CONTENTSInstallation2Location2Installation2Theory of Operation3Features overview3Heat pump model specific features3Model Chart4Network ready4Terminal, Identification and Function5Wiring5Screw terminal arrangement5Main outputs wiring5Typical applications6Remote sensor accessories7Configuring and Status Display Instructions11Status display12User interface13User configuring instructions menu13Local keypad interface13Occupied setpoints adjustments14Installer Configuration Parameter Menu19Troubleshooting Guide26All models26Heat pump models27SE7600 Series Installation GuideWith and Without Local Schedule Terminal Equipment ControllersInstallation Guide for Commercial HVAC Applications© 2014 Schneider Electric. All rights reserved.SE7600 SeriesInstallation Guide2Schneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014INSTALLATION Preparation• Remove the security screw on the bottom of Terminal Equipment Controller cover.• Open unit by pulling on the bottom side of Terminal Equipment Controller (Fig. 1).• Remove wiring terminals from sticker. • Please read the FCC ID and IC label installed in the cover upon removal of cover for the wireless products.Location1. Should not be installed on an outside wall.2. Must be installed away from any direct heat source.3. Should not be installed near an air discharge grill.4. Should not be affected by direct sun radiation.5. Nothing should restrict vertical air circulation to the Terminal Equipment Controller.Installation1. Swing open the Terminal Equipment Controller PCB to the left by pressing the PCB locking tabs (Fig. 2).2. Pull out cables 6” out from the wall. 3. Wall surface must be flat and clean. 4. Insert cable in the central hole of the base. 5. Align the base and mark the location of the two mounting holes on the wall. Install proper side of base up.6. Install anchors in the wall.7. Insert screws in mounting holes on each side of the base (Fig. 2). 8. Gently swing back the circuit board on the base and push on it until the tabs lock it.9. Strip each wire 1/4 inch from end.10. Insert each wire according to wiring diagram.11. Gently push excess wiring back into hole (Fig. 3).12. Re-Install wiring terminals in their correct locations (Fig. 3).13. Re-install the cover (top side first) and gently push extra wire length back into the hole in the wall.14. Install security screw.• If replacing an existing Terminal Equipment Controller, label the wires before removal of the Terminal Equipment Controller. • Electronic controls are static sensitive devices. Discharge yourself properly before manipulating and installing the Terminal Equipment Controller. • A short circuit or wrong wiring may permanently damage the Terminal Equipment Controller or the equipment. • All SE7000 series Terminal Equipment Controllers are designed for use as operating controls only and are not safety devices. These instruments have undergone rigorous tests and verification prior to shipping to ensure proper and reliable operation in the field. Whenever a control failure could lead to personal injury and/or loss of property, it becomes the responsibility of the user / installer / electrical system designer to incorporate safety devices (such as relays, flow switch, thermal protections, etc…) and/or an alarm system to protect the entire system against such catastrophic failures. Tampering with the devices or unintended application of the devices will result in a void of warranty. Figure-1 Open the coverFigure-2 Location of PCB retaining tabsFigure-3 Re-install terminal blocks© 2014 Schneider Electric. All rights reserved.SE7600 Series3Installation GuideSchneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014The SE7600 uses a Schneider-Electric proprietary adaptive logic algorithm to control the space temperature. This algorithm controls the heating and air conditioning system to minimize overshoot while still providing comfort. It provides exceptional accuracy due to its unique PI time proportioning control algorithm, which virtually eliminates temperature offset associated with traditional, differential-based On-Off Terminal Equipment Controllers.Fig.2 - On-Off mechanical control vs PI electronic control.Features overview • 7 day schedule models, 2 or 4 events • Gas, oil or electric system compatibility for all type of applica-tions • Remote indoor averaging sensing capability • Temperature averaging with 2, 3, 4, 9 or 16 sensors • Remote outdoor sensing capability for added flexibility • System mode lock out • Heat pump balance point settings • Remote discharge air sensor input for monitoring purpose • System efficiency feedback • Lockable keypads for tamper proofing. No need for Terminal Equipment Controller guards • Automatic frost protection to prevents costly freeze damage • Anti short cycle and minimum On-Off run time protection. Reduces wear and maximizes life span of mechanical equipment. • 2 configurable digital inputs for added flexibility. Each input can be configured as the following: ▪None: No function will be