Installation Instructions
Medical Gas Alarm AssemblyMedipoint 125 Central AlarmPart number 2005414Revision 04August 15, 2016
Atlas Copco Ltd. trading as Atlas Copco Medical Unit18NuffieldWay,Abingdon,Oxfordshire,UKOX141RL
Personnelmustmakethemselvesfamiliarwiththecontentsofthismanualandthe functionoftheunitbeforeinstalling,operatingormaintaining.
Installation InstructionsMedicalGasAlarmAssembly-MP125CentralAlarm
Thisunitispurchasedfrom:
Datepurchased:
Modelnumber:
Serialnumber:
Option(s)included:
Anyinformation,serviceorsparepartsrequestsshouldincludetheserialnumberandbedirectedto:
BeaconMedæsTelfordCrescent,StaveleyDerbyshireS433PF
Telephone:+44(0)1246474242Email:[email protected]:www.beaconmedaes.com
BeaconMedæsreservestherighttomakechangesandimprovementstoupdateproductssoldpreviouslywithoutnoticeorobligation.
AbbreviationsAbbreviation FullDescription Abbreviation FullDescription
HTM HealthTechnicalMemorandum % Percentage
BS BritishStandard Kg Kilograms
BSP BritishStandardPipe kPa Kilopascals
ISO InternationalStandardOrganisation PSI Poundspersquareinch
EN European Standards NRV Non-returnvalve
ID Identification 1st First
Med Medical 2nd Second
°C Degree Celsius O2 Oxygen
ø Diameter N2O Nitrousoxide
OD OutsideDiameter N2O/O2 O2/N2O50%/50%V/V
m Meter MA Medical Air
mm Millimetres SA Surgical Air
“ Inch VAC MedicalVacuum
Max Maximum CO2 CarbonDioxide
Min Minimum N2 Medical Nitrogen
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Medical Gas Alarm Assembly - Medipoint 125 Central Alarm
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Table of Contents
0. Safety, Storage and Handling 0.1 Environmental Transport, Storage and
Operating Conditions.
0.2 Cleaning
0.3 Environmental Protection
0.4 Electromagnetic Interference
0.5 Rechargeable Battery
0.6 Electrical Details
0.7 Protection
0.8 Symbols
1.1 Description
1.2 Installation of a first fix panel. 1.2.1 Backbox. Locate
1.2.2 Wall. Fit anchors.
1.2.3 Backbox. Fit
1.3 Installation of a Second Fix Assembly 1.3.1 Backbox. Check.
1.3.2 Fit Legends as required
1.3.3 Alarm panel front cover. Fit
1.3.4 Power supply printed circuit board. Fit
1.3.5 Electrical bonding lead. Fit
1.3.6 Cable Installation - Input Cable
2.0 Programming of the alarm system
3.0 Commissioning (See Document 2005415)
Figures 1 - MP125 Display, Shown In Normal Running
2 - Backbox Details
3 - Bezel Detail
4 - Legend Installation
5 - Examples Of Recommended Display Positions
6 - Door Installation Detail
7 - Power Supply Board Installation Details
8 - Earth Lead Assembly Details
9 - MP125 Power Supply Board Connection Layout
10 - MP125 Example Maximum Of Cable Segments
11 - MP125 Typical Wiring Diagrams
12 - MP125 Programming Switches
13 - Example Of Programming Settings
Table 1 - Recommended Display Positions
2 - Medipoint 125 Programming
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0. Safety Precautions
Operator should have carefully read and become familiar with the contents of this manual before maintaining the terminal units.
Operator is expected to use common sense safety precautions, good workmanship practices and follow any related local safety precautions.
Component descriptions and parts lists are available on request.
0.1 Environmental Transport and Storage Conditions
All products are separately packaged and stored in controlled conditions.
0.2 Cleaning
The alarm cover and fascia should be wiped over with a damp cloth frequently to remove any dust or foreign substances.
0.3 Environmental Protection
Discard the unit and/or components in any standard refuse facility. The unit does not contain any hazardous substances.
0.4 Electromagnetic Interference
Ensure any input and data cables are physically separated from other mains and data cables.
0.5 Rechargeable Battery
The rechargeable battery (ref. 1828825) should be replaced every 5 years.
0.6 Electrical Details
WARNING...It is necessary to check the integrity of the power source for safety at regular intervals. These checks should be carried out annually and replacement power supplies used is necessary.
