emua user guide(v100r001_10)
TRANSCRIPT
EMUA
V100R001
User Guide
Issue 10
Date 2010-03-30
Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service. For anyassistance, please contact our local office or company headquarters.
Huawei Technologies Co., Ltd.Address: Huawei Industrial Base
Bantian, LonggangShenzhen 518129People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
Copyright © Huawei Technologies Co., Ltd. 2010. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior writtenconsent of Huawei Technologies Co., Ltd. Trademarks and Permissions
and other Huawei trademarks are the property of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders. NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and thecustomer. All or part of the products, services and features described in this document may not be within thepurchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,and recommendations in this document are provided "AS IS" without warranties, guarantees or representationsof any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in thepreparation of this document to ensure accuracy of the contents, but all statements, information, andrecommendations in this document do not constitute the warranty of any kind, express or implied.
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Contents
About This Document.....................................................................................................................1
1 Changes in EMUA User Guide................................................................................................1-1
2 Overview of the EMUA.............................................................................................................2-12.1 Functions of the EMUA..................................................................................................................................2-22.2 Exterior of the EMUA.....................................................................................................................................2-32.3 Internal Structure of the EMUA......................................................................................................................2-62.4 Communication Ports on the EMUA..............................................................................................................2-9
2.4.1 RS485 Serial Port.................................................................................................................................2-102.4.2 RS232 Serial Port.................................................................................................................................2-112.4.3 Commissioning Serial Port...................................................................................................................2-12
2.5 Monitoring Ports of the EMUA....................................................................................................................2-122.5.1 Monitoring Port for the Water Sensor..................................................................................................2-132.5.2 Monitoring Port for the Smoke Sensor................................................................................................2-142.5.3 Monitoring Port for the Infrared Sensor...............................................................................................2-152.5.4 Monitoring Port for the Door Status Sensor.........................................................................................2-162.5.5 Monitoring Port for the Humidity/Temperature Sensor.......................................................................2-172.5.6 Monitoring Port for Boolean Signals...................................................................................................2-182.5.7 Monitoring Port for Analog Signals.....................................................................................................2-192.5.8 Monitoring Port for the Relay Node Boolean Signals.........................................................................2-21
2.6 Technical Specifications of the EMUA.........................................................................................................2-23
3 Introduction to the Sensors......................................................................................................3-13.1 Water Sensor...................................................................................................................................................3-23.2 Smoke Sensor..................................................................................................................................................3-23.3 Infrared Sensor................................................................................................................................................3-43.4 Door Status Sensor..........................................................................................................................................3-53.5 Humidity/Temperature Sensor........................................................................................................................3-73.6 Self-Selected Sensors......................................................................................................................................3-8
4 Installing the EMUA..................................................................................................................4-1
5 Installing the Sensors................................................................................................................5-15.1 Installing the Water Sensor.............................................................................................................................5-25.2 Installing the Smoke Sensor............................................................................................................................5-3
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5.3 Installing the Infrared Sensor..........................................................................................................................5-65.4 Installing the Door Status Sensor....................................................................................................................5-75.5 Installing the Humidity/Temperature Sensor..................................................................................................5-9
6 Commissioning the EMUA......................................................................................................6-1
7 Handling Common Faults........................................................................................................7-1
ContentsEMUA
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Figures
Figure 2-1 Exterior of the EMUA of type A........................................................................................................2-4Figure 2-2 Front panel of the EMUA of type A...................................................................................................2-4Figure 2-3 Exterior of the EMUA of type B........................................................................................................2-5Figure 2-4 Front panel of the EMUA of type B...................................................................................................2-5Figure 2-5 Exterior of the EMUA of type C........................................................................................................2-6Figure 2-6 Front panel of the EMUA of type C...................................................................................................2-6Figure 2-7 Board layout inside the EMUA of type A or B..................................................................................2-7Figure 2-8 Board layout inside the EMUA of type C..........................................................................................2-7Figure 2-9 Pins of the RS485 serial port socket.................................................................................................2-10Figure 2-10 Pins of the RS232 serial port socket...............................................................................................2-11Figure 2-11 Pins of the commissioning serial port socket.................................................................................2-12Figure 2-12 Monitoring port for the water sensor..............................................................................................2-14Figure 2-13 Monitoring port for the smoke sensor............................................................................................2-15Figure 2-14 Monitoring port for the infrared sensor..........................................................................................2-16Figure 2-15 Monitoring port for the door status sensor.....................................................................................2-17Figure 2-16 Monitoring port for the humidity/temperature sensor....................................................................2-18Figure 2-17 Monitoring port for Boolean signals..............................................................................................2-19Figure 2-18 Monitoring port for analog signals.................................................................................................2-20Figure 2-19 Connecting the analog sensor of the voltage type..........................................................................2-21Figure 2-20 Connecting the analog sensor of the current type...........................................................................2-21Figure 2-21 Monitoring Port for relay node Boolean signals............................................................................2-22Figure 2-22 Cable connection of the relay node................................................................................................2-22Figure 3-1 Exterior of the YW517B water sensor................................................................................................3-2Figure 3-2 Exterior of the JTY-GD-01K smoke sensor.......................................................................................3-3Figure 3-3 Exterior of the MC-760T infrared sensor...........................................................................................3-4Figure 3-4 Exterior of the AGX105F door status sensor.....................................................................................3-5Figure 3-5 Exterior of the HO-03A door status sensor........................................................................................3-6Figure 3-6 Working principle of the AGX105F door status sensor.....................................................................3-6Figure 3-7 Exterior of the WS302A1T4 humidity/temperature sensor................................................................3-7Figure 3-8 Relations between the humidity and output current...........................................................................3-9Figure 3-9 Relations between the temperature and output current.......................................................................3-9Figure 4-1 Installing the EMUA inside the cabinet.............................................................................................4-2Figure 4-2 Installing the EMUA inside the rack..................................................................................................4-2
EMUAUser Guide Figures
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Figure 5-1 Installing the water sensor..................................................................................................................5-2Figure 5-2 Connecting the water sensor...............................................................................................................5-3Figure 5-3 Installation of the smoke sensor......................................................................................................... 5-5Figure 5-4 Connecting the smoke sensor.............................................................................................................5-6Figure 5-5 Connecting the infrared sensor...........................................................................................................5-7Figure 5-6 Connecting the AGX105F door status sensor.................................................................................... 5-8Figure 5-7 Connecting the HO-03A door status sensor.......................................................................................5-8Figure 5-8 Connecting the humidity/temperature sensor...................................................................................5-10
FiguresEMUA
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Tables
Table 2-1 Functions of the three EMUA models.................................................................................................2-3Table 2-2 Functions and settings of the DIP switches on the panel of the EMUA..............................................2-8Table 2-3 Meanings of the pins of the RS485 serial port socket........................................................................2-10Table 2-4 Meanings of the pins of the RS232 serial port socket........................................................................2-11Table 2-5 Meanings of the pins of the commissioning serial port socket..........................................................2-12Table 2-6 Meanings of the terminals of the monitoring port for the water sensor.............................................2-14Table 2-7 Meanings of the terminals of the monitoring port for the smoke sensor...........................................2-15Table 2-8 Meanings of the terminals of the monitoring port for the infrared sensor.........................................2-16Table 2-9 Meanings of the terminals of the monitoring port for the door status sensor....................................2-17Table 2-10 Meanings of the terminals of the monitoring port for the humidity/temperature sensor.................2-18Table 2-11 Valid values of Boolean signals of the voltage type........................................................................2-19Table 2-12 Meanings of the terminals of the monitoring port for Boolean signals...........................................2-19Table 2-13 Meanings of the terminals of the monitoring port for analog signals..............................................2-20Table 2-14 Meanings of the terminals of the monitoring port for relay node Boolean signals..........................2-22Table 2-15 Alarms corresponding to the relay switch........................................................................................2-23Table 2-16 Technical specifications of the EMUA............................................................................................2-23Table 2-17 Performance specifications of the EMUA.......................................................................................2-24Table 3-1 Technical specifications of the YW517B water sensor.......................................................................3-2Table 3-2 Indicator on the smoke sensor..............................................................................................................3-3Table 3-3 Technical specifications of the JTY-GD-01K smoke sensor...............................................................3-3Table 3-4 Technical specifications of the MC-760T infrared sensor...................................................................3-5Table 3-5 Technical specifications of the AGX105F door status sensor.............................................................3-7Table 3-6 Technical specifications of the HO-03A door status sensor................................................................3-7Table 3-7 Technical specifications of the WS302A1T4 humidity/temperature sensor........................................3-8Table 5-1 3-core leading cable of the water sensor..............................................................................................5-3Table 7-1 Solutions to common faults in the EMUA...........................................................................................7-1
EMUAUser Guide Tables
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About This Document
PurposeThis document describes the exterior, interfaces, functions, and sensors of the OutdoorEnvironment Monitoring Extension Unit (EMUA). In addition, this document describes how toinstall the EMUA and the sensors.
