Legrand LIA8/24/48 Lighting Integrator Automation Level Panel Installation Instruction

Legrand LIA8/24/48 Lighting Integrator Automation Level Panel Installation Instruction

Wattstopper

®

Lighting Integrator Automation Level No: 25270 – 11/16 rev. 1 Installation Instructions • Instructions d’Installation • Instrucciones de Instalación

Catalog Numbers • Les Numéros de Catalogue • Números de Catálogo: LIA8/LIA24/LIA48

Country of Origin: Made in China • Pays d’origine: Fabriqué en Chine • País de origen: Hecho en China

SPECIFICATIONS

Supply Voltages ....................................................................per selected power supply P115/277 Power Supply ................................................................ 120 or 277VAC P240 Power Supply .................................................................................. 240VAC P115/347 Power Supply ................................................................ 120 or 347VAC Accessory Power Output ....................................................800mA@24VDC/VAC/ACR Relay Load Ratings ...........................................@120VAC @277VAC @347VAC Ballast N/A 30 Amp 20 Amp Tungsten 20 Amp N/A N/A Resistive N/A 30 Amp 20 Amp Motor 1 1/2 HP N/A N/A Duplex Receptacle 20 Amp N/A N/A Environmental Maximum Ambient Temperature ................................................................... 60°C Maximum Humidity ............................................ 5% to 90% RH, non-condensing UL & CUL Listed

INTRODUCTION

The Lighting Integrator (LIA) is a relay-based automatic lighting control panel. The LIA controls lighting through automatic scenarios, time schedules, photocells, occupancy sensors, and occupant-controlled switches. A network of LIA panels can also be controlled from a clock, or from a building management system, or by a central computer.

As a minimum, each panel will require an interior assembly and an enclosure. These components may have shipped separately.

Depending on the functional capabilities ordered, the interior will include the LW Automation card, and may also include the Group Switching card, contactors, and automation modules such as a clock or BMS interface module.

The panel interior assembly provides isolation between the line- and low-voltage sections of the panel, as well as the mounting frame for relays, the power supply and the circuit board assemblies. The separate interior assembly protects the low voltage wiring and components while allowing easy user access to a time clock or other modules such as a BMS interface, or Photocontrol module. Inside the low voltage area are LEDs for visual indication of relay status, plus manual push-buttons to turn individual relays on or off, and to perform smartwiring.

Smartwiring is a Wattstopper innovation that enables easy push-button relay grouping for convenient group control. Smartwiring offers flexible grouping of lighting loads for control of individual relays, groups of relays, or channels.

After installation and setup, a secure outer cover, when closed, offers protection from the high voltage area.

INTERIORS

On the following page is a photograph of a fully assembled 24 relay Lighting Integrator

ENCLOSURES Figure 1: Panel interiors and enclosures

panel that shows installed components for reference. The illustrations show component locations for 8 relay and 48 relay LIA panels. Note that not all of the components shown may be fitted in every Lighting Integrator panel depending on the application.

Important Installation Notices

• All power must be turned off prior to wiring, installation or service.

• More than one disconnect may be required to de-energize power to the LIA.

• External circuit protection to the LIA is required (e.g., circuit breaker).

• Installation shall be in accordance with all applicable regulations, wiring practices, and codes.

• Care should be taken to separate high voltage power from low voltage (Class 2) control wiring.

• Do not energize wiring until the unit is fully assembled and connected circuits have been tested and found to be free of electrical shorts.

COMPONENT LOCATIONS

The illustration below shows a Lighting Integrator panel installed inside an enclosure with the cover removed.

Note the location of components when the panel is fully assembled.

RELAY NUMBER 1 2 Relays Mechanical Relay Override Switches - Use screwdriver tip to activate

LIA24

Interior assembly Low voltage area for switch and sensor connections Blue Flashing diagnostic LEDs in several locations Group Switching Card Diagnostic LEDs High voltage area AC power transformer assembly

Relays

Low voltage power supply for 24VAC/ VDC accessories (occupancy sensors, photocells, etc.) Optional DIN rail and contactors (capacity: 6 contactors) Enclosure mounting holes (4x)

LIA8

Relays Relay Driver cards AC power transformer assembly Low voltage power supply Group Switching Card LW Automation Card Relays Relay Driver cards AC power transformer assembly Low voltage power supply

Figure 2: Component locations inside the LIA panel enclosure 2 LIA48

High Voltage Area Relay Driver cards (each card supports 4 relays) LW Automation Card Accessory module DIN rail mounting plate Group Switching Card #1 LW Automation Card Group Switching Card #2

BASIC INSTALLATION AND SETUP

WARNING: IMPROPER INSTALLATION OR CONNECTION OF THIS PANEL MAY RESULT IN SERIOUS PERSONAL INJURY AND/ OR DAMAGE TO THE PANEL AND OTHER DEVICES.

