1. VEGA CONTROL PANEL Technical

2. Applications Hotels Factories / Manufacturing Environments
Shopping Centres
Underground Stations
Airports
Office Complexes
Commercial Buildings

3. 24 Zone Vega Panel

4. Vega Control Panel - Features
Expandable from 1 to 16 loops
16 status LED indications
Expandable from 24 to 120 Zone Fire Indications
8 Line x 40 Character Liquid Crystal Display
Compatible with Apollo S90, XP95 Discovery, Explorer & Hochiki ESP Protocol
Membrane Zone / Status Text Slide Inserts
Integral Fast Action Event Printer (option)
Programmable Sounder Circuits & Relay Contacts
Alarm Management features

5. Vega Control Panel - Features
Integral Power Supply Units
Space for Batteries
P.C. Programming via Viper software package
Complies with key international standards, BS EN-54
Plant Indications provide non-fire related Alarms
10 Priority Level Alarm Structure
Custom Device Type & Alarm Header Text Message Facility
Motherboard Plug in Option Cards

6. Vega Control Panel - Features
Multi Serial Data Communications Outputs
Network to Graphics System
64 x Repeater Panels - 15 Active (Full Control)
Fully Programmable via Panel Fascia or P.C. software
Menu Driven Operation complete with User Guidance Text
Selective Event Log
Remote System Control Inputs & Outputs
Engineers Functions - loop current, forward\reverse scan, fault codes
One Man Test Mode

7. Vega Fascia Layouts

8. Vega Membrane Control Key Operation
Silence Buzzer - deactivates panel buzzer. While timer T1 is counting down, operation will cause T1 to be accepted and initiate timer T2. While T2 is counting down, each operation will extend the countdown by 10s increments to a maximum of 600s.
Scroll - When more than one activation is indicated on the control panel, operation of SCROLL will allow all activations to be viewed on the display. Each operation of the Scroll key will step through to the next activation in sequence of operation, for the selected area only.
Silence Alarms - Will silence any audible alarms, deactivate any outputs which may have been programmed, and cancel the operation of timers T1 and T2. Will also cause the pulsing alarm and relevant zonal LED’s to operate in constant mode.

9. Vega Membrane Control Key Operation
Delay Override - Overrides the operation of any programmed time delays (timers T0, T1 & T2)
Evacuate - Activates sounder circuits and other outputs. When in evacuate mode, the output operation will remain until Silence Alarms has been operated.
Enter Key - Used for acceptance of numeric data, access of menu selection and accepting the setting of system information. During activation of priority alarms the key is used for viewing device information.
Cancel Key - Operation of the cancel key will cancel/deselect the pre-set access menu selections and continued operation will eventually return the display to access level 1. If the printer is operating it will be stopped.

10. Vega Membrane Control Key Operation
Numeric Keys - Used to select access level password codes, to select menu level options and inputting system data.
Arrow Keys - Used for selection of access level menus, viewing activations, pending priority activations and for programming the control panel. When multiple priority alarms are displayed the Left and Right arrow keys will enable the user to scroll between priorities.

11. Vega Membrane 8 lines x 40 character LCD display
Text & graphical capability
Option to have LCD back light switched off in quiescent mode
Shows 1st & last zones in alarm and option to scroll through intermediate zones
Option to view devices in alarm in each zone
On-screen prompts for ease of control
Membrane pocket allows insertion of customer’s logo
Membrane insert allows different language control functions to be incorporated

12. Vega Membrane
Controls: - Access level Silence buzzer - Delay override - Scroll - Access level Silence alarms - Reset - Evacuate

13. Vega Membrane
Up - down - left - right keys: - used to drive through menu options
Numeric Keys: - password selection - menu options - programming
Cancel/Enter keys: - Selection/de-selection of menu options

14. Vega Membrane
Status LED’s: All LED’s are grouped together in relevant sections (alarm, fault & disable) & meet the requirements of EN54-2

15. Vega Membrane Status LED’s
Note: Fault can also be used to indicate disablement of sounder circuit. In this case, it will be illuminated in a constant mode.

