GEZE FA GC 150 Wiring Diagram

Hold-open system
FA GC 150

Instructions for installation, commis-

sioning, operation and maintenance

RSZ 6,

TS 4000 R, TS 4000 RFS, TS 4000 R-IS,

TS 5000 R, TS 5000 RFS, TS 5000 RFS KB,

TS 5000 R-ISM /G/S/0, TS 5000 R-ISM EFS,

Slimdrive EMD F/R*, Slimdrive EMD F/R-IS*,

Powerturn F/R*, Powerturn F/R-IS*,

Powerturn F/R-IS/TS*

EN Wiring diagram

141512- 05

Contents

1 Symbols and illustrations ...................................................................................................................................4

2 Notes .........................................................................................................................................................................4

2.1 Installation and electrical connection of the hold-open system ................................................................................................4

2.2 Installation of the lintel-mounted smoke switch...............................................................................................................................5

2.3 Protecting a smoke switch from soiling ................................................................................................................................................5

2.4 Disposal .............................................................................................................................................................................................................5

3 Hold-open system FA GC 150 ...........................................................................................................................6

3.1 Function ............................................................................................................................................................................................................6

3.2 Hold-open system with separate smoke control unit RSZ6 ..........................................................................................................7

3.3 Integrated hold-open systems .................................................................................................................................................................8

3.4 Classication in accordance with EN 14637 .........................................................................................................................................9

3.5 Planning of re alarms and manual trigger switches .......................................................................................................................9

3.5.1 Smoke detector or thermal detector .......................................................................................................................................................................9

3.5.2 Number and installation of re alarms .................................................................................................................................................................... 9

3.5.3 Manual trigger switch ......................................................................................................................................................................................................10

4 Technical data .......................................................................................................................................................12

4.1 Hold-open system FA GC 150 .................................................................................................................................................................12

4.2 Guidelines.......................................................................................................................................................................................................12

4.3 Power supply .................................................................................................................................................................................................12

4.4 Lintel-mounted smoke switch GC 151 .................................................................................................................................................13

4.5 Wireless module GC 171 ............................................................................................................................................................................14

4.5.1 “Operating” mode ..............................................................................................................................................................................................................15

4.5.2 Set up wireless connection” mode ..........................................................................................................................................................................18

4.6 Ceiling-mounted smoke detector GC 152 ......................................................................................................................................... 20

4.7 Ceiling-mounted thermal detector GC 153 ...................................................................................................................................... 21

4.8 Ceiling-mounted smoke detector ORS 142 ...................................................................................................................................... 22

4.9 Wireless ceiling-mounted smoke detector GC 172........................................................................................................................ 24

4.9.1 Signalling................................................................................................................................................................................................................................. 25

4.9.2 Battery replacement ........................................................................................................................................................................................................ 25

4.10 Wireless ceiling-mounted smoke detector GC 173 ........................................................................................................................ 25

4.10.1 Signalling..................................................................................................................................................................................................................................26

4.10.2 Battery replacement .........................................................................................................................................................................................................27

4.11 Manual trigger switch UTA ...................................................................................................................................................................... 27

4.12 Wireless input module GC 175 ............................................................................................................................................................... 27

4.12.1 Signalling..................................................................................................................................................................................................................................28

4.12.2 Battery replacement .........................................................................................................................................................................................................29

GEZE hold-open system FA GC 150

5 Wiring diagram ................................................................................................................................................... 29

5.1 Mains connection ....................................................................................................................................................................................... 29

5.1.1 Mains connection for protection rating I .....................................................................................................................................................29

5.1.2 Mains connection for protection rating II

5.1.3 Mains connection for Slimdrive EMD F/R versions* ......................................................................................................................................30

5.1.4 Mains connection for Powerturn F/R versions* ...............................................................................................................................................30

5.2 Ceiling-mounted detector ..................................................................................................................................................................... 30

5.2.1 Ceiling-mounted detectors GC 152 and GC 153 .............................................................................................................................................30

5.2.2 Ceiling-mounted smoke detector ORS 142 ........................................................................................................................................................33

5.3 Manual trigger switch or contact of the re alarm system ......................................................................................................... 33

5.3.1 Manual trigger switch UTA............................................................................................................................................................................................33

5.3.2 Contact to the re alarm system .............................................................................................................................................................................. 34

5.3.3 Contact of the re alarm system and manual trigger switch UTA ...................................................................................................... 34

5.4 Wireless module GC 171 ........................................................................................................................................................................... 35

5.4.1 Wireless ceiling-mounted detector GC 172 or GC 173 and/or wireless input modules GC 175 ........................................35

5.4.2 Wireless ceiling-mounted detector GC 172 or GC 173 – manual trigger switch or re alarm contact wired............36

5.4.3 Wireless ceiling-mounted detector wired – wireless input modules GC 175 ...............................................................................36

2

....................................................................................................................................................30

GEZE hold-open system FA GC 150

5.5 Wireless input module GC 175 ............................................................................................................................................................... 36

5.5.1 Manual trigger switch UTA............................................................................................................................................................................................37

5.5.2 Contact to the re alarm system ...............................................................................................................................................................................37

5.5.3 Contact of the re alarm system and manual trigger switch UTA .......................................................................................................38

5.6 Alarm output ................................................................................................................................................................................................ 38

5.7 Mutual triggering of two hold-open systems ................................................................................................................................. 38

5.8 Hold-open mechanism ............................................................................................................................................................................39

5.8.1 Hold-open system RSZ6 ...............................................................................................................................................................................................39

5.8.2 Hold-open system TS 4000 R, TS 4000 RFS ........................................................................................................................................................47

5.8.3 Hold-open system TS 4000 R-IS ................................................................................................................................................................................47

5.8.4 Hold-open system TS 5000 R ..................................................................................................................................................................................... 48

5.8.5 Hold-open system TS 5000 R-ISM /G/S/0 ........................................................................................................................................................... 48

5.8.6 Hold-open system TS 5000 R-ISM-EFS / TS 5000 R-ISM/0 with Free swing door closer ........................................................49

5.8.7 Hold-open system TS 5000 RFS .................................................................................................................................................................................49

5.8.8 Hold-open system TS 5000 RFS-KB .........................................................................................................................................................................49

5.8.9 Hold-open system Slimdrive EMD F/R ..................................................................................................................................................................50

5.8.10 Hold-open system Slimdrive EMD F/R-IS* ...........................................................................................................................................................51

5.8.11 Hold-open system Powerturn F/R* .........................................................................................................................................................................52

5.8.12 Hold-open system Powerturn F/R-IS* ....................................................................................................................................................................53

5.8.13 Hold-open system Powerturn F/R-IS/TS* ...........................................................................................................................................................54

6 Commissioning ................................................................................................................................................... 55

6.1 Check the self-closing characteristic of the door ........................................................................................................................... 55

6.1.1 1-leaf door ...............................................................................................................................................................................................................................55

6.1.2 2-leaf door ...............................................................................................................................................................................................................................55

6.2 Testing the smoke detectors ................................................................................................................................................................. 55

6.2.1 GC 151 ........................................................................................................................................................................................................................................55

6.2.2 GC 152, ORS 142 and GC 172 ........................................................................................................................................................................................55

6.3 Testing the thermal detectors ............................................................................................................................................................... 56

6.3.1 GC 153 and GC 173 .............................................................................................................................................................................................................56

7 Conrmation of conformity for the installation of the hold-open system .................................... 56

8 Ocial approval test ......................................................................................................................................... 56

9 Maintenance ........................................................................................................................................................ 57

9.1 Routine testing / Monthly inspection ................................................................................................................................................. 57

9.2 Annual testing and maintenance .........................................................................................................................................................57

EN 14637

General construction technique permit:

Z-6.500-2308
Z-6.500-2309

Certication oce: BWU33

*The automatic swing door drives

TSA 160 NT F, TSA 160 NT F EN7, TSA 160 NT F-IS,

TSA 160 NT F-IS-TS,

Slimdrive EMD-F, Slimdrive EMD-F-IS,

Slimdrive EMD F/R, Slimdrive EMD F/R-IS,

Powerturn F/R, Powerturn F/R-IS,

Powerturn F/R-IS/TS

are hold-open mechanisms/systems which

are components of the general construction tech-

nique permit l Z-6.500-2308 or Z-6.500-2309, but

their testing according to EN 14637 has not yet

been completed.

3

Symbols and illustrations

1 Symbols and illustrations

Warning notices

Warning notices are used in these instructions to warn you of property damage and personal injury.

X

Always read and observe these warning notices.

X

Observe all the measures that are marked with the warning symbol and warning word.

Warning
symbol

Warning word Meaning

DANGER

Danger to persons.
Non-compliance will result in death or serious injuries.

GEZE hold-open system FA GC 150

–

More symbols and illustrations

Important information and technical notes are highlighted to explain correct operation.

Symbol Meaning

X

Abbreviations

CAUTION

means “important note”

means "additional information"

Symbol for an action: Here you have to do something.

X

If there are several actions to be taken, keep to the given order.

AL Alarm
AS Ceiling-mounted detector (additional sensor)
E Electrical hold-open device
EMV Electromagnetic compatibility
FA Hold-open system
FS Free-swing function
GC GEZE
GND Reference potential (ground)
HOD Hold-open device
IS Integrated door closing sequence
ISM

Integrated door closing sequence (mechanical)
KB Transom installation hinge side
LED Light-emitting diode
LK Luster terminal
MRB

Manual trigger switch (manual release button)
NC NC contact (normally closed)

Information to prevent property damage, to understand or optimise the operation
sequences.

NO NO contact (normal open)
R Electrical hold-open device with lintel-

mounted detector and power supply (hold-

open system)
RSZ Smoke control unit
TS = Door closer
UTA Circuit breaker

Colours

BK black
BN brown
BU blue
GN green
RD red
YE yellow
WH white

2 Notes

à In compliance with the manufacturer’s product liability as dened in the German „Product Liability Act“, the

information contained in this brochure is to be noted and followed. Failure to comply releases the manufactu­rer from his statutory liability.

à To ensure personal safety, it is important to follow these safety instructions.
à Heed the installation instructions for the hold-open system and its assembly groups.
à The country-specic regulations are to be observed if used on re and smoke protection doors.
à Keep these documents.

2.1 Installation and electrical connection of the hold-open system

à The hold-open system must be installed by trained specialists. Refer also to the installation instructions for the

respective hold-open system.

à The connection of the hold-open system to the mains voltage must be carried out by a qualied electrician.
à Hold-open systems may not trigger an re alarm signal for the building.
à Only the devices specied in the construction technique permit may be installed and connected.
à Before connecting hold-open system components to the power supply, the supply voltage must be switched o.

4

GEZE hold-open system FA GC 150

2.2 Installation of the lintel-mounted smoke switch

à Do not install the lintel-mounted smoke switch until

construction work for commissioning of the hold­open system has been completed.

à The lintel-mounted smoke switch is a sensitive

electronic product and must be protected against
electrostatic discharge:

à Only take the lintel-mounted smoke switch out of

the protective packaging directly before installation.

à Do not touch any electronic components.

à Interrupt the voltage supply before installing the

lintel-mounted smoke switch.

à The lintel-mounted smoke switch is clipped into the

housing of the hold-open system.

Notes

Fig. 2.2.1

2.3 Protecting a smoke switch from soiling

à Do not remove the dust protection lm or dust protec-

tion cap from the smoke switch until commissioning is
about to take place.

à After the smoke switch has been installed and the

dust protection removed, make sure no dust gets
into the measuring chamber. This leads to increased
soiling and can signicantly shorten the service life of
the smoke switch.

à The measuring chamber of a smoke switch must not

be opened.

2.4 Disposal

à The hold-open system is made up of materials that should be sent for recycling. The individual components

have to be sorted in accordance with their material type. The parts can be disposed of at the local recycling
depot or by a scrap recycling company.

à In accordance with the Battery Directive, we are obliged to inform you of the following in connection with

the sale of batteries or rechargeable batteries respectively in connection with the delivery of devices contai­ning batteries or rechargeable batteries: Rechargeable batteries and batteries must not be disposed of with
household waste. Disposal with household waste is expressly forbidden according to the Battery Directive. As
the end-consumer, you are legally obliged to return used batteries. Please dispose of batteries at a municipal
collection point or in store. Batteries obtained from us can be returned to us by mail. The address is: GEZE
GmbH, Incoming Goods, Reinhold-Vöster-Str. 21-29, 71229 Leonberg/Germany. Batteries which contain harm­ful substances are identied by a symbol of a crossed-out rubbish bin.

