BeaconMedaes TotalAlert Infinity Manual
Installation, Operation and Maintenance Instructions
TotalAlert Innity™ HTM Medical Gas Notication System
Part number 4107 9016 60
Revision 01
December 18, 2017
Part number 4107 9016 60
Revision 01
December 18, 2017
Installation, Operation and Maintenance Manual
TotalAlert Innity™ HTM Medical Gas Notication System
This unit is purchased from:
Date purchased:
Model number:
Part number:
Option(s) included:
Any information, service or spare parts requests should be directed to:
BeaconMedæs
Telford Crescent, Staveley,
Derbyshire, S43 3PF, England
Telephone: +44 (0) 1246 474 242
BeaconMedæs reserves the right to make changes and improvements to update products
sold previously without notice or obligation.
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TotalAlert Innity™ HTM Medical Gas Notication System
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Table of Contents
0.0 Safety Symbols / Environmental Protection
0.1 Safety Symbols
0.2 Environmental Protection
1.0 Introduction
1.1 Product Identication
1.2 User Interface Layout
1.2.1 TotalAlert Innity™ Features
1.2.2 Central Alarm
1.2.3 Zone Alarm
1.2.4 Combination Alarm
1.2.5 Boards
1.3 Denition of Statements
1.4 Denitions
1.5 Alarm Congurations
1.5.1 Central Alarms
1.5.2 Zone Alarms
1.5.3 Gas Combination Alarms
1.6 Electromagnetic Compatibility
1.6.1 EN 60601-1-2
1.7 TotalAlert Innity™ Medical Gas Notication System Parent Model Number Chart
2.0 Installation Procedures
2.1 Surface Mount Box
2.2 Gas Sensor Installation
2.2.1 Remotely Installed Sensors in Pipeline
2.3 Wiring
2.3.1 General Requirements
2.3.2 Wire Type And Size
2.3.3 Determining Number Of Conductors
2.3.4 Power Supply
2.3.5 B60 Gas Input Board
2.3.6 B30 Signal Input Board
2.3.7 B4X Relay Output Board
2.3.8 B50 4-20mA Combination Board
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2.3.9 Alarm Panel “Mirroring”
2.3.10 General Fault Relay
2.3.11 Ethernet
2.3.12 Field Wiring Cable Shield Grounding
2.3.13 BACnet
2.4 Finish Assembly
2.4.1 Front Panel Mounting
3.0 Wiring Schematics
3.1 HTM Central Wiring Diagram
3.2 HTM Zone Wiring Diagram
3.3 HTM Combination Wiring Diagram
4.0 Operation
4.1 Overview
4.1.1 Main Screen
4.1.2 Gas Badge
4.1.3 Source Signals
4.1.4 Toolbar
4.1.5 Fault Status
4.1.6 Display Screens
4.2 Alarm Conguration
4.3 Setting Up a Zone Alarm
4.3.1 Conguring Gas ID Badges
4.3.2 Initial Setup of an Uncongured Zone Alarm
4.4 Setting Up a Central Alarm
4.4.1 Conguring Source Badges
4.4.2 Initial Setup of an Uncongured Central Alarm
4.4.3 Maintenance Mode Setup
4.5 Setting Up a Combination Alarm
4.5.1 Conguring Source Badges
4.5.2 Conguring Gas ID Badges
4.5.3 Initial Setup of an Uncongured Combination Alarm
4.5.4 Miscellaneous Tab
4.6 Customized Instructions Set Up
4 .7 Additional Components
4.7.1 4-20 mA Devices
Table of Contents (continued)
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4.7.2 Relay Output Board (B4X Board)
4.7.3 Wired Ethernet Setup
4.7.4 BACnet Set-Up
4.7.5 “Mirroring” Two Alarm Panels
4.8 Medipoint/Shire Network
4.8.1 Medipoint Network
4.8.2 Medipoint Network Setup
4.8.3 Medipoint Network Gas Badge Setup
4.8.4 Shire Network Setup
4.8.5 Shire Network Gas Badge Setup
4.9 Website
4.9.1 Navigating the Website
4.9.2 Website Set-Up
4.10 Wireless Ethernet Set-Up
5.0 Retrot
5.1 Retrot of MP26 or MP125 Concealed Mounted Alarm Panels
5.1.1 Remove Components from Existing Alarm
5.1.2 Install New Components
6.0 Maintenance
7.0 Troubleshooting
8.0 Central Alarm Signal Input Data
9.0 Non-Latin Language Website
9.1 Website Login
9.2 Area Alarm Conguration - Website
9.3 Central Alarm Conguration - Website
9.4 Combination Alarm Conguration - Website
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0.1 Important symbols for safety,
storage and handling
Read Instructions
Warning - dangerous voltage
Ambient temperature
Ambient humidity range
Ambient pressure range
Date of manufacture
Location of manufacture
Caution - Means there is a possibility
of damage to unit or other property
Power on
Alarm system fault
Mute switch
Protective earth
Shock hazard - Means there is a
possibility of electric shock
Do not dispose of in general waste
0.2 Environmental Protection
Do Not Dispose of in General Waste.
