U – LED modules, converters and systems
GENERAL ILLUMINATION
Umodule SPOT TS 310 / TS 320 / TS 325
umodule SPOT
Product description
•Tunable white – LED module with adjustable colour temperature
OU
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along the planck‘s curve7
•High efficiency up to 85 lm/W
•High colour rendering index CRI > 90
•Low tolerances for colour temperature (MacAdams 3)
•Low tolerances for luminous flux
•Control via DMX, potentiometer or push-button
•High-power LED in chip-on-board technology (COB)
•Excellent thermal management4
•Spotlights
Technical data
140°
Ambient temperature ta
10 ... 45 °C
36/48
75 °C
tc
tc max. LMU
Risk group (EN 62471:2008)
È
75 °C
0
tc
umodule SPOT + Connection cable + Light Management Unit (LMU)
Dimensional drawings, page 2
Standards, page 3
140±10
30/43
tc max. LED
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Beam characteristic
85
45
•Downlights
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Colour temperatures and tolerances, page 6
Ordering data
Control
Type
DMX
LED TS 310 2700-6500K DMX
Article number
89601113
DMX
LED TS 320 2700-6500K DMX
89601098
DMX
LED TS 325 2700-6500K DMX
89601096
Potentiometer
LED TS 310 2700-6500K 1P
89601114
Potentiometer
LED TS 320 2700-6500K 1P
89601110
Potentiometer
LED TS 325 2700-6500K 1P
89601111
Push-button
LED TS 310 2700-6500K 1T
89601112
Push-button
LED TS 320 2700-6500K 1T
89601099
Push-button
LED TS 325 2700-6500K 1T
89601097
Packaging: 5 pieces/carton
Specific technical data
Typ. luminous flux6 1 Colour rendering index CRI, 2,700 – 6,500 K5 1
Type
Supply voltage DC, LMU3
Power consumption, typ.2 Power consumption, max.2
LED TS 310 2700-6500K
900 lm
> 90
48 V
13 W
15 W
LED TS 320 2700-6500K
2.000 lm
> 90
48 V
23 W
28 W
LED TS 325 2700-6500K
2.550 lm
> 90
48 V
34 W
40 W
1 Tolerance
range for optical data: ±10 %.
2 Tolerance
range for electrical data: ±15 %.
3 Exceeding
the max. operating voltage leads to an overload on the LMU.
This may in turn result in a significant reduction in lifetime or even in destruction of the LMU.
Tolerance range for the supply voltage: 48 V: +2 V / -0 V.
4 If
the max. temperature limits are exceeded, the life of the unit will be greatly reduced or the unit may be damaged.
The temperature of the umodule SPOT or the LMU at the tc-point is to be measured in the thermally stable state with a temperature sensor or a temperature sensitive sticker according to EN 60598-1.
For the precise position of the tc point see the above diagram.
5 Colour
6 At
temperature and CRI according to CIE 1931.
tc = 65 °C and 2,700 K.
7 Tunable
white is based on the PI-LED® technology. PI-LED® is a trademark of Lumitech
All values at ta = 25 °C.
Data sheet 11/11-965-1
Subject to change without notice.
www.tridonic.com
1
U – LED modules, converters and systems
GENERAL ILLUMINATION
48,00
43,25
38,00
Ø3,2
Ø22,0 2
Ø17,5 1
36,00
33,00
Ø35 2
Ø28 1
Ø3,2
Dimensional drawings
tc
25,00
6,10
1,50
37,85
39,50
43,00
21,50
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14,8
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16,0
16,0
25
31,25
45,0
Ø3,2
22,4
1,8
12,8
tc
3,5
18,25
1 Minimal reflector diameter
2 Maximum reflector diameter
TALEXXmodule SPOT TS 320 / TS 325
8,4
1,6
14,0
0,00
5,15
1 Minimal reflector diameter
2 Maximum reflector diameter
TALEXXmodule SPOT TS 310
24,0
4,05
12,00
6,75
5,00
0,00
1,65 ±0,15
4,05
6,10
18,25
1,50
30,00
33,00
16,50
0,00
3,00
4,50
3,00
0,00
1,65 ±0,15
tc
18,00
140 ±10
25
78,0
85,0
LMU
Connection cable
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The TALEXXmodule SPOT TS components form a matched and calibrated
unit. Therefore it is not allowed to separate and operate the components in
different combinations.
45
30/43
tc
140±10
85
36/48
tc
umodule SPOT + Connection cable + Light Management Unit (LMU)
Data sheet 11/11-965-1
Subject to change without notice.
www.tridonic.com
2
U – LED modules, converters and systems
GENERAL ILLUMINATION
Typical heat sink surface
Standards
EN 62031
EN 62471
EN 61347
EN 61547
EN 55015
Tridonic’s excellent thermal design for the umodule SPOT products provides
the lowest thermal resistance and therefore allowing new compact designs without
sacrificing quality, safety and life time.
tc point, ambient temperature and lifetime
The temperature at tc reference point is crucial for the light output and life time
of a u product.
typical heat sink surface
190.5 cm²
266.7 cm²
444.4 cm²
Umodule SPOT TS 320
ta
tc
Rth, hs-a
25 °C
65 °C
1.7 K/W
35 °C
65 °C
1.2 K/W
45 °C
55 °C
0.6 K/W
typical heat sink surface
387.1 cm²
571.4 cm²
1,090.9 cm²
Umodule SPOT TS 325
ta
tc
Rth, hs-a
25 °C
65 °C
1.1 K/W
35 °C
65 °C
0.7 K/W
45 °C
65 °C
0.3 K/W
typical heat sink surface
606.1 cm²
952.4 cm²
2,222.2 cm²
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Thermal design and heat sink
The rated life of u products depends to a large extent on the temperature. If
the permissible temperature limits are exceeded, the life of the umodule SPOT
TS will be greatly reduced or the umodule SPOT TS may be destroyed.
