Distech Controls ECLYPSE ECY-303 User Manual
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Distech Controls ECLYPSE ECY-303 User Manual

Preloaded applications
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Summary of Contents for Distech Controls ECLYPSE ECY-303

  • Page 1 ECY-303 Preloaded Applications User Guide...

  • Page 2: Document Information

    ©, Distech Controls Inc. 2017. All rights reserved. While all efforts have been made to verify the accuracy of information in this manual, Distech Controls is not responsible for damages or claims arising from the use of this manual. Persons using this man-...

  • Page 3: Table Of Contents

    Table of Contents ABLE OF ONTENTS Document Information ............................ 2 Introduction to the Preloaded Applications ....................... 8 Purpose of the User Guide ........................ 8 Intended Audience............................ 8 Conventions Used in this Document...................... 8 Notes.............................  8 Cautions and Warnings.........................  8 Conventions for using the mouse .................... 9 Accessing the ECY-303 with ENVYSION....................... 10 Logging on to the Web Interface...................... 10 Graphic Page ..........................
  • Page 4 Table of Contents Elevation (AV13) .........................  18 OptStartCoolFactor (AV14)...................... 18 OptStartHeatFactor (AV15)...................... 18 Shedding (AV16).........................  18 SingleSP (AV17) .........................  18 SingleSPHeatDB (AV18) ...................... 19 SingleSPCoolDB (AV19)...................... 19 PropHeat (AV20).........................  19 Humidifier (AV21)........................ 19 Dampers (AV22) .........................  20 OptStartMaxStartupTime (AV23) .................... 20 OptStartFactorWeight (AV24) .....................
  • Page 5 Table of Contents ComSensorMinHeatSP (AV77).................... 26 ComSensorMaxHeatSP (AV78).................... 26 DischTempCoolSP (AV79) ...................... 26 DischTempCoolDB (AV80) ...................... 27 DischTempHeatSP (AV81) ...................... 27 DischTempHeatDB (AV82) ...................... 27 ExhaustStartSP (AV83) ...................... 27 ExhaustStopSP (AV84).......................  27 InitStartDelay (AV85) ........................ 27 DischTempLowLimitSP (AV86).................... 27 SpOffsetRange (AV87) .......................  27 SpaceTempOffset (AV88)......................
  • Page 6 Table of Contents ComSensorLock (MSV19) ...................... 35 UI6Range (MSV20)........................ 35 UI7Range (MSV21)........................ 35 UI8Range (MSV22)........................ 35 UI1Config (MSV24)........................ 36 UI2Config (MSV25)........................ 36 UI3Config (MSV26)........................ 36 UI4Config (MSV27)........................ 36 UI5Config (MSV28)........................ 37 UI6Config (MSV29)........................ 37 UI7Config (MSV30)........................ 37 UI8Config (MSV31)........................ 38 CoolHeatConfig (MSV32) ......................
  • Page 7 Table of Contents EC-Smart-Vue Configuration ......................  56 HVAC Configuration Tab ........................ 57 Configuring Space Temperature Settings...................  57 Discharge Temperature Low Limit Alarm.................. 57 Humidification Parameters...................... 58 Compressor and Cooling Parameters.................. 58 Heating Parameters ........................ 59 Optimizing Heat and Cooling Start and Stop Times .............. 59 Outside Air Dampers Parameters ....................

  • Page 8: Introduction To The Preloaded Applications

    “out of the box” with preloaded, config- urable applications and embedded ENVYSION Viewer, for local hosting of application graphics. Distech Controls’ ECY-303 controllers come preloaded with code containing standard applications. This code was created using EC- gfx Program, a Graphical Programming Interface (GPI) tool that en- ables visual assembly of building blocks and the design of custom programs that control Building Au- tomation Systems.

  • Page 9: Conventions For Using The Mouse

    Introduction to the Preloaded Applications Conventions for using the mouse Click the item. Click, drag, and release the item. ECY-303 Preloaded Applications...

  • Page 10: Accessing The Ecy-303 With Envysion

    Accessing the ECY-303 with ENVYSION Accessing the ECY-303 with ENVYSION You can access the ECY-303 Preloaded Applications through the Xpress Network Utility. Refer to the Xpress Network Utility User Guide for more information. You can also access the ECY-303 Preloaded Applications directly through your web browser using the controller IP address or using the Controller’s Factory-default Hostname.

