Protégé Eclipse LED Keypad Installation Manual PRT-KLES

Protégé Eclipse LED Keypad Installation Manual PRT-KLES

The specifications and descriptions of products and services contained in this manual were correct at the time of printing. Integrated Control Technology Limited reserves the right to change specifications or withdraw products without notice. No part of this document may be reproduced, photocopied, or transmitted in any form or by any means (electronic or mechanical), for any purpose, without the express written permission of Integrated Control Technology Limited. Designed and manufactured by Integrated Control Technology Limited. Protégé and the Protégé Logo are registered trademarks of Integrated Control Technology Limited. All other brand or product names are trademarks or registered trademarks of their respective holders. Copyright Integrated Control Technology Limited 2003-2010. All rights reserved.

Table of Contents 1.0 Welcome...2 2.0 Protégé System Products...3 2.1 Protégé System Management Suite... 3 2.2 Protégé Modules... 3 3.0 Mounting...4 4.0 Wiring and Configuration...5 4.1 Wire Loom... 5 4.2 Communication Connection... 6 4.3 Zone Input Wiring... 7 4.4 Fire Zone Input Wiring... 9 5.0 Programmable Output...10 6.0 Indicator Lights...11 6.1 Arm/Armed Indicator... 11 6.2 Disarmed Indicator... 12 6.3 Power/Trouble Indicator... 12 6.4 Message Indicator... 12 6.5 Memory Indicator... 12 6.6 Error Code Indicator... 12 6.7 Zone Display and Error Codes... 13 7.0 Audible Tones...14 7.1 Configuration Tone... 14 7.2 Rejection Tone... 14 8.0 Keypad Operation...15 8.1 Second Function... 15 9.0 Device Configuration...16 9.1 Entering Device Configuration Mode... 16 9.2 Address Selection (Menu 1)... 16 9.3 Device Options (Menu 2)... 17 9.4 Backlight Level (Menu 3)... 18 9.5 Firmware Version (Menu 4)... 19 9.6 Device Default (Menu 5)... 19 9.7 Exiting Device Configuration Mode... 19 10.0 PRT-KLES Software Setup...20 10.1 Auto Configuration... 20 11.0 Keypad Setup...22 11.1 Auto Configuration... 22 11.2 Options 1 Tab... 23 11.2.1 Display Options... 23 11.2.2 Access Options... 23

11.3 Options 2 Tab... 24 11.3.1 Offline Options... 24 11.3.2 General Options... 24 11.3.3 Input Options... 25 11.4 Access Level PGM... 25 12.0 Area Setup...26 12.1 Area PGMs... 26 12.2 Exit Delay PGM... 27 12.3 Multiple Keypads... 27 13.0 User Setup...28 13.1 Logging In... 28 13.2 Disarming... 28 13.3 Arming... 28 14.0 Quick Reference...29 14.1 Configuration Menu... 29 15.0 Mechanical Diagram...30 16.0 Technical Diagram...31 17.0 Technical Specifications...32 18.0 Ordering Information...33 19.0 Warranty...34

1.0 Welcome! Thank you for purchasing the Protégé Eclipse LED Keypad by Integrated Control Technology. The Protégé System is an advanced technology security system specifically designed to enhance the functionality of security, building automation and access control by providing a complete integrated solution with flexible local monitoring and offsite communication. The current features of the Protégé Eclipse LED Keypad include: 4x Onboard Zones 1x Open Collector PGM Output 1x Beeper 2x PGM Controlled LEDs Capacitive Touch Keypad Tamper Switch When receiving the Protégé Eclipse LED Keypad you should find the kit contains the items listed below. The kit type is clearly labelled on the packaging and will tell you what your kit contains. Please note that if you do not have the correct contents contact your distributor immediately. Protégé Eclipse LED Keypad Protégé Eclipse LED Keypad User Manual 10 Way Wiring Loom 8x 1k Resistors! Indicates a warning or advisory message relating to the section or location.? Indicates a hint or suggestion that relates to the section or location. [TEXT] Italics Bold text enclosed in brackets is used to show a section number or address of a programmable option or information on programming shortcut sequences. Italic text shows a reference to a example, section, page, manual or website. 2

