Hyfire HFW-BSB-05 Wireless Base Sounder Beacon Instruction Manual

: October 30, 2023
: Hyfire

Table of Contents

GENERAL DESCRIPTION
GENERAL OVERVIEW
TECHNICAL SPECIFICATIONS ****
VISUAL LED INDICATOR
DEVICE’S POWER SUPPLY AND LINKING
DEVICE’S PLACEMENT
BATTERY FAULTS
LOCKING THE WIRELESS SENSOR ONTO THE BASE SOUNDER
MAINTENANCE
OUTPUT OPERATIONAL PERFORMANCE SPECIFICATIONS
WARNINGS AND LIMITATIONS
WARRANTY
References
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HFW-BSB-05
WIRELESS SOUNDER BASE
WITH SUPPLEMENTARY VISUAL INDICATOR

GENERAL DESCRIPTION

The wireless sounder base is a device that activates its output when ordered so by the control panel in the event of fire alarms. The activation command is sent from the control panel to the base sounder through the wire to wireless translator interface module and other possible wireless expander modules. Communication between the sounder base and the translator / expanders is obtained through the “Sagittarius” wireless, analogue-intelligent bidirectional protocol. Device’s radio communication meets European standard EN 54-25.
This sounder is equipped with a supplementary visual indicator that reinforce the audible warning.
Wireless sounder base is designed to act as a supporting mean for the installation of Sagittarius wireless detectors.

GENERAL OVERVIEW

TECHNICAL SPECIFICATIONS ****

Operating frequency range	868 MHz
Radiated power	5 dBm (3 mW)
Usable operating frequency channels	7
Radio signal’s modulation type	FSK
Communication range with wire to wireless device or wireless expander device

200 m in open space
Main and secondary battery types| CR123A (3 V & 1.2 Ah)
Approved battery voltage range| 2.75V – 3.20V
Estimated battery life | >3 years; remains operational for up to 60 days from first appearance of the low battery warning
Alarm current| 110 mA
Operating temperature range| from –10 °C to +55 °C
Maximum tolerated humidity – with no condensing| 95 % RH
Maximum volume range @ 1m selectable| between 70 dBa and 95 dBa at max volume depending upon angle and tone selection (refer to volume plots under OUTPUT OPERATIONAL PERFORMANCE SPECIFICATIONS)
Device output tone’s frequency range| 440 Hz to 2900 Hz
Ingress protection rating| 21C
Device’s dimensions| 145 mm x 66 mm
Device’s weight| 260 g

Ideal operating range: may vary consistently according to environmental conditions.
When a low battery condition is indicated, both, main and secondary, batteries must be changed altogether.
* This lifespan value refers to the device being set with a message transmission period of 12 seconds; tests are not considered in this estimation.
*** Type A for indoor use only.
Check latest version of document TDS-SGRBX for further data, obtainable from your supplier.

VISUAL LED INDICATOR

The wireless sounder base is equipped with a bicolour red – green LED (picture 3) that provides visual indication for functional conditions as indicated in table 2.

Device status	Green LED	Red LED
Power up	1 second green, then 0 5 second red for 4 times
Programming and linking to the system	Blinking until linking andprogramming
is completed
Program – link failure	–	Continuously on
Normal condition	–	–
Lost link with the wire to wireless translator / wire- less expander		0.5

second on and 1 second off

DEVICE’S POWER SUPPLY AND LINKING

The linking operation permits the configuration of the wireless sounder base on the wireless system.
The linking operation described below does not change if made directly from the wire to wireless translator module’s interface or from theWirelex PC configuration program.

Move the “Link-program” switch to position ON (picture 4).
Insert the secondary battery into its housing (picture 5).
Insert the primary battery into its housing; the visual LED indicator switches on accordingly (see “Power up” in table 2 and picture 6).
Ensure that both battery’s polarity are correct!!!
When the wire to wireless translator (by itself or piloted by the Wirelex) is searching for a new device for linking, move the “Link-program” switch to position 1 in order to initiate communication with the translator module (picture 7); the visual LED indicator switches on accordingly (see “Programming and linking to the system” in table 2).

IMPORTANT NOTE!
Programming is considered to be completed successfully only if there is an indication of programming success on the wire to wireless translator or on the window of the Wirelex program.
If the linking and programming operation fails, check if mistakes were made with the wire to wireless translator or the Wirelex, remove the batteries, change the switch over ON / 1 alternatively a few times in order to discharge the internal capacitor and then start again from point 1) re-performing the linking procedure.

COMMUNICATION QUALITY ASSESSMENT

It is possible to assess the wireless communication quality between the wireless sounder base and the wire to wireless translator / wireless expander by using a testing feature built in the device.
After a successful linking operation, by changing over the “Link-programming” switch on the ON position, the device’s LED will start blinking according to table 3.

Always remember to reposition the switch to 1 after the assessment operation: device will NOT work operatively while the switch is changed over the ON position.

Communication quality	Assessment	Device’s indication
No connection	Fail	Two red blinks
Link margin is less than 10 dB	Poor	One red blink
Robust communication with link margin from 10 dB to 20 dB	Good	One green

blink
Robust communication with link margin over 20 dB| Excellent| Two green blinks

DEVICE’S PLACEMENT

For specific information regarding detector and device’s spacing, placement and special applications refer to your specific national standards.
It is strongly advised to mount the wireless sounder base as far as possible from metal objects, metal doors, metal window openings, etc. as well as cable conductors, cables (especially from computers), otherwise the operating distance may greatly drop. The sounder base should not be installed near electronic devices and computer equipment that can interfere with the reception’s quality.

