SYSGuard User Guide

SYSGuard 3001 User Guide 1

1. BACKGROUND... 7 1.1. REVISION HISTORY... 7 1.2. TARGET AUDIENCE... 7 1.3. PROVISIONS AND CONDITIONS... 7 2. INTRODUCTION... 7 2.1. PRODUCT DESCRIPTION... 7 2.2. SYSTEM DEFINITION... 7 2.2.1. Main Unit... 7 2.2.2. Internal Sensors... 7 2.2.3. External Sensors... 8 2.3. OPERATION THEORY OF THE SYSTEM... 9 2.3.1. SYSGUARD 3001 Concept... 9 2.3.1.1. SYSGUARD 3001 Hardware Components... 9 2.3.1.2. SYSGUARD 3001 Software Components... 10 2.3.1.3. SYSGUARD 3001 Operation Modes... 10 2.3.1.4. Sub Sensor Concept... 11 2.3.2. User Authorizations...12 2.3.3. Monitoring...12 2.3.4. Alarm Generation...12 2.3.4.1. Connection Problem Alarm... 13 2.3.4.2. Critical Alarm... 13 2.3.4.3. Maximum / Minimum Alarm... 13 2.3.4.4. Flood Alarm... 14 2.3.4.5. Alarms Received from Devices connected with Dry Contact Sensors... 14 2.3.5. Management...15 2.3.5.1. Manual Management... 15 2.3.5.2. Automatic Management... 15 2.3.6. Archiving...15 2.4. RELATED DOCUMENTS...16 3. PHYSICAL STRUCTURE... 16 3.1. INTRODUCTION...16 3.2. SYSTEM UNITS...16 3.2.1. SYSGUARD 3001 Main Unit...16 3.2.1.1. 3.2.1.2. Function... 16 Installation... 16 3.2.2. External Sensors and Modules...17 3.2.2.1. SYSGUARD 6010 Humidity and Temperature Sensor (Standart Series)... 18 3.2.2.1.1. Function... 18 3.2.2.1.2. Physical Structure... 18 3.2.2.1.3. Technical Specifications... 18 3.2.2.1.4. Package Content... 19 3.2.2.1.5. Installation... 19 3.2.2.2. SYSGuard 6011 Humidity and Temperature Sensor (High Sensitive Series)... 19 3.2.2.2.1. Function... 19 3.2.2.2.2. Physical Structure... 20 3.2.2.2.3. Technical Specifications... 20 3.2.2.2.4. Package Content... 21 3.2.2.2.5. Installation... 21 3.2.2.3. SYSGuard 6020 Temperature Sensor (Standart Series)... 21 3.2.2.3.1. Function... 21 3.2.2.3.2. Physical Structure... 22 3.2.2.3.3. Technical Specifications... 22 3.2.2.3.4. Package Contents... 22 3.2.2.3.5. Installation... 23 3.2.2.4. SYSGuard 6021 Temperature Sensor (High Sensitivity Series)... 23 3.2.2.4.1. Function... 23 3.2.2.4.2. Physical Structure... 24 2

3.2.2.4.3. Technical Specifications... 24 3.2.2.4.4. Package Content... 25 3.2.2.4.5. Installation... 25 3.2.2.5. SYSGUARD 6030 Multiple Point W-Detect Sensor... 25 3.2.2.5.1. Function... 25 3.2.2.5.2. Physical Structure... 26 3.2.2.5.3. Technical Specifications... 26 3.2.2.5.4. Package Content... 27 3.2.2.5.5. Installation... 27 3.2.2.6. SYSGuard 6031 & SYSGuard 6035 Water Detect Cable... 27 3.2.2.6.1. Function... 27 3.2.2.6.2. Physical Structure... 27 3.2.2.6.3. Technical Specifications... 28 3.2.2.6.4. Package Content... 28 3.2.2.6.5. Installation... 28 3.2.2.7. SYSGuard 6040 VF Module... 28 3.2.2.7.1. Function... 28 3.2.2.7.2. Physical Structure... 29 3.2.2.7.3. Technical Specifications... 29 3.2.2.7.4. Package Content... 30 3.2.2.7.5. Installation... 30 3.2.2.8. SYSGuard 6060 LCD Module... 30 3.2.2.8.1. Function... 30 3.2.2.8.2. Physical Structure... 31 3.2.2.8.3. Technical Specifications... 31 3.2.2.8.4. Package Content... 32 3.2.2.8.5. Installation... 32 3.2.2.9. SYSGuard 6094 Relay Output Module... 33 3.2.2.9.1. Function... 36 3.2.2.9.2. Physical Structure... 36 3.2.2.9.3. Technical Specifications... 37 3.2.2.9.4. Package Content... 38 3.2.2.9.5. Installation... 38 3.2.2.10. SYSGuard 6100 Signal Tower Module... 38 3.2.2.10.1. Function... 38 3.2.2.10.2. Physical Structure... 38 3.2.2.10.3. Technical Specifications... 39 3.2.2.10.4. Package Content... 39 3.2.2.10.5. Installation... 40 3.2.2.11. SYSGuard 6160 Voice Calling Module... 40 3.2.2.11.1. Function... 40 3.2.2.11.2. Physical Structure... 40 3.2.2.11.3. Technical Specifications... 41 3.2.2.11.4. Package Content... 41 3.2.2.11.5. Installation... 42 3.2.2.12. SYSGuard 6170 Air Flow Sensor... 42 3.2.2.12.1. Function... 42 3.2.2.12.2. Physical Structure... 42 3.2.2.12.3. Technical Specifications... 43 3.2.2.12.4. Package Content... 44 3.2.2.12.5. Installation... 44 3.2.2.13. SYSGuard 6180 Air Quality Module... 44 3.2.2.13.1. Function... 44 3.2.2.13.2. Physical Structure... 44 3.2.2.13.3. Technical Specifications... 45 3.2.2.13.4. Package Content... 45 3.2.2.13.5. Installation... 45 3.2.2.14. SYSGuard 6200 Combo Sensor... 45 3.2.2.14.1. Function... 45 3.2.2.14.2. Physical Structure... 46 3.2.2.14.3. Technical Properties... 46 3.2.2.14.4. Package Content... 47 3.2.2.14.5. Installation... 47 3.2.2.15. SYSGAC01 GSM Module... 47 3

3.2.2.15.1. Function... 47 3.2.2.15.2. Physical Structure... 48 3.2.2.15.3. Technical Specifications... 49 3.2.2.15.4. Package Content... 50 3.2.2.15.5. Installation... 50 3.2.2.16. SYSGAC04 Smoke Detector... 51 3.2.2.16.1. Function... 51 3.2.2.16.2. Physical Structure... 51 3.2.2.16.3. Technical Properties... 52 3.2.2.16.4. Package Content... 52 3.2.2.16.5. Installation... 52 3.2.2.17. SYSGAC05 CQR Magnetic Contact (Door Detector)... 53 3.2.2.17.1. Function... 53 3.2.2.17.2. Physcial Structure... 53 3.2.2.17.3. Technical Properties... 53 3.2.2.17.4. Package Content... 53 3.2.2.17.5. Installation... 53 3.2.2.18. SYSGAC06 PIR Detector... 54 3.2.2.18.1. Function... 54 3.2.2.18.2. Physical Properties... 54 3.2.2.18.3. Technical Properties... 54 3.2.2.18.4. Package Content... 55 3.2.2.18.5. Installation... 55 3.2.2.19. SYSGAC07 Vibration Detector... 55 3.2.2.19.1. Function... 55 3.2.2.19.2. Physical Structure... 55 3.2.2.19.3. Technical Properties... 56 3.2.2.19.4. Package Content... 56 3.2.2.19.5. Installation... 56 3.2.2.20. SYSGAC08 Proximity Reader... 56 3.2.2.20.1. Function... 56 3.2.2.20.2. Physical Properties... 57 3.2.2.20.3. Technical Properties... 57 3.2.2.20.4. Package Content... 57 3.2.2.20.5. Installation... 57 3.2.2.21. SYSGAC13 Signal Tower with Buzzer... 57 3.2.2.21.1. Function... 57 3.2.2.21.2. Physical Structure... 58 3.2.2.21.3. Technical Properties... 58 3.2.2.21.4. Package Content... 59 3.2.2.21.5. Installation... 59 3.2.2.22. COM 1 Port... 59 3.2.2.22.1. Function... 59 3.2.2.22.2. Installation... 59 3.2.2.23. COM 2 Port... 59 3.2.2.23.1. Function... 59 3.2.2.23.2. Installation... 59 3.2.3. Internal Sensors and Modules...60 3.2.3.1. SYSGUARD 6010 Humidity and Temperature Sensor... 60 3.2.3.1.1. Function... 60 3.2.3.1.2. Installation... 60 3.2.3.2. Dry Contact Module... 61 3.2.3.2.1. Function... 61 3.2.3.2.2. Installation... 61 3.2.3.3. Relay Output Module... 61 3.2.3.3.1. Function... 61 3.2.3.3.2. Installation... 61 3.2.3.4. SYSGUARD 3030 Water Sensor... 61 3.2.3.4.1. Function... 61 3.2.3.4.2. Installation... 61 3.2.3.5. Analog Module... 62 3.2.3.5.1. Function... 62 3.2.3.5.2. Installation... 62 3.2.3.6. LCD Screen... 62 4

3.2.3.6.1. Function... 62 3.2.3.6.2. Installation... 62 3.2.3.7. COM 1 Port... 62 3.2.3.7.1. Function... 62 3.2.3.7.2. Installation... 62 3.2.3.8. COM 2 Port... 62 3.2.3.8.1. Function... 62 3.2.3.8.2. Installation... 63 4. CONFIGURATION... 63 4.1. INTRODUCTION...63 4.2. SYSTEM UNIT CONFIGURATION...63 4.2.1. SYSGUARD 3001 Main Unit Configuration...63 4.2.1.1. Connection to Main Unit... 63 4.2.1.2. System Name... 64 4.2.1.3. Web Interface Title... 64 4.2.1.4. Renewal Time... 64 4.2.1.5. Date/Time... 64 4.2.1.6. NTP Server Address... 64 4.2.1.7. Network settings configuration... 65 4.2.1.8. Reset to Default IP Address... 65 4.2.2. User Configuration...65 4.2.2.1. 4.2.2.2. Adding a User... 65 Deleting a User... 66 4.2.3. External Sensors...66 4.2.3.1. External Sensor Assignment... 66 4.2.3.2. External Sensor Configurations... 67 4.2.3.2.1. Naming/Renaming the Sensor... 67 4.2.3.2.2. Alarm Configuration... 68 4.2.3.2.3. Defining Normal Operational Range... 68 4.2.3.2.4. Defining Hysteresis Value... 68 4.2.3.2.5. Defining Critical Alarm Values... 69 4.2.3.2.6. Deleting the Sensor... 69 4.2.3.2.7. Deactivating the Sensor... 69 4.2.3.2.8. Sensor Checking... 69 4.2.4. Internal Sensors...70 4.2.4.1. Internal Sensor Assignment... 70 4.2.4.2. Internal Sensor Configurations... 71 4.2.4.2.1. Naming/Renaming the Sensor... 71 4.2.4.2.2. Alarm Configuration... 71 4.2.4.2.3. Defining Normal Operational Range... 71 4.2.4.2.4. Defining Hysteresis Value... 72 4.2.4.2.5. Defining Critical Alarm Values... 72 4.2.4.2.6. Deactivating the Sensor... 72 4.2.5. SMS Settings...73 4.2.5.1. Defining Working Hours... 74 4.2.5.2. Entering new GSM Number... 74 4.2.5.3. Deleting GSM Number... 74 4.2.5.4. Interacting GSM number with sensor... 74 4.2.5.5. Voice Calling... 74 4.2.6. E-mail Configuration...74 4.2.6.1. Primary DNS... 75 4.2.6.2. E-mail Server... 75 4.2.6.3. Sender Address... 75 4.2.6.4. User Name... 75 4.2.6.5. Password... 75 4.2.6.6. E-mail Title... 75 4.2.6.7. TLS... 75 4.2.6.8. Adding an E-mail... 75 4.2.6.9. Deleting an E-mail... 76 4.2.6.10. Interacting e-mail address with sensor... 76 4.2.7. Output Control Configuration...76 5

