Fibar Group FGBS221 Instrukcja obsługi

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ENG

OPERATING MANUAL

I GENERAL INFORMATION ON THE FIBARO SYSTEM

UNIVERSAL BINARY SENSOR

FGBS-001-EN-A-v1.1

Fibaro is a system that does not require any additional conductors;

it is based on the Z-Wave technology. Fibaro offers a wide array of

advantages in comparison to other, similar systems. In general,

The Universal Binary Sensor is a wireless module that makes it

radio-based systems establish a direct connection between the

possible to improve the functionality of any sensor with a binary

receiver and the transmitter. The radio signal is attenuated by every

output by allowing it to communicate with the wireless network

obstacle along its path (in the household e.g. walls, furniture, etc.).

Z-WAVE and the FIBARO building intelligence system. Moreover,

In the worst case the radio system ceases to function. The

the module allows for wireless communication between the system

advantage of the Fibaro System is the fact that the devices act not

and the DS18B20 temperature sensors. The device can service up

only as a signal receiver and transmitter, but also as a signal

to two binary sensors and up to four DS18B20 temperature sensors.

"repeater". If a direct radio link between the transmitter and the

The Sensor was designed for installation in the housing of a sensor

receiver cannot be established, the connection will be carried out

or another device, the functionality of which we wish to improve.

with the use of other devices participating in communication.

The Universal Binary Sensor may be used whenever wireless

Fibaro is a bidirectional wireless system. This means that the signal

collection of data from sensors is required. Once additional safety

is not only sent to the receivers, but also the receivers send

housing have been installed, the Sensor can also be used in areas

feedback confirming the reception of the signal. This also confirms

with high humidity and high temperature. The Sensor's main function

the condition of receivers, which allows us to check whether or not

is the integration of the wireless Fibaro System with the existing

a device has actually been switched on. The safety of transmission

wire-based and wireless alarm and measurement systems. As an

of the Fibaro System is comparable with a wire-linked bus system.

element of the safety system the device is transparent for parametric

alarm lines.

Fibaro operates in the free band for data transmission. The

frequency depends on radio regulations in individual country . Each

Fibaro network has its own unique network identification number

Technical data

(home ID), which is why it is possible to co-operate two or more

independent systems in a single building without any interference.

Although the Z-Wave technology is fairly new, it has already been

Supply voltage:

9-30V DC ±10%

accepted as an official standard, just like Wi-Fi. Numerous

manufacturers from various fields offer solutions based on Z-Wave

Input:

2 potential-free inputs, 1 digital

technology, which are compatible with one another. This makes the

input 1-wire

system fit for the future and allows for further development. For

more information go to www.fibaro.com.

Output:

2 potential-free outputs

Fibaro establishes a dynamic network structure. From the moment

Maximum current carrying

150mA

of start-up, the location data of respective devices of the Fibaro

capacity of outputs:

System is updated automatically, in real time, by confirming their

condition in the working „mesh" network.

Maximum voltage at output

36V DC / 24V AC ±5%

contacts:

Operating temperature:

0 - 40 °C

II. Sensor Installation

Number of servicing

temperature sensors:

1. Before the installation make sure to switch off the alarm

Measurement range:

-55

C - +126

system, or any other system to which the device is to be

connected.

In accordance with EU

RoHS 2011/65/EU

2. Connect the Fibaro Sensor according to the diagram.

standards:

RED 2014/53/EU

3. Place the Fibaro Sensor in the sensor housing.

4. Arrange the antenna (instructions can be found below the

Radio signal power:

1mW

diagrams).

Radio protocol:

Z-Wave

Radio frequency:

868,4 MHz EU;

EXPLANATION OF

908,4 MHz US;

921,4 MHz ANZ;

CONDUCTOR MARKINGS:

869,2 MHz RU;

P – (POWER) – power supply conductor, red

Range:

up to 30 m indoors (depending

GND - (GROUND) – ground conductor, blue

on the construction materials)

IN1 – input no. 1

up to 50m outdoors

IN2 – input no. 2

TP – (TEMP_POWER) – power supply conductor of the DS18B20

Dimensions (L x W x H):

27,3 x 14,5 x 12 mm

temperature sensor, brown (3.3V)

TD – (TEMP_DATA) – signal conductor of the DS18B20

temperature sensor, white

ANT – antenna, black

Technical information

OUT1 – output no. 1 assigned to input IN1

OUT2 – output no. 2 assigned to input IN2

B – maintenance button (used to add devices to and remove

devices from the system)

•

Controlled with FIBARO system devices or any Z-Wave controller

• Microprocessor-based control

• Compatible with regular and parametric alarm lines (can be

ANTENNA ARRANGEMENT INSTRUCTIONS:

connected to 2 alarm detectors)

• Compatible with binary sensors (can be connected to 2 binary

outputs)

• Compatible with DS18B20 temperature sensors (can be connected

to four DS18B20 temperature sensors)

• In order to connect the DS18B20 sensors it is recommended to use

conductors made from a single wire with a length of up to 30 meters

DANGER

The Sensor is powered with secure voltage;

nevertheless, the user should be extra careful or

should commission the installation to a qualified

person.