  • Page 11: Configuration Page

    Accessing the ECY-303 with ENVYSION Figure 2: Main graphic page for the ECY-303 ENVYSION viewer From this screen, you are able to access values and/or overrides for certain parameters. Click directly on the parameter you wish to modify. For an explanation of these parameters, please refer to the Vari- ables Chapter in this guide.

  • Page 12: Application Configuration Page

    Accessing the ECY-303 with ENVYSION Application Configuration Page The ECY-303’s preloaded applications can easily be configured from within the ECY-303 Preloaded Applications Web interface. All the configuration parameters related to an ECY-303 Inputs and Out- puts, CO Sensor Range, Sensor & Setpoint Offset Settings, Power Exhaust Settings, Fan Current Range, and other miscellaneous settings are accessible from the Application Config page and are grouped into several tables.

  • Page 13: Variables

    Variables Variables Hardware Inputs UI1: UI1 (AI1) This input is used to connect the Space Temperature, Fan Status, Occupancy Detection, Auxiliary Contact, Economizer Enable Contact or Window Contact. It is configurable using UI1Config (MSV24) Units Valid Range Default Value Ohms (Ω) 0 to 55000 ohms 0 ohms UI2: UI2 (AI2)

  • Page 14: Ui7: Ui7 (Ai7)

    Variables UI7: UI7 (AI7) This input is used to connect the Space CO2, Return Humidity, Discharge Humidity, SpaceHumidity or Outdoor Humidity. It is configurable using UI7Config (MSV30). The range of the input can also be con- figured between 0-10V, 2-10V and 4-20mA using UI7Range(MSV21) Units Valid Range Default Value...

  • Page 15: Do2: Do2 (Do2)

    Variables DO2: DO2 (DO2) This output is used to control the cooling stage 1 of the unit. Units Valid Range Default Value On/Off On to Off DO3: DO3 (DO3) This output is used to control the various possible equipements of the unit (Cooling stage, heating stage, economizer, etc) based on the configuration of CoolHeatConfig (MSV32), RevValveConfig( MSV33), DampersConfig(MSV35), HumidifierConfig(MSV36).

  • Page 16: Ao8: Ao8 (Ao8)

    Variables been made, the variable Output7ConfigSt(MSV42) will display what needs to be wired to this output. See section IO assignment for more details. Units Valid Range Default Value Percent (%) 0 to 100% AO8: AO8 (AO8) This output is used to control the various possible equipements of the unit (Cooling stage, heating stage, economizer, etc) based on the configuration of CoolHeatConfig (MSV32), RevValveConfig( MSV33), DampersConfig(MSV35), HumidifierConfig(MSV36).

  • Page 17: Fancurrent (Av5)

    Variables FanCurrent (AV5) This variable is used to display the fan current reading. This variable is only used if UI6Config(MSV29) is configured for FanCurrent reading. The reading of the input can be scaled using MinFanCur- rent(AV44), MaxFanCurrent(AV45) and UI6Range(MVS20) Units Valid Range Default Value Analog Value 5...

  • Page 18: Spacehumidity (Av11)