A. Mount the LIA Enclosure

1. Attach the enclosure to the wall.

The enclosure should be level, plumb, and rigidly installed. Refer to the instructions provided with the enclosure for flush or surface mounting procedures.

2. Determine the appropriate wire entry locations.

Make sure that all line and low voltage wiring entry locations are confined to the appropriate compartments as shown in the figure below.

Do not run low voltage wiring with line voltage or power wiring.

3. Drill or knock out openings to bring wiring conduit into the enclosure.

WARNING: OBSERVE LINE AND LOW VOLTAGE SEPARATION WHEN ROUTING CONDUIT AND WIRE.

B. Install the LIA Interior

Do not install the interior assembly until after the LIA enclosure has been securely mounted to the wall and the conduit/wiring holes have been drilled or knocked out.

NOTE:

If this enclosure includes the optional DMP-1 Din Rail Mounting Plate, place DMP Plate over lower studs before installing the interior.

1. Place the interior in the enclosure and align the interior with the studs provided in the enclosure.

2. Attach the interior assembly to the back of the enclosure using the four sets of nuts and washers provided.

3. After all wiring is completed, attach the cover according to the instructions provided with the enclosure.

4.82" LENC8S LENC8F 11.68" 4.94" LENC24S LENC24F 14" 4.94" 4.94" LENC48S LENC48F 14" 4.94" 15.08" Low voltage section 13.58" Line voltage sectio 14.5" 23.34" Low voltage section 26" 35.8" Low voltage section 40.5" 15.08" 26" 11.3” LENC8-24S LENC8-24F 12.2" 11.68" Low voltage section 8.08" 4.94" 16" LENC24-48S LENC24-48F 14" 4.94" 23.34" Low voltage section 40.5" 8.08" 16" 16" 21.26" 16"

Figure 3: Enclosure dimensions 3

C. Connect the AC Power Supply to Power Source

The LIA has several power supply options that allow it to operate with 115VAC, 240VAC, 277VAC or 347VAC line voltage. These power supplies function with either 50 or 60 Hz. They have internal overcurrent protection. The transformer turns off automatically when overloaded, and resets when the fault is removed. The power supply contains MOVs to protect all downstream electronics from transient powerline voltage surges.

WARNING: VERIFY WHETHER YOUR SUPPLY LINE VOLTAGE IS 115VAC, 240VAC, 277VAC, OR 347VAC AND THAT THE POWER SUPPLY IN THIS PANEL MATCHES THAT LINE VOLTAGE. WIRING TO THE INCORRECT VOLTAGE TERMINAL MAY RESULT IN DAMAGE TO THE POWER SUPPLY AND/OR THE PANEL, AND WILL VOID THE PRODUCT WARRANTY.

1. Read and remove the Wire to

ONLY ONE CAUTION

label covering the terminals.

2. Note that there are different terminals for supply voltage input. of these terminals. Match your input voltage to the correct terminal.

115VAC Supply 277VAC Supply 115VAC Supply 347VAC Supply 240VAC Supply

Figure 4: P115/277 wiring Figure 5: P115/347 wiring Figure 6: P240 wiring

D. Connect Load and Line Voltage to Relays

Before making any connections to the relays, make sure that none of the load circuits are shorted. Route conductors from the circuit breaker through each relay’s SPST output terminals, and from there to the loads. Confirm that each circuit is wired to the relay specified in the electrical construction drawings and relay schedule forms provided with the panel.

Figure 7: Relay Schedule Form Power Up and Test Relays

1. Apply power to the LIA power supply ONLY. Do NOT apply power to the controlled circuit loads.

2. As shown in the illustration, locate the relay control buttons on the Relay Driver card next to each relay’s 5-wire plug-in termination.

3. Press the relay control button to toggle it ON/OFF. The relay clicks, the relay’s mechanical override switch moves, and the LED status indicator changes.