Power source
Mains operated using 115/230V, 50/60Hz, alternating current, from an essential circuit. Please see labelling inside unit for correct voltage.
Current requirements
3.0 amps
0.7 Protection
Type of protection against electric shock
Class 1 (Mains supplied equipment using a protected earth)
Mode of operation
Continuous (equipment may be left switched on indefinitely)
Degree of protection against ingress of liquids
IPX0 (Not protected)
Degree of mobility
Permanently installed (This unit is electrically connected by permanent means)
Degree of protection
Type B (no Applied Part or with and Applied Part not designed to meet F type (floating) requirements)
Degree of protection against flammable anaesthetic mixtures
Not protected (not suitable for use with flammable gases)
0.8 Symbols
The following symbols apply to this product and are used in these instructions and on the product in question. The meanings of these symbols are as specified below: -
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Medical Gas Alarm Assembly - Medipoint 125 Central Alarm
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Read instructions
Warning - dangerous voltage
Ambient temperature range
Ambient humidity range
Ambient pressure range
Date of manufacture
Caution - system alarm
Power on
Mute switch
Test button
Protective earth
Alternating current
Static sensitive components
Audible warning
Do not dispose of in general waste
1.1 Description
The BeaconMedæs Medipoint 125 medical gas central alarm system is designed to provide full monitoring of a complete medical gas installation. Medipoint 125 alarm systems consist of source panels connected to supply equipment located in plant rooms, and repeater panels in locations as specified by the customer for constant monitoring. Medical gas supply conditions are transmitted throughout the alarm system by means of an advanced data transmission circuit.
The Medipoint 125 can be programmed by the use of switches to provide a fully flexible alarm system. Allowing the panels to be adapted to suit any hospital’s medical gas monitoring requirements (see user manual 2005414 section 1.12 for programming details).
An individual Medipoint 125 panel has 5 columns consisting of ‘normal’ and 4 ‘fault’ conditions. These columns can be setup to monitor either up to 5 medical gas source equipment, or up to 20 individual point alarms, or a combination of the 2.
One Medipoint 125 alarm panel is designated the master panel for control purposes. Any number of panels may be programmed as a ‘central acknowledge panel’ and cause all flashing displays on the system to change to steady when the MUTE switch on the central acknowledge panel is operated. Each Medipoint 125 alarm panel connects directly with the mains electrical power supply and alarm panels are available for use with AC supplies of either 115V±10%, 60Hz or 230V±10%, 50Hz. Electrical power supplies should be from an essential circuit and fused at 3 Amps.
Each Medipoint 125 alarm panel incorporates flashing alarm displays, a POWER ON indication, a SYSTEM ALARM indication, MUTE and TEST switches and an audible warning programmed to operate depending upon the alarm condition displayed (see figure 1 overleaf for display image). Alarm panels are interconnected by data transmission cable. Relay interface units are available to input conditions into existing alarm systems or building management systems.
1.2 Installation of a first fix panel
The alarm panel backbox is suitable for both surface and concealed installation and is annotated 'TOP' inside to ensure correct orientation. With a concealed installation a chase depth of 45mm is required and a bezel is fitted to cover the plaster joint. The procedure to install a first fix alarm panel backbox is as follows: -
1.2.1 Backbox. Locate (see figure 2). Ensure the backbox is the correct way up. Locate the backbox at the correct position and mark out for securing screws.
1.2.2 Wall. Fit anchors. Drill wall and fit anchors in position.
1.2.3 Backbox. Fit (see figure 2). Select cable entry/exit points and remove the desired knock-out segments from the inside. Fit suitable grommets/cable glands as required by the contract specification. Feed cables into the box leaving 400mm to enable connection to printed circuit board. Secure back box to wall with suitable screws.
WARNING... WITH A CONCEALED INSTALLATION, THE PLASTER DEPTH MUST BE FLUSH WITH THE BOX SURFACE, LEAVING THE WATER CHANNEL PROUD OF THE PLASTER.
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1.3 Installation of a Second Fix Assembly
WARNING...ENSURE THAT THE ELECTRICAL POWER SUPPLY TO THE ALARM IS OFF AND REMAINS ISOLATED UNTIL REQUIRED DURING THE COMMISSIONING PROCEDURE
1.3.1 Backbox. Check. Ensure that the inside of the backbox is clean and free from debris.
Concealed installation. Fit bezel plate (see figure 3). Fit bezel plate to backbox and retain with securing screw engaged in right hand anchor nut.