    Variables SpaceHumidity (AV11) This variable is used to display the actual space humidity from either UI6, UI7 or UI8 Input. This vari- able can be used to override the space humidity. It is only used if either UI6Config(MSV28), UI7Con- fig(MSV29) or UI7Config(MSV30) is configured for SpaceHumidity or either an EC-Smart-Vue or an EC-Smart-Air with –H option is connected to the system The reading of the inputs can be scaled using UI6Range(MVS20), UI7Range(MVS21) or UI8Range(MVS22).
  • Page 19 Variables Mode1: If SingleSPHeatDB (AV18) , SingleSPCoolDB (AV19) = 0 and ComSensorSpType (MSV16) = SingleSp The effective heat/cool setpoints (AV50) for the occupied and standby modes are derived from Occ- CoolSP (AV40) and OccHeatSP (AV41) plus the absolute setpoint offset, calculated as the difference between SingleSP and the mean of the OccHeatSP (AV41) and OccCoolSP (AV40) setpoints : abs_setpoint_offset = SingleSP - (OccHeatSP (AV41) + OccCoolSP (AV40))/2 Occupied mode :...
  • Page 20 Variables Units Valid Range Default Value Analog Value 21 Percent (%) 0 to 100% 999% Dampers (AV22) This variable is used to display the actual outside air dampers signal. This variable can be used to override the outside air dampers control signal. Units Valid Range Default Value...
  • Page 21 Variables Units Valid Range Default Value Analog Value 30 Degrees-Celsius (°C) 4,5 to 25°C 13°C EquipEnableDelay (AV31) This variable is used to configure the delay before enabling the outputs after the fan status have been proven. Units Valid Range Default Value Analog Value 31 Seconds MinDamperPos (AV32)
  • Page 22 Variables Units Valid Range Default Value Analog Value 37 Degrees-Celsius (°C) UnoccCoolSp (AV38) This variable is used to configure the cooling setpoint when the occupancy status (MSV15) is in unoc- cupied mode. Units Valid Range Default Value Analog Value 38 Degrees-Celsius (°C) 28°C StandbyCoolSp (AV39)
  • Page 23 Variables MaxFanCurrent (AV45) This variable is used to configure the maximum scaling of UI6 when configured for FanCurrent. The range of the input can be configured using UI6Range(MSV20). Units Valid Range Default Value Analog Value 45 Amperes (A) 10 A ChgOverDelay (AV46) This variable is used to configure the minimum delay between heating/cooling.
  • Page 24 Variables SpaceHumiditySP (AV53) This variable is used to configure the space/return humidity setpoint. Units Valid Range Default Value Analog Value 53 5 to 55%RH 35%RH DehumiditySP (AV54) This variable is used to configure the space/return dehumidity setpoint to control the cooling stages. Units Valid Range Default Value...
  • Page 25 Variables Units Valid Range Default Value Analog Value 60 Amperes (A) 0 to (AV59 - 0.1A) 0.5 A OutdoorEnthalpy (AV61) This variable is used to display the calculated outdoor enthalpy when both the outdoor temperature and humidity are available. This variable will be used to enable the dampers. Units Valid Range Default Value...

  • Page 26: Comsensorminheatsp (Av77)

    Variables CoolingStgsLoad (AV68) This variable is used to display the percentage of cooling stages active. This variable is used for the HMI. Units Valid Range Default Value Analog Value 68 Percent (%) 0 to 100% HeatingStgsLoad (AV69) This variable is used to display the percentage of heating stages active. This variable is used for the HMI.

  • Page 27: Dischtempcooldb (Av80)

    Variables DischTempCoolDB (AV80) This variable is used to calculate if a cooling stage must be stopped. If the discharge temperature is below DischTempCoolSP(AV79) – DischTempCoolDB(AV80), a cooling stage is stopped. Units Valid Range Default Value Analog Value 80 Delta-Degrees-Celsius (∆°C) 1 to 5∆°K 3∆°K DischTempHeatSP (AV81)

  • Page 28: Spacetempoffset (Av88)

    Variables Units Valid Range Default Value Analog Value 87 Delta-Degrees-Celsius (∆°C) 0 to 5∆°K 3∆°K SpaceTempOffset (AV88) This variable is used to calibrate the temperature reading of the controller. This value will be added to the temperature reading (Hardware input, EC-Smart-Vue, EC-Smart-Air) to calculate the resulting space temperature (AV1).

  • Page 29: Cool4 (Bv4)

    Variables Units Valid Range Default Value Binary Value 3 On/Off On to Off Cool4 (BV4) This variable is used to display the actual cooling stage 4 output value. When the system is configured in heat pump mode, this output represents the compressor stage 4 output. Units Valid Range Default Value...

  • Page 30: Fanstatus (Bv12)

    Variables Units Valid Range Default Value Binary Value 11 Enable/Disable Enable to Disable Enable FanStatus (BV12) This variable is used to display the actual fan status. When no inputs are configured for either FanSta- tus or FanCurrent, this variable is equal to the Fan Command (BO1). When UI6 is configured for Fan- Current, this variable is set based on FanOnSetpoint(AV59) and FanOffSetpoint(AV60).

  • Page 31: Enableoutputs(Bv19)

    Variables EnableOutputs(BV19) This variable is used to configure the control of the outputs. When this variable is set to Disable, the outputs are constantly off. This variabe can be manually set to Enable or is automatically set to Enable if one of the output configuration variable is changed. Units Valid Range Default Value...

  • Page 32: Multi State Values

    Variables Units Valid Range Default Value Binary Value 25 Yes/No Yes to No Multi State Values OccupancyCmd (MSV1) This variable is used to receive the occupancy information from the BMS system. This input is used in conjunction with the motion detection (MSV6) to determine the effective occu- pancy mode.