This unit and/or components may be discarded
in any standard refuse facility. The unit does
not contain any hazardous substances.
0.0 Safety Symbols /
Environmental Protection
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TotalAlert Innity™ HTM Medical Gas Notication System
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1.0 Introduction
1.1 Product Identication
Each alarm is identied by a Reference number, Item
number, and Lot Code.
Installation procedures vary depending on the alarm
conguration.
The product ID label is located on the inside of the
alarm back box (Figure 1.1).
1.2 User Interface Layout
1.2.1 TotalAlert Innity™ Features:
• 8” Touch Screen LCD Display.
• User-dened Instructions for Hospital Response
Plan
• 10/100base-T Wired Ethernet Connection
• WIFI 802.11 b/g/n interface
• Embedded Web server for viewing alarm
information through a computer or tablet
• Electronic Notication of Alarms through e-mail/
text messaging
• History Event Log for Documentation
• Electronic User-dened Gas Labels for any mixes
• Electronic User-dened Location Labels
• Ability to “mirror” alarms from other panels using
the wired Ethernet interface
Power LED Alarm System
Fault LED
Mute ButtonAudible
Warning
Home
Button
Mute
Indicator
LED
Figure 1.2: User Interface Layout
Figure 1.1: Product Identication Labels
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Figure 1.4: B05 Power Board
B05 Power Supply Board
Features:
• Supplies 24VDC to all circuit boards in the alarm.
1.2.2 Central Alarm
Features:
Displays a maximum of 24 signals. Combinations can
include:
• Locally wired BeaconMedaes Line Contact
Monitored Signals (Up to 20)
• Medipoint/Shire Network signals
• Ethernet Wired signals (From up to 8 panels)
1.2.3 Area Alarm
Features:
Monitors up to 8 Digital gas sensors.
• Digital pressure/vacuum read out with Low/
Normal/High indicators
• Customizable gas ID labels with user-dened
location labels for each monitored gas
• 1/4” BSPP connection on gas sensors
• Gas Specic Digital ID for each gas sensor
1.2.4 Combination Alarm
Monitors a mix of BeaconMedaes plant signals, digital
gas sensor modules, and 4-20mA transducers.
Features:
• User-dened values for monitoring any two or
three-wire 4-20mA transducer
1.2.5 Boards
Figure 1.3: B03 Advanced Board
B03 Advance Board
Features:
Contains hardware for advanced features of the
TotalAlert Innity™ Alarm.
NOTE:
I = 4-20mA Inputs
X = Source Signal Inputs
Y = Dry-Contact Relay Outputs
D = Digital Gas Sensor Inputs
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B06 Digital Gas Sensor Board
Features:
• Monitors the Pressure/Vacuum from the pipeline,
and provides a gas-specic digital signal for the
alarm.
• Heartbeat indicator to indicate proper operation.
