SpaceLogic* MP-V is a multi-purpose, fully programmable, IP based field controller dedicated for VAV cooling and heating applications. MP-V integrates a controller, a damper actuator, and an air flow sensor in a single compact package for ease of installation. MP-V can either be used as a standalone BACnet/IP controller or as part of an EcoStruxure BMS with a SpaceLogic AS-P or AS-B server or an Enterprise Server as the parent server. MP-V comes in two models with different I/O count.
The MP-V has the following features:
IP enabled with dual-port Ethernet switch
Integrated damper actuator with feedback signal
Factory-calibrated air flow sensor
Highly available
Sensor bus for living space sensors
Mobile commissioning application
Full EcoStruxure Building Operation software support, providing efficient engineering tools
* Formerly known as SmartX.
The BACnet/IP controllers are based on open protocols that simplify interoperability, IP configuration, and device management:
IP addressing
BACnet/IP communications
DHCP for easy network configuration
The BACnet/IP controllers have a dual-port Ethernet switch, which enables flexible network topologies:
Star
Daisy chain
Rapid Spanning Tree Protocol (RSTP) ring
In a star topology, the controller and the parent EcoStruxure BMS server are individually connected to an Ethernet switch. Daisy-chain multiple controllers together to reduce installation time and cost. In the event of a broken IP network or a non-operational controller, RSTP will enable rapid identification of the location of the detected error while maintaining communication with the controllers on either side of the break.
MP-V comes in two models with different I/O point count and a versatile mix of I/O point types that match a wide variety of VAV applications.
I/O Point Types |
MP-V-7A |
MP-V-9A |
Universal inputs |
3 |
4 |
Triac outputs |
3 |
3 |
Analog outputs |
1 |
2 |
Configurations |
Universal Inputs |
Triac Outputs |
Analog Outputs |
Digital inputs |
yes |
- |
- |
Counter inputs |
yes |
- |
- |
Supervised inputs |
yes |
- |
- |
Voltage inputs (0 to 10 VDC) |
yes |
- |
- |
Current inputs (0 to 20 mA) |
yes |
- |
- |
Temperature inputs |
yes |
- |
- |
Resistive inputs |
yes |
- |
- |
2-wire RTD temperature inputs |
yes |
- |
- |
Digital outputs |
- |
yes |
- |
Digital pulsed outputs |
- |
yes |
- |
PWM outputs |
- |
yes |
- |
Tristate outputs |
- |
yes |
- |
Tristate pulsed outputs |
- |
yes |
- |
Voltage outputs (0 to 10 VDC) |
- |
- |
yes |
Current outputs (0 to 20 mA) |
- |
- |
yes |
The universal inputs are ideal for any mix of temperature, pressure, flow, status points, and similar point types in a building control system.
As counter inputs, they are commonly used in energy metering applications. As RTD inputs, they are ideal for temperature points in a building control system. As supervised inputs, they are used for security applications where it is critical to know whether or not a wire has been cut or shorted. These events provide a separate indication of alarms and events in the system.
For all analog inputs, maximum and minimum levels can be defined to automatically detect over-range and under-range values.
The triac outputs can be used in many applications to switch 24 VAC on or off for external loads such as actuators, relays, or indicators. The triac outputs are isolated from the controller. Triacs are silent and are not adversely affected by relay contact wear.
The analog outputs are capable of supporting analog voltage or current point types, without the need for external bias resistors. Therefore, analog outputs support a wide range of devices, such as actuators.
For applications that require more I/O resources, the SpaceLogic IP-IO modules provide a versatile mix of I/O points for any application. For more information, see the SpaceLogic IP-IO Specification Sheet.
The integrated damper actuator allows for simplified installation of MP-V directly over the damper shaft. This means that separate installation, wiring, and positioning of the damper motor is not needed. MP-V uses the same actuator mechanics as many Schneider Electric VAV controller models from the Andover Continuum, TAC Vista, TAC I/A Series, and TAC I/NET product lines. The feedback signal from the actuator makes it possible to determine the exact position of the damper. The actuator also features a push button for manual positioning of the damper during commissioning.
The factory-calibrated air flow sensor uses a state-of-the-art technology that requires no air flow from the velocity probe. Unlike flow-through sensors, the sensor does not impose rigid requirements on tubing, dust, or filters, and the sensor is not affected by errors induced on the local probe pressure readings. The sensor requires no maintenance and a minimum of field adjustments.
