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Summary of Contents for hyfire HY5000 Series
- Page 1 Hyfire (HY5000) Series Fire Alarm Panel The operation and functions described in this manual are available from Software Version 5000-050-04 onwards. Page 1...
- Page 2 Specifications: Item Specification Details Part Number: HY5100 HY5200 HY5400 Enclosure Steel IP30 RAL7035 Steel IP30 RAL7035 Steel IP30 RAL7035 345 x 345 x 85 345 x 430 x 120 475 x 450 x 120 (/M) 345 x 430 x 120 (/L) 475 x 450 x 120 Dimensions H x W x (/D) 475 x 450 x 190...
- Page 3 Loop Current 500mA max. 500mA max. per Loop 500mA max. per Loop 240 detector/call points per loop (max) – MXP-502 (or MXP-568) Devices per Loop Protocols Advanced AV Sounder Outputs 2 x 1A Programmable 2 x 1A Programmable 4 x 1A Programmable Relay Outputs 2 x1A 30VAC/DC (max) 2 x 1A 30V AC/DC (max)
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Page 4: Table Of Contents
Table of Contents Page INTRODUCTION ............................... 8 ..............................8 TANDARDS .......................... 9 AUTIONS AND ARNINGS .............................. 9 ESCRIPTION 1.3.1 HY5000 Series ............................9 EN54 F ............................. 10 UNCTIONS EN54 O ..................11 PTIONAL EATURES WITH EQUIREMENTS ........................12 NSTALLATION PPROVALS 1.6.1... - Page 5 2.5.9.2 Display Card ............................34 2.5.10 RS232 Interface ..........................34 2.5.11 USB Interface (Type B) ........................34 2.5.12 Routing Interface ..........................35 2.5.12.1 Fire / Fault Routing ..........................35 2.5.12.2 Fire Protection Routing ........................... 35 2.5.13 VdS Interface ..........................36 2.5.13.1 FAT / FBF Direct Connection ........................
- Page 6 3.3.18 Setup .............................. 56 3.3.18.1 Network ..............................56 3.3.18.2 Panel Zone ............................. 56 3.3.18.3 Service Number ............................56 3.3.18.4 Service Due Date ............................ 57 3.3.18.5 Trace Logging Mode ..........................57 3.3.18.6 Detector Blinking ............................. 57 3.3.18.7 Earth Fault Notification ..........................58 3.3.18.8 Resound ..............................
- Page 7 5.6.1 Mandatory Functions........................... 76 5.6.2 Network Wiring ............................ 76 5.6.3 Parent Functions ..........................76 7 – L ................... 77 PPENDIX EVICE PECIFIC NFORMATION 5.7.1 Detectors ............................. 77 5.7.1.1 HFI-PA-05 Smoke Detector ........................77 5.7.1.2 HFI-MA-05 Multi Sensor Detector ......................77 5.7.1.3 HFI-TA-05 Heat Detector ........................
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Page 8: Introduction
1 Introduction 1.1 Standards Hyfire declares that the products identified below conform to the essential requirements specified in the Construction Product Regulation No. 305/2011. D.o.P. HY5000 EN54-2: 1997 +A1:2006 Control and indicating equipment for fire detection and fire alarm systems for buildings... -
Page 9: Cautions And Warnings
PC Configuration Tool. 1.3 Description This manual covers the installation, programming, and commissioning of the HY5000 Series Fire Alarm Control Panels. This manual provides generic programming and installation information. Refer to the User Manual (Document No. 680-166) for details of how to operate the panel. -
Page 10: En54 Functions
1.4 EN54 Functions This Fire Alarm Control Panel is compliant with the requirements of EN54-2 (1997) and EN54-4 (1997) and EN54-13 (2005). In addition to the basic requirements, the following optional functions are provided, and these comply with the requirements of EN54. C.I.E Optional Functions EN54-2 Clause Indication... -
Page 11: En54 Optional Features With Requirements
1.5 EN54 Optional Features with Requirements In addition to the mandatory requirements of EN54 Part 2, the Control, and Indicating Equipment (CIE) supports the following optional features with requirements: - Outputs to Fire Alarm Devices. The C.I.E has provision for connection to Fire Alarm Devices. It is possible to Silence and Resound the alarms at Level 2. -
Page 12: Installation Approvals