2.0 Protégé System Products 2.1 Protégé System Management Suite The Protégé System Management Suite application is a Windows Vista (Business/Ultimate), Windows 7, XP Professional and Server 2003 compatible Integrated Access Control and Alarm Management System designed for any configuration from single site, single Protégé Integrated System Controller applications up to the global multi-national corporations using multiple site, multiple Protégé Integrated System Controller installations. Product Code PRT-SMGT-ENT PRT-SMGT-PRO PRT-SMGT-STN PRT-SMGT-1U Description Protégé System Management Suite Enterprise Edition Protégé System Management Suite Professional Edition Protégé System Management Suite Standard Edition Protégé System Management Suite Single Client License Edition 2.2 Protégé Modules The Protégé System can be expanded to accommodate large numbers of modules using the encrypted RS-485 Network. Modules that are currently available are listed below. Visit www.incontrol.co.nz for the latest Protégé Module and product information. Product Code PRT-CTRL-SE PRT-CTRL-LE PRT-TLCD PRT-ATH1 PRT-KLCD PRT-ZX16-PCB PRT-ZXS16-PCB PRT-PX16-PCB PRT-PXS16-PCB PRT-RDM2-PCB PRT-RDS2-PCB PRT-RDI2-PCB PRT-RDE2-PCB PRT-ADC4-PCB PRT-DAC4-PCB PRT-COMM PRT-PX16-DRI PRT-PSU-5I PRT-HIO Description Protégé SE Integrated System Controller Protégé LE Integrated System Controller Protégé Touchscreen Keypad Protégé Temperature and Humidity Sensor Protégé Alphanumeric LCD Keypad Protégé 16 Zone Input Expander Protégé Standard 16 Zone Input Expander Protégé 16 PGM Output Expander Protégé Standard 16 PGM Output Expander Protégé Mini 2 Reader Expander Protégé Standard 2 Reader Expander Protégé Intelligent 2 Reader Expander Protégé Ethernet 2 Reader Expander Protégé Analog Input Expander Protégé Analog Output Expander Protégé RS-232 Serial Communication Interface Protégé 16 Input Destination Reporting Interface Protégé Intelligent 5 Amp Power Supply Protégé Hi-O Network Door Control Module 3

3.0 Mounting The Protégé Eclipse LED Keypad in concert with the Protege Management Suite maintains complete control of your residence. It is intended to be mounted on a wall in a convenient place for daily use. Step 1 Select where to mount the Protégé Eclipse LED Keypad. Step 2 Remove the rear half of the Protégé Eclipse LED Keypad by depressing the retaining clip and rotating the case halves apart. Step 3 Hold the rear case half against the wall and mark the mounting holes and cable entry area. The cable entry area should align with a hole cut through the plaster wall-board. Cables are intended to be run inside the wall. Use appropriate screws (not supplied) to affix the case to the wall. Step 4 Run the wiring. Refer to later sections of this manual for the electrical connections. Leave about 20cm (8 ) of wire protruding through the center of the mounted half of the case. Step 5 Connect the wiring to the Protégé Eclipse LED Keypad electronics, then, to clip the case together, hook the top edges together then rotate and press the bottom in until you hear the clip snap into place. 4

4.0 Wiring and Configuration The wiring structure of the Protégé Eclipse LED Keypad uses an encrypted RS-485 communication interface. Connections should be made in a daisy chain configuration, avoiding star and stub connections. Encrypted RS-485 Module Network Encrypted RS-485 Module Network PRT-KLES - Protégé Eclipse LED Keypads Figure 1 - Eclipse LED Keypad Communication 4.1 Wire Loom The Protégé Eclipse LED Keypads are supplied with a wire loom attachment and are connected using a keyed 10 position snap lock connector. The 10 way wiring loom connection uses the following color coding. RED BLACK BLUE WHITE ORANGE (+12V) (0V) NA NB ZONE 1 (1+2) Network Connec ons PURPLE BROWN GREEN YELLOW GRAY ZONE 2 (3+4) PGM 1 ZONE 3 ZONE 4 0V Zone Inputs and PGM Outputs Figure 2 - Wiring Loom Color Coding and Function 5

4.2 Communication Connection Support for up to 250 keypads per Controller is provided. Connection to the system controller uses the network communication RS-485 interface. The Protégé Eclipse LED Keypad also requires power to be supplied to the N+ and N- terminals. + - +AUX- External +12V power supply. If more than one power supply is used ensure that the 0V (-) is connected to all other power supply devices powering modules on the same system controller. KEYPAD #1 RED BLACK BLUE WHITE +12V 0V NA NB N+ N- NA NB N+ N- NA NB System Controller network communica on terminals and module network. RED +12V KEYPAD #2 BLACK BLUE 0V NA WHITE NB RED +12V KEYPAD #250 BLACK BLUE WHITE 0V NA NB Figure 3 - Communication Connection! When using more than one power supply to supply multiple wiring runs of Protégé Eclipse LED Keypad connect the +12V terminals of only ONE power supply unit to the N+ and N- terminals of the controller. Each power supply unit should have the common (0V or -) connected together to ensure a common 0V. 6