Select the position of the sounder base before installing and fixing it.
Verify, from that position, that the communication between the device and the wire to wireless translator / wireless expander is correctly established and working (see the COMMUNICATION QUALITY ASSESSMENT paragraph).
Install and fix the sounder base in the selected position with the provided screws (picture 8).
Select the sounder’s base output’s tone and volume (see the OUTPUT SETTINGS paragraph).
Insert the wireless sensor onto the sounder base, then secure it by turning it clockwise.

OUTPUT SETTINGS

Output’s characteristics when the wireless base sounder is activated (tone and volume) can be selected through the DIP switch selectors located in the inner area of the sounder base (see picture 9).
In order to change over the switches use the tip of a pen or a little screwdriver.
For the selection of the output settings refer to picture 9, table 4 and table 5.

Volume	Volume DIP switch setting
LOW	A + B
HIGH	A + D

BATTERY FAULTS

If a battery fault condition is detected on the wireless base sounder, a fault message is sent to the control panel via the wire to wireless translator / wireless expander.

TESTING

In order to test the functionality of the installed wireless sounder base, the following test must be performed: activate an alarm condition on the control panel (by a call-point or sensor in the installed system): the control panel will transmit an activation message to the device via wire to wireless translator / wireless expander and activate the sounder base. After each test the device must be reset by the specific command on the control panel or on the wire to wireless translator (see the RESET paragraph). If the test fails
check whether the batteries are charged, if mistakes were done previously or even if the system is activated. If the wireless sounder base functionality is hopeless, send back the device to your distributor for repair or substitution.
All devices must be tested after installation and, successively, on a periodic basis.

RESET

To reset the wireless sounder base from an activated or a fault condition, it is necessary to:

solve the cause of the abnormal condition
send the reset command from the control panel or from the wire to wireless translator.

Performing sequentially those two operations, the device’s output and/or fault condition will deactivate / resolve.
INSTALLING A WIRELESS SENSOR ON THE SOUNDER BASE
To install a wireless detector on the wireless sounder base apply the following procedure:

Insert the detector onto the base.
Fix the detector to the base by turning it clockwise until a secure and safe stop is reached.

LOCKING THE WIRELESS SENSOR ONTO THE BASE SOUNDER

In order to avoid tampering, the wireless sensor can be locked onto the base sounder; use the supplied locking Allen screw inserted in its side hole, after having installed the sensor and secure it through a suitable Allen key (picture 10).

MAINTENANCE

Before starting any maintenance work, isolate and disable the system, in order to avoid accidental and unwanted fault detection conditions.
Remove the wireless sensor from the wireless sounder base.
Perform the planned necessary maintenance operations (e.g. batteries substitution).
After the base has been serviced, reinstall the wireless sensor correctly onto it, re-apply power to the system and check correct operation as described under the TESTING paragraph.

OUTPUT OPERATIONAL PERFORMANCE SPECIFICATIONS

No.	Tone	Description	Switch 23456
1	Warble Tone •	800hz for 500ms, then 1000Hz for 500ms	11101
2	Continuous tone’	970Hz continuous	1011
3	Slow Whoop (Dutch) ‘	500Hz-1200Hz swept for 3500ms, then off for 500ms

Tones in bold are LPCB certified

WARNINGS AND LIMITATIONS

Our devices use high quality electronic components and plastic materials that are highly resistant to environmental deterioration. However, after 10 years of continuous operation, it is advisable to replace the devices in order to minimize the risk of reduced performance caused byexternal factors. Ensure that this device is only used with compatible control panels.
Detection systems must be checked, serviced and maintained on a regular basis to confirm correct operation. Smoke sensors may respond differently to various kinds of smoke particles, thus application advice should be sought for special risks. Sensors cannot respond correctly if barriers exist between them and the fire location and may be affected by special environmental conditions.
Refer to and follow national codes of practice and other internationally recognized fire engineering standards.
Appropriate risk assessment should be carried out initially to determine correct design criteria and updated periodically.

WARRANTY

All devices are supplied with the benefit of a limited 5 years warranty relating to faulty materials or manufacturing defects, effective from the production date indicated on each product.
This warranty is invalidated by mechanical or electrical damage caused in the field by incorrect handling or usage.
Product must be returned via your authorized supplier for repair or replacement together with full information on any problem identified.
Full details on our warranty and product’s returns policy can be obtained upon request.

Hyfire Wireless Fire Solutions Limited – Unit
B12a, Holly Farm Business Park, Honiley,
Warwickshire, CV8 1NP – United Kingdom

EN 54-25:2008
EN 54-3: 2001 + A1:2002; + A2:2006
HFW-BSB-05
This product is not intended to comply with the requirements of EN 54-23
For use in compatible fire detection and alarm system
Type A for indoor use only

Hyfire Wireless Fire Solutions Limited – Unit B12a, Holly Farm Business Park, Honiley,
Warwickshire, CV8 1NP – United Kingdom
www.hyfirewireless.com
info@hyfirewireless.co.uk

L20-SGRBSVL-1400 (vA.2)