The BACnet/IP controllers support local trends, schedules, and alarms, enabling local operation when the controller is offline or used in standalone applications.
With user-defined fallback values, the IP-IO outputs will be in a predictable state in cases of network disruption.
The battery-free power backup of the memory and real-time clock helps prevent data loss and allows seamless and quick recovery after a power disruption.
In WorkStation, you update the firmware of multiple BACnet/IP controllers at the same time and with minimum down time. The EcoStruxure BMS server keeps track of the installed firmware to support backup, restore, and replacement of the controllers and sensors. The server can host controllers of different firmware versions.
The BACnet/IP controllers provide an interface designed for the SpaceLogic Sensor family of living space sensors. The SpaceLogic Sensor devices offer an efficient way to sense the temperature, humidity, CO 2 , and occupancy in a room. The SpaceLogic Sensor devices are available with different combinations of sensor types and various covers and user interface options, such as touchscreen, setpoint and override buttons, and blank covers.
The sensor bus provides both power and communications for up to four sensors that are daisy-chained using standard Cat 5 (or higher) cables. The maximum number of sensors that can be connected to a controller varies depending on the sensor model and the combination of cover and sensor base type:
Blank covers: Up to four sensors of any combination of sensor base types
3-button and touchscreen covers:
Up to two sensor bases with CO 2 option
Up to four sensor bases without CO 2 option
SpaceLogic LCD temperature sensors: Up to four sensors are supported
The maximum total length of the sensor bus is 61 m (200 ft). For more information, see the SpaceLogic Sensors - SXWS Sensors for MP and RP IP Controllers - Specification Sheet.
The eCommission SmartX Controllers mobile application is designed for local configuration, field deployment, and commissioning of BACnet/IP controllers, and air flow balancing of VAV units. The mobile application reduces the commissioning time, allows flexibility in project execution, and minimizes dependencies on network infrastructure.
The mobile application is designed for use with Android, Apple (iOS), and Microsoft Windows 10 devices. For more information, see the eCommission SmartX Controllers Specification Sheet.
Using the eCommission SmartX Controllers mobile application, you can connect to one or many BACnet/IP controllers. You can connect to a single BACnet/IP controller using the Commission Bluetooth Adapter connected to a SpaceLogic Sensor. Using a wireless access point or a network switch, you can connect to a network of BACnet/IP controllers on the local IP network.
With the eCommission SmartX Controllers mobile application, you can easily discover BACnet/IP controllers on the IP network. You can change the configuration of each controller, including the BACnet and IP network settings, location, and parent server. To save engineering time, you can save common device settings and then reuse them for controllers of the same model.
The eCommission SmartX Controllers mobile application does not require an EcoStruxure BMS server or a network infrastructure to be in place. You can use the mobile application to load the controller application directly into the local BACnet/IP controller and deploy the controller. The controller application can be created offline using Project Configuration Tool or WorkStation. You can also perform an I/O checkout to verify that the controller's I/O points are configured, wired, and operating correctly.
Using the eCommission SmartX Controllers mobile application, you can perform air flow balancing of VAV units controlled by MP-Vs. An intuitive workflow automatically guides you through the process. After the flow balancing, you can generate a report in HTML format for one or more VAV units. The balancing parameters associated with each MP-V are stored in the parent server, which makes it easier to replace the controller if necessary.
The power of the BACnet/IP controller is fully realized when it is part of an EcoStruxure BMS, which provides the following benefits:
WorkStation/WebStation interface
Script and Function Block programming options
Device discovery
Engineering efficiency
WorkStation and WebStation provide a consistent user experience regardless of which EcoStruxure BMS server the user is logged on to. The user can log on to the parent EcoStruxure BMS server to engineer, commission, supervise, and monitor the BACnet/IP controller and its I/O as well as its attached SpaceLogic Sensor devices. For more information, see the WorkStation and WebStation specification sheets.
Unique to the industry, the BACnet/IP controllers have both Script and Function Block programming options. This flexibility assures that the best programming method can be selected for the application. Existing programs can easily be reused between the EcoStruxure BMS server and the controller.
The enhanced Device Discovery in WorkStation enables you to easily identify BACnet/IP controllers on a BACnet network and to associate the controllers with their parent server.