4.3 Zone Input Wiring The Protégé Eclipse LED Keypad is capable of connecting to 4 zone inputs, each zone input can then be programmed to perform the required function in the system. The following diagrams show each of the zone wiring configuration settings that are possible. The zone configuration for the Protégé Eclipse LED Keypad is programmed through the Protégé System Management Suite software.! When using a tamper input on a device the tamper contacts must be normally closed and wired in series.! All resistors required to wire the zone configurations are provided with the Protégé Eclipse LED Keypad in the accessory bag. Zone 1 N.C. Zone Contact ORANGE Zone 1 (1+2) PURPLE Zone 2 (3+4) BLACK 0V Zone 2 N.C. Zone Contact Figure 4 - Zone Input (No Resistors) Zone 3 N.C. Zone Contact GREEN Zone 3 YELLOW Zone 4 GREY 0V Zone 4 N.C. Zone Contact Figure 5 - Zone Input (No Resistors) 7

Resistors should be located at the device a ached to the zone Zone 1 N.C. Zone Contact ORANGE Zone 1 (1+2) 1k 1k N.C Tamper PURPLE Zone 2 (3+4) 1k 1k N.C Tamper BLACK 0V Zone 2 N.C. Zone Contact Figure 6 - Zone Input (1k and 1k) Resistors should be located at the device a ached to the zone Zone 3 N.C. Zone Contact GREEN Zone 3 1k 1k N.C Tamper YELLOW Zone 4 1k 1k N.C Tamper GREY 0V Zone 4 N.C. Zone Contact Figure 7 - Zone Input (1k and 1k) Resistors should be located at the device a ached to the zone Zone 1 N.C. Zone Contact Zone 2 N.C. Zone Contact ORANGE Zone 1 (1+2) 1k 2k4 N.C Tamper PURPLE Zone 2 (3+4) 1k 2k4 N.C Tamper BLACK 0V Zone 3 N.C. Zone Contact Zone 4 N.C. Zone Contact Figure 8 - Zone Input (1k and 2k4)! If Zones 1 & 2 are configured for duplex mode then they will become Zones 1, 2,3 & 4 and will override the original Zones 3 & 4. 8

4.4 Fire Zone Input Wiring When wiring a zone to be a Fire Zone input the current programmed Zone Options will determine what resistors and configuration is required. Refer to the Zone Input Wiring section on page 7. Fire/Smoke Detec on Unit Fire Detec on Device Power POS+ NEG- N.O. Fire Zone Contact Figure 9 - Fire/Smoke Detection Input! Fire Zones that are installed in Duplex mode operation are not recommended. Fire Zones should always be connected using the EOL resistor method (1k and 1k) as this provides both open and short circuit monitoring.? When a Fire Zone is connected to a zone input that is used in the Duplex Zone configuration a Fire Zone fault will not be shown when the Fire Zone has a shorted condition as this is shown as all zones closed. A Fire Loop Trouble will be shown when the zone is tampered.? The Protégé Eclipse LED Keypad is designed to be used with non-latching smoke detectors. If latching smoke detectors are used then a separate PGM will be required to reset them. This can be triggered by the smoke reset function of the keypad. 9

5.0 Programmable Output The Protégé Eclipse LED Keypad contains a Programmable Output (PGM) that may be configured to activate during an alarm condition. This Output can be programmed through the Protégé System Management Suite software as described in section 12.0. PGM 1 BROWN 0V BLACK Figure 10 - Programmable Output +12V RED LED PGM 1 BROWN 1K5 OHM Figure 11 - LED Example! The PGM Output of the Protégé Eclipse LED Keypad is designed for a maximum current of 50mA. If using it to trigger an external siren then a relay must be used. 10

6.0 Indicator Lights The Protégé Eclipse LED Keypad features six status indicator lights and ten zone/error code indicator lights showing the condition of the Protégé Security System. Disarmed Arm/Armed Power/Trouble Alarm Memory Zone/Error Code Indicators Error Code Indicator Message Figure 12 - Indicator Lights 6.1 Arm/Armed Indicator State Off On On with keypad emitting a continuous tone Flashing regularly Description The system is disarmed. The system is armed and you may enter your User code to disarm. The system is armed and has entered the Entry Delay state. You must enter your User code to disarm. The system is in Exit delay. You have a limited time to leave the Area before it becomes armed. 11

