Johnson Controls TEC2664Z-3 BACnet Installation Instructions Manual Download Page 25 | Manualshive

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TEC2664Z-3 BACnet® MS/TP Rooftop Controller for Stand-Alone and Networked Zoning Systems
Installation Instructions

25

Metasys® and Johnson Controls® are registered trademarks of Johnson Controls, Inc.

All other marks herein are the marks of their respective owners. © 2011 Johnson Controls, Inc.

Building Efficiency

507 E. Michigan Street, Milwaukee, WI 53202

Technical Specifications

TEC2664Z-3 BACnet MS/TP Rooftop Controller for Stand-Alone and Networked Zoning Systems

Power Requirements

19 to 30 VAC, 50/60 Hz, 2 VA (Terminals 4 and 5) at 24 VAC Nominal, Class 2 or
Safety Extra-Low Voltage (SELV)

Analog Output Rating

0 to 10 VDC into 2k ohm Resistance (Minimum)

Auxiliary
Output Rating

Triac Output

19 to 30 VAC, 15 mA to 1 A Continuous Current, 3 A Peak In-Rush Current

Digital Input

Voltage-Free Contact across Terminal C to Terminal DI1

Analog Inputs

Resistive Inputs (RS, OS, and DS) for 10k ohm Johnson Controls Type II Negative
Temperature Coefficient (NTC) Thermistor Sensors

Static Pressure: 0 to 5 VDC for Full Static Pressure Range Selected

Temperature Sensor Type

Local 10k ohm NTC Thermistor

Wire Size

18 AWG (1.0 mm Diameter) Maximum, 22 AWG (0.6 mm Diameter) Recommended

TEC Zoning Control System
Guidelines

31 Zones Maximum per 1 Rooftop Controller

MS/TP Network Guidelines

32 Devices Maximum; 4,000 ft (1,219 m) Maximum Cable Length

Temperature
Range

Backlit
Display

-40.0°F/-40.0°C to 122.0°F/50.0°C in 0.5° Increments

Heating
Control

40.0°F/4.5°C to 90.0°F/32.0°C

Cooling
Control

54.0°F/12.0°C to 100.0°F/37.5°C

Accuracy

±0.9F°/±0.5C° at 70.0°F/21.0°C Typical Calibrated

Minimum Deadband

2F°/1C° between Heating and Cooling

Ambient
Conditions

Operating

32 to 122°F (0 to 50°C); 95% RH Maximum, Noncondensing

Storage

-22 to 122°F (-30 to 50°C); 95% RH Maximum, Noncondensing

Compliance

BACnet
International

BACnet Testing Laboratories™ (BTL) 135-2001 Listed BACnet Application Specific
Controller (B-ASC)

United States

UL Listed, File E27734, CCN XAPX
Under UL 873, Temperature Indicating and Regulating Equipment

FCC Compliant to CFR 47, Part 15, Subpart B, Class A

Canada

UL Listed, File E27734, CCN XAPX7
Under CAN/CSA C22.2 No. 24, Temperature Indicating and Regulating Equipment

Industry Canada, ICES-003

Europe

CE Mark - Johnson Controls, Inc., declares that this product is in compliance with the
essential requirements and other relevant provisions of the EMC Directive 2004/108/EC.

Australia and
New Zealand

C-Tick Mark, AS/NZS CISPR 22 Compliant
Supplier Code Number N10696

Shipping Weight

0.75 lb (0.34 kg)

The performance specifications are nominal and conform to acceptable industry standards. For application at conditions beyond these
specifications, consult the local Johnson Controls office. Johnson Controls, Inc. shall not be liable for damages resulting from misapplication or
misuse of its products.

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Summary of Contents for TEC2664Z-3 BACnet

Page 1: ...IMPORTANT The TEC2664Z 3 Rooftop Controller is intended to provide an input to equipment under normal operating conditions Where failure or malfunction of the rooftop controller could lead to personal injury or property damage to the controlled equipment or other property additional precautions must be designed into the control system Incorporate and maintain other devices such as supervisory or a...

Page 2: ...er condensation other liquids or corrosive or flammable vapors of any kind Mount the rooftop controller in an accessible location to allow for easy access to the user interface keys Do not mount the rooftop controller on surfaces that are prone to vibration or in areas where electromagnetic emissions inductive interference or radio frequency signals from other devices or wiring can interfere with ...

Page 3: ...f you need to install the rooftop controller on an electrical junction box use 2 1 2 x 4 in 63 x 101 mm square boxes with mud ring covers and avoid smaller 1 1 2 x 4 in 38 x 101 mm square or 3 x 2 in 76 x 51 mm boxes This procedure ensures you have enough space for cabling and end of line devices if needed Note For surface mount applications use durable mounting hardware such as Molly bolt anchors...