The engineering and maintenance of BACnet/IP controllers can be done very efficiently using the EcoStruxure Building Operation reusability features. With these features, you can create library items (Custom Types) for a complete controller application that contains programs and all necessary objects such as trends, alarms, and schedules. The controller application in the Custom Types library is reusable across all controllers of the same model. You can use the controller application as a base for creating new controllers intended for similar applications. You can then edit the controller application, and the changes are automatically replicated to all controllers, while each controller keeps its local values.
WorkStation supports both online and offline engineering of BACnet/IP controllers. You can make the configuration changes online or use database mode to make the changes offline. In database mode, the changes are saved to the EcoStruxure Building Operation database so that you can apply the changes to the controllers later.
Project Configuration Tool enables you to perform all the engineering off site, without the need for physical hardware, which minimizes the time you need to spend on site. You can run the EcoStruxure BMS servers virtually and engineer the BACnet/IP controllers before you deploy your server and controller applications to the servers and controllers on site. For more information, see the Project Configuration Tool specification sheet.
In addition, you can use Automated Engineering Tool to facilitate your engineering process when using BACnet/IP controllers. This tool provides access to a library of standard controller applications that can be quickly configured and customized using the wizards and mass edit functions provided in the tool. You can then load these customized applications into your target server. The tool also enables the quick creation of your own templates based on BACnet/IP controller applications that you have developed. These templates facilitate a standard approach and easy reuse and duplication of common controller applications. For more information, see the Automated Engineering Tool specification sheet.
Product |
Part number |
MP-V-7A
|
SXWMPV7AX10001
|
MP-V-9A
|
SXWMPV9AX10001
|
Spare terminal blocks for all MP-V models
(1 x 2-pin, 2 x 3-pin, 2 x 4-pin, 1 x 5-pin, 1 x 6-pin terminal blocks)
|
SXWMPVCON10001
|
Adapter for damper shaft diameter 9.5 mm (0.375 inch)
|
AM-135
|
In-line air filter |
01-2100-272 |
SpaceLogic Bluetooth Adapter
|
SXWBTAECXX10001
|
For more information on part numbers for Network Connectivity Accessories, see the Für weitere Informationen siehe Product Selection Guide - EcoStruxure Building ..
AC input | ||||||||||
Nominal voltage
|
24 VAC
|
|||||||||
Operating voltage range
|
+/- 20 %
|
|||||||||
Frequency
|
50/60 Hz
|
|||||||||
Maximum power consumption (MP-V-7A)
|
21 VA
|
|||||||||
Maximum power consumption (MP-V-9A)
|
22 VA
|
|||||||||
Power input protection
|
MOV suppression and internal fuse
|
|||||||||
Environment | ||||||||||
Ambient temperature, operating
|
0 to 50 °C (32 to 122 °F)
|
|||||||||
Ambient temperature, storage
|
-40 to +70 °C (-40 to +158 °F)