4.2.8. Configuration for LCD on Main Unit...77 4.2.8.1. 4.2.8.2. External Sensors... 77 Network Setup... 77 5. MONITORING... 78 5.1. INTRODUCTION...78 5.2. MONITORING OVERVIEW...78 5.3. MONITORING ON WEBPACK...79 5.4. MONITORING ON CENTRALIZED MANAGEMENT PACK...80 5.5. MONITORING BY LCD MODULE...80 5.5.1. Internal Sensor Monitoring...80 5.5.2. Network Configurations...81 5.6. ALARMS...81 5.6.1. Alarms by SMS...81 5.6.2. Alarms by E-mail...81 5.6.3. Alarms by LCD module...81 5.6.4. Alarms by Signal Tower...81 5.6.5. Alarms by Voice Calling...81 5.7. ARCHIVE...81 5.7.1. Report display...81 5.7.2. Generating a Print out file...82 5.7.3. Generating graphics...82 6. MANAGEMENT... 82 7. MAINTENANCE... 82 7.1. ARCHIVE CLEANING...82 7.2. SOFTWARE UPDATES...82 8. TROUBLESHOOTING... 82 8.1. CONNECTION PROBLEMS...83 8.2. RESET THE IP ADDRESS OF THE DEVICE TO DEFAULT VALUE...83 8.3. ENSURING THE DEVICE ACCESS THE DEFAULT USER...83 8.4. PROBLEMS REGARDING ALARM GENERATION...83 8.4.1. Sensor does not generate alarms...83 8.4.2. Dry contact sensor constantly generates alarm...83 8.4.3. W-Detect sensor constantly generates alarm...83 8.4.4. Alarm is generated but system does not reset to normal mode...83 8.4.5. Alarm is generated but I did not receive an e-mail...84 8.4.6. Alarm is generated but I did not receive SMS...84 8.5. OTHER PROBLEMS...84 8.5.1. Relay Output module turns off the device when the command is on, on the other hand turns on when the command is off...84 8.5.2. Temperature sensor measures the environment higher/cooler than it is...84 8.5.3. Some sensors often generate disconnection alarm...84 9. ATTACHMENTS... 84 9.1. REMOTE ACCESS...84 6

1. Background 1.1. Revision History Date Version Comments 01.06.2011 1.0 For the first 1.2. Target Audience Target audience of this document is SYSGUARD 3001 users and the technical personnel, who will install and configure SYSGUARD 3001. 1.3. Provisions and Conditions Updated and accurate data included in this document is examined with due diligence. However, ExaGate shall not be liable for any possible loss and damages resulting from the use of the data included here. Our products are not designed to be used in the systems that may cause human injuries. All registered trademarks mentioned in this document belong to their owners. ExaGate shall have the right to change information and data included here without any prior notice. 2. Introduction 2.1. Product Description Product group included in this document is designed and produced by ExaGate in order to measure the humidity, temperature, network voltage of the various environments primarily servers, to monitor whether there is any smoke or movement or flood etc in the environment or not and to intervene in emergency cases. 2.2. System Definition Said system is composed of the below mentioned components: 2.2.1. Main Unit Central management unit that ensures communication with sensors and modules, shares received values with users, realizes alarm management and records sensor values. 2.2.2. Internal Sensors Humidity and Temperature Sensor: Sensor that measures humidity and temperature. Dry Contact Module: SYSGUARD 3001 has 16 units of dry contact inputs. It ensures that various sensors such as smoke, voice, movement etc. are connected to SYSGUARD 3001. Relay Output module: SYSGUARD 3001 has 4 relay outputs: It ensures that SYSGUARD 3001 turns on/off external devices such as air conditioners and fans. Analog Port Module: SYSGUARD 3001 has 4 analog ports. They can also be used as W-Detect Cable Port. Water Sensor Input: If needed SYSGUARD 3001 can be plugged in (to the Analog ports) up to 4 W- Detect Cables. This sensor detects any liquid contact around the perimeter it encircles. LCD Screen: LCD module that displays instant data received from some sensors and modules to users. ExaBus Port: SYSGUARD 3001 has 16 ExaBus ports for external sensors. RS-232 COM 1 Port: External SYSGAC01 GSM Modem connection can be made at this port. RS-232 COM 2 Port: UPS devices with serial port connections can be connected from this port. 7

USB Port: Used for service. LAN Port: 10/100 Mbps Ethernet WebPack User Interface: Web interface that is built-in SYSGUARD 3001. 2.2.3. External Sensors SYSGuard 6010 Humidity and Temperature Sensor: Sensor that measures humidity and temperature. SYSGuard 6011 Humidity and Temperature Sensor: Sensor that measures humidity and temperature. (High Sensitivity Series) SYSGuard 6020 Temperature Sensor: Sensor that measures temperature. SYSGuard 6021 Temperature Sensor: Sensor that measures temperature.(high Sensitivity Series) SYSGuard 6030 Multiple Point W-Detect Sensor: sensor that detects whether there are any liquid contact on a specific region or not. SYSGuard 6031 Water Detection Cable: Cable that connects with the Water Sensor and detects liquid contact. (1m) SYSGuard 6035 Water Detection Cable: Cable that connects with the Water Sensor and detects liquid contact. (5m) SYSGuard 6040 Triphase VF Sensor: Sensor that measures values such as Triphase network voltage and frequency. SYSGuard 6060 LCD Module: LCD screen that displays instant data received from desired sensors and modules to users. SYSGuard 6094 Relay Output module: Module that has 4 relay outputs: It ensures that SYSGuard turns on/off external devices such as air conditioners and fans. SYSGuard 6100 Alarm Signal Input Module: Module that warns users with voice and light alarms when the alarms are generated. SYSGuard 6160 Voice Call Module: Module informing predefined user with voice call in alarm cases. SYSGuard 6170 Air Flow Sensor: Real time air flow detection. SYSGuard 6180 Air Quality Sensor: Measuring air quality parameters. SYSGAC01 GSM Module: GSM modem informin predefined user by SMS in alarm cases. SYSGAC02 3G Router: Modem/router used to add 3G internet connection to the system. SYSGAC04 Smoke Detector: Real time smoke detector. SYSGAC05 Door Detector: Magnetic Contact(Door-Window detector) Real time input/output detection. SYSGAC06 Movement Sensor: PIR Detector, Real time motion detector. SYSGAC07 Vibration Sensor: Sensor detecting real time vibration. SYSGAC08 Proximity Reader: Module ensuring the door entries by reading Proximity card. SYSGAC09 Proximity Card: Card required for Proximity reader. 8

SYSGAC12 Power Adapter: Feeding adapter for main units. SYSGAC13 Signal Tower with buzzer: Alerts user in case of alarm. SYSGAC14 Siren: Alerts user in case of alarm. SYSGAC15 Indoor IP Camera: RTSP supported cameras with different brands and models can work in an integrated manner in system. SYSGAC16 Rack Mount Kit: 19 Rack montage kit. SYSGAC17 Outdoor IP Camera: IP-65 for outdoor environment for outdoor use. WebPack User Interface: Web interface that is built-in SYSGuard 6001. SmartPack Software: Optional software that gives camera support to SYSGuard and receives sensor data by connecting to many main units. WebPack User Interface: Web interface that is built-in SYSGuard 6001. SmartPack Software: Optional software that gives camera support to SYSGuard and receives sensor data by connecting to many main units. 2.3. Operation Theory of the System In this section, operation principle of SYSGUARD 3001 is explained. For efficient use of the system, it is of great importance that technical personnel, who will carry out the configuration, should be aware of the abilities and operation modes of the SYSGUARD 3001. ExaGate recommends SYSGUARD 3001 users to read this section very carefully. 2.3.1. SYSGUARD 3001 Concept 2.3.1.1. SYSGUARD 3001 Hardware Components SYSGUARD 3001 hardware can be examined by dividing into 3 groups: Main Unit: Main Unit SYSGUARD 3001, which initializes external sensors, requests data from sensors, evaluates and archives the data, generates alarm when necessary and intervenes the output process, is the core of the SYSGUARD 3001 architecture. SYSGUARD 3001 is an IT unit where required applications run on Linux operating system. The Internal components other than the main unit are, 1 Temperature-Humidity Sensor, 4 Analog Inputs or Water Sensor ports, 4 Relay Outputs, 16 Dry Contacts, 2 RS232 COM Ports, 2 USB Ports, 1 LAN port, 1 LCD Screen, 1 Buzzer and 16 ExaBus Ports. Sensors and Modules: Other components of the SYSGUARD 3001 architecture are the sensors that gather the environment related data. Sensors send the values measured via ExaBus to SYSGUARD 3001. SYSGUARD 3001 shares these values with users via its web interface, audits whether there is any alarming case or not, makes necessary output interventions in alarm cases and informs users via e- mail or SMS. In this manner, SYSGUARD 3001 targets at eliminating the alarm case in a period that avoids any permanent damages. SYSGUARD 3001 allows up to 4 turn on/off output modules, which can be used in automatic or manual modes, and various devices such as air conditioner, fan and heater etc. 9

SYSGUARD 3001, allows up to 16 Dry Contacts which can check the on/off status of the components that are connected. Components which can be connected to these Dry Contacts includes, smoke sensors, motion sensors and automatic door locks etc. SYSGUARD 3001 informs users about the status of the system via LCD Screen. SYSGUARD 3001 promptly informs users about the alarms via signal tower module (external module). ExaBus: ExaBus is the physical path where all sensors and modules communicate with the main unit and receive their feeding power. Communication is ensured via ExaBus by using standard Cat5E cable. Main unit has 16 ExaBus port for external sensors. 2.3.1.2. SYSGUARD 3001 Software Components Software that runs on the main unit can be examined in 4 different groups. It is possible to find out which version can be used for the said 4 software groups from Help menu. Linux Distribution: A Linux distribution runs on the main unit. All SYSGUARD 3001 applications, database server, web servers are realized on Linux operating system. SYSGUARD 3001 Application Group: Various applications that communicates with sensor and modules, generates alarms, intervenes when necessary and records received values, which are gathered in the title of SYSGUARD 3001 application group SYSGUARD 3001 Database: SYSGUARD 3001 maintains all configuration data and archive records on a database. Sensor and module specific data, user data, instant values of the sensor and modules, and archive values are kept on SYSGUARD 3001 database. SYSGUARD 3001 Web Interface: An internal web server runs on the main unit. Thanks to the web pages published on this web server, user can display instant value of the sensor and modules, scans the archive and carry out the system configuration. 2.3.1.3. SYSGUARD 3001 Operation Modes SYSGUARD 3001 has the below mentioned operation modes: PowerOn Startup: SYSGUARD 3001 is in this mode when the first feeding is received by the main unit. Components of Linux operating system are loaded in this mode. PowerOn Startup mode is valid until SYSGUARD 3001 application group has started. Power is supplied to the system for approx. 25 seconds. This mode is over when Ready LED on the main unit starts to light. Soft Startup: In approx.10 seconds following any configured amendment, this mode may start. SYSGUARD 3001 applications activate new configuration settings during this period. Ready LED does not light in this mode. In WebPack User Interface, user is informed that current operation mode is Soft Startup. Scan Mode: After connecting external sensor, this mode is used for their scanning and identification. During this mode SYSGUARD 3001 scans all the ExaBus ports on the system for connected external sensors. Disconnected sensors are also deleted from the system. 10

Normal Operation Mode: In this basic operation mode, SYSGUARD 3001 communicates with the sensor and modules, audits the alarming conditions and records the received values. Transitions between the said operation modes are shown in Figure 2.3-1: Figure 2.3-1 2.3.1.4. Sub Sensor Concept SYSGUARD 3001 assigns various sub sensors for each physical sensor in the software layer. For instance, SYSGUARD 3010 Temperature & Humidity sensor is displayed as 1 temperature type sensor and 1 humidity type sensor in the software layer. All operations such as naming, defining operational range and hysteresis, e-mail configuration in alarm cases are carried out separately for each sub sensors. In this context, sub sensors may be regarded as independent sensors. Sub sensors of the ExaGate sensor and modules are listed below: Sensor/Module No Sensor/Module Name # of Subsensors Subsensor types SYSGUARD 6010 Temperature & Humidity 2 1 Humidity 1 Temperature SYSGUARD 6040 Triphase Voltage Current Frequency 5 1 Input Voltage 3 phase Voltage 1 network Frequency SYSGUARD 6200 Combo Sensor 10 1 Temperature 1 Humidity 4 Dry Contacts 2 Relay Outputs 1 Water 1Proximity Table 2.3.1-1 11