• Embedded in the gas sensor
B40, B41 Relay Output Boards
Features:
• Provides 16 normally closed dry-contact relay out-
puts for external monitoring.
• Heartbeat indicator to signal proper operation.
B50 4-20mA Combination Board
Features:
• Monitors up to four 4-20mA inputs and provides
6 normally closed dry-contact relay outputs for
external monitoring.
• Heartbeat indicator signals proper operation.
Figure 1.5: B06 Digital Gas Sensor Board
Figure 1.7: B40, B41 Output Boards
Figure 1.8: B50 4-20 mA Combination Board
B30 Digital Gas Sensor Board
Features:
• Monitors up to 20 BeaconMedaes Line Contact
Monitoring signals on each board from source
equipment.
• Heartbeat indicator to signal proper operation.
Figure 1.6: B30 Digital Gas Sensor Board
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B60 Gas Input Board
Features:
• Monitors up to 8 Digital Gas Sensor Boards. One
normally closed dry-contact relay output is avail-
able and opens when any fault occurs.
• Heartbeat indicator signals proper operation.
Figure 1.9: B60 Gas Input Board
1.3 Denition of Statements
Statements in this manual preceded by the following
words are of special signicance.
WARNING: Means there is a possibility of injury
or death to yourself or others.
CAUTION: Means there is a possibility of damage
to unit or other property.
SHOCK HAZARD: Means there is a
possibility of electric shock.
ATTENTION: Means precautions for handling
electrostatic sensitive devices are to be observed.
NOTE: Indicates points of particular interest for more
ecient and convenient operation.
1.4 Denitions
4-20 mA
Input which monitors a two or three-wire 4-20mA
transducer.
Address Resolution Protocol (ARP)
Protocol used by a device to learn the MAC address of
another device so it can send an Ethernet packet.
Area Alarm Panel
Alarm panel that monitors medical gas and vacuum
systems serving a specic Area.
Central Alarm Panel
Alarm panel that monitors medical gas and vacuum
source equipment and main pipelines.
Combination Alarm Panel
Alarm panel that combines features of a Central alarm
panel and an Area alarm panel.
Crossover Cable
Network cable that swaps transmit and receive pairs so
cable can be used to connect two computers or devices
without the use of a hub or switch.
Domain Name Server (DNS)
A device that has a list of device names matched to IP
addresses. Browsers use this resource to locate the
IP address of a named device. NetBIOS name service
provides this function on a local network.
Dry-Contact
Electrical contact isolated or unconnected from any
electrical source.
Dynamic Host Conguration Protocol
(DHCP)
A protocol used by a server to assign IP
addresses to devices and computers.
Electromagnetic Compatibility (EMC)
Verication that a product meets required standards
for emissions of and immunity from electromagnetic
energy in its intended environment.
Ethernet
A standard high-speed network medium specied by
IEEE standard 802.3.
Ethernet Switch
A device that connects many Ethernet devices together
with optimization. Message destinations are examined
and passed only to the correct device.
Firewall
A computer or computer software that prevents unau-
thorized access to private data from outside computer
users.
Gateway
A computer or device that connects two computer
networks together (such as a private network and the
Internet).
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1.5 Alarm Congurations
All TotalAlert Innity™ alarm panels are factory
pre-congured. Conguration of alarm panel varies
dependent upon customer’s requirements.
Three types of alarm panels are available.
• Central alarms
• Area alarms
• Combination alarms
General Fault Relay
Single-pole single-throw dry-contact relay output. Used
to activate remote alarm or building management
system. Relay will open whenever ANY audible alarm
on panel is in progress. General Fault Relay will close
only after alarm condition is corrected and alarm panel
resumes normal status.
Hyper Text Transfer Protocol (HTTP)
Protocol used to manage the request and transfer of
web pages to a computer.
Internet Protocol (IP) Address
Unique number that identies a device on a network.
LED
Light Emitting Diode
Media Access Control (MAC) Address
A unique hardware address of a device on an
Ethernet.
