Teknoware TKT67C Series, TKT6748C, TKT6756C, TKT6716C, TKT6732C Installation And Maintenance Instructions Manual
...
VOT2
TKT67C TAPSA CONTROL CENTRAL BATTERY UNIT
FOR EMERGENCY LIGHTING
Installation and maintenance instructions
Made In Finland
2
Table of contents
Table of contents ................................................................................................................ 2
1. Safety instructions ......................................................................................................... 4
2. Package contents and storing ....................................................................................... 4
2.1 Contents of package ............................................................................................................. 4
2.2 Storing ................................................................................................................................... 4
3. Product description ........................................................................................................ 5
3.1 Manufacturer ......................................................................................................................... 5
3.2 Terminology .......................................................................................................................... 5
3.3 Type ....................................................................................................................................... 5
3.4 Explanation of letters (in previous models) ........................................................................ 5
3.5 List of optional features........................................................................................................ 6
3.6 General description .............................................................................................................. 6
3.7 Technical specifications ....................................................................................................... 7
3.8 Directives and standards...................................................................................................... 9
4. Description of operations ............................................................................................ 10
4.1 Purpose of the central battery unit .................................................................................... 10
4.2 Circuit outputs .................................................................................................................... 10
4.3 Circuit board settings ......................................................................................................... 10
4.4 Parallel connection of output circuits ............................................................................... 10
4.5 Control unit.......................................................................................................................... 11
4.5.1 Individual luminaire monitoring test with basic settings ................................................................... 11
4.5.2 Circuit monitoring luminaire test with basic settings ........................................................................ 11
4.6 Operation of the central battery unit .................................................................................. 12
4.7 Normal Status ...................................................................................................................... 12
4.8 Central module panel .......................................................................................................... 13
4.9 Control Module panel luminaire monitoring LED’s and menu settings .......................... 15
4.10 Control Module panel test functions and alarms ............................................................ 21
4.11 Buttons .............................................................................................................................. 23
5. System planning and installation ................................................................................ 24
5.1 System planning ................................................................................................................. 24
5.1.1 Luminaire-specific addressable monitoring ..................................................................................... 24
5.1.2 Circuit monitoring ............................................................................................................................. 24
5.2 System installation ............................................................................................................. 24
5.2.1 Parts layout ...................................................................................................................................... 26
5.2.2 Circuit wiring in parallel connection ................................................................................................. 27
5.2.3 DIP switch settings in circuit boards ................................................................................................ 28
5.3 Commissioning ................................................................................................................... 29
5.3.1 Setting of battery type and capacity ................................................................................................. 29
5.3.2 Forced charging of the batteries ...................................................................................................... 30
5.3.3 Checking the luminaire circuits one at a time .................................................................................. 30
5.3.4 Configuration .................................................................................................................................... 30
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6. Maintenance .................................................................................................................. 31
6.1 Replacing the batteries ....................................................................................................... 31
7. Disposal ......................................................................................................................... 32
8. Optional Features ......................................................................................................... 32
8.1 LCD display functions ........................................................................................................ 32
8.1.1 Button functions ............................................................................................................................... 32
8.1.2 LCD content ..................................................................................................................................... 33
8.1.3 LCD menu tree ................................................................................................................................. 33
8.1.4 Test history ...................................................................................................................................... 33
8.1.5 Battery test history ........................................................................................................................... 34
8.1.6 Error log ........................................................................................................................................... 35
8.1.7 Setup ................................................................................................................................................ 35
8.1.8 External USB connection ................................................................................................................. 36
8.2 Printer .................................................................................................................................. 37
8.2.1 Language selection of the printer (TKT67..CD) or optional feature TST6731 ................................. 37
8.2.2 Printing out test reports .................................................................................................................... 37
APPENDIX 1: Report Layout ............................................................................................ 38
APPENDIX 2: Mechanical dimensions ............................................................................ 39
APPENDIX 3: Connection alternatives for batteries ...................................................... 40
APPENDIX 4: Circuit diagram with 3-phase input ......................................................... 41
APPENDIX 5: Menu selections ........................................................................................ 54
© Copyright 2013 Teknoware Oy – We reserve the right to make modifications without notice
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WARNING
There is always dangerous voltage level in the output circuits and inside the central battery unit if
the central battery unit is switched ON. Chancing the main switch to 0 –position will NOT make
the central battery unit de-energized. The central battery unit and the battery housing can be
opened only by electrically skilled person.
