 minutes max NOTE Power off the panel before connecting and disconnecting wires Inspect the device operability by doing the following a Power up the panel 6 The built in panel sounder shall sound a special On signal B Measure the current consumed by the panel and ensure it doesn t exceed values specified in Clause 2 8 r Ensure the S2000M console displays the messages about connecting the panel its restart and then about tamper alarm of
36. en or short failure of the alarm loop has appeared 5 2 5 An alarm loop of the Type 1 or Type 2 switches from the Armed status to the Fire Signal status if a response from a single smoke detector has been registered In this case the panel re queries the status of the alarm loop by resetting the activated alarm loop and waiting for its repeated response If a detector within the alarm loop responds repeatedly within a minute the panel switches the alarm loop in the Fire Alarm status otherwise no detector has responded repeatedly the panel returns the alarm loop to the Armed status If Fire Loop Requery Prohibition in the panel configuration is set on for an alarm loop then this loop switches to the Fire Pre Alarm status immediately 27 5 2 6 Fire alarm loops switch to the Fire Pre Alarm status after a response of a heat detector or a repeated response of a smoke detector The duration of each alarm loop s being in the Fire Pre Alarm status is limited by the programmed Alarm Delay time This delay enables analyzing the circumstances and in necessary cancelling an alarm before generation a signal to start a fire fighting equipment After termination of the Fire Pre Alarm status the alarm loop switches to the Fire Alarm status Alarm loops of the Type 1 or 3 can be switched from the Fire Pre Alarm status before elapsing of the delay if the panel registers and activation of another detector there are two or more responded detectors If the progra
37. et E N E RRRS 39 APPENDIX Dip a Ms eS 40 APPENDIX E c 41 WARNING To edit configuration parameters of the device please use UPROG EXE Configuration Tool of version 4 1 0 26 or higher 1 General 1 1 Signal 20M Fire Alarm and Intrusion Panel herein after referred to as the panel is designed to Monitor for 20 zones of an intrusion alarm system fire alarm system or panic alarm system Receive messages from fire and intrusion detectors call points and panic alarms passive active powered via the alarm loops or four wire detectors with normally closed or normally open internal contacts Control light and sound alarms Receive commands and to send messages over the RS 485 interface to the network controller either an S2000M console or a PC with Orion Pro Software installed Send fire alarms and troubles to a fire brigade Send alarms to a central monitoring station The panel provides Arming and disarming individual alarm loops manually or by a network controller command Arming and disarming arbitrary groups of alarm loops which are combined by a single User password Typing a PIN code which is a User password Remote or local control of output relays Monitoring circuits of connecting light or and sound alarms outputs K4 and K5 for open and short circuit failures Connecting a backup input of electric power to an extra input The pa
38. he Type 1 is defined in accordance with the requirements of Clause 4 1 3 Table 4 2 shows the match between current resistance values and corresponding states of alarm loops of the Type 1 The wiring diagram for including fire smoke normally open detectors into alarm loops of the Type 1 is presented in Appendix E Combined Fire Single Threshold Alarm Loop Type 2 A loop of the Type 2 Combined Fire Single Threshold is intended to involve fire smoke normally open and heat normally closed detectors This loop is considered to be in one of the following statuses Armed The alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored Arming Delay The programmed Arming Delay has not been expired Fire Prealarm Either activation of a heat detector or repeated activation of a smoke detector is recognized within the loop Fire Alarm The Alarm Delay has expired after actuation of single detector Short Circuit Failure The resistance of the loop is less than 100 2 Open Circuit Failure The resistance of the loop is more than 16 KQ Arming Failed An attempt to arm the loop has failed because the loop is activated A heat detector having actuated the loop switches to the Fire Prealarm status When a smoke detector has actuated the Signal 20M generates a FIRE SIGNAL message and repeatedly queries condition of the loop see above the Type 1 If detector actuation is confirmed the loop switches to the
39. he alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored Arming Delay The programmed Arming Delay has not yet expired Intrusion Alarm The alarm loop has been activated Arming Failed An attempt to arm the loop has failed because the loop is activated An Intrusion alarm loop is considered to be activated if its resistance goes out of normal range as well as if it jumps by more than 10 provided that the 10 Deviation Blocking parameter is set off Activating an intrusion alarm loop causes it to enter the Intrusion Alarm status An alarm integration time for this type of alarm loops can be 70 ms or 300 ms depending on the programmed value of the 300 ms Integration Time parameter Table 4 2 shows how the alarm loop resistances match with the states of an alarm loop of the Type 4 The wiring diagram for including intrusion detectors into alarm loops of the Type 4 is presented in Appendix E Intrusion Alarm Loop with Tamper Monitoring Type 5 A loop of the Type 5 Intrusion with Tamper Monitoring is intended to involve a single intrusion detector and the tamper switch of this detector This loop is considered to be in one of the following states Armed The alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored Arming Delay The programmed Arming Delay has not yet expired Intrusion Alarm The alarm loop has been activated Arming Failed An attempt to arm the loop h
40. he range of 0 35 V to 4 0 V Less than 0 05 V Morethan4 1 V More than 4 5 V Less than 0 3 V Table 4 6 Output Status Indicator Behavior Output Status Indicator Behavior Off Lit in red Switches on and off alternately Turns on in red interruptediv in phase with the output A trouble of the monitored circuit for relay 4 and relay 5 Flashes in yellow on for 0 125 s off for 0 875 s 4 3 Device Parameters 4 3 1 The configuration parameters of the panel define specifics of its operation as part of an Orion system and provide limitation of some control functions with due regard to safety requirements of the protected premises 20 Configuration parameters of the panel are shown in Table 4 7 Table 4 7 Panel Configuration Parameters Parameter Description Defines the length the number of digits in a User password Prevents a possibilitv to reset current settings of the panel to their default factory values manually Defines the way the panel is switches to the Power Failed mode in case of a power failure at one or On Off both power inputs Digits in PIN Code 2 6 Prevent Factory Reset On Off Both Power Inputs Monitoring The built in sound alarm and the external sound Password Confirmed alarm can be silenced using the button Ud only On Off Siren Silence after typing a User password Defines the address of the panel while being connected to the RS 485 interface Defines