  • Page 33: Econenablebi (Msv5)

    Variables EconEnableBI (MSV5) This variable is used to display the actual status of an economizer enable input configured on inputs between UI1 to UI5. Enumeration Default Value 1 = Enable: The outside air dampers can be used to provide cooling to the space.

  • Page 34: Sensortempunits (Msv11)

    Variables SensorTempUnits (MSV11) This variable is used to configure the units to be used on the EC-Smart-Vue. Enumeration Default Value 1 = Deg.C: degree-celcius Multi State Value 11 Deg.F 2 = Deg.F: degree-Fahrenheit SensorsType (MSV12) This variable is used to configure the type of sensors used for the temperature sensors. Enumeration Default Value 1 = 10K Type 2...

  • Page 35: Comsensorsptype (Msv16)

    Variables Enumeration Default Value 1 = Occupied: The hvac controller should operate in the occupied mode 2 = Unoccupied: The hvac controller should operate in the unoccupied mode Multi State Value 15 3 = Bypass: The hvac controller should operate in the occupied mode 4 = Standby: The Space Comfort Controller should operate in the standby mode ComSensorSpType (MSV16)

  • Page 36: Ui1Config (Msv24)

    Variables Enumeration Default Value 1 = 0-10V: The range is from 0 to 10 V 2 = 2-10V: The range is from 2 to 10 V Multi State Value 22 0-10V 3 = 4-20mA: The range is from 4 to 20 mA 4 = 0-5V : The range is from 0 to 5 V UI1Config (MSV24) This variable is used to configure the source of Hardware Input 1.

  • Page 37: Ui5Config (Msv28)

    Variables Enumeration Default Value 1 = Unconfig : Hardware Input is not used 2 = DischTemp : The input is used to connect a Discharge temperature sensor 3 = FanStatus : The input is used to connect a digital fan status input Multi State Value 27 4 = OccDetect : The input is used to connect a motion detection sensor DischTemp...

  • Page 38: Ui8Config (Msv31)

    Variables UI8Config (MSV31) This variable is used to configure the source of Hardware Input 8. Enumeration Default Value 1 = Unconfig : Hardware Input is not used 2 = ReturnCO2 : The input is used to connect a return CO2 sensor 3 = ReturnHumid : The input is used to connect a return humidity sensor Multi State Value 31...

  • Page 39: Dampersconfig (Msv35)

    Variables Enumeration Default Value 1 = Unconfig: The unit is not equipped with a proportional heating stage 2 = Analog 0-10V: The unit is equipped with a 0-10V heating stage Multi State Value 34 Unconfig 3 = Analog 2-10V: The unit is equipped with a 2-10V heating stage 4 = PWM: The unit is equipped with a PWM heating stage DampersConfig (MSV35) This variable is used to configure the fan control mode based on the OccupancyStatus.

  • Page 40: Output3Configst (Msv38)

    Variables Enumeration Default Value 1 = Unconfig : The unit is not equipped with a humidifier 2 = Cool1 : The output is used to control cooling/compressor stage 1 3 = Cool2 : The output is used to control cooling/compressor stage 2 4 = Cool3 : The output is used to control cooling/compressor stage 3 5 = Cool4 : The output is used to control cooling/compressor stage 4 6 = Heat1 : The output is used to control heating stage 1...

  • Page 41: Output5Configst (Msv40)

    Variables Enumeration Default Value 1 = Unconfig : The unit is not equipped with a humidifier 2 = Cool1 : The output is used to control cooling/compressor stage 1 3 = Cool2 : The output is used to control cooling/compressor stage 2 4 = Cool3 : The output is used to control cooling/compressor stage 3 5 = Cool4 : The output is used to control cooling/compressor stage 4 6 = Heat1 : The output is used to control heating stage 1...

  • Page 42: Output7Configst (Msv42)

    Variables Enumeration Default Value 1 = Unconfig : The unit is not equipped with a humidifier 2 = Cool1 : The output is used to control cooling/compressor stage 1 3 = Cool2 : The output is used to control cooling/compressor stage 2 4 = Cool3 : The output is used to control cooling/compressor stage 3 5 = Cool4 : The output is used to control cooling/compressor stage 4 6 = Heat1 : The output is used to control heating stage 1...