Product VersionThe following table lists the product version related to this document.
Product Name Product Version
EMUA2416 V100R001
EMUA2432 V100R001
EMUA4832 V100R001
Intended AudienceThis document is intended for:
l NodeB/BTS Installer
l System Engineer
l Site Maintainer
Change HistoryFor changes made in this document, refer to 1 Changes in EMUA User Guide.
Organization1 Changes in EMUA User Guide
EMUAUser Guide About This Document
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This describes the changes in the EMUA User Guide.
2 Overview of the EMUA
Applicable to all types of BTSs/NodeBs manufactured by Huawei, the outdoor environmentmonitoring unit (EMUA) is used to monitor the environment in the equipment room and thecabinet.
3 Introduction to the Sensors
The sensors provided by Huawei can be used directly. The sensors not provided by Huawei canbe used only if their specifications meet the requirements.
4 Installing the EMUA
This describes how to install the EMUA. The EMUA can be installed in different ways.
5 Installing the Sensors
The installation methods of the sensors provided by Huawei are described here. For the sensorsnot provided by Huawei, see their respective instructions during installation.
6 Commissioning the EMUA
This describes how to commission the EMUA.
7 Handling Common Faults
This describes the solutions to common faults in the EMUA.
ConventionsSymbol Conventions
The symbols that may be found in this document are defined as follows.
Symbol Description
Indicates a hazard with a high level of risk, which if notavoided,will result in death or serious injury.
Indicates a hazard with a medium or low level of risk, whichif not avoided, could result in minor or moderate injury.
Indicates a potentially hazardous situation, which if notavoided,could result in equipment damage, data loss,performance degradation, or unexpected results.
Indicates a tip that may help you solve a problem or savetime.
Provides additional information to emphasize or supplementimportant points of the main text.
General Conventions
The general conventions that may be found in this document are defined as follows.
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Convention Description
Times New Roman Normal paragraphs are in Times New Roman.
Boldface Names of files, directories, folders, and users are inboldface. For example, log in as user root.
Italic Book titles are in italics.
Courier New Examples of information displayed on the screen are inCourier New.
Command Conventions
The command conventions that may be found in this document are defined as follows.
Convention Description
Boldface The keywords of a command line are in boldface.
Italic Command arguments are in italics.
[ ] Items (keywords or arguments) in brackets [ ] are optional.
{ x | y | ... } Optional items are grouped in braces and separated byvertical bars. One item is selected.
[ x | y | ... ] Optional items are grouped in brackets and separated byvertical bars. One item is selected or no item is selected.
{ x | y | ... }* Optional items are grouped in braces and separated byvertical bars. A minimum of one item or a maximum of allitems can be selected.
[ x | y | ... ]* Optional items are grouped in brackets and separated byvertical bars. Several items or no item can be selected.
GUI Conventions
The GUI conventions that may be found in this document are defined as follows.
Convention Description
Boldface Buttons, menus, parameters, tabs, window, and dialog titlesare in boldface. For example, click OK.
> Multi-level menus are in boldface and separated by the ">"signs. For example, choose File > Create > Folder.
Keyboard Operations
The keyboard operations that may be found in this document are defined as follows.
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Format Description
Key Press the key. For example, press Enter and press Tab.
Key 1+Key 2 Press the keys concurrently. For example, pressing Ctrl+Alt+A means the three keys should be pressed concurrently.
Key 1, Key 2 Press the keys in turn. For example, pressing Alt, A meansthe two keys should be pressed in turn.
Mouse Operations
The mouse operations that may be found in this document are defined as follows.
Action Description
Click Select and release the primary mouse button without movingthe pointer.
Double-click Press the primary mouse button twice continuously andquickly without moving the pointer.
Drag Press and hold the primary mouse button and move thepointer to a certain position.
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1 Changes in EMUA User Guide
This describes the changes in the EMUA User Guide.
10(2010-03-30)
Tenth release. The document is modified according to the comments by the testers.
09(2009-12-30)
Ninth release. The document is modified according to the comments by the testers.
08 (2008-09-10)
Eighth release. The wall-mounted installation mode is deleted.
07 (2008-08-20)
Seventh release. The description of SW-ADDR is Modified, and the appearance description theEMUA is modified.
06 (2008-05-20)
Sixth release. The pin mapping description of the data cable is added.
05 (2008-04-25)
Fifth release. The illustration of how to connect the infrared sensor is modified.
04 (2008-01-15)
Fourth release. The title of the preface is changed, the document structure is adjusted, and theprocedure for installing the EMUA on a wall is added.
03 (2007-04-20)
Third release. Indexes are added, parameter description of the self-selected sensors is added.
EMUAUser Guide 1 Changes in EMUA User Guide
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02 (2007-02-02)Second release. Testing problems are solved.
01 (2007-01-15)First release.
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2 Overview of the EMUA
About This Chapter
Applicable to all types of BTSs/NodeBs manufactured by Huawei, the outdoor environmentmonitoring unit (EMUA) is used to monitor the environment in the equipment room and thecabinet.
2.1 Functions of the EMUAThis describes the functions of the EMUA. Providing a variety of input ports for monitoringsignals, the EMUA supports real-time monitoring and remote monitoring. In addition, theEMUA is highly reliable and can be flexibly configured. It supports a large area for temperaturemonitoring.
2.2 Exterior of the EMUAEach Module of EMUA has three types of exterior A, B, and C.
2.3 Internal Structure of the EMUAThis describes the internal structure of the EMUA.
2.4 Communication Ports on the EMUAThe EMUA provides the RS485 and RS232 ports for the communication between the EMUAand the BTS/NodeB. Specifically, the EMUA4832 provides an independent commissioningport.
2.5 Monitoring Ports of the EMUAThe EMUA provides monitoring ports for the humidity/temperature sensor, smoke sensor, watersensor, infrared sensor, and door status sensor. In addition, the EMUA provides monitoring portsfor the Boolean signal sensor, analog signal sensor, and output control sensor, which are extendedsensors.
2.6 Technical Specifications of the EMUAThis describes the technical specifications of the EMUA.
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2.1 Functions of the EMUAThis describes the functions of the EMUA. Providing a variety of input ports for monitoringsignals, the EMUA supports real-time monitoring and remote monitoring. In addition, theEMUA is highly reliable and can be flexibly configured. It supports a large area for temperaturemonitoring.
Functions of the EMUAPower Input
The EMUA supports input voltage detection. The alarm threshold for the input voltage can beconfigured on the BTS/NodeB and delivered to the EMUA.
The EMUA provides two power input ports, which are protected from inverse connections.
l The EMUA2416 and EMUA2432 support +24 V DC power input, and the voltage canrange from +18 V DC to +36 V DC.
l The EMUA4832 supports -48 V DC power input, and the voltage can range from -36 VDC to -72 V DC.
Environment Monitoring
l The EMUA provides an independent port for +12 V/+24 V DC current-type (4 mA - 20mA) humidity/temperature sensors. The temperature monitoring range is -20oC [-4oF] to80oC [176oF].
l The EMUA provides four ports for monitoring analog signals. Voltage-type (0 V - 5 V)sensors and current-type (4 mA - 20 mA) sensors can be used. The types of monitoredanalog signals can be configured through the DIP switch settings according to the BTS/NodeB configuration.
Boolean Signal Monitoring
The EMUA provides ports for monitoring Boolean signals. Dry contact point signals and OCsignals are supported.
l The EMUA2416 supports 16 ports for Boolean signal monitoring.
l The EMUA2432 or EMUA4832 supports 32 ports for Boolean signal monitoring.
Relay Node Control
The EMUA provides six output control ports for external Boolean signals of the relay node type.
Communication Ports
The EMUA provides two RS-485 ports, which are used for the communication between theEMUA and the BTS/NodeB.
Comparison Between the Functions of the Three EMUA Models
Table 2-1 lists the functions of the three EMUA models for you to make a comparison.
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Table 2-1 Functions of the three EMUA models
EMUA2416 EMUA2432 EMUA4832
Input voltage +24 V DC powerinput
+24 V DC powerinput
-48V DC power input
Range of voltageinput
+18 V DC to +36 VDC
+18 V DC to +36 VDC
-36 V DC to -72 V DC
Boolean signal 16 ports(S1+/S1- to S16+/S16-)
32 ports(S1+/S1- to S32+/S32-)
32 ports(S1+/S1- to S32+/S32-)
Boolean signalport
32 ports(Ports 17 to 32 areinvalid)
32 ports 32 ports
DIP switchsettings
By default, the DIPswitches SW24Aand SW24B are setto OFF. Do notchange their defaultsettings.