41. ill result in a trying top arm the alarm loop Alarm Reset As a result the alarm loop will enter the Armed status again if the alarm loop resistance is normal or in the Arming Failed status id the alarm loop is violated If the alarm loop has entered the Arming failed status the alarm loop was violated in the moment of arming and for this alarm loop the attribute Auto Rearming After Failing has been set on then this alarm loop will automatically enter to the Armed status as soon as the resistance of the alarm loop is within the normal range for 3 s If the alarm loop has entered the Intrusion Alarm status the Panic Alarm status or the Fire Alarm status and for this alarm loop the attribute Auto Arming After Alarm is set on then the alarm loop will automatically enter the Armed status as soon as its resistance is being normal for the time equal fifteen times Alarm Delay in seconds If Alarm Delay is set to zero the recovery time is 15 s The parameter Disarmed Loop Monitoring obliges the panel to monitor the alarm loop also in the disarmed condition If the resistance of the alarm loop is normal the panel sends the network controller a Disarmed Loop Restored message but if the alarm loop is violated the panel sends the network controller a Disarmed Loop Alarm The integration time for generating a Disarmed Loop Alarm is 300 milliseconds while for generating a Disarmed Loop Restored this time is equal to Alarm Delay The parameters Relay 1
42. ilures Sound and light indication of the Signal 20M as well as the way this loop impacts on a related relay that is the executive program assigned with the relay are defined by the states this loop can reach Switching between statuses of a Programmable Auxiliary alarm loop is defined only by changing its resistance and is not affected by any other loop parameters or network controller commands The integration time for switching between statuses is generally equal to 300 ms But if an alarm loop of the Type 12 has entered such status as Armed Disarmed Auxiliary Zone Restored or any other Restored the integration time for this status is equal to a programmed Arming Delay value A Programmable Auxiliary alarm loop is always monitored and cannot be blocked or disarmed If the arming command addressed to this loop is received the device responds with the message about its current status When states of alarm loops of the Types 12 are changed the Signal 20M transmits the network controller relevant messages The events due to Programmable Auxiliary alarm loop are not stored in the non volatile device memory So if during a loss of communication an alarm loop of the Programmable Auxiliary Type has changed its status several times then on restoring communications the network controller will receive either a single message or no messages if the current status of the alarm loop is the same as the last transmitted status The parameter Arming Delay
43. ine Executive Program which implies Off initial conditions for example the program 1 Switch On After powering up the panel and till receiving a remote control command which switches the relay to the position corresponding to the current status of the partitions assigned with the relay some time can come so if a centralized control command is in use which implies On initial condition then it is advisable to switch the relay to the On condition just after powering up For doing so aby executive program should be assigned to the relay which has On initial condition for example the program 2 Switch Off Table 4 3 Relay Configuration Parameters Parameter Description Defines the behavior of the relay output Executive depending on states of the alarm loops Program assigned to the relay and the initial state of the relay Defines the time interval for which the relay Relay will be switched on or off if the assigned Activation Time executive program implies the limited activation time Provides transmitting events about output condition changes in order to display the Relay ON OFF Events relay state by external annunciators and On Off logging events about switching the relay on and off in the system log 0s to 8192s up to 2 hours 16 minutes 32s in increments of 0 125 s 1 Without Monitoring 2 Open Failure Defines the tactics of monitoring of external Monitor For circuits of outputs relay 4 K
44. ing on the configuration parameter Prohibit Factory Reset 5 7 Administrator Mode The Administrator mode is designed for persons engaged in business activity in the protected premises The panel enters the Administrator mode after typing the Administrator PIN code the following functions becoming available Assigning new User passwords and changing rights of the existing passwords Changing codes of User passwords Deleting all the User passwords Changing the Administrator password 5 7 1 To switch to the Administrator mode do the following 1 Double press or READY LED shall double flash with green and red alternately 2 Enter the Administrator password The length of the password is six digits while its factory value is 000000 A long sound after entering the last digit of the password means that the password has been entered wrongly Correct entering of the password is acknowledged by a melody D A long press means pressing and holding the tamper switch pressed for at least 1 5 s A short press means pressing and holding the tamper switch pressed for 0 1 to 0 5 s A pause between presses should be between 0 1 s and 0 5 s 34 3 After entering the last digit of the password the loop indicators 11 12 13 14 are highlighted with green A function necessarv for Administrator is selected bv loop buttons highlighted with green to enter new User passwords and changing rights of existing User passwords