SYSGUARD 3020 Temperature Sensor, SYSGUARD 3030 Multiple point W-Detect functionally measure solely one parameter therefore they do not have subsensors. 2.3.2. User Authorizations In SYSGUARD 3001 system, 3 authorization levels can be assigned to users in order to have the highest level of security: Monitoring Only: This is the lowest level of user authorizations. In this level, users can only monitor instant values of the sensors and modules or archive values. Users do not have authorization to intervene any output (for instance turning on/off the air conditioner). They cannot configure the system. Monitoring and Management: This type of user can carry out all operations that user with Only Monitoring authorization can do. Besides they have the output intervention authorization. They cannot configure the system. Administrator: Users with this authorization level can carry out all operations that user having Monitoring and Management authorization can do. Also they can configure the system. It is recommended for this kind of users to connect the system just for making system configuration. It is not recommended that users, who use the system on a constant and daily basis, have this authorization level. 2.3.3. Monitoring SYSGUARD 3001 constantly communicates with all sensors and modules connected to itself via ExaBus. Depending on the number of sensors and modules connected to the system, all sensors and modules are scanned in every max. 3 seconds. Received values are recorded by SYSGUARD 3001 Main Unit. Users can access instant values of the sensors and modules in various ways: Monitoring on Web Interface: A web server runs on SYSGUARD 3001. Monitoring and management pages, which can be accessed by web server, display the instant values of the all sensors and modules connected to the system. SmartPack Monitoring on Centralized Management Software SmartPack Centralized Management Pack software ensures to connect the SYSGUARD 3001 main unit and users display the instant values of the sensors and modules. Monitoring by LCD Screen: LCD Screen ensures that users can monitor sensor values without needing any computer. Values received from a temperature, a humidity sensor and a voltage current frequency sensor are monitored on LCD Module. 2.3.4. Alarm Generation SYSGUARD 3001 generates alarm under following conditions: When any sensor or module disconnects from the main unit. When values received from sensors such as temperature, humidity, voltage, current, frequency, UPS etc are not within the normal operational range. When values received from sensors such as temperature, humidity, voltage, current, frequency, UPS etc are not within the critical operational range. When W-Detect detects any flood. When devices connected to the dry contact sensor go to the alarm mode. 12

2.3.4.1. Connection Problem Alarm When any sensor module disconnects from the main unit, connection problem alarm is generated. This alarm is generated within max. 10 seconds upon the disconnection. Connection problem alarm is not affected whether the sensor or module configuration is in Alarm Active/Alarm Passive option; it is generated in any case. Automatic operations that are carried out by SYSGUARD 3001 when this alarm is generated are listed below: Informing by E-mail depending on the configuration Informing by SMS depending on the configuration Recording the alarm case in the archive Displaying alarm case on LCD Screen Generating voice alarm signal by SYSGUARD 3151 Signal Tower Generating voice alarm signal by Buzzer 2.3.4.2. Critical Alarm Critical alarm is generated when values measured by humidity, temperature, voltage, frequency, UPS sensors are not within the operational range determined by the user. Critical Max. / Critical Min. alarm is only generated on condition that related sensor or module is configured with Alarm Active option. In this type of control systems, it is of great importance to use hysteresis value in order to avoid constant alarms during value increase/decrease. SYSGUARD 3001 enables the user assign this hysteresis value. In many cases, hysteresis value assigned by SYSGUARD 3001 is adequate for an effective use. You can change the hysteresis value according to you environment conditions. Conditions required to generate critical maximum alarm is as follows: Measured value > Defined Critical Maximum Value + Hysteresis Condition required to eliminate alarm when critical maximum alarm is generated, is as follows: Measured value < Defined Critical Maximum Value - Hysteresis Conditions required to generate critical minimum alarm is as follows: Measured value > Defined Critical Minimum Value - Hysteresis Condition required to eliminate alarm when critical minimum alarm is generated, is as follows: Measured value < Defined Critical Minimum Value + Hysteresis Automatic operations that are carried out by SYSGUARD 3001 when critical maximum or minimum alarm is generated are listed below: Informing by e-mail depending on the configuration Informing by SMS depending on the configuration Recording the alarm case in the archive Turning on/off the device connected to a specific output according to the configuration (for instance turning on the back up AC when temperature alarm is generated) Displaying alarm on LCD Screen Generating voice alarm signal by SYSGAC13 Signal Tower 2.3.4.3. Maximum / Minimum Alarm Alarm is generated when values measured by humidity, temperature, voltage, frequency, UPS sensors are not within the operational range determined by the user. Maximum / Minimum alarm is only generated on condition that related sensor or module is configured with Alarm Active option. In this type of control systems, it is of great importance to use hysteresis value in order to avoid constant alarms during value increase/decrease. SYSGUARD 3001 enables the user assign this hysteresis value. In many cases, hysteresis value assigned by SYSGUARD 3001 is adequate for an effective use. You can change the hysteresis value according to you environment conditions. 13

Conditions required to generate maximum alarm is as follows: Measured value > Defined Maximum Value + Hysteresis Condition required to eliminate alarm when maximum alarm is generated, is as follows: Measured value < Defined Maximum Value - Hysteresis Conditions required to generate minimum alarm is as follows: Measured value > Defined Minimum Value - Hysteresis Condition required to eliminate alarm when maximum alarm is generated, is as follows: Measured value < Defined Minimum Value + Hysteresis Automatic operations that are carried out by SYSGUARD 3001 when maximum or minimum alarm is generated are listed below: Informing by e-mail depending on the configuration Informing by SMS depending on the configuration Recording the alarm case in the archive Turning on/off the device connected to a specific output according to the configuration (for instance turning on the back up AC when temperature alarm is generated) Displaying alarm on LCD Screen Generating voice alarm signal by SYSGUARD 3151 Signal Tower 2.3.4.4. Flood Alarm This alarm is generated in max. 5 seconds when any water sensor detects water. In order to generate this alarm, water sensor should be configured as Alarm Active". Operations that are carried out by SYSGUARD 3001 when flood alarm is generated are explained below: Informing by e-mail depending on the configuration Informing by SMS depending on the configuration Recording the alarm case in the archive Displaying alarm on LCD Screen Generating voice alarm signal by SYSGAC13 Signal Tower 2.3.4.5. Alarms Received from Devices connected with Dry Contact Sensors All kinds of environment monitoring device that can give on or off contact may be connected to dry contact sensor (for instance smoke sensor, magnetic key, PIR sensor etc.) During configuration it is selected whether the device gives on contact or off contact. In case any device connected to the dry contact sensor changes its settings (for instance dry contact sensor reads off value although on value is set during configuration) this alarm is generated. Transition to alarming phase varies as per the hysteresis selected by the user. After the hysteresis period, alarm is generated accordingly. For instance the magnetic key of the IT room is connected to the dry contact sensor. Consider the each opening of the door is an alarm but request to generate an alarm when the door is open for 2 minutes. If 120 seconds is written in the hysteresis space of the related dry contact module, alarm is generated on condition that the door is opened for 120 seconds. In order to generate an alarm by dry contact sensor, Alarm active" option should be selected during configuration. Operations that are carried out by SYSGUARD 3001 when any device connected to dry contact sensor generates an alarm are listed below: Informing by e-mail depending on the configuration Informing by SMS depending on the configuration Recording the alarm case in the archive Turning on/off the device connected to a specific output according to the configuration (for instance turning on the light when the door of any room is opened) 14

Displaying alarm on LCD Screen Generating voice alarm signal by SYSGAC13 Signal Tower 2.3.5. Management External devices connected to relay outputs can be remotely turned on/off in manual or automatic manner. It is recommended to connect the contactors having the capacity to pass high level of current to the relay output module and control external devices via these contactors. During configuration it is selected whether the activated mode of the relay output is on contact or off contact. Upon your connection, you should choose the appropriate configuration setting. 2.3.5.1. Manual Management It is done via management page in WebPack User Interface. Users with required authorizations can turn on/off the devices they want. It is archived each operation concluded by each user. 2.3.5.2. Automatic Management SYSGUARD 3001 may change the status of specific outputs in specific alarming cases. This operation solely depends on configuration. In case of alarms, It may be ensured that any external device may start to operate. It may be ensured that any external device may be turned off. In alarm cases, external device may maintain its current status as per the configuration or reset to pre-alarm status. Output configuration can be carried out in 4 different ways: Turn on: When alarm is generated device connected to the output port turns on and when alarm is eliminated device continues to be on. Automatic Turn On: When alarm is generated device connected to the output port turns on and when alarm is eliminated device resets to off mode. Turn off: When alarm is generated device connected to the output port turns off and when alarm is eliminated device continues to be off. Automatic Turn off When alarm is generated device connected to the output port turns off and when alarm is eliminated device resets to on mode. All these configurations can be made separately in each maximum alarm, minimum alarm as well as any alarm generated by the water or dry contact sensor. 2.3.6. Archiving SYSGUARD 3001 archives all data received from all sensors and modules in accordance with a specific rule. You can find below what kind of data is archived: Data received from sensors generating figures such as humidity, temperature, voltage current frequency, UPS is archived in every 5 minutes. In case any sensor or module generated an alarm, values are archived. In case any sensor or module goes to normal operation from the alarm mode, values are filed. In case dry contact sensor changes its mode other than normal status, data is filed. When dry contact sensor transits from abnormal status to normal status, the values are filed. Data is filed when flood occurs and is eliminated. If users intervenes any relay output module manually, data including which user makes the intervention is filed. If any relay output module automatically changes its mode, information is filed. The latest date when users use web interface is also archived. In case any sensor or module disconnected from the system, this status is also filed. 15

2.4. Related Documents For more detailed information, please refer to the product datasheets. 3. Physical Structure 3.1. Introduction In this chapter; main unit, internal and external sensor functions and their installations will be explained. 3.2. System Units 3.2.1. SYSGUARD 3001 Main Unit 3.2.1.1. Function SYSGUARD 3001 Main Unit is the core of the SYSGUARD 3001 concept that ensures communication with sensors and modules, shares instant received values with users via its built-in WebPack User Interface, determines alarming cases as per the values received from sensors, informs user by e-mail, SMS, signal tower or LCD screen in alarm cases, archives data received from sensors within a specific rule, realize operations such as turning on/off the external devices via relay output module in manual or automatic manner. 3.2.1.2. Installation SYSGUARD 3001 Main Unit is connected to 220 VAC network voltage by power supply, which is provided with the product. It is recommended to feed the SYSGUARD 3001 Main Unit via UPS. When you place SYSGUARD 3001 Main Unit on its location and connect to the power supply, the device will be ready for configuration. For the first configuration, you should connect to the device by cross Cat5 network cable via Ethernet Port. Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,22-0,36 A typical 0,24 A 2,64-4,62 W typical 2,88 W -10 +70 o C 0-90 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 44,14 x 480 x 101 mm 1,73 x 18,89 x 3,97 inches Color Black Weight 1500 (+/- 5%) grams 16

Internal Temperature & Humidity Sensor Properties Temperature Measurement Range -10 +70 Temperature Measurement Tolerance +/- 0,4 Temperature Measurement Resolution 0,1 Humidity Measurement Range Humidity Measurement Tolerance Humidity Measurement Resolution Maximum Distance from Main Unit 0-85 % Rh +/-3 % Rh %0,1 Rh 3 m Technical Properties Analog / Water Sensor Port Dry Contact Input Relay Output 4 units 16 units 4 units Analog resolution 10bit 5-12 VDC NO / NC Voltage Range 0-5 VDC Isolated Max. 5A RS232 (2 Units) USB Port (2 Units) Ethernet Port (1 Unit) ExaBus Port (16 Units) Slave Power Input (1 Unit) External Power Input (max.=1a) 3.2.2. External Sensors and Modules Figure 3.2-1 17

3.2.2.1. SYSGUARD 6010 Humidity and Temperature Sensor (High Sensitivity Series) 3.2.2.1.1. Function SYSGUARD 6010 Humidity and Temperature Sensor is a unit, which measures the relative humidity of the environment in % and temperature value in C and connects to the system via ExaBus so that these values are recorded within SYSGUARD 3001 concept. 3.2.2.1.2. Physical Structure Top Panel View Front Panel View 4 Status LED Power LED SYSGUARD 6010 Temp.&Hum. Sensor Hs. Rear Panel View Assembly Hole Sensing Point 1 2 3 5 6 Setting Button ExaBus Port 3.2.2.1.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,005-0,007 A typical 0,006 A 0,0525-0,10 W typical 0,072 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Color Weight Grey 100 (+/-5%) grams 18

Technical Properties Temperature Measurement Range Temperature Measurement Tolerance Temperature Measurement Resolution Humidity Measurement Range Humidity Measurement Tolerance Humidity Measurement Resolution Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device -25 +70 o C +/- 0,4 o C 0,1 o C 0-90 % Rh +/-3 % Rh %0,1 Rh 200 m NO YES 1 Unit NO Supported Main Units SYSGuard 3001, SYSGuard 6001 3.2.2.1.4. Package Content SYSGuard 6010 Humidity and Temperature Sensor 2 assembly screw 3.2.2.1.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.2. SYSGuard 6011 Humidity and Temperature Sensor (Standart Series) 3.2.2.2.1. Function SYSGuard 6011 Humidity and Temperature Sensor is a unit, which measures the relative humidity of the environment in % and temperature value in C and connects to the system via ExaBus so that these values are recorded within SYSGuard concept. 19