4. Confirm the operation by measuring the continuity at the line voltage terminations of each relay.

5. Apply power to the relays.

6. Being careful not to touch any line voltage wiring, toggle each relay ON/OFF again and confirm that each relay controls the appropriate load.

4 TO RELAY Figure 8: Relay Control Button LED

E. Low Voltage (Class 2) Wiring

The low voltage (Class 2) section of the panel provides terminal connections for a variety of optional switches and other devices. See Figure 3 for location of the low voltage section. All wire entering this section must be Class 2 only. Do not allow line voltage conductors to pass through the Class 2 section for any reason.

An individual relay can be controlled from a switch or sensor by hardwiring it to the corresponding connector on the Relay Driver card (see Figure 2 for locations). Alternatively, several relays can be grouped together so that they can be controlled from a single switch or sensor that is hardwired to the Group Switching card (see

Optional Group Switching Card

and

Smartwire Procedure

Switching card (refer to Figure 10). A 48-relay panel can support two Group Switching cards, for up to 16 group channels.

section). A group of relays is assigned to a group channel via smartwiring. Up to 8 groups labeled A through H are available with a single Group

Hardwire Low Voltage Switch Wiring

Two-wire momentary

Operates as push ON/push OFF in an alternate action. This type of control is recommended for applications where the user can clearly see the lighting being controlled. This switch cannot be hardwired to multiple inputs. If multiple relays need to be controlled by this type of switch, use a Group Switch card input.

BLACK B -to- W JUMPER RED 2-WIRE MOMENTARY PUSH BUTTON R B Y W

Two-wire maintained

Operates as a standard ON/OFF toggle switch. This type of control should not be used where the lighting is being controlled by scheduled or other automatic means. If the lighting is turned off by automatic means, the switch must be moved through the OFF position before it will once again synchronize with the status of the lighting.

BLACK R -to- B JUMPER WHITE 2-WIRE MAINTAINED ISOLATED CONTACT R B Y W

Three-wire momentary

Operates in a dual momentary action mode with an independent contact for the ON and OFF signals. This operation can be provided by a SPDT momentary toggle switch or a variety of Wattstopper low voltage switch options. This is the most common type of direct wired switch option used with LIA relay panels.

BLACK WHITE RED STANDARD 3-WIRE MOMENTARY R B Y W

Occupancy Sensor

LIA switch inputs are designed to automatically sense the connection of a Wattstopper occupancy sensor. The operation of the input configures for proper operation as soon as the sensor activates the input for the first time. Operation of the relay is determined by motion detection in the space and the scheduled occupancy state of the relay or channel it is controlling. During scheduled occupied periods, the sensor turns lighting ON when motion is detected but does not turn the lighting OFF. During unoccupied periods, the sensor turns the lighting ON and OFF based only on motion being detected.

COMMON CONTROL 24VDC BLACK BLUE RED OCCUPANCY SENSOR Red Blue Black R B Y W

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Manual ON/OFF with Occupancy Sensor

Allows a two-wire momentary switch to have manual ON/OFF control of the lighting in conjunction with occupancy sensor control. Unlike the occupancy sensor, this switch turns the lighting ON or OFF regardless of the status of the sensor or scheduled occupancy status relay or channel it is controlling.

WHITE BLACK White Black COMMON CONTROL 24VDC BLACK BLUE RED COMBINATION OF 2-WIRE MOMENTARY PUSH BUTTON WITH OCCUPANCY SENSOR Red Black Blue R B Y W

Switches with Pilot Lights

The “Y” (yellow) terminal on the Switch Input Terminal Blocks supplies 24V rectified for use with pilot light switches.

To power a pilot light from the “Y” (yellow) terminal of a Group Switching (GS) card, install a jumper wire from 24VR to Yelcom on the GS card.

Voltage is present when the associated relay is ON.

Contact the Factory for configuring the panel for use with switch pilots requiring other voltages.

F. Optional group switching and smartwire procedure

The Group Switching card (Figure 10) provides eight channels (A-H), which may be smartwired to relays within the panel. Channels are used to group relays for common control.

When an LIA panel includes an automation module (HCLK8SS Network Clock or HBMS8SS BMS Interface Module), turn to the installation instructions for that automation module and complete the documentation before smartwiring any relay to channels.

However, if automation is to be provided by an interface to another system, or by using manual switches only, the channels may be used simply for grouping relays. See instructions 1, 2, and 3.