  • Page 43: Propheatgx (Msv45)

    Variables Enumeration Default Value 1 = Unconfig : The unit is not equipped with a humidifier 2 = Cool1 : The output is used to control cooling/compressor stage 1 3 = Cool2 : The output is used to control cooling/compressor stage 2 4 = Cool3 : The output is used to control cooling/compressor stage 3 5 = Cool4 : The output is used to control cooling/compressor stage 4 6 = Heat1 : The output is used to control heating stage 1...

  • Page 44: Loop

    Loop Loop PID_Cool (loop1) This variable is used to display the actual cooling loop value. This variable is used by the system to control the cooling valve and the dampers. The following parameters of this loop can be modified to adjust the response of the controller. ProportionalConstant, default value = 2°C IntegralConstant, default value = 0 seconds DerivativeConstant, default value = 0 seconds...

  • Page 45: Pid_Propheat (Loop5)

    Loop Units Valid Range Default Value PID4 Percent (%) 0 to 100% PID_PropHeat (loop5) This variable is used to display the actual proportional heating loop value. The following parameters of this loop can be modified to adjust the response of the controller. ProportionalConstant, default value = 10°C IntegralConstant, default value = 300 seconds DerivativeConstant, default value = 0 seconds...

  • Page 46: Sequence Of Operation

    Sequence of Operation Sequence of Operation Occupancy Control The OccupancyStatus(MSV15) is managed based on the OccupancyCmd (MSV1) and RoomOccu- pancy(BV24). The OccupancyCmd is usually received from the BACnet network and the RoomOccu- pancy is based on the motion detection and the occupancy overrides. See the RoomOccu- pancy(BV24) section for more details.

  • Page 47: Hvac Mode Management

    Sequence of Operation If is also possible, using ComSensorSpType(MSV16) to use a single setpoint control from the EC- Smart-Vue and the graphical interface. When ComSensoSpType is equal to SingleSp, the setpoints are calculated like this: Single setpoint Mode1: If SingleSPHeatDB (AV18) , SingleSPCoolDB (AV19) = 0 and ComSensorSpType (MSV16) = Sin- gleSp The effective heat/cool setpoints (AV50) for the occupied and standby modes are derived from Occ- CoolSP (AV40) and OccHeatSP (AV41) plus the absolute setpoint offset, calculated as the difference...

  • Page 48: Temperature Management

    Sequence of Operation Temperature Management Cooling Mode: If the unit is equipped with an economizer, the mechanical cooling stages and the dampers are con- trolled in sequence to maintain the space temperature at the effective cooling temperature setpoint (ActCoolSP-AV36). The cooling stages are enabled only if OatCompEnable(BV22) is enabled. The dampers are enabled only if EconEnable(BV23) is enabled.

  • Page 49: Damper Controls

    Sequence of Operation If the variable EnableDehumid (BV14) is set to Enable, meaning that the cooling coil is positionned be- fore the heating coil in the unit, the system can dehumidify the space. Based on DehumidifySP(AV54), the 1 cooling stage can be enabled to dehumidify the space. Damper Controls The dampers are controlled based on the DampersConfig (MSV35) variable.

  • Page 50: Configuring The Preloaded Applications

    Configuring the Preloaded Applications Configuring the Preloaded Applications The ECY-303’s preloaded applications can be easily configured from within EC- gfx Program. The con- figuration parameters related to a VAV box setup as well as its input and output settings are accessi- ble through the Configuration Assistant.
  • Page 51 Configuring the Preloaded Applications 3. Select the device you wish to connect to and press OK. The Configuration Assistant page will appear. ECY-303 Preloaded Applications...

  • Page 52: Overview Tab

    Configuring the Preloaded Applications Overview Tab The Overview tab of the Configuration Assistant provides a user with a convenient location to view many general settings, such as setpoints and status. Figure 5: General Settings Overview Hardware Configuration Tab The Hardware Configuration tab includes Inputs, Outputs, EC-Smart-Vue, Sensor and Setpoint Offset settings.

  • Page 53: Configuring Input Parameters

    Configuring the Preloaded Applications Configuring Input Parameters All input configuration setpoint parameters are found in the Inputs Configuration subsection of the Hardware Configuration tab. The table below gives a brief description of each type of input configura- tion parameter. ECY-303 Preloaded Applications...
  • Page 54 Configuring the Preloaded Applications Parameter Description Unconfig – Hardware Input is not used. SpaceTemp – Space temperature sensor. FanStatus – Digital fan status input. Input 1 Configuration OccDetect – Motion detection sensor. AuxiliaryContact – Auxiliary contact. EconEnable – Economizer enable input. Window –...

