Document No. 129-564 EcoView Thermostat Product Description This document covers the installation and commissioning of the EcoView thermostat and sensors components the EcoView system. See the following documents for installation of other EcoView system components: EcoView 8 DO Module Installation and Commissioning (129-565) EcoView Multi-Phase Meter Installation Instructions (129-563) EcoView Touchscreen Installation and Commissioning (129-562) Product Number 97-001 EcoView Thermostat Caution Notations CAUTION: Required Tools Screwdriver Electric drill Equipment damage or loss of data may occur if you do not follow the procedures as specified. This thermostat is a direct replacement and should accept the same wires. However, if the AC unit is configured as a heat pump, there are settings that can be adjusted in the configuration menu on the thermostat. Remove the existing thermostat before proceeding. Ensure that there is 24 Vac present at the COM and RH terminals. If it is not present, ensure that it is run from the HVAC unit. COM is typically the blue wire, although on some thermostats it can be a black wire. Installation 1. Remove the base plate from the thermostat housing by pulling straight up. 2. Install the thermostat base plate. a. Feed the existing wires through the opening in the base plate. b. Secure the base plate to the mounting surface using appropriate hardware. Expected Installation Time 15 minutes CAUTION: If thermostat security enclosures are required, they must be non-metallic so they will not interfere with the radio transmission. Prerequisites Power off the AC unit before attempting removal of the existing thermostat. Thermostat wires are typically color coded. If not, you must make note of which terminal designator each wire was attached to. Figure 1. Thermostat Base Plate. If 24 Vac was present at the thermostat, skip Step 3 and proceed to Step 4. Item Number 129-564, Rev. CA Page 1 of 7
3. If 24 Vac was not present at the thermostat: Locate the 24 Vac transformer or 24 Vac on the terminal strip typically located behind an access panel on the AC unit. Attach an unused thermostat wire to the 24 Vac return. Attach the other end of the unused wire to the thermostat RH or RC terminal. 4. Attach the existing wires to the appropriate terminals on the thermostat base plate. 5. Replace the thermostat housing The installation is complete. Thermostat Setup 10. Press Select. 11. A prompt will be displayed asking to Add the thermostat to the network. Press the up arrow to accept only if the prompt displayed does not ask to Remove the thermostat from the network. 12. Press Exit and Done to return to the main menu. 13. Use the down arrow to scroll down to ZigBee Network Info. 14. Press Select. 15. Ensure that the network says Open, and that the status says Installed. 16. Press Done to return to the main screen. Thermostat Activation 1. Remove thermostat from the back plate, and wait 10 seconds. 2. Reinstall the thermostat to the back plate. This will reboot the thermostat. If this is not completed, the thermostats may not communicate properly. Figure 2. Thermostat. Program the thermostat using the four buttons across the bottom, and up/down arrows to the right of the screen. 1. Press the MENU button to access the menu. 2. Hold the two middle buttons simultaneously while on the first menu to access the Installer Menu. 3. Scroll to System Settings using the up/down arrows. 4. Press Select. 5. Use the down arrow to scroll down to Mechanical Settings. 6. Press Select. 7. Enter package unit specifics (number of stages, unit type, and so on). See Thermostat Settings for additional information. 8. Press Done twice to return to the main menu. 9. Use the down arrow to scroll down to ZigBee install. Page 2 of 7 Thermostat Commissioning 1. Press the Setup button. 2. Press the Device Network tab. 3. The MAC address will show in the Unassigned Node section of the screen. 4. Press the MAC address to be assigned (it will highlight). 5. Select the thermostat to be assigned. 6. Press Exit. Assign the thermostats in order. 7. Repeat Steps 1 through 6 for each device. Remote Sensors If the thermostats are all located in a central location, then more than likely there are remote sensors in various locations throughout the building. The remote sensors require 22 gauge, Twisted Shielded Pair wire. The maximum remote sensor distance is 150 feet, but < 100 feet is preferred. 1. The remote sensor (see Figure 3) has two wires. These wires are not polarized, and may need to be interchanged.
