Roof Top Unit (RTU), Heat Pump and Indoor Air Quality (IAQ) Firmware Revision 2.5.1
IMPORTANT INFORMATION
Read these instructions carefully and inspect the equipment to become familiar with the device before trying to install, operate, service or maintain it. The following special messages may appear throughout this bulletin or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
PLEASE NOTE
Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material.
A qualified person is one who has skills and knowledge related to the construction, installation, and operation of electrical equipment and has received safety training to recognize and avoid the hazards involved.
LOSS OF CONTROL
WARNING
ELECTROSTATIC DISCHARGE
NOTICE
STATIC SENSITIVE COMPONENTS
Circuit boards and option cards can be damaged by static electricity. Observe the electrostatic precautions below when handling controller circuit boards or testing components.
Failure to follow these instructions can result in equipment damage.
Observe the following precautions for handling static-sensitive components
INSTALLATION
NOTICE
UNAUTHORIZED USB ACCESS
NOTICE
To prevent unauthorized access to the Room Controller via USB, it is recommended that
UNAUTHORIZED USB ACCESS
NOTICE
To prevent unauthorized access to the Room Controller via USB, it is recommended that:
LOCATION
NOTICE
CLEANING THE ROOM CONTROLLER
NOTICE
SpaceLogic SE8650 Description / Application | Used in applications |
IAQ, HP & RTU | |
Internal Temperature | X |
1- BO1 | Aux |
2- BO2 | Y2 |
3- BO3 | Y1 |
4- BO4 | G |
5- RC | RC (24 Vac) |
6- C | Common |
7- RH | RH |
8- BO8 | W1 |
9- UO9 | W2 / OB |
10- UO10 | Econo (0-10 Vdc) |
11- UO11 | Heat (0-10 Vdc), set “Heat Stages” to 0 to enable |
12- UO12 | Dehumidification output (24 Vac On/Off) |
13- RS485 + | BACnet (+) |
14- RS485 – | BACnet (-) |
15- RS485 Ref | BACnet Ref. (do not sire shield in this terminal) |
16- UI16 | UI16 (multifunction input) |
17- UI17 | UI17 (multifunction input) |
18-Scom | Common |
19- UI19 | CO2 (0-10 Vdc input) |
20- UI20 | RS (Remote sensor input 10K, type 2 thermistor) |
21-Scom | Common |
22- UI22 | SS (Supply sensor input 10K, type 2 thermistor) |
23- UI23 | OS (Outside sensor input 10K, type 2 thermistor) |
24- UI24 | Airflow (0-10 Vdc input) |
Model no. | Description |
S3010W1031 | Wall-mounted temperature sensor |
S3020W1031 | Wall-mounted temperature sensor with override button and occupancy status LED |
NOTE:
If one or multiple sensor(s) is/are connected to the RS terminal, the internal temperature sensor is automatically disabled. Disconnecting the sensor(s) in the RS terminal will re-activate the internal sensor.
Remote mount temperature sensor inputs use 10K type 2 NTC thermistors.
Features:
Each sensor can be configured for various averaging combinations. Refer to S3000 series remote sensors for more details.
Temperature vs. resistance chart for 10 Kohm NTC thermistor (R25°C = 10KΩ±3%, B25/85°C = 3975K±1.5%)
ºC | ºF | Kohm | ºC | ºF | Kohm | ºC | ºF | Kohm | ºC | ºF | Kohm | ºC | ºF | Kohm | ||||
-40 | -40 | 324.3197 | -20 | -4 | 94.5149 | 0 | 32 | 32.1910 | 20 | 68 | 12.4601 | 40 | 104 | 5.3467 | ||||
-35 | -31 | 234.4009 | -15 | 5 | 71.2430 | 5 | 41 | 25.1119 | 25 | 77 | 10.0000 | 45 | 113 | 4.3881 | ||||
-30 | -22 | 171.3474 | -10 | 14 | 54.1988 | 10 | 50 | 19.7390 | 30 | 86 | 8.0694 | 50 | 122 | 3.6202 | ||||
-25 | -13 | 126.6109 | -5 | 23 | 41.5956 | 15 | 59 | 15.6286 | 35 | 95 | 6.5499 | 55 | 131 | 3.0016 |
RTU: 2 HEATING / 2 COOLING
RTU: 2 COOLING / MODULATING HEAT
2 COMPRESSORS, AUXILIARY HEAT AND ECONOMIZE
TYPICAL HOSPITALITY USER INTERFACE SHOWN
NOTE: User HMI is configurable and allows display functions such as Outdoor Temperature, Setpoint, and other buttons to be enabled or disabled by setting various parameters in the setup screens.