3.2.2.2.2. Physical Structure Top Panel View Front Panel View 4 Status LED Power LED SYSGUARD 6010 Temp.&Hum. Sensor Hs. Rear Panel View Assembly Hole Sensing Point 1 2 3 5 6 Setting Button ExaBus Port 3.2.2.2.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,005-0,007 A typical 0,006 A 0,0525-0,10 W typical 0,072 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Color Weight Grey 100 (+/-5%) grams 20

Technical Properties Temperature Measurement Range Temperature Measurement Tolerance Temperature Measurement Resolution Humidity Measurement Range Humidity Measurement Tolerance Humidity Measurement Resolution Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device -25 +70 o C +/- 0,5 o C 0,1 o C 0-85 % Rh +/-4.5 % Rh %0,1 Rh 200 m NO YES 1 Unit NO Supported Main Units SYSGuard 3001, SYSGuard 6001 3.2.2.2.4. Package Content SYSGuard 6011 Humidity and Temperature Sensor 2 assembly screw 3.2.2.2.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.3. SYSGuard 6020 Temperature Sensor (High Sensitivity Series) 3.2.2.3.1. Function SYSGuard 6020 Temperature Sensor is a unit, which measures temperature of the environment in C and connects to the system via ExaBus so that these values are recorded within SYSGuard concept. 21

3.2.2.3.2. Physical Structure Top Panel View Front Panel View 4 Status LED Power LED SYSGUARD 6021 Temperature Sensor Std. Rear Panel View Assembly Hole Sensing Point 1 2 3 5 6 Setting Button ExaBus Port 3.2.2.3.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,005-0,008 A typical 0,007 A 0,065-0,12 W typical 0,084 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Color Weight Grey 100 (+/-5%) grams 22

Technical Properties Temperature Measurement Range Temperature Measurement Tolerance Temperature Measurement Resolution Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port -25 +70 o C +/- 0,5 o C 0,1 o C 200 m NO YES 1 Unit Power Over External Device Supported Main Units SYSGuard 3001, SYSGuard 6001 NO 3.2.2.3.4. Package Contents SYSGuard 6020 Temperature Sensor 2 assembly screws 3.2.2.3.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.4. SYSGuard 6021 Temperature Sensor (Standart Series) 3.2.2.4.1. Function SYSGuard 6020 Temperature Sensor is a unit, which measures temperature of the environment in C and connects to the system via ExaBus so that these values are recorded within SYSGuard concept. 23

3.2.2.4.2. Physical Structure Top Panel View Front Panel View 4 SYSGUARD 6020 Temperature Sensor Hs. Rear Panel View 5 1 2 3 6 Status LED Power LED Assembly Hole Sensing Point Setting Button ExaBus Port 3.2.2.4.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,005-0,008 A typical 0,007 A 0,065-0,12 W typical 0,084 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh 24

Physical Properties Dimensions (H x W x D) Color Weight 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Grey 100 (+/-5%) grams Technical Properties Temperature Measurement Range Temperature Measurement Tolerance Temperature Measurement Resolution Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device -25 +70 o C +/- 0,5 o C 0,5 o C 200 m NO YES 1 Unit NO Supported Main Units SYSGuard 3001,SYSGuard 6001 Table 3.2.2-1: SYSGuard 6020 Temperature Sensor Technical Specifications. 3.2.2.4.4. Package Content SYSGuard 6020 Temperature Sensor 2 assembly screws 3.2.2.4.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors 3.2.2.5. SYSGUARD 6030 Multiple Point W-Detect Sensor 3.2.2.5.1. Function SYSGuard 6030 Multiple point W-Detect Sensor is a unit that transmits information regarding the water leakage existing in the region via ExaBus network in case any water flood or water accumulation occurs in the environment. 25

3.2.2.5.2. Physical Structure Top Panel View Front Panel View 4 Status LED Power LED SYSGUARD 6020 Temperature Sensor Hs. Rear Panel View 5 Assembly Hole Sensing Point Setting Button 1 2 3 6 ExaBus Port 3.2.2.5.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,005-0,010 A typical 0,009 A 0,084-0,14 W typical 0,10 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) Color Weight 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Grey 100 (+/-5%) grams 26

Technical Properties Maximum Distance from Main Unit External Device Input 200 m YES 1 Unit Power Over ExaBus Port ExaBus Port Power Over External Device YES 1 Unit Supported External Devices Water Detection Cable SYSGuard 3031 SYSGuard 3035 Supported Main Units SYSGuard 3001, SYSGuard 6001 NO 3.2.2.5.4. Package Content SYSGuard 6030 Multiple point W-Detect 2 assembly screws 3.2.2.5.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.6. SYSGuard 6031 & SYSGuard 6035 Water Detect Cable 3.2.2.6.1. Function Info: SYSGuard 6031 is the water detect cable 1mt/39,31inches long. SYSGuard 6035 is the water detect cable 5mt/196,85inches long. SYSGuard 6031 & SYSGuard 6035 W-Detect cables are units that are connected to the SYSGuard6001 main unit via SYSGuard 6030 Multiple point W-Detect Sensor. 3.2.2.6.2. Physical Structure Front Panel View Rear Panel View 4 3 2 1 Isolated Area Non Isolated Area SYSGuard W-Detect Input Connections 27

3.2.2.6.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,005-0,010 A typical 0,009 A 0,084-0,14 W typical 0,10 W 0 +50 o C 0-100 % Rh -10 +75 o C 0-100 % Rh Physical Properties Dimensions Length 1000 mm 5000 mm 39,37 inches 196,85 inches Color Weight Black Yellow 100 (+/-5%) grams Technical Properties Supported Units SYSGuard 6030, SYSGuard 3001 3.2.2.6.4. Package Content SYSGuard 6031 or SYSGuard 6035 Water Detect Cable 3.2.2.6.5. Installation SYSGuard 6031 & SYSGuard 6035 water detection cables can be connected to the SYSGuard 6030 module s dry contact inputs and SYSGuard 3001 Main Unit s W-Detect Inputs. For further information see SYSGuard 6030 installation section. 3.2.2.7. SYSGuard 6040 VF Module 3.2.2.7.1. Function SYSGuard 6043 Energy Module is a unit that measures voltage and frequency values relating to the triphase network power and transmits these values to SYSGuard system via ExaBus network. 28

3.2.2.7.2. Physical Structure Top Panel View Front Panel View EXABUS PORT BUTTON LED POWER IN 12V DC SYSGUARD 6040 SYSGUARD 6040 THREEPHASE V/F MODULE N L1 L2 L3 x x x x Rear Panel View 1 2 3 4 5 AC Voltage Input Power IN Status LED Learning Button LAN Port 3.2.2.7.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,015-0,022 A typical 0,018 A 0,150-0,320 W typical 0,220 W -25 +85 o C 0-85 % Rh -40 +85 o C 0-90 % Rh 29

Physical Properties Dimensions (H x W x D) 57,9 x 86 x 103 mm 2,28 x 3,38 x 4,08 inches Color Weight Grey 270 (+/-5%) grams Technical Properties Voltage Measurement Range 90-400 V Voltage Measurement Tolerance Frequency Measurement Range Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device 1-5 V 40-60 Hz 200 m NO YES 1 Unit YES (12V Power Adapter) Supported Main Units SYSGuard 3001, SYSGuard 6001 3.2.2.7.4. Package Content SYSGuard 6040 VF Module Connection Apparatus 3.2.2.7.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.8. SYSGuard 6060 LCD Module 3.2.2.8.1. Function SYSGuard 6060 LCD Module is a unit that is placed on a suitable place in the related environment, displays the values measured by sensors, which are determined by the system administrator, via LCD screen, ensures to realize Monitoring task of the SYSGuard system. 30

3.2.2.8.2. Physical Structure Front Panel View 1 S SYSGUARD 6060 LCD Module 2 3 4 Rear Panel View LCD Screen Status LED Mute Button Buzzer Assembly Hole LAN Port 5 6 3.2.2.8.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,020-0,024 A typical 0,022 A 0,210-0,350 W typical 0,250 W 0-85 % Rh -40 +85 o C 0-90 % Rh -10 +70 o C 31

Physical Properties Dimensions (H x W x D) Color Weight 25 x 115 x 105 mm Grey 200 (+/-5%) grams Technical Properties Screen Properties Maximum Distance from Main Unit 4*20 character LCD 200 m Technical Properties Screen Properties Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device Supported External Devices 4*20 character LCD 200 m NO YES 1 Unit NO NO Supported Main Units SYSGuard 3001, SYSGuard 6001 Table 3.2.2-2: SYSGuard 6060 LCD Module Technical Specifications 3.2.2.8.4. Package Content SYSGuard 6060 LCD Module Connection Apparatus 3.2.2.8.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 32

3.2.2.9. SYSGuard 6081 Dry Contact Module 3.2.2.9.1. Function SYSGuard 6081 Dry Contact Module is a unit that enables to connect an external device, which allows for dry contact output, to SYSGuard system 3.2.2.9.2. Physical Structure Top Panel View Front Panel View 4 Rear Panel View SYSGUARD 6081 Dry Contact Module (1Port) 5 6 1 2 3 Status LED Power LED Assembly Hole Sensing Point Setting Button ExaBus Port 3.2.2.9.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,020-0,024 A typical 0,022 A 0,210-0,350 W typical 0,250 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh 33

Physical Properties Dimensions (H x W x D) 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Color Weight Grey 240 (+/-5%) grams Technical Properties Maximum Distance from Main Unit 200 m Technical Properties Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port 200 m YES 1 Unit YES YES - 1 Unit Supported External Devices YES Detectors and devices with dry contact output. (Smoke detector, Magnetic Contact, PIR detector) Supported Main Units SYSGuard3001, SYSGuard 6001 3.2.2.9.4. Package Content SYSGuard 6081 Dry Contact Module Connection apparatus 3.2.2.9.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.10. SYSGuard 6088 Dry Contact Module 3.2.2.10.1. Function SYSGuard 6088 Dry Contact Module SYSGuard 6081 Dry Contact Module is a unit that enables to connect 8 external devices, which allow for dry contact output, to SYSGuard system 34

x EX.12VDC POWER IN 3.2.2.10.2. Physical Structure Top Panel View LED BUTTON EXABUS PORT Front Panel View +12VDC SYSGUARD 6088 DRY CONTACT MODULE (8 PORT) POWER OUT GND x x IN 1 IN 2 IN 3 IN 4 IN 5 IN 6 IN 7 IN 8 +5VDC x GND x +5VDC x GND x +5VDC x GND x +5VDC GND x x +5VDC x GND x +5VDC x GND x +5VDC x GND x +5VDC x GND x x 1 2 Rear Panel View 3 4 5 6 1 Montage Hole 2 3 4 5 6 Connection Sockets Status LED Power IN Setting Button ExaBus Port 3.2.2.10.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,020-0,024 A typical 0,022 A 0,210-0,350 W typical 0,250 W 0-85 % Rh -40 +85 o C 0-90 % Rh -25 +70 o C Physical Properties Dimensions (H x W x D) 31,5 x 57,6 x 106 mm 1,24 x 2,27 x 4,17 inches Color Weight Grey 100 (+/-5%) grams 35

Technical Properties Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device Supported External Devices 200 m YES 8 Units YES 1 Unit NO YES Detectors and devices with dry contact output. (Smoke detector, Magnetic Contact, PIR Detector) Supported Main Units SYSGuard 6001 3.2.2.10.4. Package Content SYSGuard 6088 Dry Contact Module Connection apparatus 3.2.2.10.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.11. SYSGuard 6094 Relay Output Module 3.2.2.11.1. Function SYSGuard 6090 Relay Output Module is the unit that allows to make the connection with devices, that will be controlled by SYSGuard. x EX.12VDC POWER IN 3.2.2.11.2. Physical Structure Top Panel View LED BUTTON EXABUS PORT Front Panel View SYSGUARD 6090 RELAY OUT MODULE (4 PORT) COM 1 COM 2 COM 3 COM 4 1 Rear Panel View 2 NO 1 NC 1 NO 2 NC 2 NO 3 NC 3 NO 4 NC 4 3 x x x x x x x x x x x x x 4 5 6 1 Assembly Hole 2 3 4 5 6 Connection Sockets Status LED Power IN Setting Button ExaBus Port 36

3.2.2.11.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temperature Range Operational Humidity Range Storage Temperature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,220-0,240 A typical 0,230 A 2,30 2,75 W typical 2,75 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 31,5 x 57,6 x 106 mm 1,24 x 2,27 x 4,17 inches Color Weight Grey 200 (+/-5%) grams Technical Properties Current/Output Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port 0,5 A 200 m YES 4 Units YES 1 Unit Power Over External Device Supported External Devices YES (12V Power Adapter) YES Devices that open-close management will be done by the system. Supported Main Units SYSGuard 3001, SYSGuard 6001 37