|
|||||||||
Maximum humidity
|
95 % RH non-condensing
|
|||||||||
Material | ||||||||||
Plastic flame rating
|
UL94 V-0
|
|||||||||
Ingress protection rating
|
IP 20
|
|||||||||
Mechanical | ||||||||||
Dimensions
|
161 W x 198 H x 63 D mm (6.3 W x 7.8 H x 2.5 D in.)
|
|||||||||
|
||||||||||
Weight
|
1.13 kg (2.5 lb)
|
|||||||||
Installation
|
Over the damper shaft
|
|||||||||
Terminal blocks
|
Removable
|
|||||||||
Software compatibility | ||||||||||
EcoStruxure Building Operation software
|
version 2.0 or later
|
|||||||||
Agency compliances | ||||||||||
Emission
|
RCM; BS/EN 61000-6-3; BS/EN 50491-5-2; FCC Part 15, Sub-part B, Class B
|
|||||||||
Immunity
|
BS/EN 61000-6-2; BS/EN 50491-5-3
|
|||||||||
Safety standards
|
BS/EN 60730-1; BS/EN 60730-2-11; BS/EN 50491-3; UL 916 C-UL US Listed
|
|||||||||
Fire performance in air-handling spaces
a
|
UL 2043
|
|||||||||
a) MP-V-7A and MP-V-9A are approved for plenum applications. | ||||||||||
Real-time clock | ||||||||||
Accuracy, at 25 °C (77 °F)
|
+/-1 minute per month
|
|||||||||
Backup time, at 25 °C (77 °F)
|
7 days minimum
|
|||||||||
Communication ports | ||||||||||
Ethernet
|
Dual 10/100BASE-TX (RJ45)
|
|||||||||
USB
|
1 USB 2.0 device port (mini-B)
|
|||||||||
1 USB 2.0 host port (type-A), 5 VDC, 2.5 W
|
||||||||||
Sensor bus
|
24 VDC, 2 W, RS-485 (RJ45)
|
|||||||||
Sensor bus protection
|
Transient voltage suppressors on communication and power signals
|
|||||||||
Communications | ||||||||||
BACnet
|
BACnet/IP, port configurable, default 47808
|
|||||||||
BTL B-AAC (BACnet Advanced Application Controller)
a
|
||||||||||
a) See the BTL Product Catalog for up-to-date details on BTL listed firmware revisions on BACnet International's home page. | ||||||||||
CPU | ||||||||||
Frequency
|
500 MHz
|
|||||||||
Type
|
ARM Cortex-A7 dual-core
|
|||||||||
DDR3 SDRAM
|
128 MB
|
|||||||||
NOR flash memory
|
32 MB
|
|||||||||
Memory backup
|
128 kB, FRAM, non-volatile
|
|||||||||
Damper actuator | ||||||||||
Torque rating
|
6 Nm (53 lbf.in)
|
|||||||||
Stroke
|
0° to 90°, fully adjustable
|
|||||||||
Timing
|
Approximately 2 seconds/degree at 60 Hz and 2.4 seconds/degree at 50 Hz for 90° rotation at 24 VAC
|
|||||||||
Position indication
|
Visual indication
|
|||||||||
Damper position feedback
|
Yes
|
|||||||||
Manual override
|
Push-button clutch release
|
|||||||||
Damper shaft diameter
|
12.7 mm (0.5 inch) or 9.5 mm (0.375 inch)
|
|||||||||
Adapter kit AM-135 is required for 9.5 mm (0.375 inch) diameter shafts.
|
||||||||||
Damper shaft minimum length (from VAV box)
|
22.2 mm (0.875 inch)
|
|||||||||
Air flow sensor | ||||||||||
Range
|
0 to 249 Pa (0 to 1 inH
2
O)
|
|||||||||
Resolution
|
0.33 Pa (0.001 inH
2
O) at 25°C (77°F)
|
|||||||||
Accuracy
|
±5% of 249 Pa (1.00 inH
2
O) span at 25°C (77°F)
|
|||||||||
Universal inputs, UI | ||||||||||
Channels, MP-V-7A
|
3, UI1 to UI3
|
|||||||||
Channels, MP-V-9A
|
4, UI1 to UI4
|
|||||||||
Absolute maximum ratings
|
-0.5 to +24 VDC
|
|||||||||
A/D converter resolution
|
16 bits
|
|||||||||
Universal input protection
|
Transient voltage suppressor on each input
|
|||||||||
Digital inputs | ||||||||||
Range
|
Dry contact switch closure or open collector/open drain, 24 VDC, typical wetting current 2.4 mA
|
|||||||||
Minimum pulse width
|
150 ms
|
|||||||||
Counter inputs | ||||||||||
Range
|
Dry contact switch closure or open collector/open drain, 24 VDC, typical wetting current 2.4 mA
|
|||||||||
Minimum pulse width
|
20 ms
|
|||||||||
Maximum frequency
|
25 Hz
|
|||||||||
Supervised inputs | ||||||||||
5 V circuit, 1 or 2 resistors
|
||||||||||
Monitored switch combinations
|
Series only, parallel only, and series and parallel
|
|||||||||
Resistor range
|
1 to 10 kohm
|
|||||||||
For a 2-resistor configuration, each resistor must have the same value +/- 5 % | ||||||||||
Voltage inputs | ||||||||||
Range
|
0 to 10 VDC
|
|||||||||
Accuracy
|
+/-(7 mV + 0.2 % of reading)
|
|||||||||
Resolution
|
1.0 mV
|
|||||||||
Impedance
|
100 kohm
|
|||||||||
