Panasonic EBL128 Planning Instructions
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Panasonic EBL128 Planning Instructions

Panasonic EBL128 Planning Instructions

Fire alarm system
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Planning Instructions
MEW01090
Revision 3
Fire Alarm System EBL128
V1.1.x
Author:
Jan Pettersson
Date of issue: 2008-07-11
Date of rev:
2010-05-28
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Summary of Contents for Panasonic EBL128

  • Page 1 Planning Instructions MEW01090 Revision 3 Fire Alarm System EBL128 V1.1.x Author: Jan Pettersson Date of issue: 2008-07-11 Date of rev: 2010-05-28...
  • Page 2 This page has deliberately been left blank.

  • Page 3: Table Of Contents

    2.15 SSD / Site Specific Data ____________________________ 11 2.16 S/W / Software / System program _____________________ 11 Overview _________________________________ 12 The EBL128 c.i.e. _________________________________ 12 S/W Versions ____________________________________ 12 Documents ______________________________________ 12 Applications _____________________________________ 12 PC S/W _________________________________________ 12 Control & Indicating Equipment _____________ 13 COM loop _______________________________________ 15 4.1.1...
  • Page 4 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Programmable input (I0) ____________________________ 19 24 V DC power supply outputs _______________________ 20 RS232 interfaces __________________________________ 20 RS485 transceiver (option) __________________________ 20 Power supply _____________________________________ 20 4.10 Internal Power supply ______________________________ 21...
  • Page 5 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 7.1.2 Supervised ___________________________________ 55 3361 unit Inputs In0 / Z & In1 _______________________ 56 Input programming ________________________ 57 Type (trigger conditions) ____________________________ 57 Logic ___________________________________________ 59 8.2.1 Not supervised (default) ________________________ 60 8.2.2...
  • Page 6 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 13.1.3 Decision value ________________________________ 82 13.1.4 Alarm algorithms for smoke detectors / Detection levels / Offsets 82 13.1.5 Alarm algorithm / Alternative alarm algorithm ______ 83 13.1.6 Filtering algorithm ____________________________ 84 13.1.7...
  • Page 7 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 13.22 Time channels 1-4 ______________________________ 104 13.23 Time channels 5-12 _____________________________ 104 13.24 Event log _____________________________________ 105 13.25 Loss of main power source _______________________ 105 13.25.1 Fault: Loss of main power source ______________ 105 13.25.2...
  • Page 8 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 16.6.3 Door closing by time __________________________ 126 16.6.4 Zone line input alarm delay time _________________ 127 16.6.5 Miscellaneous _______________________________ 127 16.7 Statistics _______________________________________ 128 Cable types ______________________________ 129 17.1...

  • Page 9: Introduction

    Due to continual development and improvement, different S/W versions are to be found. This document is valid for the EBL128 S/W version 1.1.x. On the date of this document is x=2.

  • Page 10: Revision

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x  a p.c.b. number (e.g. 9285-6A) and can also have a configuration (e.g. CFG: 1) and a revision (e.g. REV: 2)  sometimes is a S/W (software) downloaded.

  • Page 11: Definitions / Explanations

    EBL128 picks up the digital values ("sensor values") for each detector individually. All evaluations and "decisions" are then made in EBL128, i.e. by advanced algorithms. Analog detectors are addressable – an address setting tool is used. An analog detector has to be plugged in an ASB.

  • Page 12: Old Detector

    Control Panel (see below). Fire Brigade Panel (FBP) The Fire Brigade Panel is a part of the EBL128 front, intended for fire alarm presentation, etc. for the fire brigade personnel. A separate unit; an external FBP, can also be connected to EBL128.

  • Page 13: Control Panel (Cp)

    Rev: 3 EBL128 Planning Instructions V1.1.x 2.10 Control panel (CP) The Control Panel is a part of the EBL128 front, intended for the building occupier, service personnel, etc. to "communicate" with EBL128 / the system. 2.11 LED (Light Emitting Diode) = Yellow, green or red optical indicator ("lamp").

  • Page 14: Overview

    The Win128 S/W shall have the same version number as the EBL128 S/W version number, e.g. 1.0.x. Only x may be different. Old SSD files can be used with a newer EBL128 S/W version. Open and save the old SSD file in the new Win128 version before the download. If a backup is required, use the same Win128 version as the EBL128 version.

  • Page 15: Control & Indicating Equipment

    Figure 1. The EBL128 Control & Indicating Equipment (4550). Depending on country, convention, configuration, etc. the look, language and functions might vary. Figure 1 shows an EBL128 with English front. The metal housing consists of a wall mounted chassis on which a removable skin, incl. the door, is attached. This makes the installation and service very easy.
  • Page 16 Fire Brigade Panel (FBP) and the Control Panel (CP). Figure 2. The EBL128 front. The look might vary depending on the country (language), configuration, etc. (e.g. English texts as in the figure).

  • Page 17: Com Loop

    The CP also holds several system status LEDs. COM loop EBL128 has one COM loop (0), to which the loop units are connected. Connections to "J1:1-4" according to drawing 128-21. On the COM loop can theoretically 127 COM loop units be connected (i.e. address 1-127).