Fig. 2.2.2

Fig. 2.3.1

5

Hold-open system FA GC 150

Ceiling­mounted
detector

Wireless ceiling-
mounted
detector

Manual
trigger
switch

Manual
trigger
switch

Wireless ceiling-
mounted
detector

Wireless input
module
GC175

Wireless input
module
GC175

Manual
trigger
switch

Wireless ceiling­mounted
detector

Wireless input
module
GC175

Manual
trigger
switch

Wireless input
module
GC175

3 Hold-open system FA GC 150

3.1 Function

Directly after a re or smoke protection door has been opened, it is closed again by the tted door closer. This
self-closing characteristic is cancelled in a controlled way by the hold-open system, so that a re or smoke protec­tion door can remain open permanently. In the event of a power failure, response by a
push button, an open door is closed by the door closer.

GEZE hold-open system FA GC 150

re alarm or triggering by a

2

3

Integrated hold-open system

2

1

3

6

Smoke control unit RSZ6

Energy supply

1 1

Ceiling­mounted
detector

2

2

Lintel-mounted detector
with trigger
mechanism

Manual
trigger
switch

Manual
trigger
switch

Hold-open

1

Wireless module
GC 171

mechanism
1-leaf / 2-leaf

1

Wireless ceiling-

3

3

mounted
detector

2

2

3

3

3

3

Fig. 3.1.1

GEZE hold-open system FA GC 150

3.2 Hold-open system with separate smoke control unit RSZ6

The hold-open system RSZ6 comprises:

à Energy supply (1)

à Power supply RSZ6

à Lintel-mounted smoke switch with trigger mechanism (1)

à GC 151, lintel-mounted smoke switch

à Wireless module (1)

for the wireless connection of ceiling-mounted detector and/or manual trigger switches

à GC 171, wireless module

à Ceiling-mounted detector (2)

à GC 152, smoke detector with relay base
à GC 153, thermal detector with relay base
à ORS 142, smoke detector with base and load resistor module AM 142
à GC 172, wireless smoke detector
à GC 173, wireless thermal detector

à Manual trigger switch (3)

à UTA, circuit breaker
à GC 175, wireless input module

à Hold-open mechanism (1)

overhead door closer

à TS 4000 E

link arm, electrohydraulic hold-open device

à TS 4000 E

link arm with free-swing function, electrohydraulic hold-open device

à TS 4000 E-IS

link arm, 2-leaf with integrated door closing sequence, electromagnetic hold-open device for both leaves

à E guide rail

electromagnetic hold-open device

à E-ISM guide rail

2-leaf with integrated door closing sequence, electromagnetic hold-open device for both leaves

à E-ISM/G guide rail

2-leaf with integrated door closing sequence, electromagnetic hold-open device for the active leaf

à E-ISM/S guide rail

2-leaf with integrated door closing sequence, electromagnetic hold-open device for the passive leaf

à ISM-EFS guide rail

2-leaf with integrated door closing sequence, electromagnetic hold-open device for the active leaf with free-swing function

à TS 5000 EFS

guide rail with free-swing function, electrohydraulic hold-open device

Integrated door closers

à E guide rail Boxer

electromagnetic hold-open device

à E-ISM guide rail Boxer

2-leaf with integrated door closing sequence, electromagnetic hold-open device for both leaves

à ISM-EFS guide rail Boxer

2-leaf with integrated door closing sequence, electromagnetic hold-open device for the active leaf with free-swing function

à Boxer EFS

guide rail with free-swing function, electrohydraulic hold-open device

Floor springs

à TS 550 NV-E

electrohydraulic hold-open device

à TS 550 E

electromagnetic hold-open device

à TS 550 E-IS

2-leaf with integrated closing sequence control, electromagnetic hold-open device

Hold-open magnet

à GT 50 R
à GT 60 R
à GT 63 R
à GT 70 R

Hold-open system FA GC 150

7

Hold-open system FA GC 150

Automatic door drives

à TSA 160 NT F*

hydraulic swing door drive

à TSA 160 NT F-IS*

hydraulic swing door drive, 2-leaf with integrated mechanical door closing sequence

à Slimdrive EMD-F*

electromechanical swing door drive

à Slimdrive EMF-F-IS*

electromechanical swing door drive, 2-leaf with integrated mechanical door closing sequence

à Powerturn F*

electromechanical swing door drive

à Powerturn F-IS*

electromechanical swing door drive, 2-leaf with integrated mechanical door closing sequence

à Powerturn F-IS/TS*

electromechanical swing door drive on the active leaf, door closer on the passive leaf with integrated me­chanical door closing sequence

3.3 Integrated hold-open systems

In addition to the hold-open system with separate smoke control unit RSZ6, the following hold-open systems
with integrated hold-open mechanism are available for overhead door closers:

à TS 4000 R

link arm, electrohydraulic hold-open device

à TS 4000 RFS

link arm with free-swing function, electrohydraulic hold-open device

à TS 4000 R-IS

link arm, 2-leaf with integrated door closing sequence, electrohydraulic hold-open device for both leaves

à TS 5000 R

guide rail, electromagnetic hold-open device or hold-open with hold-open magnet

à TS 5000 R-ISM

guide rail, 2-leaf with integrated door closing sequence, electromagnetic hold-open device for both leaves

à TS 5000 R-ISM/G

guide rail, 2-leaf with integrated door closing sequence, electromagnetic hold-open device for the active leaf

à TS 5000 R-ISM/S

guide rail, 2-leaf with integrated door closing sequence, electromagnetic hold-open device for the passive leaf

à TS 5000 R-ISM/0

guide rail, 2-leaf with integrated door closing sequence, without electromagnetic hold-open device in the guide rail

à TS 5000 R-ISM-EFS

guide rail, 2-leaf with integrated door closing sequence, electrohydraulic hold-open device for the active leaf
with free-swing function

à TS 5000 RFS

guide rail with free-swing function, electrohydraulic hold-open device

à TS 5000 RFS KB

guide rail with free-swing function, transom installation hinge side, electrohydraulic hold-open device

à Slimdrive EMD F/R*

electromechanical swing door drive

à Slimdrive EMD F/R-IS*

electromechanical swing door drive, 2-leaf with integrated mechanical door closing sequence

à Powerturn F/R*

electromechanical swing door drive

à Powerturn F-IS*

electromechanical swing door drive, 2-leaf with integrated mechanical door closing sequence

à Powerturn F/R-IS/TS*

electromechanical swing door drive on the active leaf, door closer on the passive leaf with integrated mecha­nical door closing sequence

GEZE hold-open system FA GC 150

8

GEZE hold-open system FA GC 150

3.4 Classication in accordance with EN 14637

Hold-open system

No. 1 Class 3 Application class Frequent use by the general public and other persons with

little incentive to take care

No. 2 Class 8 Permanent function 500,000 test cycles

No. 3 Class 1 Door type Swing leaf doors

Hold-open system FA GC 150

No. 4 Class 1 Suitability for use on re/

smoke protection doors

No. 5 Class 1 Safety Meets all requirements of EN 14637

No. 6 Class 0

Class 2

Class 3

Class 4 Very high resistance in accordance with EN 1670

Suitable for use on re/smoke protection doors

No dened corrosion resistance
(in connection with automatic door drives)
Moderate corrosion resistance in accordance with EN 1670
(in connection with the hold-open magnet GT 60 R)
High resistance in accordance with EN 1670
(in connection with the hold-open magnets
GT 50 R, GT 63 R and GT 70 R)

(in connection with all other GEZE
hold-open mechanisms)

3.5 Planning of re alarms and manual trigger switches

3.5.1 Smoke detector or thermal detector

Smoke detectors detect smoke. They work using the light scatter principle. A light transmitter and a light receiver
are arranged in the measuring chamber in such a way that no light meets the receiver module in the normal
case. If there are suspended particles (smoke) in the measuring chamber, these scatter part of the light onto the
receiver module, which converts this into an electric signal.
Accordingly, a smoke detector not only detects smoke but all other suspended particles and responds sensitively
to soiling.
Thermal detectors measure the ambient temperature and respond if the temperature exceeds a certain maxi­mum value or increases quickly within a certain time.
Usually, smoke and re gases spread quickly when a re breaks out. It is only later that the temperature increases.
Therefore smoke detectors must be used for hold-open systems on re protection doors on rescue routes. As far
as possible, smoke detectors should generally be used for hold-open systems. In areas where disruption such as
steam, dust or operation-related smoke development (workshops, kitchens) occurs, it may, however, be sensible
to use thermal detectors rather than smoke detectors.

3.5.2 Number and installation of re alarms

h Distance between lower edge of the lintel and ceiling or false ceiling (where a larger concentration of

smoke is to be expected rst in the event of a re).



Lintel-mounted smoke switch



Ceiling-mounted detec tor

9

Hold-open system FA GC 150

Usually there must be at least one ceiling-mounted
detector - i.e. one pair of detectors - tted in the
rooms adjacent to the smoke opening – and at least
one lintel-mounted detector on one side of the
lintel over the active leaf above the smoke opening.
If the following prerequisites are met, other installa­tions are sucient

One lintel-mounted smoke switch

à if the distance h is smaller than 100 cm on both

sides of the door

and

GEZE hold-open system FA GC 150

if appropriate

smoke-permea-

ble false ceiling

7

à if the opening width of the swing leaf door is

smaller than 300 cm

One lintel-mounted smoke switch and
one ceiling-mounted detector on each side of
the door

à if the distance h is greater than 100 cm on at

least one side of the door

or

à if the opening width of the swing leaf door is

greater than 300 cm

7

Fig. 3.5.2.1

if appropriate

smoke-permea-

ble false ceiling

Fig. 3.5.2.2

Lintel-mounted smoke switch

à The lintel-mounted smoke switch is installed directly above the door, in the case of 2-leaf doors above the active leaf.

à The lintel-mounted smoke switch is installed in such a way that a minimum distance of 1 cm is observed

between the upper edge of the smoke switch housing and the component above it.

à The lintel-mounted smoke switch is only suitable for wall assembly, it must not be installed on the ceiling.
à If the lintel-mounted smoke switch is subject to disruption such as steam, dust, condensation or operation-

related smoke development, it can make sense to cover the smoke chamber of the lintel-mounted smoke
switch and to install an additional thermal detector as lintel-mounted smoke switch above the door using a
mounting bracket instead

(not permissible on rescue routes)

Ceiling-mounted detector

à The ceiling-mounted detectors are installed on the ceiling above the door, the distance to the wall is bet-

ween 50 cm and 250 cm. The distance to any installation is at least 50 cm.

à If the distance h on one side of the door is greater than 500 cm, the corresponding ceiling-mounted detector can

be mounted on a projecting arm 50 cm in front of the wall and at least 350 cm above the lower edge of the lintel.

à In special ceiling situations (e.g. sloped ceilings, false ceilings, galleries) the re alarms must be installed

where a larger concentration of smoke is to be expected in the event of a re. If in doubt, a re protection
planner or expert should be consulted.

3.5.3 Manual trigger switch

Optional manual trigger switch:

The hold-open mechanisms

à TS 4000 E, TS 4000 E-IS
à E guide rail, E-ISM guide rail, E-ISM/G guide rail, E-ISM/S guide rail
à E guide rail Boxer, E-ISM guide rail Boxer
à TS 550 NV-E, TS 550 E, TS 550 E-IS

and the hold-open systems

10

GEZE hold-open system FA GC 150

à TS 4000 R, TS 4000 R-IS
à TS 5000 R, TS 5000 R-ISM, TS 5000 R-ISM/G, TS 5000 R-ISM/S, TS 5000 R-ISM/0

can be triggered by hand by closing the door leaves manually.
A manual trigger switch can be installed as an option.