Outputs to Fault Routing Equipment. The C.I.E has provision to signal the fault condition to a remote receiving station such as the service centre office. Requires installation of a routing interface card. Section 8.9 Refer to Sections 2.4.1/2.4.5, 2.5.12/2.5.13, 3.3.21, 3.3.22 for further information. -
Page 13: Installation
2 Installation 2.1 Identification of Parts The following diagrams show the major parts of the panels. 2.1.1 HY5100 /S Enclosure comprises: Back Box Door Back box Base Card with 1x Loop AC Input Driver mounted onto a Chassis Plate Door with Display Card Display Cable mounted onto a fascia... -
Page 14: Hy5200
2.1.2 HY5200 /M Enclosure comprises: Back Box Base Card with 2x Loop Door Back box Display Drivers mounted onto a AC Input Chassis Plate Door with Display Card mounted onto a fascia Display Cable plate. Key-Lock. WARNING: HIGH VOLTAGE INSIDE DO NOT REMOVE COVER Option for eight key- No Serviceable Parts Inside... -
Page 15: Hy5400
The rack module can be incorporated into 19” Commercially available rack enclosures (Sarel or Rittal) or in Hyfire MXM-510-XXU Rack enclosures. Weight: 6Kg For more information on the rack system and optional modules, see document 680-195. - Page 16 MXM-510-16U Rack Enclosure Glass Door 1U Blanking Plate 730 x 535 x 230, Steel, 22Kg Glass Door, Panel Module Key Lock IP55 Door Closed IP30 Door Open Blank Plates or Optional Modules MXM-510-20U Rack Enclosure 910 x 535 x 230, Steel, 25Kg Glass Door, IP55 Door Closed 1U Blanking Plate...
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Page 17: Installing The Enclosure
2.2 Installing the Enclosure The panel weight is heavy when the batteries are installed. Use the appropriate fixing hardware to secure the panel to the wall. Observe recommended lifting practices to guard against spinal injury. See table below for maximum weights. Enclosure Weight Maximum Battery... - Page 18 (/S) Enclosure Size and knockouts (top) (/M) Enclosure Size and knockouts (top) (/M) Enclosure Size and Fixing Point Dimensions (/L Enclosure Size and knockouts (top) (/D Enclosure Size and knockouts (top) Knockouts /L x2, /D x3 183.5 183.5 (/L, /D) Enclosure Size and Fixing Point Dimensions Page 18...
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Page 19: Remounting The Chassis
(/E Enclosure Size and knockouts (top) (/E) Enclosure Size and Fixing Point Dimensions MXM-510-16U Enclosure Size and Fixing Point Dimensions 2.2.4 Remounting the Chassis Carefully replace the chassis and fix into place using the two screws. Reconnect the chassis earth cable to the spade terminal in the rear of the enclosure, reconnect the display cable to the display card and then reconnect the AC supply lead to the Base Card. -
Page 20: Recommended Cable Routing Arrangement
2.2.5 Recommended Cable Routing Arrangement It is recommended that the typical routing arrangement AC INPUT shown in the diagram opposite be LOOPS AUX, PBUS & SW I/P RELAYS SOUNDERS employed. Segregate the low AC Input voltage wiring (Loop Circuit, Sounder Circuits and AUX Supply) from the AC Mains Wiring. -
Page 21: Loop Driver Installation
2.3 Loop Driver Installation The HY5100 panels are factory fitted with one loop driver. The HY5200 panels can be fitted with up to two loop drivers – factory fitted with at least one loop driver. The HY5400 panels can be fitted with up to four loop drivers – factory fitted with at least one loop driver. 2.3.1 Fitting the cards To extend the number of detector loops or to replace an existing loop driver card follow the... -
Page 22: Plug-In / Peripheral Bus Modules
2.4 Plug-In / Peripheral Bus Modules All panels provide provision for installation / use of local peripheral cards to provide additional functions. The peripherals are connected via an isolated bus interface. Each panel supports either a plug-in 2-Way Relay card or a plug-in General Routing Interface card (peripheral bus module). -
Page 23: 2-Way Relay Card (Plug-In)
2.4.2 2-Way Relay Card (Plug-In) The Mxp-507 Relay 2-Way Relay card is fitted to the base card using 2x plastic pillars. Refer to the diagram opposite. All signals and power required for operation of the card are provided WARNING: HIGH VOLTAGE INSIDE on the plug-in DO NOT REMOVE COVER No Serviceable Parts Inside... -
Page 24: Peripheral Module Chassis Mounting