16. Vega Membrane
Status LED’s

17. Vega Membrane Status LED’s
Note: 2 spare yellow LED’s available for future use.

18. Vega - Passwords Default Password End User Access Level 2 = 7179
Engineers Access Level 3 = 7134
User Definable
Access Level 2 = any four digit number except 7134
Access Level 3 = any four digit number except 7179

19. Vega Menu Time Out Sequence
Sub Menu
High Level
Low Level
Main Menu
Status Menu
Time Out Alert
Access Level
One
120
sec 90
sec 60
sec 30
sec 10
sec
sec
Note: Any key operation extends time out period by 30 seconds

20. Vega - Top Level Menu Structure

21. Vega - Top Level Menu Structure

22. Vega - Top Level Menu Structure

23. Vega - Top Level Menu Structure

24. Vega - Priority Level Alarm Structure
Note: 1. All events are displayed time & priority order All events are recorded in the panel event log Priority alarm text can be customized for display purpose (0-2 & 5-9 only) Zone, Plant & Status LED’s operate as cause & effect programming

25. Vega Fire Condition Display
Priority header text
Control Key operated
Access level
FIRE
Access Level 1
Total Qty of fires
TIMERS EXTENDED
Total 003
Zone text
24 characters
Priority alarm pending
1st Z010 Ground Floor Main Office
002 Z011 First Floor West Block
Last Z024 Main Building
Total fires
within zone
Loop 01 dev 043:1 Zone 011
tot 001/001
Optical
Stationery storeroom
Device 43
Sub address No 1
Device type
24 characters
of device text

26. Vega Fault Condition Display
Priority header text
Zone text
24 characters
FAULT
Access Level 1
Total Qty of faults
Fault Qty for
this position
Total 003
tot 001/001
System fault
tot 001/001
Fault condition
Text position
Zone 001
Main building reception
tot 001/001
Grp 005
First floor sounder ccts
001/001
Master BLC
Loop 1 short - circ
System fault location
System fault description
Displayed upon operation of Enter key

27. Vega Fault Condition Display
Priority header text
Zone text
24 characters
FAULT
Access Level 1
Total Qty of faults
Fault Qty for
this position
Total 003
tot 001/001
System fault
tot 001/001
Fault condition
Text position
Zone 001
Main building reception
tot 001/001
Grp 005
First floor sounder ccts
Loop dev zone tot 001/001
Ionisation
Main purchasing office
Device information displayed upon operation
of Enter key upon zone position
Device fault code

28. Vega Membrane Device Programming
Device address, sub address & loop number
Access Level Standard features
Device loop 01
Text Main office sounder
Type sounder cct Custom 00: Unassigned
Group 000
Select option using& 
Zone text
24 characters
Device type
description
Custom device
type
Allocated group
number

29. Vega Membrane Device Programming
Device address, sub address & loop number
Access Level Standard features
Device loop 01
Text Goods inwards office
Type Ionisation Custom 00: Unassigned
Zone Priority Fire
Sens STD Day mode Isolated
Non latch NO BGU Flag NO
Custom device
type
Zone text
24 characters
Device type
description
Device priority
selection
Day mode setting
Allocated zone
number
Device sensitivity
setting
Device sensitivity
flag
Flag for quick response
of fire condition

30. Vega Membrane Output Programming
Device address, sub address & loop number
Groups 24
characters of text
Access Level Standard features
Edit group information
Text O/P’s assigned to 1st floor
Timer T sec BGU override NO
Timer T mins BGU override Yes
Action on program Evacuate NO
Deactivate on silence alarms
Select option using & 
Time delay
to intermittent
mode
Time delay to
evacuate mode
Relevant timer
overrides
Group programming
parameter options
Output to operate
on sound alarms
Output to deactivate
on silence alarms
User operating text

31. Vega Control Panel - 24 Zone 1 Loop Hardware Schematic

32. Vega Control Panel - 120 Zone 16 Loop Possible System Hardware Schematic

33. Vega - MCP & BLC Internal Switch Setting

34. Vega - MCP & BLC Internal Switch Setting

35. Vega - M.B.L.C. Digital Inputs & Outputs
Inputs will operate by applying 0 volts w.r.t. power supply
Open Collector Outputs switch from 28 v to 0 v