Manual trigger switch mandatory:

The hold-open mechanisms

à TS 4000 EFS
à TS 5000 EFS
à ISM-EFS guide rail
à Boxer EFS
à ISM-EFS guide rail Boxer
à GT 50 R, GT 60 R, GT 63 R, GT 70 R
à TSA 160 NT F*, TSA 160 NT F-IS*
à Slimdrive EMD F*, Slimdrive EMD F-IS*
à Powerturn F*, Powerturn F-IS*, Powerturn F-IS/TS*

and the hold-open systems

à TS 4000 RFS
à TS 5000 RFS, TS 5000 RFS-KB, TS 5000 R-ISM-EFS
à Slimdrive EMD F/R*, Slimdrive EMD F/R-IS*
à Powerturn F/R*, Powerturn F/R-IS*, Powerturn F/R-IS/TS*

cannot be triggered by hand. For this reason, a manual trigger switch must be installed.

Hold-open system FA GC 150

Installation of the manual trigger switch

à Installation of the manual trigger switch in a clearly visible place in the direct vicinity of the door (not concealed

by the door leaf).

à Recommended installation height of the manual trigger switch: 140 cm ± 20 cm.

11

Technical data

4 Technical data

4.1 Hold-open system FA GC 150

GEZE hold-open system FA GC 150

Protection rating (according to DIN EN

61140)

IP rating (in accordance with DIN 60529) IP20, only for dry areas
Ambient temperature -5°C to 50°C

4.2 Guidelines

DIBt Directives:2015

DIN EN 14637:2008-01

DIN 14677:2011-03

DIN 18263-4:2015-04

DIN EN 54-4:1997-12 Fire detection and re alarm systems - Part 4: Power supply equipment
DIN EN 54-5:2001-03
DIN EN 54-7:2006-09 Fire detection and re alarm systems - Part 7: Smoke detectors - Point

DI N EN 5 4 -18:2005-12
DIN EN 54-25:2008-06

DIN EN 1155:2006-06

DIN EN 60950-1:2014-08;
VDE 0805-1:2014-08
DIN EN 61000-6-2:2016-05;
VDE 0839-6-2:2015-05
DIN EN 61000-6-3:2011-09;
VDE 0839-6-3:2011-09

ETSI EN 300 220-2, V3.1.1,2017-02 Electromagnetic compatibility and Radio spectrum Matters (ERM);

ETSI EN 301 489-1, V1.9.2:2011-09 Electromagnetic compatibility and Radio spectrum Matters (ERM);

I
TS 4000 R, TS 4000 RFS
TS 4000 R-IS, TS 5000 RFS KB
Slimdrive EMD F/R*
Slimdrive EMD F/R-IS*
Powerturn F/R*
Powerturn F/R-IS*
Powerturn F/R-IS/TS*

General requirements and test regulations for the approval proce­dure for hold-open systems - version September 2015
Locks and building hardware - electrically controlled hold-open sys­tems for re/smoke protection doors - requirements, test methods,
application and maintenance
Servicing of electrically controlled hold-open systems for re and
smoke protection closer

Locks and building ttings - Door closers with controlled locking struc­ture - Part 4: Swing door drive with self-closing function

Fire detection and re alarm systems - Part 5: Heat detectors - point detectors

detectors using scattered light, transmitted light or ionisation
Fire detection and re alarm systems - Part 18: Input/output devices

Fire detection and re alarm systems - Part 25: Components which use
high-frequency connections
Locks and building hardware - electrically controlled hold-open me­chanisms for swing leaf doors - requirements and test methods
Information technology equipment - Safety - Part 1: General requirements
Electromagnetic compatibility (EMC) - Part 6-2: Generic standards

- Interference immunity for industrial sectors
Electromagnetic compatibility (EMC) - Part 6-3 Generic standards

- Interference immunity for residence, business and commercial sectors
as well as small-sized business

Short Range Devices (SRD);
Radio equipment to be used in the 25 MHz to 1 000 MHz
frequency range with power levels ranging up to 500 mW;
Part 2: Harmonized EN covering essential requirements
under article 3.2 of the R&TTE Directive

Electromagnetic Compatibility (EMC)
standard for radio equipment and services;
Part 1: Common technical requirements

II
RSZ6

(if automatic swing door drives
are used as a hold-open mechanism,
they are connected up as protecting
rating I devices)
RFS
TS 5000 R-ISM /G/S/0
TS 5000 R-ISM EFS

TS 5000 R, TS 5000

4.3 Power supply

Power supply

- Cable length 230V / 24V

- Cable length 230V / 24V

- Cable length 230V / 24V
Input voltage 230 V AC, +10 % / -15%, 50 Hz
Input current Maximum of 80 mA
Output voltage 24 V ± 0.5 V DC
Output current Maximum of 260 mA

12

130 mm / 150 mm (ID 085391)
90 mm / 65 mm (ID 103354)
700 mm / 750 mm (ID 115818)

GEZE hold-open system FA GC 150

4.4 Lintel-mounted smoke switch GC 151

Lintel-mounted smoke switch GC 151 ID 142250
Functional principle

Input voltage 24 V ± 0.5 V DC
Input current Maximum of 15 mA
Installation position Wall (lintel) installation, horizontal
Output hold-open mechanism Transistor output, short-circuit proof

Additional detectors

Manual trigger switch Line monitoring (switchable) using terminating resistor (43kΩ) at the

Alarm output Potential-free relay output, changer

Reset key The hold-open mechanism is switched o as long as the key is

Detector test Alarm triggering: with reset key or with test aerosol

Scatter light, adaption of the alarm threshold, no alarm saving (self-reset­ting as soon as there is no longer any smoke in the measuring chamber)

Free-wheeling diode for inductive load, maximum 24 V, 200 mA
in the event of an alarm switch-o of the hold-open mechanism for at least 4 s

Connection of up to 3 ceiling-mounted detectors using 3-line technology
Line monitoring (switchable) using two terminating resistors (43kΩ
each) at the end of the cable

end of the cable

maximum 24 V DC / maximum 1 A

pressed (for at least 4 s)
Reset of the smoke switch by activating the key

Technical data

Line monitoring may only be deactivated when used as a spare part in old systems without line monitoring (ORS 141).

Switch the supply voltage o before changing the jumper setting (remove terminal clamp KL1).
The new jumper setting only becomes active after the mains voltage has been switched back on again.

Supply

External hold-open

mechanism

Manual trigger switch

Ceiling-mounted

detector

Alarm output

Measuring chamber

without manual trigger switch

with manual trigger switch

without
ceiling-mounted detector

with
ceiling-mounted detector

without line monitoring
to the manual trigger switch
and ceiling-mounted detector

with line monitoring
to the manual trigger switch
and ceiling-mounted detector

Internal hold-open

mechanism

Reset key
LED for state
and fault display

Jumper set

Jumper not set

Fig. 4.4.1

13

Technical data

C

M

O

C

C

M

O

GEZE hold-open system FA GC 150

State / fault

Voltage -fre e

Normal operation

Soiling (warning)

The lintel-mounted smoke switch should be replaced.

Soiling limit reached

The lintel-mounted smoke switch must be replaced.

Lintel-mounted smoke switch fault

The lintel-mounted smoke switch must be replaced.

Short-circuit at the hold-open output

Disconnect the lintel-mounted smoke switch from the
supply voltage and eliminate the short-circuit.

Supply voltage for lintel-mounted smoke switch
too small
Broken cable manual trigger switch

1)

Supply voltage ceiling-mounted detector too

1)

small
Short-circuit ceiling-mounted detector

1)

Manual trigger switch activated
Short-circuit manual trigger switch

1)

LED

green

red

green

red

green

red

red

red

red

yellow

o

o

o

o

o

Alarm output Hold-open output

KL1: 3-4 / KL3: 1-2

AL_N

AL_CO

AL_N

10

11

12

0 V

24 V

24 V

0 V

0 V

AL_N

AL_COM

AL_N

10

11

O

12

0 V

0 V

0 V

0 V

Reset key activated

Alarm lintel-mounted smoke switch
Alarm ceiling-mounted detector
Broken cable ceiling-mounted detector

1)

Ceiling-mounted detector removed

1)

Display only if line monitoring is active (jumper J3) Tab. 4.4.1

4.5 Wireless module GC 171

Wireless module GC 171 ID 163051
Colour RAL 7016 (anthracite grey)
Dimensions (W x H x D) 177 mm x 30 mm x 18 mm
Installation position Wall assembly
Input voltage 24 V DC
Input current Maximum of 15 mA
Function The wireless module GC 171 makes wireless communication possible

Number of wireless participants The wireless module GC 171 can communicate with a maximum of 6

Signal transfer period 60 s
Antenna integrated

yellow

red

AL_N

AL_CO

AL_N

10

11

12

0 V

0 V

between the lintel-mounted smoke switch GC 151 and various wireless
devices (wireless smoke detector GC 172, wireless thermal detector GC
173 and wireless input module GC 175).
The wireless module GC 171 forwards wireless signals to the lintel­mounted smoke switch GC 151 as changes in resistance. These changes
in resistance correspond to those of the ceiling-mounted detectors GC
152 and GC 153 and the manual trigger switch.
An alarm triggered at a wireless module is indicated without delay (in less

than 10 s) at the lintel-mounted smoke switch GC 151.
Interference with a wireless device or a problem with communication

is indicated in less than 100 s on the lintel-mounted smoke switch GC 151.

wireless devices (GC 172, GC 173 or GC 175).

14

GEZE hold-open system FA GC 150

Technical data

Frequency range

Range
Number of frequency channels
Modulation technique
Radiated power

SW2

SW2

PB1

868.15 MHz to 869.85 MHz
10 m (100 m in space)
7
FSK (frequency shift keying)
5 dBm (3 mW)

LED2

LED2

LED11...LED16

SW11...SW16

KL1

AS

Fig. 4.5.1

KL1 Connection to the lintel-mounted smoke switch
24V Supply
GND Supply
MRB Manual trigger switch
AS Ceiling-mounted detector
PB1 Push button for mode selection
“Operating” mode
“Set up wireless connection” mode
LED1x Wireless device LEDs
6 LEDs, one LED belongs to exactly one wireless device.
SW1x Wireless device switch
6 sliding switches, one switch belongs to exactly one wireless device.
LED2 Status LED
Indicates the status of the GC 171.
SW2 Selection of the lintel-mounted smoke switch
SW2 is switched to ON for connection to lintel-mounted smoke switch GC 151.

Always remove jumpers J1 and J2 from the GC 151.

4.5.1 “Operating” mode

After the supply voltage has been switched on, the wireless module GC 171 is in “operating” mode.

LED displays

In “operating” mode the GC 171 monitors the set-up wireless connections and signals faults and alarms to the
lintel-mounted smoke switch. Faults and alarms are also indicated on the status LED and the wireless device LEDs
of the GC 171. The following table shows the states for various events which are signalled via the set-up wireless
connections:

à of the wireless device LEDs of the GC 171
à of the status LED of the GC 171
à of the LED of the lintel-mounted smoke switch GC 151
à of the alarm output and the hold-open output of the lintel-mounted smoke switch GC 151

The wireless module GC 171 indicates an event until the cause has been eliminated. If the cause of an event is no
longer present, the wireless module GC 171 changes back to normal mode (the displays are deleted and 24 V is
applied to the hold-open output of the lintel-mounted smoke switch again.

15

Technical data

M

O

GEZE hold-open system FA GC 150

Wireless
connec-

State /
fault

tion

GC 171 Connection

quality

General fault o yellow

GC 172

General fault red

GC 173

Sabotage red

Loss of connec­tion

Low battery
charge
(warning)

Soiling
(warning)

Wireless module GC 171

(“operating” mode)

Wireless device LED 1x Status

LEDs

ashes green Æ good

o green

ashes yellow Æ sucient
ashes red Æ poor

o

o

red

o

yellow

yellow

o

red/green briey

Lintel-mounted smoke switch GC 151

LEDs Alarm output

AL_NC

10

red

AL_COM

AL_N

11

O

12

aus

red

aus

AL_NC

10

green

AL_COM

AL_N

11

O

12

Hold-open
output
KL1: 3-4 /
KL3: 1-2

24 V

0 V

0 V

24 V

Soiling limit
reached

Wireless detector
alarm

GC 175 General fault,

broken cable

Loss of connec­tion

Low battery
charge
(warning)

Contact (NO con­tact) activated,
short-circuit

Connection quality

If the wireless device switch is in the OFF position during “operating” mode, the corresponding wireless device
LED indicates the connection quality to the corresponding wireless device:

- LED is o

- LED ashes green every 2 s

- LED ashes yellow every 2 s

- LED ashes red every 2 s

red/green long red

red red red

red

o

red

o

yellow

yellow

o

yellow

Jno wireless connection is set up

Jgood connection quality

Jsucient connection quality

Jstill connected but poor connection quality

Connection interference is possible, the quality of the wireless
connection should be optimised by changing the position of
the wireless device.

aus

AL_NC

AL_CO

AL_N

10

11

12

0 V

0 V

red

aus

green 24 V

AL_NC

AL_COM

AL_NO

10

11

12

yellow 0 V

Tab . 4.5.1

If the wireless device switch is in the OFF position in “operating” mode and the wireless device signals an event
(a warning, a fault or an alarm), the wireless device LED indicates this event in compliance with the table above
instead of the connection quality.

