GE Concord 4 manual Keychain Touchpad

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Keychain Touchpad 2

Active for Partition: 1 2 3 4 5 6

Latchkey User: Y N

PresstheLOCKkeyto: Pressbothatonetimeto:

Increasethe ♦ Createapanicalarm. arminglevel.

Armthesystemto ♦ _________________________

Level3withno

ExitorPressingthis

Entrydelay. keytriggers

_____________________

Pressingthis keycontrols allights.

Pressingbothkeysatsame timecreatesAuxiliarypanic alarm.

Figure 10. Keychain Touchpad 2

Keychain Touchpad 3

Active for Partition: 1 2 3 4 5 6

Latchkey User: Y N

PresstheLOCKkeyto: Pressbothatonetimeto:

Increasethe ♦ Createapanicalarm. arminglevel.

Armthesystemto ♦ _________________________

Level3withno

ExitorPressingthis

Entrydelay. keytriggers

_____________________

Pressingthis keycontrols allights.

Pressingbothkeysatsame timecreatesAuxiliarypanic alarm.

Figure 11. Keychain Touchpad 3

Keychain Touchpad 4

Active for Partition: 1 2 3 4 5 6

Latchkey User: Y N

PresstheLOCKkeyto: Pressbothatonetimeto:

Increasethe ♦ Createapanicalarm. arminglevel.

Armthesystemto ♦ _________________________

Level3withno

ExitorPressingthis

Entrydelay. keytriggers

_____________________

Pressingthis keycontrols allights.

Pressingbothkeysatsame timecreatesAuxiliarypanic alarm.

Figure 12. Keychain Touchpad 4

Concord 4 Series Security Systems

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Contents User guide FCC Part 15 Information to the User Arm to Level 2-STAY Cancel an accidental alarmSend a police alarm Disarm the systemConcord 4 Series Security Systems Contents Notification by Pager Panic AlarmsAccess Codes Using the Energy Saver FeatureMultiple Day Rollover Advanced Light ControlLatchkey Paging Notify by ExceptionMacro Keys System Information Viewing the Event Buffer Using a Touchtone Phone to Operate Your SystemTesting the System TroubleshootingAppendix C Programming Your System Appendix B Planning for EmergenciesInstallation Instructions Getting to Know Your Security System Instructing the System Communicating with the SystemStatus Beeps Beeps and LEDs- How Your System Talks to YouNotification by Pager Key BeepsBasic System Operations What Happens in an Alarm ConditionFire Alarms Automatic and Manual Fire AlarmsPress and hold both Preventing Accidental AlarmsClearing Alarms and Resetting Smoke Detectors Guidelines for Preventing Accidental AlarmsPress the Unlock button Aborting Accidental AlarmsArming and Disarming Your System Level 1-OFFQuick Exit Level 2-STAYLevel 3-AWAY Quick ArmKeychain Touchpad Arming Using the Chime FeatureUsing the Voice Chime Feature No Delay-For Instant AlarmBypassing-Arming With a Door or Window Open Auto Stay Arming FeatureExit Extension Arming Feature Arming Your System SilentlyClose bypassed doors and/or windows Arm your system again Basic Light ControlBypassing a Sensor Indirectly Was the Bypass Successful?Full System Status Basic Output ControlChecking the Status of Your System Short System StatusSiren Time-out Fire Panic AlarmPolice Panic Alarm Auxiliary Panic AlarmProgramming Access Codes Assigning Code Attributes Changing or Erasing User CodesAssigning the System Test Attribute SettingChange it when necessary Time and DateAdjusting the Touchpad Display Brightness Adjusting System Sounds Touchpad BrightnessAdjusting the Touchpad Beeps Fixed Display Touchpad Only Adjusting the System Status Voice VolumeSetting the Energy Saver High and Low Temperature Settings Using Energy Saver FeatureEnergy Saver Example Energy Saver Setpoints Temperature settings can range from 45 to 90 FahrenheitThis number identifies what has happened This number identifies who or what is causing the eventPager Messages Event CodeScheduling Consecutive Days Creating Time SchedulesAccount Number Streamlining the Page ReportMultiple Day Rollover Attaching Time SchedulesControlling Lights By Time Schedule Time Schedules and PartitionsControlling Lights with Sensors Controlling Outputs by Time Schedule Installer Programmable LightingScheduled ArmingClosing Reports OpeningBasic Latchkey Opening Latchkey OpeningLatchkey Closing Assigning a Time Schedule to Latchkey PagingApplying the Latchkey Modifier Assigning a Time Schedule to Exception Opening and Closing Jumping Partitions Using a PartitionedGlobal Settings Partition-Specific SettingsArming and Disarming Another Partition Arming and Disarming Multiple Partitions at the Same TimeProgramming Another Partition Press the Lock button Macro KeysEvent Buffer ViewingOverview AC Power Failure Unbypassed User information is shown in the following tableAccessing the System from Off-site Phone Command PrefixSource information is shown in the following table Phone operation of your system involves 2 steps Codes with Remote Access CapabilityTouchtone Phone System Operation How the Panel Answers the PhoneActivate Outputs Activating a Police Panic AlarmSensor Test Automatic Test FeaturesPhone Questions? Manual TestsPhone Communication Test Silencing Trouble Beeps TroubleshootingTesting Sirens Trouble Beeps and Trouble MessagesPhone Issues Common Questions and AnswersLighting Issues Auxiliary Phone Trou HW / WL / TP System SensorsUser Codes There are keychain touchpads in use in the system On/OffActive for Partition 1 2 3 4 5 Latchkey User Y N Keychain Touchpad Dialer Abort Accidental Smoke and Fire AlarmsDoors and Delay Time Settings System FeaturesNo Activity Time If the Power Goes OutResetting the Smoke Detector No. My system does not use this featureLights PagingEnergy Saver OutputsEntry Delay Alarm Sounds and Status BeepsOr 3 beeps indicating set arming level Floor Plan Example Appendix B Planning for EmergenciesYour Floor Plan Floor Plan If Your System Needs Service Alarm System LimitationsTwo Methods to Program Your System Using Programming MenusExamples of Programming Using Menus Appendix C Programming Your SystemTo erase a user code Using Programming Shortcuts + 05XX5 + 1off or 2on + # + 05XX2 + 1off or 2on + #+ 05XX3 + 1off or 2on + # + 05XX4 + 1off or 2on + #Sched 15 * + 065115 + 1off or 2on + # Output Attaching schedules for Output 2 operationOutput Attaching schedules for Output 4 operation Enter temperature value in Fahrenheit+ 065200 + 1off or 2on + # + 065201 + 1off or 2on + #Underlinedsetingsindicate Defaults Defaults