45. king of the Auxiliary loop temporary blocks activation delay counting The relay is switched on for a specified time if two or more alarm loops related with the output have got Fire Alarm status and there are no broken Auxiliary alarm loops A broken Auxiliary loop cancels activation the relay that is the Auxiliary loop being recovered the output will NOT be switched on The relay is switched on for a specified time if the alarm loop has got Fire Alarm status and there are no broken ASPT A1 Auxiliary alarm loops A broken Auxiliary loop cancels activation the relay that is the Auxiliary loop being recovered the output will NOT be switched on Switch On Upon If the alarm loop has got the High Temperature Temperature Increase status the relay is switched on Switch On Upon If the alarm loop has got the Low Temperature status Temperature Decrease jthe relay is switched on Notes 1 Relay s behavior is defined by the state of a group of the alarm loops assigned with the relay 2 Relay Activation Time must be equal to zero for the output assigned to an Auxiliary alarm loop 3 Only the Auxiliary Programmable alarm loop of the Type 12 can enter High Temperature or Low Temperature condition if these states are programmed for this loop Table 4 5 States of Output Circuit Depending on the Voltage on the Output s Minus Terminal wom Openccreun sonore Output ON Output OFF Output ON Output OFF Any voltage in t
46. l itself of the alarm loops or the relays can be edited using the program UProg exe or Orion Database Administrator tools 4 3 3 Passwords PIN Codes The panel provides entering writing deleting and changing parameters of the following kinds of passwords 21 User passwords Operator password Administrator password The panel is to be switched to the mode of entering a password by pressing Or Exiting the mode of entering the password is carried out Automatically after entering the last digit of the password After elapsing the timeout of 30 s Onpressing For typing a password PIN code loop buttons since 1 to 10 are used Loop buttons 11 to 20 are not used while typing a password 4 3 3 1 A User password provides combining alarm loops with any numbers to a single group and arm disarm whether an individual alarm loop from this group or the group as a whole In doing so the user password can be assigned with the following control rights for each the alarm loop Arming and disarming Without rights to arm disarming only Without rights to disarm arming only The number of User passwords is 64 The number of digits in a User password is defined by Digits in PIN Code 4 3 3 2 The Operator password is used by persons who maintain and adjust the panel The Operator password cannot arm or disarm alarm loops or change User passwords or the Administrator pa
47. line of two wire interface RS 485 the panel uses the interface converter The non volatile memory is used to store the buffer of events along with the dates of their appearance 4 1 Alarm Loops The panel monitors twenty alarm loops and depending on their conditions Indicates the states of each alarm loop by built in two color LEDs 1 to 20 Indicates the current state of the panel itself by built in LEDs ALARM FIRE FAULT Activates the built in panel sounder in cases of breaking alarm loops Controls five relays of the panel The status of an alarm loop is defined by its type the current resistance and the current logic state armed or disarmed 4 1 1 Any fire and intrusion detectors designed to be powered by a DC supply can be brought into the alarm loops of the panel however the internal resistance of each detector in the Fire Alarm status should be No more than 2 7 K for normally open detectors Noless than 3 2 K for normally closed detectors 4 2 Configuration Parameters of the Alarm Loops Configuration parameters of the alarm loop shown below in Table 4 1 provide changing monitoring algorithms of the alarm loops Table 4 1 Configuration Parameters Attributes of the Alarm Loops Parameter Description Smoke Fire 2 Combined Fire 3 Heat Fire 4 Intrusion Defines the tactics of monitoring the alarm loop 5 Intrusion with Tamper Loop Type the kinds of detectors to be brought into
48. lit in green and red alternately 2 Enter your User password if you hear a long sound after entering a last digit of the password this means that the entered password is wrong or is not stored in the panel s memory 3 If otherwise the entered password is registered in the panel s memory then after entering the last digit of the password the LEDs of the loops associated with this password will be lit disarmed loops are highlighted with red 4 To arm all alarm loops of the group press 5 To disarm all the alarm loops of the group press PS 6 If you would like to cancel entering the password without arming disarming the group of the alarm loops press If you need not arm or disarm all the group of the alarm loops you can arm disarm one or more alarm loops individually just by pressing the relevant buttons with the numbers of the alarm loops If the entered password is assigned with the rights only to arm any given alarm loops these loops cannot be disarmed and can be only re armed If the entered password is assigned with the rights only to disarm any given alarm loops these loops cannot be armed and can be only disarmed 5 5 3 The panel permits the network controller to arm and disarm any alarm loops excluding those ones programmed with the Never Disarmed parameters set on 5 6 Operator Mode The Operator mode is designed for persons who maintain and program the panel The panel switches to the Operator mode when an Operator PI
49. ll enter the Fire Alarm status on no conditions For alarm loops of the Types 6 and 12 Alarm Delay defines the time of restoring the alarm loop or the time of transition between states If on arming an alarm loop its resistance is less than normal for example if a smoke detector has responded the panel automatically resets the alarm loop shuts off power voltage of all the alarm loops for 3 s Loop Analysis Delay for any type of alarm loops is the duration of a pause after de energizing it and before analyzing it on re querying the status of a fire alarm loop and on arming This delay provides bringing detectors with high pre operation time damping time into alarm loops of the panel If after resetting the alarm loop the detector powered via the loop returns to the quiescent mode for a long time consumes current heavily for a long time it should be programmed with Loop Analysis Delay which slightly exceeds the maximum pre operation time of the detectors brought into the alarm loop The minimum hardware delay is 1 s 13 The parameter Never Disarmed disables disarming the alarm loop by any way This parameter is usually to be set on for fire and panic alarm loops to avoid their accident disarming for example by a command from the network controller If the alarm loop enters the Intrusion Alarm status the Panic Alarm status the Fire Pre alarm status the Fire Alarm status or the Arming Failed status then arming and disarming the alarm loop w