Current inputs | ||||||||||
Range
|
0 to 20 mA
|
|||||||||
Accuracy
|
+/-(0.01 mA + 0.4 % of reading)
|
|||||||||
Resolution
|
1 μA
|
|||||||||
Impedance
|
47 ohm
|
|||||||||
Resistive inputs | ||||||||||
10 ohm to 10 kohm accuracy
|
+/-(7 + 4 x 10
-3
x R) ohm
|
|||||||||
R = Resistance in ohm | ||||||||||
10 kohm to 60 kohm accuracy
|
+/-(4 x 10
-3
x R + 7 x 10
-8
x R
2
) ohm
|
|||||||||
R = Resistance in ohm | ||||||||||
Temperature inputs (thermistors) | ||||||||||
Range
|
-50 to +150 °C (-58 to +302 °F)
|
|||||||||
Supported thermistors | ||||||||||
Honeywell
|
20 kohm
|
|||||||||
Type I (Continuum)
|
10 kohm
|
|||||||||
Type II (I/NET)
|
10 kohm
|
|||||||||
Type III (Satchwell)
|
10 kohm
|
|||||||||
Type IV (FD)
|
10 kohm
|
|||||||||
Type V (FD w/ 11k shunt)
|
Linearized 10 kohm
|
|||||||||
Satchwell D?T
|
Linearized 10 kohm
|
|||||||||
Johnson Controls
|
2.2 kohm
|
|||||||||
Xenta
|
1.8 kohm
|
|||||||||
Balco
|
1 kohm
|
|||||||||
Measurement accuracy | ||||||||||
20 kohm
|
-50 to -30 °C: +/-1.5 °C (-58 to -22 °F: +/-2.7 °F)
|
|||||||||
-30 to 0 °C: +/-0.5 °C (-22 to +32 °F: +/-0.9 °F)
|
||||||||||
0 to 100 °C: +/-0.2 °C (32 to 212 °F: +/-0.4 °F)
|
||||||||||
100 to 150 °C: +/-0.5 °C (212 to 302 °F: +/-0.9 °F)
|
||||||||||
10 kohm, 2.2 kohm, and 1.8 kohm
|
-50 to -30 °C: +/-0.75 °C (-58 to -22 °F: +/-1.35 °F)
|
|||||||||
-30 to +100 °C: +/-0.2 °C (-22 to +212 °F: +/-0.4 °F)
|
||||||||||
100 to 150 °C: +/-0.5 °C (212 to 302 °F: +/-0.9 °F)
|
||||||||||
Linearized 10 kohm
|
-50 to -30 °C: +/-2.0 °C (-58 to -22 °F: +/-3.6 °F)
|
|||||||||
-30 to 0 °C: +/-0.75 °C (-22 to +32 °F: +/-1.35 °F)
|
||||||||||
0 to 100 °C: +/-0.2 °C (32 to 212 °F: +/-0.4 °F)
|
||||||||||
100 to 150 °C: +/-0.5 °C (212 to 302 °F: +/-0.9 °F)
|
||||||||||
1 kohm
|
-50 to +150 °C: +/-1.0 °C (-58 to +302° F: +/-1.8 °F)
|
|||||||||
RTD temperature inputs | ||||||||||
Supported RTDs
|
Pt1000, Ni1000, and LG-Ni1000
|
|||||||||
Pt1000 | ||||||||||
Sensor range
|
-50 to +150 °C (-58 to +302 °F)
|
|||||||||
|
||||||||||
Ni1000 | ||||||||||
Sensor range
|
-50 to +150 °C (-58 to +302 °F)
|
|||||||||
|
||||||||||
LG-Ni1000 | ||||||||||
Sensor range
|
-50 to +150 °C (-58 to +302 °F)
|
|||||||||
|
||||||||||
RTD temperature wiring | ||||||||||
Maximum wire resistance
|
20 ohm/wire (40 ohm total)
|
|||||||||
Maximum wire capacitance
|
60 nF
|
|||||||||
The wire resistance and capacitance typically corresponds to a 200 m wire. | ||||||||||
Triac outputs, DO | ||||||||||
Channels, MP-V-7A
|
3, DO1 to DO3
|
|||||||||
Channels, MP-V-9A
|
3, DO1 to DO3
|
|||||||||
Output rating (for each triac output)
|
Max. 0.5 A
|
|||||||||
Voltage
|
24 VAC +/-20 %
|
|||||||||
Commons
|
COM (terminal number 18)
|
|||||||||
The common terminal COM can be connected to 24 VAC or to ground. | ||||||||||
Common voltage, high side output
|
24 VAC
|
|||||||||
Common voltage, low side output
|
0 VAC (ground)
|
|||||||||
Minimum pulse width
|
100 ms
|
|||||||||
Triac output protection
|
MOV and snubber across each triac output
|
|||||||||
MOV from triac COM to ground
|
||||||||||
Analog outputs, AO | ||||||||||
Channels, MP-V-7A
|
1, VO1/CO1
|
|||||||||
Channels, MP-V-9A
|
2, VO1/CO1 and VO2/CO2
|
|||||||||
Analog output protection
|
Transient voltage suppressor on each output
|
|||||||||
Voltage outputs | ||||||||||
Range
|
0 to 10 VDC
|
|||||||||
Accuracy
|
+/-60 mV
|
|||||||||
Resolution
|
10 mV
|
|||||||||
Minimum load resistance
|
5 kohm to ground
|
|||||||||
Load range
|
0 to +2 mA
|
|||||||||
Terminals
|
Voltage Output (VO), Return (RET)
|
|||||||||
Current outputs | ||||||||||
Range
|
0 to 20 mA
|
|||||||||
Accuracy
|
+/-0.2 mA
|
|||||||||
Resolution
|
21 µA
|
|||||||||
Load range
|
0 to 650 ohm
|
|||||||||
Terminals
|
Current Output (CO), Return (RET)
|
Follow proper installation wiring diagrams and instructions, including these instructions:
MP-V-7A and MP-V-9A have several RET terminals for connection of I/O returns, so a common chassis/signal ground rail is optional and may not be needed.