6.2 Disarmed Indicator State Off On Description The system is Armed. The system is Disarmed. 6.3 Power/Trouble Indicator State Off On Flashing Pulsing Description Complete power failure. The system is powered and operating normally. There is a trouble condition present. A User is logged in and may Arm or Disarm the system. 6.4 Message Indicator State Off Flashing Description Normal operation. The concierge is requesting your attention. 6.5 Memory Indicator State 3 Off Flashing Description Normal operation. An alarm has been triggered and the Zones that caused the Alarm have been recorded in Alarm memory. 6.6 Error Code Indicator State Off On Flashing with all number LEDs blank Description Normal operation. The Area cannot be armed due to a specific reason. The Error code is displayed as one of the Number LEDs being lit. Refer to the section below for a list of error codes. The keypad has been locked due to too many incorrect login attempts. 12

6.7 Zone Display and Error Codes The Protégé LED Keypad features an easy to use numeric display for indicating Zones or other conditions which are stopping the system from arming. When attempting to arm the system, if a Zone is open then the keypad will emit a long rejection beep then display the open Zone as a flashing number on the keypad. For Zones higher than Zone 9, the 0 will also be lit and represents the tens digit. For example if Zone 15 is open then the 0 and the 5 will be flashing. If some other condition is stopping the system from arming then this is displayed as an Error Code. When displaying Error Codes the will be lit and a number corresponding to the Code will be turned on. A list of the error codes is shown in the following table. Code Description 1 Stay Arming is not allowed 2 Force Arming is not allowed 3 Instant Arming is not allowed 4 Too many Zones have been bypassed 5 Interlock active - Cannot arm because another Area is disarmed. 6 User count not zero - The system has recorded that someone has entered the Area and has not left. 13

7.0 Audible Tones When you press a key on the Protégé Eclipse LED Keypad a short audible tone is generated. Other tones are generated when certain functions are used, you should be familiar with the following audible tone outputs. 7.1 Confirmation Tone When an operation (e.g. Arming) is successfully entered on the keypad or when the system switches to a new status/mode, the keypad generates a series of four audible tones. 7.2 Rejection Tone When the system times out or when an operation is incorrectly entered on the keypad, it will generate a continuous audible tone for one second. 14

8.0 Keypad Operation The Protégé Eclipse LED Keypad features 15 keys. Four of these keys have a second function associated with them. Second Function Key Arm Key Unlock Key 1 Key (2nd Fn STAY Key) 4 Key (2nd Fn BYPASS Key) 3 Key (2nd Fn MEMORY Key) 2 Key (2nd Fn FORCE Key) Clear Key Enter Key Figure 13 - Keypad Operation Key ARM Function When Regular Arming is enabled, the Arm key is used to arm the system. FNC The Second Function key enables the second function of four of the number keys. Refer to the following section for details. MENU To unlock key can be configured to unlock an associated door. 0-9 NUMBER The number keys are used for entering User codes or configuring system settings. CLEAR The Clear key is used to cancel a partially typed User code, or partially entered system setting. ENTER Enter is used to confirm a entry when altering system settings. 8.1 Second Function Four of the number keys have a second function assigned. Step 1 To access the second function of these numbers press the SECOND FUNCTION key ( ). The four keys (1, 2, 3, and 4) will light up. Step 2 Now press the desired key to select STAY, FORCE, MEMORY or BYPASS. Pressing any other key will cancel second function mode. 15

9.0 Device Configuration 9.1 Entering Device Configuration Mode Before the Protégé Eclipse LED Keypad module will communicate it must be assigned an address and programmed with specific options as to how it will operate. This is achieved by accessing the Device Configuration menu.! The Device Configuration menu can only be accessed in the first two seconds when the device powers up. It is not able to be accessed when the system is operational. Step 1 To gain access to the Device Configuration menu, apply power to the device. Step 2 Within the first two seconds after the four beep tone is heard, press the CLEAR key ( ), followed by the ENTER key ( ). Note: If any key is held down while the device is powered up the key will not be registered. Step 3 The ARM LED and READY LED will then begin flashing to notify that Device Configuration mode has been entered. You can then press the key corresponding to the menu required (as detailed in the following sections). 9.2 Address Selection (Menu 1) The Address Selection sets the address of the Protégé Eclipse LED Keypad, this address must be a unique address on the system from 1 to 250. To View the Current Address Step 1 To view the current address enter the following key press sequence:, 1, The address will be displayed as a sequence of three Number LEDs lighting one after the other corresponding to each of the three digits of the address. 16