3.2.2.11.4. Package Content SYSGuard 6094 Relay Output Module Connection apparatus 3.2.2.11.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.12. SYSGuard 6100 Signal Tower Module 3.2.2.12.1. Function SYSGuard 6100 Signal Tower Module is the unit which is required to connect the SYSGuard Signal Tower,which is used to transmit voice and light alarms to the authorized personnel, to the system. 3.2.2.12.2. Physical Structure Top Panel View Front Panel View 4 Rear Panel View SYSGUARD 6100 Signal Module 5 6 1 2 3 Status LED Power LED Assembly Hole Sensing Point Learning Button LAN Port 38

3.2.2.12.3. Technical Specification Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,020-0,024 A typical 0,022 A 0,210-0,350 W typical 0,210 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Color Weight Grey 200 (+/-5%) grams Technical Properties Current/Output Maximum Distance from Main Unit 5A 200 m Technical Properties Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device Supported External Devices 200 m YES 1 Unit YES 1 Unit NO YES Signal Tower Supported Main Units SYSGuard 3001, SYSGuard 6001 39

3.2.2.12.4. Package Content SYSguard 6100 Signal Tower Module 2 assembly screws 3.2.2.12.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.13. SYSGuard 6160 Voice Calling Module 3.2.2.13.1. Function Provides voice calling by connecting to SYSGAC01 GSM Module. 3.2.2.13.2. Physical Structure Top Panel View Front Panel View 4 SYSGUARD 6160 Voice Calling Module Rear Panel View 5 1 2 3 6 Status LED Power LED Assembly Hole GSM Modem Connection Cable Learning Button LAN Port 40

3.2.2.13.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,020-0,024 A typical 0,022 A 0,210-0,350 W typical 0,250 W -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Color Weight Grey 100 (+/-5%) grams Technical Properties Maximum Distance from Main Unit External Device Input Power Over ExaBus Port ExaBus Port Power Over External Device Supported External Devices 200 m NO YES 1 Unit YES YES - GSM Module. Supported Main Units SYSGuard 3001, SYSGuard 6001 41

3.2.2.13.4. Package Content SYSGuard 6160 Voice Calling Module 2 assembly screws 3.2.2.13.5. Installation Plug the ExaBus Cable (See: Hata! Başvuru kaynağı bulunamadı.) in the ExaBus Port of the module so that it communicates with SYSGuard 6001 Main Unit or SYSGuard 6070 Expansion Module. Plug the 2.5mm jack to SYSGAC01 GSM Module. 3.2.2.14. SYSGuard 6170 Air Flow Sensor 3.2.2.14.1. Function SYSGuard 6170 Air Flow Sensor is the unit that measures the air flow intensity 3.2.2.14.2. Physical Structure Top Panel View Front Panel View 4 SYSGUARD 6170 Air Flow Module Rear Panel View 5 1 2 3 6 Status LED Power LED Montage Hole Sensing Point Learning Button LAN Port 42

3.2.2.14.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption 10,5-14,4 VDC typical 12 VDC 0,100-0,120 A typical 0,110 A 1,05-1,72 W typical 1,32 W Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range -25 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) Color Weight 26,6 x 48 x 67,9 mm 1,05 x 1,89 x 2,67 inches Grey 100 (+/-5%) grams Technical Properties Air flow Measurement Range Maximum Distance from Main Unit External Device Input Power Over ExaBus Port 6 Levels 200 m NO YES ExaBus Port 1 Unit Power Over External Device Supported External Devices NO NO Supported Main Units SYSGuard 3001, SYSGuard 6001 43

3.2.2.14.4. Package Content SYSGuard 6170 Air Flow Sensor 2 assembly screws 3.2.2.14.5. Installation Mount the SYSGuard 6170 Air Flow Sensor in a suitable location where you monitor it. It is recommended to mount the sensor where the sensor grids are placed upwards. It is not recommended to mount the heating and cooling devices where they directly affect it, it is not accurate to assemble them near devices producing heat in similar ways or points where they are affected by the vents of the said devices. In order to get the most efficient results, it would be more useful to mount the sensor on the level that is half height of the ceiling. If the sensor is mounted on a closed rack, assembly point should be selected that reflects the average temperature of the rack without getting affected by devices disseminating heat. For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.15. SYSGuard 6180 Air Quality Module 3.2.2.15.1. Function SYSGuard 6180 Air Quality Module is the unit that measures air quality in the area. 3.2.2.15.2. Physical Structure 3 6 AIR QUALITY 7 1 C F 4 2 AIR QUALITY HUMIDITY T-STAT 5 1 2 4 5 3 Mode Selectors LCD Screen 6 7 Connection Sockets Montage Hole 44

3.2.2.15.3. Technical Specifications Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 12 ~ 24 VAC +/-20%, 50-60 Hz 12 ~ 24 VDC +/-20%, 50-60 Hz 55 ma @ 24 VDC 10 +50 o C 0-90 % Rh 2-50 o C 0-100 % Rh Physical Properties Dimensions (H x W x D) Color Weight 140 x 90 x 37 mm White / Off-White 200 grams Technical Properties Humidity Sensor Element Air Quality Sensor Element Humirel HS1101 Figaro TGS2600, Figaro TGS2602 3.2.2.15.4. Package Content Air Quality Unit Quick Installation Guide 3.2.2.15.5. Installation SYSGuard 6180 Air Quality Module is only connected to SYSGuard 6131 Analog Module. For further information see Quick Installation Guide. 3.2.2.16. SYSGuard 6200 Combo Sensor 3.2.2.16.1. Function SYSGuard 6200 Combo Sensor extends the features of the SYSGuard 6001 main unit by using the built in; Temprature&Humidity Sensors, Dry Contact Inputs, Relay Outputs, Proximity Module Input, Water D. Cable Input in an efficient and easy way. 45

3.2.2.16.2. Physical Structure 1 Assembly Hole 2 Connection Sockets 3 Power Socket 4 ExaBus Port x POWER IN 12-24 AC/DC Top Panel View EXABUS PORT Front Panel View T/H GND +VOL SYSGUARD 6200 SYSGUARD 6200 COMBO MODULE POWER OUT INPUT 1 INPUT 2 GND DOOR 1 SW DOOR 2 SW W-CAB W-CAB x x x x x x x x x NO DOOR 1 GND NC NO DOOR 2 GND NC RF ID CARD READER EX PWR 12-24 AC/DC x x x x x x x x LED BUTTON x x x x x x 1 Rear Panel View 2 3 4 Left Side View Right Side View 5 6 7 5 6 7 Temperature & Humidity Sensor IN Status LED Setting Button 3.2.2.16.3. Technical Properties Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 10,5-14,4 VDC typical 12 VDC 0,220-10,350 A typical 0,240 A 2,64-4,32 W typical 2,88 W -10 +70 o C 0-85 % Rh -40 +85 o C 0-90 % Rh Physical Properties Dimensions (H x W x D) Color 30 x 105 x 60 mm Black 46

Internal Temperature & Humidity Sensor Temperature Measurement Range Temperature Measurement Tolerance Temperature Measurement Resolution Humidity Measurement Range Humidity Measurement Tolerance Humidity Measurement Resolution Maximum Distance from Main Unit -25 +70 o C +/- 0,4 o C 0,1 o C 0-90 % Rh +/-3 % Rh %0,1 Rh 3 M Technical Properties Water Detect Cable Input Dry Contact Input Relay Output 1 Unit 4 Units 2 units 5-12 VDC NO / NC Isolated Max. 5A External Device Input YES Power Over ExaBus Port YES ExaBus Port 1 Unit Power Over External Device YES Supported External Devices YES - Devices with dry contact input, relay output, Proximity module, water detectcable. Supported Main Units SYSGuard 3001, SYSGuard 6001 3.2.2.16.4. Package Content SYSGuard 6200 Combo Sensor Connection apparatus 3.2.2.16.5. Installation For installation instructions please refer to section 4 Configuration, 4.2.3 External Sensors. 3.2.2.17. SYSGAC01 GSM Module 3.2.2.17.1. Function SYSGAC01 GSM Module warns the user about the alarms generated by the sensors configured on the SYSGuard 6001 main unit. Information is sent via SMS or if voice calling module is installed- Voice Calling. Warnings are consisted of alarms, critical alarms and connection errors. SYSGuard GSM Module also warns the user when all alarms are set to normal after. 47

3.2.2.17.2. Physical Structure Top Panel View Front Panel View 2 3 4 5 GL865T-DUAL GSM/GPRS TERMINAL Power Status Rear Panel View www.lte.com.tr Long Team Evolution POWER AUX GPIO/ADC AUDIO 1 Assembly hole Power LED Status LED 6 7 8 9 SIM PUSH TO OPEN Left Panel View 10 RS232 Console Port GSM Antenna IN Power IN AUX IN GPIO Socket Audio Socket SIM Card IN 48

3.2.2.17.3. Technical Specifications Product Features Supported bands - 2 Bands GSM / GPRS : 900 / 1800 MHz SIM Access Profile, Quad Band GPRS and EDGE class 33, Control via AT commands, Serial port multiplexer 3GPP TS27.010, SIM application Tool Kits 3GPP TS Built in UDP/TCP/FTP/SMTP stack, SMS Point-to-point mobile originated and mobile terminated SMS, Concatendated SMS support, SMS cell broadcast, Text and PDU mode, SMS Over GPRS. Fax Group 3, class 1 Extended temperature range: - 40 C to +85 C (Operational) Status and Power Leds. Additional features SIM phonebook Fixed dialing number (FDN) Real-time clock Alarm management Embedded TCP/IP stack, including TCP, IP, UDP, SMTP and FTP protocols Jamming detection & report TFMS (Telit Firmware Management Services) Over-the-Air update Remote AT Commands IRA character set Event Monitor Electrical Input Voltage Level > - 9 32VDC @ 1.2 A min Circuit switched data transmission Asynchronous transparent circuit switched data (CSD) up to 14.4 Kbps Output power > Sensitivity > - Class 4 (2 W) @ 900 MHz - Class 1 (1 W@ 1800 MHz -108 dbm @ 900 MHz -107 dbm @ 1800 MHz Asynchronous non-transparent CSDup to 9.6 Kbps V.110 49

Interfaces GPIO Socket (2 outputs, 2 inputs, 2 ADC) D-type 9 pin RS-232 connector, Serial Debug Port (Also 3.0V Voltage Output), SMA female, 50 Ohm RF connector, 2.5mm jack (Mono Mic, Mono Ear), Power Socket (PWR, GND, RST), On board SIM card holder(push-push Type), GPRS data GPRS class 10 Mobile station class B Coding scheme 1 to 4 PBCCH support Specifications - Mechanical Dimensions: 85 x 70 x 33 mm, Weight: 140 grams. Optional WatchDog Timer with MCU (PIC12F675) controller. Key Features Dual-band EGSM 900 / 1800 MHz, Embedded Python Version 1.5.2, Serial Debug Port (Also 3.0V Voltage Output), RS232 ınterface (DB9-Female), Analog Audio Support (2.5mm jack, Mono-Mic & Mono-Ear), 2 Digital Inputs, 2 Digital Outputs and 2 ADC Connections on GPIO 3.2.2.17.4. Package Content GSM Antenna RS232 Cable 12V DC Adapter GSM Module Unit 3.2.2.17.5. Installation Place SYSGAC01 GSM Module on a suitable place near SYSGuard 3001 Main unit. Place the GSM Antenna on a suitable place where it can receive GSM signals. Plug RS-232 cable to SYSGAC01 GSM Module and SYSGuard 3001 unit. Insert Mini-SIM (2FF) size SIM card in to SYSGAC01 GSM Module. Before installing SIM Card, the PIN Code must be removed. 50

Plug the power adapter, check the status LED. On the SYSGuard 3001 main unit Webpack, check SMS Settings from Configuration Menu. Modem status must be O.K instead of Disconnected. If you have a Voice Calling Module check 3.3.17.5 for installation. 3.2.2.18. SYSGAC04 Smoke Detector 3.2.2.18.1. Function SYSGAC04 Smoke Detector, measures the smoke in the area. 3.2.2.18.2. Physical Structure 1 TEST 2 DO NOT PAINT X 5 6 X X 4 2 X 3 4 1 2 3 4 Status LED Detection Grid Montage Hole Connection Socket 51

3.2.2.18.3. Technical Properties Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range Star-Up Time Permissible Current Frequency Alarm Contact 10.2~13.8V 35 ma (Alarm Current) 370 μa (Standby Current) 10 +50 o C 0-90 % Rh 2-50 o C 0-100 % Rh 120 Sec (Max) 80 ma 3-5 Sec Form A Physical Properties Dimensions (H x W x D) Color Weight 140 x 90 x 37 mm White 220 grams Technical Properties 4 wire connection EN-54 Approval CE Approval 3.2.2.18.4. Package Content SYSGAC04 Smoke Detector Quick Installation Guide 3.2.2.18.5. Installation SYSGAC04 Smoke Detector is connected to SYSGuard 3001 Main unit via internal dry contact inputs. 52