FIGURE 1 - MP125 DISPLAY, SHOWN IN NORMAL RUNNING
Audible Warning
Test Switch
System Alarm LED
Power On LED
Mute Switch
Gas ID Row
Normal LED
Warning Fault LED Rows
7 101.50
98
196
5
105
105
200
17
20
46
KNOCKOUT SEGMENTS BACKBOX SURFACE
40 40 40 40
17
20
KNOCKOUT SEGMENTS
FIGURE 2 - BACKBOX DETAILS
FIGURE 3 - BEZEL DETAIL 310
246
4
6
25 (ALL ROUND)
1.2
0
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1.3.2 Fit Legends as required (see figures 4, 5 and table 1)
Fit blank and gas/vacuum service legend, through the slots in the rear of the cover, as required. NB. It is necessary to remove the display PCB to access the slots easily.
To provide an aesthetic display and maintain consistency in accordance with recognised and established Medical gas service sequencing, it is recommended that displays are positioned in the following sequence on each alarm panel commencing with the left hand column:-
Medical Oxygen (cryogenic and manifolds)Nitrous oxide (manifolds)Oxygen/Nitrous oxide (manifolds)Medical Air 400 kPa (plant and manifolds)Medical Air 700 kPa (plant and manifolds)Medical Vacuum (plant)AGS (simplex or duplex)Point alarms (as required)
When an alarm panel is required to display less than its maximum of 5 gas services, it is recommended that displays are positioned in accordance with the following (see figure 4 & table 1):
TABLE 1: RECOMMENDED DISPLAY POSITIONS
Displaycolumn 1 2 3 4 5
1 gas Gas 1
2 gas Gas 1 Gas 2
3 gas Gas 1 Gas 2 Gas 3
4 gas Gas 1 Gas 2 Gas 3 Gas 4
5 gas Gas 1 Gas 2 Gas 3 Gas 4 Gas 5
BEZEL
SECURING SCREW(M4 x 12 PAN HEAD)
BACK BOX
310
246
4
6
25 (ALL ROUND)
1.2
0
FIGURE 4 - LEGEND INSTALLATION
Col. 5 Col. 4 Col. 3 Col. 2 Col. 1
GAS LEGEND INSTALLATION SLOTS
FIGURE 5 - EXAMPLES OF RECOMMENDED DISPLAY POSITIONS
TYPI
CAL
1 G
AS
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1.3.3 Alarm panel front cover. Fit (SEE FIGURE 6).
Secure the front cover to backbox flange by securing hinge to backbox with screws provided.
TYPI
CAL
4 G
ASTY
PICA
L 5
GAS
TYPI
CAL
3 G
AS
FIGURE 6 - DOOR INSTALLATION DETAIL.
M4 x 12 PAN HEAD x 2
DOOR ASSEMBLY
M4 x WASHER x 2
BACK BOX
FIGURE 7 - POWER SUPPLY BOARD INSTALLATION DETAILS.
1.3.4 Power supply printed circuit board. Fit (see figure 7).
Fit a plastic spacer over each of the four retaining studs in the backbox and locate the board on the studs. Fit the washers and tighten nuts in place just enough to hold the board and not crack it.
CAUTION... Printed circuit boards are susceptible to damage by static electricity and must remain enclosed in their anti-static packaging until immediately required for use. Removed printed circuit boards must be placed in their anti-static packaging immediately on removal. To prevent damage to printed circuit boards, handle with care and do not over torque retaining nuts.
M3 NUT x 4
PLASTIC SPACERS x 49.5 OD x 8mm LONG
POWER SUPPLY BOARDM3 STEEL WASHER x 1
M3 x 18 HEX SPACER
TERMINAL SHIELDM3 x 5 PAN HEAD
M3 NYLON WASHER x 3
TYPI
CAL
2 G
AS
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1.3.5 Electrical bonding lead. Fit (see figure 8).
Connect the flying earth lead from the power supply PCB mains terminal ‘E’ to the earthing stud in the alarm panel backbox and alarm panel front cover.
FIGURE 8 - EARTH LEAD ASSEMBLY DETAILS.