16

GEZE hold-open system FA GC 150

General fault

The wireless module GC 171 signals “general fault” if

à no wireless connection is set up,
à the set-up switch is in the ON position with GC 172, GC 173 or GC 175,
à a fault has occurred during smoke detection with GC 172,
à the connection to the termination resistor is interrupted with GC 175,
à the wireless module GC 171 is in the “set up wireless connection” mode.

Sabotage

The wireless module GC 171 signals “sabotage” if a wireless detector GC 172 or GC 173 has been removed from its
base.

Loss of connection

If the wireless module GC 171 does not receive a new message from a set-up wireless device within 100 s of the
last message, the wireless module signals “loss of connection” for the corresponding wireless connection. The wi­reless module GC 171 continues to monitor this wireless connection. If the wireless module sends a signal again
in time, the wireless module GC 171 returns to “normal operation”.

Low battery charge

The wireless module GC 171 signals “low battery charge” if the voltage of the main battery of the corresponding
wireless device falls to less than 2.6 V. Both batteries (main battery and slave battery) must be replaced.

Technical data

Soiling

The wireless module GC 171 signals “soiling” if the inside of the smoke chamber is heavily soiled. The correspon­ding wireless smoke detector GC 172 should be replaced.

Soiling limit reached

The wireless module GC 171 signals “soiling limit reached” if the inside of the smoke chamber is too heavily
soiled. The corresponding wireless smoke detector GC 172 must be replaced.

Wireless detector alarm

The wireless module GC 171 signals “wireless ceiling-mounted detector alarm” if the wireless smoke detector GC
172 or the wireless thermal detector GC 173 triggers. The signal is acknowledged automatically when the cause
of the alarm is no longer present. The wireless module GC 171 returns to “normal operation”.

Contact activated

The wireless module GC 171 signals “contact activated” if the input of the wireless input module GC 175 is short­circuited (when the connected contact is closed or in the event of short-circuit of the connection to the contact).
The signal is acknowledged automatically when the short-circuit is no longer present.
The wireless module GC 171 returns to “normal operation”.

Event memory

The wireless module GC 171 saves the last event for every connected wireless device. A new event overwrites the
last event. In order to check whether an event has been saved for the wireless device, slide the corresponding
wireless device switch to the ON position. If an event has been saved for this wireless device, the corresponding
wireless device LED will then display this event as shown in the table above. If the wireless device LED is green,
then no event has been saved for this wireless device.

When the wireless device switch is slid back to the OFF position, any event saved is deleted.

17

Technical data

4.5.2 Set up wireless connection” mode

Set up a new wireless connection

In the “set up wireless connection” mode, new wireless connections can be set up to new wireless devices GC
172, GC 173 or GC 175. A maximum of 6 wireless connections can be set up.

X

1. All the wireless device switches of the wireless module
GC 171 are in the OFF position.

X

2. The set-up switch of the new wireless device is set to the
ON position.

GEZE hold-open system FA GC 150

SW1x

X

3. The protective lm is on the battery compartment of the
new wireless device and the main battery for the new wireless
device has not been tted

X

4. After the supply voltage has been switched on, the
wireless module GC 171 is in “operating” mode.

X

5. Press the PB1 push button on the wireless module GC
171 briey to change to the “set up wireless connection”
mode. The status LED2 of the wireless module GC 171 is
now permanently lit red.

X

6. Slide a free wireless device switch SW1x of the wireless
module GC 171 to the ON position.

If a connection has
already been set up for the wireless device switch
selected, this is overwritten by the following process.
The corresponding wireless device LED1x starts to
ash green. The wireless module GC 171 waits for
the connection query for a new wireless device. If a
wireless device does not

respond within 2 minutes,

the GC 171 cancels the connection attempt, the corre­sponding wireless device LED1x lights up red. To start
the connection attempt again, slide the correspon­ding wireless device switch SW1x to the OFF position
briey, then slide it back into the ON position. The
corresponding wireless device LED1x ashes green
again for 2 minutes.

X

7. Remove the protective lm from the battery com­partment of the new wireless device and install the
main battery in the new wireless device (ensure correct
polarity).

PB1

SW1x

LED2

LED1x

18

GEZE hold-open system FA GC 150

Wireless ceiling-mounted detector GC 172 or GC 173

The LEDs of the new wireless ceiling-mounted detector
ash green twice rst, then light up yellow for one se­cond and then ash

goes out after that, the connection can be set up.

Wireless input module GC 175:

The LEDs of the new wireless input module ash green
once rst, then light up yellow for one second and then
ash red four times. As soon as the LED goes out after
that, the connection can be set up.

X

8. Now slide the set-up switch on the new wireless
device to the OFF position. After a short time, the LED
of the new wireless device will ash green for a few se­conds. The corresponding wireless device LED1x of the
wireless module GC 171 lights up green permanently.

Technical data

red four times. As soon as the LED

ON

X

9. If the LED on the new wireless device lights up red
permanently, no connection has been made. In this case,
remove the main battery from the new wireless device,
slide the set-up switch on the new wireless device back
and forward 6 times and start again with step 7.

X

10. Fit the wireless ceiling-mounted detector to the base
and close the housing of the wireless input module.

X

11. Slide the wireless device switch SW1x of the wire­less module GC 171 to the OFF position again. The co­lour the corresponding wireless device LED1x ashes
indicates the quality of the wireless connection (see
Chapter 4.5.1). Optimise the quality of the wireless
connection if necessary by changing the position of
the wireless device.

X

12. The connection of the wireless module GC 171
to the new wireless device has been set up. It makes
sense to note the set-up connection (number of the
assigned wireless device switch) on the new wire­less device (e.g. on its identication plate). To set up
further wireless connections, continue with step 6.

X

13. Press the PB1 push button on the wireless module
GC 171 briey to change to the “operating” mode.
The status LED2 of the wireless module GC 171 goes
o.

PB1

SW1x

LED1x

LED2

19

Technical data

Löschen aller Funkverbindungen

Im Modus „Funkverbindung einrichten“ können alle bereits eingerichteten Funkverbindungen gelöscht werden.

X

X

X

X

X

GEZE hold-open system FA GC 150

1. Nach dem Einschalten der Versorgungsspannung ben­det sich das Funkmodul GC 171 im Modus „Betrieb“. Alle
Funkgeräteschalter SW1x benden sich in Position OFF.

2. Durch kurzes Betätigen des Tasters PB1 in den Modus
„Funkverbindung einrichten“ wechseln. Die Status-LED2 des
Funkmoduls leuchtet jetzt dauerhaft rot.

3. Alle 6 Funkgeräteschalter SW1x auf Position ON schieben.
Die Funkgeräte-LED1x leuchten nacheinander gelb, bis sich
alle Funkgeräteschalter in Position ON benden. Sie blinken
danach für 5 s rot. Innerhalb dieser 5 s kann das Löschen der
Funkverbindungen abgebrochen werden, indem ein oder
mehrere Funkgeräteschalter wieder zurück auf Position OFF
geschoben werden

4. Jetzt leuchten alle 6 Funkgeräte-LED1x dauerhaft gelb,
alle Funkverbindungen sind gelöscht

5. Alle 6 Funkgeräteschalter SW1x wieder zurück auf Position
OFF schieben.

PB1

SW1x

SW1x

SW1x

LED2

LED1x

X

6. Durch kurzes Betätigen des Tasters PB1 wieder in den
Modus „Betrieb“ wechseln. Die Status-LED2 des Funkmoduls
leuchtet jetzt dauerhaft gelb.

4.6 Ceiling-mounted smoke detector GC 152

Smoke detector with relay base GC 152 ID 139850
comprising Relay base GC 150 B

Smoke detector GC 002 D
Smoke detector GC 002 D ID 141458
Colour white, RAL 9016
Dimensions (with base, Dxh) 110 mm x 67 mm
Functional principle Scatter light, adaption of the alarm threshold, no alarm saving (self-

resetting as soon as there is no longer any smoke in the measuring

chamber)
Insect grid prevents insects getting into the measuring chamber.
Input voltage 24 V DC
Input current Maximum of 20 mA
Installation position Ceiling mounting
Terminating resistors 2 x 43 kΩ, integrated, detachable
Alarm output Potential-free relay output, NC contact

maximum 24 V DC / maximum 1 A

PB1

LED2

20

GEZE hold-open system FA GC 150

Detector test Alarm triggering

Signalling

LEDs Relay output

Volt age-free

o

Technical data

- using test magnet near the magnetic sensor (GEZE logo)

- using test aerosol

The detector test using a test magnet tests the electrical components.

The detector test which forms part of the regular testing of the hold-

open system must be carried out using a test aerosol (see 6.2.2).

24V

ASout

ASin

Normal
operation

Alarm

2

3

o

red

24V

ASout

ASin

Tab. 4.6.1

1

Fig. 4.6.1

GC 150 B

GND

24V

out

AS

ASin

1

Fig. 4.6.2

1 Breaking point (see Chapter 5.2)
2 Magnetic sensor for testing (behind the GEZE logo)

4.7 Ceiling-mounted thermal detector GC 153

Thermal detector with base GC 153 ID 139881
comprising Relay base GC 150 B

Thermal detector GC 003 D
Thermal detector GC 003 D ID 141459
Colour white, RAL 9016
Dimensions (with base, Dxh) 110 mm x 67 mm
Functional principle Alarm if the ambient temperature exceeds the alarm temperature or if

the ambient temperature increases very quickly, no alarm saving (self-

resetting as soon as the ambient temperature has dropped again)
Alarm temperature 57°C
EN 54-5 classication A1R
Input voltage 24 V DC
Input current Maximum of 20 mA
Installation position Ceiling mounting
Terminating resistors 2 x 43 kΩ, integrated, detachable

3 LED for displaying state

21

Technical data

Alarm output Potential-free relay output, NC contact

Detector test Alarm triggering

Signalling

Volt age-free

LEDs Relay output

o

24V

ASout

ASin

GEZE hold-open system FA GC 150

maximum 24 V DC / maximum 1 A

- using test magnet near the magnetic sensor

- using heat detector testing device

The detector test using a test magnet tests the electrical components.
The detector test which forms part of the regular testing of the hold­open system must be carried out using a heat detector testing device
(see 6.3.1).

Normal opera­tion

Alarm

o

red

24V

ASout

ASin

Tab . 4.7.1

2

3

1 Breaking point (see Chapter 5.2)
2 Magnetic sensor for testing (behind the GEZE logo)

GC 150 B

GND

24V

1

out

ASin

AS

3 LED for displaying state

1

Fig. 4.7.2

Fig. 4.7.3

4.8 Ceiling-mounted smoke detector ORS 142

Ceiling-mounted smoke detector kit ORS 142 with

- 2 x smoke detector ORS 142

- 2 x base ORS 143 A

- 1 x magnetic holder
Ceiling-mounted smoke detector ORS 142 with

- Smoke detector GC 142

- Base ORS 143 A

- 1 x magnetic holder
Colour white, RAL 9010
Dimensions (with base, DxH)

22

ID 141715

ID 091069

80 mm x 66 mm

GEZE hold-open system FA GC 150

Functional principle

- Smoke detection

hermal sensor

- T
Input voltage 24 V DC

Input current Maximum of 22 mA

Installation position Ceiling mounting

IP rating IP42

Ambient temperature -20°C to 60°C

Alarm output Potential-free relay output, NC contact maximum 24 V DC / maximum 1 A

Magnetic holder

Detector test Alarm triggering with test aerosol

Signalling

Volt age-free aus

Normal operation green

Technical data

Scatter light, adaption of alarm threshold, self-resetting
70°C ±5

switches on in the last ceiling-mounted detector 2 x 43 kΩ

LED Relay output

4
5

4
5

Soiling (warning)

The ceiling-mounted smoke detector
should be replaced.

