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The following table is valid for the 

FI750/RF/M/SST

 

+

 

CWS

/SOUR

 and the 

FI750/RF/M/SST + CWS/SOUR/STRC

:

 

(*)

 

The devices, playing this tone, cannot be acoustically synchronized.

 

 

On the contrary, the visual signals can be synchronized, always (

FI750/RF/M/SST + CWS/SOUR/STRC

).

 

Tone

 

Tone designation

 

Tone pattern description

 

DIP switch

 

Tone period [s] 

setting

 

1

 

Warble Tone

 

800Hz for 500ms, then 1000Hz for 500ms

 

11101

 

2

 

2

 

Continuous tone

 

970Hz continuous tone

 

01011

 

2

 

3

 

Slow Whoop (Dutch)

 

500

-

1200Hz for 3500ms, then off for 500ms

 

10101

 

4

 

4

 

German DIN tone

 

1200

-

500Hz swept every 1000ms (1Hz)

 

00111

 

2

 

5

 

Alternate HF slow sweep

 

2350

-

2900Hz swept every 333ms (3Hz)

 

10010

 

2

 

6

 

Alternative warble

 

800Hz for 250ms, then 960Hz for 250ms

 

11110

 

2

 

7

 

Alternative warble

 

500Hz for 250ms, then 600Hz for 250ms

 

11100

 

2

 

8

 

Analogue sweep tone

 

500

-

600Hz swept every 500ms (2Hz)

 

10100

 

2

 

9

 

Australian Alert (intermittent tone)

 

970Hz for 625ms, then OFF for 625ms

 

10001

 

2 (*)

 

10

 

Australian Evac (slow whoop)

 

500

-

1200Hz sweep for 3750ms, then OFF for 250ms

 

10110

 

4

 

11

 

Alternative warble

 

990Hz for 250ms, then 665Hz for 250ms

 

00001

 

2

 

12

 

French tone AFNOR

 

554Hz for 100ms, then 440Hz for 400ms

 

00101

 

2

 

13

 

HF Back up interrupted tone

 

2800Hz for 1s, then OFF for 1s

 

11011

 

2

 

14

 

HF Back up interrupted tone –

 

fast

 

2800Hz for 150ms, then OFF for 150ms

 

11001

 

6

 

15

 

HF Continuous

 

2800Hz continuous

 

01001

 

2

 

16

 

Interrupted tone

 

800Hz for 500ms,then OFF for 500ms

 

01111

 

2

 

17

 

Interrupted tone medium

 

1000Hz for 250ms, then OFF for 250ms

 

01101

 

2

 

18

 

ISO 8201 LF BS5839 Pt 1 1988

 

970Hz for 500ms, then OFF for 500ms

 

01110

 

2

 

19

 

ISO 8201 HF

 

2850Hz for 500ms, then OFF for 500ms

 

01100

 

2

 

20

 

LF Back up Alarm

 

800Hz for 150ms, then OFF for 150ms

 

11010

 

6

 

21

 

LF Buzz

 

800

-

950Hz swept every 9ms

 

01010

 

2 (*)

 

22

 

LF Continuous tone BS5839

 

800Hz continuous

 

11000

 

2

 

23

 

Silent

 

No sound

 

11111

 

2

 

24

 

Siren 2 way ramp (long)

 

500

-

1200Hz rising for 3000ms, then falling for 3000ms

 

00000

 

6

 

25

 

Siren 2 way ramp (short)

 

500

-

1200Hz rising for 250ms, then falling for 250ms

 

00010

 

2

 

26

 

Swedish all clear signal

 

660Hz continuous

 

00100

 

2

 

27

 

Swedish Fire signal

 

660Hz for 150ms, then OFF for 150ms

 

00110

 

6

 

28

 

Sweep tone (1 Hz)

 

800

-

900Hz swept every 1000ms

 

10111

 

2

 

29

 

Sweep tone (3 Hz)

 

800

-

970Hz swept every 333ms (3Hz)

 

10011

 

2

 

30

 

Sweep tone (9 Hz)

 

800

-

970Hz swept every 111ms (9Hz)

 

01000

 

2

 

31

 

US Temporal Pattern HF

 

(2900Hz for 500ms ON, 500ms OFF) x3, then 1500ms 

OFF

 

00011

 

2 (*)

 

32

 

LF Sweep (Cranford tone)

 

800

-

1000Hz swept every 500ms (2Hz)

 

10000

 

2

 

Table 12

 

 

   

 

 

 

 

 

31

 

Summary of Contents for FI750/RF/W2W

Page 1: ...FI750 RF W2W GUIDE TO THE KEYBOARD DISPLAY INTERFACE SYSTEM TAURUS SERIES...

Page 2: ...devices are limited add FI750 RF WE devices to the system to cover completely the fire protected area Child devices are linked to FI750 RF W2W FI750 RF CWE and FI750 RF WE network devices Purpose of...

Page 3: ...s a bit more complex but not difficult some actions are added to the things that need to be done Program the global Taurus system s settings on the central node Add virtual expanders into the central...

Page 4: ...e keyboard display user interface you can link one single child device Link by switch linking mode is triggered directly by the user through the child device s onboard switch One or more child devices...

Page 5: ...access to the next submenu If editing a value sets the cursor to the right digit Enter Enters into the next submenu Confirms the selected setting Exit Returns to the previous menu TM W2W Indicates th...