  • Page 55: Configuring Output Parameters

    Configuring the Preloaded Applications Configuring Output Parameters All output configuration setpoint parameters are found in the Outputs Configuration subsection of the Hardware Configuration tab. The table below gives a brief description of each type of configuration pa- rameter. Parameter Description Set the type of cooling and heating stages.

  • Page 56: Ec-Smart-Vue Configuration

    Configuring the Preloaded Applications Parameter Description Enter the value of the space temperature offset that is required. It is used to calibrate the temperature reading of the controller. This value will be added to the temperature reading Space Temperature Offset Value (Hardware input, EC-Smart-Vue, EC-Smart-Air) to calculate the resulting space temperature (AV1).

  • Page 57: Hvac Configuration Tab

    Configuring the Preloaded Applications HVAC Configuration Tab The HVAC Configuration tab allows a user to configure, Setpoints, Humidification, Compressor and Cooling, Heating, and outside air dampers parameters. Also low limit alarms, optimum start/stop, and fan and equipment delays can be adjusted. A brief description of each type of configuration parameter is outlined below.

  • Page 58: Humidification Parameters

    Configuring the Preloaded Applications Parameter Description Used to calculate the Actual Low Limit Alarm. When the fan is running and the discharge Discharge Low Limit Setpoint temperature is lower than this value, the low limit alarm is set to alarm mode. Actual Low Limit Alarm Used to indicate if the system is in low limit alarm mode.

  • Page 59: Heating Parameters

    Configuring the Preloaded Applications Parameter Description Compressors Outdoor Temperature Enter the minimum outside air temperature required before the compressors cease Lockout operation. Enter the required minimum discharge air temperature for cooling operation. Cooling Minimum Discharge Air Temperature stages will be turned on only if the discharge temperature is above this value. Discharge Air Temperature Enter the desired range for the discharge air temperature deadband.

  • Page 60: Outside Air Dampers Parameters

    Configuring the Preloaded Applications Parameter Description Enter the number of minutes required by the system to lower the room temperature by 1 Optimum Start Cooling Factor degree. The optimum start algorithm will use this variable to calculate the required pre- cooling start time.

  • Page 61: Fan And Equipment Delays

    Configuring the Preloaded Applications Fan and Equipment Delays From this subsection the delays for fans and equipment can be configured. Parameter Description Input the delay in seconds before allowing the fan to start after the system have been Occupied Fan Start Delay set to occupied.

  • Page 62: Allure Ec-Smart-Vue Screen-By-Screen Guide

    Allure EC-Smart-Vue Screen-by-Screen Guide Allure EC-Smart-Vue Screen-by-Screen Guide Adjusting the Setpoints, Display Units, Fan Speed, and Heating / Cooling mode When a controller is in occupied or bypass mode, the active setpoint can be adjusted using the Allure EC-Smart-Vue’s arrow keys. Alternatively, the heating and cooling setpoints can be adjusted from the sensor’s User menu.
  • Page 63 Allure EC-Smart-Vue Screen-by-Screen Guide 5. Press the Menu button to submit the new heating setpoint. °F Screen timeout: 3 sec If the controller is in occupied mode, the Units submenu appears. Otherwise, the Bypass submenu ap- pears with the option to manually end the bypass mode. After the Bypass submenu, the Units, Fan, and Heating/Cooling mode submenus appear.

  • Page 64: How To Put A Controller Into Bypass Mode

    Allure EC-Smart-Vue Screen-by-Screen Guide 10. Use the arrow keys to select the heating/cooling mode. Screen timeout: 3 sec 11. Press the Menu button to submit the selected heating/cooling mode. Screen timeout: 3 sec How to Put a Controller Into Bypass Mode To change a controller’s occupancy mode from standby or unoccupied to bypass mode: 1.
  • Page 65 Allure EC-Smart-Vue Screen-by-Screen Guide To enter the advanced menus: 1. Hold the Menu button for five seconds: °F 5 sec The password field appears. 2. Use the arrow keys to increase or decrease the displayed number until it matches the configured password.
  • Page 66 Allure EC-Smart-Vue Screen-by-Screen Guide 6. Use either of the arrow keys to change the input type. Screen timeout: 30 s 7. Press the Menu button to validate your change. Screen timeout: 30 s How to Exit the Input Configuration Submenu To exit the Input Configuration submenu and go up one level, do one of the following: Press the Menu button several times until the Exit screen appears.
  • Page 67 Allure EC-Smart-Vue Screen-by-Screen Guide Input Configuration Tables Input Number (BACnet object) Default Valid Choices Parameter Description Unconfig Not configured SpaceTemp Room temperature sensor FanStatus Fan powered box status UI1 (MSV 24) OccDetect Occupancy detection AuxilliaryContact Auxiliary Contact EconEnable Economizer Enable Window Window contact Unconfig...