To Change the Current Address Step 1 To change the current address enter following key press sequence:, 1, [ADDRESS 1], [ADDRESS 2], [ADDRESS 3], The device will beep four times to indicate that it has changed the address.! All three digits must be entered when programming an address. This means that for addresses below 100, you must enter [0] then the 2 digits of the address. For addresses below 10, you must enter [0], [0] followed by the address digit. 9.3 Device Options (Menu 2) The Device Options set options that relate to the mode of operation of the Protégé Eclipse LED Keypad. Step 1 To enter the Device Options menu enter the following key press sequence:, 2 The currently assigned Device Options will be displayed using the Number LEDs. Step 2 To toggle options press the keys 1 to 8 and the corresponding key LED will be lit when that option is ENABLED. The available options are: Option 1 - Keypad beep Enabled, the Keypad will not make a sound when a key is pressed. Disabled, the Keypad will beep when keys are pressed. Option 2 - Zone Duplex Enabled, Zone inputs 1 & 2 can be wired in Duplex mode to create Zones 1,2,3 & 4. Physical Zone inputs 3 & 4 have no effect. Disabled, All physical Zones are treated as individual Zones. Option 3 - Beep on Communication Failure Enabled, the Keypad will emit a periodic beep if communication with the Protégé Integrated System Controller fails. Disabled, the Keypad will not emit a periodic beep if communication with the Protégé Integrated System Controller fails. 17

Option 4 - Clear key toggles keypad beep Enabled, pressing and holding the CLEAR key ( ) for two seconds will toggle Option 1 on and off. Disabled, pressing and holding the CLEAR key ( ) for two seconds will have no effect. Option 5 to 7 - Reserved Option 8 - Arm LED follows beeper Enabled, If the beeper is set to pulse on and off (as is the default setting for Exit Delay) then the ARM LED will flash at the same time. When the beeper is silent or continuously on the ARM LED will operate independently. Disabled, The ARM LED is controlled completely independently to the beeper. Step 3 Pressing the ENTER key ( ) will save the options. Pressing the MENU key ( ) will abort the operation without saving the options. 9.4 Backlight Level (Menu 3) The brightness of the LEDs when not active can be adjusted. To View the Current Backlight Setting Step 1 To view the current Backlight setting enter the following key press sequence:, 3, The current Backlight setting will be displayed as a sequence of three number LEDs lighting one after the other corresponding to each of the three digits of the setting. To Change the Current Backlight Setting Step 1 To change the current backlight setting enter the following key press sequence:, 3, [SETTING 1], [SETTING 2], [SETTING 3], The device will beep four times to indicate that it has changed the Backlight setting. Note that the highest value that can be assigned is 015.! All three digits must be entered when programming a Backlight setting. This means that for a setting below 100, you must enter [0] then the 2 digits of the setting. For settings below 10, you must enter [0], [0] followed by the setting digit. 18

9.5 Firmware Version (Menu 4) The Protégé Eclipse LED Keypad contains two microprocessors each with it s own firmware. Step 1 To view the version of firmware that is installed in the main microprocessor enter the following key press sequence:, 4, 1, The main microprocessor firmware version will be displayed as a sequence of four number LEDs lighting one after the other. The first two digits are the major version number and the second two digits are the minor version number. Step 2 To view the version of firmware that is installed in the keypad microprocessor enter the following key press sequence:, 4, 2, The keypad microprocessor firmware version will be displayed as a sequence of four number LEDs lighting one after the other. The first two digits are the major version number and the second two digits are the minor version number. 9.6 Device Default (Menu 5) Step 1 To Default all the Device Options enter the following key press sequence:, 5 The ARMED LED will now flash more rapidly. Step 2 Press the ENTER key ( ) to confirm or the MENU key ( ) to cancel. 9.7 Exiting Device Configuration Mode Step 1 Once Device Configuration is complete, press the CLEAR key ( ) to restart the keypad.! If you do not press any key for 45 seconds while in Device Configuration mode, the keypad will automatically restart. 19

10.0 PRT-KLES Software Setup The Protégé Eclipse LED Keypad connects to a Protégé System Controller and registers as a Keypad in exactly the same way that other Protégé Keypads do. Unlike the PRT-KLCD and PRT-KLED, the Protégé Eclipse LED Keypad (PRT-KLES) can only control a single Area. 10.1 Auto Configuration When the Protégé Eclipse LED Keypad registers on a System Controller for the first time, it configures various default settings. These settings are configured within the System Controllers internal database. To ensure that the Protégé System Management Suite Software does not overwrite the default settings they must be uploaded to the Software before any modifications can be made and downloaded. Failure to upload the default settings simply means that the Installer will need to configure them manually. If the keypad goes off-line then re-registers at the same address (for example, after a power cycle) then it will not alter any settings. It is only when it first registers that the default settings are applied. Every keypad has one associated Area. When the Protégé Eclipse LED Keypad registers at a particular address, the Area this LCD belongs to will be the Area that corresponds to it s address i.e. Keypad 5 will be assigned Area 5. Figure 14 - Auto Configuration That Area then has it s Entry Delay, Exit Delay, Armed and Disarmed PGMs assigned to the relevant PGMs on the respective keypad. 20