Device must be made de-energized before any maintenance or repair work. Remove the battery
fuses and set the main switch to OFF position.
1. Safety instructions
Read before installing the product.
This manual contains important information that must be followed during the installation and maintenance of
the central battery unit and the batteries. Installation of this device is allowed only to a person who has the
required permissions and qualifications.
National regulations for electric installations and building codes must be observed in the placing of the central
battery unit.
In the installation of batteries, constituted regulations must be observed.
2. Package contents and storing
2.1 Contents of package
The package contains a central battery unit of TKT67XXC series.
Store the package sheltered from the rain.
Do not place anything on top of the package.
NOTE: The package may contain sealed lead acid batteries that contain large quantities of energy and
may short circuit, if stored inappropriately. This must be considered when storing the package.
2.2 Storing
If you do not install the unit and batteries immediately, note the following:
Store the unit in a dry place, protected from humidity.
Store the unit and the batteries in the recommended storing temperature of +10 …+30C.
If the batteries are stored for a longer period of time, they must be recharged every 6 months
for at least 12 hours at a time.
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Term
Explanation
Control
Automatic testing
Maintained
Continuously active
Non-maintained
Active only during voltage interruptions
Model
Maximum number of circuits
Input Voltage
TKT6716C(N)
16
220-240 V AC 50/60Hz 3~
TKT6724C(N)
24
220-240 V AC 50/60Hz 3~
TKT6732C(N)
32
220-240 V AC 50/60Hz 3~
TKT6740C(N)
40
220-240 V AC 50/60Hz 3~
TKT6748C(N)
48
220-240 V AC 50/60Hz 3~
TKT6756C(N)
56
220-240 V AC 50/60Hz 3~
Letter
Explanation
C only
Control function
CD
Control and printer
CL
Control and LCD display
CO
Control and LON interface
CDL
Control, printer, and LCD display
CLO
Control, LCD display and LON interface
N
Charging for NiCd batteries
3. Product description
3.1 Manufacturer
Teknoware Oy
Ilmarisentie 8
FI-15200 Lahti
FINLAND
http://www.teknoware.fi/
3.2 Terminology
3.3 Type
3.4 Explanation of letters (in previous models)
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TST6731
Integrated Printer TKT67xxC
TST6732
LCD Display Module TKT67xxC
TST6741
Extra Charger Module (adds power taken from mains 3,000 VA)
(1-2 pcs each 3,000 VA, Max each 180 Ah) TKT67xxC
XWT6772
Switched-Maintained Package for 16 circuits each 350 W TKT6716C
XWT6773
Switched-Maintained Package for 24 circuits each 350 W TKT6724C
XWT6774
Switched-Maintained Package for 32 circuits each 350 W TKT6732C
XWT6775
Switched-Maintained Package for 40 circuits each 350 W TKT6740C
XWT6776
Switched-Maintained Package for 48 circuits each 350 W TKT6748C
XWT6777
Switched-Maintained Package for 56 circuits each 350 W TKT6756C
TST6751
IC Interface for 8 circuits each 350 W TKT6708C
TST6752
IC Interface for 16 circuits each 350 W TKT6716C
TST6753
IC Interface for 24 circuits each 350 W TKT6724C
TST6754
IC Interface for 32 circuits each 350 W TKT6732C
TST6755
IC Interface for 40 circuits each 350 W TKT6740C
TST6756
IC Interface for 48 circuits each 350 W TKT6748C
TST6757
IC Interface for 56 circuits each 350 W TKT6756C
TST6722
LON Interface TKT67xxC
TST6701
BACnet Interface TKT67xxC
TST6721
ACM Interface TKT67xxC
TST6724
WebCM/ WebACM Interface TKT67xxC
TST1811E
BCM Interface TKT67xxC
3.5 List of optional features
For more information on optional features, see Chapter 8. Optional Features
Central monitoring options:
3.6 General description
TKT67xxC(N) central battery unit is designed and manufactured according to the standards EN 50171
and EN 60439-1.
In normal situation, the central battery unit operates using a 230 V AC mains voltage, maintaining the
battery charge level and supplying a voltage of 230 VAC to the maintained output circuits. If the mains
voltage is interrupted or it drops below 180 V, the central battery unit switches to battery use. This
connects a voltage of 220 VDC to the non-maintained circuits and the voltage supply to the maintained
circuit switches from 230 VAC to 220 VDC. The battery supply is used as long as the mains voltage
remains unavailable or the battery voltage has dropped to the deep discharge limit (173 V).
