Honeywell Galaxy 2 User Manual

							23
Galaxy 2 Series Installation Manual
Removing and Replacing the Galaxy 2 Series PCB
NOTE:The metal box comes with the PCB installed. The PCB does not have to be removed to enable
access to the keyhole mounting slot (see Figure 17).
Mounting the Metal Enclosure Base
Use the keyhole slot in the metal box  to position the base. Three mounting screws (not provided) are required
to mount the metal base. Fix one of the screws into the mounting surface, this will be used for the top, keyhole
mounting hole. Hang the enclosure base onto the mounting screw ensuring that the screw sits in the narrow
portion of the keyhole.
All cables must be brought into the enclosure base via the cable entry points shown in Figure 17. There are
four cable entry holes for the entry of alarm cables. There is one a.c. mains cable entry point located below
the mains terminal block.
NOTE:There are three knockouts at the top of the metal enclosure base and three at the bottom for cable
entry if required.
Panel Mounting (cont’d) 
						

							24
Galaxy 2 Series Installation Manual
Peripherals - Installation, Wiring & Addressing
Configuring
New peripherals will be configured onto the system at system power up or on learning programming mode.
Changes to peripheral addresses will only take effect when the peripheral is re-powered.
General
The following peripherals can be connected to the Galaxy 2 Series:
RS485 Bus: Mk7 LCD Keypad/Keyprox; RIO; PSU; RF Portal.
NOTE:Up to four keypads (including keyprox) can be fitted to this line. Keypads/keyproxes must be wired
in daisy chain configuration (see RS485 Wiring Configuration). The maximum length of cable for
all peripherals on this line is one km.
ECP Bus (2–44+ only): 6160 Keypad/Keyprox; 5800 RF receiver; ECP zone expander.
NOTE:Up to four keypads can be fitted to this line. Keypads can be wired to the control panel indepen-
dently, in series or in star configuration. The maximum cable length for all peripherals connected to
this line is 100m.Table 5. RS485 Peripheral Wiring
Table 6. ECP Peripheral Wiring
The following table identifies the peripheral addresses:
Table 7. Peripheral Addresses
L E N A P0 6 1 6
D A P Y E K0 0 8 5
R E V I E C E RE N O Z 8 + 4
R E D N A P X E
+ X U A
+)d e r ( +P/ I V 2 1 +
- X U A
-)k c a l b ( --
O D
Y∇) w o l l e y ( O DOD
I D
G∆) n e e r g ( I DID
Peripherals
NOTE:No two peripherals connected can share an address, regardless of the data bus to which they are
connected.
L A R E H P I R E PSS E R D D A
x o r p y e k / d a p y e K 7 k M3- 0
O I R5- 2
U S P5- 2
r e v i e c e R s s e l e r i W5- 4
d a p y e K 0 6 1 63- 0
x o r p y e K 0 6 1 65- 4
r e v i e c e R F R 0 0 8
55- 4
r e d n a p x E e n o Z P C E4- 2
PANEL PERIPHERAL
AU X +
+
AU X -
-
A
A
B
B 
						

							25
Galaxy 2 Series Installation Manual
Mk7 LCD Keypad/Keyprox
The Mk7 keypad is a 16 character alpha-numeric keypad used to program and set the Galaxy 2 Series. The
window display is spread over two lines.
The Mk7 keyprox is a standard keypad with a proximity card reader combined into one housing. This allows
dual function setting/unsetting ability from one station without the need for a separate card reader.
Keypad/Keyprox Installation
1. Remove the keypad from its packaging.
2. To attach the keypad to the wall, the back plate must first be removed from the front plate. To do this,
insert a suitable tool into both openings at the bottom of the keypad and turn the tool gently.
CAUTION: When the keypad is separated make sure that the anti-static precautions are taken
with the keypad pcb to avoid damage from esd (electro static discharge).
3. Use the backplate as a template, then mark the locations for the three attachment screws in the
required position. Use the keyhole slot at the top of the backplate and the two elongated
holes at the bottom.
Figure 18. Galaxy Mk7 Keypad Backplate Installation
Peripherals (cont’d)
aperturekeyhole slotaperture
cable
channel
cable
stowage
area
elongated
hole
knockout
hole
sacrificial
wall
tamper 
						