Figure 15 - Auto Configuration Note that the Exit Delay PGM by default is assigned to only the beeper of the keypad, not the beeper and ARM LED. When the Keypad is in Exit Delay it is desirable to flash the ARM LED as well as sound the beeper. To achieve this an option can be selected within the internal setup of the keypad (described in section 9.3) which causes the ARM LED to flash when the beeper is set to pulse on and off. Alternately a PGM group could be set up with both the beeper and the ARM LED in it. 21

11.0 Keypad Setup The Protégé Eclipse LED Keypad is conveniently auto-configured for the most common usage. To modify the set up use the Protégé System Management Suite software as described in this and the following sections. 11.1 Configuration Figure 16 - Configuration Poll time for the LCD Are this LCD belongs to Dual Code Timeout Lockout Keypad Time Door Number connected to Keypad Menu Group for this Keypad Area Group for this Keypad Defines the length of time between are you still connected? messages. If a module fails to respond to one of these messages it will be put offline. Unless there is a specific requirement, leave this as the default setting of 250. This is the Area which the keypad controls. The PRT-KLES can only control a single Area. By default the Area whose Index corresponds to the Keypads address is set, but any valid Area can be set here. Not relevant to the PRT-KLES. If the Lock Keypad on Excess attempts option is selected and a User enters three invalid user codes in a row, then this setting defines the length of time that the keypad will be rendered inactive. If either the Function Key Unlocks Door When Logged In or Function Key Unlocks Door When Logged Out option is selected, then this setting defines the Door that will be unlocked. Leave blank. If set, then the Users menu group and the Keypad menu group must have at least one menu in common for the keypad to function (even though PRT-KLES doesn t use menus). Leave blank. If set, then the Area group must contain the keypads primary area. Smoke reset PGM When the CLEAR ( ) key and ENTER ( ) key are held down together for two seconds or more the keypad will send a Smoke Reset message to the System Controller. This setting defines which PGM to activate to reset the Smoke Alarms. Time User is Logged In Defined the length of time before a User will be automatically logged out if there is no Keypad activity. 22

11.2 Options 1 Tab Figure 17 - Options 1 Tab 11.2.1 Display Options Display Primary Area Status Display Scrollable Area Group Must be set for the KLES to operate as expected. Must be left blank for the PRT-KLES to operate correctly. All other options are not relevant to the PRT-KLES. 11.2.2 Access Options Function Key Unlocks Door When Logged In (REN) Function Key Unlocks Door when Logged Out (REX) Auto Logout After User Arming Lock keypad on excess attempts When selected, the Unlock key ( ) will unlock the Door which was specified under the Configuration tab when a User is logged in. When set, the Unlock key ( ) will unlock the Door which was specified under the Configuration tab when no User is logged in. If set then the User will be automatically logged out after they have armed the Area assigned to this keypad. It is recommended that this option be selected for the Protégé Eclipse LED Keypad. If set, will lock the keypad after 3 incorrect attempts at a PIN. The lock out time is specified in the Configuration tab. When locked the keypad will be blank with the Clear key ( ) flashing. All other options are not relevant to the PRT-KLES. 23

11.3 Options 2 Tab Figure 18 - Options 2 Tab 11.3.1 Offline Options Keypad login requires card When enabled, the keypad will require access card verification along with a user code before the user login can succeed. All other options are not relevant to the PRT-KLES. 11.3.2 General Options Disable the LCD Keypad Beeper Duplex Zones (4 keypad zones) Beep on Communication Failure Clear key can disable Key press beeper Virtual Module If selected, then the keypad will not beep when keys are pressed. The beeper will still sound during Entry and Exit delay and if an alarm is triggered. Not necessary with the Protégé Eclipse LED Keypad as it has four separate Zone inputs. If selected then Zones 1 & 2 can be duplexed to form Zones 1-4. When set, the keypad will make a beep-beep sound every 90 seconds if it has lost communications with the System Controller. When enabled, pressing and holding the key will toggle the key press sound on and off. Defines the keypad as Virtual (for testing purposes). Do not select if a physical Protégé Eclipse LED Keypad exists. 24