Step 1. GROUP SWITCHING CARD Step 2. RELAY DRIVER CARD Step 3. GROUP SWITCHING CARD TO SWITCH TO RELAY (2) LED starts flashing LED TO SWITCH (2) LED starts flashing (1) Press and Hold Group Channel Push-button (1) Press Relay Control Button on each relay to be controlled (2) LED stops flashing (1) Press Group Channel Push-button again Figure 9: Manual relay channel setup for the Group Switching Card

1. On the Group Switching card, press and hold the Group channel push button for several seconds.

2. Release the button when the red channel LED and the LEDs for relays currently controlled by that input begin to flash.

3. On each Relay card, select the relays to be controlled.

If a relay was previously “smartwired” to the channel input selected, the LED will be flashing. Otherwise the LED will be off.

4. Press the associated Relay Control Button to add/delete that relay to/from the group.

The LED for each relay included in the group will be flashing.

5. On the Group Switching card, press the Group Channel Push-button again for several seconds.

6. Release the button when all LEDs stop flashing.

The input switch now controls the relays selected.

6

Power connectors (power to accessories or sensors) Pattern LED Pattern push-button Group channel connectors (8x) (connect to switch or sensor contacts, or analog photocells) Group channel LEDs (8x) Group channel push-buttons (8x) A B C D E F G H

GROUP CHANNEL LEDs: Green = assigned relays in mixed state (some OFF, some ON) Red = all assigned relays are ON Off = all assigned relays are OFF Figure 10: Group Switching card connections and components

Test Smartwired Relay Group Channels

1. Press the Group channel Push-button ON/OFF/ON to toggle the group ON/OFF/ON.

The Group channel LED tracks the last action. With all relays in the group ON, the Group channel LED is Red.

2. Turn OFF each relay in the group using the individual Relay Control Buttons.

The Group channel LED turns Green to indicate that the relays assigned to that channel are in mixed states – some are OFF, some are ON.

When the last relay is turned OFF, the Group Channel LED should also go OFF.

ADVANCED FEATURES INSTALLATION AND SETUP

Automation Level

with the module(s).

panels use optional modules to provide automated lighting functions. Along with the Automation (LW) Card, these systems may include either the HCLK8SS Network Clock, HBMS8SS BMS Interface, or the AA-BASE Automation Appliance, as well as the HPSP8SS Photocontrol module. Install any optional automation modules in accordance with the installation instructions supplied

A. Dataline Switch Support — Local Dataline Installation

The Local Dataline is a LonWorks ® based digital communications bus that allows the LIA panel to work with HDLS series digital programmable wall switches. The local dataline consists of two unshielded wire pairs (four wires) with the white/blue pair supplying power to the dataline switches and the red/black pair for communications.

The local dataline can be installed using free topology routing as long as the total length of wire does not exceed 1500 feet.

If the installation requires more than 1500 feet of Local dataline wire, run it in a strict daisy chain (linear) bus topology with no T-taps, Ys or star configurations. A jumper on the LW card needs to be adjusted and the last switch on the local dataline must be terminated. See

LW Card Local Dataline Jumper Adjustment

.

Connect the local dataline to the panel at the terminal block labeled “LOCAL DATALINE” in the upper right corner of the Automation Card (see Figure 11). The terminal block can be removed from the circuit board to facilitate making the connections. Be sure to observe the color code when connecting the dataline wire.

LW Card Local Dataline Jumper Adjustment

Remove the terminal block from the LOCAL DATALINE position to access the J3 jumper.

IN RED BLACK WHITE BLUE LOCAL DATALINE J5 J3= Local Dataline topololgy FREE (factory setting shown); under 1500’ BUS: over 1500’ and up to 4000’ maximum.

(last device on Local Dataline must also have BUS terminator installed) RED BLACK OUT RED BLACK GLOBAL DATALINE

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Dataline Switches

Install the HDLS series digital dataline switches in accordance with the installation instructions provided with the switches.

With system configuration assistance from the Wattstopper project management team, a maximum of 63 switches can be connected to a single local dataline. Call Wattstopper project management at 800-852-2778 whenever you need to install more than 15 switches on the local dataline.

CAUTION USE ONLY WATTSTOPPER MODEL #HDLW4 OR HDLW4P (PLENUM RATED) NETWORK WIRE OR AN EXACT EQUIVALENT. THE USE OF NON-APPROVED WIRE TYPE SHALL VOID THE WARRANTY.

