iq8 marine installers booklet_011_20101213.pdf

Installers booklet – Marine � General installation information � Delta system � IQ8 detector range

Installers booklet – Marine, art. no. 011 2

General Information: You are now holding a handy installers booklet from Honeywell life safety AS. This booklet will provide helpful information in order to assist you during most of Eltek Fire & Safety's fire alarm. You will also find useful hints regarding cable routing and selection. Read the booklet before commencing the installation. It will not only simplify your work, but also reduce your daily workload; "Efficient methods will improve your money savings". You can find more information by downloading other user documentation from TechZone, at www.eltek-fs.no .

Installation Hints, fire Alarm For most installation sites you can employ generally available, off-the-shelf fire alarm cables, even without earth wire (screen). But we recommend you to use twisted pair detector loop cables, such as PFLP 2x1mm

2, in areas where equipment or cables may generate magnetic fields or electric noise.

MPRXCX 2x1.5, El.no:10 423 20 can also be used. Also, to avoid loop communication interference, keep detector loop cable-runs at least 0.15m from 3-phase power cables and from areas containing fluorescent lights, transformers, heavy power machinery, etc. The detector loop cable-runs are to be led over such areas, and not around walls, etc.

The earth wire, if any, of detector loop cables (screen) is to be interconnected through the loop and terminated in just one shared earth point in the control panel or module, thus improving the installation's resistance against electric noise.

Sounder Circuits: For sounder circuits we recommend the use of 2x1mm

2 for cable-runs up to 100m, and a section of

2x1.5mm2 for max. 200m cable-runs. For longer cable-runs than 200m use a 2x2.5mm

2 cable section, to

avoid significant voltage drops. Examples of cable that can be used: BFOU 2x1.5 El.no: 10 438 60/ BFOU 2x2.5 EL no: 10 411 21. Notice that an end-of-line resistor is to be connected to the last alarm bell of every sounder circuit, see connection drawing on page 6.

Control Outputs: Control panels and modules are equipped with voltage-free control output terminals rated max. 30V, 1A. Always use a contactor relay for controlling loads requiring higher voltage or current.

You must always connect a diode — e.g. 1A, 400V — across all inductive loads (door magnets, flashlights, sirens, relays, etc.) which are controlled from fire alarm panels or modules. Ten diodes (Art. No. 243210) are delivered with each Delta DA module.

Communication Communication cable for eBus. Honeywell life safety as recommend a ”flat” bus topology without any branches. Fire retardant cable 2x1,3mm should be used. When using a ”flat” bus topology maximum length is 2,7 km. Maximum distance between each unit when using a flat topology is 500m When using a star topology the total length is maximum 500m.

Addressing of IQ8 detectors, manual call points and transponders: All adressing of these units are done by using a hand held detector programmer, art. nr. 251454. The detector is connected to the detector programmer and the address given. The manual call point and the transponders have to be connected by cable to UL- and UL+.


Installation guidelines

- Manual call points shall be installed throughout the accommodation spaces. One manual call point shall be located near each exit. No parts of the corridor shall be more than 20m from a manual call point.

- Smoke detectors are to be installed in all stairways, corridors and escape routes within accommodation. In closed stairways, detectors can be installed in the top deck and then at every second deck.

- Detectors shall be positioned for optimum performance. Detectors should be positioned with a minimum distance from the bulkhead of 0,5m.

- The maximum spacing of detectors shall be in accordance with the table below: Type of detector

Maximum floor area per detector

Maximum distance apart between centres

Maximum distance away from bulkheads

Heat 37m2 9m 4,5m Smoke 74m2 11m 5,5m

- Electrical wirings shall be arranged so as to avoid galleys, machinery spaces of

category A, and other enclosed spaces of high fire risk where this is possible. - The general emergency alarm system shall be arranged either as one (or more) closed loop(s),

or with fuses/breakers provided at each deck such that failure/short circuit in any deck does not affect other decks or the central unit.

- The sound level of alarm signals in the sleeping area and in the shower shall not be lower than 75dB

- Detectors in machine room category A are not allowed on the same loop as detectors in the accommodation. Emergency generator with effect over 375kW is categorized as machine room A.

- The detector loop shall only go in and out of the machine room once.