2.4.4 Peripheral Module Chassis Mounting A Peripheral Module can be installed onto the chassis plate in the medium, large, and deep enclosures. The peripheral card is fitted to the chassis using 4x M3 screws. All cards require connections to a 24V DC supply (AUX 24V) and to the PBUS communications. Refer to wiring section for further information. -
Page 25: Vds Interface Module Chassis Mounting
2.4.5 VdS Interface Module Chassis Mounting An Mxp-504 VdS Interface Module can be installed onto the chassis plate in the medium, large, and deep enclosures. Outputs to Routing Equipment – Clauses 7.9 and 8.9. The Routing Interface Card provides monitored outputs for connection to Fire Routing Equipment (Item E) in accordance with EN54-2. -
Page 26: Wiring Installation
2.5 Wiring Installation All electrical wiring installation work should be carried out in accordance with the code of practice or applicable national standards appropriate to the country of installation. To maintain electrical integrity of the SELV wiring on the input, output, loop, and communications lines all SELV wiring should be segregated from the LV mains wiring and be wired using cable with insulation suitable for the application. -
Page 27: Battery Installation
2.5.2 Battery Installation The panel requires two 12V Base Card Terminations batteries for standby operation. The battery leads are connected onto the base card via a two-part plug and socket, as shown in the diagram opposite. Refer to the Specifications for minimum and maximum battery WARNING: HIGH VOLTAGE INSIDE... -
Page 28: Medium Enclosure
2.5.2.2 Medium Enclosure The diagrams opposite show the recommended location and orientation for 7Ah – 12AH batteries within the panel. WARNING: HIGH VOLTAGE INSIDE DO NOT REMOVE COVER No Serviceable Parts Inside 2.5.2.3 Large Enclosure The diagrams opposite show the recommended location and orientation for 7Ah –... -
Page 29: Deep Enclosure
2.5.2.4 Deep Enclosure The diagrams opposite show the recommended location and orientation for 7Ah – 38AH/45AH batteries within the panel. WARNING: HIGH VOLTAGE INSID DO NOT REMOVE COVER No Serviceable Parts Inside 2.5.3 Detector Loop Installation Maximum of 32 Sensors / Call Points in a Zone (between Isolators). The Detection Loop Circuit should be installed as a continuous loop with isolator modules such that a short circuit condition does not remove more than one zone or 32 input devices. -
Page 30: Sounder Circuits
When screened cable is used, it is vital to connect the screen / drain wire to the chassis / earth at the cable gland input / earth stud in the panel. Always ensure that all segments of the cable loop have continuity of the screen and take care to ensure that the screen is not exposed to any other earth point (e.g. -
Page 31: Network Interface
The sounder outputs support monitoring with an Active EOL device to ensure circuit integrity in accordance with the requirements of EN54-13. The sounder circuits can be configured for compliance with EN54-13 by programming and the use of an Active EOL device. All panel sounder outputs must be fitted with the Active EOL device (Mxp-505) The panel uses techniques to ensure that a fault... -
Page 32: Relay Circuits
2.5.6 Relay Circuits Fault Output. Relay 1 is arranged for failsafe operation as standard. Section 8.8 The HY5000 Series are equipped with two relay RELAY 1 RELAY 2 outputs. These are normally programmed to activate on Fault and Fire Alarm conditions, respectively. -
Page 33: Auxiliary Supply Output
2.5.7 Auxiliary Supply Output The HY5000 Series are equipped with an auxiliary PBUS SWITCH 24V DC, 500mA power supply output. This can be used for powering ancillary equipment and must only be used for powering localised / internal equipment. Base Card connections 2.5.8 Isolated Peripheral Bus Interface... -
Page 34: Display Card
2.5.11 USB Interface (Type B) The HY5000 Series are equipped with an isolated USB I/F Circuit at the bottom left of the base card. This can be used for connection to a PC for use of the PC Configuration Tool. -
Page 35: Routing Interface
2.5.12 Routing Interface The Plug-In Routing Interface is used to output monitored signals to Fire Routing Equipment and Fault Routing Equipment or to Fire Protection Equipment. 2.5.12.1 Fire / Fault Routing Each function comprises of an output circuit and an input (confirmatory) circuit. Each output is monitored for open circuit and short circuit wiring conditions in both the activated and quiescent states and can be connected to a... -