Soiling limit reached

The ceiling-mounted smoke detector
must be replaced.

Fault

The ceiling-mounted smoke detector
must be replaced.

Alarm red

LED for displaying state

yellow

green

yellow

green

yellow

ORS 142

Fig. 4.8.1 Fig. 4.8.2 Fig. 4.8.3

4
5

4
5

4
5

4
5

Tab . 4.8.1

23

Technical data

9

GEZE hold-open system FA GC 150

4.9 Wireless ceiling-mounted smoke detector GC 172

Wireless ceiling-mounted smoke detector
GC 172 comprising:

Battery set (VPE 10)
Main battery
Slave battery

Colour

Dimensions (with base, DxH) 110 mm x 65 mm
Functional principle Scatter light, adaption of alarm threshold,

Insect grid prevents insects getting into the measuring chamber.

Installation position Ceiling mounting

Detector test Alarm actuation

Service life main battery 5 years

Signal transfer period 60 s

Antenna integrated

Frequency range 868.15 MHz to 869.85 MHz

Range 10 m (100 m in space)

Number of frequency channels

Modulation technique FSK (frequency shift keying)

Radiated power 5 dBm (3 mW)

ID 159656

Base GC 170 B
Wireless smoke detector GC 002 F
Main battery and slave battery

ID 183282
Type CR 123A (3 V DC)

Type CR 2032A (3 V DC)
white, RAL 9016

no alarm saving (self-resetting as soon as there is no longer any smoke
in the measuring chamber)

- using test magnet near the magnetic sensor (GEZE logo)

- using test aerosol

The detector test using a test magnet tests the electrical components.
The detector test which forms part of the regular testing of the
hold-open system must be carried out using a test aerosol (see 6.2.2).

7

1

2

1 Magnetic sensor for testing

(behind the GEZE log)

2 LED for displaying state
3 Set-up switch
4 Sabotage contact
5 Battery compartment
6 Main battery
7 Slave battery
8 Battery compartment cover
9 Base

CR2032

7

4

CR123A

6

8

5

50

3

60

Fig. 4.9.1

24

GEZE hold-open system FA GC 150

4.9.1 Signalling

The LEDs of the wireless ceiling-mounted smoke detector GC 172 indicates various states and events

State, event LED for displaying state
Switch on

after removal of the insulation lm or after
the main battery has been inserted

Start set-up of the wireless connection

Fault during

Operation
Main battery discharged
Slave battery discharged
Main and slave batteries discharged

set-up of the wireless connection red

Other faults ashes yellow/green alternately (0.5 s o each)
Alarm ashes red (0.5 s on – 0.5 s o)

4.9.2 Battery replacement

The wireless detector signals “Low battery charge” to the wireless module GC 171 if the charge state of the batte­ries

is no longer sucient. Both batteries (main battery and slave battery) always have to be replaced together.

The set-up switch for the wireless detector must not be activated.

X

1. Take the wireless detector from the base.

X

2. Use a small screwdriver to remove the battery compartment cover.

X

3. Remove the main battery.

X

4. Use a small screwdriver to carefully remove the slave battery.

Ensure that the PCB does not become damaged.

X

5. Slide the new slave battery (type CR2032A) into place – the positive pole faces upwards.

X

6. Insert the new main battery (type CR123A) – make sure polarity is correct.

X

7. Fit the battery compartment cover back in lace.

X

8. Insert the wireless detector into the base.

X

9. Test the wireless detector. It can take up to a minute for the wireless detector to be

ready for operation after battery replacement.

Technical data

ashes 1 x green, then red for approx. 1 min, then green
briey, then the LED is o

ashes 2 x green, 1 x yellow, 4 x red

o
ashes yellow (0.1 s on – 5 s o)
ashes green (0.1 s on – 5 s o)
ashes yellow/green alternately (0.1 s on – 5 s o )

Tab . 4.9.1.1

4.10 Wireless ceiling-mounted smoke detector GC 173

Wireless ceiling-mounted smoke detector GC 173
comprising:

Battery set (VPE 10)
Main battery
Slave battery

Colour

Dimensions (with base, Dxh)
Functional principle

Alarm temperature 57°C
EN 54-5 classication A1R

Installation position Ceiling mounting

ID 159657
Base GC 170 B
Wireless smoke detector GC 003 F
Main battery and slave battery

ID 183282
Type CR 123A (3 V DC)
Type CR 2032A (3 V DC)
white, RAL 9016

110 mm x 65 mm
Alarm if the ambient temperature exceeds the alarm tempera-

ture or if the ambient temperature increases very quickly, no
alarm saving (self-resetting as soon as the ambient temperature
has dropped again)

25

Technical data

9

Detector test Alarm triggering

Service life main battery 5 years

Signal transfer period 60 s

Antenna integrated

Frequency range 868.15 MHz to 869.85 MHz

Range 10 m (100 m in space)

Number of frequency channels

Modulation technique FSK (frequency shift keying)

Radiated power 5 dBm (3 mW)

GEZE hold-open system FA GC 150

- using test magnet near the magnetic sensor

- using heat detector testing device

The detector test using a test magnet tests the electrical components.

The
detector test which forms part of the regular testing of the hold-open sys­tem must be carried out using a heat detector testing device (see 6.3.1).

7

CR2032

6

1

2

1 Magnetic sensor for testing (behind the GEZE logo)
2 LED for displaying state
3 Set-up switch
4 Sabotage contact
5 Battery compartment
6 Main battery
7 Slave battery
8 Battery compartment cover
9 Base

7

4

CR123A

8

5

50

3

60

Fig. 4.10.1

4.10.1 Signalling

The LEDs of the wireless ceiling-mounted smoke detector GC 173 indicates various states and events

State, event LED for displaying state
Switch on

after removal of the insulation lm or after
the main battery has been inserted

Start set-up of the wireless connection

Fault during

Operation
Main battery discharged
Slave battery discharged
Main and slave batteries discharged

set-up of the wireless connection red

Other faults ashes yellow/green alternately (0.5 s o each)
Alarm ashes red (0.5 s on – 0.5 s o)

26

ashes 1 x green, then red for approx. 1 min, then
green briey, then the LED is o

ashes 2 x green, 1 x yellow, 4 x red

o
ashes yellow (0.1 s on – 5 s o)
ashes green (0.1 s on – 5 s o)
ashes yellow/green alternately (0.1 s on – 5 s o )

Tab. 4.10.1.1

GEZE hold-open system FA GC 150

4.10.2 Battery replacement

The wireless detector signals “Low battery charge” to the wireless module GC 171 if the charge state of the bat­teries is no longer sucient. Both batteries (main battery and slave battery) always have to be replaced together.
The set-up switch for the wireless detector must not be activated.

X

1. Take the wireless detector from the base.

X

2. Use a small screwdriver to remove the battery compartment cover.

X

3. Remove the main battery.

X

4. Use a small screwdriver to carefully remove the slave battery.
Ensure that the PCB does not become damaged.

X

5. Slide the new slave battery (type CR2032A) into place – the positive pole faces upwards.

X

6. Insert the new main battery (type CR123A) – make sure polarity is correct.

X

7. Fit the battery compartment cover back in lace.

X

8. Insert the wireless detector into the base.

X

9. Test the wireless detector. It can take up to a minute for the wireless detector to be

ready for operation after battery replacement.

4.11 Manual trigger switch UTA

Type UTA, AS500

Circuit breaker ID 116266

Surface-mounted box ID 120503

Spare resistor 43 k ID 157093

Type of switching Changer

Switching voltage Maximum 250 V

Switching current Maximum of 10 A

Terminating resistor 43 kΩ

Technical data

Close door

Fig. 4.11.1

4.12 Wireless input module GC 175

Wireless input module GC 175
comprising:

Battery set (VPE 10)
Spare resistor 2.2 k
Main battery
Slave battery
Colour

Dimensions (Ø x H) 52 mm x 32 mm
Functional principle Signals the state of an external potential-free contact (NO contact)

Line length 130 mm
Line monitoring Termination resistor 2.2 k at the end of the line

43kΩ

Fig. 4.11.2

ID 163068
Wireless input module GC 175
Main battery and slave batt

ID 183282
ID 163229
Type CR 123A (3 V DC)
Type CR 2032A (3 V DC)
Matt black

to the wireless module GC 171,
monitors the line to the contact for breaks

ery, resistor 2.2 k

27

Technical data

Installation position Installation in ush-mounted socket or cavity box

Service life main battery 5 years
Signal transfer period 60 s
Antenna integrated
Frequency range 868.15 MHz to 869.85 MHz
Range 10 m (100 m in space)
Number of frequency channels 7
Modulation technique FSK (frequency shift keying)
Radiated power 5 dBm (3 mW)

5

GEZE hold-open system FA GC 150

Installation in such a way that removing the wireless module and manual
trigger switch is only possible after these two assemblies have been dis­connected from one another (e.g. installation of the two assemblies in two
dierent ush-mounted sockets).

6

1

CR123A

2

ON OFF

4

4.12.1 Signalling

The LED of the wireless input module GC 175 indicates various states and events.

State, event LED for displaying state

Switch on
after removal of the insulation lm or after
the main battery has been inserted

Start set-up of the wireless connection ashes 1 x green, 1 x yellow, 4 x red
Fault during set-up of the wireless connection red
Operation o
broken cable o
Main battery discharged ashes yellow (0.1 s on – 5 s o)
Slave battery discharged ashes green (0.1 s on – 5 s o)
Main and slave batteries discharged ashes yellow/green alternately (0.1 s on – 5 s o)
Other faults ashes yellow/green alternately (0.5 s o each)
Contact closed, short-circuit ashes 1 x red

4

1 Housing
2 Antenna
3 Antenna socket
4 Set-up switch

CAUTION

3

7

CR2032

8

Fig. 4.12.1

5 LED for displaying state
6 Main battery
7 Slave battery
8 Housing tab

Component at risk from electrostatic charge
Do not touch the antenna!

ashes 10 x green, then red briey, then the LED is o

28

GEZE hold-open system FA GC 150

4.12.2 Battery replacement

The wireless input module signals “low battery charge” to the wireless module GC 171 if the charge state of
the batteries is no longer sucient. Both batteries (main battery and slave battery) always have to be replaced
together.

X

1. Bend the tabs on the side of the bottom part of the housing open slightly and pull the top part of the

housing up

and o carefully (the antenna will be pulled out of the antenna socket at this point).

X

2. Remove the main battery.

X

3. Use a small screwdriver to carefully remove the slave battery.

X

4. Slide the new slave battery (type CR2032A) into place – the positive pole faces upwards.

X

5. Insert the new main battery (type CR123A) – make sure polarity is correct.

X

6. Replace the top part of the housing carefully, making sure the antenna meets the antenna socket.

X

7. Replace the top part of the housing in such a way that the two tabs engage again.

X

8. Test the wireless input module. To do this, activate the connected contact. The hold-open system must

trigger and close the door leaf. The status LEDs of the wireless module GC 171 and the lintel-mounted smoke
switch light up yellow.

5 Wiring diagram

à Note the requirements for selection and installation of the re alarms and manual trigger switches in Chapter 3.5.
à In addition, heed the installation instructions for the respective hold-open system.
à The connection of the hold-open system to the mains voltage must be carried out by a qualied electrician.
à Before working on the electrical system interrupt the power supply and check for safe isolation from the sup-

ply. When an Uninterruptible Power Supply is used, the system will still be under voltage even when discon­nected from the mains.

à Only use the specied cable types.
à Marking of on-site cables in these instructions:

1

NYM-J, 3x1.5 mm

2

NYM-O, 2x1.5 mm2 or NYM-J, 3x1.5 mm

3

J-Y(ST)Y, 2x0.6 mm or J-Y(ST)Y, 2x0.8 mm, maximum length smaller than 15 m

4

J-Y(ST)Y, 2x0.6 mm or J-Y(ST)Y, 2x0.8 mm, maximum length smaller than 6 m

5

J-Y(ST)Y, 2x2x0.6 mm or J-Y(ST)Y, 2x2x0.8 mm, maximum length smaller than 15 m

6

J-Y(ST)Y, 2x2x0.6 mm or J-Y(ST)Y, 2x2x0.8 mm, maximum length smaller than 6 m

7

J-Y(ST)Y, 2x0.6 mm or J-Y(ST)Y, 2x0.8 mm, maximum length smaller than 3 m

8

J-Y(ST)Y, 2x2x0.6 mm or J-Y(ST)Y, 2x2x0.8 mm, maximum length smaller than 3 m

Non-marked connections are system cables, only these may be used.