associated with the input ▪Service: a backlit flashing Service alarm will be displayed on the Terminal Equipment Controller LCD screen when the input is energized. It can be tied in to the AC unit control card, which provides an alarm in case of malfunction. ▪Filter: a backlit flashing Filter alarm will be displayed on the Terminal Equipment Controller LCD screen when the input is energized. It can be tied to a differential pressure switch that monitor filters. ▪Rem NSB: remote NSB timer clock input. Will disable the internal scheduling of the Terminal Equipment Controller. The scheduling will now be set as per the digital input. The menu part related to scheduling is disabled and no longer accessible. It provides low cost setback operation via oc-cupancy sensor or from a dry contact. ▪RemOVR: temporary occupancy contact. Disables all override menu function of the Terminal Equipment Control-ler. . The override function is now controlled by a manual remote momentarily closed contact. When configured in this mode, the input operates in a toggle mode. With this function enabled it is now possible to toggle between unoccupied & occupied setpoints for the amount of time set by parameter (TOccTime) temporary occupancy time. ▪Fan lock: used in conjunction with a local air flow sensor connected to the input. Locks out the Terminal Equipment Controller heating and cooling action and displays a local alarm if no air flow is detected 10 seconds after the fan (G terminal) is energized. • Configurable smart fan operation saves energy during night mode • Non volatile EEPROM memory prevents loss of parameters during power shortage • Built in default profile set-up for easier start up and commis-sioning • Configurable SPST output relay on Scheduling models for lighting, exhaust fan or fresh air control• 6 hour typical reserve time for clock in case of power loss • 0 to 10 VDC economizer output for more retrofit opportunities • Built in dry bulb economizer logic using outdoor temperature sensor• Input for supply or mixed air temperature sensor Heat pump model specific features • Selectable single or dual stage compressor stages • High balance point: • Locks out auxiliary heating when outside air temperature is above this value • Low balance point: • Locks out heat pump compressor operation when outside air temperature is below this value • Comfort or economy mode: • In economy mode, heat pump use is maximized before turning On auxiliary heating • Compressor or auxiliary interlock: • Adds flexibility by locking out heat pump operation during auxiliary heating to prevent high pressure trip when the coil is downstream of the auxiliary heat source.THEORY OF OPERATION © 2014 Schneider Electric. All rights reserved.SE7600 SeriesInstallation Guide4Schneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014MODEL CHARTProduct Matrix selector for the SE7600 series staging and heat pump controllersPlease refer to the following matrix when ordering controllers:Step 1Step 2Step 3Step 4Step 5Step 6MODELPROGRAMMABILITYECONOMIZER / HUMIDITY CONTROLAPPLICATIONPIR OPTIONS0No local scheduling / Non programmable0No local scheduling / Non programmableA1H / 1C rooftop unit applications50PIR ready but PIR cover not includedBBACnet MS/TPEEchelon5Local scheduling / Programmable2Local scheduling / ProgrammableC2H / 2C rooftop unit applicationsPZigBee Pro Wireless55Factory assembled with PIR coverWZigBee Wire-less5With economizer No local scheduling / Non programmableF3H / 2C heat pump applicationsNONENetwork Ready6With economizer Local scheduling / Programmable7With humidification / dehumidification controlSE76 5 2 H 5545WExample:SE76 5 2 H 5045WWireless communicatingReady for PIR cover3H/2C heat pump applicationsNone economizer humidity sensorScheduling (Programmable)Please note, not all combinations and variants are available. Refer to the Schneider Electric price list for a complete selection listing all available models.Network ready • All Schneider-Electric SE7600 series Terminal Equipment Controllers are designed for stand-alone (Network Ready) operation. • They can be fully integrated into your choice of automation systems using the available communication adapter options. • If required, stand-alone (Network Ready) Terminal Equipment Controllers can be field retrofitted with the following communication adapters: ▪VCM7600V5045B, Terminal Equipment Controller BACnet® MS-TP communication adapter ▪VCM7600V5045E, Terminal Equipment Controller Echelon® Lontalk® communication adapter ▪VCM7000V5045W,Terminal Equipment Controller wireless ZigBee communication adapter© 2014 Schneider Electric. All rights reserved.SE7600 Series5Installation GuideSchneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014Screw terminal arrangement 5 pole left top connector 3 pole left top connector8 pole bottom connectorMAIN OUTPUTS WIRINGWiring notes: Note 1: If the same power source is used for the heating stages, install jumper across RC and RH. Maximum current is 2.0 amps. Note 2: If auxiliary