							26
Galaxy 2 Series Installation Manual
4. If you are using a wall-run cable for the keypad (A, B, +, -) position the cable behind the back plate in
the cable channels provided. The cable can be run in from either the top or the bottom of  the back plate.
Use a sharp tool to remove the plastic from the top or the bottom of the cable guides on the back plate
skirting.
CAUTION:Use of any screws other than No. 6 Pan-head can damage the keypad
mouldings.
5. Make sure that the keypad wiring is fed through the large opening on the keypad backplate, then
position the keypad base on the wall and attach it securely with the three No. 6 Pan-head screws.
6. If an off the wall tamper is required, using a No. 6 Pan-head screw, secure the sacrificial wall
tamper, indicated in Figure 18, to the wall. Make sure that the tamper knockout is still
connected to the backplate moulding.
7. Connect the A, B and power wires to the correct terminals of the removable, four-way connector
block.
Mk7 Keypad/Keyprox Addressing
The valid keypad/keyprox addresses are: 0, 1, 2, and 3.  A 16-way Rotary Address Switch is used to ad-
dress the Keypad/keyprox. The address switch assigns a hexadecimal address value to the keypad/keyprox.
NOTE:Any change to the keypad address must be made when the power is disconnected from the keypad.
Adding a Mk7 Keypad/Keyprox to the System
When adding a keypad to an existing system, the following points must be considered:
1. Ensure that the keypad to be added has a unique address from the other keypads on the system.
2. Ensure that the keypad has a valid address.
3. Connect the keypad to the system - refer to the Keypad Installation Procedure.
4. Access engineer mode.
5.Connect the RS485 (AB) line of the keypad in parallel with the RS485 (AB) line of the
existing keypads.
6. Connect + and – terminals of the keypad to a power supply.
7. Exit engineer mode - engineer code + esc.
8. The Mk7 keypad displays the message 1 MOD. ADDED — esc=CONTINUE.  Press the esc
key; the keypad returns to the unset banner.  If this message is not displayed, the keypad is not
communicating with the control panel and has not been configured into the system.
9. The keypad is now configured into the system.
Peripherals (cont’d) 
						

							27
Galaxy 2 Series Installation Manual
Remote Input Output (RIO)
Galaxy RIO’s can be added to the RS485 Bus on the Galaxy 2 Series control panel. Each additional RIO
expands the system by eight zones and four outputs.
Figure 19. Galaxy RIO
Addressing the RIO
The Galaxy RIO must be given a unique address before it is connected to a power supply (see Table 8. RIO
Addresses).The address is selected using the 16-way Rotary Address Switch (SW1).
Table 8. RIO Addresses
Connecting the RIO
The RS485 (AB) line of the Galaxy RIO must be wired in parallel (daisy-chain configuration) with the RS485
(AB) line of any keypads connected to the system.  The RIO requires 12 Vd.c. (range 10.5 to 16.0 V) and
40 mA.  This can be supplied from the control panel power supply or from a remote power supply if the
distance causes a large voltage drop on the cable.
NOTE:A 3 Ampere Smart PSU can be fitted in place of a RIO.
RIO
s s e r d d Ade t a c o l l A s e n o Zs t u p t u O
d e t a c o l l A
282 0 1 - 1 2 0 142 0 1 - 1 2 0 1
383 0 1 - 1 3 0 143 0 1 - 1 3 0 1
484 0 1 - 1 4 0 144 0 1 - 1 4 0 1
585 0 1 - 1 5 0 145 0 1 - 1
5 0 1
3k3Ω pull-up
resistors
IC1
IC2
LEDTamper
Switch
SW2
LK1
SW4
IC4Rotary
Address
Switch 1
234 Outputs
BA-
+-
+ RS 485
Power
1
23
45
6
78
Zones
SLAVE
LK2LK3 LK4
S
IC3
SW1
R1R3R5
R7
E/E
Rev 0.3 
						