Page 36: Vds Interface
2.5.13 VdS Interface The Mxp-504 is a chassis mount interface is used to connect the panel to dedicated equipment required in Germany and other markets (not available in all markets). The interface provides input / output circuits for 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18... -
Page 37: Fat / Fbf Direct Connection
2.5.13.1 FAT / FBF Direct Connection The interface is compatible with IFAM FAT3000 and FBF2003 products using IHD protocol. Both the FAT and FBF can be directly connected to the interface card. When the FAT and FBF are closely coupled or included in a common housing, connect the FBF via the RS232 connections to the FAT. -
Page 38: Fat / Fbf Redundant Connection
2.5.13.2 FAT / FBF Redundant Connection Where several FAT terminals need to be connected, or where a redundant connection is required from several control panels, connect the FAT units via a redundant ring. This requires the installation of an IFAM ADP-N3E Interface in one panel and (optionally) an IFAM ADP-N3S Interface in a second panel if required. -
Page 39: Üe Fire Routing
2.5.13.4 ÜE Fire Routing The interface is compatible with routing equipment with a range of coil impedances from 200Ω-5000Ω. If the ÜE output is not used, fit one of the supplied 4K7 resistors across terminals 12&13. 24VDC Power can be supplied to the routing Router equipment if required. - Page 40 This page is intentionally blank. Page 40...
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Page 41: Programming
3 Programming 3.1 Introduction These instructions cover the configuration and programming of the panels. Where you see the “PC Only” symbol, these features can either only be set-up using the PC Configuration Tool or there are additional options that are only available via the PC Configuration Tool. -
Page 42: Changing Text Descriptions
Press the ‘Esc’ button from within a menu option to return to the previous menu. The display can be forced back into status mode by pressing the ‘Esc’ button when at the top-level commissioning menu (or by waiting 60s). 3.1.4 Changing Text Descriptions Various parameters can have a text description defined. -
Page 43: Numeric Data Entry
Blank !“#$%&‘()*+,-./ 0123456789 :;?@ ABCDEFGHIJKLMNOPQRSTUVWXYZ [‘]^_ 3.1.5 Numeric data entry Numbers are entered by moving to the required field, and then typing in the required number, followed by the ✔ button. If the number is entered incorrectly, press the ‘Esc’ button to restore the previous number. Page 43... -
Page 44: Level 3 Menu Functions
3.2 Level 3 Menu Functions The following table gives a list of the Level 3 Menu Functions, the sub-functions available within each main function and a brief description for each function. The menu options are available on three pages – select “Next Menu” to switch between pages. -
Page 45: Recommended Programming Procedure
3.3 Recommended Programming Procedure The main programming steps required will necessarily be different for each installation. However, the following is the minimum recommended. Step 1 – SET-UP, Define General Set-up Information (Phone Numbers, etc.). Step 2 – PASSWORDS, Define Level 2 and Level 3 Passwords as required. Step 3 –... -
Page 46: Type
3.3.2.2 Type This parameter shows the type of device learnt by the panel. For example, this can show Call Point, Multi-Sensor, ION Smoke, Heat, etc. This parameter cannot be changed. 3.3.2.3 Value This parameter shows the analogue value returned by the device. The number displayed will vary according to the type of device fitted. -
Page 47: Sensitivity
Action Description Fire Signal A Fire Alarm Condition will be generated whenever the input is active. Pre-Alarm A Pre-Alarm Condition will be generated whenever the input is active. Supervisory A Supervisory Condition will be generated whenever the input is active An “Alarm 1”... - Page 48 Mode This option is shown on the display for specific device types only. Delay The value in this field defines the delay from detecting an alarm to entering the alarm condition. The delay time can be changed in 1-second increments. Alarm Level The Alarm Level is the 100% scaled value of the analogue value returned by the detector at which the panel will enter a Fire Alarm Condition.