  • Page 18: A Single Break (Cut-Off) On The Com Loop

    MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x In case of short-circuit or a break (cut-off) on the COM loop, EBL128 will in order to localize it, do the following:  The COM loop voltage and communication will be turned off.

  • Page 19: Several Breaks (Cut-Offs) On The Com Loop

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x FAULT: Cut-off SCI n <-> SCI n n = A, B, 0, 1, 2, 3, 4, 5, 6 or 7 depending on if no one, one or several isolators are used.

  • Page 20: Short-Circuit On The Com Loop

    33K resistors can be connected. Connections to "J1:5-8" according to drawing 128-22. When the connections are finished, a calibration has to be done. See also the EBL128 Operating Instructions chapter "Calibration of supervised outputs (menu H5/A3)". Each output has to be programmed (via Win128) regarding: ...

  • Page 21: Programmable Relay Output (R0)

    "Fire alarm type A and Fire alarm type B", page 96. It is possible to use a programmable input with trigger condition Activated routing equipment, to turn on the LED instead. Also if EBL128 becomes powerless (dead) and for "Watch-dog fault".

  • Page 22: Dc Power Supply Outputs

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x See also Win128 help or chapter "Programmable inputs", page 54. 24 V DC power supply outputs The two 24 V DC outputs can be used for:  Power supply of routing equipment (fire brigade tx / fault tx).

  • Page 23: Internal Power Supply

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Connections to "J2:1-5" according to drawing 128-24. 4.10 Internal Power supply Connector for the Web-server II 1598 power supply: 24 V DC output (3 ways Molex connector). Max. 500 mA (Fuse F9 Connections to "J4"...

  • Page 24: Expansion Boards 458X

    EBL128 Planning Instructions V1.1.x Expansion boards 458x Inside EBL128, in an optional expansion board holder 4551, can up to four optional expansion boards of types 4580, 4581 and 4583 be mounted. A supplied ribbon cable is used for the connection of the expansion board(s) to the main board.

  • Page 25: Expansion Board Address Setting

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Expansion board address setting The expansion board address is set via jumpers on the expansion board respectively. Board 4580, 4581 and 4583 4582 address Open Open Open Open...

  • Page 26: Type Of Zone Line Input

    This generates a fault condition in EBL128. From this state any other state can be reached / activated except the open circuit state.

  • Page 27: Relays Expansion Board 4581

    Zone line low voltage limit (15 V DC) is passed without the high current state is activated, indicating some H/W fault. This generates a fault condition in EBL128. From this state any other state can be reached / activated. 8 relays expansion board 4581 Each board has to be programmed via Win128 regarding: ...
  • Page 28 One to five 33K resistors can be connected. When the connections are finished, a calibration has to be done. Calibration value has to be in the range 4K7-50K. See also the EBL128 Operating Instructions chapter "Calibration of supervised outputs (menu H5/A3)".

  • Page 29: I/O Matrix Board 4582

    A special type of expansion board that can only be used together with an Application board (Fan, Generic or Zone). The I/O Matrix board makes it possible for any retailer to manufacture and connect three different types of "Application boards" to EBL128 via the COM loop. EBL512 NOTE! C.i.e.

  • Page 30: Generic

    4580, 4581 and 4583 are used. but max. two I/O Matrix boards of the types Generic and Zone respectively. In EBL128 can totally up to 200 outputs be used, including all kinds of outputs. For more information (e.g. application board type selected via jumpers JP4-JP5), see the I/O Matrix board 4582, Technical description MEW00914.

  • Page 31: Zone Control

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x  Technical address (COM loop address 1-127)  Fan control information  I/O Matrix fan control (Fan control 0-3)  Supervised or not supervised  Properties as for any programmable output ...

  • Page 32: Peripheral Devices

    COM loop. Addressable sounders (alarm devices) are connected directly on the COM loop. Input devices as key cabinet, timer, external fault, etc. are connected to programmable inputs, i.e. to input (I0) in EBL128 and/or to input units connected to the COM loop. Display units are connected to the RS485 interface in EBL128.

  • Page 33: Input Units

    Each COM loop unit has to have a unique technical address (001- 127). This address and the mode are set with an Address Setting Tool 3314. For EBL128 is always the NORMAL mode used (default). NOTE! The technical address for Addressable Base station for wireless units is set on a DIL-switch in the unit respectively.
  • Page 34 Address setting tool (AST) 3314. The base has an address label on which both the plugged-in detector's technical address and the isolator's technical address are to be written. The Address setting tool 3314 is also used for mode setting: NORMAL mode: Used for 4313 in EBL128.
  • Page 35 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 2330 mode: Not used in EBL128. 2312 mode: Not used in EBL128. 6.1.1.2 Addressable Manual Call Points 3333 Addressable Manual Call Point. Conforms to EN54-11. A built-in LED will indicate that fire alarm is generated, i.e. the glass is broken.
  • Page 36 A1 (54-65°C), min./typical/max. ambient temp. -20/+25/+50°C A2 S (54-70°C), min./typical/max. ambient temp. -20/+25/+50°C B S (69-85°C), min./typical/max. ambient temp. -20/+40/+65°C 2330 mode: Not used in EBL128. 2312 mode: Not used in EBL128. 4300 Analog multi detector. A smoke detector and a heat detector within one housing.
  • Page 37 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Decision algorithm: Fire alarm will be activated if: temperature (°C) + adjusted smoke value > 58. Pre-warning will be activated if: 58 > temperature (°C) + adjusted smoke value >...
  • Page 38 L-35, N-15 or N-35 and for the heat detector set to one of three algorithms for class A1 (static response temp. 54-65°C), A2 S (54-70°C) or B S (69-85°C). 2330 mode: Not used in EBL128. 2312 mode: Not used in EBL128. 4301 Analog photo electric smoke detector.
  • Page 39 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x algorithm is used to secure the smoke detection and to prevent false (nuisance) alarms, e.g. a minimum of nine consecutive readings over the fire alarm level are required, before the detector goes into alarm.