Page 4: ...e making electrical connections to avoid electric shock CAUTION Risk of Property Damage Do not apply power to the system before checking all wiring connections Short circuited or improperly connected wires may result in permanent damage to the equipment IMPORTANT Make all wiring connections in accordance with local national and regional regulations Do not exceed the electrical ratings of the TEC26...

Page 5: ...s RC and RH RH W1 W2 AU Aux DI1 SP Auxiliary Contact for Lighting On Off Actuation Exhaust Fan BPD 0 to 5 VDC Heating Stage II G Fan Output Scom RS OS Outside Air Sensor Discharge Air Sensor Remote Inputs Return Air Sensor Cooling Stage II Cooling Stage I Heating Stage I REF MS TP Connector RH W1 W2 Three Pole Right Top Connector 6 7 8 SP DI1 RS Scom Eight Pole Bottom Connector OS DS AU BPD 9 10 1...

Page 6: ...end of line terminator is required if a supervisory controller is not at the end of the segment If a supervisory controller is at the end of the segment then the end of line terminator switch on the supervisory controller must be set in the ON position Note See Table 6 for end of line terminator ordering information For applications with a supervisory controller on the MS TP Bus set the supervisor...

Page 7: ... See Main User Menu on page 8 access the Installer Configuration Menu or to exit the menu See Configuring the TEC2664Z 3 Rooftop Controller on page 8 Use the UP DOWN arrow keys to change the configuration parameters and to activate a setpoint adjustment Light Emitting Diodes LEDs Three LEDs are included to indicate the fan status and to show a call for heating or a call for cooling The LED is on w...

Page 8: ...parameter displays use the YES key to choose the desired selection option 4 Press the YES key and then the NO key to continue scrolling through the parameters When the rooftop controller is in the Installer Configuration Menu and left unattended for approximately 8 seconds the rooftop controller reverts to the Auto Scroll Display Refer to the TEC Zoning Control System for Stand Alone and BACnet MS...

Page 9: ...e three highest PI Heating or Cooling demands controls the rooftop controller AV_H5 The average of the five highest PI Heating or Cooling demands controls the rooftop controller Dis HL4 Sets the Discharge Air High Limit temperature value at which the heating stages are locked Default 120 0 F 49 0 C Range 70 0 F 21 0 C to 150 0 F 65 5 C Dis LL4 Sets the Discharge Air Low Limit temperature value at ...

Page 10: ...r Service A Service alarm is displayed on the rooftop controller when the input is energized This input can be tied into the air conditioning unit control card which provides an alarm should there be a malfunction TOccTime Sets the duration of the Temporary Occupancy Time when the heating or cooling setpoints in the Occupied mode are established by an Override Function enabled in the Main User Men...

Page 11: ...ct open Occupied contact closed Unoccupied n o Contact closed Occupied contact open Unoccupied Note The contact toggles with the internal Occupied Unoccupied schedule or the remote NSB contact if DI1 is used Prog rec Enables Progressive recovery Default off Note Progressive recovery is automatically disabled if DI1 is configured for remote NSB on Progressive recovery enabled Note The programmed Oc...

Page 12: ...500 Pa 1 RTC MAC is the unique device address of the rooftop controller from 004 to 127 on the MS TP network 2 Local Unocc Override appears only when in the Unoccupied mode 3 When adjusting the numeric value press the UP or DOWN arrow key to change the value by single increments press and hold the UP or DOWN arrow key to change the numeric value in increments of ten 4 When adjusting the temperatur...

Page 13: ... the onboard sensor readings of the rooftop controller The user can choose between a single highest PI demand an average of the three highest PI demands or an average of the five highest PI demands Using the five highest PI demands as an example five buffers are required in the BACnet module of the rooftop controller for the PI heating demand and five additional buffers are required for the PI coo...

Page 14: ... Cooling Setpoint Heating Setpoint AO1 FIG cntrl_crv_1 Figure 10 Zone Controller Set for No Reheat AO2 0 VDC and BO5 Off Rooftop Controller in Heating Mode Cooling Setpoint Heating Setpoint AO1 FIG cntrl_crv_2 Figure 11 Zone Controller Set for Analog Duct Reheat Only BO5 Off Rooftop Controller in Cooling Mode Cooling Setpoint If AO2 stage is locked then AO1 minimum position Heating Setpoint AO1 AO...

Page 15: ...troller Set for Analog Duct Reheat Only BO5 Off Rooftop Controller in Heating Mode Cooling Setpoint Heating Setpoint AO1 AO2 FIG cntrl_crv_4 Figure 13 Zone Controller Set for On Off Duct Reheat Only AO2 0 and On Off Reheat Time Base 10 Seconds Rooftop Controller in Cooling Mode Cooling Setpoint Heating Setpoint A01 B05 FIG cntrl_crv_5 ...