In addition to the above mentioned standard functions, the control unit of the central battery unit also
includes the following monitoring, testing and reporting functions:
testing the luminaires either through addressable monitoring or by measuring the circuit
current and by monitoring the condition of the batteries
testing the capacity of the battery
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Mains connection:
N/PE 220-240 V AC 50/60 Hz 3~
Casing:
IP21
Output voltage:
mains connection: 220-240 VAC, battery operation: 216VDC
Battery voltage:
216 VDC
Battery charging time:
12 h 80 %
Max. batteries:
18 x 65 Ah
Max Input power
TKT6716C(N):
8,600 VA
Max Input power
TKT6724C(N):
11,400 VA
Max Input power
TKT6732C(N):
14,200 VA
Max Input power
TKT6740C(N):
17,200 VA
Max Input power
TKT6748C(N):
20,000VA
Max Input power
TKT6756C(N):
22,800 VA
Ambient temperature range:
+10 …+50C
Input fuse:
3-phase 16 A C-curve
indicating the address of the faulty luminaire with the LED and the number of the circuit,
in the addressable monitoring of the luminaires (7 segment display and LED bar)
indicating the faulty luminaire circuit with the LEDs and the number of the circuit in the
circuit monitoring (7 segment display)
a short operation test time can be set to take place after each 1…7 days
battery test every 6 months 4.1 and 4.7 at 0.00 o’ clock.
tests can also be started manually
reporting of the test results on a printer, in the TKT67xxCD(L) models or optional
integrated printer TST6731 (= log book)
LCD display (optional)
in the report, the test date, possible faulty luminaires, duration of the test and the
condition of the battery can be seen
interface options for central monitoring
The central battery unit does not require any other regular user action after its installation and
commissioning than checking the status of the signal LEDs (the left-hand side bar) at specified
intervals.
No separate data transfer cables are needed for the luminaires as the data is transferred via the power
supply cables.
A self-learning system; luminaires can be added or removed afterwards.
The central battery unit can be set for either addressable monitoring of the luminaires or for circuit
monitoring. In the addressable monitoring of the luminaires, the luminaires must be equipped with an
address module from Teknoware. All the Teknoware luminaires the type code of which ends in letter K
are fitted with this feature.
The batteries Pb (18 pcs) or NiCd (180 pcs) for the central battery unit always require a separate
battery container and battery cables.
All the functions related to the use of the central battery unit can be performed using its control panel
that also includes display LEDs to indicate the status of the unit. The panel functions are described in
Chapter 4.6 Operation of the central battery unit.
3.7 Technical specifications
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Output circuit fuses:
5x20 mm sand-filled glass tube fuse 2,5 A
Output connector:
max. wire 4 mm2
Required short-circuit
current with 2.5 A fuse 0,4 s.
tripping time:
10 A
Battery Fuse:
TKT6716Cxx - TKT6756Cxx:
2x35 A plug fuse S 35 A/250 V Neozed
Charging circuit fuses:
5x20 mm glass tube fuse 6,3 A
Central battery unit
type
Output circuits
Total load capacity in battery use with
1-hour and 3-hour operating time
TKT6716C(N)
2x
(8x350W/ 4x700W/2x1,400W)
or 2,5A circuit, Max. 5,600VA
1 h 5,600 W 18x38 Ah
3 h 5,600 W 18x65 Ah
TKT6724C(N)
3x
(8x350W/ 4x700W/2x1,400W)
or 2,5A circuit, Max. 8,400VA
1 h 8,400 W 18x38 Ah
3 h 8,400 W 18x65 Ah
TKT6732C(N)
4x
(8x350W/4x700W/2x1,400W)
or 2,5A circuit, Max. 11,200VA
1 h 11,200 W 18x65 Ah
3 h 11,200 W 18x65 Ah
TKT6740C(N)
5x
(8x350W/4x700W/2x1,400W)
or 2,5A circuit, Max. 14,000VA
1 h 14,000 W 18x65 Ah
3 h 14,000 W 18x65 Ah
TKT6748C(N)
6x
(8x350W/4x700W/2x1,400W)
or 2,5A circuit, Max. 16,800VA
1 h 16,800 W 18x65 Ah
3 h 16,800 W 18x65 Ah
TKT6756C(N)
7x
(8x350W/ 4x700W/2x1,400W)
or 2,5A circuit, Max. 19,600VA
1 h 19,600 W 18x65 Ah
3 h 19,600 W 18x65 Ah
The central battery unit is equipped with a distribution fuse in the connecting terminal and with battery
circuit fuses. The output circuits’ fuses are on the top end of casing at connectors 1-2.