  • Page 40: Addressable I/O Units

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x read the mode, NORMAL or 2330 (see the unit respectively). A connection cable (with crocodile clips and tab terminals) is attached and can be used when required. Put the ON/OFF switch in position ON and wait for a beep.
  • Page 41 3314. The unit has an address label on which the programmed technical address is to be written. The Address setting tool 3314 is also used for mode setting: NORMAL mode: Used for 3361 in EBL128. 2330 mode: Not used in EBL128. 2312 mode: Not used in EBL128.

  • Page 42: Alarm Devices (Addressable Sounders)

    3314. The unit has an address label on which the programmed technical address is to be written. The Address setting tool 3314 is also used for mode setting: NORMAL mode: Used for 3364 in EBL128. 2330 mode: Not used in EBL128. 2312 mode: Not used in EBL128.

  • Page 43: Short Circuit Isolators (Addressable)

    COM loop address set via the Address setting tool 3314.) The Address setting tool 3314 is also used for mode setting: NORMAL mode: Used for 3379 in system EBL128. 2330 mode: Not used in system EBL128. 2312 mode: Not used in system EBL128.
  • Page 44 Each isolator has to be given a Sequence Number, 0-7. The isolators have to be connected consecutively (Sequence Number 0-1-2-3-4-5-6-7) in the COM loop's A-direction. NOTE! EBL128 has one built-in isolator in the-A direction (no. "A") and one in the B- direction (no.

  • Page 45: Units For Hazardous (Ex) Areas

    6.1.6 Other COM loop units 3366 External power supply. Conforms to EN54-4. The unit is connected to a COM loop, i.e. it is monitored from EBL128 and e.g. loss of the main power source will generate a fault in EBL128.
  • Page 46 3314. The unit has an address label on which the programmed technical address is to be written. The Address setting tool 3314 is also used for mode setting: NORMAL mode: Used for 3366 in EBL128. 2330 mode: Not used in EBL128. 2312 mode: Not used in EBL128.

  • Page 47: Com Loop Addresses For Base Station And Wireless

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x detector is power supplied by three pieces of a 3 V Lithium 2400 mAh battery, type 4602. The battery life time is more than three years. Up to 16 Wireless photoelectric smoke detectors, type 4601, can be "connected"...

  • Page 48: Units Connected To The Rs485 Interface

    Address and S/W mode settings The display and the push buttons (in the unit respectively) are used to set the address, which also can be changed via EBL128. The S/W mode shall be set to xxxx – 1587 (xxxx = type number). See the Technical Description for the unit respectively.

  • Page 49: Alert Annunciation Units

    Alert Annunciation Units When the Alert Annunciation (AA) function shall be used in system EBL128, a unit is required for the related manoeuvres, i.e. to acknowledge / reset the AA alarms. For a detailed description of the Alert Annunciation function, see chapter "Alert Annunciation", page 1735 Alert Annunciation Unit (AAU).

  • Page 50: External Presentation Units

    EBL128. Furthermore, at least 617 texts can for selected fire alarms be stored in the unit and will in such a case be shown, instead of the texts sent out from EBL128 for these alarms. These text messages will be downloaded to the unit via EBL128.

  • Page 51: German Fire Brigade Panels

    It can be silenced. Any disablement in the system will be presented as "General disablement in system". A built-in buzzer will sound like in EBL128. The buzzer can be silenced but the alarm devices in the installation can not be silenced via this unit.

  • Page 52: Units Connected To The Rs232 Interface J5

    EBL128 Planning Instructions V1.1.x are in German. Serial RS485 interface for IHD protocol. The unit is power supplied from EBL128 (or an ext. power supply). Up to 1200 m cable can be used. NOTE! Switch 1 on the DIP switch shall be set to "on".

  • Page 53: Units Connected To The Rs232 Interface J3

    Units connected to the RS232 interface J3 J3 is a 9 ways female "D" connector. This interface is used only for connection of EBL128 to a PC with the PC program Win128, which is used for download / backup of Site Specific Data (SSD), etc.

  • Page 54: Alarm Devices (Sounders, Etc.)

    Alarm devices (sounders, etc.) Regarding addressable alarm devices, see page 40. In the Panasonic product range are no alarm device intended for a supervised (monitored) voltage output (e.g. S0 or S1 in EBL128). Connections of alarm devices according to drawing 128-22.