output is used to toggle occupancy of the electronic control card inside the equipment, configure the relay parameter (Aux cont) to the N.O. setting. A second relay can be added for additional functionality of the occupancy output. Note 3: Economizer output uses a half bridge rectifier. Reference of the control signal is the common of the power supply of the Terminal Equipment Controller. (Terminal C) Note 4: Electromechanical contacts are to be used with the digital inputs. Electronic triacs cannot be used as mean of switching for the input. The switched leg to the input for the input to activate is terminal C (common) Note 5: The transformer of the unit provides power to the Terminal Equipment Controller and the additional loads that will be wired to the Terminal Equipment Controller. TERMINAL, IDENTIFICATION AND FUNCTIONWiringMultistage1H/1CHeat PumpPart NumberSE7656BSE7605BSE7652BSE7600BSE7652ASE7600APart NumberSE7652HScheduleYesNoYesNoYesNoScheduleYesNoTop left terminal blockTop left terminal blockY2XXXXY2XXY1XXXXXXY1XXGXXXXXXGXXRCXXXXXXRCXXCXXXXXXCXXTop right terminal blockTop right terminal blockRHXXXXXXRHXXW1XXXXXXW1XXW2XXXXO/BXXBottom terminal blockBottom terminal blockEconoXXAuxXXXXXXAuxXXDI1XXXXXXDI1XXDI2XXXXXXDI2XXRSXXXXXXRSXXScomXXXXXXScomXXOSXXXXXXOSXXMSXXXXXXMSXX© 2014 Schneider Electric. All rights reserved.SE7600 SeriesInstallation Guide6Schneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014TYPICAL APPLICATIONSSE7656B5X45(X)2 Heat / 2 Cool / Economizer / With ScheduleSE7652H5X45(X)Heat pump Without Schedule© 2014 Schneider Electric. All rights reserved.SE7600 Series7Installation GuideSchneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014Remote sensor accessoriesModel no.DescriptionS3010W1000Wall mounted temperature sensorS3020W1000Wall mounted temperature sensor+override button and occupancy statusRemote mount temperature sensors use 10K type 2 NTC thermistors.Features:• Each sensor can be configured for various averaging combinations• Optional occupancy led• Optional override keyWiring example of single remote room sensor:Wiring examples of 2 remote room sensors for averaging applications:WALL MOUNTED SENSOR© 2014 Schneider Electric. All rights reserved.SE7600 SeriesInstallation Guide8Schneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014Wiring examples of 3 remote room sensors for averaging applications:Temperature vs. resistance chart for 10 Kohm NTC thermistor ºCºFKohmºCºFKohmºCºFKohmºCºFKohmºCºFKohm-40-40324.3197-20-494.514903232.1910206812.4601401045.3467-39-38303.6427-19-289.252113430.6120217011.9177411065.1373-38-36284.4189-18084.314723629.1197227211.4018421084.9373-37-35266.5373-17179.680833727.7088237310.9112431094.7460-36-33249.8958-16375.329943926.3744247510.4443441114.5631-35-31234.4009-15571.243054125.1119257710.0000451134.3881-34 29219.9666 -14 767.402864323.9172 26799.5754461154.2208-33-27206.5140 -13 963.792874522.7861 27819.1711471174.0607-32 26193.9703 12 1060.398084621.7151 28828.7860481183.9074-31 24182.2686 -11 1257.204494820.7004 29848.4190491203.7607-30 22171.3474 10 1454.1988105019.7390 30868.0694501223.6202-29 20161.1499 -9 1651.3692115218.8277 31887.7360511243.4857-28 18151.6239 -8 1848.7042125417.9636 32907.4182521263.3568-27-17142.7211 -7 1946.1933135517.1440 33917.1150531273.2333-26-15134.3971 -6 2143.8268145716.3665 34936.8259541293.1150-25 13126.6109 -5 2341.5956155915.6286 35956.5499551313.0016-24-11119.3244 -4 2539.4921166114.9280 36976.2866561332.8928-23 -9112.5028 -3 2737.5056176314.2629 37996.0351571352.7886-22 -8106.1135 -2 2835.6316186413.6310 381005.7950581362.6886-21 -6100.1268 -1 3033.8622196613.0307 391025.5657591382.5926© 2014 Schneider Electric. All rights reserved.SE7600 Series9Installation GuideSchneider Electric- Small Building Systems Tel. Americas: North Andover, MA 1-800-225-0962 Tel. Europe: Malmö, Sweden +46 40 38 68 50 Tel. Asia Pacific: Hong Kong +852 2565 0621II-SE7600-A4.EN.6.2011.v1 www.schneider-electric.com/buildings June 2014S2000D1000, remote duct mounted temperature sensor complete with junction box.This sensor can be used for:• Remote return air temperature sensing with the sensor mounted on the return air duct.• Outside air temperature sensing with the• sensor installed in the fresh air plenum.• Supply air temperature sensorS2060A1000, remote averaging duct mounted temperature sensor complete with junction box.This sensor can be used for:• Remote averaging return air temperature sensing with the sensor mounted on the return air duct.• Outside air temperature averaging sensing with the sensor in-stalled in the fresh air plenum.• Mixed air temperature averaging sensor for economizer models with the sensor in the mixing plenum.S2020E1000, outdoor air temperature sensorThis sensor can be used for:• Outside air temperature sensing with the sensor installed directly exposed to the elements.• Sensor uses a water resistant NEMA 4 ABS enclosure for outdoor applications.S3010W1000 remote wall mountedtemperature sensor, dip switch locationNext >