You can set the DIPswitches SW24A andSW24B.
You can set the DIPswitches SW24A andSW24B.
Serial portprotection
Maximum current indifferential mode: 3kA; maximumcurrent in commonmode: 5 kA
Maximum current indifferential mode: 3kA; maximumcurrent in commonmode: 5 kA
Maximum current indifferential mode: 3kA; maximum currentin common mode: 5 kA
2.2 Exterior of the EMUAEach Module of EMUA has three types of exterior A, B, and C.
Exterior of the EMUA of Type AFigure 2-1 and Figure 2-2 show the exterior of the EMUA of type A and its front panelrespectively.
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Figure 2-1 Exterior of the EMUA of type A
Figure 2-2 Front panel of the EMUA of type A
RS-485
EMUA ALMRUN
8 13
1
RS-232
12
-+ -+
9PWR1 PWR2
S28-S28+S27-S27+S26-S26+S25-S25+
10 11
2 3 4 5 6 7
GNDWater12VW24VWHUMI24VHTEMP24VT RE2-RE2+RE1-RE1+ RE4-RE4+RE3-RE3+12V124V1 GND1ANA1 12V224V2 GND2ANA2
12V424V4 GND4ANA412V324V3 GND3ANA3 RE6-RE6+RE5-RE5+ NCNCNCNCGATE12VGSmoke24VSGNDOPTI12VI24VI
S1-S1+ S4-S4+S3-S3+S2-S2+S12-S12+S11-S11+S10-S10+S9-S9+S17-S17+ S20-S20+S19-S19+S18-S18+
S8-S8+S7S7+S6-S6+S5-S5+S16-S16+S15-S15+S14-S14+S13-S13+S24-S24+S23-S23+S22-S22+S21-S21+S32-S32+S31-S31+S30-S30+S29-S29+
(1) Indicator (2) Four ports for analog signalsensors
(3) Port for infrared sensors
(4) Port for smoke sensors (5) Port for door status sensors (6) Six ports for Boolean signaloutput
(7) 16/32 ports for the detection ofBoolean signals
(8) Two RS-485 ports (9) Wiring terminal for the powersupply
(10) Port for humidity/temperaturesensors
(11) Port for water sensors (12) RS-232 port
(13) Grounding screw
Exterior of the EMUA of Type BFigure 2-3 and Figure 2-4 show the exterior of the EMUA of type B and its front panelrespectively.
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Figure 2-3 Exterior of the EMUA of type B
Figure 2-4 Front panel of the EMUA of type B
S28-S28+S27-S27+S26-S26+S25-S25+RS-485
EMU
A
ALMRUN
8 10 11
2 3 4 5 6 71
RS-232
12
PWR1-PWR1+ PWR2-PWR2+
9
GNDWater12VW24VWHUMI24VHTEMP24VT RE2-RE2+RE1-RE1+ RE4-RE4+RE3-RE3+12V124V1 GND1ANA1 12V224V2 GND2ANA2
12V424V4 GND4ANA412V324V3 GND3ANA3 RE6-RE6+RE5-RE5+ NCNCNCNCGATE12VGSmoke24VSGNDOPTI12VI24VI
S1-S1+ S4-S4+S3-S3+S2-S2+S12-S12+S11-S11+S10-S10+S9-S9+S17-S17+ S20-S20+S19-S19+S18-S18+
S8-S8+S7S7+S6-S6+S5-S5+S16-S16+S15-S15+S14-S14+S13-S13+S24-S24+S23-S23+S22-S22+S21-S21+S32-S32+S31-S31+S30-S30+S29-S29+
(1) Indicator (2) Four ports for analog signalsensors
(3) Port for infrared sensors
(4) Port for smoke sensors (5) Port for door status sensors (6) Six ports for Boolean signaloutput
(7) 16/32 ports for Boolean signalmonitoring
(8) Two RS-485 ports (9) Wiring terminal for the powersupply
(10) Port for humidity/temperaturesensors
(11) Port for water sensors (12) RS-232 port
NOTE
The grounding screw of the EMUA of type B is on the rear panel.
Exterior of the EMUA of Type CFigure 2-5 and Figure 2-6 show the exterior of the EMUA of type C and its front panelrespectively.
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Figure 2-5 Exterior of the EMUA of type C
Figure 2-6 Front panel of the EMUA of type C
S28-S28+S27-S27+S26-S26+S25-S25+
RS-485
EMU
A
ALMRUN
8
10 11
2 3 4 5 6 7
13
1
14
RS-232
12
-+ -+
9PWR1 PWR2
TX-TX+ RX-RX+GNDWater12VW24VWHUMI24VHTEMP24VT RE2-RE2+RE1-RE1+ RE4-RE4+RE3-RE3+12V124V1 GND1ANA1 12V224V2 GND2ANA2
12V424V4 GND4ANA412V324V3 GND3ANA3 RE6-RE6+RE5-RE5+ NCNCNCNCGATE12VGSmoke24VSGNDOPTI12VI24VI
S1-S1+ S4-S4+S3-S3+S2-S2+S12-S12+S11-S11+S10-S10+S9-S9+S17-S17+ S20-S20+S19-S19+S18-S18+
S8-S8+S7S7+S6-S6+S5-S5+S16-S16+S15-S15+S14-S14+S13-S13+S24-S24+S23-S23+S22-S22+S21-S21+S32-S32+S31-S31+S30-S30+S29-S29+
(1) Indicator (2) Four ports for analog signal sensors (3) Port for infrared sensors(4) Port for smoke sensors (5) Port for door status sensors (6) Six ports for Boolean signal
output(7) 16/32 ports for the detection ofBoolean signals
(8) Two RS-485 ports (9) Wiring terminal for thepower supply
(10) Port for humidity/temperaturesensors
(11) Port for water sensors (12) RS-232 port
(13) Grounding screw (14) Commissioning serial port
2.3 Internal Structure of the EMUAThis describes the internal structure of the EMUA.
Board LayoutFigure 2-7 shows the board layout inside the EMUA of type A or B.
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Figure 2-7 Board layout inside the EMUA of type A or B
DC
/DC
pouw
er m
odul
e
SW_AV
SW_AE
SW_THE
SW_BKE
SW12ASW12BSW24ASW24B
ON
12345678
ON
12345678
ON
12345678
ON
12345678
ON
1234ON
1234
ON
1234
ON
12
SW
_AD
DR
ON
1234
CPU
Lattice
Ligntning protectionboard
Figure 2-8 shows the board layout inside the EMUA of type C.
Figure 2-8 Board layout inside the EMUA of type C
Lightning protection andinterface board for Boolean
signals
DC/DC powermodule
CPU
ON 1
23
4
ON 1
23
45
67
8
ON 1
23
4
ON 1
23
4ON 1
2
ON
1234
SW_AV
IDC connector
SW_AESW_THE
SW_ADDR
ON 1
23
45
67
8
ON 1
23
45
67
8
ON 1
23
45
67
8
SW
12A
SW
12B
SW
24A
SW
24B
SW
_BK
E
IDC connector
DIP Switches
Table 2-2 lists the functions and settings of the DIP switches on the panel of the EMUA.
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Table 2-2 Functions and settings of the DIP switches on the panel of the EMUA
Silkscreen Function Setting
SW_ADDR Selection of thecommunication protocol
l If a DIP switch bit is set to ON, itrepresents 0. If a DIP switch bit is set toOFF, it represents 1.
l The settings of the DIP switchSW_ADDR (1234) are as follows:– Outdoor CDMA BTS: 0000
– Indoor CDMA BTS or non-double-density GSM BTS: 0001
– Double-density GSM BTS, WCDMANodeB or LTE eNodeB or WiMAXBTS (the EMUA does not supportalarm association): 0010
– Double-density GSM BTS, WCDMANodeB or LTE eNodeB or WiMAXBTS (the EMUA supports alarmassociation):1110
NOTE
l If an EMUA is delivered along with the BTS/NodeB, the communication protocol isalready configured according to the BTS/NodeB type.
l If an EMUA is delivered independently, thedefault setting of the DIP switch SW_ADDR(1234) is 0010.
l If an EMUA must support alarm association,the DIP switches must be set on site.
SW_BKE Bit 1: water sensor setting l This bit is set to ON if a sensor is notused.
l This bit is set to OFF if a sensor is used.
Bit 2: smoke sensor setting This bit is set to ON no matter whether asensor is used.