  • Page 55: Programmable Inputs

    Rev: 3 EBL128 Planning Instructions V1.1.x Programmable inputs EBL128 has one programmable input (I0). In EBL128 can also be mounted the Inputs and Outputs expansion board 4583, with five programmable inputs (Input 0-4). See chapter "Expansion boards 458x", page 22. All these inputs can be supervised or not supervised.

  • Page 56: Control Unit Input I0 & Inputs And Outputs Exp. Board 4583, Input 0-4

    Short-circuit 7.1.2.1 Input line fault If open circuit (cut-off) or short-circuit is detected on a supervised input, a fault will be generated in EBL128 and the following fault message will be displayed: FAULT: Programmable input alternatively FAULT: Programmable input x exp. board x...

  • Page 57: 3361 Unit Inputs In0 / Z & In1

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 3361 unit Inputs In0 / Z & In1 Connections, see drawing 128-26. NOTE! The input In0 / Z can be used as a general input (In0) or as a monitored zone line input (Z) requiring an end-of-line capacitor (470 nF).

  • Page 58: Input Programming

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Input programming Input programming is done via Win128. For more information, see the Win128 help. Each input has to have an individual Trigger condition ("Type") and Logic. Each input can be supervised or not supervised.
  • Page 59 Output with trigger condition "Indication Fire Brigade tx Activated" will be activated. 10. Ext. fault will activate a fault in EBL128. A user definable fault message ("text") with up to 40 characters will be shown. 11. A feed-back from the equipment activated by the corresponding interlocking output.

  • Page 60: Logic

    Zone no. and Address set to the same as the corresponding fire alarm (from the same detector). 16. "Activated Fault routing equipment" signal (feed-back) to EBL128 will light up the LED "Fault tx activated" on the front. Output with trigger condition "Indication Fault tx Activated" will be activated.

  • Page 61: Not Supervised (Default)

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 8.2.1 Not supervised (default) (•) Normally open (low) Normally open contact / normally low optocoupler input (3361). ( ) Normally closed (high) Normally closed contact / normally high optocoupler input (3361).

  • Page 62: Programmable Outputs

    Rev: 3 EBL128 Planning Instructions V1.1.x Programmable outputs EBL128 has two programmable voltage outputs (S0 and S1) and one programmable relay output (R0). 8 relay outputs expansion board 4581 can be mounted in EBL128. Input and Output expansion board 4583 with three programmable outputs (Output 0-2) can be mounted in EBL128.

  • Page 63: Control Unit Outputs S0 - S1

    (not monitored). A normally high output can not be supervised. Supervised outputs have to be calibrated via menu H5/A3, see the EBL128 Operating Instructions. 1-5 supervision resistors 33K can be used. The calibrated value has to be in the range 4K7-50K. A fault will be generated...

  • Page 64: Control Unit Output R0

    Connections and more information, see drawing 128-22. See also chapter "Programmable voltage outputs (S0-S1)", page 18. Control unit output R0 EBL128 has one programmable relay output: Relay output, NO or NC contacts programmable. As default R0 is set to type "Routing equipment" (Fire brigade tx), Steady (cont.), normally open and trigger condition "Fire brigade tx".

  • Page 65: The 3361 Unit Outputs Re0 - Re1

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x The 3361 unit outputs Re0 – Re1 Each 3361 unit has two programmable relay outputs: Re0 Relay output, NO or NC contacts programmable Re1 Relay output, NO or NC contacts programmable Relay contacts: max.

  • Page 66: Output Programming

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Output programming Output programming is done via Win128. See the Win128 dialog box respectively. For more information see also Win128 help. 10.1 Type The following output types are available (see also comments below): 0.

  • Page 67: Logic

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 10.2 Logic The logic is set in the Win128 dialog box "Voltage or Relay Output". (•) Normally open / low Normally open relay contacts / normally low voltage output.
  • Page 68 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Figure 13. Delay time, Pulse length, Pulse off and/or De- Activation, have to be set for the "Signal period" respectively. For types 1 & 4 the x and y times must be equal and max. 5.6s.
  • Page 69 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x In EBL128 COM loop units Output S0-S1 4581 4583 I/O unit Unit Siren & 4582 Inter Type 3361 3364 board locking board board 3377 & 3378 0 Steady (continuous)

  • Page 70: Control Expression

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 10.5 Control expression Each programmable output has to be given a control expression (with one or more trigger conditions), made by so called Boolean algebra. Trigger conditions (displayed a list by clicking the right mouse button), logical "Operators"...
  • Page 71 For more information, see EBL128 Operating Instructions. Only valid for EBL128 outputs (S0-S1 and R0), 4581 outputs and 3361 outputs (i.e. not 3364 outputs). The trigger condition is true as long as the pre-warning level is exceeded. It is also true as long as the fire alarm level is exceeded.
  • Page 72 AA alarm is reset or becomes a normal fire alarm. more information, see EBL128 Operating Instructions. Door open in EBL128 / ext. FBP. Key cabinet alarm. For more information, see EBL128 Operating Instructions. General control disabled (via menu H2/B7). General alarm device disabled (via menu H2/B8 or via "Silence alarm devices).