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Page 49: O/P Group
3.3.2.8 O/P Group The Output Group assigned to the Sounder or Relay Devices determines the way the outputs will operate when a fire alarm or other programmed condition occurs. For example: [Loop 1 Devices] <More> Address O/P Group 020.0 021.0 022.0 023.0 Use the number buttons to change the value of the O/P Group setting. -
Page 50: Loops - Auto Learn
3.3.3 Loops – Auto Learn 3.3.3.1 Normal Procedure / Initial learn The panel can automatically learn the presence or absence of devices at all addresses connected to the loop. When the Auto Learn option is selected, the panel starts searching each address on the loop to locate and find all the devices connected. -
Page 51: Procedure If The Panel Finds Devices Added
3.3.3.3 Procedure if the Panel finds Devices Added When the panel finds a device not previously learnt and programmed in the panel, the Auto Learn process is suspended and the display shows a pop-up window with options. For example: ACCEPT NEW DEVICE REJECT NEW DEVICE ACCEPT ALL NEW DEVICES REJECT ALL NEW DEVICES... -
Page 52: Loop - Calibrate
3.3.4 Loop – Calibrate Calibrates devices – Requests the device internal value for drift contamination from all devices on the loop. If a value returned is greater than a pre-set limit, the panel will flag a “Dirty” fault against the appropriate devices. Drift values can also be downloaded to the Service Tool. - Page 53 Before commencing: [1] Ensure that the devices are installed in a loop with no T spur sections. [2] Check that the loop is continuous. Select View – Driver to verify the return voltage is present. [3] On completion, perform an AUTO-LEARN so that the panel learns the devices present and their type. [4] Verify that the panel has found the necessary devices and the allocated addresses match up to the expected address / type on the design drawings.
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Page 54: Zones
3.3.9 Zones The Commission Zones option lists all the zones in use by this panel and allows the zone text description to be changed. [Commission Zones] Zone Location 0001 BASEMENT WEST 0002 RECEPTION 0015 EAST WING 0018 TOWER BLOCK To change the location text assigned to the Zone, press the ✔ button when the Zone Location Text is highlighted. Refer to Section 3.1.4 for guidance on how to change text descriptions. -
Page 55: Passwords
3.3.14 Passwords The panel provides up to 10 User Level-2 passwords and 2 Level-3 passwords. All the passwords can be changed. On entry to the function, the display shows a list of the passwords. For example: Password Access level User ID 15633 9988 13344... -
Page 56: Setup
If enabled, the panel monitors the circuits to ensure that at the specified load current, the circuit can deliver the load current whilst still maintaining circuit device voltage compatibility levels via the transmission path resistance. [EN54-13 Setup] In Use ✔ Loop Circuit 1 500 mA (Max) Loop Circuit 2... -
Page 57: Service Due Date
3.3.18.4 Service Due Date The next service (over) due date can be entered into the panel memory. When this date is reached, the panel will enter a fault condition to alert the site operator that a service visit is overdue. To change the due date, press the ✔ button when the option is highlighted. -
Page 58: Earth Fault Notification
3.3.18.7 Earth Fault Notification This parameter determines whether an Earth Fault is shown on the display during normal operation. To change the setting, press the ✔ button. The status changes from ✔ to X and vice versa. 3.3.18.8 Resound The Resound option defines whether silenced sounders shall resound when either a new zone is in alarm (default EN54-2 setting) or a new device is in alarm. -
Page 59: Panel
3.3.20 Panel The Panel Menu Option shows a list of the internal panel circuits and provides a means to change their default configuration settings. Only use this menu if changes are to be made to the default settings for the panel’s internal circuits. Use the VIEW- PANEL Menu Option to view the state and operating condition of each circuit. -
Page 60: Default Output Settings
To simplify the cause & effect programming, one or more outputs that will respond in the same way when the same set of input events occurs can be grouped together. This association of outputs is called an Output Group. The panel can support up to 200 of these Output Groups. To select a different Output Group, press the ... -
Page 61: Style
Press the ✔ button to change the setting and a pop-up window will appear showing the options available. For example: [FIRE ] [D/K FIRE] [ALARM][PRE-ALARM] ✔ [FAULT] [I/P DISABLE][TEST ][ CONTROL ] Press the➔ buttons to highlight the required menu option and then press the ✔ to change its setting. An input action type is enabled when a ‘✔’... -