Page 16: ...troller Set for On Off Duct Reheat Only AO2 0 and On Off Reheat Time Base 15 Minutes Rooftop Controller in Cooling Mode Cooling Setpoint Heating Setpoint AO1 B05 FIG cntrl_crv_6 Cooling Setpoint Heating Setpoint AO1 B05 FIG cntrl_crv_7 Figure 15 Zone Controller Set for On Off Duct Reheat Only AO2 Off Rooftop Controller in Heating Mode ...

Page 17: ...ontroller Set for On Off Peripheral Reheat Only AO2 0 Rooftop Controller in Cooling Mode Cooling Setpoint Heating Setpoint AO1 B05 AO1 FIG cntrl_crv_8 Figure 17 Zone Controller Set for Terminal Reheat on AO2 and Peripheral Heating on BO5 Rooftop Controller in Cooling Mode Cooling Setpoint Heating Setpoint AO1 AO2 B05 FIG cntrl_crv_9 ...

Page 18: ...nd Alone and Networked Zoning Systems Installation Instructions 18 Figure 18 Zone Controller Set for Terminal Reheat on AO2 and Peripheral Heating on BO5 Rooftop Controller in Heating Mode Cooling Setpoint Heating Setpoint AO1 AO2 B05 FIG cntrl_crv_10 ...

Page 19: ... 3 Rooftop Controller See Rooftop Controller User Interface Keys on page 7 for a description of the five user interface keys Figure 19 shows a flow chart of the Main User Menu The system mode can be set to either Off or Auto The Auto mode allows the rooftop controller to determine from the average PI demand if a network is detected or from the return air sensor PI demands if a network is not detec...

Page 20: ...wer failure of more than 6 hours DAS Alrm This alarm indicates a high or low alarm at the discharge air sensor If no discharge air sensor is connected 40 0 F 40 0 C reading the associated functions such as lockouts and alarms are disabled If the discharge air sensor is shorted 122 0 F 50 0 C reading the associated functions such as lockouts and alarms are enabled Service This alarm indicates there...

Page 21: ... F or C Pressure x x W C or Pa Zone Seq Cool Zone Seq Heat Effective PI Heat Demand at the Rooftop Unit Effective PI Cool Demand at the Rooftop Unit Highest PI Heat Demand Zone Address Highest PI Cool Demand Zone Address Heat Out xxx Cool Out xxx Heat MAC xxx Cool MAC xxx 1 The outdoor temperature displays only if an outside air temperature sensor is installed If an outside air temperature sensor ...

Page 22: ...tion Figure 20 Heating Cooling Stages Handling FIG htng_clng Figure 21 Bypass Damper Sequence Start G Fan Output On Bypass Damper Output Based on Static Pressure Input No Yes Bypass Damper Loop Disabled Bypass Damper Position 100 Forced Open 10 VDC Exit Exit FIG byps_dmpr Figure 22 System Mode and Fan Operation FIG systm_mde_fn_oprtn ...

Page 23: ...ions 23 Figure 23 Zone Sequence Selection System Mode Off Zone Sequence Cool Avg PI Heating Demand Avg PI Cooling Demand Zone Sequence Heat NO NO Avg PI Cooling Demand Avg PI Heating Demand Zone Sequence Cool NO Avg PI Cooling Demand Avg PI Heating Demand Zone Sequence Stays in Existing Mode FIG zn_sqnc_slctn ...

Page 24: ...rol TEC2664Z 3 Rooftop Controller for Control of Up to Two Stages of Heating and Two Stages of Cooling in Rooftop Proportional Bypass Damper Fan and Zone Demand Strategies Table 6 Accessories Order Separately Code Number Description SEN 600 1 Remote Inside Air Temperature Sensor TE 6361M 11 Duct Mount Air Temperature Sensor Metal Enclosure TE 6363P 11 2 Outside Air Temperature Sensor Plastic Enclo...

Page 25: ...lines 32 Devices Maximum 4 000 ft 1 219 m Maximum Cable Length Temperature Range Backlit Display 40 0 F 40 0 C to 122 0 F 50 0 C in 0 5 Increments Heating Control 40 0 F 4 5 C to 90 0 F 32 0 C Cooling Control 54 0 F 12 0 C to 100 0 F 37 5 C Accuracy 0 9F 0 5C at 70 0 F 21 0 C Typical Calibrated Minimum Deadband 2F 1C between Heating and Cooling Ambient Conditions Operating 32 to 122 F 0 to 50 C 95...

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