  • Page 73: Logical Operators

    Indicated by LED "Fault / Disablements Alarm devices". In Danish convention (DBI), must only EBL128 outputs R0, S0-S1 and the COM loop unit 3364 be used. The type has to be "control neutral". Indicated by LED "Service".
  • Page 74 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 10.5.3.1 a AND b AND c=y y is true (=1) when all the conditions a, b, c are true, i.e. a=1 and b=1 and c=1 makes y=1. All other combinations makes y=0.
  • Page 75 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x This is shown in the following table: 10.5.3.4 Parentheses Changes priority order. a OR NOT (b AND c)=y (This is same as the previous but parentheses are added, which makes a differance.) This is shown in the following table: 10.5.3.5...
  • Page 76 General Control disabled AND NOT Door Open Explanation: Controls disabled via menu H2/B7 will activate the output R0 when the door in EBL128 is not open (i.e. when it is closed). Example 3 Output: Voltage output VO0 Control expression: Fire Alarm Zone (23) AND Fire Alarm Zone...

  • Page 77: Interlocking Function

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Interlocking function The interlocking function is used to verify that an output really is activated, i.e. by "combining" an output with an input (feed-back from the equipment controlled by the corresponding interlocking output).
  • Page 78 Win128", page 101. Buzzer checked = activated interlocking input will turn on the EBL128 buzzer (0.8 / 0.8 sec.) . The buzzer can be silenced. It will be automatically turned on again, if a new interlocking input is activated.

  • Page 79: Interlocking Indications

    Date: MM-DD Time: HH:MM 11.2 Interlocking indications One or more activated Interlocking Combinations (interlocking output and/or input) are indicated in the display in EBL128 Interlocking input/output activated See menu H9/C1 Disabled interlocking output is indicated by the LED "Disablements". 11.3...

  • Page 80: Activate Interlocking Output (H9/C2)

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 11.3.2 Activate interlocking output (H9/C2) Even if the control expression for an interlocking output is not fulfilled (true), the output can be manually activated via this menu. The "Interlocking Combination" (Area / Point) is to be entered to activate the output.

  • Page 81: Fire Door Closing Function

    /output has to be "Interlocking in-/output". See also chapter "Interlocking function", page 76. In the DBI (Danish) convention, must only EBL128 outputs R0 and S0-S1 as well as the 3364 unit be used and "Type of output" has to be "Control neutral".

  • Page 82: Functions / Services / Features

    "Working level". 13.1.2 Week average sensor value Each hour, one sensor value is stored (in EBL128) and each week are these stored sensor values used to calculate a "week average sensor value". This is done for each analog smoke detector individually.

  • Page 83: Decision Value

    / level and service level. "Sensor Information" is available via menu H4/U3. Via Win128 and a PC connected to EBL128 you can get "Sensor Information" for all analog detectors on the COM loop or an individual detector. For an individual detector you can also get continuous information.

  • Page 84: Alarm Algorithm / Alternative Alarm Algorithm

    In addition, a special password is required to change the fire alarm parameters. "Pre-warning", "Fire Alarm" and "Heavy Smoke Alarm" can activate programmable outputs respectively, see chapter "Control expression", page 69. See also the EBL128 Operating Instructions. 13.1.5 Alarm algorithm / Alternative alarm algorithm Alarm algorithm...

  • Page 85: Filtering Algorithm

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Normal detection time (15 sec.) If it was possible to completely fill up a detector with smoke within 1 sec. there will nevertheless be 15 seconds alarm delay. This alarm delay is a "filter" to reduce nuisance alarms.
  • Page 86 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x H-15 N-15 L-15 H-35 N-35 L-35 (High (Normal (Low (High (Normal (Low sensitivity, sensitivity, sensitivity, sensitivity, sensitivity, sensitivity, 2.4%) 3.6%) 2.4%) 3.6%) 4301 4300 X=10 X=12 Figure 17. The six alarm algorithms. Default is alarm algorithm N-15, i.e.

  • Page 87: Smouldering Smoke Algorithm

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Next polling the sensor value is approx. "45". 45-15 > 5, i.e. the decision value "15" is increased by 5 to "20", and so on. In this example the sensor value starts to decrease before the decision value reaches the fire alarm level.
  • Page 88 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x The smouldering smoke algorithm will be aborted and the pre- warning and fire alarm levels restored to their original values if: - The decision value becomes lower than the smouldering level.

  • Page 89: Performance Factor

    The actual algorithm is shown in menu H4/U3. When EBL128 has picked up a sensor value above the fire alarm level for a detector, the next two values from the same detector also...

  • Page 90: Class A1 Algorithm

    Rev: 3 EBL128 Planning Instructions V1.1.x have to be above the fire alarm level to activate fire alarm in EBL128. (This results in approx. 7 seconds alarm delay). The same is valid for pre-warning only it is a lower level than for fire alarm.

  • Page 91: Self Verification

    S/W and CPU. Every minute, each detector will receive a question from EBL128. If the self verification function has detected any fault it will be reported back to EBL128. A fault will be activated in EBL128 and the following fault message will be shown: FAULT: Detector xx-xx →...

  • Page 92: Two-Zone Dependence (Co-Incidence Alarm)

    "fire alarm state" (i.e. over the fire alarm level) the same time to activate fire alarm in EBL128. If only one such alarm point is in "fire alarm state" it is indicated in EBL128 as a co- incidence alarm: ...