50. mmed Alarm Delay is equal to 255 then alarm loops of the Types 1 and 3 can switch to the Fire Alarm status only after activation of two or more detectors while an alarm loop of the Type 2 will keep the Fire Pre Alarm status until the alarm has been unset Fire Pre Alarm status is indicated interruptedly by the FIRE LED 0 25 s FIRE LED is on and 0 75 s Fire LED is off alternately 5 2 7 An alarm loop enters the Fire Alarm status either in case of activation of two detectors in a single alarm loop of the Type 1 or 3 or after termination of the Fire Pre Alarm mode When the alarm loop has entered the Fire Alarm status among others the relays are controlled in accordance with the programs 1 8 33 35 If Auto Arming After Alarm is set on for an alarm loop the alarm loop will be automatically armed and will be switched from the Fire Alarm status to the Alarm Delay status if its resistance has been in the normal range for more than 15 times the Alarm Delay value in seconds In the Fire Alarm mode FIRE LED is lit interruptedly 0 25 s on 0 25 s off 5 2 8 An alarm loop switches from the Armed status to the Trouble mode if a short circuit failure or an open circuit failure has happened of the alarm loop wires If the loop has been repaired and its resistance has been in the normal range within 3 s the alarm loop will be automatically armed and will enter the Armed status In the Trouble mode FAULT LED flashes 0 125 s on 0 875 s off 5 2 9 In the s
51. mum leakage resistance between loop wires or between each wire and the earth is 50 K 2 14 The panel is resistant to the effects of electromagnetic interference within alarm loops in form of sine voltage influences of 50 Hz frequency and an effective value of the voltage 1 V as well as 5 to pulse interferences in form of single voltage pulses with amplitudes up to 300 V and duration up to 10 ms 3 Standard Delivery Find the following unpacking the Signal 20M panel 1 Signal 20M Intrusion and Fire Alarm Panel l pc 2 Instruction Manual pc 3 Component Parts 0 5 W 4 7 kOhm MF 1 2W AK72 596 Resistor 20 pcs 1N5400 1N5401 1N5406 Diode 2 pcs IN4148 Diode 2 pcs Woodscrew 3 pcs Wall Plug 6x30 3 pes 4 Lined Sticky Sheet 2 pes 4 Description and Performance The view of the panel along with its overall and mounting dimensions are shown in Appendix A The panel enclosure consists of the cover 1 and the base 2 There are buttons keys of the panel alarm loops to and control keys LC am 95 fee on the panel s cover The cover also houses the indicators LEDs of the alarm loops the indicators of output s conditions and function indicators READY FIRE ALARM and FAULT On the panel s base a PCB with radio elements push button micro switches light emitted diodes terminals for external connections and a tamper switch is attached Also the panel s base compris
52. n resistor to the first alarm loop and read the ADC value from the first alarm loop by means of the C2000 console by doing the following Select REQUEST INFO ZONE ADC in the command menu of the console Enter the current network address of the panel the factory value is 127 or select the panel in the list of devices by lt or gt console button Type 1 as the loop number A value returned by the console must be between 46 and 50 3 Repeat step 2 for alarm loops 2 to 20 6 Manufacturer s Data CJSC NVP Bolid 4 Pionerskaya Str Korolev Moscow Region 141070 Russia Tel fax 7 495 775 71 55 E mail infoG bolid ru http www bolid com 36 L3 siGNAL 20M FAULT 47 Appendix A Device View um ALARM FIRE um ZIT 37 1 Cover 2 Base 3 Drawer Appendix B Structural Diagram of the Signal 20M L push button switches m external a RS 485 interface m non volatile lt memory processor TL DJ switch over relavs Ta mue Y A i A tamper switch Y LEDs E voltage converter Appendix C Signal 20M Connection Diagram for Operation intrusion alarm loop Signal 10M heat smoke l outputs of switch over relavs 1N5400 KI 1N5400 lt Siren JI Awee main power supply backup power supply optional 39 40
53. nd has an effect on a relay programmed with the program Alarm Output 1 10 or Alarm Output 2 16 relay contacts become open The internal sounder keeps its state If Auto Arming After Alarm is set on the alarm loop will be automatically armed and will switch from the alarm status to the Arming Delay status if its resistance has been normal for more than 15 times Alarm Delay in seconds 5 3 5 In the states Intrusion Alarm and Entrance Alarm the built in panel sounder can be silenced by pressing the button The internal sounder will be activated again if another alarm loop enters the Intrusion Alarm mode or Entrance Alarm mode 5 3 6 In the Intrusion Alarm state an external sounder connected to the output configured with the program 12 Siren can be silenced by pressing after entering any valid User PIN code The external sounder will be actuated again if another alarm loop reaches the Intrusion Alarm status Table 5 4 Alarm Loop s LEDs Behavior for Various States Status of the Alarm Loop Indicator s Behavior Armed Lit steady with green Disarmed Off Arming Norm Flashes with green four times per second Delay Activated Flashes with yellow four times per second Arming Failed Flashes with green once per second Flashes once per second with red and green by the following way 0 25 s in green 0 25 s with red 0 5 s off Flashes once per second with red 0 25 s on 0 75 s off Flashes twice per second with red 0 25 s on 0 25 s off In
54. nds to the value On while 70 milliseconds correcpOonds to the value Off To increase reliability of the panel operation and to decrease false alarms we recommend to set the integration time to the value of 70 ms only when strictly necessary The 10 Deviation Blocking parameter disables analysis of sharp jumps in the resistance more than 10 of a steady state value for intrusion alarm loops if the distinction doesn t run out of the normal range Set this parameter for the alarm loops which comprises detectors producing essential ripples 14 Table 4 2 Resistance Values for Different Alarm Loop States Loop Tvpe Alarm Loop States Fire Alarm two or more Fire Pre alarm Short circuit a smoke detector Norm Open circuit smoke detectors has responded Type 1 have responded p Smoke Two Threshold P 100 Q to 1 56 K 1 1 to 1 8K Less than 100 Q 2 2 to 5 4K More than 6 6 K Depends on the load current of the loop A smoke detector A heat detector Type 2 Fire Short circuit has responded has responded Combined Fire Pre alarm Fire Pre alarm Single Fire Alarm Fire Alarm Threshold Less than 100 O 100 O to 1 8K 2 210 5 4 K 6 6Kto 14 4 K More than 16 K Fire Alarm fire ore alarni two or more heat Short circuit Norm a heat detector Open circuit Type 3 Heat has responded detectors have Two Threshold responded Less than 1 8 K 3 0 K to 5 4 K 6 6 Kto 11K 12 5 K to 22 5 K More than 25 K Open circuit Norm Int