Last Switch Automation Card Automation Card FTT-10A RED BLACK WHITE BLUE LOCAL DATALINE LW/LC FTT-10A IN RED BLACK OUT RED BLACK GLOBAL DATALINE HDLW4 Local Dataline, 1500’ maximum for Free Topology FTT-10A LW/LC FTT-10A RED BLACK WHITE BLUE LOCAL DATALINE IN RED BLACK OUT RED BLACK GLOBAL DATALINE HDLW4 Local Dataline, Linear Bus Topology required for over 1500’ (up to 4000’ maximum)

Figure 11: HDLW4 Local Dataline configurations

B. Automation Level Panel and Global Dataline Installation

If the installation will include more than one LIA panel, it will be necessary to install a Global Dataline to allow communications between the panels and the modules.

The Global Dataline is a LonWorks blue pair is not used.

® based digital communications bus that allows a group of LIA panels to be interconnected to provide a unified control strategy for an entire building. The global dataline consists of an unshielded wire pair (two wires) with a red/black color code. In most cases, the global dataline uses the red/black pair of wires in the Wattstopper #HDLW4 four conductor cable. The white/ The global dataline can be installed using free topology routing as long as the total length of wire does not exceed 1500 feet.

If the installation requires more than 1500 feet of Local dataline wire, run it in a strict daisy chain (linear) bus topology with no T-taps, Ys or star configurations. A jumper on the LW card needs to be adjusted and the last switch on the local dataline must be terminated. See LW Card Global Dataline Jumper Adjustment.

Connect the Global dataline to the panel at the terminal block labeled “GLOBAL DATALINE” in the lower right corner of the Automation Card (see Figure 12.). The terminal block can be removed from the circuit board to facilitate making the connections. Be sure to observe the color code when connecting the dataline wire. Note that separate “IN” out “OUT” terminals are provided as a convenience in making the wire connections. These are connected together internally.

LW Card Global Dataline Jumper Adjustment

Remove the terminal block from the GLOBAL DATALINE position to access the J4 jumper.

RED BLACK WHITE BLUE LOCAL DATALINE J5 J5= Panel 01 Global Dataline Termination for BUS topology: J5 jumper removed from panel 01 IN RED BLACK OUT RED BLACK GLOBAL DATALINE J4= Global Dataline topololgy Jumper installed in the BUS position because this is the FIRST panel on the Global Dataline.

8

RED BLACK WHITE BLUE LOCAL DATALINE J5 IN RED BLACK OUT RED BLACK GLOBAL DATALINE J5= Jumper removed so that it can be installed in BUS position on J4.

(J5 has no meaning except on panel 01; this is panel 05.) J4= Global Dataline topololgy Jumper installed in the BUS position because this is the LAST panel on the Global Dataline. Test the dataline after all panels are installed.

To test for continuity:

1. Remove the red and black dataline wires at the first panel and temporarily wire nut them together.

2. Go to the last panel in the series and measure the resistance between the red and black wires. It should be less than 23 ohms.

3. Return to the first panel and restore the red and black wires to their associated terminals.

LIA #03 LIA #02 LIA #03 LIA #02 LIA #04 LIA #05 LIA #01 Automation Card FTT-10A LW/LC FTT-10A LIA #04 RED BLACK WHITE BLUE LOCAL DATALINE IN RED BLACK OUT RED BLACK GLOBAL DATALINE LIA #05 HDLW4 Global Dataline 1500’ maximum for Free Topology First Panel LIA #01 Automation Card FTT-10A LW/LC FTT-10A RED BLACK WHITE BLUE LOCAL DATALINE HDLW4 Global Dataline Linear Bus Topology required for over 1500’ (up to 4000’ maximum) IN RED BLACK OUT RED BLACK GLOBAL DATALINE

Figure 12: HDLW4 Global Dataline To test for a short circuit to ground:

1. Test from the red and black terminals in turn to the metal chassis of the panel enclosure.

The test should show an open circuit.

2. If the test shows a short circuit, trace the wiring back, segment by segment, until the short is located.

Panel Address

Each panel on the global dataline must have a unique address for communications. The two rotary switches on the Automation Card labeled “PANEL NUMBER” are used for this purpose. Starting with #01, set each panel to a unique address number. See Figure 13.