EARTH STUD EARTH LEAD EARTH STUD
M3 NUT
M3 WASHER
EARTH LEAD
M3 WASHER
M3 NUT
M3 STUD
M3 NUT
M3 STUD
M3 WASHER
EARTH LEAD
M3 NUT
M3 WASHER
1.3.5 Cable Installation - Data Cable
Details for the cable connections can be seen on figure 9, typical wiring diagrams can be seen on figure 11.
The MP125 uses the EIA/TIA-485 (RS-485) data communications specification. Cable used for the alarm data must be suitable for these signals. BeaconMedæs recommends the following cable types:
Manufacturer / Reference Part Number
Belden 8132 (2 pr, Non-Plenum) 2005421
Belden 82842 (2 pr, Plenum)
Alphawire 6455 (2 pr, Non-Plenum)
If segment lengths longer than 1200 metres, or non-standard network topologies are required, a signal booster / splitter is available. See figure 10 for examples. BeaconMedæs recommend installation of 2 pair cable, such that a spare pair is available, if needed.
1.3.6 Cable Installation - Input Cable
Details for the cable connections can be seen on figure 9, typical wiring diagrams can be seen on figure 11.
The MP125 uses BeaconMedæs Line Contact Monitoring on all input signals. This type of connection is relatively immune to interference. Shielded cable is not a requirement, however, in extremely electrical noise shielding may be necessary. BeaconMedæs recommends the following cable types, and a maximum length of 100 metres.
Manufacturer / Reference Part NumberAlphawire 1175C (Unshielded) 2005422
Alphawire 1175L (Unshielded, LSZH)
Alphawire 1295C (Shielded)
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FIGURE 9 - MP125 POWER SUPPLY BOARD CONNECTION LAYOUTMULTI-WAY DATA RIBBON
FROM LIGHT BOARD
INPUTS FOR DISPLAY COLUMNS 1-5[COMMON] [FAULT CONDITIONS 1-4]
NOTE - FAULT CONDITION 1 COINCIDES WITH THE TOP FAULT CONDITION LED, WORKING DOWN IN ORDER
DATA TRANSMISSION CONNECTIONSIN [A] [B], OUT [A] [B] AND [SCREEN]
REMOTE AUDIBLE CONNECTION [+] [-]
OUTPUT RELAY FORTRANSMITTING SINGLE
EVENT ALARM[COMMON] [N/O]
MAIN POWER CONNECTION[BONDING EARTH]
[MAIN EARTH][NEUTRAL] [LIVE]
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
IN OUT
BOOSTER
IN OUT
MEDIPOINT 125
DATA
IN OUT
LENGTH OF SEGMENT <1200 METRES LENGTH OF SEGMENT <1200 METRES
FIGURE 10 - MP125 EXAMPLE MAXIMUM OF CABLE SEGMENTS
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
IN OUT
BOOSTER
IN OUT
LENGTH OF SEGMENT <1200 METRES
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
MEDIPOINT 125
DATA
IN OUT
LENGTH OF SEGMENT <1200 METRES
LENGTH OF SEGMENT <1200 METRES LENGTH OF SEGMENT <1200 METRES
2 segment network with a single, distant panel.
2 segment network arranged as a physical cross.
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Medical Gas Alarm Assembly - Medipoint 125 Central Alarm
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Medipoint 125 Wiring Diagram Typical Schematic
Medipoint 125 Typical Input Connection
Notes...1. If connected to BeaconMedæs plant, line contact monitors are integral to the plant.2. Unused terminals must be linked out with linking resistors provided.
Notes...1. A maximum of four point alarms may be connected to any channel.2. Unused terminals must be linked out with linking resistors provided.
FIGURE 11 - MP125 TYPICAL WIRING DIAGRAMS
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2.0 Programming of the alarm system
The Medipoint 125 central alarm system panels are programmed by setting a series of DIL and rotary switches on the rear of the light display board (see figure 12), as detailed in table 4. Rotary switches SW1 to SW5 assign the display columns to a specified input, or OFF. 1 to F correspond to ‘normal’ medical gas alarms, i.e. Normal + 4 alarm conditions with an audible on all alarm conditions. 8-way DIL switch SW6 sets details specific to each panel. Rotary switch SW7 sets the panel ID. Similar switches are on the rear of the relay board in a Medipoint 125 relay interface panel.
The Medipoint 125 central alarm system works by identifying each individual gas channel or set of point alarm inputs with a unique ID and by identifying each panel with a unique ID. The rotary switches are hexadecimal i.e. A corresponds to 10, B corresponds to 11 etc. for purposes of panel Ids. A channel must be set between 0 and F, 0 being OFF.