36. Vega Motherboard plug-in Options
2 KM
1 - 4
5 - 8
9 - 12
MOTHERBOARD
2 core

37. Vega 4 Way Motherboard

38. Vega 4 Way Motherboard Description:
The motherboard can be installed within the Vega control panel, space
permitting, to allow site specific customer requirements to be met. A range
of input/output option cards can then be inserted using Plg 2 to 5.
Terminations to external field cables are made direct to the motherboard at
TB 1 to 4 & should be restricted to switching a maximum load of 1
28 volts d.c. depending upon option cards installed. The maximum current
available, PSU rating permitting, when power is derived through the
motherboard is 9 28 volts. The I/O cards receive site specific
programming data from the Vega MCP via the MBLC connection to
TB 5 using RS 485 signals.

39. Vega 4 Way Motherboard Description (Cont’d):
A processor fail safe is incorporated connecting the MCP, MBLC and I/O
cards using the “F” terminal. This guards against any possible processor
failure during an alarm condition & will operate fail safe configured outputs.
A maximum of 4 fully populated motherboards can be connected together
in a daisy chain format using TB 5 & 6 to enable a total of 16 I/O cards to
be installed within the system.
The motherboard can also be used within a Repeater panel with
connection being made to the Repeater output driver card K076.
No fail safe connection should be made when used external to the
control panel enclosure.

40. Vega 4 Way Motherboard Connection Details:
The Vega control panel should be powered down before making the
following connections:
a) Connect 24 volt d.c. supply to TB 7, 28v & 0v using suitable 1mm cable
b) Connect TB 5 to Vega MBLC card K073 at TB 9, F- + terminals using suitable 0.5mm cable
c) Set the plug in option card switches & insert into slots plg 2 to 5, refer option card data sheet for switch info

41. Vega 4 Way Motherboard Connection Details (Cont’d):
d) Set SW 1 - bit 1 & 2 to ON on the last or only motherboard installed. Set to OFF on intermediate cards
e) Set SW 2 - bit 1 & 2 to ON when used with integral panel PSU. Set to OFF when using a separate PSU
f) When a separate PSU is used connect the fault monitoring output to
TB 7 Flt terminal, Plg 2 requires an option card installation in order to signal the fault
Refer to plug in option card data sheets for definition of output terminals obtained at TB 1 to 4
Note: Plg 1 & TB 7 Aux 5v terminals are NOT used in Vega panels

42. Vega 8 Way Relay Card

43. Vega 8 Way Relay Card Description:
The 8 way relay card provides 8 independently driven volt free change
over contacts (V.F.C.O.) Each relay has a maximum contact current
rating of 1 Amp at 28 volts d.c. The relays are independently controlled by
the on-board processor located in I.C. 1. The card receives programming
instructions from the Vega main control processor (MCP) using the RS 485
signal connection. The relay card has a unique address switch to enable
full monitoring & operation to be maintained. Each relay output responds
to a separate sub-address. Location text to define each output function can
be programmed on the Vega control panel to help the end user during
isolations & maintenance engineers during service visits. Programming
functions such as Evacuate, Alert, Double knock & Delays can all be
assigned to the relay outputs using the Vega control panel.

44. Vega 8 Way Relay Card Connection Details:
The Vega control panel should be powered down before making the following
connections & motherboard part no K091 should have been installed as
detailed on data sheet DS-K091.
a) Configure the 8 relay contacts as either normally open “NO” or normally closed “NC” contacts in non alarm condition using switches SW 1 to SW 8
b) Set SW 9 to required motherboard address, address 0 = MB 01,
address 1 = MB 02, etc. Duplicate addressing is not permitted
c) Set SW 10 as required, bit 1 & 2 ON provides fail safe operation of all relay outputs during an alarm condition & a MCP processor failure. Set bit 1 & 2 to OFF when fail safe operation is not desired.