Service LED and Push-button

The automation card has a push button and an LED indicator provided for troubleshooting and service. Note that under normal operation, the LED should occasionally blink green. A solid red LED indicates that there is a fault in the panel that requires service.

If the LED is red, disconnect power from the panel AC power supply for ten seconds. Restore power to the panel. If the LED does not return to normal in ten seconds, contact technical support.

The push button on the automation card is used for a number of service and test related functions, as well as providing the LonWorks “service pin” function. Setup mode features are available in automation card firmware version 17 or later. The button can be used in conjunction with the rotary switches to put the panel into pre-defined modes.

To enter the setup mode and use the service features:

1. Set the PANEL NUMBER rotary switches to address 00.

2. Press the service pin for a minimum of 5 seconds.

The Service LED begins to blink red indicating that the panel is in the setup mode. While in the setup mode, the rotary switches and service pin are used to select the desired function.

9

Set the panel to factory default conditions.

This feature sets the following conditions: all channels set to occupied, no time delay, don’t follow darkness, no blink warn, and auto on.

1. Set the PANEL NUMBER rotary switches to 98.

2. Momentarily press the service pin.

Set all channels to occupied.

1. Set the PANEL NUMBER rotary switches to 01.

2. Press the service pin.

To exit the setup mode:

1. Wait for the Service LED to stop flashing.

2. Set the PANEL NUMBER rotary switches to the appropriate address.

Be sure to set the PANEL NUMBER rotary switches back to the appropriate address for your installation after exiting the setup mode.

Accessory module mounting plate covers part of the Automation Card (there are no field serviceable components under the plate) 4-Pin connectors (connect to automation modules such as: Network Clock, BMS Interface, Universal Switch Interface, Photocontrol Module, Telephone Control Module) FTT-10A RED BLACK WHITE BLUE LOCAL DATALINE Dataline switch connections: Unshielded dual twisted pair dataline wire (HDLW4) - both pairs used LW/LC FTT-10A IN RED BLACK OUT RED BLACK GLOBAL DATALINE Panel Number address rotary switches Panel to panel network connections: Unshielded dual twisted pair dataline wire (HDLW4) - only one pair used Service LED indicator Manual push-button (Service pin)

Figure 13: Automation (LW) Card user interface component locations

TESTING AND TROUBLESHOOTING Basic Power-up Testing

Test

Observe the Blue LEDs on the C8 or C24 board.

Observe Blue LED (at DS6) on RD boards (and on GS card if installed).

Observe the Green Status LEDs on the C8 or C24 board.

Observe the two green Power LEDs at DS1 & DS2 on the PS board.

Look for any lit Amber LEDs on the RD (and GS if installed).

Relay Operation: Press each Relay control push-button.

Response

Blue LED blinks at a regular tempo.

Blue LED off or continuously lit.

Blue LED flashes at regular intervals on both boards.

Blue LED off or continuously lit.

All 6 Green Status LEDs are continuously lit.

Any Green Status LED is off.

Both green Power LEDs are continuously lit.

What next?

If the panel continues to fail a test, call Technical Support Go to next Test.

Reset panel power. Check LED again.

Go to next Test.

Reset panel power. Check LED again.

Go to next Test.

Reset panel power. Check LEDs again.

Go to next Test.

Either Green Power LED is off.

No Amber LEDs observed.

Turn off power to panel and check red and black wire connections to the J2 terminal block on the PS board. Reset panel power. Check LEDs again.

Go to next Test.

Reset panel power. Check for Amber LEDs again.

An Amber LED is lit or blinking.

Red LED for each relay lights and relay clicks. Press button again, relay clicks and Red LED goes off.

Red LED doesn’t light and/or relay doesn’t click.

10

Ok to wire low voltage devices to relay card terminals. Make sure a jumper is installed on PS board between YELCOM and 24VR terminals.

Troubleshooting

# Problem

1 The LV switch does not control the relay or group.

2 When I try to turn the relay off it goes off for a second then comes back on.

3 When I try to turn the relay on it comes on for a second then goes back off.

Test Steps

Are the wires routed and terminated correctly in the panel?

Is the 12VDC indicating LED on the C8 or C24 motherboard solid Green?

Does the board-mounted override pushbutton control the relay or group?

Disconnect input terminals. Does jumping the Red to White input terminals turn the relay on and does Black to White turn it off?