							28
Galaxy 2 Series Installation Manual
Link LK1 on the RIO, if altered when the module is powered down, modifies the RIO operation:
• LK1 - short circuit this to by-pass the RIO lid tamper switch SW2
Zones
The Galaxy RIO has eight programmable zones.  These default to INTRUDER.  Each zone is Double
Balance monitored with a 1 kΩ resistor in series with the zone detector and a 1 kΩ (1%) resistor in parallel
across the detector switch.  The change to 2 kΩ (1%) resistance registers the zone as open/alarm.
Outputs
The RIO has four transistorised outputs.  Each output is connected to +12 V via a 3k3Ω pull-up resistor
(refer to Table 10).  When an output is activated, the load is switched to the negative supply voltage (ground
or 0 V) of the RIO.  The current available through each output is 400 mA.
The default functions and pull-up resistors of each RIO output, when connected to a Galaxy 2 Series are
shown in the following Table:
Table 10. RIO Output Default Functions
RIO (cont’d)
Configuring the RIO
The added RIO is configured into the system on exiting from engineer mode.  If the message XX Mod Added
[] To View is displayed, the system has recognised that a new module is present.  Press the A or B keys
to confirm that the RIO has been added.  If this message is not displayed or the RIO is not on the list of added
modules, then the RIO is not communicating with the control panel or has been set to the same address as the
RIO already connected to the system.
The flash rate of the red LED (LED1) on the RIO indicates the status of the communication with the control
panel - refer to the following Table:
e t a R h s a l Fgn i n a e M
F F O 9 . 0 / N O 1 . 0sn o i t a c i n u m m o c l a m r o N
F F Oyl p p u s . c . d o N
F F O 5 . 1 / N O 5 . 1me t s y s o t n i d e r u g i f n o c n e e b t o n s a h
O I R
F F O 2 . 0 / N O 2 . 0me t s y s h t i w n o i t a c i n u m m o c t s o l s a h O I R
F F O 1 . 0 / N O 9 . 0sn o i t a c i n u m m o c r o o p y r e V
Table 9. RIO LED Flash Rates
Output No. Function Pull-up Resistor
1 Not Used R1
2 Not Used R3
3 Not Used R5
4 Not Used R7 
						

							29
Galaxy 2 Series Installation Manual
Figure 20. Power Supply Unit
PSU
Power Supply Unit
The Galaxy 2 Series Power Supply Unit (PSU) is available in two variants.
The Galaxy Power Unit is a 3-ampere power supply. The Galaxy Power RIO is a Power Unit plus an on-
board Remote Input Output (RIO) module. Both variants are configured in the same way.
Configuration
The Galaxy Power Supply Unit (PSU) consists of two modules, the Power Block and the Control Unit. The
PSU can be connected to the Galaxy 2 Series control panel via the RS485 (AB) line. The PSU can be used in
place of a standard RIO to overcome power problems that arise when the additional RIO is fitted distant to
the control panel.
A 6-way jumper lead connects the Power Block to the Control Unit.
The PSU (Power RIO variant) has eight zones and four outputs. Each variant of the PSU takes one of the
four RIO address (2 - 5). Addressing is identical to that described for RIO Modules.
The four outputs are switched 0V (0V active). Without the jumper links (LK1-4) fitted, the outputs will float in
the OFF state. They can apply  a +12V signal, if required, by fitting the appropriate pull-up jumper supplied.
LK5 will short out the off-wall tamper if it is not used.
The SLAVE and E/E links must be in place for normal operation.
FAULT OP AC:This is an open collector transistor which is normally off. The output is activated by an AC
failure.
FAULT OP BAT:This is an open collector transistor which is normally off. The output is activated by a
Battery Low or Battery Fail condition.
FAULT OP POWER:This is an open collector transistor which is normally off. The output is activated by
low voltage present in +12V1 or  +12V2 .
Mains 
Terminal 
Block
Power
Header To Control
Unit
Power Block
NEUTRAL
LIVE
13.8V
0V
14.5V
0V
BT
AC/F
WARNING: The Power Block PCB
is connected to mains voltage. Always
disconnect mains supply for at least
1 minute before removing the box lid.
 
11/2233/4455/66
77/88Zones 1-8
HEATSINK
Comms
Line
OutputsRotary
Address
Switch
ACBAT
PWR
0V OP1 OP2OP3OP4
LID
TAMPOW
TAMP
+14.5
0V
+12V1
A(DO)
B(DI)
F1
F4
F3
F2
LK1
LK2 LK3LK4
-BAT +BAT
AC/FBT 0V 14.50V 13.8
LED1
(comms)
LED2
(AC)
Control Unit
+12V20V
0V
FAULT OP
Off-wall
Tamper
From
Power
Block Bell-Box
connection
LK5
LK10
SLAVE
E/E 
						