For more information, see chapter 5.2.1 Parts layout
The charging system of the central battery unit is equipped with a temperature compensation of the
battery charging voltage, which is approximately 0.06 V/°C (5 mV/°C/cell).
NOTE: The luminaires used with the central battery unit must be suitable for both AC and DC supply,
and according to EN 60598-2-22.
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3.8 Directives and standards
The following directives and standards were applied in designing and manufacturing the central battery unit:
Quality: ISO 9001: 2008; (certified quality system)
Environment: ISO 14001: 2004; (certified environment system)
Electrical safety: 2006/95/EY LVD directive
Device standard: EN 50171: 2001; Central power supply systems
EN 50272-2: 2001; Safety requirements for secondary
battery installations Part 2:
Stationary batteries
EN 60439-1 + A1: 2005; Distribution units. Part 1:
Requirements for type tested and
partly type tested units.
IEC 62034: 2006; Automatic test systems for battery
powered emergency escape lighting
Electromagnetic compatibility: 2004/108/EC EMC directive
EN 61000-6-3: 2001; Electromagnetic compatibility
(EMC)-Part 6-3: Generic standard Emission standard for residential,
commercial and light industrial
environments.
EN 61000-6-2: 2005; Electromagnetic compatibility (EMC)
- Part 6-2: Generic standards Immunity for industrial environments
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4. Description of operations
4.1 Purpose of the central battery unit
In a normal situation the purpose of the central battery unit is to
monitor the mains voltage
maintain the battery charge level
supply power for the maintained emergency luminaires
During a mains failure the central battery unit will supply voltage to the maintained and the nonmaintained emergency lighting circuits from the batteries.
The central battery unit also includes functions for testing and monitoring the condition of the luminaires
and the batteries.
4.2 Circuit outputs
Circuit output connections can be selected as maintained or non-maintained mode from circuit board.
For more information, see chapter 5.2 System installation.
4.3 Circuit board settings
In the central battery unit there are 1-7 circuit boards. Every board has eight output circuits. On circuit
boards there is a DIP-switch selector that defines the characteristic of the board. The functions of the
DIP-switches are:
DIPs 1-3 give the board its internal address
DIP 4 defines whether the board uses addressable central monitoring or circuit monitoring. Set
to OFF position defines board to use addressable central monitoring.
DIPs 5 and 6 are used when the parallel connection of the output circuits is used.
For information on the circuit boards’ DIP settings details, see chapter 5.2.3 DIP switch settings in
circuit boards.
4.4 Parallel connection of output circuits
Output circuits can be connected parallel to get a bigger circuit output power.
Factory settings give 8x 350 W output power
Two circuits connected parallel gives 4x 700 W output power
Four circuits connected parallel gives 2x 1,400 W output power
For more information on making a parallel connection between output circuits, see chapter 5.2.2 Circuit
wiring in parallel connection.
NOTE: When parallel connections are used, the output circuits’ connectors running the circuit numbers
may change. The circuit numbers must be changed to correspond with the amount of the connected
circuits.
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4.5 Control unit
The monitoring function of the central battery unit can operate using three different operating principles:
addressable monitoring, circuit monitoring or a combination of both. This is selected with the DIP switch
4 (see more information in Chapter 5.2.3 DIP switch settings in circuit boards). Addressable monitoring
and circuit monitoring can be set for different circuit boards within the same unit: 8 circuits on
addressable monitoring, 8 circuits on circuit monitoring, etc.
In addressable monitoring of the luminaires, each luminaire has its own unique address. There can be
1...32 luminaires in one circuit. The luminaires have LOW 1-16 (luminaires 1-16) and HIGH 1-16
(luminaires 17-32) addresses. For example, the luminaire HIGH 2 indicates luminaire number 18. On
the display of the central battery unit this is presented with the letters L (LOW) or H (HIGH). The central
battery unit checks the operation and indicates the result for each luminaire separately.