Hint

The outputs of the device should not be loaded with

a current value exceeding 150mA

Hint

Connections

should

made

specifically

according to the diagrams presented in this

manual. Incorrect connection may lead to hazards.

IN2

Lay down the antenna as far as possible from

metal elements (connection conductors, ring

brackets etc.), in order to prevent any interference

of the radio signal.

Metal surfaces in close vicinity (e.g. metal

embedded boxes, metal door trims) may impair the

reception capability!

You should not cut off or shorten the antenna. Its

length is suited ideally to the band at which the

system functions.

ANT

GND

IN2

IN1

GND

Diagram 1 – General

IN1

GND

TMP TMP COM 12V

MOTION DETECTOR

Diagram 2 – Connection to a regular alarm line

IN2

IN1

GND

NC TMP TMP COM 12V

COM

MOTION DETECTOR

SYSTEM HUB

Diagram 3 – Connection to a parametric alarm line

Diagram 4 – Connection to DS18B20 sensors

}

OUT 2

}

OUT 1

BELL PUSH

Diagram 5 – example connection to a precipitation sensor

Note!

Do not remove the protective layer surrounding the

module. Make sure that no metal parts of other

devices or conductors come into close contact with

the installed Sensor.

Note!

Condition of outputs OUT1 and OUT2 is dependent

AUX COM Z1

only on the condition of corresponding inputs,

irrespective of parameter settings or addition of

ALARM

device to the Z-wave network.

SYSTEM HUB

Note!

Only the B button starts the device's programming

process (Include/Exclude).

INSTRUCTIONS FOR ARRANGEMENT

OF THE DS18B20 SENSOR:

The DS18B20 sensor may easily be installed wherever very precise

temperature measurements are required. Moreover, if proper

protective measures are undertaken, the sensor may be used in

humid environments or under water, it may be embedded in

concrete or placed under the floor.

GLOSSARY OF TERMS:

• INCLUSION – the device sends out a Node Info frame, which

makes it possible to add it to the Fibaro system (Home Center)

• EXCLUSION – removal of device from the Fibaro system

AUX

COM Z1

• ASSOCIATION – controlling other devices of the Fibaro system

ALARM

• MultiChannel Association - controlling other multi-channel

devices of the Fibaro system

III Fibaro Sensor start-up

1. Installation of the Universal Binary Sensor

Module

STEP 1

Connect the device according to the wiring diagram shown in figure

1. Engage the supply voltage.

[Inclusion / Exclusion] of the Fibaro Sensor [to / from] the Z-Wave

network

STEP 2

The Fibaro Module must be in range of the Home Center 2

controller, because the procedure of inclusion to the Fibaro system

requires direct communication with the controller.

STEP 3

Recognition of B button, which allows for proper inclusion of device.

STEP 4

Setting the Home Center 2 controller to the inclusion or exclusion

mode (see: Home Center 2 controller instructions).

STEP 5

The Fibaro Sensor is added to the network by quickly pressing the

B button three times (the button is located in the center of the

device).

STEP 6

Correct inclusion of the device to the network will be signaled by

Home Center 2 (see: Home Center 2 central hub operation

instructions).

IN2

IN1

+9 - 30V

GND

PRECIPITATION

SENSOR

Note!

Do not connect other sensors than DS18B20 to the

1-wire line (terminals TP and TD).

Note!

Every time when any changes are made to the

configuration of TP and TD lines (1-wire), e.g. when

DS18B20 sensor(s) is (are) included/excluded, it is

necessary to execute the procedure of exclusion

and repeated inclusion of the sensor module to the

central hub. It should be remembered that the

system shall enter into the programming mode only

once all the connected sensors have been

detected (about 10 s).

Note!

It is prohibited to connect the TP and TD lines to

devices that are not compatible with the 1-wire

protocol. Unused lines should be left insulated.

2. Resetting the Fibaro Sensor

There are two procedures you can follow in order to reset the

Fibaro Sensor.

Method I

Resetting in the course of the procedure of excluding the Fibaro

Module from an existing Z-wave network. Devices may be excluded

with the use of a controller, which offers the option to exclude

devices from or include devices to the Z-wave network (see:

controller instructions).

Method

Resetting by cutting off the power supply and re-connecting the

power supply while holding down the B button – after 10 seconds,

after another cut-off and re-connection of power supply the settings

of the device will be reset.

3. Controlling the Fibaro Sensor with the Home

Center 2 controller

The FGBS221 Sensor is a multi-channel device. This means that it

is equipped with two independent input circuits and a 1-wire bus

allowing it to be connected to four DS18B20 temperature sensors.

As a result, each device connected to the Sensor is represented by

an independent icon in the system.

After the Fibaro Sensor has been added to the network, it shall be

represented by appropriate icons in the Home Center 2 controller,

depending on the number of connected devices (3 – 7 icons).

Fig. 1 - Fibaro Sensor icon in the Home Center controller

In the event of including the Sensor without any sensors connected

(or with sensors connected only to IN1 and IN2), the device will be

represented by three icons. If DS18B20 sensors are also

connected, the devices will be represented by additional

temperature icons.