45. Vega 8 Way Relay Card
Connection Details (Cont’d):
d) With control panel powered down insert the relay card into the motherboard at Plg 2 to 5
e) The relay V.F.C.O. contact terminal outputs located on the motherboard are:
A regular flash rate shown by LED D1 indicates healthy communications with the MCP. D1 OFF indicates lost communications

46. Vega 8 Way Sounder Card

47. Vega 8 Way Sounder Card Description:
The 8 way sounder card provides 8 independently driven reverse polarity monitored
outputs. Each output has a maximum current drive rating of 1 Amp at 28 volts d.c,
with on-board fuses for over current protection F 1 to 8. However, the total load
taken from each card should be restricted within the system design to 4 Amps Max.
The monitored outputs are independently controlled by the on-board processor
located in I.C.1 The card receives programming instructions from the Vega main
control processor (MCP) using the RS 485 signal connection. The sounder card
has a unique address switch to enable full monitoring & operation to be maintained.
Each sounder output responds to a separate sub-address. Location text to define
each output function can be programmed on the Vega control panel to help the
end user during isolations & maintenance engineers during service visits.
Programming functions such as Evacuate, Alert, Double knock & Delays can
all be assigned to the relay outputs using the Vega control panel.

48. Vega 8 Way Sounder Card Connection Details:
The Vega control panel should be powered down before making the following
connections & motherboard part no K091 should have been installed as
detailed on data sheet DS-K091.
a) Set SW 1 to required motherboard address, address 0 = MB 01, address 1 = MB 02, etc. Duplicate addressing is not permitted
b) With control panel powered down insert the sounder output card into the motherboard at Plg 2 to 5
c) Install 8 x end of line 10k resisters in the motherboard between odd & even terminals

49. Vega 8 Way Sounder Card Connection Details:
d) The sounder terminal outputs located on the motherboard are:
A regular flash rate shown by LED D22 indicates healthy communications with
the MCP. D22 OFF indicates lost communications. LED ON indicates a
short/open circuit fault to one or more sounder circuit outputs.

50. Vega 16 Way Non-monitored Input Card

51. Vega 16 Way Non-monitored Input Card
Description:
The 16 way input card provides 16 independent non-monitored inputs. The inputs
are initiated by applying or removing a zero volt signal with respect to the power
supply connected to the motherboard. I.e. switched +28 volt to 0 volts. The inputs
can be configured as either a normally closed, initiating an input signal when the 0 v
is applied. The inputs are independently monitored by the on-board processor
located in I.C.1 The card continuously monitors the state of the inputs passing any
changes to the Vega main control processor (MCP) using the RS 485 signal
connection. The input card has a unique address switch to enable full monitoring
to be maintained with each individual input responding to a separate sub-address.
Location text to define each input action can be programmed on the Vega control
panel to help the end user during isolations or maintenance engineers during
service visits. Programming of the inputs Zone or Plant alarm indications
can be achieved, along with output Group & Priority assignments using the
Vega control panel.

52. Vega 16 Way Non-monitored Input Card
Connection Details:
The Vega control panel should be powered down before making the following
connections & motherboard part no K091 should have been installed as
detailed on data sheet DS-K091.
a) Configure the 16 input channels for “N/O” or “N/C” operation.
SW 2 bit 1 to 8 relate to inputs 1 to 8, SW 3 bit 1 to 8 relate to inputs 9 to 16.
OFF = “N/O” & ON = “N/C
b) Set SW 1 to the required motherboard address, address 0 = MB 01, address 1 = MB 02, etc. Duplicate addressing is not permitted.
c) With control panel powered down insert the input card into the motherboard at Plg 2 to 5
A regular flash rate shown by LED D1 indicates healthy communications with the MCP. D1 OFF indicates lost communications

53. Vega 16 Way Open Collector Output Card

54. Vega 16 Way Open Collector Output Card
Description:
The 16 way output card provides 16 independently driven open collector switched
to zero volt outputs. Each output has a maximum current drive capability of 50mA.
The outputs are independently controlled by the on-board processor located in I.C.1
The card receives programming instructions from the Vega main control processor
(MCP) using the RS 485 signal connection. The output card has a unique address
switch to enable full monitoring & operation to be maintained. Each open collector
output responds to a separate sub-address. Location text to define each output
function can be programmed onto the Vega control panel to help the end user
during isolations & maintenance engineers during service visits. Programming
functions such as Evacuate, Alert, Double knock & Delays can all be assigned to
the relay outputs using the Vega control panel. The card can be used to
interface to additional relay & sounder output cards or can be used to drive
LED indications located on geographic mimic plates. The open collector
outputs are for internal panel use only.