Bit 3: infrared sensor setting l This bit is set to ON if a sensor is notused.
l This bit is set to OFF if a sensor is used.
Bit 4: door status sensor setting l This bit is set to ON if a sensor is used.
l This bit is set to OFF if a sensor is notused.
SW_THE Bit 1: temperature sensorsetting
l This bit is set to ON if a sensor is used.
l This bit is set to OFF if a sensor is notused.
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Silkscreen Function Setting
Bit 2: humidity sensor setting l This bit is set to ON if a sensor is used.
l This bit is set to OFF if a sensor is notused.
SW_AE Four bits for analog signalsensor settings
Each bit corresponds to an analog sensor.l This bit is set to ON if a sensor is used.
l This bit is set to OFF if a sensor is notused.
SW_AV Four bits for analog signalsensor settings
Each bit corresponds to an analog sensor.l This bit is set to ON if a current-type
sensor is used.l This bit is set to OFF if a voltage-type
sensor is used.
SW12A,SW12B,SW24A,SW24B
Thirty-two bits for Booleansignal input
l Bits 1-8 of the DIP switch SW12Acorrespond to input signals 1-8.
l Bits 1-8 of the DIP switch SW12Bcorrespond to input signals 9-16.
l Bits 1-8 of the DIP switch SW24Acorrespond to input signals 17-24.
l Bits 1-8 of the DIP switch SW24Bcorrespond to input signals 25-32.
l When a bit is set to ON, it representshigh-level alarms.
l When a bit is set to OFF, it representslow-level alarms or is not used.
2.4 Communication Ports on the EMUAThe EMUA provides the RS485 and RS232 ports for the communication between the EMUAand the BTS/NodeB. Specifically, the EMUA4832 provides an independent commissioningport.
2.4.1 RS485 Serial PortThis describes the RS485 serial port on the EMUA. The RS485 serial port supports two ports(active/standby mode) for the communication between the EMUA and the BTS/NodeB. TheRS485 serial port is suitable for a dedicated serial port that has a DB-9 male connector.
2.4.2 RS232 Serial PortThis describes the RS232 serial port on the EMUA. An RS232 serial port is an RJ-45 socket andsuitable for a dedicated serial port cable that has an RJ-45 plug.
2.4.3 Commissioning Serial PortThis describes the commission serial port of the EMUA4832. Of all the EMUA models, onlythe EMUA4832 provides a commissioning serial port. The commissioning serial port is used
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only for commissioning during the manufacture of the EMUA4832. When the EMUA worksproperly, this port is not used.
2.4.1 RS485 Serial PortThis describes the RS485 serial port on the EMUA. The RS485 serial port supports two ports(active/standby mode) for the communication between the EMUA and the BTS/NodeB. TheRS485 serial port is suitable for a dedicated serial port that has a DB-9 male connector.
For the position of the RS485 serial port on the EMUA, see 2.2 Exterior of the EMUA.
Figure 2-9 shows the pins of the RS485 serial port socket.
Figure 2-9 Pins of the RS485 serial port socket
Table 2-3 lists the meanings of the pins of the RS485 serial port socket.
Table 2-3 Meanings of the pins of the RS485 serial port socket
Pin Meaning
1 NULL
2 RX1+: positive reception terminal of serialport 1
3 TX1+: positive transmission terminal ofserial port 1
4 RX2+: positive reception terminal of serialport 2
5 TX2+: positive transmission terminal ofserial port 2
6 RX1-: negative reception terminal of serialport 1
7 TX1-: negative transmission terminal ofserial port 1
8 RX2-: negative reception terminal of serialport 2
9 TX2-: negative transmission terminal ofserial port 2
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NOTE
l The signals shown in this table are defined in terms of transmission and reception by the EMUA.
l When the TXD+ pin is connected to the RXD+ pin and the TXD- pin is connected to the RXD- pin ,the RS485 serial port can be used for two-wire connection.
l The EMUA works properly even if only one RS485 serial port is connected. It is recommended thatyou use two RS-485 serial ports in active/standby mode. In this case, set serial port 1 to the active port.
2.4.2 RS232 Serial PortThis describes the RS232 serial port on the EMUA. An RS232 serial port is an RJ-45 socket andsuitable for a dedicated serial port cable that has an RJ-45 plug.
For the position of the RS232 serial port on the EMUA, see 2.2 Exterior of the EMUA.
Figure 2-10 shows the pins of the RS232 serial port socket.
Figure 2-10 Pins of the RS232 serial port socket
Table 2-4 lists the meanings of the pins of the RS232 serial port socket.
Table 2-4 Meanings of the pins of the RS232 serial port socket
PIN Meaning
1 NULL
2 NULL
3 TX: transmit terminal
4 GND: signal grounding terminal
5 GND: signal grounding terminal
6 RX: receive terminal
7 NULL
8 NULL
NOTE
l The signals shown in this table are defined in terms of transmission and reception by the EMUA.
l The RS232 serial port is a standby commissioning port. When the EMUA works properly, this port isnot used.
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2.4.3 Commissioning Serial PortThis describes the commission serial port of the EMUA4832. Of all the EMUA models, onlythe EMUA4832 provides a commissioning serial port. The commissioning serial port is usedonly for commissioning during the manufacture of the EMUA4832. When the EMUA worksproperly, this port is not used.
CAUTIONDo not connect the power supply cable to this port. Otherwise, the boards inside the EMUA4832may get damaged.
For the position of the commissioning serial port on the EMUA4832, see 2.2 Exterior of theEMUA.
Figure 2-11 shows the pins of the commissioning serial port socket.
Figure 2-11 Pins of the commissioning serial port socket
Table 2-5 lists the meanings of the pins of the commissioning serial port socket.
Table 2-5 Meanings of the pins of the commissioning serial port socket
Silkscreen Meaning Connection Mode
TX+ Positive transmit terminal Connected to the positive receive terminalon the BTS/NodeB side
TX- Negative transmit terminal Connected to the negative receiveterminal on the BTS/NodeB side
RX+ Positive receive terminal Connected to the positive transmitterminal on the BTS/NodeB side
RX- Negative receive terminal Connected to the negative transmitterminal on the BTS/NodeB side
2.5 Monitoring Ports of the EMUAThe EMUA provides monitoring ports for the humidity/temperature sensor, smoke sensor, watersensor, infrared sensor, and door status sensor. In addition, the EMUA provides monitoring ports
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for the Boolean signal sensor, analog signal sensor, and output control sensor, which are extendedsensors.
2.5.1 Monitoring Port for the Water SensorThis describes the monitoring port for the water sensor. This port is a voltage-type Booleansignal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
2.5.2 Monitoring Port for the Smoke SensorThis describes the monitoring port for the smoke sensor. This port is a current-type Booleansignal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
2.5.3 Monitoring Port for the Infrared SensorThis describes the monitoring port for the infrared sensor. This port is a voltage-type Booleansignal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
2.5.4 Monitoring Port for the Door Status SensorThis describes the monitoring port for the door status sensor. This port is a dry contact pointBoolean signal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
2.5.5 Monitoring Port for the Humidity/Temperature SensorThis describes the monitoring port for the humidity/temperature sensor. This port is a current-type analog signal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12AWG).
2.5.6 Monitoring Port for Boolean SignalsThis describes the monitoring port for Boolean signals. The EMUA supports 32 monitoring portsfor Boolean signals, and the monitoring port for Boolean signals is suitable for a bare terminalof a cable (24 AWG - 12 AWG).
2.5.7 Monitoring Port for Analog SignalsThis describes the monitoring port for analog signals. This port is a voltage-type analog signalmonitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
2.5.8 Monitoring Port for the Relay Node Boolean SignalsThis describes the monitoring port for the Boolean Sensor. The EMUA supports six monitoringports for relay node Boolean signals, and the monitoring port for relay node Boolean signals issuitable for a bare terminal of a cable (24 AWG - 12 AWG).
2.5.1 Monitoring Port for the Water SensorThis describes the monitoring port for the water sensor. This port is a voltage-type Booleansignal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
For the position of the monitoring port for the water sensor, see 2.2 Exterior of the EMUA.Figure 2-12 shows this port.
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Figure 2-12 Monitoring port for the water sensor
NOTE
The EMUA supports +24V/+12 V DC water sensors.
Table 2-6 lists the meanings of the terminals of the monitoring port for the water sensor.
Table 2-6 Meanings of the terminals of the monitoring port for the water sensor
Silkscreen Meaning
24VW +24 V DC power output
12VW +12 V DC power output
Water Input of water damage monitoring signals
GND Signal grounding terminal
NOTE
You can set bit 1 of the DIP switch SW_BKE to choose whether to use the monitoring port for the watersensor. For details, see 2.3 Internal Structure of the EMUA.