The circuit monitoring measures the current of a circuit in battery mode. The changes in the current are
used to determine possible faults in the circuit. The number of luminaires in a circuit is not limited, but
the input power of a circuit cannot exceed 350 VA or 1,6 A. Note that circuit monitoring doesn’t give
luminaire-specific information. The limit value of the error alarm can be changed in the settings, (1-31) =
+/- 10.. 310 mA. The factory settings are 16 = +/- 160 mA.
NOTE: In parallel connection, the current values are multiplied by the number of the parallel connected
circuits. 700 W = 2x or 1,400 W = 4x.
NOTE: If circuit monitoring current limits are changed in a configured centre, the unit goes into a nonconfigured state and must be re-configured.
The descriptions of the signal LEDs and the buttons are presented in chapters 4.9 Control Module
panel luminaire monitoring LED’s and menu settings and 4.11 Buttons.
4.5.1 Individual luminaire monitoring test with basic settings
As a basic setting, the luminaire test is done automatically once a day at a predetermined time. The
central battery unit carries out the test as follows:
The central battery unit switches to battery mode and the Battery Oper. and the Luminaire Test LEDs
are lit for the duration of the test. L or H and the circuit number is displayed on the display of the control
unit. Whenever a functioning luminaire is detected, an indicator light is lit. After all circuits are tested,
the system returns to normal mode.
If a malfunctioning luminaire is found from any circuit, an indicator light will blink on the display. Also,
the External fault LED is lit and the external error alarm relay will operate. In correctly functioning
luminaires the LEDs are lit evenly.
For more information about testing the luminaires, see Chapter 4.10 Control Module panel test
functions and alarms.
4.5.2 Circuit monitoring luminaire test with basic settings
As a basic setting, the luminaire test is done automatically once a day at a predetermined time. The
central battery unit carries out the test as follows:
The central battery unit switches to battery mode and the Luminaire test LED is lit for the duration of the
test. The current of each circuit is measured and the circuit number increases as the test progresses.
The LEDs representing the measured relative current of each circuit will be lit. After all circuits have
been tested, the software returns to normal mode.
A fault indication will be given if in any of the circuits the measured current differs more than +/- 80 mA
when compared to the value which was stored during the last configuring. Each one LED in the column
represents a +/- 100 mA of current in a circuit. The deviation against the configured value is shown by
flashing the LEDs, corresponding the difference. The more LEDs there are flashing, the bigger is the
difference and more luminaires are likely to be failed. With the settings the current range can be
changed between 10 and 310 mA. The displays of the LEDs also operate in within this range. Also, in
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this case the External fault LED will be lit and the external error alarm relay will operate. In working
luminaire circuits, the LEDs are lit evenly.
For more information about testing the luminaires, see Chapter 4.10 Control Module panel test
functions and alarms.
NOTE: In parallel connection the current values are multiplied by the number of the parallel connected
circuits. 700 W = 2x or 1,400 W = 4x.
4.6 Operation of the central battery unit
The functions are accessed by the menu structure. The green LEDs on the LED column show the basic
menu option and the number display shows the sub-options or values of it.
The menu functions of LEDs 1 and 2 are so-called basic functions. All other functions are related to the
settings of the central battery unit. The latter do not need to be changed in normal use. When the menu
functions are used, the central battery unit returns to normal mode if no functions are used for two
minutes. All functions can also be done via Bus interface using centralised management software.
4.7 Normal Status
In normal status the number display rotates the information of all circuits connected to the central
battery unit. In addressable monitoring the display will show the number of the circuit and the LED
corresponding to a luminaire will be lit. In circuit monitoring, the LEDs numbered from 16 to 1 will be lit;
the bigger the circuit input power, the greater the number of lit LEDs.
The information of each circuit will be shown for about four seconds at a time.
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LED
Description
Reason for problem and solution
1 MAINS
OPERATION
The central battery unit is using
mains current.
The central battery unit can be
switched into emergency mode also
remotely, if the remote control
feature has been activated. In this
case:
Mains operation is flashing
Battery operation is lit
If Mains operation led is not lit, main fuse can be
blown or mains voltage is not present.
2 BATTERY
OPER.
The central battery unit is using
battery power. This means that the
mains voltage is interrupted or it has
dropped below 180 V.
The central battery unit can be in
battery operation because external
control has switched it to emergency
mode.
The central battery unit is in
luminaire or battery test.
Indicates if power is coming from battery.
