FIBARO FIB_FGSS-101 Quick Start Manual

Smoke detector

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FIB_FGSS-101

Smoke detector

Firmware Version : 2.1

Quick Start

This device is a wireless Z-Wave sensor. To include the device into the network, turn the controller into

the inclusion mode and then triple click the B-button on the casing. Further you can use the auto-inclusion

mode by setting the controller into the inclusion mode and then connect the constant current voltage supply.

Auto-inclusion only works in constant current mode.

Please refer to the chapters below for detailed information about all aspects of the products usage.

What is Z-Wave?

This device is equipped with wireless communication complying to the Z-Wave standard. Z-Wave is the

international standard for wireless communication in smart homes and buildings. It is using the

frequency of 868.42 MHz to realize a very stable and secure communication. Each message is reconfirmed

(two-way communication) and every mains powered node can act as a repeater for other nodes (meshed

network) in case the receiver is not in direct wireless range of the transmitter.

Z-Wave differentiates between Controllers and Slaves. Slaves are either sensors (S) transmitting metered or

measured data or actuators (A) capable to execute an action. Controllers are either static mains powered

controllers (C) also referred to as gateways or mobile battery operated remote controls (R). This results in a

number of possible communication patterns within a Z-Wave network that are partly or completely supported

by a specific device.

Table of Contents

Summary of Contents for FIBARO FIB_FGSS-101

Page 1: Quick Start
FIB_FGSS-101 Smoke detector Firmware Version : 2.1 Quick Start This device is a wireless Z-Wave sensor. To include the device into the network, turn the controller into the inclusion mode and then triple click the B-button on the casing. Further you can use the auto-inclusion mode by setting the controller into the inclusion mode and then connect the constant current voltage supply.
Page 2: Product Description
Installation Guidelines POWERING MODES There are two powering modes for the Fibaro Smoke Sensor. By default it's powered by a factory included battery. Alternatively it can work with a constant current, after connecting a 12 / 24 VDC power supply to +12/24 and GND terminals (see diagram no.3).
Page 6 4. Connect a constant current power source (12 / 24 VDC) to +12 and GND terminals observing wiring diagram 1. 5. Include Fibaro Smoke Sensor into the Z-Wave network. Installation: 1. Include the device into the Z-Wave network (see p.I). Note the inclusion process may be performed ONLY in direct range of the main controller.
Page 7: Operating The Device
Fibaro Smoke Sensor responds to physical presence of smoke. Smoke presence is required for the device to react. Fibaro Smoke Sensor performs a self test each 5 seconds and checks for smoke presence. Having detected smoke presence, the sensor checks 3 more times, at 1 second interval, whether the smoke is actually present.
Page 8: Node Information Frame
This device is battery operated and turned into deep sleep state most of the time to save battery life time. Communication with the device is limited. In order to communicate with the device, a static controller C is needed in the network. This controller will maintain a mailbox for the battery operated devices and store commands that can not be received during deep sleep state.
Page 9: Configuration Parameters
assigned to the device status - sending the BASIC SET (default) or ALARM control frame to the associated devices having detected fire. (max. nodes in group: 5) assigned to a TMP button and the malfunction alarm. Alarm frame will be sent to the associated devices once tampering or malfunction are detected.
Page 10 Type of alarm frame sent to 1-st Association Group devices (smoke alarm) (Parameter Number 5, Parameter Size 1) choose a command class used in 1-st Association Group Value Description 0 (-127) - ALARM SENSOR (SMOKE) command frame 255 (127) - BASIC_SET command frame (Default) Forced dimming level sent to 1-st association group devices (Parameter Number 7, Parameter Size 1) Forced level of dimming / opening dimmers, roller blinds etc.
Page 11 Temperature measurement compensation (Parameter Number 73, Parameter Size 2) temperature value to be added to or deducted from the current measured temperature Value Description 64536 — 1000 Z-Wave range test interval (Parameter Number 80, Parameter Size 1) Time period between the consecutive Z-Wave network range tests Value Description...
Page 12 Malfunction alarm (Parameter Number 84, Parameter Size 1) Time interval in which malfuntion alarm, if detected, is repeated using visual and acoustic alarms. Value Description 130 — 127 Temperature alarm (Parameter Number 85, Parameter Size 1) Time interval in which temperature alarm, if detected, is repeated using visual and acoustic alarms.
Page 13: Command Classes
Value Description 0 – tamper alarm inactive 1 – tamper alarm active, with cancellation option available (Default) 2 – tamper alarm active, without cancellation option Command Classes Supported Command Classes Battery (version 1) Basic (version 1) Wake Up (version 1) Association (version 2) Version (version 2) Multilevel Sensor (version 1)
Page 14: Disposal Guidelines
Controller — is a Z-Wave device with capabilities to manage the network. Controllers are typically Gateways, Remote Controls or battery operated wall controllers. Slave — is a Z-Wave device without capabilities to manage the network. Slaves can be sensors, actuators and even remote controls.

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Summary of Contents for FIBARO FIB_FGSS-101

Page 1: Quick Start

Page 2: Product Description

Page 7: Operating The Device

Page 8: Node Information Frame

Page 9: Configuration Parameters

Page 13: Command Classes

Page 14: Disposal Guidelines

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