ECO0015R1 Figure 3. Remote Sensor 97-002. 2. Run the remote sensor wires from the sensor to the two terminals marked RSI on the thermostat base plate (see Figure 1), through the same hole as the existing thermostat wires. 3. Keep the wiring at least one foot away from large inductive loads such as motors, line starters, lighting ballasts, and distribution panels. Shielded cable is required in all installations. Use cable similar to a Belden DFLEX3, and attach the shield to 24C on the thermostat base plate (see Figure 1). Leave the other end of the shield unattached. Refrigeration Sensors Refrigeration sensors are an option, and are installed in the same manner as the remote sensors. 1. The refrigeration sensor is the same as the remote sensor. It has two wires. These wires are not polarized, and may be interchanged. 2. Run the refrigeration sensor wires from the sensor to the two terminals marked on the thermostat base plate (see Figure 1) through the same hole as the existing thermostat wires. 3. Locate the refrigeration sensor in the center of the walk-in freezer or refrigerator. 4. Run the wires by puncturing a small hole in the wall of the walk-in, and feeding the wires through. 5. Use silicone to completely seal the area around the wires. 6. Keep the wiring at least one foot away from large inductive loads such as motors, line starters, lighting ballasts, and distribution panels. Shielded cable is required in all installations. Use cable similar to a Belden DFLEX3, and attach the shield to 24C on the thermostat base plate (see Figure 1). Leave the other end of the shield unattached. Page 3 of 7
Wiring Diagrams Thermostat back Rev K Remote Sensors JP1 Internal RC/RH Jumper On the Circuit Board Cut For Separate Heating & Cooling Transformer Systems HVAC System 24Com 24RC 24RH W1 Heat 1 G Fan Y1 Comp 1 Heat 2 W2/O/B Comp 2 Y2 Non-polarized Wiring HVAC System Thermostat Connection ECO0037R1 C 24Vac Common RC 24Vac Return W1 Heating Stage 1 Fan Y1 Cooling Stage 1 W2 Heating Stage 2 Y2 Cooling Stage 2 Figure 4. Revision K Thermostat Standard Gas/Electric Wiring. Installation Notes: Standard HVAC System Setup System Type: Set the system type to Gas/Elect in the Mechanical Settings menu of the Installer Setup. This is the default setting. Single-Stage Systems: Use W1 for heating stage 1 and Y1 for cooling stage 1. Two-Stage Heating Systems: Use W1 for stage 1 and W2 for stage 2 heating. Two-Stage Cooling Systems: Use Y1 for stage 1 and Y2 for stage 2 cooling. HVAC System Transformer: If you have an integrated heating and cooling system with a single transformer, do NOT cut jumper JP1. Wire the HVAC system s 24VAC common (blue wire) to the 24COM terminal, and the 24VAC Return (red) wire to either 24RH or 24RC terminal. This is typical of most central systems. If you have separate heating and cooling systems with separate transformers, cut jumper JP1. Wire the heating 24V R (red) wire to the thermostat s 24RH terminal. Wire the cooling system s 24V R (red) wire to the thermostat s 24RC terminal. Also wire the cooling system s 24VAC Common (blue wire) to the thermostat s 24COM terminal. Page 4 of 7
Thermostat back Rev K Remote Sensors JP1 Internal RC/RH Jumper On the Board HVAC System 24Com 24RC 24RH W1 Heat 1 G Fan Y1 Comp 1 C/O Valve W2/O Comp 2 Y2 Non-polarized Wiring HVAC System Thermostat Connection ECO0036R1 C 24Vac Common RC 24Vac Return W1 Aux Heating Fan Y1 Cooling Stage 1 O/B Change Over Valve Y2 Cooling Stage 2 Figure 5. Revision K Thermostat Heat Pump Wiring. Installation Notes: Heat Pump HVAC System Setup System Type: Set the mechanical system type to Heat Pump in the Installer Settings Menu. Single-Stage Compressor Systems: Use Y1 for stage 1 heating/cooling, and W1 for stage 2 Aux heating. Two-Stage Compressor Systems: Use Y1 for stage 1, Y2 for stage 2 heating/cooling, and W1 for stage 3 Aux heating. Changeover Valve: You must configure the thermostat s changeover valve setting to work correctly with your HVAC system. Check your system information to verify. Changeover settings are made in the Installer Settings System Settings Mechanical Settings menu. Changeover with cool is the default setting, and typical for most systems. If you get cooling when you expect heating, change the changeover type to the opposite setting. HVAC System Transformer: Heat Pump systems have one system transformer. Do not cut the RC/RH jumper. Wire the HVAC system s 24VAC common (blue wire) to the 24COM terminal, and the 24VAC return (red wire) to the 24RC or 24RH terminal. Page 5 of 7
FCC and IC Interference Requirements: This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions (1) this device may not cause harmful interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. «Ce dispositif est conforme à la partie 15 des règles de FCC et aux normes permis-exemptes du Canada RSS d'industrie. L'opération est sujette aux deux conditions suivantes (1) que ce dispositif peut ne pas causer l'interférence nocive, et (2) ce dispositif doit accepter n'importe quelle interférence, y compris l'interférence qui peut causer le fonctionnement peu désiré du dispositif.» Per RSS-Gen Issue 3 (December 2010 Section 7.1.3) FCC Note: This device complies with Part 15 of the FCC rules. Changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment. FCC and IC Radiation Exposure Statement for Mobile Devices This equipment complies with FCC and IC radiation exposure limits set forth for an uncontrolled environment. This equipment shall be installed and operated with minimum distance 20cm between the radiator and your body. This transmitter must not be re-located or operating in conjunction with any other antenna or transmitter. FCC Code of Federal Regulations Title 47 Part 15.105: Information to the user: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Reorient or relocate receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/tv technician for help. For industry Canada user: This Class B digital apparatus complies with Canadian ICES-003 Issue 4 (February 2004). «Cet appareillage numérique de la classe B est conforme ICES-003 à l'issue canadienne 4 (le février 2004).» (For compliance with FCC Code of Federal Regulations Title 47 Part 2.1093) Page 6 of 7
Antenna: Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. «Aux termes des règlements du Canada d'industrie, cet émetteur radioélectrique peut seulement fonctionner utilisant une antenne d'un type et (ou moins) d'un gain maximum approuvés pour l'émetteur par Industry Canada. Pour ramener des interférences radio potentielles à d'autres utilisateurs, on devrait ainsi choisir le type d'antenne et son gain que l'équivalent a isotropically rayonné la puissance (e.i.r.p.) n'est pas plus que celui nécessaire pour la communication réussie.» Information in this publication is based on current specifications. The company reserves the right to make changes in specifications and models as design improvements are introduced. EcoView is a trademark of Other product or company names mentioned herein may be the trademarks of their respective owners. 2011 Building Technologies Division Retail and Commercial Systems 1000 Deerfield Parkway Buffalo Grove, IL 60089-4513 USA +1 847-215-1000 For EcoView system support, please call 1 + 877-306-9400 Your feedback is important to us. If you have comments about this document, please send them to SBT_technical.editor@siemens.com Document No. 129-564 Printed in the USA Page 7 of 7