Honeywell W7761A specifications Line VOLTAGE` GREATER` Than 150 VAC

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EXCEL 10 W7761A INPUT/OUTPUT DEVICE

TRANSFORMER

120/240 VAC

24 VAC

W7761A

25 24

1

W7761A

25 24

1

W7761A

25 24

1

EARTH`	EARTH`	EARTH`	M10090
GROUND	GROUND	GROUND

Fig. 13. Power wiring details for two or more Excel 10s per transformer.

IMPORTANT

If the W7761A Device is used on Heating and Cooling Equipment (UL 1995 US only) devices and the transformer primary power is more than 150 volts, connect the transformer secondary to earth ground, see Fig. 14.

LINE VOLTAGE`

GREATER`

THAN 150 VAC

24 VAC

W7761A

TRANSFORMER

EARTH` 1

GROUND

1

EARTH`

GROUND

1` IF THE W7761 CONTROLLER IS USED IN UL 1995 EQUIPMENT AND `

THE PRIMARY POWER IS MORE THAN 150 VOLTS, GROUND ONE ` SIDE OF TRANSFORMER SECONDARY.

M10088

Fig. 14. Transformer power wiring details for one Excel 10 used in UL 1995 equipment (U.S. only).

IMPORTANT

Notes on power wiring:

∙All field wiring must conform to local codes and ordinances.

∙To maintain NEC Class 2 and UL ratings, the installation must use transformers of 100 VA or less capacity.

∙For multiple controllers operating from a single transformer, the same side of the transformer secondary must be connected to the same input terminal in each device and the ground terminals (1 on the W7761A) must be connected to a verified earth ground for each device in the group. See Fig. 13. (Device configurations are not necessarily limited to three devices per transformer.)

∙For the W7761A Device (which has Triac outputs), all output devices must be powered from the same transformer as the one powering the Excel 10 W7761A Device.

∙Use the heaviest gauge wire available, up to 14 AWG (2.0 mm2) with a minimum of 18 AWG (1.0 mm2) for all power and earth ground connections.

∙To minimize EMI noise, do not run Triac output wires in the same conduit as the input wires or the E-Bus communications loop.

∙Unswitched 24 Vac power wiring can be run in the same conduit as the E-Bus cable.

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Contents Excel 10 W7761A Remote Input/Output Device Appendices List of TablesTypical system overview Description of DevicesOrganization of Manual Control ApplicationControl Provided Products CoveredProduct Names Abbreviations and Definitions Agency ListingsExcel 10 W7761A INPUT/OUTPUT Device Controllers ConstructionExcel 10 W7761A Remote I/O Device W7761A construction in in. mm List Of Available Points W7761A Performance Specifications PowerMemory Capacity Specified Space Temperature Sensing RangeEnvironmental Operating Temperature Shipping TemperatureMixed Air Temperature Discharge Air TemperatureOutdoor Air Temperature Return Air Temperature5585 Wall ModulesT7780 construction, subbase dimensions in in. mm ConfigurationsWall Module Options Mixed-Output-Type ControlOccupancy Sensor Window Open/Closed Digital InputApplication Steps Step No Description OverviewPlan The System Bus Layout Lay Out Communications and Power WiringDetermine Other Bus Devices Required 750,1$ Power Budget Calculation Example Power WiringLine Loss VA Ratings For Transformer Sizing Device DescriptionNema class 2 transformer voltage output limits VA RatingLine VOLTAGE` GREATER` Than 150 VAC W7761A Devices Prepare Wiring DiagramsGeneral Considerations Terminal Number Description W7761A I/O DescriptionTemperature Sensor DE V IC E Window Contact Contact Closed = Occupancy Sensor Occupied Valve Actuator Typical Pneumatic transducer Series 60 Floating to W7761A Bus Termination ModuleSee for E-Bus termination wiring options +$672 Sensors Order EquipmentExcel 10 W7750 Controllers T7770 Wall ModulesEchelon Based Components and Parts AccessoriesCabling Temperature Degrees W7761A Device Status LED Broadcasting the Service MessageExcel 10 Alarms LED States T7780 Ddwm Bypass PushbuttonAdding Analog Inputs Enthalpy 4 to 20 mA Appendix A. Using E-Vision to Commission a W7761 DeviceAdding Other VOLTAGE/CURRENT Sensors Adding Digital Inputs Common Operations Room Temperature Sensor RmTempAppendix B. Sequences of Operation Pulse Width Modulating PWM Control Window Sensor StatusWndwDirty Filter Monitor Series 60 Modulating ControlCO 2 Concentration Temperature Relative HumidityRelative Air FlowTable C1. Input/Output Points Left DefaultTable C1. Input/Output Points Right Excel 10 W7761A INPUT/OUTPUT Device Values that can be assigned to any output channels English Metric or User Address DI3Sel1Type Refer to the description for DI1Sel1Type Stoff Stnul Stlow Stmed Sthigh Ston DO2Type Excel 10 W7761A INPUT/OUTPUT Device SrcDigIn2Sts Refer to the description for SrcDigIn1Sts Table C2. Control Parameters Left SH MA DA EV HW MN TS Table C2. Control Parameters RightTable C3. Status Points Left NoalarmTable C3. Status Points Right RIO1 Software version NvoStatus InOverride SH MA DA EV HW MN TS Table C4. Configuration Parameters Left Table C4. Configuration Parameters Right DO0 Higher than the value specified for AILowLimit DO4 Seconds = 25.6 seconds DO6PWMPeriod Refer to the description for DO1PWMPeriod Table C5. Direct Access And Special Points Right Table C5. Direct Access And Special Points LeftFig. D-1. Point capacity estimate for Zone Manager Approximate Memory Size Estimating ProcedureSensor Use Appendix E. Sensor Data for CalibrationResistance Sensors Sensor Type1956.79 Humidity Percentage Sensor Voltage Voltage/Current SensorsTable E-4. Sensor Voltage Versus Humidity C7600C1008 4 to 20 mA C7600C output current vs. humidity Sensor Type Fig. E-6. Graph of Sensor Current versus Enthalpy volts Table E-10. Sensor Voltage Versus Input Voltage To A/D Table E-9. Sensor Voltage Versus CO 2 ConcentrationCO 2 Concentration PPM Sensor Voltage Pressure Inw kPa Sensor Voltage Vdc Voltage to A/D Sensor VoltageTable E-11. Sensor Voltage Vdc Versus Pressure Inw 3ODD