2.5.2 Monitoring Port for the Smoke SensorThis describes the monitoring port for the smoke sensor. This port is a current-type Booleansignal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
For the position of the monitoring port for the smoke sensor, see 2.2 Exterior of the EMUA.Figure 2-13 shows this port.
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Figure 2-13 Monitoring port for the smoke sensor
NOTE
The EMUA supports 24 V DC smoke sensors.
Table 2-7 lists the meanings of the terminals of the monitoring port for the smoke sensor.
Table 2-7 Meanings of the terminals of the monitoring port for the smoke sensor
Silkscreen Meaning
24VS 24 V DC power output
Smoke Input of smoke monitoring signals
NOTE
You can set bit 2 of the DIP switch SW_BKE to choose whether to use the monitoring port for the smokesensor. For details, see 2.3 Internal Structure of the EMUA.
2.5.3 Monitoring Port for the Infrared SensorThis describes the monitoring port for the infrared sensor. This port is a voltage-type Booleansignal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
For the position of the monitoring port for the infrared sensor, see 2.2 Exterior of the EMUA.Figure 2-14 shows this port.
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Figure 2-14 Monitoring port for the infrared sensor
NOTE
The EMUA supports 24V/12 V DC infrared sensors.
Table 2-8 lists the meanings of the terminals of the monitoring port for the infrared sensor.
Table 2-8 Meanings of the terminals of the monitoring port for the infrared sensor
Silkscreen Meaning
24VI 24 V DC power output
12VI 12 V DC power output
OPTI Input of infrared monitoring signals
GND Signal grounding terminal
NOTE
You can set bit 3 of the DIP switch SW_BKE to choose whether to use the monitoring port for the infraredsensor. For details, see 2.3 Internal Structure of the EMUA.
2.5.4 Monitoring Port for the Door Status SensorThis describes the monitoring port for the door status sensor. This port is a dry contact pointBoolean signal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
For the position of the monitoring port for the door status sensor, see 2.2 Exterior of theEMUA. Figure 2-15 shows this port.
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Figure 2-15 Monitoring port for the door status sensor
Table 2-9 lists the meanings of the terminals of the monitoring port for the door status sensor.
Table 2-9 Meanings of the terminals of the monitoring port for the door status sensor
Silkscreen Meaning
12VG Positive input terminal for door statusmonitoring signals
GATE Negative input terminal for door statusmonitoring signals
NOTE
You can set bit 4 of the DIP switch SW_BKE to choose whether to use the monitoring port for the doorstatus sensor. For details, see 2.3 Internal Structure of the EMUA.
2.5.5 Monitoring Port for the Humidity/Temperature SensorThis describes the monitoring port for the humidity/temperature sensor. This port is a current-type analog signal monitoring port and suitable for a bare terminal of a cable (24 AWG - 12AWG).
For the position of the monitoring port for the humidity/temperature sensor, see 2.2 Exterior ofthe EMUA. Figure 2-16 shows this port.
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Figure 2-16 Monitoring port for the humidity/temperature sensor
NOTE
The EMUA supports 24 V DC humidity/temperature sensors.
Table 2-10 lists the meanings of the terminals of the monitoring port for the humidity/temperature sensor.
Table 2-10 Meanings of the terminals of the monitoring port for the humidity/temperature sensor
Silkscreen Meaning
24VT 24 V DC power output
TEMP Temperature monitoring signal input
24VH 24 V DC power output
HUMI Humidity monitoring signal input
NOTE
You can set the DIP switch SW_BKE to choose whether to use the monitoring port for the humidity/temperature sensor. For details, see 2.3 Internal Structure of the EMUA.
2.5.6 Monitoring Port for Boolean SignalsThis describes the monitoring port for Boolean signals. The EMUA supports 32 monitoring portsfor Boolean signals, and the monitoring port for Boolean signals is suitable for a bare terminalof a cable (24 AWG - 12 AWG).
For the position of the monitoring port for Boolean signals, see 2.2 Exterior of the EMUA.Figure 2-17 shows this port.
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Figure 2-17 Monitoring port for Boolean signalsS32-S32+S31-S31+S30-S30+S29-S29+ S8-S8+S7S7+S6-S6+S5-S5+S16-S16+S15-S15+S14-S14+S13-S13+S24-S24+S23-S23+S22-S22+S21-S21+
S28-S28+S27-S27+S26-S26+S25-S25+ S17-S17+ S20-S20+S19-S19+S18-S18+ S12-S12+S11-S11+S10-S10+S9-S9+ S1-S1+ S4-S4+S3-S3+S2-S2+
NOTE
l The common types of Boolean signals are the dry contact point type, OC type, voltage type, and currenttype.
l All the monitoring ports for Boolean signals support Boolean signals of the dry contact point type andOC type.
l Ports S13 - S16 and S29 - S32 support Boolean signals of the voltage type.
Table 2-11 lists the valid values of Boolean signals of the voltage type.
Table 2-11 Valid values of Boolean signals of the voltage type
Value Range of the Input VoltageSignal (x)
Definition
x ≤ 3 V DC Low level
x ≥ 5 V DC High level
3 V DC < x < 5 V DC Unspecified
Table 2-12 lists the meanings of the terminals of the monitoring port for Boolean signals.
Table 2-12 Meanings of the terminals of the monitoring port for Boolean signals
Silkscreen Meaning
Si+ (i ranges from 1 to 32) Positive Boolean input of port i
Si- (i ranges from 1 to 32) Negative Boolean input of port i
NOTE
You can set the DIP switches SW12A, SW12B, SW24A, and SW24B to choose whether to use themonitoring port for Boolean signals. For details, see 2.3 Internal Structure of the EMUA.
2.5.7 Monitoring Port for Analog SignalsThis describes the monitoring port for analog signals. This port is a voltage-type analog signalmonitoring port and suitable for a bare terminal of a cable (24 AWG - 12 AWG).
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DescriptionFor the position of the monitoring port for analog signals, see 2.2 Exterior of the EMUA.Figure 2-18 shows this port.
Figure 2-18 Monitoring port for analog signals
Table 2-13 lists the meanings of the terminals of the monitoring port for analog signals.
Table 2-13 Meanings of the terminals of the monitoring port for analog signals
Silkscreen Meaning
24Vi (i ranges from 1 to 4) 24 V DC power output of port i
12Vi (i ranges from 1 to 4) 12 V DC power output of port i
ANAi (i ranges from 1 to 4) Analog input of port i
GNDi (i ranges from 1 to 4) Signal grounding of port i
NOTE
You can set the DIP switches SW_AE and SW_AV to choose whether to use the monitoring port for Analogsignals. For details, see 2.3 Internal Structure of the EMUA.
Cable ConnectionAnalog Sensor of the Voltage Type
The voltage-type analog sensor has two power input terminals (marked "POWER+" and"POWER-") and one analog signal output terminal (marked "Sout"), as shown in Figure 2-19.
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Figure 2-19 Connecting the analog sensor of the voltage type
12V iPOWER +
Sout
i = 1, 2, 3, 4
POWER -
24V i
ANA i
GND
Analogsignalsensor
Analog Sensor of the Current Type
The analog sensor of the current type has two power input ends (marked "POWER+" and"POWER-"), as shown in Figure 2-20.
Figure 2-20 Connecting the analog sensor of the current type
POWER +
POWER -
24V i
12V i
ANA iAnalogsignalsensor
i = 1, 2, 3, 4
2.5.8 Monitoring Port for the Relay Node Boolean SignalsThis describes the monitoring port for the Boolean Sensor. The EMUA supports six monitoringports for relay node Boolean signals, and the monitoring port for relay node Boolean signals issuitable for a bare terminal of a cable (24 AWG - 12 AWG).
DescriptionFor the position of the monitoring port for relay node Boolean signals, see 2.2 Exterior of theEMUA. Figure 2-21 shows this port.
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Figure 2-21 Monitoring Port for relay node Boolean signals
Table 2-14 lists the meanings of the terminals of the monitoring port for relay node Booleansignals.
Table 2-14 Meanings of the terminals of the monitoring port for relay node Boolean signals
Silkscreen Meaning
REi+ (i ranges from 1 to 6) Positive relay node output port i
REi- (i ranges from 1 to 6) Negative relay node output port i
Cable ConnectionFigure 2-22 shows the cable connection of the relay node.
Figure 2-22 Cable connection of the relay node
i = 1 - 6
REi +CTR_OUT+
CTR_OUT- REi -
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The relay node has two pins. The settings of the two pins are as follows:
l If relay node output is enabled, the two pins are connected.
l If relay node output is disabled, the two pins are disconnected.