If using a Group switch, have the relays been assigned to the particular group using the GS card?

Is this relay scheduled using the “AS Manual ON/Auto OFF” or the “AS Automatic ON/OFF” scenarios.

Remove any LV switching that is landed at the relay input and attempt to turn relay ON using the board override buttons.

Move LV relay connection to a different point on the RD board and attempt to override the relay on.

Remove any LV switching that is landed at the relay input and attempt to turn relay ON using the board override buttons.

Move LV relay connection to a different point on the RD board and attempt to override the relay on.

4 The Astronomic schedule is turning on the relay too early/late.

5 I go to enter my on and off times and I get the “You are attempting to enter a ON/OPEN time that happens after the OFF/Close time. Please correct before moving on.” Error message.

Is the relay scheduled using the “Astronomic ON/ OFF” or “Astronomic and Schedule ON/OFF” scenarios?

Is the panel’s location set up for the correct city/ state?

Is Daylight Savings set up correctly for the panel’s location?

Are you entering ON/OFF times using the 24-hour format?

Next

No – Correct terminations.

Yes – Go to next step.

No – Cycle power to panel; recheck.

Yes – Go to next step.

No – Call tech support.

Yes – Go to next step.

No – Call tech support.

Yes - Verify the LV wiring is not shorted and that the switch is operating correctly.

No – Make the necessary assignments.

Yes – Go to next step.

No – Go to next Step.

Yes – The relay can only be overridden OFF during unoccupied periods.

No change in status - Go to next step.

Relay functions normally - Verify the LV wiring is not shorted and that the switch is operating correctly.

No change in status - relay needs to be replaced - call tech support.

Relay functions properly – circuit board needs to be replaced - call tech support.

No change in status - Go to next step.

Relay functions normally – Verify the LV wiring is not shorted and that the switch is operating correctly.

No change in status - relay needs to be replaced - call tech support.

Relay functions properly – circuit board needs to be replaced - call tech support.

No – make the necessary changes and test again.

Yes – Go to next step.

No – make the necessary changes and test again Yes – Go to next step No – make the necessary changes and test again.

Yes – Call tech support.

No – Using the 24-hour format make the necessary scheduling corrections.

Yes – Refer to the “Spanning Midnight With A Schedule” section of the User’s Guide and make the necessary scheduling corrections.

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6 I need to remove a sensor from the system.

Once a sensor has been connected to a relay driver or group switch card low voltage input, the input remains in the sensor mode even if the sensor is removed.

To restore normal operation

input.

terminals. : 1. Remove the sensor wiring from the panel 2. Turn the associated relay or group off using the red override button corresponding to the input where the sensor had been connected.

3. Momentarily jumper the white and red

4. Does the relay/group turn on?

No

– Call tech support.

Yes

– Normal operation is restored. The input is configured for standard low voltage switches.

WARRANTY INFORMATION INFORMATIONS RELATIVES À LA GARANTIE INFORMACIÓN DE LA GARANTÍA

Wattstopper warranties its products to be free of defects in materials and workmanship for a period of five (5) years. There are no obligations or liabilities on the part of Wattstopper for consequential damages arising out of, or in connection with, the use or performance of this product or other indirect damages with respect to loss of property, revenue or profit, or cost of removal, installation or reinstallation.

Wattstopper garantit que ses produits sont exempts de défauts de matériaux et de fabrication pour une période de cinq (5) ans. Wattstopper ne peut être tenu responsable de tout dommage consécutif causé par ou lié à l’utilisation ou à la performance de ce produit ou tout autre dommage indirect lié à la perte de propriété, de revenus, ou de profits, ou aux coûts d’enlèvement, d’installation ou de réinstallation.

Wattstopper garantiza que sus productos están libres de defectos en materiales y mano de obra por un período de cinco (5) años. No existen obligaciones ni responsabilidades por parte de Wattstopper por daños consecuentes que se deriven o estén relacionados con el uso o el rendimiento de este producto u otros daños indirectos con respecto a la pérdida de propiedad, renta o ganancias, o al costo de extracción, instalación o reinstalación.

No. 25270 – 11/16 rev. 1 © Copyright 2016 Legrand All Rights Reserved.

© Copyright 2016 Tous droits réservés Legrand.

© Copyright 2016 Legrand Todos los derechos reservados.

800.879.8585

www.legrand.us/wattstopper

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