55. Vega 16 Way Open Collector Output Card
Connection Details:
The Vega control panel should be powered down before making the following
connections & motherboard part no K091 should have been installed as
detailed on data sheet DS-K091.
a) Set SW 1 to the required motherboard address, address 0 = MB 01, address
1 = MB 02, etc. Duplicate addressing is not permitted.
b) Set SW 2 as required, bit 1 & 2 ON provides fail safe operation of all relay outputs during an alarm condition & a MCP processor failure. Set bit 1 & 2 OFF when fail safe operation is not desired.
c) With control panel powered down insert the relay card into the motherboard at Plg 2 to 5
A regular flash rate shown by LED D12 indicates healthy communications with the MCP. D12 OFF indicates lost communications

56. Vega 8 Way Monitored Input Card

57. Vega 8 Way Monitored Input Card
Description:
The 8 way input card provides 8 independently monitored input circuits. The
inputs are initiated by applying a 470 to 680 ohm resistor in parallel with the
monitored circuit. Each input channel is monitored for open & short circuit condition
using an end of line (EOL) monitoring resistor. The inputs are independently
monitored by the on-board processor located in I.C.1 The card continuously
monitors the state of the inputs passing any changes to the Vega main control
processor (MCP) using the RS 485 signal connection. The input card has a unique
address switch to enable full monitoring to be maintained with each individual input
responding to a separate sub-address. Location text to define each inputs action
can be programmed on the Vega control panel to help the end user during
isolations or maintenance engineers during service visits. Programming of the
inputs to Zone or Plant alarm indications can be achieved, along with output
Group & Priority assignments using the Vega control panel.

58. Vega 8 Way Monitored Input Card
Connection Details:
The Vega control panel should be powered down before making the following
connections & motherboard part no K091 should have been installed as
detailed on data sheet DS-K091.
a) Set SW 1 to the required motherboard address, address 0 = MB 01, address
1 = MB 02, etc. Within Viper programming software package. Duplicate addressing is not permitted.
b) Set SW 2 = bit 1 ON failsafe operation enabled, OFF failsafe line disabled
= bit 2 ON for use with zener bases & 6K8 EOL, OFF for use with standard base & 3K9 EOL or diode base & active EOL device
c) With control panel powered down insert the relay card into the motherboard at Plg 2 to 5 & connect EOL resistors

59. Vega 8 Way Monitored Input Card
Connection Details (Cont’d):
d) The monitored zone terminal inputs located on the motherboard are:
A regular flash rate shown by LED D18 indicates healthy communications with the MCP. LED off indicates lost communications. LED on constant indicates 1 or more circuits are in fault condition (open or short circuit)

60. Vega Software Features
Device alarm test
Alarm simulation test
Blink Control (Discovery & ESP only)
Loop Integrity Test
Device Sub Address Programming

61. Vega Software Features
Time delays to zonal inputs
- T1
- T2
Time delays to output devices T3
- T4

62. Vega - Delay to Output Group Operation
Input devices are assigned to Zones Output devices are assigned to Groups T1 & T2 are assigned to each input - Zone T3 & T4 are assigned to the Output Group T1 = Alarm Accept Time delay T3 = Delay to the operation of the Group T2 = Alarm Investigation Time Period T4 = Alert period (pulsing sounders) delay

63. Vega – Output Group Programming
Zone of origin to provide alarm accept delay for 1 min with investigation time of 3 mins. Constant alarm to follow after time out or BGU is activated or delay override button is pressed. Adjacent zones delayed for 2 mins then pulsed (Alert) for 2 mins followed by constant alarm until system silenced then reset.