IQ8Quad – calculation of loop capacity

Calculation of how many IQ8 Quad and how many IQ8 Alarm devices that can be connected on one loop, is done by the use of load factor. Each device has its own load factor. The maximum total load factor for a loop is determined by the length of the loop and the type of cable. In general, the shorter cable, the better. Please note that both turn and return must be measured. Table 1 lists the load factor of each device. Devices that have no alarm outputs (acoustical or optical) do not have a load factor. The total load factor of the connected devices is calculated by added the different load factors. The total load factor should never be higher than 120. The total length of the cable should never be more than the length in Table2. Table 1: Load factor per device Type Art. no. Load

factor

IQ8Quad optical/sounder 802382 2 IQ8Quad multisensor O

2T/sounder 802384.mar 2

IQ8Quad multisensor O2T/Flash 802383 2

IQ8Quad med speach, flash, sounder 802385.mar 3 IQ8Alarm, loop sounder 807206.01 3 IQ8Alarm, sløyfesummer/flash/tale rød 807372.01 3

Table 2:Load factor per detector loop

Maximum load factor related to the maximum cable lenght.

Load factor

Cable size and lenght (m)

1mm2 1,5mm

2 2,5mm

2

100 900 1200 1200 120 500 900 1200

Calculation example

Devices Tot. load factor

12 pcs 802382 24 3 pcs 802384.mar 6 2 pcs 802383 4 10 pcs 802385.mar 30 0 pcs 807206.01 0 12 pcs 807372.01 36

Tot. Load factor 100

The total load factor determines the maximum cable length for each detector loop to be 900m at 1mm

2

cable.


Technical drawings:

Delta OP

Delta communication interface Delta OP, flush mounted

Base for IQ8 detector IQ8 smoke detectors

Delta sub panel


Connection diagram OP/DA, Quad

Delta OP Delta DA, Quad

Standard terminal block connections for DELTA DA, QUAD (factory settings); Max current consumption 24VDC aux supply: CN1:3-4 =24VDC/300mA CN2:11-12 =24VDC/300mA CN2:13-14 =24VDC/1A 300mA outputs can only give power to one Delta OP.

Delta O

P

1

COM1 9 pin D-Sub (male)

RS485, B

2

3

4

5

6

7

RS232C, RxD

RS232C, TxD

+12VDC

GND

+24VDC

RS232C, RTS

8 RS232C, CTS

9 RS485, A

Communication cable 9 pin D-Sub (female)

1


RS485, B

2

3

4

5

6

7

RS232C, RxD

RS232C, TxD

+12VDC

GND

+24VDC

-12VDC

8 RS232C, CTS

9 RS485, A


eBus (in/out) Reserve

4

6

7

8

9

CN1

eComm(requires eBus kit installed)

FTT10A

FTT10B

+24VDC

0V

+24VDC3 0V

Power supply circuit 1

Power supply

Power supply

Power supply circuit 1

10

2 +1 —

HDFA output(Hardware Detection Fire Alarm) To Delta DA, CN1-13,14

Reserve

Standard terminal block connections for DELTA OP, Main DELTA OP: According to European standard EN54 Part 4, the two +24V monitored power supply inputs CN1-3,4 og 5,6 must be fed from two separate circuits, so that a short circuit in one of the circuits does not affect the other. Other networked DELTA OP need only one power supply circuit. Jumpers must be connected to terminals CN1-3,5 and 6,4 for avoiding fault alarms. Connection of HDFA is not necessarily on these panels.



1 CAN H

2

3

4

5

6

7

RS232C, RxD

RS232C, TxD

(Not Used)

GND (0V)

+24VDC

RS232C, RTS

8 RS232C, CTS

9 CAN L

2 1

CN3

220VAC Mains input

~

~

3

Use the M3 holes in the bottom chassis (in front of the terminal blocks) for earthing incoming cables terminering.

21

Relay output A TB7 no

c

3nc

9 8 no

c

10 nc

Vo

lta

ge

-fre

e

re

lay o

utp

uts

54Temp sensor for

batteries +

—

12 11 +

—

+24V auxiliary supply external equipment

Te

mp

. se

nso

r &

+2

4V

7624V battery charger

output +

—

14 13 +

—

+24V auxiliary supply external equipment

Ba

tte

ry

& +

24

V

Control circuit 1

Control circuit 2

CN2

Relay output B TB8

21

CN1

eComm FTT10 A

FTT10 B

43+24V power supply

for Delta OP +

—

16 15 +

— HDFA Detection Line (out)