NetBIOS Name Service
Local method of addressing a device by name. This
allows a web browser to reference a device by name
instead of an IP address, such as 192.168.2.3.
Remote Sensors
Pressure / vacuum sensors mounted outside of alarm
panel back box. Sensor assemblies may be mounted
separately or ganged together near pressure / vacuum
pipelines. Sensors must then be wired to alarm panel.
Simple Mail Transfer Protocol (SMTP)
Protocol for sending e-mail on a network.
Subnet Mask
A binary number used to separate the network portion
from the host portion of a network address.
SMTP Client
Computer or device that uses SMTP to send e-mail by
communicating with an SMTP server. The TotalAlert
Innity™ Medical Gas Notication System acts as an
SMTP client.
SMTP Server
Computer or device that uses SMTP to receive e-mail
from an SMTP client and then transfer it across the
internet.
Transmission Control Protocol (TCP)
Protocol used to send data streams between two de-
vices. TCP guarantees reliable and in order data from
sender to receiver.
User Datagram Protocol (UDP)
Protocol used to send short messages between com-
puters. UDP does not guarantee reliable transmission
(packets may be lost, duplicated or out of order), but is
faster and more ecient than TCP.
Figure 1.10: Central Alarm Front Panel
1.5.1 Central Alarms
Central alarm panels include the following modular
components:
• Signal input board (B30) that can accept 20 signals
per board; maximum of 1 board.
• Relay boards (B40, B41) that can be used to control
16 dry-contact signals per board; maximum of 2
boards.
Central alarm panels can monitor 20 switched inputs.
Inputs can be assigned to any gas service indicators.
Model Number Scheme:
____ - _______ - ____
Series - Conguration - Retrot
See Model Number Chart in Section 1.7.
Example:
TotalAlert Innity™ Central 20X 16Y
Example Model Number: A3-M11
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1.5.2 Area Alarms
Figure 1.12: Remote Sensors
Sensor modules are
mounted outside alarm
backbox
Figure 1.11: Area Alarm Front Panel
Area alarm panels include the following modular
components:
• Gas Sensor input board (B60) that are used for up
to 8 digital sensors modules
• Digital gas sensor module (B06), can be mounted
remotely on the gas pipeline. A maximum of 8 digi-
tal gas sensor modules are allowed per Area alarm
panel.
Area alarm panels may be congured for 1 to 8 gas
inputs. If alarm is congured with gas inputs, the
sensors will be included for connection to pressure/
vacuum pipeline.
Sensors have a 1/4” BSPP male tting for attaching to
the hospital pipeline.
Model Number Scheme:
____ - _______ - ____
Series - Conguration - Retrot
See Model Number Chart in Section 1.6.
Example:
TotalAlert Innity™ Area Alarm
Example Model Number: A3-A10
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1.5.3 Gas Combination Alarms
Figure 1.13: Combination Alarm Front Panel
Gas Combination alarms include a mix of the following
modular components:
• B30 board
• B60 board
• B50 board
Combination alarms can monitor up to 20
BeaconMedaes Line Contact Monitoring signal.
Inputs can be assigned to any one of 8 gas service
indicators.
Combination alarms can also monitor up to 6 digital
gas sensors.
Model Number Scheme:
____ - _______ - ____
Series - Conguration - Retrot
See Model Number Chart in Section 1.7.
Example:
TotalAlert Innity™ Combination Alarm
Example Model Number: A3-C10
1.6 Electromagnetic Compatibility
1.6.1 EN 60601-1-2
Medical Electrical Equipment needs special precautions
regarding EMC and needs to be installed and put into
service according to the EMC information provided in
this manual.
Portable and mobile RF communications equipment
can aect Medical Electrical Equipment. The use of
accessories, transducers, and cables other than those
specied by the manufacturer, may result in increased
emissions or decreased immunity of the
TotalAlert Innity.
The TotalAlert Innity should not be used adjacent
to, or stacked with, other equipment. If adjacent or
stacked use is necessary, the TotalAlert Innity should
be observed to verify normal operation in the
conguration in which it will be used.