64. Vega Engineers Functions
Isolate local buzzer
Detector fault codes complete with menu look up chart
Loop drive capability forwards and backwards
Read loop quiescent current value
Alarm simulation test
Text allocation to all inputs and outputs
Self resetting over current protection devices
on sounder circuits

65. Vega Engineers Functions
Fully programmable via membrane
Selective event log
Menu driven operation complete with guidance text
Common hardware for Apollo and Hochiki

66. Vega Alarm Management Day / Night mode Delay timers T1, T2, T3 & T4
BGU & co-incidence override per zone
Sensitivity level adjustment
Latching & non-latching alarms

67. Vega Alarm Management Priority levels Output group selection & control
Output group override for BGU’s
Output group styles A, E, 1-6
Plant alarms

68. Vega Device Fault Codes
Device fault code reference

69. Vega - One Man Test Mode Zone based Auto reset after 30s
Multiple device tests recorded to event log & printer
All outputs suppressed
All the zones fully functional
Reduced cost of ownership

70. Vega Operational Flowchart
STATUS LED’s
Common fault
Device fault
Zone fault
LCD
System fault
Device missing
Unregistered device
Buzzer
Pulsed
PANEL NORMAL
Action
DEVICE
TYPE
CHANGE
Access
Level 3
Set loop config
auto learn
loop x
accept logon
Affect
Action
STATUS LED’s
Common fault
Device fault
Zone fault
LCD
System fault
Device missing
Unregistered device
Buzzer
Pulsed
Affect
Action
Affect

71. Vega Operational Flowchart
STATUS LED’s
Common fault
Device fault
LCD
Zone fault
Unregistered device
Buzzer
Pulsed
PANEL NORMAL
Action
ADD NEW
Device
Affect
Action
Access
Level 3
Set loop config
auto learn
loop x
STATUS LED’s
Common fault
Device fault
New device in zone 000
LCD
Unregistered device
Logon fault
Buzzer
Pulsed
Affect
Action
Access
Level 3
Set loop config
accept logon
Affect

72. Vega Operational Flowchart
STATUS LED’s
Common fault
Device fault
Zonal fault
LCD
Zone fault
Device missing (code 2)
Buzzer
Pulsed
PANEL NORMAL
Action
REMOVE
Device
Affect
Action
Access
Level 3
Set loop config
auto learn
loop x
STATUS LED’s
Common fault
Device fault
Zonal LED
LCD
System fault
Logon fault
Buzzer
Pulsed
Affect
Action
Access
Level 3
Set loop config
accept logon
Affect

73. Vega Power Supply 110V - 220V AC input sensing
2.5, 4/2 & 8/4 Amp PSU’s
EN54-4 (Power supply section)
Battery monitoring thermistor for temperature compensated charging
Fault indications - Battery charge
- Battery low
- Stand by power loss
- Mains failure

74. Vega Power Supply Screw terminals for cable connections Fully enclosed
All PSU’s are interchangeable
Self resetting current limiting devices to protect outputs

75. Vega - Repeater Control Panels
LCD, 24, 56, 88 & 120 Zone Format
Optional Event Printer
Up to 64 Repeaters can be connected to a control panel
Up to 15 Active Repeaters available (Full Control over main panel user functions)
Integral Sounder Circuit & VFCO relay (Programmable on active repeaters)
Access level 2 override input for optional key switch
Active Repeaters have unique address & user text allocation
Alarm accept & delay override control on active repeaters
RS 485 two core data cable connection to main control panel

76. Repeater Panel Schematic
2 core
2 core

77. Vega Repeaters Type 1 - Receive Only
Type 2 - Full access level 2 controls

78. Vega Repeaters How to install - software:
Vega panel set up - Membrane & Viper
Install repeater - will install Type 1 & 2
Number of active repeaters
Enable repeater printer

79. Vega Repeaters How to install hardware:
Install repeater drive pcb K076 into PLG 2 on the MBLC K073
SW1 - leaves 1 & 2 on = repeater driving is one direction - leaves 1 & 2 off = repeater driving in both directions