If the relay needs to output 60 V DC or higher, use a 24 V intermediate relay to convert theoutput voltage.
Alarm Association
Alarm association is a process in which the corresponding relay switch is automatically turnedon after the EMUA detects an environmental alarm. Table 2-15 describes the alarmscorresponding to the relay switch.
Table 2-15 Alarms corresponding to the relay switch
RelaySwitch (i = 1to 6)
Alarm
1 Overtemperature alarm
2 Undertemperature alarm
3 High humidity alarm
4 Low humidity alarm
5 Water damage alarm
6 Smoke alarm
NOTE
l When no alarm is generated, the relay switch is turned off.
l When an alarm is generated, the relay switch is turned on.
l If an EMUA must support alarm association, the DIP switches must be set on site.
2.6 Technical Specifications of the EMUAThis describes the technical specifications of the EMUA.
Technical Specifications of the EMUA
Table 2-16 lists the technical specifications of the EMUA.
Table 2-16 Technical specifications of the EMUA
Item Measured Object Specification
System voltage Measurement range 0 V DC to 100 V DC
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Item Measured Object Specification
Measurement precision ±1 V
Temperature Measurement range -20oC [-4oF] to 80oC [176oF]
Measurement precision ±2oC
Humidity Measurement range 0% RH to 100% RH
Measurement precision ±5%
Boolean signal Measurement range Smoke, door status, water damage, andinfrared signal
Alarm response time < 10s
Analog signal Measurement range 4 mA to 20 mA or 0 V to 5 V
Measurement precision ±1%
Relay output control Control response time < 1s
Dry contact outputcapacity
Withstood voltage: 110 V DC, 125 VAC; maximum load current: 1 A (30 VDC)
Communication rate RS232, RS485 9600 bit/s
Performance Specifications for the EMUA
Table 2-17 lists the performance specifications for the EMUA.
Table 2-17 Performance specifications of the EMUA
Item Specification
Storage temperature -40oC [-40oF] to +70oC [158oF] (no condensing)
Working temperature -5oC [23oF] to 55oC [131oF]
Storage humidity 5%RH to 95%RH
Working humidity 10%RH to 90%RH
Working voltage type DC
Rated working voltage 24 V for the EMUA2416 and EMUA2432-48 V for the EMUA4832
Rated working current 0.4 A for the EMUA2416 and EMUA24320.2 A for the EMUA4832
Dimensions 483 mm [19.02 in.] x 284 mm [11.18 in.] x 44 mm [1.73in.]
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Item Specification
Weight Approximately 3.5 kg [7.72 lb]
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3 Introduction to the Sensors
About This Chapter
The sensors provided by Huawei can be used directly. The sensors not provided by Huawei canbe used only if their specifications meet the requirements.
3.1 Water SensorThis describes the water sensor. The model of the configured water sensor is YW517B. Thiswater sensor is of the current type.
3.2 Smoke SensorThis describes the smoke sensor. The model of the configured smoke sensor is JTY-GD-01K.This smoke sensor features a photoelectric sensing design and is of the voltage type.
3.3 Infrared SensorThis describes the infrared sensor. The model of the configured infrared sensor is MC-760T.
3.4 Door Status SensorThis describes the doors status sensor. The model of the configured door status sensor isAGX105F (outdoor) or HO-03A (indoor).
3.5 Humidity/Temperature SensorThis describes the humidity/temperature sensor. The model of the configured humidity/temperature sensor is WS302A1T4.
3.6 Self-Selected SensorsThis describes the requirements for the specifications of the self-selected sensors.
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3.1 Water SensorThis describes the water sensor. The model of the configured water sensor is YW517B. Thiswater sensor is of the current type.
Exterior of the Water SensorFigure 3-1 shows the exterior of the YW517B water sensor.
Figure 3-1 Exterior of the YW517B water sensor
NOTE
The cable provided along with the YW517B water sensor is 2.7 m [8.86 ft] long.
Technical Specifications of the Water SensorTable 3-1 lists the technical specifications of the YW517B water sensor.
Table 3-1 Technical specifications of the YW517B water sensor
Item Specification
Power supply voltage 12 V DC ± 5%
Current output when liquid is not detected < 80 uA
Current output when liquid is detected 10 mA to 15 mA
Output signal type Current
Working temperature -20oC [-4oF] to +70oC [158oF]
3.2 Smoke SensorThis describes the smoke sensor. The model of the configured smoke sensor is JTY-GD-01K.This smoke sensor features a photoelectric sensing design and is of the voltage type.
Exterior of the Smoke SensorFigure 3-2 shows the exterior of the JTY-GD-01K smoke sensor.
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Figure 3-2 Exterior of the JTY-GD-01K smoke sensor
NOTE
The cable distributed for the JTY-GD-01K smoke sensor is 10 m [32.81 ft] long.
Working Principle of the Smoke Sensor
When the smoke sensor is in the alarm state, the red indictor is on. After the system is poweredon immediately after being powered off or after the system is reset, the indicator shifts to theON state, indicating that the smoke sensor returns to the normal state. Table 3-2 describes theindicator on the smoke sensor.
Table 3-2 Indicator on the smoke sensor
Indicator Meaning Status
Red indicator Alarm On
No alarm Blinking
Technical Specifications of the Smoke Sensor
Table 3-3 lists the technical specifications of the JTY-GD-01K smoke sensor.
Table 3-3 Technical specifications of the JTY-GD-01K smoke sensor
Item Specification
Power supply voltage 24 V DC ± 5%
Working current < 50 uA
Power-on time ≤ 30s
Power-on current < 150 uA
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Item Specification
Working temperature -10oC [14oF] to +55oC [131oF]
Working humidity ≤ 95% (40oC [104oF] ± 2oC [35.6oF], nocondensing)
Output type Dry contact point
3.3 Infrared SensorThis describes the infrared sensor. The model of the configured infrared sensor is MC-760T.
Exterior of the Infrared SensorFigure 3-3 shows the exterior of the MC-760T infrared sensor.
Figure 3-3 Exterior of the MC-760T infrared sensor
NOTE
The cable provided along with the MC-760T infrared sensor is 10 m [32.81 ft] long.
Working Principle of the Infrared SensorThe MC-760T infrared sensor is based on the pyroelectric effect and performs dual monitoring(microwave and infrared).
The sensitivity of the infrared sensor can be adjusted through its DIP switches. For details, referto the instructions of the infrared sensor. The infrared sensor enters the monitoring state threeminutes after it is powered on. It generates an alarm whenever someone moves in the equipmentroom.
Technical Specifications of the Infrared SensorTable 3-4 lists the technical specifications of the MC-760T infrared sensor.
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Table 3-4 Technical specifications of the MC-760T infrared sensor
Item Specification
Power supply voltage 12 V DC ±5%
Working current 30 mA
Monitoring range Front: ±18 m [59.06 ft]
45oC range: ±25 m [82.02 ft]
Output type Dry contact point
Working temperature -10oC [14oF] to 55oC [131oF]
3.4 Door Status SensorThis describes the doors status sensor. The model of the configured door status sensor isAGX105F (outdoor) or HO-03A (indoor).
Exterior of the Door Status SensorFigure 3-4 shows the exterior of the AGX105F door status sensor.
Figure 3-4 Exterior of the AGX105F door status sensor
SurfaceA Surface B
SideBottom
sectional view
3 4
Figure 3-5 shows the exterior of the HO-03A door status sensor.
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Figure 3-5 Exterior of the HO-03A door status sensor
NOTE
The cable provided along with the HO-03A door status sensor is 10 m [32.81 ft] long.
Working Principle of the Door Status SensorWhen the button at the top of the AGX105F door status sensor is pressed, the spring iscompressed, and the reed touches pins A and B, as shown in Figure 3-6.
Figure 3-6 Working principle of the AGX105F door status sensor
The HO-03A door status sensor consists of a dry finger pipe and a magnetic ferrite. The dryfinger pipe consists of two soft magnetic metal fingers that are close to each other. When themagnetic ferrite is close to the dry finger pipe, the fingers are magnetized and attracted to eachother. When the magnetic field no longer covers the fingers, the fingers spring apart.
Technical Specifications of the Door Status SensorTable 3-5 lists the technical specifications of the AGX105F door status sensor.
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Table 3-5 Technical specifications of the AGX105F door status sensor
Item Specification
Working voltage 250 V AC
Rated current 10.0 A
Pin length 10.60 mm [0.42 in.]
Table 3-6 lists the technical specifications of the HO-03A door status sensor.
Table 3-6 Technical specifications of the HO-03A door status sensor
Item Specification
Effect distance ≥ 25 mm [0.98 in.]