Individual 24 V power sources to the field must be current limited to maximum 4 A for UL compliant installations, and maximum 6 A in other areas.
For more information on wiring, see the SpaceLogic Hardware Reference Guide.
Product |
Part number |
Sensor base with temperature sensor |
SXWSBTXXXSXX |
Sensor base with temperature and humidity sensors |
SXWSBTHXXSXX |
Sensor base with temperature and CO 2 sensors |
SXWSBTXCXSXX |
Sensor base with temperature, humidity, and CO 2 sensors |
SXWSBTHCXSXX |
Product |
Housing |
Part number |
Blank cover |
Medium matte white |
SXWSCBXSELXX |
Blank cover |
Optimum glass white |
SXWSCBXSELXW |
Blank cover |
Optimum glass black |
SXWSCBXSELXB |
Blank cover with occupancy sensor |
Medium matte white |
SXWSCBPSELXX |
Blank cover with occupancy sensor |
Optimum glass white |
SXWSCBPSELXW |
Blank cover with occupancy sensor |
Optimum glass black |
SXWSCBPSELXB |
3-button cover |
Medium matte white |
SXWSC3XSELXX |
3-button cover |
Optimum glass white |
SXWSC3XSELXW |
3-button cover |
Optimum glass black |
SXWSC3XSELXB |
3-button cover with occupancy sensor |
Medium matte white |
SXWSC3PSELXX |
3-button cover with occupancy sensor |
Optimum glass white |
SXWSC3PSELXW |
3-button cover with occupancy sensor |
Optimum glass black |
SXWSC3PSELXB |
Touchscreen display cover |
Medium matte white |
SXWSCDXSELXX |
Touchscreen display cover |
Optimum glass white |
SXWSCDXSELXW |
Touchscreen display cover |
Optimum glass black |
SXWSCDXSELXB |
Touchscreen display cover with occupancy sensor |
Medium matte white |
SXWSCDPSELXX |
Touchscreen display cover with occupancy sensor |
Optimum glass white |
SXWSCDPSELXW |
Touchscreen display cover with occupancy sensor |
Optimum glass black |
SXWSCDPSELXB |
Product |
Housing |
Part number |
Complete SpaceLogic Sensor model with temperature sensor, buttons for override and setpoint control, and LCD display cover |
Medium matte white |
SXWSATXXXSLX |
Complete SpaceLogic Sensor model with temperature sensor, buttons for override and setpoint control, and LCD display cover |
Optimum glass white |
SXWSATXXXSLW |
Complete SpaceLogic Sensor model with temperature sensor, buttons for override and setpoint control, and LCD display cover |
Optimum glass black |
SXWSATXXXSLB |
Complete non-communicating a SpaceLogic Sensor model with resistive temperature sensor (10 kohm type 3 thermistor) and blank cover |
Medium matte white |
SLASXXX |
Complete non-communicating a SpaceLogic Sensor model with resistive temperature sensor (10 kohm type 3 thermistor) and blank cover |
Optimum glass white |
SLAWXXX |
Complete non-communicating a SpaceLogic Sensor model with resistive temperature sensor (10 kohm type 3 thermistor) and blank cover |
Optimum glass black |
SLABXXX |