65TB1-A

TB1-B+

—

18 17 +

—

TB1-CTB1-D

87TB2-A

TB2-B+

—

20 19 +

—

TB2-CTB2-D

109Monitored TB3-A

output TB3-B +

—

22 21 +

—

Monitored TB4-A output TB4-B

1211Monitored TB5-A

Multi-function output TB5-B +

—

24 23 +

—

Monitored TB6-A output TB6-B

DE

LT

A N

et

eB

us,

+2

4V

, H

DF

A

An

alo

gu

e d

ete

cto

r lo

op

s A

larm

cir

cu

its a

nd

Mu

lti-

fun

ctio

n o

utp

ut

Loop 2, turn

Loop 2, return

Loop 1, turn

Loop 1, return

Alarm circuit 1

Alarm circuit 2

Alarm circuit 4

Alarm circuit 3

14 13 +

— HDFA Detection Line (in)

FUNCTION SIGNAL PLINT NR.

To Delta DA, CN2-13,14



Delta DA cable for OP


* *

*

*

General drawing for alarm and control outputs Alarm bells, doormagnets, etc.

Po

larite

t vis

t i n

orm

altils

tan

d.

Alle

in

du

ktive

la

ste

r m

å u

tsty

res m

ed

tra

nsie

ntb

eskytt

els

e (

dio

de

).

Vå

r d

ørm

ag

ne

t, a

rt. n

r. 2

432

10.0

1 h

ar

dio

de

in

neb

yg

ge

t.

De

t ska

l no

rma

lt ikke

væ

re m

er

en

n 1

0

ala

rmg

ive

re p

å e

n a

larm

ku

rs.

Do

g k

an

de

t a

llike

ve

l m

on

tere

s 2

0 h

vis

ku

rse

n e

r o

ve

rvå

ket

til sis

te a

larm

giv

er.

Co

ntr

ol circu

it

Co

ntr

ol circu

it

24

VD

C A

larm

24

V P

ow

er

Po

larity

is s

ho

wn

in

norm

al m

od

e.

All

ind

uctive u

nits m

ust b

e p

rote

cte

d w

ith

a tra

nsie

nt p

rote

ctio

n

(dio

de

).

Ma

xim

um

am

ou

nt o

f a

larm

de

vic

es is o

n a

m

on

ito

red a

larm

circu

it 2

0 u

nits.

Cu

rre

nt

co

nsu

mp

tio

n m

ust n

ot b

e m

ore

th

an

1A

. E

OL

m

ust

be

co

nn

ecte

d in th

e la

st a

larm

un

it.

FWE (most used): Alarm circuit: Alarm device (5)

Control circuit: Fan (1), Door magnet (2), Fault device (4), Alarm device (5)


PA mute Standard Naut OSV

General alarm button

FWE:

No extra programming necessary

FWE: Solas pattern: TB6 is programmed to external device line. Abandon ship (constant signal): TB6 is programmed to additional external device line

TB6

FWE: Delta OP: Expansion card; Yes Delta OP: 804F=01 Delta OP: 801E=02 Delta OP: 807F=01 Panel: M6-00FF*-7-1-00-01-36-*


Connection diagrams for IQ8 base

Alternative 1: Detector connected with isolator For optimal safety, isolators can be used in each detector. For connection of isolators in each detector it is important to know which cable comes is in and which is out (direction of the loop). It is also very important to have control of what is positive(+) and what is negative(-).

ut (hvilken vei går sløyfa) samt hva som er + (pluss) og – (minus).

Alternative 2: Detector connected without isolator Sometimes it can be better to connect without isolators in some detectors. Commissioning of the system goes easier if you do not have isolators in each detector. When connecting without isolator you do not need to know which cable is in and which is out (direction of the loop). You still need to know which cable is positive (+) and which is negative (-).

.

8 7 6 5 4 3 2 1

NEXTDETECTOR/ FIRE PANEL (return)

-

+

IQ8 BASE 885590

IQ8 MANUAL CALL POINT804971

FROMFIRE PANEL

+

-

61

2

4

5

3

-

UL

In

- U

LO

ut

+ + C

If you wish to connect without isolator on IQ8Manual call point, connect UL-in/out on terminal 1.