Contact capacity l Maximum voltage: 150 V DC
l Maximum current: 0.5 A
Impedance 0.3 ohm
Power 10 W
Output type Dry contact point
3.5 Humidity/Temperature SensorThis describes the humidity/temperature sensor. The model of the configured humidity/temperature sensor is WS302A1T4.
Exterior of the Humidity/Temperature Sensor
Figure 3-7 shows the exterior of the WS302A1T4 humidity/temperature sensor.
Figure 3-7 Exterior of the WS302A1T4 humidity/temperature sensor
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NOTE
The cable provided along with the WS302A1T4 humidity/temperature sensor is 3 m [9.84 ft] long.
Working Principle of the Humidity/Temperature Sensor
The WS302A1T4 humidity/temperature sensor uses a Pt100 thermistor as the temperaturesensing component and an S108 macromolecular humidity-sensitive capacitor as the humiditysensing component. The WS302A1T4 humidity/temperature sensor uses the SMTcraftsmanship, and it is installed on the wall.
Technical Specifications of the Humidity/Temperature Sensor
Table 3-7 lists the technical specifications of the WS302A1T4 humidity/temperature sensor.
Table 3-7 Technical specifications of the WS302A1T4 humidity/temperature sensor
Item Specification
Temperature Sensor Humidity Sensor
Measurementrange
-20oC [-4oF] to +80oC [176oF] 0% RH to 100% RH
Precision ≤ ±0.3oC [32.54oF] (ambienttemperature: 25oC [77oF])
≤ ±2% RH (ambient temperature:25oC [77oF], ambient humidity:30% RH to 80% RH)
Power supplyvoltage
12 V DC to 24 V DC
Signal output 4 mA to 20 mA (in linear response to the measurement range)
Sampleresistance
≤ 500 ohms
Sensitivecomponents
Pt100 thermistor S108 macromolecular humidity-sensitive capacitor
Workingtemperature
-20oC [-4oF] to +80oC [176oF]
Storagetemperature
-40oC [-40oF] to +60oC [+140oF] (no condensing)
Coveringmaterial
ABS engineering plastic
3.6 Self-Selected SensorsThis describes the requirements for the specifications of the self-selected sensors.
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Requirements for the specifications of the self-selected sensorsl Working voltage: 24 V
l Type of output temperature signals: current type (4 mA to 20 mA)
l Type of output humidity signals: current type (4 mA to 20 mA)
l Temperature monitoring range: -20oC [-4oF] to +80oC [176oF]
l Humidity monitoring range: 0%RH to 100%RH
The relations between the humidity and output current must meet the requirements shown inFigure 3-8.
Figure 3-8 Relations between the humidity and output current
4 mA 20 mA0% RH
100% RH
The relations between the temperature and output current must meet the requirements shown inFigure 3-9.
Figure 3-9 Relations between the temperature and output current
4 mA 20 mA
-20℃
80℃
Requirements for the Specifications of Self-Selected Water SensorsWorking voltage: 24 V or 12 V
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The output signals must meet the following requirements:
l Current type– When liquid is not detected, the output current should be less than 200 uA.– When liquid is detected, the output current should be greater than 1 mA.
l Voltage type– When liquid is not detected, the output voltage should be less than 3.3 V.– When liquid is detected, the output voltage should be greater than 5 V.
l Dry contact point type– When liquid is not detected, the sensor should be disconnected.– When liquid is detected, the sensor should be connected.
Requirements for the Specifications of Self-Selected Door Status SensorsWorking voltage: 12 V
The output signals must meet the following requirements:
l Current type– When the door is closed, the output current should be less than 200 uA.– When the door is open, the output current should be greater than 1 mA.
l Voltage type– When the door is closed, the output voltage should be less than 3.3 V.– When the door is open, the output voltage should be greater than 5 V.
l Dry contact point type– When the door is closed, the sensor should be connected.– When the door is open, the sensor should be disconnected.
Requirements for the Specifications of Self-Selected Smoke SensorsWorking voltage: 24 V
The output signals must meet the following requirements:
l Current type– When smoke is not detected, the output current should be less than 200 uA.– When smoke is detected, the output current should be greater than 3 mA.
l Voltage type– When smoke is not detected, the output voltage should be less than 3.3 V.– When smoke is detected, the output voltage should be greater than 5 V.
l Dry contact point type– When smoke is not detected, the sensor should be disconnected.– When smoke is detected, the sensor should be connected.
Requirements for the Specifications of Self-Selected Infrared Status SensorsWorking voltage: 24 V or 12 V
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The output signals must meet the following requirements:
l Current type– When moving objects are not detected, the output current should be less than 200 uA.
– When moving objects are detected, the output current should be greater than 1 mA.
l Voltage type– When moving objects are not detected, the output voltage should be less than 3.3 V.
– When moving objects are detected, the output voltage should be greater than 5 V.
l Dry contact point type– When moving objects are detected, the sensor should be disconnected.
– When moving objects are detected, the sensor should be connected.
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4 Installing the EMUA
This describes how to install the EMUA. The EMUA can be installed in different ways.
PrerequisiteThe following items are ready:
l Screwdriver
l EMUA
ContextThe EMUA can be installed in the reserved 19-inch space inside any 19-inch cabinet or rackwhose depth exceeds 300 mm [11.81 in.].
Procedurel Install the EMUA in the reserved 19-inch space inside the cabinet, as shown in Figure
4-1.
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Figure 4-1 Installing the EMUA inside the cabinet
l Install the EMUA in the reserved 19-inch space inside the rack, as shown in Figure 4-2
Figure 4-2 Installing the EMUA inside the rack
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5 Installing the Sensors
About This Chapter
The installation methods of the sensors provided by Huawei are described here. For the sensorsnot provided by Huawei, see their respective instructions during installation.
ContextBy default, the outdoor cabinet is configured with some sensors. Therefore, only the methodsof installing the sensors indoors are described here.
5.1 Installing the Water SensorThis describes how to install the water sensor.
5.2 Installing the Smoke SensorThis describes how to install the smoke sensor.
5.3 Installing the Infrared SensorThis describes how to install the infrared sensor.
5.4 Installing the Door Status SensorThis describes how to install the door status sensor.
5.5 Installing the Humidity/Temperature SensorThis describes how to install the humidity/temperature sensor.
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5.1 Installing the Water SensorThis describes how to install the water sensor.
Context
CAUTIONl The sensor probe must be protected from liquid chloride.
l The monitored plane must not be reflective.
l The water sensor can be connected only to the terminals marked "Water", "12VW", and"GND".
Procedure
Step 1 Erect the water sensor in the selected installation position, as shown in Figure 5-1.
Figure 5-1 Installing the water sensor
Placingsurface
Step 2 Install the leading cable of the sensor.
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Table 5-1 describes the 3-core leading cable of the water sensor, and Figure 5-2 shows theconnection of the cable.
Table 5-1 3-core leading cable of the water sensor
Color Core Wire Function
Red Core wire for theexternal powersupply
Connected to the terminal marked "12VW"
White Grounding corewire
Connected to the terminal marked "GND"
Blue Signal core wire Connected to the terminal marked "Water"
Figure 5-2 Connecting the water sensor
(1) GND (white) (2) Water (blue) (3) 12VW (red)
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5.2 Installing the Smoke SensorThis describes how to install the smoke sensor.
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ContextThe requirements for the installation of the smoke sensor are as follows:
l If the smoke sensor is to be installed in the center of the ceiling, ensure that:– There is no obstacle within a 0.5 m [1.64 ft] radius of the smoke sensor.
– The horizontal distance between the smoke sensor and the blast vent of the air-conditioner is greater than 1.5 m [4.92 ft].
– The horizontal distance between the smoke sensor and the air vent in the ceiling isgreater than 0.5 m [1.64 ft].
– The horizontal distance between the smoke sensor and the air vent of the air-conditioneris greater than 1.5 m [4.92 ft].
l The smoke sensor is suitable for detecting fires that have smolder during the initial stageand emit large amounts of smoke. Do not install the smoke sensor at locations where:– Black smoke is emitted during fires.
– No smoke or little smoke is edited during fires.
– The relative humidity is constantly greater than 95%.
– The airflow rate is greater than 5 m/s.
– Large amounts of dust or water smoke is suspended.
– Corrosive gas may be emitted.
– Smoke is suspended under normal circumstances.
– Organic substances, such as alcohol, ether, and ketone are generated.
l Before powering on the smoke sensor, ensure that the smoke sensor is correctly connected.Thirty seconds after the smoke sensor is powered on, the red indicator will start to blinkonce every 9 to 15 seconds.
l Dust easily accumulates on the smoke sensor. Therefore, clear the dust periodically to avoidfalse alarms.
l To protect the smoke sensor from dirt, do not remove the dust cover before using the sensor.