à The cables must be suciently mechanically protected and attached.
à Insulate wires that are not used.

Wiring diagram

2

2

5.1 Mains connection

à The GEZE hold-open systems are devices of protection rating I or protection rating II in accordance

with DIN EN61140.

à A 16A circuit breaker must be provided on site (suitable for the electrical installations).
à The 230 V supply must be introduced into the connecting space doubly insulated (with cable sheath) at least 8 mm.
à Overall current consumption at the power supply max. 260 mA.

5.1.1 Mains connection for protection rating I

Power supply for
ID 103354
Cable length 230V / 24V 90 mm / 65 mm

TS 4000 R, TS 4000 RFS, TS 4000 R-IS, TS 5000 RFS KB

29

Wiring diagram

à Devices of protection rating I are connected using a three core cable NYM-J, 3x1.5 mm2 .

The protective earth conductor is connected to the PE terminal.

1

5.1.2 Mains connection for protection rating II

Power supply for Smoke control unit RSZ6 TS 5000 R, TS 5000 RFS,

ID 085391 no. 115818
Cable length 230 V / 24 V 130 mm / 150 mm 700 mm / 750 mm

GEZE hold-open system FA GC 150

Power supply GC 151

max.

Fig. 5.1.1.1

TS 5000 R-ISM /G/S/0, TS 5000 R-ISM-EFS

Devices of protection rating II
Connection can also be made using a three core cable NYM-J, 3x1.5 mm
not be connected and must be permanently insulated (e.g. additional luster terminal or shrink hose).

are connected using a two core cable NYM-O, 2x1.5 mm2 .

Power supply GC 151

max. 260 mA

5.1.3 Mains connection for Slimdrive EMD F/R versions*

see 5.8.9 and 05/08/2010

5.1.4 Mains connection for Powerturn F/R versions*

see 5.8.11, 5.8.12 and 5.8.13

5.2 Ceiling-mounted detector

à Note the requirements on the number and installation of ceiling-mounted detectors in Chapter 3.5.
à When ceiling-mounted detectors are connected, remove jumper J2 from the lintel-mounted smoke switch GC 151.

5.2.1 Ceiling-mounted detectors GC 152 and GC 153

2

. The protective earth conductor must

Fig. 5.1.2.1

30

à The ceiling-mounted smoke detector GC 152 is made up of the

smoke detector
GC 002 D and the relay base GC 150 B.

à The ceiling-mounted thermal detector GC 153 is made up of the

thermal detector GC 003 D and the relay base GC 150 B.

à Ceiling-mounted smoke detector with base GC 152, ID 139850

Ceiling-mounted thermal detector with base GC 153, ID 139881
Smoke detector GC 002 D, ID 141458
Thermal detector GC 003 D, ID 141459

à The resistors for line monitoring are already installed in the relay

base GC 150 B. The resistors can be disconnected using a breaking
point. To do this, insert a screwdriver 3 mm through the hole on
the back of the relay base into the slot of the PDB and turn it, the
connection to the resistors breaks.

Back of the relay base

Fig. 5.2.1.1

GEZE hold-open system FA GC 150

The resistors for line monitoring and alarm resistance are installed
in the relay base GC 150 B.
The resistors for line monitoring are located on
a PCB inside the relay base. These can be disconnected using a
screwdriver as described above.

The visible resistor is the alarm resistor.
This must not be disconnected.

Ceiling-mounted detectors GC 152 and GC 153 with line monitoring

The general construction technique permit requires the cable to the ceiling-mounted detectors to be monitored.

Line monitoring is active if:

à Jumper J3 of the lintel-mounted smoke switch to the measuring chamber is set (2-3 factory setting, see Chapter 4.4).

à the breaking point in the rst relay base GC 150 B is disconnected.
à the breaking point in the last relay base GC 150 B is not disconnected.

Cables ASin and ASout must be laid separately or protected.

Wiring diagram

Alarm resistor

do not disconnect

Fig. 5.2.1.2

5

Disconnect the breaking point in the base of the rst ceiling-mounted detector .

5

Ceiling-mounted thermal detector GC 153 as lintel-mounted
detector with line monitoring

à If the lintel-mounted smoke switch GC 151 is subject to disruption

such as steam, dust, condensation or operation-related smoke de­velopment, it can make sense to use a thermal detector as a lintel­mounted detector. See the notes in Chapter 3.5 on this subject.

à Install an additional thermal detector GC 153 as a lintel-mounted

detector above the door using the xing bracket DM GC. See the
notes in Chapter 3.5 (xing bracket, white, RAL 9016, ID 150264).

à Protect the smoke chamber of the integrated lintel-mounted smoke

switch with dust protection cap (ID 146407) from soiling.

A

Fig. 5.2.1.3

Fig. 5.2.1.4

31

Wiring diagram

Connection of a ceiling-mounted thermal detector GC 153 as a lintel-mounted detector

Connection of a ceiling-mounted thermal detector GC 153 as a lintel-mounted detector and two further
ceiling-mounted detectors

5

Ceiling-mounted detector as
lintel-mounted detector

GEZE hold-open system FA GC 150

Cover
smoke chamber

Fig. 5.2.1.5

PLEASE NOTE

When two oor springs TS 550 E are used, no more than two ceiling-mounted detectors may be connected.

55 5

A

Ceiling-mounted detector Ceiling-mounted detector

Ceiling-mounted detector as
lintel-mounted detector

A

Cover
smoke chamber

Fig. 5.2.1.6

32

Disconnect the breaking point in the base of the rst two ceiling-mounted detectors

The ASin and ASout cables must be laid separately or protected.

.

GEZE hold-open system FA GC 150

5.2.2 Ceiling-mounted smoke detector ORS 142

The ceiling-mounted detector ORS 142 is made up of the smoke detector ORS 142 and the base ORS 143 A.

Ceiling-mounted smoke detector kit ORS 142 with

à 2 x smoke detector ORS 142
à 2 x base ORS 143 A
à 1 x Magnetic holder

Ceiling-mounted smoke detector ORS 142 with

à Smoke detector GC 142
à Base ORS 143 A
à 1 x Magnetic holder

Ceiling-mounted smoke detector ORS 142 with line monitoring

The general construction technique permit requires the cable to the ceiling-mounted detectors to be monitored.

Line monitoring is active if:

à Jumper J3 of the lintel-mounted smoke switch to the measuring chamber is set (2-3 factory setting, see Chapter 4.4).

à the load resistor module AM 142 is connected in the last base.

Connection of the rst ceiling-mounted detector must not be executed as a parallel branch line (supply and return line
in the same cable)

Connection board

Wiring diagram

ID 141715

ID 091273

AS Ceiling-mounted detector (additional sensor)
GND Reference potential (ground)

5.3 Manual trigger switch or contact of the re alarm system

à Spare resistor 43 k, ID 157093

5.3.1 Manual trigger switch UTA

à Manual trigger switch UTA, AS500, ID 116266

Surface-mounted cap, single, AS500, ID 120503

à When a manual trigger switch is connected, remove jumper J1 from the lintel-mounted smoke switch.
à Note the requirements on the installation of manual trigger switch in Chapter 3.5.

The general construction technique permit requires line monitoring to the manual trigger switch if the con­nection of a manual trigger switch is mandatory according to the standard (see Chapter 3.5.3).

Line monitoring is active if:

à Jumper J3 of the lintel-mounted smoke switch to the measuring chamber is set (2-3, see Chapter 4.4)
à a 43 kΩ resistor is connected in parallel in the manual trigger switch.

Fig. 5.2.2.1

.

33

Wiring diagram

Connect the manual trigger switch as a NO contact.

Several manual trigger switches are connected in parallel. Only connect the 43 kΩ resistor in the last one.

GEZE hold-open system FA GC 150

3

Fig. 5.3.1.1

3

The cable to the rst manual trigger switch (UTA) must be laid separately or protected.

5.3.2 Contact to the re alarm system

à When a potential-free contact of the re alarm system is connected, remove jumper J1 from the lintel-mounted

smoke switch.

Line monitoring is active if:

à Jumper J3 of the lintel-mounted smoke switch to the measuring chamber is set (2-3, see Chapter 4.4)
à a 43 kΩ resistor is connected in parallel at the contact of the re alarm system.

Connect the potential-free contact as a NO contact.

Potential-free contact (BMA)

3

Fig. 5.3.1.2

.

3

Fig. 5.3.2.1

5.3.3 Contact of the re alarm system and manual trigger switch UTA

The general construction technique permit requires line monitoring to the potential-free contact of the re
alarm system and to the manual trigger switch.

Line monitoring is active if:

à Jumper J3 of the lintel-mounted smoke switch to the measuring chamber is set (2-3, see Chapter 4.4)
à a 43 kΩ resistor is connected in parallel at the end of the cable.

à Remove jumper J1 of the lintel-mounted smoke switch.
à Connect the potential-free contact as a NO contact.

34

.

GEZE hold-open system FA GC 150

The cable to the potential-free contact (re-alarm system) must be laid separately or protected.

5.4 Wireless module GC 171

à Wireless module GC 171, ID 163051

Wireless ceiling-mounted smoke detector GC 172 - ID 159656
Wireless ceiling-mounted thermal detector GC 173 - ID 159657
Wireless input module GC 175, ID 163068
Battery set GC 17x, ID 183282
Ersatzwiderstand 2,2 k, ID 163229

à Remove jumper J1 and J2 of the lintel-mounted smoke switch GC 151 (see Chapter 4.4).
à Jumper J3 of the lintel-mounted smoke switch to the measuring chamber is set (2-3 factory setting, see Chapter 4.4).
à The area dened in Figure 5.4.1.1 must be kept free. Observe distances and specications in section 3.5.2.

Wiring diagram

Potentialfreier Kontakt (BMA)

33

30

5

30

5

Fig. 5.4.1.1

à Cable length between lintel-mounted smoke switch and wireless module GC 171 maximum 3m
à Set switch SW2 of the wireless module GC 171 to the ON position (see Chapter 4.5).
à See Chapter 4.5.2 for how to set up the wireless connections.

5.4.1 Wireless ceiling-mounted detector GC 172 or GC 173 and/or wireless input modules GC 175

8

Fig. 5.4.1.2

35

Wiring diagram

GEZE hold-open system FA GC 150

5.4.2 Wireless ceiling-mounted detector GC 172 or GC 173 – manual trigger switch or re alarm
contact wired

à Manual trigger switch or re alarm contact are connected as described in Chapter 5.3.

8

5.4.3 Wireless ceiling-mounted detector wired – wireless input modules GC 175

à Ceiling-mounted detectors are connected as described in Chapter 5.2.

8

Fig. 5.4.2.1

Fig. 5.4.3.1

5.5 Wireless input module GC 175

à Wireless input module GC 175, ID 163068

Battery set GC 17x, ID 183282
Spare resistor 2.2 k, ID 163229

à See Chapter 4.5.2 for how to set up the wireless connections.
à The cable at the wireless input module GC 175 may only be extended to max. 3 m.

36

GEZE hold-open system FA GC 150

5.5.1 Manual trigger switch UTA

à Manual trigger switch UTA, AS500, ID 116266

Surface-mounted cap, single, AS500, ID 120503

à Note the requirements on the installation of manual trigger switch in Chapter 3.5.
à Installation in ush-mounted socket or cavity box
à Installation in such a way that removing the wireless module and manual trigger switch is only

possible after these two assemblies have been disconnected
(e.g. installation of the two assemblies in two dierent ush-mounted sockets)

Wiring diagram

2,2 kΩ

7

Several manual trigger switches are connected in parallel. Only connect the 2.2 kΩ resistor in the last one.

UTA

2,2 kΩ

7

The cable to the rst manual trigger switch (UTA) must be laid separately or protected.