11.3.3 Input Options Activate Access Level PGM Only On Valid Access Always Activate Access Level PGM If, under the Access Level set up for the User that is logging in, an Activation PGM has been set, then this PGM will be triggered when that User logs in. See the note Access Level PGM below. 11.4 Access Level PGM The Protégé Eclipse LED Keypad does not use Menus so typically the Menu Group setting would be left blank, and any User with access to the Keypads Area is able to log into the keypad. It is however possible to configure the Keypad with a defined Menu Group in order to reject Users who are not included in that Group. If this is done and the option Always Activate Access Level PGM is selected, then a User with a valid login code but without access to any of the Menus in the Keypads Menu Group will be blocked from logging in to the keypad but will activate the specified PGM. This feature may be used for a specific user (e.g. a Courier can unlock a locker by entering a code) or as a general function (e.g. entering code 1 turns the lights on). 25 6

12.0 Area Setup The Protégé Eclipse LED Keypad is designed to Arm and Disarm a single Area. It is not intended to be used to control Area Groups or for different Users to access different Areas. The Area assigned to the Keypad can be any valid Area, however by default the Area whose Index corresponds to the Keypads Address is assigned (e.g. Area #5 is assigned to Keypad #5). Only the Area set-up that is relevant to the Protégé Eclipse LED Keypad is shown here. For further information on setting up an Area please refer to the Protégé Integrated System Controller Reference Manual. 12.1 Area PGMs In order for the Arm LED, the Ready LED and the beeper to operate as expected they must be set up under the Area PGMs properties. These are set by default, but if the default Area is not used with the keypad then they must be set up manually. Figure 19 - Area PGMs 26

Bell PGM Output Exit Delay PGM Output Entry Delay PGM Output The PGM which activates the siren when an alarm goes off. See the note Exit Delay PGM below. The PGM which is activated during the Entry Delay. Typically a continuous tone from the Keypads beeper. Disarmed PGM Output The PGM which is activated when the Area is Disarmed. Typically KPxxx Green LED. Armed PGM Output The PGM which is activated when the Area is Armed. Typically KPxxx Red LED.... Other settings as desired. Refer to the Protégé Integrated System Controller Reference Manual for a full description of Area setup. 12.2 Exit Delay PGM The Exit Delay PGM (as with the other PGMs) can be set to any PGM or PGM Group on the system, however it is desirable for it to be configured so that the Keypad emits a pulsed beep-beep sound and the Arm LED flashes at the same rate during Exit Delay. To avoid the requirement of setting up a PGM group, the Keypad has a special feature which links the pulsing beeper to the Arm LED. When the Exit Delay PGM is set to pulse the beeper, the Arm LED will automatically flash as well (refer to section 9.3 to disable this feature if not required). When the beeper is not set to pulse, the beeper PGM and the Arm LED PGM operate independently. Note that the On time and Off time are programmed in multiples of 100 milliseconds. 12.3 Multiple Keypads If more that one Protégé Eclipse LED Keypad is used to control a single Area then the Installer will need to set up PGM Groups which contain the relevant LEDs & beepers for the Keypads, and assign these Groups to the Area PGM settings. 27

13.0 User Setup No special User setup is required for a User to access a Protégé Eclipse LED Keypad. For details of the normal User setup procedure please refer to the Protégé Integrated System Controller Reference Manual. It is useful to note that although the Protégé Eclipse LED Keypad does not have the menu structure of the other Protégé Keypads, it still uses the same programming and is equivalent to a keypad which only allows access to menu 1. Arm/Disarm. 13.1 Logging In The User can type in their variable length code then press Enter to log in (as per the PRT-KLCD). When logged in the Power LED will pulsate (fade in and out) to indicate that the User is logged in. The User can press the CLEAR key ( ) to log out, or will be automatically logged out after the login time defined in their set up has expired. Selecting the User setting Go directly to the Menu on login (No Area Control) under the User properties General Options has no effect when logging into a Protégé Eclipse LED Keypad. In effect, the User is always directed to Area control. If a Users setup does not allow access to the Arm/Disarm menu then they will be logged out immediately after they log in, and the Area state will not change. 13.2 Disarming When the Area is armed and the User is logged out, the User simply types in their PIN to disarm the Area. The Turn Off the Primary Area If User Has Access On Login option in the User properties General Options is effectively always set for the Protégé Eclipse LED Keypad. 13.3 Arming By default the Auto Logout After User Arming setting under the Keypad properties Option 1 is selected. As there is only one Area to arm this gives the most user friendly interface for the Keypad, although it can be deselected if desired. 28