CAUTIONl The smoke sensor cannot work without the power supply. Therefore, the smoke sensor does
not work if the power supply is interrupted.l To avoid damage to the smoke sensor, do not directly use +24 V DC input voltage for the
smoke sensor.
NOTE
l The smoke sensor can be connected only to the terminals marked "Smoke&24VS".
l The smoke sensor generates alarms when there is smoke or fire. You have to run an associated commandto clear the alarms.
Procedure
Step 1 Install the smoke sensor in the selected position.
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Use a PVC terminal to bridge the seam between the cable duct and the base.
Figure 5-3 shows the installation of the smoke sensor.
Figure 5-3 Installation of the smoke sensor
65 mm
1
2
3
4
5
6
7
(1) Cable duct (2) PVC terminal (3) Alarm indicator
(4) Base (5) Tapping screw (6) Plastic expansion tube
(7) Percussion drill hole
Step 2 Connect the smoke sensor.
Open the base of the smoke sensor. On the base, there are four wiring bars labeled 1 - 4, a plussign, and a minus sign, as shown in Figure 5-4.
1. Connect wiring bar 3 to the terminal marked "24VS".2. Connect wiring bar 1 to the terminal marked "Smoke".
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Figure 5-4 Connecting the smoke sensor
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5.3 Installing the Infrared SensorThis describes how to install the infrared sensor.
Context
The requirements for the installation of the infrared sensor are as follows:
l The infrared sensor should not be exposed to sunlight or other strong light.
l The infrared sensor should not directly face heat sources such as air-conditioners orcaliducts.
l The infrared sensor should directly face positions prone to unauthorized entry.
l The infrared sensor should not be installed on the wall beside the door.
l The monitoring range should be clear of obstacles so that the infrared sensor can be directlyseen in the monitoring range.
l The Fresnel lens of the infrared sensor should be kept clean.
l The pyroelectric components of the infrared sensor should not be touched.
NOTE
The infrared sensor can be connected only to the terminals marked "OPTI&12VI&GND".
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Procedure
Step 1 Remove the installation sheet of the infrared sensor, and then mark on the wall the positions ofthe two installation holes of the installation sheet.
Step 2 Use the percussion drill to drill holes according to the marks.
Step 3 Insert the expansion tubes into the installation holes.
Step 4 Use the tapping screws to fix the installation sheet to the wall.
Step 5 Fix the infrared sensor to the installation sheet.
Step 6 Connect the infrared sensor, as shown in Figure 5-5.
Figure 5-5 Connecting the infrared sensor
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5.4 Installing the Door Status SensorThis describes how to install the door status sensor.
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ContextNOTE
l The distance between the two fingers should be less than 5 mm [0.20 in.] when the door is closed.
l The door status sensor can be connected only to the terminals marked "GATE&12VG".
l The alarms reported by the door status sensor can be cleared only through human intervention.
Procedure
Step 1 Mark the installation position of the door status sensor.
Step 2 Use the percussion drill to drill holes according to the marks.
Step 3 Install and fasten the door status sensor.
Step 4 Connect the door status sensor, as shown in Figure 5-6 and Figure 5-7.
Figure 5-6 Connecting the AGX105F door status sensor
Figure 5-7 Connecting the HO-03A door status sensor
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5.5 Installing the Humidity/Temperature SensorThis describes how to install the humidity/temperature sensor.
ContextThe requirements for the installation of the humidity/temperature sensor are as follows:
l Generally, the humidity/temperature sensor should be installed on a wall and about 1.5 m[4.92 ft] above the ground.
l Around the humidity/temperature sensor, ventilation should be good, and the airflow rateis 0.1 m/s to 1 m/s.
NOTE
l The humidity/temperature sensor cannot be installed in a position with no or little airflow.
l The humidity/temperature sensor cannot be installed in a position with too rapid airflow, forexample, the air vent in the ceiling or the blast vent of an air-conditioner.
l Do not install the humidity/temperature sensor in a position where:– There is no air conditioning.
– The relative humidity is constantly higher than 90%.
– The temperature is constantly below -20oC [-4oF].
– The wind of an air cooling machine or air heating machine can directly blows thehumidity/temperature sensor.
– The air is polluted by substances such as sour gas and oily gas.
l The humidity/temperature sensor should be kept away from the ends of the cabling trough.
l The installation plane should be clean.
l The humidity/temperature sensor should be powered off before the sensor is installed orreplaced.
l Holes should not be drilled around the humidity/temperature sensor after the sensor isinstalled. If you have to do so, take appropriate measures to protect the sensor from dust.
l The humidity-sensitive components of the humidity/temperature sensor should not betouched.
CAUTIONl To avoid mechanical and electrostatic damage to the humidity/temperature sensor, be
cautious when moving the box cover and the circuit board and when connecting the wires.When moving the circuit board, hold its edges and take care not to touch its components.Place the circuit board in a clean position.
l You need to calibrate the humidity/temperature sensor annually. Replace it if its precision istoo low.
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NOTE
The humidity/temperature sensor can be connected only to the terminals marked"TEMP&24VT&HUMI&24VH".
Procedure
Step 1 Remove the backplane of the humidity/temperature sensor, and then mark on the wall thepositions of the three installation holes in the backplane.
Step 2 Use the percussion drill to drill holes according to the marks.
Step 3 Insert the plastic expansion tubes into the installation holes.
Step 4 Use the tapping screws to fix the backplane to the wall.
Step 5 Fix the humidity/temperature sensor to the backplane.
Step 6 Connect the humidity/temperature sensor, as shown in Figure 5-8.
Figure 5-8 Connecting the humidity/temperature sensor
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6 Commissioning the EMUA
This describes how to commission the EMUA.
Procedure
Step 1 Perform a power-on check for the EMUA.1. Check the DIP switch settings.
For the correct DIP switch settings, see 2.3 Internal Structure of the EMUA.2. Power on the EMUA.3. Check the status of the indicators.
After power-on, both the red and green indicators should blink for about 0.5 second. Then,the red indicator should be off, and the green indicator should continue blinking.
Step 2 Check the communication between the EMUA and the BTS/NodeB.1. Ensure that the EMUA has passed the power-on check.2. On the Service Maintenance System of the BTS/NodeB, establish the communication
between the BTS/NodeB and the EMUA.3. Check the status of the indicators on the EMUA.
Check that the green indicator on the EMUA blinks once every two seconds.
Step 3 Check the running status of the EMUA.1. Ensure that the EMUA has passed the communication check.2. Read the data of the sensors and the voltage on the Service Maintenance System of the
BTS/NodeB.
Check that the data is correct.
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7 Handling Common Faults
This describes the solutions to common faults in the EMUA.
Table 7-1 lists the solutions to common faults in the EMUA.
Table 7-1 Solutions to common faults in the EMUA
Symptom Solution
The power indicator is OFF. Check whether the power cable is inversely connected.
Check whether the protection tubes F1, F2, F3, and F4 areburned out.
The EMUA fails tocommunicate with the BTS/NodeB.
Check whether the communication cables are intact.
Check whether the communication protocol is correctlyconfigured.
The relay malfunctions. Check whether the output cabling of the relay is correct.
Boolean value input fails. Check whether the alarming states are correctly set.
Check whether the cabling is correct.
The humidity/temperaturesensor generates an alarm atnormal temperatures.
Check whether the humidity/temperature sensor iscorrectly connected.
Check whether the alarming threshold is correctly set.
The humidity/temperaturequery results are invalid values.
Check whether the humidity/temperature sensor iscorrectly connected.
Check whether the DIP switch SW_THE is correctly set.
Check whether the sensor fails, for example, by comparingit with another sensor.
The water sensor generates afalse alarm.
Check whether the water sensor is correctly connected.
Check whether the first bit of the DIP switch SW_BKE iscorrectly set.
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Symptom Solution
The smoke sensor generates afalse alarm.
Check whether the smoke sensor is correctly connected.
Check whether the second bit of the DIP switch SW_BKEis correctly set.
The infrared sensor generates afalse alarm.
Check whether the infrared sensor is correctly connected.
Check whether the third bit of the DIP switch SW_BKE iscorrectly set.
The door status sensor generatesa false alarm.
Check whether the button on the door status sensor ispressed into the correct position.
Check whether the door status sensor is correctlyconnected.
Check whether the fourth bit of the DIP switch SW_BKEis correctly set.
Analog value measurementfails.
Check whether associated DIP switches are correctly set.
NOTE
When the EMUA2416 generates an alarm, check whether the factory settings of the DIP switches SW24Aand SW24B are changed. If they are changed, restore them to their original states (OFF).
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