Once the mains voltage recovers or increases
above 195 V, the central battery unit switches back
to mains voltage use and begins to charge the
batteries.
The battery is automatically recharged after the
mains voltage recovers.
3 BATTERY
OVERVOLT.
The battery voltage has increased
above 255 V (N = 278 V) in a normal
situation.
Battery fault and Internal fault LEDs
are also lit.
Battery charger is charging batteries with too high
voltage. Charger is faulty and it must be changed.
and/or
Batteries are at the end of their lifetime and must
be changed.
4 BATTERY
UNDERVOLT.
The battery voltage has dropped
below 228 V (N = 244 V) in a normal
situation.
Battery fault and Internal fault LEDs
are also lit.
The central battery unit has been for a long time in
battery operation.
Battery charger or batteries can be faulty and must
be changed.
Check battery condition. Every cell must have
about the same voltage level. Otherwise some
battery cell is in short circuit.
Check that temperature sensor is connected
properly and it is working. Resistance should be
about 2 kOhm. Voltage over sensor should be
about 5 Vdc.
5 DEEP
DISCHARGE
When this LED flashes, the battery
voltage has dropped below 195 V (N
= 210 V) (an early warning for a
deep discharge).
Internal fault LEDs are also lit.
When this LED is lit, the battery
voltage has dropped to the deep
discharge limit (173 V).
Battery operation and Internal fault
LEDs are also lit.
Check that remote control link is closed (CON5
pins 62 and 63).
Check that mains voltage is coming to Central
Battery Unit.
The Deep discharge LED stays lit until it is reset
with the Reset / Test button.
The mains voltage must have returned before the
deep discharge alarm can be reset.
4.8 Central module panel
TKT67C – Installation and maintenance
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If battery voltage is below deep discharge limit,
push forced charge button from charger, see
instructions in chapter 5.3.2.
Check that temperature sensor is connected
properly and it is working. Resistance should be
about 2 kOhm. Voltage over sensor should be
about 5 Vdc.
6 RECHARGE
When this LED is flashing, the
battery is recharging but the voltage
has not yet reached the
maintenance voltage.
When this LED is lit, the battery
voltage has reached the
maintenance voltage.
After a power failure the batteries are first boost
charged using a constant current. The boost
charging and the cyclic charging normally take 12
hours, after which the device switches to trickle
charging, i.e. the normal mode. In a normal mode,
the battery voltage is kept in about 243 V (N = 261
V). The charging current can be selected from the
charging board by using a DIP switch.
7 CURRENT
LIMIT
Not in use
8 BATTERY
FAULT
Possible fault in the battery or its
cabling.
This LED can be lit with other LEDs
that indicate the fault more
specifically.
If the battery is disconnected, the
charger doesn’t charge, the battery
fuse is blown or the battery doesn’t
accept charging current, the
following alarms are displayed on
the panel:
Mains operation LED
Battery undervoltage or
overvoltage LED
Battery fault LED
Internal fault LEDs
Battery fuses might be blown.
Refer to the instructions given for the LED that
specifies the battery fault (Battery overvoltage,
Battery undervoltage and Deep discharge).
To reset the possible battery fault alarm, press the
Reset / Test button.
9 EARTH
LEAKAGE
Possible earth leakage inside the
central battery unit.
Earth leakage detection will check if positive pole
of the battery has leakage to the body of the
central battery unit.
If there is not earth leakage, the earth leakage
sensor might be broken.
10 INTERNAL
FAULT
This LED alarms when some
internal fault of the central battery
unit is detected, a fault in the battery
or the charging circuit.
This LED can be lit with other LEDs
that indicate the fault more
specifically.
This LED is also lit when the
batteries are being changed.
Refer to the instructions given for the LED that
specifies the battery fault.
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LED
Description
Instruction
Number display
Shows the number of the circuit whose
luminaires are shown with LEDs 1-16.
If “CC” is flashing on the display, the system
has not been configured.
For configuring the system, see
chapter 5.3.4 Configuration.
LEDs 1-16
There are two meanings of these leds:
1. To show information of the luminaires.
How many luminaires installed and
address of the luminaires.
Status of the luminaires.
2. To indicate selection in menu
Instructions how to check and change
settings from menu are below.
Addressable monitoring:
The LEDs display the status of
luminaires in the aforementioned
circuit.
If the LED is continuously lit, the
luminaire is functional.
If the LED is flashing, the
luminaire is faulty.