SW7 in conjunction with SW6-7 give each individual panel an ID between 0 and 31. The alarm panel with the highest ID must be set as the MASTER panel (SW6-6 ON), all other panels (including Medipoint 125 Relay panels) must be set as slave panels (SW6-6 OFF). Therefore one alarm system may contain up to 32 panels the highest number being set as the MASTER.
SW6-8 enables or disables the central acknowledge facility, ON enabled, OFF disabled. When the mute switch is operated on a central acknowledge panel displaying a fault condition, the flashing light on all panels showing the same fault changes from flashing to steady, and the audible alarm is muted for that particular gas.
NB there may be more than one central acknowledge panel on a system (i.e. two panels in the telephone exchange on a 10 gas system), but there must be only one master panel on the system and it must have the highest panel ID on the system.
SW6-1 to SW6-5 are used to identify where each channel is input onto the system. If these switches are set to ON then this means that a particular gas or set of point alarms is input to this panel. On a complete system there should only be as many of these switches set to ON as there are channels on the complete system. When set to ON the alarm panel will look for a complete set of inputs, i.e. four fault conditions. If less than four inputs are been connected to a particular channel then the linking resistors provided must be used to “link out” the unused conditions. I.e. if a C11 vacuum plant is to be connected, then the input alarm conditions would be connected between Common, 1, 2 and 4. Therefore a linking resistor must be connected between Common and 3.
An alarm system is set up by allocating a number (1 to 9) or letter (A to F) to each set of plant inputs or point alarm inputs. Typically on a 4 gas system with point alarms:-
1 – Oxygen Manifold Alarms2 – Nitrous Oxide Manifold Alarms3 – Air Plant Alarms4 – Vacuum Plant AlarmsA – Ward 1 to 4 Point AlarmsB – Ward 5 to 8 Point Alarms
Therefore on every panel where Oxygen is to be displayed the appropriate gas number switch (SW1 to SW5) is set to 1. Where inputs are connected into the system the appropriate DIL switch (SW6-1 to SW6-5) must be set ON.
For example, if air and vacuum plant are both input into channels 2 and 3 on a two gas panel in the plant room, then SW2 must be set to 3 to display air plant, SW3 must be set to 4 to display vacuum plant. SW1, SW4 and SW5 must be set to 0. Also SW6-2 and SW6-3 must be set to ON to indicate that these alarms are input to this panel.
SW8 selects the voltage range of the power supply, either 230V±10% or 115V±10%.
SW9 selects the termination and fail safe biassing options for the RS-485 port. A network is divided up into segments. Each segment can be up to 1200 metres (see figure 10 for examples), subject to cable type and site conditions.For the two panels at the endpoints of each cable segment on a network, the termination resistor should be switched on with SW9-1 and SW9-2. For all other panels, SW9-1 and SW9-2 should be switched off. If a signal booster is the endpoint of a cable segment, the termination resistor of the booster should be enabled. See the instruction manual enclosed with the signal booster for more details.
For each cable segment on a network the fail safe resistors should be enabled on a single panel, by switching on SW9-3 and SW9-4. For all other panels, SW9-3 and SW9-4 should be switched off.
See figure 13 for example of programming settings for a typical installation. Table 2 shows a summary of the programming switch functions
NOTE:Whenever the programming switches on the light board are changed, it is necessary to reset the alarm by pressing the reset button, or by cycling the power, to read in the new configuration values.
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FIGURE 12 - MP125 PROGRAMMING SWITCHES
PROGRAMMING SWITCHES (SEE SECTION 1.12)
AUDIBLE WARNING VOLUME CONTROL
SW1SW2SW3SW4SW5SW6SW7
CONFIGURABLE DIP SWITCHES FOR DATA
TRANSMISSION
NOTE...Jumper JP1 shown on the right hand and middle pin [LCM], sets the Output Relay for line contact monitoring. Move to the left hand and middle pin [N/O] if line contact monitoring is not desired, for example when the Output Relay is communicating with a non BeaconMedæs alarm.
Operate the RESET after changing any setting on the power supply board.
The BOOT switch & Communication Port is only used during manufacture.