Page 62: Delay
3.3.21.4 Delay The delay field is the time from qualification of the input event to something happening at the output. The delay time can be set in intervals of 1 second up to a maximum of 250 seconds. Press the➔ button to step on to the delay field and change the setting using number entry. 3.3.21.5 Mode The mode field defines the method of operation of the output when it is first activated. -
Page 63: Led Indications
The following functions can be tested: • Zones / Inputs • Display • Buzzer • Printer • Outputs 3.3.24 LED Indications This option is not provided from Software Version 050-04. The operation of all MXP-513-XXX LED Indicator Cards MUST be configured using the PC Tool. Panels equipped with integral panel LED indicators on the display card will default to indicate fire alarms in Zones 1-20. -
Page 64: Service And Maintenance
4 Service and Maintenance 4.1 Maintenance Schedule This equipment should be maintained in accordance with the regulations and codes appropriate to the country and location of installation. The following is recommended if no other regulations apply. 4.1.1 Daily Actions The site operator / user should perform the following checks and actions: a) The panel indicates normal operation. -
Page 65: Replacement Of Components
4.2 Replacement of Components In general, all the component parts used in the construction of the panel have been selected for long life and reliability. However, certain components may require to be changed on a regular service basis. The details of these are as follows: 4.2.1 Batteries For battery installation, see section 2.5.2... -
Page 66: Liquid Crystal Display
4.2.2 Liquid Crystal Display Expected Life: - > 10 years Replacement Schedule: - When the display becomes difficult to read. The display contrast will gradually fade with time. Manufacturer / Part Number: Replace the complete display / keyboard assembly. Spare part number MXS 504. - Page 67 This page is intentionally blank. Page 67...
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Page 68: Appendices
5 Appendices 5.1 Appendix 1 – Forgotten Level 3 Password Should the Level-3 password be forgotten, contact Customer Support to obtain a temporary permit number to regain access to the panel programming functions. Customer Support will require a decryption key displayed by the panel. To obtain this number, attempt to gain access to the Level-3 Programming Functions entering “1”... -
Page 69: Appendix 2 - Recommended Fire Rated Cables
5.2 Appendix 2 – Recommended Fire Rated Cables The following table provides a list of suitable fire rated cables with standard (30 minute) and enhanced (120 minute) classification. Refer to Document No. 680-088 for an up to date list. Core Sizes 5839-1 (mm) Rated... -
Page 70: Detector Loop Lengths
5.2.1 Detector Loop Lengths With the above cables, loops can be up to 2Km in length. However, care must be taken when designing the system to consider the maximum loop loading. The voltage drop (load current x cable resistance) over the cable always needs to be considered to ensure the devices receive an adequate supply voltage. -
Page 71: Sounder Circuit Lengths
5.2.2 Sounder Circuit Lengths The voltage drop on each alarm circuit should be calculated to ensure that the minimum voltage at the end of the circuit exceeds the minimum required by each sounding device at the minimum alarm circuit output voltage. The voltage at the end of the circuit is given by: –... -
Page 72: Appendix 3 - Battery Standby Calculation Chart
5.3 Appendix 3 – Battery Standby Calculation Chart Use the following charts and associated notes to calculate the size of the batteries required to ensure operation of the installation in the event of AC Mains power failure. Quiescent Load Fire Alarm Load Equipment I (A) Total... -
Page 73: Appendix 4 - Cause And Effect Programming Example
5.4 Appendix 4 – Cause and Effect Programming Example 5.4.1 Introduction By default, all sounders and output devices will turn on immediately as soon as a fire is detected anywhere in the system. For example: Cause Effect ➔ Any Fire, Anywhere. ALL Output Devices will Turn ON Quite often an installation will require a more complex “Cause and Effect”... -
Page 74: Output Group Programming
5.4.4 Output Group Programming To achieve the above cause and effect requirements, the three different Output Groups would be programmed and indicated on the panel as in the following display examples: Output Group 6 – Sounders on Floor 6: [Output Group 3.9% Mem used] [STYLE 02 ZONE CAUSE... -