3.2.2.19. SYSGAC05 CQR Magnetic Contact (Door Detector) 3.2.2.19.1. Function SYSGAC05 Magnetic Contact (Door Detector) is used in to provide open or closed information of door. Sends signal to SYSGuard 3001 main unit when activated. 3.2.2.19.2. Physcial Structure P A R A D O X P A R A D O X 1 2 1 2 Magnetic Relay 3.2.2.19.3. Technical Properties SC 525 Properties Connections: 1m 4 core Red Switches: 1 Pull-in gap : 20mm Material: Polystyrene Dimensions: 38 x 15 x 8 Contact Form: SPST form A Voltage Range: 1-50vDC Switching Current: 500mA Contact Material: Rhodium Colors: White/Brown 3.2.2.19.4. Package Content SYSGAC05 Magnetic Contact 2 assembly screws 3.2.2.19.5. Installation SYSGAC05 Magnetic Contact (Door Detector) is connected to SYSGuard 3001 Main unit via internal dry contact inputs. 53

3.2.2.20. SYSGAC06 PIR Detector 3.2.2.20.1. Function SYSGAC06 PIR Detector is used in to provide motion information in area. Sends signal to SYSGuard 6081 or SYSGuard 6088 when activated. 3.2.2.20.2. Physical Properties 1 2 1 2 3 Motion Detection LED Sensor Connection Sockets + - ALARM TAMPER 3 3.2.2.20.3. Technical Properties Electrical Properties Operating Voltage Current consumption - no alarm Current consumption - alarm Relay Relay Output Tamper Switch 9-16 VDC typical 12 VDC 11 ma (12V nominal) 13 ma (12V nominal) Solid State 60 VDC, 50mA Protected 12V max, 50mA max 54

RFI immunity to continuous wave (CW) 80-2000MHz 10 V/m RFI immunity to amplitude modulation (AM) 80-2000MHz 10 V/m RFI immunity to pulse modulation (PM) 80-2000MHz 10 V/m Perating Properties Detection Speed Operating Temperature (min.) Storage temperature (min.) Alarm period of 0.3 3 m/s -30 o C -40 o C 2.5 sec. Optical Properties White light filter Optics Lens Protection 6500 Lux Sealed 3D Ultraviolet Light Filter Technical Properties Optimum coverage height 1.8-2.4m 3.2.2.20.4. Package Content PIR Detector Assembly Screws 3.2.2.20.5. Installation SYSGAC06 PIR Detector is connected to SYSGuard 3001 Main unit via internal dry contact inputs. 3.2.2.21. SYSGAC07 Vibration Detector 3.2.2.21.1. Function SYSGAC07 Vibration Detector detects vibrations on the surface it is mounted. Alert delay timing and intensity of vibration can be adjusted. 3.2.2.21.2. Physical Structure - 1 + - 2 + - - - - - - - - - - - - - - 1 2 3 4 5 6 55

1 2 3 4 5 Vibration adjustment. Montage hole. Timer adjustment. Vibration status LED Timer status LED 6 Dry Contact Input 3.2.2.21.3. Technical Properties Electrical Properties Operating Voltage Current consumption - no alarm Current consumption - alarm 10-13 VDC typical 12 VDC 10 ma (12V nominal) 14 ma (12V nominal) Operating Properties Detection Speed Operating Temperature (min.) Storage temperature (min.) Alarm period of Depends on user. 0 o C 0 o C Depends on user. Extra Properties Dry contact connection only Caution: Use only screws for montage. Do not use e.g double sided adhesives 3.2.2.21.4. Package Content SYSGAC07 Vibration Detector Connection Cable 3.2.2.21.5. Installation SYSGAC07 Vibration Detector is connected to SYSGuard 3001 Main unit via internal dry contact inputs. 3.2.2.22. SYSGAC08 Proximity Reader 3.2.2.22.1. Function SYSGAC08 Proximity Reader is a contactless smartcard reader which sends signal to SYSGuard 6200 Combo Sensor and triggers door lock. 56

3.2.2.22.2. Physical Properties R O S S L A R E SECURITY PRODUCTS 1 1 Reading LED 2 Connection Socket 2 3.2.2.22.3. Technical Properties Features; Incorporates the ISO-14443A (Mifare ) ID Format Protocol. Reads range of up to 50 mm (1.96 ). Designed under Rosslare s ISO 9001:2008 Certified Quality standards. Multiple, programmable output formats including standard Wiegand 26-Bit. Selectable LED control or buzzer control functions. Made of tough Polycarbonate plastic for improved performance in all weather conditions. Optical Back tamper detection technology. Bi-colored LED and LED control input. Internal buzzer. PC software and programming adapter (MD-08B) for easy configuration of the unit. Weather-Resistant. 3.2.2.22.4. Package Content SYSGAC08 Proximity Reader Allen wrench Allen screw 3.2.2.22.5. Installation SYSGAC06 PIR Detector is connected to SYSGuard 6001 Main unit via SYSGuard 6200 Combo Sensor. 3.2.2.23. SYSGAC13 Signal Tower with Buzzer 3.2.2.23.1. Function SYSGAC13 Signal Tower with Buzzer is triggered by SYSGuard 6100 Relay Input when an alarm is generated by system. 57

3.2.2.23.2. Physical Structure 1 2 1 2 3 4 5 Status Light Buzzer Grid Red Wire, Status Light Wire Brown Wire, Buzzer Wire Black Wire, GND Wire 3 4 5 3.2.2.23.3. Technical Properties Operational Properties Feeding Voltage Power Consumption Operational Temprature Range Operational Humidity Range Storage Temprature Range Storage Humidity Range 220 V 21 ma (Standby Current) 10 +50 o C 0-70 % Rh 2-50 o C 0-80 % Rh 58

Physical Properties Dimensions (H x D) Color Weight 332 x 45 mm White 300 grams Extra Properties 5 W Bulb 3.2.2.23.4. Package Content SYSGAC13 Signal Tower with Buzzer 3.2.2.23.5. Installation SYSGAC13 Signal Tower with Buzzer is connected to SYSGuard 3001 Main unit via internal dry contact inputs. 3.2.2.24. COM 1 Port 3.2.2.24.1. Function Port for the SYSGUARD 3160 GSM Modem connection 3.2.2.24.2. Installation After SYSGUARD 3001 Main Unit is active COM 1 output that came internally with the main unit will also be ready for use. Please refer to the related articles of the Configurations Section for operations such as naming the connected device, output type (See: 4.2.5) 3.2.2.25. COM 2 Port 3.2.2.25.1. Function Port for the UPS device connection. 3.2.2.25.2. Installation SYSGUARD 3001 Main Unit is active COM 2 output that came internally with the main unit will also be ready for use. Please refer to the related articles of the Configurations Section for operations such as naming the connected device, output type (See: 4.2.3) 59

3.2.3. Internal Sensors and Modules Figure 3.2-2 3.2.3.1. SYSGUARD 3010 Humidity and Temperature Sensor 3.2.3.1.1. Function SYSGUARD 3010 Humidity and Temperature Sensor is a unit, which measures the relative humidity of the environment in % and temperature value in C and connects to the system via ExaBus so that these values are recorded within SYSGUARD 3001 concept. 3.2.3.1.2. Installation Mount the SYSGUARD 3010 Humidity and Temperature Sensor in a suitable location where you monitor it. It is recommended to mount the sensor where the sensor grids are placed upwards. 60

It is not recommended to mount the heating and cooling devices where they directly affect it, it is not accurate to assemble them near devices producing heat in similar ways or points where they are affected by the vents of the said devices. In order to get the most efficient results, it would be more useful to mount the sensor on the level that is half height of the ceiling. If the sensor is mounted on a closed rack, assembly point should be selected that reflects the average temperature of the rack without getting affected by devices disseminating heat. Plug the ExaBus Cable in the ExaBus Port of the sensor so that it communicates with SYSGUARD 3001 Main Unit. SYSGUARD 3010 Humidity and Temperature Sensor, which is assigned by the user, is displayed in the default names as 1 Humidity Type Sensor 1 Temperature Type Sensor in Humidity and Temperature Sensor Assignment Page (Figure 3.2-1). Please refer to related articles of the Configuration Section for operations such as naming the sensor and defining operational range (See: 4.2.4). 3.2.3.2. Dry Contact Module 3.2.3.2.1. Function Dry Contact Module is a unit that enables to connect an external device, which allows for dry contact output, to SYSGUARD 3001 system. 3.2.3.2.2. Installation After SYSGUARD 3001 Main Unit is active, 16 Dry Contact inputs that came internally within the main unit will also be ready for use. 16 Dry Contacts, which is assigned by the user, is displayed in the default name as Input in Sensor Assignment Page (Figure 3.2-1). Please refer to the related articles of the Configurations Section for operations such as naming the connected device, input type (4.2.4) 3.2.3.3. Relay Output Module 3.2.3.3.1. Function Relay Output Module is the unit that allows making the connection with devices that will be controlled by SYSGUARD 3001. 3.2.3.3.2. Installation After SYSGUARD 3001 Main Unit is active, 4 Relay Outputs that came internally with the main unit will also be ready for use. 4 relay outputs, which are assigned by the user, are displayed in the default name as Input in Sensor Assignment Page (Figure 3.2-1). Please refer to related articles of the Configuration Section for operations such naming, defining output type (See: 4.2.4) and for defining conditioning of the automatic activation (See: 4.2.7). 3.2.3.4. SYSGUARD 3030 Water Sensor 3.2.3.4.1. Function Water Sensor is a unit that transmits information regarding the water leakage existing in the region via ExaBus network in case any water flood or water accumulation occurs in the environment. 3.2.3.4.2. Installation Place the Water Sensor in a suitable location that you monitor. Place the Water Detect cable required for detecting any regional water leakage. Make the connections for the cable. 61

It is recommended to mount the Water Sensor where there is water flood risk Water Detect Cable to be connected to the sensor should be placed on the strategic points where there is water flood risk. During this placement, it is vital that cable does not contact with any conductive surface. Plug the Water Detect Cable to the Analog Port so that it communicates with SYSGUARD 3001 Main Unit. As a result of the above mentioned process, SYSGUARD 3030 Water Sensor is recognized by the system. Water Sensor, which is assigned by the user, is displayed in the default name as 1 Water type sensor in Internal Sensor Assignment Page (Figure 3.2-1). Please refer to related articles of the Configuration Section for operations such as naming the sensor and defining operational (See: 4.2.4). 3.2.3.5. Analog Module 3.2.3.5.1. Function Analog Module is responsible for the Analog ports in the Main Unit which allows up to for external devices with Analog connections to be plugged to the system. 3.2.3.5.2. Installation After SYSGUARD 3001 Main Unit is active, 4 Analog ports that came internally with the main unit will also be ready for use. Please refer to the related articles of the Configurations Section for operations such as naming the connected device, output type (See: 4.2.4) 3.2.3.6. LCD Screen 3.2.3.6.1. Function LCD Screen is a unit that is placed on a suitable place in the related environment, displays the values measured by sensors, which are determined by the system administrator, via LCD screen, ensures to realize Monitoring task of the SYSGUARD 3001 system. 3.2.3.6.2. Installation After SYSGUARD 3001 Main Unit is active, LCD Screen that came internally with the main unit will also be ready for use. Please refer to the related articles of the Configurations Section for the options user can use (See: 4.2.8) 3.2.3.7. COM 1 Port 3.2.3.7.1. Function Port for the SYSGUARD 3160 GSM Modem connection 3.2.3.7.2. Installation After SYSGUARD 3001 Main Unit is active COM 1 output that came internally with the main unit will also be ready for use. Please refer to the related articles of the Configurations Section for operations such as naming the connected device, output type (See: 4.2.5) 3.2.3.8. COM 2 Port 3.2.3.8.1. Function Port for the UPS device connection. 62

3.2.3.8.2. Installation SYSGUARD 3001 Main Unit is active COM 2 output that came internally with the main unit will also be ready for use. Please refer to the related articles of the Configurations Section for operations such as naming the connected device, output type (See: 4.2.3) 4. Configuration 4.1. Introduction In this chapter configuration options available in the web interface of the SYSGUARD 3001 such as main unit configurations, new sensor assignment, sensor configurations, naming, alarm configuration, normal operation range defining, hysteresis value defining, critical state range defining, sensor activation/ pacification, sensor deleting, sensor control, SMS configurations, GSM configurations, output control configurations will be explained. 4.2. System Unit Configuration 4.2.1. SYSGUARD 3001 Main Unit Configuration 4.2.1.1. Connection to Main Unit Main unit is equipped with default IP address (192.168.1.141). For the first access to the device, cross cable should be used or PC to access the main unit or devices should be connected to the same hub. Your device should have a static IP in order to access SYSGUARD 3001. You can carry out these settings in TCP IP Settings sections of Local Area Network Connection options. Please make your settings as shown in Figure 4.2-1 and save it. Figure 4.2-1 63