JUMPER JP1(SEE NOTE)
TABLE 2: MEDIPOINT 125 PROGRAMMING
Switch Setting/description
SW1 0 Display channel 1 Off, gas display
channel not used
1-F Display channel 1 Normal gas display HTM02-01
SW2 0 Display channel 2 Off, gas display
channel not used
1-F Display channel 2 Normal gas display HTM02-01
SW3 0 Display channel 3 Off, gas display
channel not used
1-F Display channel 3 Normal gas display HTM02-01
SW4 0 Display channel 4 Off, gas display
channel not used
1-F Display channel 4 Normal gas display HTM02-01
SW5 0 Display channel 5 Off, gas display
channel not used
1-F Display channel 5 Normal gas display HTM02-01
SW6
1OFF Channel 1 display not input at this panel
ON Channel 1 display input to this panel
2OFF Channel 2 display not input at this panel
ON Channel 2 display input to this panel
3OFF Channel 3 display not input at this panel
ON Channel 3 display input to this panel
4OFF Channel 4 display not input at this panel
ON Channel 4 display input to this panel
5OFF Channel 5 display not input at this panel
ON Channel 5 display input to this panel
6OFF to designate panel as slave
ON to designate panel as master (must be highest ID on system)
7OFF for panel ID 0 to 15
ON or panel ID 16-31
8OFF to disable central acknowledge facility
ON to enable central acknowledge facility
SW7 0-F Sets panel ID 0 to 15 or 16 to 31 in conjunction with SW6-7
SW8115 Set voltage to 115V±10%
230 Set voltage to 230V±10%
SW9
1-2OFF to disable RS485 termination
ON to enable RS485 termination(on cable segment endpoints only)
3-4OFF to disable RS485 fail safe biassing
ON to enable RS485 fail safe biassing(on one panel per cable segment only)
NOTE:Switches SW8 and SW9 are on the power PCB (see fig-ure 12). All other switches are on the light PCB (see fig-ure 12)
For example of typical installation see figure 13.
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FIGURE 13 - EXAMPLE OF PROGRAMMING SWITCH SETTINGS FOR A TYPICAL INSTALLATION INCLUDING MP125 & MP26
Swit
ch s
etti
ngs
for
exam
ple
inst
alla
tion
Pane
l Loc
atio
n
TYPE
SW1
SW2
SW3
SW4
SW5
SW6
SW7
SW9
C1 Gas
1
C2 Gas
2
C3 Gas
3
C4 Gas
4
C5 Gas
5
C1 Inpu
tC2 Inpu
tC3 Inpu
tC4 Inpu
tC5 Inpu
tM
aste
rPa
nel
ID H
igh
Mas
ter
Mut
ePa
nel
IDRS
485
TERM
Vie
I0
01*
00
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
0O
NEs
tate
s 1
R1
23
45
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
1O
NEs
tate
s 2
R6
78
9A
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
2O
FFSo
uth
Plan
t Ro
omI
05*
08*
0O
FFO
NO
FFO
NO
FFO
FFO
FFO
FF3
OFF
Day
Sur
gery
R1
35
80
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
4O
FFM
anifo
ld
Room
1I
02*
03*
0O
FFO
NO
FFO
NO
FFO
FFO
FFO
FF5
OFF
Thea
tre
Rece
ptio
n 1
R1
23
67
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
6O
FF
Thea
tre
Rece
ptio
n 2
RI0
90
A*0
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
7O
FF
Nor
th P
lant
Ro
omI
06*
7*9*
0O
FFO
NO
NO
NO
FFO
FFO
FFO
FF8
OFF
Mat
erni
ty
Man
ifold
Roo
mI
00
4*0
0O
FFO
FFO
NO
FFO
FFO
FFO
FFO
FF9
OFF
Mat
erni
tyR
14
69
0O
FFO
FFO
FFO
FFO
FFO
FFO
FFO
FFA
OFF
Rela
y In
terf
ace
1RL
12
34
5O
FFO
FFO
FFO
FFO
FFO
FFO
FFO
FFB
ON
Rela
y In
terf
ace
2RL
67
89
AO
FFO
FFO
FFO
FFO
FFO
FFO
FFO
FFC
OFF
Tele
phon
e Ex
chan
ge 1
R1
23
45
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
DO
FF
Tele
phon
e Ex
chan
ge 2
R6
78
9A
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
EO
FF
* m
arks
the
chan
nel a
s an
inpu
t, Ty
pe ‘I
’ - In
put p
anel
, Typ
e ‘R
’ - r
epea
ter
pane
l, Ty
pe ‘R
I’ - r
epea
ter/
inpu
t pan
el, T
ype
‘R’ -
rel
ay in
terf
ace
pane
l
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3.0 Commissioning procedure. Carry out.All testing and commissioning should be completed in accordance with the installation contract.
