SpaceLogic™ RP-C-EXT-BL-SMI-2-LV-PD SMI blind module connects to the SpaceLogic RP room controllers and provides I/O expansion for control of DC low-voltage motors (drives) with SMI LoVo (Standard Motor Interface for low-voltage applications).
The SMI blind module is an SMI certified and registered actuator (controller) that complies to SMI version 3.0. SMI 3.0 offers simplified maintenance, new functions, improved robustness, and high compatibility. The module can be used with products of SMI version 2.0 because the interface is backward compatible.
The SMI low-voltage blind module enables control and power supply (24 VDC) of motorized venetian blinds, roller blinds, pleated blinds, and other shade products (typically for interior use).
The SMI blind module is part of the RP controller expansion modules for connected room solution and can be combined with other modules from this product range.
The SMI low-voltage blind module has the following features:
Power and communications through the room bus
One SMI channel, which is split into two outputs, for SMI LoVo control of 24 VDC powered blinds (opening, closing, positioning)
Four digital inputs for connection of blind switches and window contacts. The digital inputs are SELV (Safety Extra-Low Voltage).
Measurement of energy consumption per module
Wieland connectors for quick and easy installation
Engage mobile application for room comfort settings
Status LED for the device
One status LED for each blind output
Rotary switch for address configuration
The SMI interface has the following features:
Up to 16 blind motors or drives can be controlled electrically in parallel (provided the load limits are not exceeded)
High-precision intermediate positioning
Motor feedback with diagnostic information
The RP controller room bus allows RP controller expansion modules to be connected to the controller for people counting, motion detection, luminosity and sound pressure level measurements, Bluetooth Low Energy based applications, and control of electric lights and window blinds.
The RP-C Pro and RP-C Pro Plus controller room bus supports up to nine connected RP controller expansion modules with the following restrictions:
Maximum of two DALI light modules
Maximum of two SMI blind modules
Maximum of seven Multi-sensor or Insight-Sensor devices
The RP-C Advanced controller room bus supports up to six connected RP controller expansion modules with the following restrictions:
Maximum of two DALI light modules
Maximum of two SMI blind modules
Maximum of four Multi-sensor or Insight-Sensor devices
The RP-V Advanced controller room bus supports up to four connected RP controller expansion modules with the following restrictions:
Maximum of one DALI light module
Maximum of one SMI blind module
Maximum of two Multi-sensor or Insight-Sensor devices
Maximum total length of the room bus is 72 m (236 ft).
The Engage mobile application enables control of room temperature, fan speed, lights, and blinds/shades directly from a smartphone. A user can manage these settings when the application is connected to the RP controller.
The Engage mobile application is free and available for download from Google Play and Apple App Store.
For more information, see the Engage Specification Sheet.
Product |
Part number |
RP-C-EXT-BL-SMI-2-LV-PD
|
SXWRESMI2LVPD10001
|
DIN-RAIL-CLIP, DIN-rail end clip
package of 25 pieces
|
SXWDINEND10001
|
Mounting plate - RP controller expansion modules
package of 5 pieces
|
SXWREMPK510001
|
Electrical | |
Nominal voltage
|
230 VAC
|
Operating voltage range
|
+/-10 %
|
Frequency
|
50/60 Hz
|
Power consumption
|
75 VA
|
Room bus power consumption
|
0.3 W (24 VDC)
|
Protection
|
Maximum 16 A external fuse (circuit breaker) is needed
|
Overvoltage category
|
III
|
Onboard 24 VDC power supply | |
RP-C-EXT-BL-SMI-2-LV-PD has an onboard 24 VDC power supply that is used to power the blind outputs. | |
Nominal voltage
|
24 VDC
|
Maximum supply current
|
1.3 A
|
Protection
|
Short-circuit protection
|
Environment | |
Ambient temperature, operating
|
0 to 40 °C (32 to 104 °F)
|
Ambient temperature, storage
|
-20 to +70 °C (-4 to +158 °F)