  • Page 68: Setting Up The Input Range

    Allure EC-Smart-Vue Screen-by-Screen Guide Setting up the Input Range From the Allure EC-Smart-Vue’s Input Range submenu, the controller’s input range can be set. To enter the advanced menus: 1. Hold the Menu button for five seconds: °F 5 sec The password field appears. 2.
  • Page 69 Allure EC-Smart-Vue Screen-by-Screen Guide 6. Press the Menu button to scroll through the three inputs. Screen timeout: 30 s 7. Use the arrow keys to modify the desired input. Screen timeout: 30 s 8. Press the Menu button to validate your range selection. Screen timeout: 30 s How to Exit the Input Range Submenu To exit the Input Range submenu and go up one level, do one of the following:...

  • Page 70: Setting Up The Output Configuration

    Allure EC-Smart-Vue Screen-by-Screen Guide Setting up the Output Configuration From the Allure EC-Smart-Vue’s Output Configuration menu, the controller’s output parameters can be viewed and adjusted. To enter the advanced menus: 1. Hold the Menu button for five seconds: °F 5 sec The password field appears.
  • Page 71 Allure EC-Smart-Vue Screen-by-Screen Guide 6. Press the Menu button to scroll through the available outputs. Screen timeout: 30 s 7. Use either of the arrow keys to modify the desired output parameter. Screen timeout: 30 s 8. Use either of the arrow keys to choose the desired output type. Screen timeout: 30 s 9.

  • Page 72: Viewing The Wiring Guide

    Allure EC-Smart-Vue Screen-by-Screen Guide Output Configuration Tables Output (BACnet object Default Valid Choices Parameter Description Cool Cooling stages COOLHEAT STGS (MSV 32) Heat Heating stages Reversing valve is Unconfig unconfigured REV VLV (MSV 33) Cooling Reversing valve cooling Heating Reversing valve heating Proportional heating is Unconfig unconfigured...
  • Page 73 Allure EC-Smart-Vue Screen-by-Screen Guide Screen timeout: 15 s By default, the password is 9995. 3. Press the Menu button to submit the password. Screen timeout: 15 s Upon submitting the correct password, the advanced menu is displayed. 4. Press the Menu button several times until the WIRING menu appears on the display. Press several times 5.

  • Page 74: End-User Overrides

    Allure EC-Smart-Vue Screen-by-Screen Guide Press and hold the Menu button for 5 seconds. £ End-User Overrides From the Allure EC-Smart-Vue’s Overrides submenu, the controller’s outputs can be overridden. Output overrides range from 0 – 100% in increments of 1%. For digital outputs, any value different from 0 represents On. To enter the advanced menus: 1.
  • Page 75 Allure EC-Smart-Vue Screen-by-Screen Guide 6. Press the Menu button to scroll through the outputs that can be overridden and use either of the arrow keys to override the set value of the output. Screen timeout: 30 s 7. Press the Menu button to validate your choice. Screen timeout: 30 s How to Release Overrides The presence of the icon...

  • Page 76: Setting Up The Parameters And Calibrating The Sensor

    Allure EC-Smart-Vue Screen-by-Screen Guide Setting up the Parameters and Calibrating the Sensor From the Allure EC-Smart-Vue’s General Configuration submenu, the sensor’s subnet ID can be set. In addition, other functions can be carried out such as calibrating the Allure EC-Smart-Vue’s space temperature and humidity sensor, verifying the Device ID and adjusting the screen contrast.
  • Page 77 Allure EC-Smart-Vue Screen-by-Screen Guide Upon entering the general configuration submenu, the SUBNET ID parameter is displayed. How to Enter the Sensor Subnet ID and View the Device ID 1. Press either of the arrow keys to choose the desired Subnet ID for the sensor. Screen timeout: 30 s 2.
  • Page 78 Allure EC-Smart-Vue Screen-by-Screen Guide 3. Press the Menu button to submit the calibrated temperature reading. °F Screen timeout: 30 s Once you make your entry, humidity sensor calibration will appear if your EC-Smart-Vue model is equipped with one. Otherwise Contrast parameter appears. Use the arrow keys to adjust the screen contrast.