Page 6: ...xtension commands for Taurus systems No the control panel uses the Vega protocol s extension commands for Taurus systems Tone period s Timespan value used for the purpose of synchronizing the output o...

Page 7: ...them On the other hand if Legacy mode is activated only the FI750 RF W2W device can be fetched using Select by Loop Address Select expander Expander 1 MGGG0000 Children 0 Select loop address Address...

Page 8: ...ed when input signal is in high impedance Low fault raised when input signal is in a low state Charger fault Battery charger fault Disable no fault check Open fault raised when input signal is in high...

Page 9: ...evices if any already linked Modification of the field channel pair of the central node makes necessary to link again its child devices if any already linked Notification for further actions follows t...

Page 10: ...Select by Expander The required network device is searched through its sequential number 1 to 16 Select by Loop Address The required network device is searched through its intelligent loop address If...

Page 11: ...em Config System Config Device Settings Device Settings Add Device Please enter password 0002 Add Device Select Exp By Num Select by Loop Address Select Exp By Num The required network device is searc...

Page 12: ...will need to change them more often Even if this feature is disabled fault messages will be routed to the control panel just the same Opt Ch Sens Used only for optical detectors You can set here the...

Page 13: ...select the network device first through its sequential number 1 to 16 Successively you will have to look for the specific child device you wish to link Select expander Expander 1 MGGG0000 Children 1...

Page 14: ...45 F 55 25 TM W2W Please enter password 0001 Main Menu System Config System Config Device Settings Device Settings Link Device Link Device Select Exp By Num Select by Loop Address Select Exp By Num Y...

Page 15: ...part of the system Repeat this procedure for every child device you need to link In wakeup mode you do not need to act on the child device s switch every linking operation Linking 01 01 Link success P...

Page 16: ...ssively you will have to look for the specific child device you wish to delete Select expander Expander 1 MGGG0000 Children 1 Select exp 1 device Address 1 Detector N0GG0000 Select by Loop Address The...

Page 17: ...to 16 Successively you will have to look for the specific child device you wish to replace Select expander Expander 1 MGGG0000 Children 1 Select exp 1 device Address 1 Detector N0GG0000 Select by Loo...

Page 18: ...nu System Config System Config Device Settings Device Settings Replace Device Replace Device Select Exp By Num Select by Loop Address Select Exp By Num You select the network device first through its...

Page 19: ...he child device has been replaced The use of the child device s switch its power on and troubleshooting procedures are explained on the child device s manual Linking 01 01 Link success Press back to e...

Page 20: ...nt to add to the system use the Up Down Left and Right keys when you have finished press Enter If the virtual expander is successfully added the following acknowledgment window appears Repeat this pro...

Page 21: ...s Made the discovery channel selection press Enter It is suggested to select Yes that requires mandatorily a backup route for the wireless messages to and from every single FI750 RF WE and the central...

Page 22: ...LINKING A REAL EXPANDER AUTOLEARN DISCOVERY CONTINUED Autolearn discovery starts The involved FI750 RF WE devices are now integrated in the Taurus system Starting Sys 037 N 09 45 F 55 25 TM W2W 22...

Page 23: ...t by Loop Address The required network device is searched through its intelligent loop address If Legacy mode is NOT activated the FI750 RF WE have their own loop address therefore Select by Loop Addr...

Page 24: ...ddress RF is the expander s sequential number in this case 3 and the sequential number of the child device relative to that expander in this case 1 Detector Optical The device type affected by the eve...

Page 25: ...e device from the 5 The possible values shown are 75 Link power 75dBm 75 85 85 dBm Link power 75dBm 85 100 100 dBm Link power 85dBm 100 105 Link power 100dBm The value is the translation of the link m...

Page 26: ...nk fault are signalled to the control panel Substitution attempt of an expander it happens when there is an expander that communicates with the other network devices using the same RF address of anoth...

Page 27: ...e 4 27 Not used channels 868MHz 19 20 21 22 24 Field channel pairs 868MHz 1 37 2 38 3 39 4 40 5 41 6 42 7 43 8 44 17 53 18 54 55 25 56 26 57 27 58 28 59 29 60 30 61 31 62 32 63 33 64 34 65 35 66 36 Di...

Page 28: ...37 1 38 2 39 3 40 4 41 5 55 25 56 26 57 27 58 28 59 29 60 30 61 31 62 32 63 33 64 34 65 35 66 36 Network channel pairs 916MHz 45 9 46 10 47 11 48 12 49 13 50 14 51 15 52 16 Not used channels 916Mhz 19...

Page 29: ...ctor Multicriteria FI750 RF OT Detector Thermal ROR FI750 RF T Detector Thermal HT FI750 RF T Call point Normal FI750 RF MCP Input module Supervised FI750 RF M1IN Sounder Wall SND FI750 RF M SST CWS S...

Page 30: ...50ms 00001 2 12 French tone AFNOR 554Hz for 100ms then 440Hz for 400ms 00101 2 13 HF Back up interrupted tone 2800Hz for 1s then OFF for 1s 11011 2 14 HF Back up interrupted tone fast 2800Hz for 150ms...

Page 31: ...hen 440Hz for 400ms 00101 2 13 HF Back up interrupted tone 2800Hz for 1s then OFF for 1s 11011 2 14 HF Back up interrupted tone fast 2800Hz for 150ms then OFF for 150ms 11001 6 15 HF Continuous 2800Hz...

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