Write 192.168.1.131 on the address bar of your browser (for instance Internet Explorer) and press Enter button. Homepage of the SYSGUARD 3001 Main Unit is as follows: Default user name is admin and password is 123456. Figure 4.2-2 4.2.1.2. System Name System name is adjusted in the System page under Configuration menu. Assign a name to SYSGUARD 3001 and enter this area (Figure 4.2-2). It is important to enter a value that reminds the location where you have installed SYSGUARD 3001. The values that you entered in this section will be displayed in e-mails and SMS in case of alarm events. 4.2.1.3. Web Interface Title Web Interface Title is adjusted in the System page under Configuration menu (Figure 4.2-2). The titles of all pages to be displayed on WebPack will be the values that you entered in this section. 4.2.1.4. Renewal Time Renewal Time is adjusted in the System page under Configuration menu (Figure 4.2-2). Monitoring and management pages are automatically updated so that values received from modules or sensors are displayed in updated forms. Define renewal time within 15sec - 60 sec. 4.2.1.5. Date/Time Date and time of the system is adjusted in the System page under Configuration menu (Figure 4.2-2). You can update the date and time of the system in this section. All archive records will be maintained as per the system time you entered. 4.2.1.6. NTP Server Address NTP (Network Time Protocol) address is adjusted in the System page under Configuration menu (Figure 4.2-2). The address can be defined or redefined in this section. 64

Figure 4.2-3 4.2.1.7. Network settings configuration Network settings that you access SYSGUARD 3001 system is configured in Network Settings page under Configuration menu (Figure 4.2-3). It is of great importance to enter the data with due diligence. Inaccurate access may cause to make your access to SYSGUARD 3001 impossible. If you encounter such a problem, please refer to Reset to default IP settings page. Remark: these settings are local area network settings and do not change when you access remotely. Please enter IP address, subnet mask and gateway, which are allocated for SYSGUARD 3001 by your network administrator, in this section. After saving the new values, a message stating that you can reach web interface via new IP address pops up and SYSGUARD 3001 closes your browser window. You can access SYSGUARD 3001 web interface by new IP address upon opening a new browser window. 4.2.1.8. Reset to Default IP Address See: Section 8.2 Figure 4.2-4 4.2.2. User Configuration User Configuration is adjusted in User Settings page under Configuration menu (Figure 4.2-4). 4.2.2.1. Adding a User In order to add a new user, fill in user name and password sections. Assign the required authorization to the user (Figure 4.2-4). New user is added when you press on Add button. 65

4.2.2.2. Deleting a User In order to delete any user, click on Delete button under Edit user section (Figure 4.2-4). 4.2.3. External Sensors Figure 4.2-5 4.2.3.1. External Sensor Assignment Sensor addition and configuration operations are realized in External Sensor Settings page under Sensor Settings. Operations such as naming a sensor, defining operational range and assigning hysteresis will be concluded below. To assign a new sensor clicking Scan For New Sensors button is enough (Figure 4.2-5). This button will check all the ExaBus Ports in the Main Unit and add connected external sensors (Figure 4.2-6). When this process is complete clicking the Update button will activate the sensors. When the system is in Scan Mode, if any of the previously defined sensors are unplugged, their information will be deleted so, please check your connections before enabling the Scan Mode 66

Figure 4.2-6 4.2.3.2. External Sensor Configurations 4.2.3.2.1. Naming/Renaming the Sensor After you assign a sensor in the system, subsensors of the said sensor will be displayed as their default names in WebPack User Interface. Open Sensor External Sensor Settings page under Sensor Settings to change the current names. Write the names you want in Name columns sensors and it s subsensors on this page (Figure 4.2-5). Sensor name can be max. 20 characters (ISO/IEC 8859). Then click on Save button on External Sensor Settings page and save the names you have given. Same name can be assigned to different sensors. You will encounter different type of sensor having same name with their assigned types on WebPack User Interface. Therefore assigning the same name to different type of sensors would be easier for the user. It is not necessary to use words defining the type of the sensor ( Humidity, Temperature etc.) in the names assigned to sensors. In the phase of naming the sensors, it would be efficient to use a systematic structure as per your installation form and name them based on their locations. Names assigned to the sensors are also of great importance for the use of Archive (See: 5.7). Search and display operations are realized based on names in Archive. After a while you can rename a sensor as mentioned in this section. However as stated above sensors are kept with their names in Archive and renaming may cause problems for the user in terms of Archive management. Therefore do not prefer changing the names of the existing sensors. 67

4.2.3.2.2. Alarm Configuration Any Sensor in the system can be configured in order to generate alarms when required. Please configure the sensors either to generate or not generate alarms by making changes on Alarm column of the External Sensor Settings page (Figure 4.2-5). Then save the changes by clicking on Save button. If sensor is configured to generate alarms; adjustments such as defining normal operational range (See: 4.2.3.2.3), defining hysteresis value (See: 4.2.3.2.4), defining critical alarm values (See: 4.2.3.2.5), e-mail configuration (See: 4.2.6), SMS configuration (See: 4.2.5), output control configuration (See: 4.2.7) may be required. These adjustments are explained in related sections. 4.2.3.2.3. Defining Normal Operational Range Normal operational range values should be entered for sensors and its subsensors, which are configured to generate alarms. Normal operational range values and hysteresis value, whose determination method is mentioned in section 4.2.3.2.4, will define the condition to generate and eliminate alarm events. Where; Max. Value determining the normal operational range: max. Min. Value determining the normal operational range: min. Hysteresis value: his. Value measured by the sensor: MV Precondition for; generating alarm: MV max.+his. or MV min.-his. eliminating alarms : MV max.-his. or MV min.+his. Please enter max. and min. values to its associated columns (Figure 4.2-5). Then save your changes by clicking on Save button on the same page. 4.2.3.2.4. Defining Hysteresis Value Hysteresis value should be entered for the sensors and its subsensors, which are configured to generate alarms. Hysteresis is required for the sound process of alarm generation and elimination by a sensor. Hysteresis concept and its operation are explained in detail in Operation Theory of the System Section (See: 2.3). Hysteresis value, whose determination method is mentioned in section 4.2.3.2.3 under Defining Normal Operational Range and in section 4.2.3.2.5 under Defining Critical Alarm Value, will define the condition to generate and eliminate alarm events. Where; Max. Value determining the normal operational range: max. Min. Value determining the normal operational range: min. Hysteresis value: his. Value measured by the sensor: MV Precondition for generating alarm: MV max.+his. or MV min.-his. eliminating alarms : MV max.-his. or MV min.+his. Hysteresis value is entered in Hysteresis column in External Sensor Settings page under Sensor Settings (Figure 4.2-5). Then save your changes by clicking on Save button on the same page. 68

4.2.3.2.5. Defining Critical Alarm Values Normal operational range values should be entered for sensors and its subsensors, which are configured to generate alarms. Critical alarm values and hysteresis value, whose determination method is mentioned in section 4.2.3.2.4, will define the condition to generate and eliminate Critical alarm events. Where; Max. Value determining the normal operational range: Critical Max. Min. Value determining the normal operational range: Critical min. Hysteresis value: his. Value measured by the sensor: MV Precondition for; generating alarm: MV Critical max.+his. or MV Critical min.-his. eliminating alarms : MV Critical max.-his. or MV Critical min.+his. Please enter Critical Max and Critical Min. values to its associated columns (Figure 4.2-5). Then save your changes by clicking on Save button on the same page. 4.2.3.2.6. Deleting the Sensor Sensors are deleted from the system in External Sensor Settings page under Sensor Settings (Figure 4.2-5). Tick the boxes of the sensors you want to delete in Delete column. When you click on Save button, sensor you have ticked will be deleted. Subsensors should be deleted separately. 4.2.3.2.7. Deactivating the Sensor External Sensors can be deactivated in External Sensor Settings page under Sensor Settings. Select Deactivate from box for the sensors you want to deactivate in Active column (Figure 4.2-5). When you click on Save button, sensor you have ticked will be deleted. Subsensors should be deactivated separately. 4.2.3.2.8. Sensor Checking You can control the Marking LED located on the sensor by ticking the boxes on LED column in External Sensor Settings page under Sensor Settings (Figure 4.2-5). When the box is ticked, Marking Led light, when it is not ticked, it doesn t light anymore. You can detect the location of each sensor by monitoring the Marking LED status on the sensors placed in the environment by ticking the box on Led column. 69

4.2.4. Internal Sensors Figure 4.2-7 4.2.4.1. Internal Sensor Assignment There is special configuration for internal sensors and modules assignment in the SYSGUARD 3001 system. Just activating the SYSGUARD 3001 Main Unit is enough. Sensor configuration operations are realized in Internal Sensor Settings page under Sensor Settings (Figure 4.2-7). Operations such as naming a sensor, defining operational range and assigning hysteresis will be concluded on this page. 70

4.2.4.2. Internal Sensor Configurations 4.2.4.2.1. Naming/Renaming the Sensor After you assign a sensor in the system, subsensors of the said sensor will be displayed as their default names in WebPack User Interface. Open Sensor Internal Sensor Settings page under Sensor Settings to change the current names. Write the names you want in Name columns sensors and it s subsensors on this page (Figure 4.2-7). Sensor name can be max. 20 characters (ISO/IEC 8859). Then click on Save button on External Sensor Settings page and save the names you have given. Same name can be assigned to different sensors. You will encounter different type of sensor having same name with their assigned types on WebPack User Interface. Therefore assigning the same name to different type of sensors would be easier for the user. It is not necessary to use words defining the type of the sensor ( Humidity, Temperature etc.) in the names assigned to sensors. In the phase of naming the sensors, it would be efficient to use a systematic structure as per your installation form and name them based on their locations. Names assigned to the sensors are also of great importance for the use of Archive (See: 5.7). Search and display operations are realized based on names in Archive. After a while you can rename a sensor as mentioned in this section. However as stated above sensors are kept with their names in Archive and renaming may cause problems for the user in terms of Archive management. Therefore do not prefer changing the names of the existing sensors. 4.2.4.2.2. Alarm Configuration Any Sensor in the system can be configured in order to generate alarms when required. Please configure the sensors either to generate or not generate alarms by making changes on Alarm column of the Internal Sensor Settings page (Figure 4.2-7). Then save the changes by clicking on Save button. If sensor is configured to generate alarms; adjustments such as defining normal operational range (See: 4.2.4.2.3), defining hysteresis value (See: 4.2.4.2.4), defining critical alarm values (See: 4.2.4.2.5), e-mail configuration (See: 4.2.6), SMS configuration (See: 4.2.5), output control configuration (See: 4.2.7) may be required. These adjustments are explained in related sections. 4.2.4.2.3. Defining Normal Operational Range Normal operational range values should be entered for sensors and its subsensors, which are configured to generate alarms. Normal operational range values and hysteresis value, whose determination method is mentioned in section 4.2.3.2.4, will define the condition to generate and eliminate alarm events. Where; Max. Value determining the normal operational range: max. Min. Value determining the normal operational range: min. Hysteresis value: his. Value measured by the sensor: MV Precondition for: generating alarm: MV max.+his. or MV min.-his. eliminating alarms : MV max.-his. or MV min.+his. 71

Please enter max. and min. values to its associated columns in Internal Sensor Settings page under Sensor Settings (Figure 4.2-7). Then save your changes by clicking on Save button on the same page. 4.2.4.2.4. Defining Hysteresis Value Hysteresis value should be entered for the sensors and its subsensors, which are configured to generate alarms. Hysteresis is required for the sound process of alarm generation and elimination by a sensor. Hysteresis concept and its operation are explained in detail in Operation Theory of the System Section (See: 2.3). Hysteresis value, whose determination method is mentioned in section 4.2.4.2.3 under normal operational range values and in section 4.2.4.2.5 under critical alarm value, will define the condition to generate and eliminate alarm events. Where; Max. Value determining the normal operational range: max. Min. Value determining the normal operational range: min. Hysteresis value: his. Value measured by the sensor: MV Precondition for; generating alarm: MV max.+his. or MV min.-his. eliminating alarms : MV max.-his. or MV min.+his. Hysteresis value is entered in Hysteresis column in Internal Sensor Settings page under Sensor Settings (Figure 4.2-7). Then save your changes by clicking on Save button on the same page. 4.2.4.2.5. Defining Critical Alarm Values Normal operational range values should be entered for sensors and its subsensors, which are configured to generate alarms. Critical alarm values and hysteresis value, whose determination method is mentioned in section 4.2.4.2.4, will define the condition to generate and eliminate Critical alarm events. Where; Max. Value determining the normal operational range: Critical Max. Min. Value determining the normal operational range: Critical min. Hysteresis value: his. Value measured by the sensor: MV Precondition for; generating alarm: MV Critical max.+his. or MV Critical min.-his. eliminating alarms : MV Critical max.-his. or MV Critical min.+his. Please enter Critical Max and Critical Min. values to its associated columns in Internal Sensor Settings page under Sensor Settings (Figure 4.2-7). Then save your changes by clicking on Save button on the same page. 4.2.4.2.6. Deactivating the Sensor Internal Sensors cannot be deleted from the system but they can be deactivated in Internal Sensor Settings page under Sensor Settings (Figure 4.2-7). Select Deactivate from box for the sensors you want to deactivate in Active column. When you click on Save button, sensor you have ticked will be deleted. Subsensors should be deactivated separately. 72