  • Page 93: Alarm Verification Facility

    OFF the AA function and the "Fire brigade A not delayed zone would in this state activate a fire alarm in EBL128. A zone with the AVF not selected would in this state activate a fire alarm...
  • Page 94 (disabled) via menu H2/B10 and will stay so until re-activated (re- enabled) again via menu H2/B10. NOTE! As default it is the relay output "R0" in EBL128. If another output shall be used it has to be programmed as type Routing Equipment (Fire brigade tx) and the trigger condition has to be "Fire brigade tx".

  • Page 95: Alarm Acknowledgement Facility (Aaf)

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x The Acknowledge time can be set to 5-60 seconds. The Investigation time can be set to 1-9 minutes. NOTE! According to EN54-2, the total delay of fire alarm routing equipment must not exceed 10 minutes (i.e.
  • Page 96 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Quiscent state Any detector in alarm? Buzzer ON AP timer starts Detector LED ON AAFC LED ON AAFC button pressed? IP timer starts Buzzer OFF Count down Detector LED OFF...

  • Page 97: Quiet Alarm

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Annunciation function. Only Analog photo electric smoke detector 4301 and Analog multi detector 4300 can be used for AAF. If the Analog multi detector 4300 is used, it must be programmed as type "Two addresses", so that only the "smoke part"...

  • Page 98: Fire Alarm Type B

    Disable zones, alarm points, outputs, etc. Temporary disablements are made via the menu H2 sub menus B1-B3 & B7-B9. For more information see the EBL128 Operating Instructions, chapter "Disable or re-enable (H2)". Regular disablements are made via time channels, see chapter "Time Channels", page 119.

  • Page 99: Disconnect / Re-Connect Zone Line

    Disconnect a zone line (on a 4580 board) via menu H5/A2. Disconnected zone line will stay disconnected until re-connected. Re-connect via menu H5/A2. For more information see EBL128 Operating Instructions. 13.13.3 Disable zone / address Individual alarm points can be disabled via menu H2/B2.

  • Page 100: Disconnect / Re-Connect Com Loop

    Alarm points / zones can be tested during the Monthly test (via menu H1) or separately (via menu H7). For more information see the EBL128 Operating Instructions. The LED "Test mode" indicates one or more zones in Test mode. Zones in Test mode are also simultaneously shown in the EBL128 display.

  • Page 101: Calibration Of Supervised Outputs

    Calibration of supervised outputs The supervised (monitored) voltage outputs have to be calibrated after the installation is finished. This is done in EBL128 via menu H5/A3. A value outside the calibration value range 4K7-50K and 470 nF to 5x470 nF respectively, will generate a fault as well as when the actual value differs from the calibrated value ±...

  • Page 102: Creating The Alarm Texts Via Win128

    , there is a "Text" field where the alarm text for the alarm point can be typed (or edited). This is the text that will be shown in the display in EBL128 when this alarm point has activated a fire alarm.
  • Page 103 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Explanations: Zone-Address column Shows the already programmed alarm points (e.g. 01-01, 01-02, 02-01 etc.). Only the texts have to be typed / edited in the "Text" column. Shows the already programmed zones, i.e. MIO unit 3361 zone line inputs programmed with address "00"...

  • Page 104: Downloading Texts To The Epu 1728, Aaus 1735 / 1736 And Ext. Fbps 1826 / 1828

    "display units". The texts will then be downloaded at the same time as the EBL128 site specific data (SSD) is downloaded via Win128. The texts can as an alternative be downloaded in one "display unit" at a time but the PC (with Win128) has nevertheless to be connected to EBL128.

  • Page 105: Time Channels 1-4

    EBL128 Planning Instructions V1.1.x 13.22 Time channels 1-4 Time channels 2-4 are controlled by the EBL128 RTC (real time clock). One time on, one time off, one time on and one time off can be set for each time channel 2-4.

  • Page 106: Fault: Loss Of Main Power Source

    Opens a dialog box for upload ("backup") of SSD from EBL128 and the "Display Units". Log on require the PC to be physically connected to EBL128 and a password is required. The PC has to be connected and logged on to EBL128.
  • Page 107 (e.g. com port, convention, etc.). Download Software…: Opens a dialog box for download of a EBL128 S/W file (xxx.bin) and/or a Text file (.sst) to an EBL128. Edit Alarm Texts…: Opens the "Text editor" for the alarm texts to be shown in EBL128.

  • Page 108: Special New Zealand Functions

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Special New Zealand functions NOTE! The functions in this chapter are valid for the New Zealand convention only. 14.1 Alarm devices 14.1.1 Silence alarm devices (inside switch) On the c.i.e. front, the button "Silence alarm devices" (see Operating Instructions, button "P3") is called the "inside switch"...

  • Page 109: Battery Faults

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x The outside switch is turned OFF (i.e. from activated to not activated state).  The fault " FAULT: FB Silence switch active" will be Serviced  Any fire alarm ("ALM") and acknowledged alarm ("ACK") will automatically be disabled / isolated.