55. ne of the outputs has exceeded 11 V If unauthorized persons can have an access to the panel setting on the parameter Password Confirmed Siren Silence disables silencing of the built in sounder as well as the external sound alarms by pressing the button In such case to shut off the internal sounder and the external sound alarms a user should type a User password which code is enrolled in the panel The button d silences only the alarms which are connected to a relay operated by the executive program 12 Siren Network Address is designed to identify the panel exactly within the Orion system The panel sends messages and receives commands from the network controller only using the address which is specified by this parameter Network Address must be unique for each the device in the Orion system Adjusting the parameter Response Pause enables using the panel in systems with a complicated network configuration in cases when there could be delays in the communication channel on changing data direction For example in case of converting the RS 485 interface into another interfaces intended to translate data over local area networks fiber optics communication channel or radio channel Current values of Network Address and Response Pause can be unset to their factory default values in the Operator mode see Clause 5 6 4 3 2 To adjust the panel for a specific application and to use the panel s features optimally any of the parameters of the pane
56. nel can operate standalone or used as an addressable device in case of cooperating with a network controller within an Orion system 1 2 The panel can be used for independent or centralized protection of building or premises rooms stores banks warehouses apartments residential houses enterprises against unauthorized access and fires 1 3 The panel is to be powered from one or two power supplies main and backup ones of 10 2 V dc to 28 0V dc Bolid manufactured battery backed power supplies RIP 12 or RIP 24 are recommended 1 4 The panel is intended for round the clock operation and is to be attached within closed non heated spaces 1 5 The panel should not be used within aggressive and dusty mediums as well as in explosion hazardous premises The ingress protection rating is IP20 1 6 The panel can be operated in the following ambient conditions 1 Operating Temperatures minus 30 C to 55 C 2 Relative humidity 98 at 4 25 C 3 Vibration loads 1 Hz to 35 Hz at maximum acceleration of 4 9 m s 0 5 g 1 7 Mean time between failures at least 20 000 hours 1 8 False alarms 0 01 per 1000 hours max 1 9 The average lifespan of the panel is estimated as 10 years 1 10 The weight of the panel doesn t exceed 0 5 kg 1 11 The overall dimensions are 247 mm x 150 mm x 48 mm max 1 12 The pre operation time after powering up doesn t exceed 3 s provided that there is stable voltage higher than 11 V at the panel s power terminals 2
57. nsumed by the panel without regards to external alarms mA i stands for the current consumed by the active detectors in the alarm loops of the panel mA The total time of backup operation is estimated by the formula T 1000 W I h Where W stands for the capacity of the battery A h I stands for the panel consumed current mA 2 9 The panel in the quiescent mode provides the alarm loop inputs with the steady voltage 19 V to 22 V provided that the termination resistance is 4 7 K and the detectors consume less than 3 mA 2 10 In case of a short circuit failure of an alarm loop the panel provides other alarm loop inputs with steady voltage in accordance with Clause 2 9 2 11 The panel limits the current of the alarm loop with the short circuit failure at the level no more than 26 5 mA 2 12 The effective value of the ripple voltage within an alarm loop doesn t exceed 20 mV 2 13 If intrusion alarm detectors are included into an alarm loop an intrusion alarm loop the panel is in the quiescent mode with the following parameters Maximum wire resistance without regard to the termination resistor is 1 K Minimum leakage resistance between loop wires or between each wire and the earth is 20 K If fire alarm detectors are included into an alarm loop a fire alarm loop the panel is in the quiescent mode with the following parameters Maximum wire resistance without regard to the termination resistor is 100 ohms Mini
58. ntrusion alarm loop which don t cause the loops to be switched to an alarm mode is 28 50 milliseconds if 300 ms Integration Time is off or 250 milliseconds if 300 ms Integration Time is on 5 3 1 2 An alarm loop switches from the Armed mode to the Intrusion Alarm mode in the following circumstances The duration of the violation of the alarm loop exceeds 70 milliseconds if 300 ms Integration Time is off The duration of the violation of the alarm loop exceeds 300 milliseconds if 300 ms Integration Time is on The loop resistance has jumped by more than 10 the 10 Deviation Blocking parameter being off for this loop When the alarm loop has entered the Intrusion Alarm status then among others relay control in accordance with programs 1 8 is activated If Auto Arming After Alarm is set on for the alarm loop the loop will be automatically armed and will switch from the Intrusion Alarm mode to the Arming Delay mode when its resistance has been in norm more than the time equal to 15 times value of the Alarm Delay configured for the loop in seconds In the Intrusion Alarm mode ALARM LED flashes 0 5 s on 0 5 s off 5 3 2 The panel operates in intrusion alarm and tamper alarm mode if at least one alarm loop is programmed with the Type 5 In this mode the panel provides operating the alarm loop in the following states Armed Disarmed Arming Delay Arming Failed ntrusion Alarm
59. p exceeds 70 milliseconds if 300 ms Integration Time is set off The violation time of the alarm loop exceeds 300 milliseconds if 300 ms Integration Time is set on 29 The loop resistance has jumped by more than 10 the 10 Deviation Blocking parameter being off for this loop 5 3 3 3 The alarm loop switches from the Entrance Alarm state to the Intrusion Alarm state when the Alarm Delay has been elapsed The state Intrusion Alarm is similar to the relevant state for alarm loops of the Type 4 see Clauses 5 3 1 2 5 3 4 The panel operates as a panic alarm control if at least one its alarm loop is programmed with the Type 11 In this case the panel recognizes the following alarm loop states Armed Disarmed Arming Delay Arming Failed Panic Alarm 5 3 4 1 The states Armed Arming Delay and Arming Failed are similar to the relevant states of alarm loops of the Type 4 see Clauses 5 3 1 1 5 3 4 2 The alarm loop switches from the Armed state to the Panic Alarm state in the following circumstances The violation time of the alarm loop exceeds 70 milliseconds if 300 ms Integration Time is set off The violation time of the alarm loop exceeds 300 milliseconds if 300 ms Integration Time is set on The loop resistance has jumped by more than 109 the 109 Deviation Blocking parameter being off for this loop The alarm loop state Panis Alarm is indicated only by the panel indicators 1 20 a