Disconnected isolator

8 7 6 5 4 3 2 1

NEXTDETECTOR/ FIRE PANEL (return)

-

+

IQ8 BASE885590

IQ8 MANUAL CALL POINT804971

FROMFIRE PANEL(turn)

+

-

61

2

4

5

3

-Lin

-

+U

Lin

+U

Lo

ut


Connection diagrams for IQ8 base Paralell LED and relay base

Mounting of IQ8 detectors. Before commissioning can begin, it is important to control that the loops are intact and all cables connected correctly. This can sometimes be difficult when the detectors are mounted in the base, due to the isolators. The isolators are closed by a message from the fire panel and the loop has to be intact for this to work. The isolator is located between connector 4 and 5. When no detector is mounted, a short circuit is positioned between connector 4 and 5. It is therefore recommended to mount the detectors after the loop has been measured. It is also recommended to mount the manual call points at the same time as the detectors. The cables in the manual call point must then be connected together for measuring the loop, alternatively connected without isolator.

Connection of IQ8 Alarm.

(Optional)

+

-X2

781814

ut

in

ut

in

Parallell LED

Without isolator With isolator

FROMFIRE PANEL(turn)

61

2

34

5

61

25

43

NEXTDETECTOR /FIREPANEL (return)

+

-

- +

IQ8 BASE885590 885591

IQ8 RELAY BASE

BR1

BR1=NO(default)

BR1=NC

885591 is normally open. To make it normally closed, solder BR1


Connection of flame detectors

Flame refurbishment unit

Connecting of flame detector 601F-M

Connecting of flame detector NS-DUV FWE: Transponder 4zones, 2outputs


Connection of Ex equipment EX refurbishment unit

Connection of 601FEx-M detectors

FWE: Transponder 4zones, 2outputs

From zener barrier

EX Manual call points: If delay from Ex smoke detectors is needed, manual call points must be connected on separate line and separate i/o unit.


Sauna / Closed in alarm / Door control Transponder 1in/1out:

Sauna, ip67 heat detector:

Freezer, ip67 heat detector:

FWE: Heat detectors:Technical alarm module, TAM/TAL, closed in alarm: Technical detector


Connection of transponders Making the relay outputs standard NO/NC (not monitored) is done by removing jumper X12,

X13, X15 and X16. X12 and X13 is for relay 1, X15 and X16 is for relay 2.

-

9V

+

12

Connection transponder 4Z/2R - art.nr. 808613

4 36 58 79

In OutIn

Out

UL- UL+

Detectorloop

_+

_+

_+

_+

PE +UBGNDRelay 1 Relay 2

+12V ext.

GND

10k 10k

1 2 3 4

Zones

10k 10k 10k 10k

Power supplyinput(10-28V)

10k 1k Zone 1-4

10K EOL, art.nr. 46510

1K Alarm resistor, art.nr. 46410

FWE: Transponder 4zones, 2outputs

Connection transponder 12R - 808610

NO/ NC C

+12V K7 K8 K9 K10 K11 K12

CNO/ NC C

NO/ NC C

NO/ NC

CNO/ NC

NO C

+12VK1K2K3K4K5K6

+12V

-VL inn

-VL ut

+VL

Gnd

+12V

A- B- A+

B+

Power supply

Detector loop

NO/ NCC

NO/ NCC

NO/ NCC

NO/ NCC

NO/ NCC

NO/NCC

(10-28V)

(0V ut)(10-28V out)

(10-28V ut)(0V ut)

Unit is loop driven and does not need any 12vDC or 24vDC

NC/NO is set in FireWin ExplorerRelay 12 can only be NO.

FWE: Transponder 12 relay


Delta system (2 Operating panels and 2 DA units)


Ne

two

rk s

ys

tem


The Eltek Fire and Safety brand is represented worldwide

trough a network of highly skilled and authorized partners

providing systems sales, system design, commissioning, service

and after sales support to ship owners and ship yards. On-site

service is also provided by a dedicated team of Field Service

Engineers ready to travel on short notice to any regions of the

world. Service performed by authorized personnel mean that

quality is maintained year after year and guarantees that repairs

and service is performed in accordance with manufactures

specifications.

Lierstranda Industriområde, P.O. Box 3514, 3007 Drammen, Norway

Honeywell Life Safety AS Life Safety AS Customer support: +47 815 44 045 · [email protected] · [email protected]

Phone: +47 32 24 48 00 Internet: www.eltek-fs.com Fax: +47 32 24 48 01

iq8 marine installers booklet_011_20101213.pdf

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