Concord 4 specifications

The GE Concord 4 is a cutting-edge gas turbine designed to meet the growing energy demands of the modern world while maximizing efficiency and reducing environmental impact. It is part of GE's renowned family of gas turbines, which have consistently set benchmarks for performance and reliability across various industries.

One of the standout features of the Concord 4 is its efficiency. With a thermal efficiency rate exceeding 60%, it represents a significant advancement in power generation technology. This high efficiency is achieved through advanced aerodynamics in the turbine blades, optimized combustion processes, and state-of-the-art materials that withstand extreme temperatures and pressures. As a result, operators can expect lower fuel consumption and reduced emissions, ultimately contributing to a cleaner environment.

The Concord 4 utilizes advanced combustor technology that supports a wide range of fuels, including natural gas, biogas, and liquid fuels. This flexibility ensures that operators can adapt to changing market conditions and regulatory environments while maintaining operational efficiency. Furthermore, the turbine's low emissions profile is a critical advantage in today's environmentally conscious landscape, allowing plants to comply with stringent regulatory standards.

Another key characteristic of the GE Concord 4 is its modular design, which simplifies maintenance and reduces downtime. The turbine's key components can be accessed and serviced efficiently, ensuring that power plants can operate continuously without significant interruptions. This design philosophy extends to the overall lifecycle of the turbine, as longer intervals between maintenance contribute to lower operating costs.

The Concord 4 is equipped with advanced digital technologies that enhance performance monitoring and predictive maintenance capabilities. Smart sensors and analytics tools provide real-time data on the turbine’s performance, enabling operators to make informed decisions and optimize operations. This digital integration not only improves reliability but also helps in planning maintenance activities more effectively, reducing operational risks.

In summary, the GE Concord 4 gas turbine stands out for its exceptional efficiency, fuel flexibility, and innovative design. Enhanced by digital technologies, it delivers powerful performance while minimizing environmental impact. This combination of features makes it an ideal choice for energy producers looking to meet both economic and environmental goals in an increasingly competitive market. With the Concord 4, GE continues its legacy of engineering excellence in the field of power generation.