14.0 Quick Reference 14.1 Configuration Menu To enter the Configuration menu press the CLEAR key ( ), then press the ENTER key ( ) within two seconds after power up. Key Sequence Description,1, View the current address,1, [A1], [A2], [A3], Set the current address,2, 1, Toggle Keypad Beep Option 1 (Default: Enabled),2, 2, Toggle Zone Duplex Option 2 (Default: Disabled),2, 3, Toggle Beep on Communication Failure Option 3 (Default: Enabled),2, 4, Toggle Clear Key Toggles Keypad Beep Option 4 (Default: Enabled),2, 8, Toggle Arm LED Follows Beeper Option 8 (Default: Enabled),3, View the current backlight setting,3, [B1], [B2], [B3], Set the current backlight setting,4, 1, View the main processor firmware version,4, 2, View the keypad processor firmware version,5, Default the system 29

15.0 Mechanical Diagram The mechanical diagram shown below outlines the essential details needed to help ensure the correct installation of the Protégé Eclipse LED Keypad. Disarmed Arm/Armed Power/Trouble Alarm Memory Zone/Error Code Indicators Error Code Indicator Message Mounting Holes Tamper Switch Wiring Loom Socket Case Disassembly Tab Figure 20 - Mechanical Diagram 30

16.0 Technical Diagram The technical diagram shown below outlines the essential details needed to help ensure the correct installation of the Protégé Eclipse LED Keypad. 54mm 4.5mm diameter 40mm 34.5mm 16.5mm 10mm 97mm 48mm PRT-KLES 82.5mm 100.5mm 107mm 117mm 10.5mm 17.5mm 37.5mm 57.5mm 64.5mm 75mm Figure 21 - Technical Diagram 31

17.0 Technical Specifications The following technical specifications are important and vital to the correct operation of the Protégé Eclipse LED Keypad. Failure to adhere to the technical specifications will result in any warranty or guarantee that was provided becoming NULL AND VOID. Integrated Control Technology continually strives to increase the performance of its products and as a result the specifications may change without notice. It is recommended that you always consult www.incontrol.co.nz for the latest documentation and product information. Operating Voltage Operating Current User Interface Display/Keypad Zone Inputs (System Zones) Zone Inputs (Enclosure Tamper) PGM Outputs 11.5VDC to 24VDC 50mA (80mA max) Combined 15 key capacitive touch keypad with 10x zone status LEDs and 6x system status LEDs. 4 using standard or duplexed mode. PCB mounted external micro switch assembly. 1x open collector output for general functions (negative output, 50mA max). Display and Audible Functions Armed, ready and beeper Operating Temperature 5 to 55 C (41 to 131 F) Storage Temperature -10 to 85 C (14 to 185 F) Humidity 0% to 85% (Non condensing) Dimensions (H x W x D) 118 x 75 x 19mm (4.65 x 2.95 x 0.9 ) Weight 148g (5.23oz) Specifications are subject to change without notice, please visit www.incontrol.co.nz for updated information. 32

18.0 Ordering Information Please use the following product codes when placing an order for the Protégé Eclipse LED Keypad. PRT-KLES Manuals and literature are available at the Integrated Control Technology website in the documentation section. If you require manuals on CD-ROM please request a Resource CD-ROM from the website. 33

19.0 Warranty The Seller warrants its products to be free from defects in materials and workmanship under normal use for a period of one year. Except as specifically stated herein, all express or implied warranties whatsoever, statutory or otherwise, including without limitation, any implied warranty of merchantability and fitness for a particular purpose, are expressly excluded. The Seller does not install or connect the products and because the products may be used in conjunction with products not manufactured by the Seller, the Seller cannot guarantee the performance of the security system. Seller s obligation and liability under this warranty is expressly limited to repairing or replacing, at Seller s option, any product not meeting the specifications. In no event shall the Seller be liable to the buyer or any other person for any loss or damages whether direct or indirect or consequential or incidental, including without limitation, any damages for lost profits, stolen goods, or claims by any other party caused by defective goods or otherwise arising from the improper, incorrect or otherwise faulty installation or use of the merchandise sold. Protégé and the Protégé Logo are registered trademarks of Integrated Control Technology Limited. 34

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Integrated Control Technology Limited 11 Canaveral Drive, Albany, North Shore City 0632, Auckland, New Zealand P.O. Box 302-340, North Harbour, Auckland, New Zealand Phone: +64 (9) 476 7124 Fax: +64 (9) 476 7128 Email: support@incontrol.co.nz www.incontrol.co.nz Designers and manufacturers of integrated electronic access control, security and building automation products. Designed and manufactured by Integrated Control Technology Limited. Copyright Integrated Control Technology Limited 2003-2010. All rights reserved. 227-4190-021