Guidance and manufacturer’s declaration -
electromagnetic emissions
The TotalAlert Innity is intended for use in the electromag-
netic environment specied below. The customer or the user
of the TotalAlert Innity should assure that it is used in such an
environment.
Emissions test Compliance Electromagnetic
environment - guidance
RF emissions
CISPR 11 Group 1
The TotalAlert Innity
uses RF energy only for
its internal function.
Therefore, its RF
emissions are very low
and are not likely to
cause any interference in
nearby electronic
equipment.
RF emissions
CISPR 11 Class A The TotalAlert Innity
is suitable for use in all
establishments other
than domestic and those
directly connected to the
public low-voltage power
supply network that sup-
plies buildings used for
domestic purposes.
Harmonic emissions
IEC 61000-3-2 Class A
Voltage uctuations/
Flicker emissions
IEC 61000-3-3
Complies
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Guidance and manufacturer’s declaration - electromagnetic immunity
The TotalAlert Innity is intended for use in the electromagnetic environment specied below.
The customer or the user of the TotalAlert Innity should assure that it is used in such an environment.
Immunity test IEC 60601
test level Compliance level Electromagnetic environment - guidance
Electrostatic
Discharge (ESD)
IEC 61000-4-2
±6 kV contact
±8 kV air
±6 kV contact
±8 kV air
Floors should be wood, concrete or ceramic tile.
If oors are covered with synthetic material, the
relative humidity should be at least 30 %.
Electrical fast
transient/burst IEC
61000-4-4
±2 kV for power supply lines
±1 kV for input/output lines
±2 kV for power supply lines
±1 kV for input/output lines
Mains power quality should be that of a typical
commercial or hospital environment.
Surge IEC 61000-4-5 ±1 kV dierential mode
±2 kV common mode
±1 kV dierential mode
±2 kV common mode
Mains power quality should be that of a typical
commercial or hospital environment.
Voltage dips, short
Interruptions and
voltage variations
on power supply
input lines IEC
61000-4-11
<5 % UT
(>95 % dip in UT)
for 0,5 cycle
<40 % UT
(>60 % dip in UT)
for 5 cycles
<70 % UT
(>30 % dip in UT)
for 25 cycles
<5 % UT
(>95 % dip in UT)
for 5 sec
<5 % UT
(>95 % dip in UT)
for 0,5 cycle
<40 % UT
(>60 % dip in UT)
for 5 cycles
<70 % UT
(>30 % dip in UT)
for 25 cycles
<5 % UT
(>95 % dip in UT)
for 5 sec
Mains power quality should be that of a typical
commercial or hospital environment. If the user
of the TotalAlert Innity requires continued
operation during power mains interruptions, it
is recommended that the TotalAlert Innity be
powered from an uninterruptible power supply
or battery.
Power frequency
(50/60 Hz) magnetic
eld IEC 61000-4-8
3 A/m 3 A/m
Power frequency magnetic elds should be at
levels characteristic of a typical location in a typi-
cal commercial or hospital environment.
Note: UT is the a.c. mains voltage prior to application of the test level.
Conducted RF
IEC 61000-4-6
Radiated RF
IEC 61000-4-3
3 Vrms
150 kHz to 80 MHz
3 V/m
80 MHz to 2,5 GHz
3 Vrms
3 V/m
Portable and mobile RF communications equip-
ment should be used no closer to any part of
the TotalAlert Innity, including cables, than the
recommended separation distance calculated
from the equation applicable to the frequency of
the transmitter.
Recommended separation distance
d = 1,2√P
d = 1,2√P 80 MHz to 800 MHz
d = 2,3√P 800 MHz to 2,5 GHz
where P is the maximum output power rating
of the transmitter in watts (W) according to the
transmitter manufacturer and d is the recom-
mended separation distance in metres (m).