5.5.2 Contact to the re alarm system

Line monitoring is active if:

GC 175

Fig. 5.5.1.1

UTA

GC 175

7

Fig. 5.5.1.2

à a 2.2 kΩ resistor is connected in parallel at the contact of the re alarm system.

à Connect the potential-free contact as a NO contact.

Potential-free contact BMA

GC 175

2,2 kΩ

7

Fig. 5.5.2.1

37

Wiring diagram

GEZE hold-open system FA GC 150

5.5.3 Contact of the re alarm system and manual trigger switch UTA

The general construction technique permit requires line monitoring to the potential-free contact of the re
alarm system and to the manual trigger switch.

Line monitoring is active if:

à a 2.2 kΩ resistor is connected in parallel at the contact of the re alarm system.

à Connect the potential-free contact as a NO contact.

UTA

Potential-free contact BMA

2,2 kΩ

The cable to the potential-free contact (re-alarm system) must be laid separately or protected.

5.6 Alarm output

à Potential-free relay output, changer, maximum 24 V, 1 A
à In normal operation the contact 11-12 is open, in the event of power failure or alarm closed.
à Do not supply alarm display from the hold-open system.

24 V external

Alarm

display

7

7

GC 175

Fig. 5.5.3.1

GND external

5.7 Mutual triggering of two hold-open systems

à Two hold-open systems can trigger each other mutually. For this purpose, the alarm contact of the one lintel-

mounted smoke switch is connected with the input MRB of the other lintel-mounted smoke switch.

à If additional manual trigger switches are required, these are connected in parallel to the connection at the

respective input MRB.

à Remove jumper J1 from both lintel-mounted smoke switches.

The general construction technique permit requires the monitoring of the lines between the two lintel-moun­ted smoke switches.

Line monitoring is active if:

à Jumper J3 of the two lintel-mounted smoke switches to the measuring chamber is set (2-3, see Chapter 4.4).
à a 43 kΩ resistor is connected in parallel at both lintel-mounted smoke switches direct at the alarm output.

38

Fig. 5.6.1

GEZE hold-open system FA GC 150

Wiring diagram

5

5.8 Hold-open mechanism

à External hold-open mechanisms are connected to KL1 of the lintel-mounted smoke switch (screw-push-terminal).

Internal hold-open mechanisms are connected to KL3 of the lintel-mounted smoke switch (system plug-type connection).

5.8.1 Hold-open system RSZ6

Door closer TS 4000 E, TS 4000 EFS

Door leaf installation

à Connector box with plug-in cable transition, ID 052105

GC 151 Connector box

Transom installation

Fig. 5.7.1

Door tran-

sition TS 4000 E, TS 4000 EFS

3

24 VDC±15%

Res. rip. <20%

I=42 mA

Fig. 5.8.1.1

3

Res. rip.

2

1

Fig. 5.8.1.2

39

Wiring diagram

Door closer TS 4000 E-IS

Door leaf installation

à Connector box with plug-in cable transition, ID 052105

GC 151 Anschlusskasten TS 4000 E-IS

GEZE hold-open system FA GC 150

3

Door
transition

Switch closed

if active leaf open

Active leaf

Transom installation

I=42 mA
Res. rip. <20%

4

3

4

Active leaf

I=42 mA

Res. rip. <20%

Passive leaf

Door
transition

Switch closed
if active leaf open

24 VDC±15%

Passive leaf

24 VDC±15%

Res. rip. <20%

I=42 mA

24 VDC±15%

Fig. 5.8.1.3

E guide rail, E guide rail Boxer

3

24 VDC±15%

I=42 mA

Res. rip. <20%

Fig. 5.8.1.4

E guide rail

24 VDC±15%

Res. rip. <0%3

I= mA85

Fig. 5.8.1.5

40

GEZE hold-open system FA GC 150

E-ISM guide rail, E-ISM guide rail Boxer
(E-ISM/G no hold-open device in the passive leaf, E-ISM/S no hold-open device in the active leaf)

Wiring diagram

Connection board
for active leaf

3

E-hold-open device
passive leaf

24 VDC±15%

Res. rip. <0%3

I= mA85

ISM-EFS guide rail, ISM-EFS guide rail Boxer

à No hold-open mechanism for the passive leaf
à Connector box with plug-in cable transition, ID 052105

GC 151 Connector box

(only with ISM-EFS guide rail)

E-hold-open device
active leaf

Door trans-

mission

24 VDC±15%

Res. rip. < 0%3

I= mA85

Fig. 5.8.1.6

TS 5000 EFS /
Boxer EFS

3

Door closer TS 5000 EFS

Door leaf installation

à Connector box with cable transition, ID 162723

GC 151 Connector box

3

Door

transition

24 VDC±15%

Res. rip. <20%

I=42 mA/80 mA

TS 5000 EFS

3

2

24 VDC±15%

Res. rip. <20%

1

I=42 mA

Fig. 5.8.1.7

Fig. 5.8.1.8

41

Wiring diagram

Transom installation

Integrated door closer Boxer EFS

Floor spring TS 550 NV-E

GEZE hold-open system FA GC 150

3

24 VDC±15%

Res. rip.

<20%

I=42 mA

Fig. 5.8.1.9

Boxer EFS

3

24 VDC±15%

Restw. <20%

I=80 mA

Fig. 5.8.1.10

Floor spring TS 550 E

3

24 VDC±15%

Res. rip.

<20%

I=42 mA

Fig. 5.8.1.11

24 VDC±1 %0

Res. rip.

<20%

I=100 mA

Fig. 5.8.1.12

42

GEZE hold-open system FA GC 150

Floor spring TS 550 E-IS

à Connection PCB, ID 001102
à Terminal box on site

Wiring diagram

Connection board

3

Hold-open magnets GT 50 R, GT 63 R, GT 70 R

Active leaf

24 VDC±1 %0

Res. rip. <20%

I=100 mA

Switch closed if active
leaf open

6

Passive leaf

24 VDC±1 %0

Res. rip. <20%

I=100 mA

Ter min al b ox

Fig. 5.8.1.13

3

24 VDC±1 %5

Res. rip. <30%

I=63 mA/68 mA

Fig. 5.8.1.14

43

Wiring diagram

Hydraulic swing door drive TSA 160 NT F*, TSA 160 NT F EN7*

Accessories TSA 160 NT F, ID 019654

Follow the wiring diagram for the TSA 160 NT swing door drive.

GEZE hold-open system FA GC 150

3

F board

Reset ­key

Hydraulic swing door drive TSA 160 NT F-IS*

Accessories TSA 160 NT F, ID 019654

Follow the wiring diagram for the TSA 160 NT swing door drive.

3

F board

Fig. 5.8.1.15

44

Reset ­key

Fig. 5.8.1.16

GEZE hold-open system FA GC 150

Electromechanical swing door drive Slimdrive EMD F*

Follow wiring diagram for the Slimdrive EMD swing door drive.

Wiring diagram

3

Reset
key

Latching
action
cam

Fig. 5.8.1.17

Electromechanical swing door drive Slimdrive EMD-IS*

Follow wiring diagram for the Slimdrive EMD swing door drive.

3

3

Reset ­key

Latching
action
cam

Fig. 5.8.1.18

45

Wiring diagram

Electromechanical swing door drive Powerturn F*

Follow wiring diagram for the Powerturn swing door drive.

GEZE hold-open system FA GC 150

3

Powerturn F

DCU8

DCU801

DCU802 DCU800

Reset
key

Latching
action
cam

Fig. 5.8.1.19

Electromechanical swing door drive Powerturn F-IS*

Follow wiring diagram for the Powerturn swing door drive.

3

3

Powerturn F GF

DCU8

DCU801

Powerturn F SF

DCU8

DCU801

46

Reset
key

DCU802 DCU800

Latching
action
cam

DCU802 DCU800

Fig. 5.8.1.20

GEZE hold-open system FA GC 150

Electromechanical swing door drive Powerturn F-IS/TS*

Follow wiring diagram for the Powerturn swing door drive.

Wiring diagram

3

Latching
action cam

Fig. 5.8.1.21

5.8.2 Hold-open system TS 4000 R, TS 4000 RFS

Reset
key

3

Door closer

3

Hold-open magnet

Reed switch

Reed switch closed if passive
leaf is closed

5.8.3 Hold-open system TS 4000 R-IS

Fig. 5.8.2.1

Active leaf

Switch closed if active
leaf open

Second unit

Passive leaf

Fig. 5.8.3.1

47

Wiring diagram

5.8.4 Hold-open system TS 5000 R

5.8.5 Hold-open system TS 5000 R-ISM /G/S/0

TS 5000 R-ISM/G - no hold-open device in the passive leaf
TS 5000 R-ISM/S - no hold-open device in the active leaf
TS 5000 R-ISM/0 - no hold-open device in the passive and active leaf

3

GEZE hold-open system FA GC 150

Connection board for
active leaf

R-hold-open device
active leaf

Fig. 5.8.4.1

R-hold-open device
passive leaf

Fig. 5.8.5.1

48

GEZE hold-open system FA GC 150

5.8.6 Hold-open system TS 5000 R-ISM-EFS / TS 5000 R-ISM/0 with Free swing door closer

à No hold-open mechanism for the passive leaf
à Connector box with plug-in cable transition, ID 052105

GC 151 Connector box

Door

transition

TS 5000 EFS

3

5.8.7 Hold-open system TS 5000 RFS

à Door leaf installation
à Connector box with cable transition, ID 162723

GC 151 Connector box

Door

transition

TS 5000 EFS

Wiring diagram

Fig. 5.8.6.1

3

5.8.8 Hold-open system TS 5000 RFS-KB

à Transom installation

3

2

1

Fig. 5.8.7.1

Fig. 5.8.8.1

49

Wiring diagram

5.8.9 Hold-open system Slimdrive EMD F/R

Follow wiring diagram for the Slimdrive EMD swing door drive.

5

5

24 V

1

2

GND

GEZE hold-open system FA GC 150

24 V

GND

Reset -

Fig. 5.8.9.1

key

Latching

action

cam

50

GEZE hold-open system FA GC 150

5.8.10 Hold-open system Slimdrive EMD F/R-IS*

Follow wiring diagram for the Slimdrive EMD swing door drive.

5

5

24 V

1

2

GND

Wiring diagram

3

3

24 V

GND

Reset
key

Latching
action cam

Fig. 5.8.10.1

51

Wiring diagram

5.8.11 Hold-open system Powerturn F/R*

Follow wiring diagram for the Powerturn swing door drive.

5

5

1

24 V

GND

2

Powerturn F

DCU8

GEZE hold-open system FA GC 150

Reset
key

DCU801

DCU802 DCU800

Latching action
cam

24 V

GND

Fig. 5.8.11.1

52

GEZE hold-open system FA GC 150

5.8.12 Hold-open system Powerturn F/R-IS*

Follow wiring diagram for the Powerturn swing door drive.

5

5

24 V

GND

1

2

Wiring diagram

3

3

Powerturn F GF

DCU8

Reset
key

DCU801

DCU802 DCU800

Latching action
cam

Powerturn F SF

DCU8

DCU801

DCU802 DCU800

Fig. 5.8.12.1

53

Wiring diagram

5.8.13 Hold-open system Powerturn F/R-IS/TS*

Follow wiring diagram for the Powerturn swing door drive.

24 V

1

2

GND

GND

HOD

GEZE hold-open system FA GC 150

Powerturn F GF

Latching
action cam

DCU8

5

DCU800

DCU801

Reset
key

55

PA

DCU802

56

PE2

3

Door closer

2

51

3

SF

GND

24 V

63 mA

Hold-open magnet

Reed switch

Reed switch closed if passive
leaf is closed

Fig. 5.8.13.1

54

GEZE hold-open system FA GC 150

6 Commissioning

1. Switch on the mains voltage.

The state display of the lintel-mounted smoke switch lights up green.

2. Remove the dust protection lm or dust protection cap from the housing of the housing so that the smoke

openings are clear.

3. Remove the protective covers from the ceiling-mounted detectors.

6.1 Check the self-closing characteristic of the door

6.1.1 1-leaf door

1. Open the door leaf completely. The door leaf is held in the open position by the hold-open system.

2. Activate the reset key on the lintel-mounted smoke switch. The state display lights up yellow for approx. 4 s.

The door leaf closes and snaps into the latch.