							30
Galaxy 2 Series Installation Manual
Installation Instructions
The installation and wiring must be performed by a competent engineer. The Galaxy Power Supply Unit must
be connected to the a.c. mains supply (230/240 Va.c. 50Hz) via a fused connection outlet. The fuse in the
mains outlet must not exceed 3A.
The Galaxy Power Supply Unit comes installed in the metal enclosure base. The installation procedure of the
panel base is as follows:
1. Route the mains cable through the hole on the right hand side of the enclosure base. Securely anchor
the cable to the box using the tie-wrap as shown in the following Figure:
Tie wrap
Mains cable
Terminal
block Keyhole
slot (top)
Enclosure
base
Attaching holeAttaching hole
Control
UnitPower
Block
Off-Wall
Tamper
Micro-switch
Lid Tamper
Microswitch
6-w
ay jum
per lead
from
 pow
er block
to control unit
Figure 21. Enclosure Base
2. Secure the panel base to the wall using three 1.5  No. 8 round head steel screws through the holes
provided.
The mains cable used must be a three core type (with green/yellow earth insulation) of adequate current
carrying capacity.
NOTE:The mains cable must satisfy the requirements stated in BS6500.
3. Connect the mains cable to the mains terminal block as follows:
• blue wire to the terminal marked N (Neutral)
• green/yellow wire to the terminal marked          (Earth)
• brown wire to the terminal marked L (Live)
NOTE:No other connections to the mains connector are permitted.
All wiring must be in accordance with the latest edition of the IEE Wiring Regulations, BS7671 (Requirements
for Electrical Installations).
4. Power up by applying mains first. This unit can be powered up from the battery by momentarily shorting
LK10. Never leave LK10 connected, as deep discharge of the battery will occur. LK10 is for start-up
only.
PSU (cont’d) 
						

							31
Galaxy 2 Series Installation Manual
Specifications
Electrical (based on 34 Ah battery and UK grade 2 compliance)
Input voltage:230V a.c. (+10%/-15%) @50Hz
Output voltage (nominal):13.8V & 14.5V
Output current (max):3.0A
Operating temperature:-10 deg C to +40 deg C
Aux1 & Aux2
Output voltage (nominal):13.8V
Output current (max):0.75A each
14.5V Output (not for EN50131: grade 2 use)
Output voltage (nominal):14.5V
Output current (max):0.15A (when using this current, the AUX1 & AUX2 currents will
be reduced by an equivalent amount).
Battery charge current (max):1.4A
Maximum ripple voltage:less than 100mV
Fuses
F1 (14.5V)500mA - 20mm anti-surge
F2 (Battery) 1.6A - 20mm anti-surge
F3 ( 12V Aux1)1.0A - 20mm anti-surge
F4 (12V Aux2)1.0A - 20mm anti-surge
EN50131 Compliance
This product is suitable for use in systems designed to comply with EN50131-1:2004/PD6662:2004.
Security Grade - 2
Environmental Class - II
Power Supply Type - A
Battery
The minimum capacity battery to supply the PSU is 1x 7Ah. The maximum capacity battery to supply the
PSU is 2 x 17Ah.
Battery Test
A battery test on full load is automatically performed once an hour and during the Engineer Mode exiting
procedure. If the battery voltage falls to 10 V while the Power Supply Unit is running on the battery, then it is
automatically disconnected to prevent deep discharge of the battery.
PSU (cont’d) 
						

							32
Galaxy 2 Series Installation Manual
ECP Zone Expander (2–44+ Only)
This is an expander for use on panels that use the ECP communication Bus. Up to three zone expanders can
be fitted to the Galaxy 2–44+ panel. Each expander gives 8 extra hardwired zones and four programmable
outputs. An alternative expander gives four extra hardwired zones and no outputs.
Figure 22. Zone Expander Outputs
Zone Expander Outputs
The four outputs are switched 0V (0V active). Without the jumper they will float in the ‘OFF’ state (see
Figure 23). They can apply a +12V signal, if required, by fitting the appropriate pull-up jumper supplied (see
Figure 24). (This is typically required for activating comms devices). All devices wired to the outputs must
have their negative terminals wired to the switched output, and their positive terminals wired to the + 12V
output.
Figure 23. Output without jumper Figure 24. Output with jumper
ECP Zone Expander
SW 1
12345678
Zone Terminals
(zones 5-8 not fitted in 4-zone version)
12
34
12V Pull-up
Jumpers
Tamper
Switch
Tamper
By-pass
Switch
Engineer
Socket
Outputs
(not fitted in 4-zone version)
BA-
+12V-
+12VS
DII/PO/P DO Data Input/
Data Output12V 
Input
Address
Select 12V
Output
ZD1-0130
Data LEDLK8
LK9
+12 V
+12 V
3k3Ω
Jumper
not
required
0 VOutput
terminalSiren
+
-
+12 V
3k3Ω
Jumper
fitted
0 VOutput
terminal
Input to 
dialler/Redcare