80. Vega Repeaters Interface Cable Twisted pair data cable 2L1.5 MICC
FP200 2 core 1.0mm

81. Repeater Hardware Connection to Vega via TB4 “Repeater In” on the
repeater terminal board K078.
SW1 - leaves 1 & 2 on - last repeater
- leaves 1 & 2 off - intermediate repeater

82. Repeater Hardware Repeater Processor Board 44782-K077
SW1 - Processor reset
SW2 - (0) Type 1 repeater (no controls)
SW2 - (1-F) Type 2 repeater (with controls)

83. Repeater Hardware Repeater Processor Board 44782-K077 (cont’d)
SW3 Bit 1 ON local printer enable
OFF local printer disable
Bit 2 ON silence local buzzer only
OFF global buzzer silence
Bit 3 ON back light on constant
OFF back light timed to off
Bit 4 ON silence buzzer & local sounder
OFF silence buzzer only
SW4 Processor re-start

84. Battery Calculations Calculation approved by the British Fire
Protection Systems Association (BFPSA)
Quiescent current (QI) x Battery degradation
factor (1.25)x 24 hours + half hour alarm load
(AI) x battery degradation factor (1.25)
QI x 1.25 x x AI x 1.25

85. Standard Battery Sizes
12v A/h A/h
1.2 A/h A/h
2.0 A/h A/h
3.0 A/h A/h
4.5 A/h A/h
7.0 A/h A/h
12.0 A/h 70.0 A/h
17.0 A/h 75.0 A/h

86. Vega Current Values

87. Vega
Approved Cables
Conventional Detection - MICC (BS6207 Part 1) - FP200
Conventional Sounders - MICC (BS6207 Part 1) - FP200

88. Vega
Approved Cables
Addressable Detection Loops - MICC (BS6207 Part 1) up to 1km 1.5mm2 - FP200 up to 2 km 2.5mm2
Sounders - MICC (BS6207 Part 1) - FP200

89. Vega
Approved Cables
Repeaters / Motherboards - BELDEN 9729 (UL STYLE 2493) - MICC (BS6207 Part 1) 1mm 2 core - FP200

90. EMC
European Directive for Electro Magnetic Compatibility (EMC) 89/336/EEC
Compliance to directive by type testing or construction file
To ensure products are not affected or affect other electrical products

91. EMC
Tests include: radiated susceptibility conducted susceptibility radiated emissions ESD fast transients surge test
Compliance is indicated by the CE mark on products, data sheets, etc.

92. EMC
Generic standard has two sections: - Industrial emissions & susceptibility - Domestic emissions & susceptibility
Product specific standard for Fire & Security products uses the industrial levels for susceptibility & the domestic levels for emissions

93. EMC
Guidance for installation: - earthing of cable glands - routing of cables inside the panel - routing of mains cable - use of screened cable

94. Specials Special Metalwork Enclosure including 19” rack mounted
IP65 enclosure
Glazed outer doors
Stainless steel fascia

95. Specials Geographic Mimics with LED Indications Mosaic
Rear engraved, multi-colour
Silk screen on to door

96. Specials Wiring Termination chambers
Isolating terminals for external wiring
Software
Unique changes to standard software

97. Specials Specials Cell Dedicated project engineer
Dedicated draughtsman
Software engineering
Verification engineer

98. Specials Major Projects London Underground Limited
Istanbul Metro Project
Heathrow Airport
Pfizers
Kerteh Tankage Terminal Facility – Petronas

99. Vega Part Numbers Number configuration: (LL)/(B)/(ZZZ)/(D)/(S)/(P)
LL = No of loops
B = Box size
ZZZ = No of zones
D = Detector protocol
A = Apollo Series 90/XP95/Discovery
E = Hochiki ESP
S = Power Supply
2 = 2.5A switch mode
4 = 4/2A switch mode
8 = 8/4A switch mode
P = Printer

100. Vega Part Numbers Examples:
V01/1/024/A/2 = 1 loop, box size 1 (500w x 400h x 140d)
24 zonal LED’s, Apollo protocol, integral
2.5A PSU, without printer
V04/2/088/E/4/P = 4 loop, box size 2 (500w x 550h x 140d)
88 zonal LED’s, Hochiki protocol, integral
4/2 A PSU, with printer