4.2.5. SMS Settings Figure 4.2-8 Sending SMS is a method to warn related personnel in case of alarm events. In parallel to system configuration, SMS stating the alarm event will be automatically sent. SMS can be configured to be sent during or after working hours or at any time. Please refer to the related section to define working hours (See: 4.2.5.1). You can select the related personnel to send the SMS in case of alarm events as well as you can determine what kind of SMS stating which sensor is generating alarms are to be sent these personnel. If GSM number of the personnel whom SMS are to be sent is not included in the list, firstly write the GSM number of the personnel on GSM no box on SMS Settings page under Configuration. If you want this personnel to get the SMS during working hours, tick Working Hours box, if you want him/her to get the SMS after working hours tick After Working Hours box. (Ticking both boxes shall mean at any time). Then press Add button (Figure 4.2-8). GSM number is added to the list. It is required to assign sensors to the GSM numbers included in the list. For this operation, open GSM No- Sensor Assignment Page by clicking on Sensor Assignment button, which is next to the GSM number line. Determine which messages are sent to the selected GSM numbers by ticking the boxes in the lines of the sensors you determined. SMS relating to a sensor is sent when any connection problem occurs. Connection problem occurs if sensor is physically damaged or cable is ruptured. You can also decide to send the messages stating this situation. After making the assignments, click on Save" button. Your assignments will be saved and GSM no-sensor Assignment Page will be closed. Configurations for any external GSM module, which can be connected to the main unit via RS232 port and SMS receivers, are made on SMS Settings page under Configuration menu. Configure your SMS Settings on this page by inserting an SIM card with accurately identified message center that does not have any pin code, in your GSM modem. 73

4.2.5.1. Defining Working Hours For some applications, it is preferred to send SMS only after working hours in alarm events. Therefore you should enter working hours in SYSGUARD 3001. Hence user may only get SMS only after working hours. 4.2.5.2. Entering new GSM Number Enter new GSM number, to where SMS will be sent, on GSM no column. Assign whether the message is sent to the receiver either during or after working hours in alarm events. When you click on Add button, new SMS receiver will be assigned. 4.2.5.3. Deleting GSM Number In order to delete an assigned GSM number, click once Delete button on Edit column. 4.2.5.4. Interacting GSM number with sensor SYSGUARD 3001 enables to arrange which SMS is sent to which receiver as per the alarms received from sensors. In order to assign a sensor to any GSM number, click on Sensor Assignment button on Edit column. On the new windows, select and save the sensors so that SMS is sent to GSM numbers when any alarm occurs on the selected sensors. 4.2.5.5. Voice Calling If there is an installed Voice Calling Module in your system, voice calling is available for warning personnel during an alarm via voice calling. Activating voice calling for the required personnel is done by clicking the Voice Call button while creating a new personnel information for alarm sending. 4.2.6. E-mail Configuration Figure 4.2-9 74

Sending e-mail is a method to warn related personnel in case of alarm events. In parallel to system configuration, e-mail stating the alarm event will be automatically sent. It is required to configure the e-mail server settings accurately for sending the e-mails. It is explained in related articles how to make this configuration. You can select the related personnel to send the e-mails in case of alarm events as well as you can determine what kind of e-mails stating which sensor is generating alarms are to be sent these personnel. If the e-mail address of the related party is not added to the list of personnel whom the e- mails are sent to, firstly you should write e-mail address to be added to Mail Address box in E-mail Settings page under Configuration and click on Add button (Figure 4.2-9). E-mail address written by you will be added to the list. It is required to assign sensors to the e-mail included in the list. For this operation, open Email Sensor Settings page by clicking on Add/Remove Sensor button, which is next to the e-mail address. Determine which messages are sent to the selected e-mail addresses by ticking the boxes in the lines of the sensors you determined (Figure 4.2-9). E-mail messages relating to the sensor is sent when any connection problem, Alarm State or Critical State occurs. Connection problem occurs if sensor is physically damaged or cable is ruptured. Alarm and Critical states occur if any chosen sensor goes beyond the assigned values. You can also decide to send the messages stating this situation. After making the assignments, click on Save button. Your assignments will be saved and Add/Remove Senor page will be closed. SYSGUARD 3001 e-mal configuration is made on E-mail Settings page under Configuration Menu. 4.2.6.1. Primary DNS Enter primary Domain Name Server address, which is valid for your network, on this section. If you do not use any special DNS, you could write gateway address on this field. 4.2.6.2. E-mail Server Write your e-mail server address on this field. E-mail server addresses are generally written as follows: For example: if your e-mail address is info@exagate.com; your e-mail server address is generally mail.exagate.com. 4.2.6.3. Sender Address Write the address that SYSGUARD 3001 will use in e-mail sending process in this field. 4.2.6.4. User Name Write the user name used when connecting to your e-mail server. 4.2.6.5. Password Write the password used when connecting to your e-mail server. 4.2.6.6. E-mail Title Specify the e-mail titles of the e-mails that you receive from SYSGUARD 3001 in this field. 4.2.6.7. TLS Some e-mail servers require TLS (for example Gmail). If you use this kind of e-mail server, activate TLS option. 4.2.6.8. Adding an E-mail Enter e-mail address to be added on Mail Address field and click on Add button. 75

4.2.6.9. Deleting an E-mail Click on Delete button on Edit column where e-mail addresses that you want to delete from E-mails list are included. 4.2.6.10. Interacting e-mail address with sensor SYSGUARD 3001 enables to arrange which e-mail is sent to which receiver as per the alarms received from sensors. In order to assign a sensor to any e-mail, click on Sensor Assignment button on Edit column. On the new windows, select and save the sensors so that e-mail is sent to e-mail addresses when any alarm occurs on the selected sensors. 4.2.7. Output Control Configuration Figure 4.2-10 Figure 4.2-11 Intervention to output modules is one of the operations automatically done in case of alarm events. If sensors generating alarms and some output type sensors are available in your system, you can configure any alarms to be generated by any sensor to intervene the required output. 76

For this configuration, click on Set Conditions button in the required Output Type Sensor line on Output Sensor Settings page under Sensor Settings (Figure Figure 4.2-10). Sensor Assignment page for Output, where all sensors are listed, is opened (Figure Figure 4.2-11). On this page you can make required configuration any sensor and it s subsensors by ticking boxes in Alarm/Max., Min. columns and selecting either Turn on Automatically Turn on, Turn Off, Automatically Turn off options in Intervention column. Definitions of the terms used on this page are as follows: Ticking Alarm/Max. box ensures the intervention when sensor generates alarm upon exceeding the maximum value. Ticking Min. box ensures the intervention when sensor generates alarm while the received value is under min. one. Intervention column defines the possible intervention type. Intervention types are as follows: If Turn On is ticked, device connected to the said output is turned on in case of alarm event and device continues to be on when the alarm is eliminated. If Automatically Turn On is selected, device connected to the said output is turned on in case of alarm event and device would be off when the alarm is eliminated. If Turn Off is ticked, device connected to the said output is turned off in case of alarm event and device continues to be off when the alarm is eliminated. If Automatically Turn Off is selected, device connected to the said output is turned off in case of alarm event and device would be on when the alarm is eliminated. Then click on Save button. Configuration will be saved and the page is closed. 4.2.8. Configuration for LCD on Main Unit Most Configuration options can be done without using any computer, using only the Menu and Set buttons on the Main Unit next to the LCD Screen. All configuration option screens are shown with the figures, set at the right side of this chapter. To access the Configurations menu, click; 2 times Set, 1 time Menu and 1 time Set (Set-Set-Menu-Set) rapidly. Configurations menu is divided into 2 options which are External Sensor and Network Setup. Figure 4.2.8-1 To chose between these options press Set and to select one of them press Menu. If the user waits for 5sec without pressing any button, LCD Screen will return to the main page (internal sensor page) without saving any of the changes. 4.2.8.1. External Sensors EXTERNAL SENSOR NETWORK SETUP Scan Mode Start? If the External Sensors option is selected, the user will see the question Scan Mode Start on the screen (Figure 4.2.8-2). To confirm the scan press the Set button for 3sec. When the scan is confirmed, the Figure 4.2.8-2 system will scan the 16 ExaBus ports for plugged external sensors. During the scan; ports that are scanned but are empty will be shown with the letter E, ports that are connected to a sensor are shown with the letter S and lastly ports that are not yet scanned are shown with the letter O (Figure 4.2.8-2). When the scan is finished, the system will automatically exits from the Scan Mode and screen will return to the main page. The user can confirm Figure 4.2.8-3 a successful scan if after it the screen shows Scan Complete for a while. SSEEEEEEEEEOOOOO If the user does not want to start a scan wait for 5sec without pressing any button during the question and the LCD screen will return to the main page. DHCP 4.2.8.2. Network Setup ENABLE If the Network Setup is selected, an option to choose from will appear on the screen as, on the upper line DHCP (Dynamic Host Configuration) and on the lower Figure 4.2.8-4 77

line ENABLE or DISABLE (Figure 4.2.8-4). To choose between these two options press Set button and to select one of them press Menu. If ENABLE is selected, system will save your options and will restart to select an IP address from the DHCP. If DISABLE is selected, the user will be required to Figure 4.2.8-5 enter IP (Figure 4.2.8-5), Subnet (Figure 4.2.8-6) and IP 192.168.001.170 Gateway (Figure 4.2.8-7) address respectively. Entering address start from the first digit of the IP address and moves only from left to right. Changing digits are selected between 0-9 and only towards higher number but if a Figure 4.2.8-6 lower number that the current one is desired, press SUBNET 255.255.255.0 change digit button after 9 and the digits will restart GATEWAY beginning from 0. 10.0.0.1 To increase digit number press Set button and to change to the next digit press Menu. If the user Figure 4.2.8-7 decides not to change the address wait for 5sec without pressing any button and the screen will return to the main page without saving any of the changes. If the user decides to change and address, it s required to enter all three of the address (IP, Subnet, Gateway) even if the user wishes to change one or two of the address. If this is the case, it is advised to just press the Menu button for the address that doesn t need to be changed. Keep pressing until the address that will not be changed is passed over every digit it has. Keep in mind that if the waited for 5sec without pressing any button during an option, the screen will return to the main page without saving any of the changes. 5. Monitoring 5.1. Introduction SYSGUARD 3001 main unit constantly monitors values received from all connected sensor and modules via ExaBus. In this section, sharing of the values received from sensor and modules with the users is explained. msağ 5.2. Monitoring Overview Users can monitor values of sensors and modules on SYSGUARD 3001 in various ways: Monitoring on WebPack: Users monitor sensor values and alarm events on web interface. Monitoring on Centralized Management Pack: monitoring process is concluded thanks to the Centralized Management Pack software installed on PC of the user. Monitoring by LCD Module: Values of some sensors can be monitored by LCD Screen. Monitoring with SMS and E-mail: During alarm events, users are informed by SMS or e-mails. 78

5.3. Monitoring on WebPack Figure 5.3-1 In the Sensor under the Monitoring and Management menu, all the connected sensors and modules, their values can be seen also Outputs can be intervened to open/close at will (Figure 5.3-1). 79

Figure 5.3-2 If the user desires, it is possible to drag the most important and critical sensor values to the top, in the User Sensors bar where they can be viewed from one line (Figure 5.3-2). This way users won t have to search or worry where was the sensor they wish to view, it can be right under the first bar. 5.4. Monitoring on Centralized Management Pack Besides web interface, system can be monitored by Centralized Management Pack software. For monitoring via Centralized Management Pack software, you can refer to Centralized Management Pack manual. 5.5. Monitoring by LCD module By using the Menu and Set buttons on the Main unit, next to the LCD Screen the users can perform most monitoring functions. TEMP HUM 5.5.1. Internal Sensor Monitoring 25.6 o C %45 RH The main page on the LCD Screen is the values of the internal sensors. (Figure 5.5-1) Figure 5.5-1 80