3. If necessary, adjust the manual disengaging torque in the opened position:

Open the door leaf completely. According to EN 1155, the disengaging torque should be between 40Nm
and 120Nm at an opening angle of 90°.

6.1.2 2-leaf door

1. Open both door leaves completely. The door leaves are held in the open position by the hold-open system.

2. Activate the reset key on the lintel-mounted smoke switch. The state display lights up yellow for approx. 4 s.

The door leaves close, following the closing sequence. Both door leaves close completely and the active leaf
snaps into the latch.

3. If necessary, adjust the manual disengaging torque in the opened position:

Open both door leaves completely. According to EN 1155, the disengaging torque should be between 40 Nm
and 120Nm at an opening angle of 90°.

4. Push the active leaf out of electromechanical hold-open device, the passive leaf closes automatically. The

active leaf comes to a standstill and then closes when the passive leaf is closed.

Commissioning

6.2 Testing the smoke detectors

Test aerosol, ID 059168

Systems may only be tested with an aerosol that evaporates without leaving any residue.

6.2.1 GC 151

Carry out the following steps within approx. 2 minutes:

1. Press the reset switch, the status display changes from green to red.
Wait until the status display lights up green again.

2. Open the door leaf completely. The door leaf is held in the open
position by the hold-open system.

3. Now spray the test aerosol from a distance of about 15 cm into the
free smoke opening in short bursts lasting about 1s with 1s bet­ween bursts, covering the upper smoke opening for this.
The smoke detector must trigger (change of the state display from
green to red). The door closes.

6.2.2 GC 152, ORS 142 and GC 172

1. Open the door leaf completely. The door leaf is held in the open position by the hold-open system.

2. Spray the test aerosol from a distance of 10 cm to 15 cm into the free smoke opening in short bursts lasting
about 1s with 10s between bursts.
The smoke detector must trigger (change of the state display of the lintel-mounted smoke detector from
green to red). The door closes.

Fig. 6.2.1.1

55

Conrmation of conformity for the installatio n of th e h o ld-open sy s tem

GEZE hold-open system FA GC 150

6.3 Testing the thermal detectors

6.3.1 GC 153 and GC 173

1. Open both door leaves completely. The door leaves are held in the open position by the hold-open system.

2. Test the thermal detector GC 153 using a tester for heat detectors.
The thermal detector must trigger (change of the state display of the lintel-mounted smoke detector from
green to red).
temperature of at least 60°C but must not exceed 90°C.

The door closes. The test can also be carried out using a hair dryer. The air ow must reach a

7 Conrmation of conformity for the installation of the hold-open system

The contractor who installed the hold-open system must issue a certicate of conformity for each construction
project, certifying that the hold-open system has been professionally installed with regard to all details
and in compliance with all provisions of the respective general construction technique permit
(and, if applicable, the provisions of the modication and supplementary notices) as well as the assembly instruc­tions provided by GEZE. This conrmation must be entered in the GEZE test book for hold-open systems.
Alternatively, this conrmation may be based on the model from the general construction technique permit.
The conrmation is to be sent to the client for any necessary forwarding to the responsible building inspectorate.

8 Ocial approval test

An ocial approval test must be carried out in order to ascertain the correct function and installation according
to the regulation once the installation of the hold-open system has been completed at the set-up location.
The owner-operator must arrange this ocial approval test.
The acceptance test may only be carried out by GEZE specialists, specialists authorised by GEZE (with GEZE com­petence training ) or specialists from an ocial test centre named by DIBt in the approval procedure.
The ocial approval test must include at least the following points:

1. It must be checked that the installed devices and device combinations of the hold-open system correspond
to the devices and device combinations specied in the general construction technique permit.

2. It shall be veried that the marking of the installed equipment and equipment combinations conforms to
the marking specied in the general construction technique permit or standard.

3. The interaction of all devices and device combinations must be checked on the basis of the general
construction technique permit, whereby triggering must take place both by simulation of the re characte­ristic the re detector is based on as well as by hand.

4. It must be checked whether the door is released for automatic closing if the hold-open system is not
functional (e.g. through removal of a detector or power failure).

After the ocial approval test has taken place, the owner-operator must attach a sign (set 10 pcs. ID 79142) in the
size 105 mm x 52 mm, which is provided by GEEZE, stating the following:

à Hold-open system
à Number of the general construction technique permit

à Approved by .. .. (company logo as well as month and year of the ocial approval) and must be axed

permanently.
The owner-operator is to be given a certicate for the successful ocial approval test; this must be kept by the
owner-operator.

56

GEZE hold-open system FA GC 150

9 Maintenance

9.1 Routine testing / Monthly inspection

à The hold-open system must be kept permanently in a good operating condition by the owner-operator; in

particular the door leaves must not be blocked (e.g. by wedges, chains or other objects which prevent the

door leave closing automatically).

à In order to ensure that the hold-open system is in a good condition, a routine test must be carried out at regu-

lar intervals on site.
If twelve monthly functional tests in succession do not reveal functional faults,
the hold-open system only needs to be checked at intervals of 3 months. If a functional fault is established
during the quarterly functional tests, serviceability is to be re-established without delay and proved through at
least three successive monthly functional tests.

à This routine test may be carried out by anyone, following appropriate brieng through GEZE.

The functional test of a hold-open system must contain at least the following elements:

à Check on the manual trigger (manual trigger switch or by manual disengagement if permitted);
à Check on triggering of the hold-open system by testing the re alarms (see Chapter 6);
à Check on automatic resetting of the re alarms from the alarm state;
à Check on whether environmental inuences impair the function of the hold-open system installed;
à Check on whether the environment in the direct vicinity of the hold-open system has a negative inuence on

it (e.g. occurrence of dust or steam);

à Check on whether constructional changes and/or interaction with other trades in the direct vicinity of the hold-

open system has a negative inuence (e.g. later installation of intermediate ceilings) and whether the positio-

ning of the re alarms complies with the general construction technique permit (see Chapter 3.5);

à Check on whether the re or smoke protection closer is released for automatic closure after triggering.

Maintenance

When wireless assemblies are used in the hold-open system:

à The quality of the wireless connections must be tested (see Chapter 4.5.2 Connection quality). Construction

changes or new electronic assemblies in the direct vicinity of the hold-open system can interfere with the

wireless connections.

à The charge state of the batteries in the wireless assemblies GC 172, GC 173 and GC 175 must be tested.

An empty battery is indicated as a warning at the status LED of the wireless module GC 171 (see Chapter 4.5.1)

Scope, result and time of the functional test must be documented in the GEZE test log for hold-open systems
and made available to the owner-operator. These records must be stored by the owner-operator.
The owner-operator must be informed if obvious functional problems and/or damage to the re or smoke pro­tection closer occur.

9.2 Annual testing and maintenance

à In addition, the owner-operator is responsible for the organisation of the testing and maintenance of all the

components of the hold-open system, so that it is guaranteed that these components work properly and

without interference. This testing and maintenance must be carried out at least once a year in accordance with

the recommendations of the manufacturer. Scope, results and date of this annual testing must be recorded in

the GEZE test log for hold-open systems which must be kept by the owner-operator.

à Regular maintenance and testing may only be carried out by a specialist or a person trained for this purpose.

Maintenance of the hold-open system must include the elements of a functional test in accordance with Chapter

8.1 and the following additional elements:

à Check of the correlation with documentation and
à Cleaning of the function-related components of a hold-open system, in as far as their soiling can lead to im-

pairment; (the measuring chamber of a smoke detector must not be opened).

à Check on the release of the hold-open system in the event of a power failure.
à Check on the release of the hold-open system in the event of a re alarm being removed.

When wireless assemblies are used in the hold-open system:

à Change the main battery and the slave battery in a 5-year cycle, even without “battery empty” display on the

GC 171.
Scope, result and time of the maintenance carried out must be documented and made available to the owner­operator.

general construction technique permit

;

57

GEZE hold-open system FA GC 150

58

GEZE hold-open system FA GC 150

59

Germany

GEZE GmbH
Niederlassung Süd-West
Tel. +49 (0) 7152 203 594
E-Mail: leonberg.de@geze.com

GEZE GmbH
Niederlassung Süd-Ost
Tel. +49 (0) 7152 203 6440
E-Mail: muenchen.de@geze.com

GEZE GmbH
Niederlassung Ost
Tel. +49 (0) 7152 203 6840
E-Mail: berlin.de@geze.com

GEZE GmbH
Niederlassung Mitte/Luxemburg
Tel. +49 (0) 7152 203 6888
E-Mail: frankfurt.de@geze.com

GEZE GmbH
Niederlassung West
Tel. +49 (0) 7152 203 6770
E-Mail: duesseldorf.de@geze.com

GEZE GmbH
Niederlassung Nord
Tel. +49 (0) 7152 203 6600
E-Mail: hamburg.de@geze.com

GEZE Service GmbH
Tel. +49 (0) 1802 923392
E-Mail: service-info.de@geze.com

Austria

GEZE Austria
E-Mail: austria.at@geze.com
www.geze.at

Baltic States –

Lithuania / Latvia / Estonia
E-Mail: baltic-states@geze.com

Benelux

GEZE Benelux B.V.
E-Mail: benelux.nl@geze.com
www.geze.be
www.geze.nl

Bulgaria

GEZE Bulgaria - Trade
E-Mail: oce-bulgaria@geze.com
www.geze.bg

China

GEZE Industries (Tianjin) Co., Ltd.
E-Mail: chinasales@geze.com.cn
www.geze.com.cn

GEZE Industries (Tianjin) Co., Ltd.
Branch Oce Shanghai
E-Mail: chinasales@geze.com.cn
www.geze.com.cn

GEZE Industries (Tianjin) Co., Ltd.
Branch Oce Guangzhou
E-Mail: chinasales@geze.com.cn
www.geze.com.cn

GEZE Industries (Tianjin) Co., Ltd.
Branch Oce Beijing
E-Mail: chinasales@geze.com.cn
www.geze.com.cn

France

GEZE France S.A.R.L.
E-Mail: france.fr@geze.com
www.geze.fr

Hungary

GEZE Hungary Kft.
E-Mail: oce-hungary@geze.com
www.geze.hu

Iberia

GEZE Iberia S.R.L.
E-Mail: info.es@geze.com
www.geze.es

India

GEZE India Private Ltd.
E-Mail: oce-india@geze.com
www.geze.in

Italy

GEZE Italia S.r.l
E-Mail: italia.it@geze.com
www.geze.it

GEZE Engineering Roma S.r.l
E-Mail: JUBMJBJU!HF[FDPN
www.geze.it

Korea

GEZE Korea Ltd.
E-Mail: info.kr@geze.com
www.geze.com

Poland

GEZE Polska Sp.z o.o.
E-Mail: geze.pl@geze.com
www.geze.pl

Romania

GEZE Romania S.R.L.
E-Mail: oce-romania@geze.com
www.geze.ro

Russia

OOO GEZE RUS
E-Mail: oce-russia@geze.com
www.geze.ru

Scandinavia – Sweden

GEZE Scandinavia AB
E-Mail: sverige.se@geze.com
www.geze.se

Scandinavia – Norway

GEZE Scandinavia AB avd. Norge
E-Mail: norge.se@geze.com

www.geze.no

Scandinavia – Denmark

GEZE Danmark
E-Mail: danmark.se@geze.com
www.geze.dk

Singapore

GEZE (Asia Pacic) Pte, Ltd.
E-Mail: gezesea@geze.com.sg
www.geze.com

South Africa

GEZE South Africa (Pty) Ltd.
E-Mail: info@gezesa.co.za
www.geze.co.za

Switzerland

GEZE Schweiz AG
E-Mail: schweiz.ch@geze.com
www.geze.ch

Tur ke y

GEZE Kapı ve Pencere Sistemleri
E-Mail: oce-turkey@geze.com
www.geze.com

Ukraine

LLC GEZE Ukraine
E-Mail: oce-ukraine@geze.com
www.geze.ua

United Arab Emirates/GCC

GEZE Middle East
E-Mail: gezeme@geze.com
www.geze.ae

GEZE GmbH

Reinhold-Vöster-Straße 21–29
71229 Leonberg
Germany

United Kingdom

GEZE UK Ltd.
E-Mail: info.uk@geze.com
www.geze.com

Tel.: 0049 7152 203 0
Fax.: 0049 7152 203 310

www.geze.com