60. p is being in the Entrance Alarm status no relay controlled in accordance with one of the general purposed executive programs 1 8 or Siren program 12 is activated An alarm integration time for this type of alarm loops can be 70 ms or 300 ms depending on the programmed value of the 300 ms Integration Time parameter Table 4 2 shows how the alarm loop resistances match with the states of an alarm loop of the Type 7 Intrusion detectors are wired into an alarm loop of the Type 7 similarly to connection of intrusion detectors into alarm loops of the type 4 see Appendix E Panic Alarm Loop Type 11 All kinds of normally closed and normally open panic buttons pedals and so on can be brought into a Panic alarm loop Type 11 This loop is considered to be in one of the following states Armed The alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored Arming Delay The programmed Arming Delay has not yet expired Panic Alarm Activation of the loop has been detected Arming Failed An attempt to arm the loop has failed because the loop is activated A Panic alarm loop is operated similarly to an Intrusion alarm loop except for this loop switches to the Panic Alarm status after it has been activated The Panic Alarm status is indicated only by the light indicators of the Signal 20M and can initiate only those related relays which are programmed to operate in accordance with Alarm Output 1 10
61. r not On Off over the RS 485 interface Fire Loop Requery Being set on disables the function of querying Prohibition the loop of the types 1 and 2 repeatedly Being set on causes the intrusion alarm loop to enter the Intrusion Alarm status if the loop has On Off been activated for more than 300 ms Being set on causes the intrusion alarm loop not 10 Deviation to enter to the Intrusion Alarm status if its Blocking resistance value has been changed more than by 10 within 255 s Relay 1 Control On Off ae control a activation of the relay with this alarm an Relay 4 Control On Off Relay 5 Control On Off The main alarm loop configuration parameter which defines the way of monitoring the alarm loop and the type of initiating devices which can be brought into the alarm loop is the Loop Type Signal 20M supports 9 different types of alarm loops Auto Rearming After Failing Auto Arming After Alarm Disarmed Loop Monitoring On Off 300 ms Integration Time On Off Type 1 Smoke Two Threshold Alarm Loop A loop of the Type 1 Smoke Two Threshold is intended to involve fire smoke normally open detectors This loop is considered to be in one of the following statuses Armed The alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored Arming Delay The Arming Delay has not yet expired Fire Prealarm A single detector h
62. rameters 1 Loop Type 2 Arming Delay 3 Loop Analysis Delay 4 Alarm Delay 5 Relay 1 Activation Delay 6 Relay 2 Activation Delay 7 Relay 3 Activation Delay 8 Relay 4 Activation Delay 9 Relay 5 Activation Delay 10 Never Disarmed 11 Auto Rearming After Failing 12 Auto Arming After Alarm 13 Disarmed Loop Monitoring 14 Fire Loop Requery Prohibition 15 300 ms Integration Time 16 10 Deviation Blocking 17 Relay 1 Control 18 Relay 2 Control 19 Relay 3 Control 20 Relay 4 Control 2 Relay 5 Control 6 The character in the table means the parameter is set on while the character means the parameter is set off 26 Table 5 3 Relav Factorv Values Relav Number 3 Parameter Executive Program Activation Time s Relav ON OFF Events Monitor For WARNING The new parameters come into effect onlv after the panel has been de energized and powered up again 5 2 Fire Alarms The panel operates in the fire alarm mode if at least one alarm loop is programmed with the Type 1 or 2 or 3 For such loops the panel provides operating each loop in the following statuses Armed Disarmed Arming Delay Arming Failed Fire Signal Fire Pre Alarm Fire Alarm Trouble Panel s indication and sound signaling are described in Tables 5 4 5 5 5 2 1 An alarm loop is considered to be in the Armed status if it has just been a
63. rd was entered a password which code is not stored in the panel s memory the panel by default assigns it with the right to arm disarm all the alarm loops the indicators of all the alarm loops will light with red and green alternately If you would like to exit the mode of changing rights of User passwords with preliminary saving of the changes press else press AR 5 7 3 To change the code of any existing User password press the button 12 After pressing the button the panel is waiting to entering a User password the indicator 12 being flashing If after entering the last digit of the PIN code you hear a long sound from the panel it means you ve entered a wrong password otherwise if you hear a short double sound it means the password has been entered correctly and you can enter a new code of the password The password having been entered the panel automatically returns to the mode of selecting administrator functions 5 7 4 To delete all the User passwords double press the button 13 After the first press the LED 13 begins flashing while after the second press the panel deletes all the User passwords from its memory 5 7 5 To change the Administrator password press the button 14 After pressing the panel is waiting for entering a new six digit PIN code the indicator 14 being flashing After entering the last digit the new password is saved in the non volatile memory of the panel 5 8 Maintenance To make sure your Signal 20M panel k
64. rmed and its resistance is normal Short time violations of the armed fire alarm loop for a time within 250 milliseconds are not considered as fire alarms 5 2 2 If the alarm loop is configured with a non zero Arming Delay then on arming it switches to the Arming Delay mode If the alarm loop is activated within the time of delay this will not result in switching to an alarm mode 5 2 3 When Arming Delay has expired and if the alarm loop s resistance is normal the alarm loop switches to the Armed mode Otherwise if Arming Delay has expired but the alarm loop s resistance hasn t yet been normal the alarm loop enters in the Arming Failed status If Auto Rearming After Failing is set on for the alarm loop this one will be automatically armed and switches from the Arming Failed mode to the Armed mode in case of its resistance has been normal more than 3 s 5 2 4 In case of a step like violation of an armed alarm loop for a time more than 300 milliseconds the panel registers the violation and switches the alarm loop to one of the following modes Fire Signal if a single smoke normally open detector has responded in the alarm loop of the Type 1 or Type 2 Fire Pre Alarm if a single heat normally closed detector has been responded in the alarm loop of the Type or Type 3 Fire Alarm if simultaneously two smoke detectors or two heat detectors have responded in the alarm loop of the Type 1 or Type 3 respectively Trouble if an op