See Instructions Manual (2005415) for commissioning details.
MEDIPOINT 125 ID: 0
LOCATION: VIE
COLUMN INPUTS DATA
0 0 1* 0 0 IN OUT
OXYGEN SUPPLY
SIGNAL BOOSTER/SPLITTER
LOCATION: SOUTH PLANT ROOM
DATA
A B
MEDIPOINT 125 ID: 3
LOCATION: SOUTH PLANT ROOM
COLUMN INPUTS DATA
0 5* 0 8* 0 IN OUT
MEDICAL AIR VACUUM SOUTH SOUTH
MEDIPOINT 125 ID: 4
LOCATION: DAY SURGERY
COLUMN INPUTS DATA
1 3 5 8 0 IN OUT
MEDIPOINT 125 ID: 2
LOCATION: ESTATES 2
COLUMN INPUTS DATA
6 7 8 9 A IN OUT
MEDIPOINT 125 ID: 1
LOCATION: ESTATES 1
COLUMN INPUTS DATA
1 2 3 4 5 IN OUT
MEDIPOINT 125 ID: 6
LOCATION: THEATRE 1
COLUMN INPUTS DATA
1 2 3 6 7 IN OUT
MEDIPOINT 125 ID: 5
LOCATION: MANIFOLD ROOM
COLUMN INPUTS DATA
0 2* 0 3* 0 IN OUT
OXYGEN NITROUS MANIFOLD OXIDE
MEDIPOINT 125 ID: 7
LOCATION: MANIFOLD ROOM
COLUMN INPUTS DATA
0 9 0 A* 0 IN OUT
MEDIPOINT 26
LOCATION: THEATRE RECEPTION
COLUMN INPUTS DATA
RELA
Y[C
] [N
/O]
O2
N2O
MA
4
MA
7
VAC 0 IN O
UT
MEDIPOINT 26
LOCATION: THEATRE 1
COLUMN INPUTS DATA
RELA
Y[C
] [N
/O]
O2
N2O
MA
4
MA
7
VAC 0 IN O
UT
MEDIPOINT 26
LOCATION: THEATRE AVSUs
COLUMN INPUTS DATA
RELA
Y[C
] [N
/O]
O2
N2O
MA
4
MA
7
VAC 0 IN O
UT
PRESSURE SWITCH INPUTS
MEDIPOINT 125 ID: 8
LOCATION: NORTH PLANT ROOM
COLUMN INPUTS DATA
0 6* 7* 9* 0 IN OUT
MEDICAL SURGICAL VACUUMAIR NORTH AIR NORTH
MEDIPOINT 125 ID: 9
LOCATION: MATERNITY MANIFOLD ROOM
COLUMN INPUTS DATA
0 0 4* 0 0 IN OUT
ENTONOX
MEDIPOINT 125 ID: A
LOCATION: MATERNITY UNIT
COLUMN INPUTS DATA
1 4 6 9 0 IN OUT
MEDIPOINT 125 (MASTER) ID: E
LOCATION: TELEPHONE EXCHANGE 2
COLUMN INPUTS DATA
6 7 8 9 A IN OUT
MEDIPOINT 125 ID: D
LOCATION: TELEPHONE EXCHANGE 1
COLUMN INPUTS DATA
1 2 3 4 5 IN OUT
MP125 RELAY INTERFACE ID: C
LOCATION: TELEPHONE EXCHANGE R2
COLUMN INPUTS DATA
6 7 8 9 A IN OUT
MP125 RELAY INTERFACE ID: B
LOCATION: TELEPHONE EXCHANGE R1
COLUMN INPUTS DATA
1 2 3 4 5 IN OUT
CABLE TYPESBelden 8729 2 pair RS485Alphawire 117C 5 coreAlphawire B964011 1 pairAlphawire 1173C 3 core
NOTES...Columns marked * indicate that gas service is input at that panelMaximum length of data cable segments is 1200 metresMaximum length of input cable segments is 100 metresMaximum length of remote audible cables is 50 metres
Unit 18 Nuffield Centrum, Abingdon,Oxfordshire, OX14 1RL, UK
+44 (0) 1235 463 010www.beaconmedaes.com 0088
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