Field strengths from xed RF transmitters, as
determined by an electromagnetic site survey,
a should be less than the compliance
level in each frequency range.
b Interference may occur in the vicinity of equip-
ment marked with the following symbol:
Note 1: At 80 MHz and 800 MHz, the higher frequency range applies.
Note 2: These guidelines may not apply in all situations. Electromagnetic propagation is aected by absorption and reection from
structures, objects and people.
a. Field strengths from xed transmitters, such as base stations for radio (cellular/cordless) telephones and land mobile radios,
amateur radio, AM and FM radio broadcast and TV broadcast cannot be predicted theoretically with accuracy. To assess the
electromagnetic environment due to xed RF transmitters, and electromagnetic site survey should be considered. If the
measured eld strength in the location in which the TotalAlert Innity is used exceeds the applicable RF compliance level above, the
TotalAlert Innity should be observed to verify normal operation. If abnormal performance is observed, additional measures may be
necessary, such as reorienting or relocating the TotalAlert Innity.
b. Over the frequency range 150 kHz to 80 MHz, eld strengths should be less than 3 V/m.
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A3 - ___
B
Available Gas Sensors
Description
Oxygen
Nitrous Oxide
Medical Air
Medical Vacuum
Nitrogen
Carbon Dioxide (CO2)
HE-O2 (HE over 80%)
Laboratory Air
Laboratory Vacuum
Surgical Air
O2-N2O
Example: TotalAlert Innity™ Central Alarm with 20 Inputs and 16 Relay
Outputs Example Model Number: A3-M11
Example: TotalAlert Innity™ Area Alarm with 4 gases - Oxygen, Nitrous
Oxide, Medical Air, and Vacuum
Example Model Number: A3-A10
* Gas sensors to be ordered separately
Example: TotalAlert Innity™ Combination Alarm with 20 Inputs, and 3
gases - Oxygen, Medical Air, and Vacuum
Example Model Number: A3-C10
* Gas sensors to be ordered separately
Example: TotalAlert Innity™ Combination Alarm with four 4-420mA
devices and 6 Relay Outputs.
Example Model Number: A3-C40
1.7 TotalAlert Innity™ Medical Gas Notication System Parent Model
Number Chart
Variable B
Alarm Type and Size
Allowable
Value
Description
A10 Area Alarm, Up to 8 Area Gases
M01 Central, 0 Inputs, 16 Relay Outputs
M02 Central, 0 Inputs, 32 Relay Outputs
M10 Central, 20 Inputs
M11 Central, 20 Inputs, 16 Relay Outputs
C10 Combination, 20 Inputs, Display up to
6 Area Gases
C40 Combination, 4 Inputs for 4-20 mA
devices, 6 Relay Outputs
Recommended separation distances between
portable and mobile RF communications equipment and the TotalAlert Innity
The TotalAlert Innity is intended for use in the electromagnetic environment in which radiated
RF disturbances are controlled. The customer or the user of the TotalAlert Innity can help
prevent electromagnetic interference by maintaining a minimum distance between portable
and mobile RF communications equipment (transmitters) and the TotalAlert Innity as recom-
mended below, according to the maximum output power of the communications equipment.
Rated maximum output
power of transmitter
W
Separation distance according to frequency of transmitter
m
150 kHz to
80 MHz
d = 1,2√P
80 MHz to 800 MHz
d = 1,2√P
800 MHz to 2,5 GHz
d = 2,3√P
0,01 0,12 0,12 0,23
0,1 0,38 0,38 0,73
11,2 1,2 2,3
10 3,8 3,8 7,3
100 12 12 23
For transmitters rated at a maximum output power not listed above, the recommended sepa-
ration distance d in metres (m) can be estimated using the equation applicable to the frequency
of the transmitter, where P is the maximum output power rating of the transmitter in watts (W)
according to the transmitter manufacturer.
Note 1 At 80 MHz and 800 MHz, the separation distance for the higher frequency range applies.
Note 2 These guidelines may not apply in all situations. Electromagnetic propagation is aected
by absorption and reection from structures, objects and people.
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