65. rusion Alarm 22Kto10K Less than 1 8 K more than 12 K or has jumped bv more than 10 96 Type 5 Intrusion Alarm Tamper Alarm Intrusion with Less than 1 8 K or 6 6 K to 9 0 K Tamper aai less than 6 6 K More than 20 K Monitoring ES in the Armed Less than 100 ohms status for states Disarmed Arming Delay Arming Failed Auxiliary Zone Restored Auxiliary Zone Alarm 2 210 5 4 K Less than 1 8 K or more than 6 6 K Type 7 Entrance 221054K Less than 1 8 K more than 6 6 K or has jumped by more j than 10 221054K Less than 1 8 K more than 6 6 K or has jumped by more than 10 96 T i5 Status 1 Status 2 Status 3 Status 4 Status 5 VPoammable LesstanRi RttoR2 R2toRs Rs R4 MorethanR4 Programmable Less than R1 R1 to R2 R2 to R3 R3 to R4 More than R4 Auxiliary The states of alarm loops and threshold values of alarm loop resistance are to be programmed see Clause 5 4 2 15 4 1 3 Short time violations of the alarm loops for a time in which the panel doesn t switch to an alarm mode Integration Time of an alarm loop last 50 ms and less for intrusion alarm loops if 300 ms Integration Time is off 250 ms and less for all other alarm loops if 300 ms Integration Time is on Violations of the alarm loops for a time in which the panel enter an alarm mode last 70 ms and more for intrusion alarm loops if 300 ms Integration Time is off 300 ms and more for intrusion alarm loops and alarm loop
66. s of the Type 12 if 300 ms Integration Time is on For alarm loops of the Types 1 2 3 the violation time of the alarm loop after which the panel enters an alarm mode can be 300 ms to 3 s depending on the nature of transition process in case of the violation If the alarm loop comprises detectors with high values of internal capacity then the integration time in case of a violation will increase inversely to the rate of the transition process The minimum rate of voltage s changing in the alarm loop for maximum integration time is 0 5 V s 4 4 The panel provides powering current consumed two wire intrusion and fire detectors from the alarm loops The number of detectors per an alarm loop is estimated with the formula N Im i where N stands for the number of the detectors in the alarm loop Im stands for the maximum load current Im 3mA for alarm loops of the Types 1 4 6 7 11 12 Im 1 2 mA for alarm loops of the Type 2 i stands for the current consumed by a detector in the quiescent mode mA For an alarm loop of the Type 1 Smoke Two Threshold then the detectors in use must be operable in case of detector voltage s dropping to 12 V 4 2 Relays The relays of the panel can be controlled by any of the two ways naccordance with a states of the alarm loops assigned with the relay local control By commands of the network controller centralized control To control relays depending on states of the alarm loops
67. ssword On typing the Operator password the following actions become available Resetting the network address Starting the Diagnostic mode Changing the Operator password Factory resetting The number of Operator passwords is one The number of digits in the Operator password is six 4 3 3 3 The Administrator password is used by persons who do business at the protected premises The Administrator password has no rights to arm and disarm the alarm loops or change configuration parameters of the panel On typing the Administrator password the following actions become available Adding new User passwords or changing rights of the existing passwords Changing the codes of the User passwords Deleting all User passwords Changing the Administrator password The number of Administrator passwords is one The number of digits in the Administrator password is six 4 4 Operation Modes The panel provides operating in the following modes Pre Operation Mode Quiescent Mode Power Failure Mode Password Enter Mode Operator Mode Administrator Mode Diagnostic Mode Device Failure Mode Please refer to Table 4 8 to see READY LED s behavior in various operation modes 4 4 1 As soon as supply voltage has been applied to the power input terminals of the panel the panel switches from its no voltage condition to the Pre Operation mode The time of panel s being in th
68. suitable for example to lock automatic starting of gas firefighting installations when a door in protected premises is Open Table 4 2 shows how the alarm loop resistances match with the states of an alarm loop of the Type 6 Wiring of normally closed and normally open detectors and other monitored circuits of dry contact type into an alarm loop of the Type 6 is made similar to connection of intrusion detectors into alarm loops of the type 4 see Appendix E Entrance Alarm Loop Type 7 A loop of the Type 7 Entrance is intended to involve any intrusion detectors both normally open and normally closed and powered either over the loop or separately This loop is considered to be in one of the following states Armed The alarm loop is monitored its resistance being normal Disarmed The alarm loop is not monitored 11 Arming Delav The programmed Arming Delav has not vet expired Entrance Alarm The alarm loop has been broken Intrusion Alarm Since activation of the alarm loop the time of given Alarm Delay has been expired Arming Failed An attempt to arm the loop has failed because the loop is activated An Entrance alarm loop is operated similarly to an Intrusion alarm loop except for this loop switches to the Entrance Alarm status immediately after its activation Then if this alarm loop is not disarmed or armed until the Alarm Delay has been expired the loop switches to the Intrusion Alarm status While the alarm loo
69. tates Trouble Fire Pre Alarm Fire Alarm the built in sounder can be silenced by pressing the button The built in sounder will turn on again if another alarm loop enters the Trouble Fire Pre Alarm or Fire alarm state 5 2 10 In Fire Pre Alarm and Fire Alarm modes an external sound alarm connected to the output controlled in accordance with the program 12 Siren can be silenced by pressing after entering any valid user PIN code The external sound alarm will turn on again if another alarm loop enters the Trouble Fire Pre Alarm or Fire alarm state 5 3 Intrusion Alarms Depending on the Type of the alarm loop the panel provides operating in the following intrusion alarm modes General intrusion alarms for loops of the Type 4 ntrusion and detector tampering alarms for loops of the Type 5 Entrance alarms for loops of the Type 7 Panic alarms for loops of the Type 11 Loop LEDs indication and sounds of the built in sounder are shown in Tables 5 4 5 5 5 3 The panel operates in the mode of general intrusion alarms it at least one alarm loop is programmed with the Type 4 The panel recognize the following alarm loop states Armed Disarmed Arming Delay Arming Failed Intrusion Alarm 5 3 1 States Armed Arming Delay and Arming Failed are similar to relevant states of fire alarm loop and are described in Clauses 5 2 1 5 2 3 But the duration of short time violations of armed i