|
Humidity
|
20 to 90 % RH non-condensing
|
Pollution degree
|
2
|
Material | |
Plastic flame rating
|
UL94 V-0
|
Ingress protection rating
|
IP 20
|
Mechanical | |
Dimensions
|
198 W x 110 H x 64 D mm (7.8 W x 4.3 H x 2.5 D in.)
|
|
|
Weight
|
0.439 kg (0.968 lb)
|
Recommended installation
|
DIN rail or flat surface in a cabinet
a
|
a) It is recommended to install the device in an enclosure (cabinet), unless local regulations allow an exception. For information on installation orientation restrictions, see the SpaceLogic Hardware Reference Guide. | |
Connectors
|
Power input: 1 x 3-pin Wieland GST15i3 connector
|
Blind outputs: 2 x 5-pin Wieland GST15i5 connector
|
|
Digital inputs: 4 x 2-pin Wieland GST15i2 connector
|
|
Optional mounting plate | |
The mounting plate is used to facilitate mounting and cable management for the RP controller expansion module as well as to provide strain relief for the connectors. | |
Dimensions
|
202 W x 268.3 H x 17.8 D mm (8.0 W x 10.6 H x 0.7 D in.)
|
|
|
Weight
|
0.306 kg (0.675 lb)
|
Compatibility | |
EcoStruxure BMS server communication
|
|
EcoStruxure Building Operation
|
version 3.2.1 and later
|
Energy metering support
|
|
EcoStruxure Building Operation
|
version 3.3.1 and later
|
Agency compliances | |
Emission
|
RCM; BS/EN 61000-6-3; BS/EN IEC 63044-5-2; FCC Part 15, Sub-part B, Class B
|
Immunity
|
BS/EN 61000-6-2; BS/EN IEC 63044-5-3
|
Safety standards
|
BS/EN 60730-1; BS/EN 60730-2-11; BS/EN IEC 63044-3
|
Communication ports | |
Room bus
|
RS-485
|
Dual RJ45 ports for daisy-chain configurations
|
|
Use a Cat 5 (or higher) cable
|
|
Maximum total length of the room bus: 72 m (236 ft)
|
|
Room bus protection
|
Transient voltage suppressors on communication and power signals
|
Hardware | |
CPU type
|
ARM Cortex-M4 single-core
|
Frequency
|
80 MHz
|
SRAM (embedded)
|
320 KB
|
Flash memory (embedded)
|
512 KB
|
NOR flash memory
|
16 MB
|
Status indicator
|
LED (green and red) that shows the status of the device
|
Blind status indicator
|
One status LED (green) for each output
|
Address switch
|
Rotary switch 0 to 9
|
Set button
|
Push-button switch
|
Energy metering | |
Energy consumption measurement | |
The energy consumption is measured in Wh, shared by the two outputs. | |
Accuracy class (according to IEC 61557-12)
|
Active energy measurement: Class 1
|
Typical measurement accuracy at room temperature
|
0.5 to 2 W: 5%
|
2 to 30 W: 1%
|
|
Blind outputs | |
SMI LoVo motor control outputs for 24 VDC powered blinds motors. | |
Outputs
|
2, Blind 1 to Blind 2
|
Output terminals
|
I+, I-, 0 V, and 24 V
|
SMI version
|
3.0
|
Number of SMI channels
|
1
|
Maximum total number of blind motors (drives)
|
16
|
Power distribution
|
24 VDC
|
Maximum 1 A load per output
|
|
Maximum 1.3 A total load for the 2 outputs
|
|
Maximum 2 A starting current (<100 ms) per output
|
|
Digital inputs | |
Inputs
|
4, DI1 to DI4
|
Range
|
Dry contact, 0 to 5.0 VDC, 2.2 mA, SELV (Safety Extra-Low Voltage)
|
Follow proper installation wiring diagrams and instructions. For more information on wiring, see the SpaceLogic Hardware Reference Guide.
Use |
Part number |
Reference |
Connector type |
Suitable for cable diameters mm (inches) |
Marking |
Color of coding /housing |
Minimum order quantity |
Power supply input |
SXWRPCCONWWPOW |
91.931.4053.1 |
Female |
5.6–11 (0.22–0.43) |
L, PE, N |
Black /Black |
100 |
Blind outputs |
SXWRPCCONWBLLV |
91.952.4353.0 |
Male |
8.5–12.5 (0.34–0.49) |
5, 4, 3, 2, 1 5: I+ 4: I- 3: Not used 2: 0 V 1: 24 V |
Ligth blue /White |
50 |
Digital inputs |
SXWRPCCONWDI |
91.921.2353.0 |
Female |
3.4–5.5 (0.14–0.21) |
1, 2 1: DI1..4 2: RET |
Light blue /White |
100 |
The external connectors need to be ordered separately. The connectors can be ordered in quantities of 50 or 100 from Schneider Electric using the above part numbers. The connectors can also be ordered directly from Wieland using the above reference numbers. For more information, see the Wieland Electric web site.
Compatibility with the type and characteristics of the blind motors should be verified at an early stage in your project. In case of uncertainty, additional testing may be required.