Page 75: Appendix 5 - Other Useful Documents
The following reference and application documents may be useful in the design, configuration, and installation of the system. The latest versions of these and new/additional application notes are available from the Hyfire web site (www.hyfirewireless.com) or in hard copy format from Sales. -
Page 76: Appendix 6 -Network Design Principles
5.6 Appendix 6 –Network Design Principles This section gives recommendations on the design of the installation to cover specific EN54-2 requirements and typical national codes of practice. [EN54-2: 1997, Clause 13.7] Not more than 512 fire detectors and / or manual call points and their associated mandatory functions shall be affected because of a system fault in the C.I.E. -
Page 77: Appendix 7 - Loop Device Specific Information
5.7 Appendix 7 – Loop Device Specific Information This section provides brief details and connection requirements for each device. For full details, refer to the documentation provided with each device. Refer to section 3.3.8 for setting the device address. 5.7.1 Detectors NOTE: The alarm threshold for all devices, in the sensitivity mode screens, is fixed. -
Page 78: Hfi-Ta-05 Heat Detector
Define the modes to provide the sensitivity levels required for normal and special sensitivity modes of operation – examples are shown below: SENSITIVITY ADJUST MODE (MULTI SPECIAL SENSITIVITY MODE (MULTI Alarm = 100 [SSM/Clock = 1 ][ Alarm = 100 Mode 2 ][ Pre-Alarm= Mode... -
Page 79: Mounting Bases
5.7.2 Mounting Bases Detector Magnet Testing Remote Indicator Mounting bases are 110mm (4¼”) diameter. This magnet test is not a substitute Refer to diagram above for basic loop wiring for proper smoke or heat testing information. methods but can aid in initial system testing. -
Page 80: Modules
5.7.4 Modules 5.7.4.1 Standard Modules There are five standard types of module available in electrical junction box plate, mini module and DIN rail mounting options. The electrical junction box plate option can be flush or surface mounted (optional boxes MB100, 25mm depth or DMB100, 45mm depth are available). -
Page 81: Zone Monitor Module
Error! Bookmark not d Undefined terminal Supervised Output Module Relay Output Module efined. positions are not One supervised output EOL = used. 27Kohm, Double Pole Relay Output DO NOT use these terminals for Maximum rating = 30V DC, 2A Contacts Rating: 30V AC/DC, 2A the connection of any wiring. -
Page 82: Multiple Input / Output Modules
The following zone circuit operating characteristics can be configured using the PC Tool. Reset Times (Seconds) Current Limit (mA) Alarm Current (mA) Maximum R SHORT 600 Ω 600 Ω Default 350 Ω 10.0 350 Ω 10.0 350 Ω 10.0 Default 240 Ω... -
Page 83: Hfi-Io-422-01
5.7.4.5 HFI-IO-422-01 The HFI_IO-422-01 is a 4-Input, 2-Supervised Output, and 2-Relay (Form-C) Output Module. Each input and output is individually configurable, and each uses one address on the RELAY 1 RELAY 2 ADDR +6 ADDR +7 loop (consecutive addresses). Input 1 is at the first address. -
Page 84: Radio Devices
5.7.6 Radio Devices The section only gives brief details of each device. The use of radio devices requires specialist knowledge and training to install, configure and commission. Refer to separate manuals for details. 5.7.6.1 Taurus Range 5.7.6.1.1 TAU-TRM-01 Wireless Translator Interface The Wireless Translator is a loop powered module providing the communication with up to 127 wireless devices in accordance with EN54-25. -
Page 85: Sagittarius Range
5.7.6.2 Sagittarius Range 5.7.6.2.1 HFW-W2W-01 Wireless Translator Interface The Wireless Translator is a loop powered module providing communication with up to 32 wireless devices in accordance with EN54-25. The wireless translator allows the control panel to individually address the wireless devices as though they were physically connected to the loop. -
Page 86: Loop Output Drive Capability
5.7.7 Loop Output Drive Capability The following information is applicable per loop. All loops can be loaded to the maximum (500mA per loop). Provision has been made to allow for a typical loading of detectors and inputs (50mA). Volume Number of Loop Powered Sounder Bases VLS100 95db VLS100AV... -
Page 87: Appendix 8 - M Xseries Product Capabilities / Max Limits
5.8 Appendix 8 – Mx Series Product Capabilities / Max Limits This section gives details on the maximum capabilities for each of the products in the range. Some of the items can only be utilised via the PC CONFIG tool and these are annotated accordingly. HY5020 / Mxp- Mxp-... - Page 88 Doc Number: HY-680-165 Revision: Page 88...
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