70. the admissible delay for the panel to 1 5 ms to 500 ms respond to a network controller request in intervals of 0 125 ms Network Address 1 127 Response Pause The parameter Digits in PIN Code provides programming a number of digits while typing a User password PIN on the panel keypad The minimum number of digits is two while the maximum value of digits a User password can contain is six Prevent Factory Reset can be used if there is a possibility of unauthorized unintended reset of the current settings of the panel to their factory values by maintaining staff s pressing a code combination on the tamper switch of the panel see Clause 5 6 6 The parameter Both Power Inputs Monitoring defines the condition for the panel to switch the Power Failed mode in case of a power failure at one power input or in case of power failures at both power inputs If Both Power Inputs Monitoring is set on the panel will switch to the Power Failed mode when the voltage has dropped below 10 V at least at one power input and the panel will return to the quiescent mode when at both power inputs the voltage have exceeded 11 V If Both Power Inputs Monitoring is set off the panel keeps operation in the quiescent mode till at least at one power inputs is higher than 10 V and the panel will switch to the Power Failed mode if the maximum voltage at both power inputs has dropped below 10 V The panel will return to the quiescent mode if a voltage at o
71. the panel 5 8 4 Inspecting the panel in the Diagnostic mode Before testing the panel in the Diagnostic mode disconnect its relay outputs from the executive circuits which activation is inadmissible To start the Diagnostic mode do the following 1 Double press the button br pis 2 Enter the Operator password 6 digits 3 Press the button The panel shall play a specific melody while READY LED shall begin flashing in red Then all the panel relays shall switch off and then switch on one by one at time intervals of 1 s Together with first relay s switching on the indicators 1 to 10 will be lit in green while the indicators 11 to 20 will be off Together with second relay s switching on the relay 1 switches off and the indicators 11 to 20 switch on with green Together with third relay s switching on the relay 2 switches off while the indicators 1 to 10 are lit in red Together with fourth relay s switching on the relay 3 switches off and the indicators 11 to 20 also switch on with red Together with fifth relay s switching on the relay 4 switches off and the indicators FIRE ALARM FAULT switches on In 3 s since relay 5 switching on the panel plays the end of the melody and automatically quits the Diagnostic mode 5 8 5 Inspecting Alarm Loops 1 Disconnect the alarm loop disconnect the termination resistor and measure the voltage at the first alarm loop The voltage value must be between 26 5 V and 27 5 V 2 Connect the 4 7 K terminatio
72. to change codes of User passwords to delete all the User passwords to change the Administrator password To exit the Administrator mode press or wait for 15 s after a last press of any button A melody is played when quitting the Administrator mode After finishing each of actions mentioned above the panel returns again to selecting of the Administrator functions 5 7 2 Each User password can combine in a group any number of alarm loops The password can be assigned with following rights relative to each alarm loop from the group the right to arm disarm the alarm loop no right to disarm the alarm loop no right to arm the alarm loop An alarm loop is not assigned to a password is the password has neither of listed rights To change rights of a User password press the button 11 After pressing the panel is waiting for entering a User password LED 11 being flashing After typing a last digit of the PIN code the panel highlights the group of indicators of the alarm loops assigned with the entered password Indicator behavior defines the rights of the password as shown in Table 5 7 Table 5 7 Indicator Behavior Depending on Password Rights Password Rights Indicator Behavior Arming Disarming Flashes with red and green alternately Arming only Flashes with red Disarming only Flashes with green No rights Off To change the right of the password press the relevant loop button successively If a new passwo
73. trusion Alarm Flashes once per second with red Panic Alarm 0 5 s on 0 5 s off Flashes once per second with red 0 125 s on 0 875 s off Fire Signal Fire Pre Alarm Fire Alarm Entrance Alarm 30 Status of the Alarm Loop Indicator s Behavior Flashes once per second with red 0 125 s on 0 875 s off Flashes once per second with yellow 0 125 s on 0 875 s off Tamper Alarm for Type 5 Trouble Table 5 5 Signaling of the Built in Sounder for Various States of Alarm Loops Status of the Alarm Loop Sounder s Behavior Armed Off Disarmed Off Arming Delay Off Arming Failed Off Fire Signal Off Fire Pre Alarm Interrupted two tone signal Fire Alarm Continuous two tone signal Intrusion Alarm Interrupted single tone signal Entrance Alarm Interrupted two tone signal Panic Alarm Off Trouble Short single tone signal O COIN OD Oo RHR O p o 5 4 Auxiliary Alarms The panel enables monitoring and transmitting the network controller messages about changing of statuses of various circuits not directly related to fire and intrusion alarm systems namely states of contacts of devices blocking fixed fire fighting equipment mass sensors pressure sensors flow sensors position of throttle valves liquid level controls and so on For these purposes the alarm loops of the Type 6 Auxiliary and 12 Programmable Auxiliary are to
74. witched on for a short time once per two seconds If an alarm loop is armed the relay is switched on If all alarm loops are disarmed the relay is switched off If all the alarm loops related with the relay are armed then the relay is switched on otherwise the relay is switched off The relay is switched on for a given time if two or more alarm loops related with the relay have Fire Alarm status and there are no Auxiliary loops broken The broken Auxiliary loop will block switching on If the Auxiliary loop is broken while the Relay Activation Delay has not yet expired then after recovering of the loop the relay output will be switched on for a specified time That is breaking of the Auxiliary loop temporary blocks activation delay counting In case of a Fire Alarm the relay is switched on off for a specified time in mode On for 1 5s and Off for 5s In case of a Fire Prealarm the relay is switched on off for a specified time in mode On for 5s and Off for 1 5s In case of an Intrusion Alarm the relay is switched on for a specified time Otherwise the relay is off If the related loop has Fire Alarm or Fire Prealarm Fire Output status then the relay is switched on else the relay is Otherwise the relay is switched on EN If there are related alarm loops having Trouble Arming In case of a Fire Alarm the relay is switched on off twice per second in mode On for 25s and Off for 25s In case of a Fire Prealarm the relay is

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