  • Page 110: Watchdog Reset

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x  The battery charging is turned off 60 minutes every 24 hour.  Battery voltage is checked during this 60 minutes period.  Battery voltage < 24.4 V generates a fault.

  • Page 111: Cyber Sensor Functions

    NOTE! NOTE! NOTE! NOTE! NOTE! NOTE! NOTE! The analog detectors 4301 and 4300 can via the address setting tool 3314 be set in different modes but in EBL128 can only NORMAL mode be used. The detector functions are described in chapters "COM loop units", page 30 and "Functions / Services / Features",...

  • Page 112: Pulse Up - Down Counter

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Learning function / conditions. The detector will adapt a learning condition depending on the long-time influence of smoke and/or the temperature, where the detector is located. Pulse up – down counter 15.1...

  • Page 113: Alarm Threshold Levels

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 4352: Fire alarm is activated. 4350: Depending on the AI function (learning condition, temperature condition, etc.) a delay time has to run out before fire alarm is activated.
  • Page 114 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 15.4.1.1 Steam / tobacco condition, level 1 In a learning period there are twenty 36h-periods (i.e. 20 x 36h = 720h = 30 days = one month).  ...

  • Page 115: Alarm Delay Time

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 15.4.1.5 Learning condition summary A detector can adapt the following learning conditions, depending on if and when level 1, level 2 and level 3 are exceeded or not:...

  • Page 116: Analog Data Output

    15.6 Analog data output The smoke obscuration value (%/m) and the temperature (°C) can be shown via EBL128. A new value is calculated every second but the displayed smoke obscuration value is an average value for the last four seconds.) The following is valid for the different type of detectors: 4352: This detector has no analog output.

  • Page 117: Address Setting Check

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 4352: This detector has no self diagnosis of internal devices. 4350: This detector has self diagnosis of internal devices (but no separate fault output). 4301: This detector has self diagnosis of internal devices.

  • Page 118: Control Unit Properties (Settings)

    The following is read only information that will be automatically updated when the SSD is edited. LCD bottom row The LCD in EBL128, can in quiescent state, on the bottom (second) row show a 40 characters user definable text. 16.1.1 AAF times Acknowledge periode: 30 sec.

  • Page 119: Time Channels

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Investigation time: 3 min. 3 is default. 1-9 minutes is possible to set. NOTE! According to EN54-2, the total delay of fire alarm routing equipment must not exceed 10 minutes, i.e. Acknowledge time + Investigation time <...
  • Page 120 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Figure 26. Left: The "Time channel 2" dialog box without any programming done. Right: One time interval is programmed for the Monday (time channel 2 is "on" 07:00 – 16:00).

  • Page 121: Alarm Algorithms

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Sunday: Programmed the same way as the Monday. N.H.: Programmed the same way as the Monday. See also chapter "National Holidays", page 123. Time channels 3 and 4 are programmed the same way as time channel Current day: The programmed time intervals (when the time channel is "on") for the selected day, are shown here.

  • Page 122: Parameters For Smoke Algorithms

    Name: Name of the algorithm (e.g. N-15, Class A1 & Decision). Normally not changed. Abbrevation: The algorithm abbreviation (< six characters) as shown in the EBL128 display, menu H4/U3 (e.g. N-15, A1 & Des). Normally not changed. 16.3.1 Parameters for smoke algorithms Offset is a fixed value added to the week average sensor value to get the "alarm"...

  • Page 123: Parameters For Combined Decision Algorithm

    Figure 29. The Win128 tab page "Control Unit Properties" with the tab "National Holidays" open. Up to twenty national holidays can be downloaded to EBL128. Each national holiday can be added one by one, i.e. by selecting a date in the drop-down list (up to the right) and click "Add" to add a row...
  • Page 124 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x ® ® If Microsoft Outlook is installed on you PC the national holidays can be automatically added in the list by clicking "Import holidays from Outlook…". The holidays not valid any longer can be removed from the list, i.e.

  • Page 125: Output Signal Periods

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 16.5 Output Signal Periods Figure 31. The Win128 tab page "Control Unit Properties" with the tab "Output Signal Periods" open. See also chapter "Output signal period", page 66.

  • Page 126: Advanced

     Single encapsulated reset: Fire alarms will be reset one by one by pressing the "Reset" button. The fire alarm shown on the first row to the left in the EBL128 display will be reset. This function is a violation to the EN54-2 standard.

  • Page 127: Zone Line Input Alarm Delay Time

    Disabled routing equipment is a violation to the EN54-2 standard. Door open in EBL128 or in an ext. FBP is indicated by LED "Door open" in the C.U. Disabled outputs for routing equipment are indicated by the LED "Disablements"...

  • Page 128: Statistics

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 16.7 Statistics Figure 33. The Win128 tab page "Control Unit Properties" with the tab "Statistics" open. Information only. Number of addresses The number of units (addresses) added to the COM loop so far is shown here.

  • Page 129: Cable Types

    COM loop cables Loop topology is used for highest safety, i.e. the cable connected in EBL128, returns back to EBL128. See drawing 128-21. In case of a single break on the loop the communication starts in both directions and a fault is generated (and a message is displayed).
  • Page 130 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x ELQRB 2 x 0.6 mm (0.3 mm ) or ELQRB 10 x 2 x 1 mm (0.75 mm or equivalent.