!f the LED is not lit, no luminaire
has been assigned for that
address.
Circuit monitoring:
The LED bars display the total input
power of the circuit.
If the LED or LEDs are flashing during
circuit monitoring, an error has been
detected in the circuit.
See the instructions given for
corresponding LEDs.
1 REPORT
Use this option to print out report of the
configuration of the central battery unit and the
status of the luminaires.
Value 1 = Print a report of all circuits.
Value 2 = Print a report of faulty circuits.
Value 9 = Displays circuit board + circuit
number on the display instead of a running
number
NOTE: This action requires a printer, which is
an optional feature TST6731 or the central
battery units of the type Tapsa Control
TKT67xxC(N)D(L).
To print a report,
1. Go to the menu with the
MENU / OK button.
The REPORT LED is lit.
2. Press the SET button once.
Number 1 will appear in the display.
3. Acknowledge by pressing the
MENU / OK button again.
Printing of the report will start.
NOTE: Printing of the reports is
blocked during the tests.
4.9 Control Module panel luminaire monitoring LED’s and menu settings
TKT67C – Installation and maintenance
VOT 2; Rev 1.2; EN; 09.07.2013
16
2 TESTING
Use this option to select a test to be started or
interrupted.
1 = Start of the luminaire test.
2 = Interruption of the luminaire test.
3 = Start of battery test for 2/3 of the time (the
same time as in the automatic test).
4 = Start of the battery test for the set operating
time (1 or 3 hours).
5 = Start of the battery test until the end of its
duration – the battery will be discharged.
6 = Interruption of the battery test /
acknowledging of a battery fault.
7 = Stop the local controller function or the
BLINK mode.
8 = Start the local controller function.
9 = Start the BLINK mode.
10 = Reconfiguration.
To start or interrupt a test,
1. Go to the menu with the
MENU / OK button.
2. Press the BROWSE button until
the TESTING led is lit.
3. Press the SET button until the
value you wish to select shows in
the display.
For example 6 = Interrupt the
battery test.
4. Acknowledge by pressing the
MENU / OK button again.
The required action begins.
3 SETUP
Use this option to enable / disable the settings
locking to change the operational settings of the
central battery unit.
To enable / disable the settings
locking,
1. Go to the menu with the MENU /
OK button.
2. Press the BROWSE button until
the SETUP led is lit.
3. Press the SET button to select the
correct value (0=locking enabled,
1=locking disabled).
4. Press the BROWSE button to
acknowledge the selection, and
return to the operational settings.
When the settings locking is disabled,
you can change the operational
settings.
4 AUTO CONF.
Use this option to change the status of the
automatic configuration.
Value 0 = Automatic configuration disabled.
Value 1 = Automatic configuration enabled.
Values 2 and 3 = Not in use.
To change the automatic configuration
status,
1. Go to the menu with the
MENU / OK button.
2. Press the BROWSE button until
the AUTO CONF. led is lit.
TKT67C – Installation and maintenance
VOT 2; Rev 1.2; EN; 09.07.2013
17
The default setting is 0 (zero).
NOTE: This function only works in addressable
monitoring. If circuit monitoring is chosen, the
central battery unit needs to be reconfigured
after changing the circuit load.
3. Press the SET button until the
value you wish to select is shown
in the display.
The automatic configuration settings
are changed.
5 TEST SELECT
Use this setting to choose between automatic
and manual tests.
7-segmentsdisplay
The first section in the 7-segment-display
determines every how often the luminaire
test is made, from 1 to 7, meaning the
number of days. If the number is 1, the test
is made every day, or if it is 7, the test is
done once a week.
The number of the second segment
determines the settings of the luminaire
tests.
0 = Luminaire and battery test, both manually.
1 = Luminaire and battery test, both
automatically (presumption).
2 = Luminaire test automatically, battery test
manually.
3 = Luminaire test manually, battery test
automatically.
The automatic luminaire test is made once per
day on the chosen time of the day.
The automatic battery test is made twice a year
(4th of January and 4th of July).
1 2
To choose between automatic and
manual tests,
1. Go to the menu with the
MENU / OK button.
2. Press the BROWSE button until
the TEST SELECT led is lit.
3. Press the SET button until the
value you wish to select shows in
the display.
The testing settings have been
changed.
TKT67C – Installation and maintenance
VOT 2; Rev 1.2; EN; 09.07.2013
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