iSMA CONTROLLI iSMA-B-12O-H Intelligent Building Controls Instruction Manual

: June 9, 2024
: iSMA CONTROLLI

Table of Contents

SPECIFICATION
TOP PANEL
DIGITAL OUTPUTS
COMMUNICATION
POWER SUPPLY
RS485 TERMINATION
BLOCK DIAGRAM
POWER SUPPLY CONSIDERATIONS
FCC COMPILANCE NOTE
WIRING
INSTALLATION GUIDELINES
CUSTOMER SUPPORT
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iSMA CONTROLLI iSMA-B-12O-H Intelligent Building Controls

iSMA CONTROLLI iSMA-B-12O-H Intelligent Building
Controls

SPECIFICATION

Power supply	DC: 24 V ± 20%, 3.4 W; AC: 24 V ± 20%, 9 VA
Digital outputs	12 relay outputs
Resistive load (AC1)	3 A at 230 V AC, 3 A at 30 V DC
Inductive load (AC3)	75 VA at 230 V AC, 30 W at 30 V DC
Interface	RS485 half duplex, Modbus or BACnet, up to 128 devices on the bus
Address	Set by switch in the range from 0 to 99
Baudrate	Set by switch in the range from 4800 to 115200 bps
Ingress protection rating	IP20 – for indoor installation
Temperature	Operating: -10°C to +50°C (14°F to 122°F) Storage -40°C to +85°C

(-40°F to +185°F)
Relative humidity| 5 to 95% RH (without condensation)
Connectors| Separable, max 2.5 mm2 (18–12 AWG)
Dimensions| Without HOA: 106.30 x 113.60 x 62.00 mm (4.19 x 4.47 x 2.44 in)

With HOA: 106.30 x 113.60 x 70.00 mm (4.19 x 4.47 x 2.76 in)

Mounting| DIN rail mounting (DIN EN 50022 norm)
Housing material| Plastic, self-extinguishing PC/ABS

TOP PANEL

Top Panel

DIGITAL OUTPUTS

Connection of electro valve

Digital Outputs

Connection of resistive load

Digital Outputs

Connection of inductive load

Digital Outputs

COMMUNICATION

Communication

POWER SUPPLY

Power Supply

RS485 TERMINATION

Rs485 Termination

BLOCK DIAGRAM

POWER SUPPLY CONSIDERATIONS

Electrical safety in building automation and control systems are essentially based on the use of extra low voltage, which is strictly separated from the mains voltage. This low voltage is either SELV or PELV according to the EN 60730-1 standard.

Protection against electric shock is ensured by the following measures:

limitation of voltage (low voltage 24 V AC/DC supply, either SELV or PELV);
protective separation of the SELV system from all circuits other than SELV and PELV;
simple separation of the SELV system from other SELV systems, from PELV systems, and earth.

Field devices such as sensors, status contacts, and actuators connected to the low-voltage inputs and outputs of I/O modules must comply with the requirements for SELV or PELV. The interfaces of field devices and other systems must also satisfy SELV or PELV requirements.
When the supply of SELV or PELV circuits is obtained from supply mains of higher voltages, it shall be provided by a safety transformer or a converter designed for continuous operation to supply SELV or PELV circuits.

FCC COMPILANCE NOTE

Note: 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 the 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.

WIRING

Line power cables must be routed with spatial separation from signal and data transmission cables.
Analog and digital signal cables should also be separated.
It is recommended to use shielded cables for analog signals, cable shields should not be interrupted by intermediate terminals.
The shielding should be earthed directly after the cable enters the cabinet.
It is recommended to install interference suppressors when switching inductive loads (e.g. coils of contactors, relays, solenoid valves). RC snubbers or varistors are suitable for AC voltage and freewheeling diodes for DC voltage loads. The suppressing elements must be connected as close to the coil as possible.

INSTALLATION GUIDELINES

Please read the instruction before use or operating the device. In case of any questions after reading this document, please contact the iSMA CONTROLLI Support Team ([email protected]).

Before wiring or removing/mounting the product, make sure to turn the power off. Failure to do so might cause an electric shock.
Improper wiring of the product can damage it and lead to other hazards. Make sure that the product has been correctly wired before turning the power on.
Do not touch electrically charged parts such as power terminals. Doing so might cause an electric shock.
Do not disassemble the product. Doing so might cause an electric shock or faulty operation.
Use the product only within the operating ranges recommended in the specification (temperature, humidity, voltage, shock, mounting direction, atmosphere, etc.). Failure to do so might cause a fire or faulty operation.
Firmly tighten the wires to the terminal. Failure to do so might cause a fire.
Avoid installing the product in close proximity to high-power electrical devices and cables, inductive loads, and switching devices. Proximity of such objects may cause an uncontrolled interference, resulting in an instable operation of the product.
Proper arrangement of the power and signal cabling affects the operation of the entire control system. Avoid laying the power and signal wiring in parallel cable trays. It can cause interferences in monitored and control signals.
It is recommended to power controllers/modules with AC/DC power suppliers. They provide better and more stable insulation for devices compared to AC/AC transformer systems, which transmit disturbances and transient phenomena like surges and bursts to devices. They also isolate products from inductive phenomena from other transformers and loads.
Power supply systems for the product should be protected by external devices limiting overvoltage and effects of lightning discharges.
Avoid powering the product and its controlled/monitored devices, especially high power and inductive loads, from a single power source. Powering devices from a single power source causes a risk of introducing disturbances from the loads to the control devices.
If an AC/AC transformer is used to supply control devices, it is strongly recommended to use a maximum 100 VA Class 2 transformer to avoid unwanted inductive effects, which are dangerous for devices.
Long monitoring and control lines may cause loops in connection with the shared power supply, causing disturbances in the operation of devices, including external communication. It is recommended to use galvanic separators.
To protect signal and communication lines against external electromagnetic interferences, use properly grounded shielded cables and ferrite beads.
Switching the digital output relays of large (exceeding specification) inductive loads can cause interference pulses to the electronics installed inside the product. Therefore, it is recommended to use external relays/contactors, etc. to switch such loads. The use of controllers with triac outputs also limits similar overvoltage phenomena.
Many cases of disturbances and overvoltage in control systems are generated by switched, inductive loads supplied by alternating mains voltage (AC 120/230 V). If they do not have appropriate built-in noise reduction circuits, it is recommended to use external circuits such as snubbers, varistors, or protection diodes to limit these effects.