  • Page 131: Com Loop Cable Length

    One of the graphs has to be used depending on which type of units that are connected to the COM loop. Graph 1 is not used for EBL128. Start checking the terms below for Graph 2 and then Graph 3.
  • Page 132 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Maximum conductor resistance 120 160 200 240 280 320 Total COM loop unit current consumption Figure 34. Graphs showing the total conductor resistance in relation to the COM loop units' total current consumption. NOTE! The graphs start at "0 mA"...
  • Page 133 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Maximum cable length Meter Total COM loop unit current consumption Figure 35. Graphs showing the cable length in relation to the COM loop units' total current consumption. NOTE! The graphs start at "0 mA" and 863 m cable length respectively but graph 1 and 2 ends at "180 mA"...

  • Page 134: Current Consumption

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Current consumption The different loop units have different current consumption. Note that some units have much higher current consumption in "active state" than in normal state. The tables below can be used: ...

  • Page 135: Current Consumption

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x COM loop units (input units) Normal state (mA) Alarm state (activated) (mA) Analog heat detector 3308 + analog base 3312/4313 0.3 + 2 (int. LED) Analog heat detector, enclosed 3309 0.2 + 1.5...
  • Page 136 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Other units Normal state Alarm state (quiescent) (mA) (activated) (mA) Routing equipment (Fire brigade tx / Fault tx) Acc. to the Acc. to the producer producer Alert Annunciation Unit (AAU) 1735 / 1736...

  • Page 137: Power Supply

    Power Supply (rectifier), 230 V AC / 24 V DC ±1%, 1.8 A). Second power source By loss of 230 V AC, etc. EBL128 is powered by built-in back-up batteries, i.e. two Sealed Lead-Acid batteries, 12 V, 16-18 Ah. The batteries and the rectifier are connected to the Main board (4556), which also handles the charging of the batteries.

  • Page 138: Battery Charging Functions

    Rectifier 4557 to the Main board 4556 exceeds 1.8 A, i.e. the EBL128 current consumption exceeds 0.8 A. The battery charging will remain turned off as long as the EBL128 current consumption exceeds 0.75 A. It will generate a fault and the...

  • Page 139: Current Consumption Calculations

     I = the current consumption for all other equipment alarm state. The total EBL128 current consumption in Normal ( quiescent ) state: The total EBL128 current consumption in Alarm ( activated ) state: Comments regarding (I has to be < 0.7 A.

  • Page 140: Main Power Source (Power Supply)

    (theoretically) in a battery back-up time of 30 hours. Comments regarding (I has to be < 1.8 A. See Figure 36, page 137. Total EBL128 current consumption in relation to back-up time, see the table in chapter "Second power source (Battery)", page 140. 20.3 Main power source (Power Supply) The main power source is a Switching Power Supply (rectifier).

  • Page 141: Form / Table Of Current Consumption

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x 80 / 90 NOTE! The values are calculated and give only a rough idea of the back-up time. 20.5 Form / Table of current consumption Some national regulations require different forms / tables regarding current consumption, to be filled in.

  • Page 142: W Versions

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x S/W versions Due to continual development and improvement, different S/W versions can be found. Different S/W versions can be found on different markets. The S/W versions listed below were valid when this document was written (the date of this document or date of revision).

  • Page 143: Technical Data

    Metal cabinet: Aluminium & light grey (NCS S 1500-N / PMS Cool Gray 2) Approvals EBL128 is fully compliant with the European standard EN54 parts 2 and 4 and the front is fully SS3654 compliant. The rated output voltage is 24 V DC ± 1% for the main power source (rectifier).

  • Page 144: Limitations

    Rev: 3 EBL128 Planning Instructions V1.1.x Limitations 23.1 C.i.e. Max. number of "items": Item Max. no. Fire alarms (presented in the EBL128 display as ZONE and/or ZONE- ADDRESS) Faults Trigger conditions (in all the control Approx. expressions) 1000 Interlocking Combinations...

  • Page 145: National Regulations / Requirements

    When planning a fire alarm installation, national regulations, customer demands, etc. have to be followed. EBL128 is very flexible with the many built-in functions & facilities in the S/W and the PC program Win128. When downloading the S/W and/or the SSD, different settings, conventions, languages, etc. can be selected to fulfil the national regulations / requirements.

  • Page 146: Drawings / Connection Diagrams

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Drawings / connection diagrams All dimensions quoted are approximate only and subject to change without notice, as are other technical features and data, resulting from continual development and improvement.

  • Page 147: Revision History

    Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x Revision history Revisions are when possible written in red font colour. Revision 1 NOTE! A new / added chapter results consequently in re- numbering of the succeeding chapters.
  • Page 148 Panasonic Electric Works Nordic AB MEW01090 Rev: 3 EBL128 Planning Instructions V1.1.x...
  • Page 149 This page has deliberately been left blank.
  • Page 150 Panasonic Electric Works Nordic AB Jungmansgatan 12, SE-211 19 Malmö, Sweden Tel: +46 (0)40 697 70 00 • Fax: +46 (0)40 697 70 99 [email protected] • www.panasonic-fire-security.com...

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