  • Page 79: Io Assignments

    IO Assignments IO Assignments The IO assignments can easily be found by looking at the ENVYSION application configuration menu or from an Allure EC-Smart-Vue Sensor. Figure 6: ENVYSION Application Configuration Menu. To define which IO will be used prior to the installation, the following table must be taken into account. DO1 is always the fan.
  • Page 80 IO Assignments DUO5 DUO6 Cool1 Unused Unused Unused Unused Unused Unused Reversing Cool2 Cool3 Cool4 Heat2 Heat3 Valve Reversing Reversing Reversing Heat1 Heat3 PropHeating Valve Valve Valve Heat1 Heat1 Heat1 Heat2 PropHeating Dampers Power Power Heat2 Heat2 Heat3 Dampers Exhaust Exhaust Power Power...
  • Page 81 IO Assignments Example 2 CoolHeatConfig (MSV32) = 2 Cool / 2 Heat RevValveConfig(MSV33) = Unconfig PropHeating(MSV34) = Unconfig DamperConfig(MSV35) = Analog 0-10V HumidifierConfig(MSV36) = Digital DUO5 DUO6 Cool1 Unused Unused Unused Unused Unused Unused Reversing Cool2 x Cool3 Cool4 Heat2 Heat3 Valve Reversing...
  • Page 82 IO Assignments Example 4 CoolHeatConfig (MSV32) = 2 Cool / 1 Heat RevValveConfig(MSV33) = Cooling PropHeating(MSV34) = Unconfig DamperConfig(MSV35) = Econ Enable HumidifierConfig(MSV36) = Digital DUO5 DUO6 Cool1 Unused Unused Unused Unused Unused Unused Reversing Cool2 x Cool3 Cool4 Heat2 Heat3 Valve Reversing...

  • Page 83: Wiring Diagrams

    Wiring Diagrams Wiring Diagrams ECY-303 Roof Top Unit Application: 2 Cool / 2 Heat 2 Cooling Stages and 2 Electric heat Stages (MSV32 = 2 Cool / 2 Heat) Hea ng Stage 2 Compressor 1 Compressor 2 Hea ng Stage 1 Pass-Through Pass-Through RJ-45 Connec on...

  • Page 84: Ecy-303 Roof Top Unit Application: 3 Cool / 2 Heat / Damper

    Wiring Diagrams 4. UI5 input can be configured for OutdoorTemp, FanStatus, OccDetect, AuxiliaryContact, EconEn- able or WindowContact using UI5Config (MSV28). 5. UI6 input can be configured for FanStatus, ReturnHumid, DischHumid, SpaceHumid or Out- doorHumid using UI6Config (MSV29). 6. UI7 input can be configured for SpaceCO2, ReturnHumid, DischHumid, SpaceHumid or Out- doorHumid using UI7Config (MSV30).

  • Page 85: Notes

    Wiring Diagrams Compressor 1 Compressor 2 Compressor 3 Damper Pass-Through Pass-Through RJ 45 24 VAC Power Supply SUBNET HOST OUTPUTS EC-Smart-Comfort- EC-Smart-Vue POWER STATUS RS-485 UNIVERSAL INPUT S RS-485 10/100 DEVICE ETHERN ET SWIT CH CO2 Sensor 24 AC Return CO2 CONNECTORS CO2 Sensor NET+...
  • Page 86 Wiring Diagrams 7. UI8 input can be configured for ReturnCO2, ReturnHumid, DischHumid, SpaceHumid or Out- doorHumid using UI8Config (MSV31). 8. Outputs configuration is automatically set based on the configuration of CoolHeatConfig (MSV32), RevValveConfig(MSV33), DampersConfig(MSV35), HumidifierConfig(MSV36). Output Configura- tion is displayed via OutputXConfig (MSV37 to 43). 9.
  • Page 87 Wiring Diagrams ECY-303 Preloaded Applications...
  • Page 88 ECY-303 Preloaded_UG_11_SI_EN...

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