APPENDIX A. TERMINAL CORRESPONDENCE
The terminals of a SE8650 are identified differently and have a wider range of possible functions compared to those of any of the SE7000 Room Controllers. Nonetheless, there is a direct correspondence of functions between the terminals of the SE7000 and the SE8650. Consult the table below to verify the appropriate terminal when replacing a SE7000 Room Controller with a SE8650 Room Controller.
SE7000 | SE8650 | ||
Terminal name | Terminal ID | Terminal name | Terminal ID |
Binary Input 1 | BI1 | Universal Input 16 | UI16 |
Binary Input 2 | BI2 | Universal Input 17 | UI17 |
Universal Input 3 | UI3 | Universal Input 19 | UI19 |
Sensor Common | Scom | Terminal 18 Common | COM |
Remote Sensor | RS | Universal Input 20 | UI20 – RS |
Sensor Common | Scom | Terminal 21 Common | COM |
Mix/Supply Sensor | MS | Universal Input 22 | UI22 – SS |
APPENDIX B. POWER OUTAGE CLOCK RESET
In the event of a power outage, Room Controllers retain the correct time as long as the duration of the power outage is not prolonged.
Depending on the duration of the power outage, the Room Controllers’ internal clock may need to be updated or reset completely. The following table indicates the expected clock performance after a power outage of a given duration.
Outage duration | Room Controller behavior |
0 – 24 hours | Clock functions are normal |
24 – 36 hours | Clock accuracy not guaranteed, time may need to be adjusted |
36 – 72 hours | Clock no longer increments and must be adjusted when power is restored. |
72+ hours | Clock functions are fully reset, and must be reinitialized as per a new installation. |
APPENDIX C. DEPLOYMENT
The placement of the Room Controller must be given consideration. It is recommended to install the Room Controller as close to a door as possible (without being blocked by the door), or in an area with high occupant movement.
Ideally, the Room Controller should be installed 5 feet (1.5 meters) above the floor surface to ensure maximum detection range is achieved. As well, Room Controller placement should ensure the occupant crosses the lens beam in a perpendicular path within the prescribed detection zone.
EXAMPLE OF RECOMMENDED DEPLOYMENT
The below shows Room Controllers installed in ideal locations for two rooms.
The examination room shows one Room Controller installed adjacent to the door. In this area of the room, occupant traffic is high and ensures the occupant will almost always cross the PIR detection path laterally and within the detection range.
The waiting room shows one Room Controller installed beside a door in the middle of the room. As shown in the diagram below, occupant traffic is high in several areas of the room including the entrance, waiting room, access to the door and activity around the reception desk.
EXAMPLE OF NON-RECOMMENDED DEPLOYMENT
The below shows four Room Controllers (two for each room) installed in non-ideal locations for the two rooms.
The examination room shows one Room Controller installed in a low traffic area near the door, and a second Room Controller installed on the wall directly opposite the door. For the Room Controller installed in the corner wall, the PIR could be blocked by the opened door, while occupant traffic could also be minimal in this area of the room. For the second Room Controller installed opposite the door, the PIR detection could fall outside the specified detection zone, while at the same time most occupant movement would not be lateral to the PIR, thereby not respecting optimal crossing patterns for PIR detection.
The waiting room shows one Room Controller installed in the corner of the room, and a second Room Controller installed beside the reception area. For the Room Controller installed in the corner, the opening/closing of the door creates a high probability that the PIR would get blocked, and therefore, occupancy going undetected. For the Room Controller installed beside the reception area, occupant traffic could fall outside the detection zone, and the receptionist would often be below the 5-foot recommended installation height for the Room Controller.
ROOM CONTROLLER PIR SENSOR DETAILS
The internal Room Controller PIR sensor only detects lateral movement. It cannot detect movement when a person is moving toward it. It will not detect someone seating on a chair and/or lying on the bed.
RECOMMENDATIONS FOR INSTALLATIONS
ENERGY SAVINGS
PIR can maximize your energy saving from 10-30% by adjusting temperature set points in unoccupied zones during scheduled periods.
APPENDIX D. CALIFORNIA PROPOSITION 65 WARNING STATEMENT FOR CALIFORNIA RESIDENTS
WARNING: This product can expose you to chemicals including Lead, which is known to the State of California to cause cancer and birth defects or other reproductive harm, and Bisphenol A (BPA), which is known to the State of California to cause birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov.
For any issues with EcoStruxure Building, contact Schneider Electric
Technical Support according to your region.
North America (NAM) Product Support
Building Management Systems (BMS): www.nampss.com
Global Product Support
Building Management Systems (BMS): productsupport.BMS@schneider-electric.com
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