Therefore the umodule SPOT TS needs to be mounted onto a heat sink.
Umodule SPOT TS 310
ta
tc
Rth, hs-a
25 °C
65 °C
3.5 K/W
35 °C
65 °C
2.5 K/W
45 °C
65 °C
1.5 K/W
For umodule SPOT TS a tc temperature of max. 75 °C has to be complied in
order to achieve an optimum between heat sink requirements, light output and life
time.
Notes
Values valid for: natural convection, heat sink material: aluminium ≥ 1 mm thick,
Rth, hs-a = required thermal resistance of heat sink
The actual cooling surface can differ because of the material, the structural shape,
outside influences and the installation situation. A thermal connection between
umodule SPOT and heat sink with heat-conducting paste or heat conducting
adhesive film is absolutely necessary.
Additionally the umodule SPOT has to be fixed on the heat sink with M3 plastic
screws to optimise the thermal connection.
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Compliance with the maximum permissible reference temperature at the tc point
must be checked under operating conditions in a thermally stable state. The
maximum value must be determined under worst-case conditions for the relevant
application.
Mounting instruction
umodule SPOT from Tridonic which have to be installed on a heat
sink have to be connected with heat-conducting paste or heat conducting
adhesive film and fixed with M3 plastic screws.
The fixing/cooling surface must be cleaned before installing the u
modules to remove all dirt, dust and grease.
None of the components of the umodule SPOT (substrate, LED,
electronic components etc.) may be exposed to tensile or compressive
stresses.
For further information please refer to to the brochure entitled
“u installation instructions and guidelines”.
Thermal behaviour
storage temperature
operating temperature
tc max. LED
tc max. LMU
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Lifetime
Temperature monitoring
The power consumption and light output is automatically reduced, if the tc temperature on the LED module reaches 85 °C. The output will be set back to 100 % if the
tc temperature on the LED module drops below 65 °C.
The output will be completly switched off if the power reduction does not lead to
reduction of the tc temperature on the LED module.
tc temperature in °C
25
45
65
100
90
luminous flux [%]
80
75
70
60
overtemperature
range
50
40
-20 ... +80 °C
10 ... +45 °C
75 °C
75 °C
85
luminous flux in %
lifetime in h
80
70
50
80
70
50
80
70
50
80
70
50
80
70
50
29,000
47,000
91,000
28,000
45,000
87,000
26,000
42,000
81,000
23,000
35,000
75,000
15,000
22,000
49,000
30
20
10
0
0
10
20
30
40 50
60
70
tc temperature [°C]
80
90
100
Data sheet 11/11-965-1
Subject to change without notice.
www.tridonic.com
3
U – LED modules, converters and systems
GENERAL ILLUMINATION
Electrical supply/choice of converter
umodule SPOT TS from Tridonic are not protected against overvoltages, overcurrents, overloads or short-circuit currents. Safe and reliable operation
can only be guaranteed in conjunction with a converter which complies with the
relevant standards. The use of u converters from Tridonic in combination with
umodule SPOT TS guarantees the necessary protection for safe and reliable
operation.
umodule SPOT TS must be supplied by a constant voltage converter.
Operation with a constant current converter will lead to an irreversible
damage of the LMU.
Wrong polarity can damage the umodule SPOT TS.
VDC
GND
LMU
DMX(GND)
DMX(–)
DMX(+)
1
2
3
4
5
6
48 V
0V
DMX
GND
–
+
Wiring Potentiometer
Potentiometer
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If a converter other than Tridonic uconverter is used, it must provide the following protection:
•Short-circuit protection
•Overload protection
•SELV
Wiring DMX
LMU
VDC
GND
+10 V
–10 V
1
2
3
4
5
6
48 V
0V
Wiring push-button
Terminal LMU
Cross section 0.5 – 1.5 mm2
LMU
wire preparation:
0.5 – 1.5 mm²
VDC
GND
+10 V
–10 V
1
2
3
4
5
6
48 V
0V
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6 – 7 mm
EOS/ESD safety guidelines
The device / module contains components that are sensitive to electrostatic discharge and may only be installed in the factory and on site if
appropriate EOS/ESD protection measures have been taken. No special
measures need be taken for devices/modules with enclosed casings
(contact with the pc board not possible), just normal installation practice. Please note the requirements set out in the document EOS / ESD
guidelines (Guideline_EOS_ESD.pdf) at:
http://www.tridonic.com/com/en/technical-docs.asp
Functional description
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DMX:
Kanal
1 Mode selection
2 Intensitiy
3 mixed
4 mixed
CCT
Mode 1
1 – 100
CCT
CCT 2.700 – 6.500 K
n.a.
Red-Phosphor-Blue
Mode 2
101 – 200
RED
GREEN (Phosphor)
BLUE
CIE
Mode 3
201 – 255
CIE x, y
CIE Xvalue
CIE Yvalue
Broadcast Mode:
125 addresses possible
Potentiometer:
CCT
Mode 1
2.700 – 6.500 K
Brightness
Mode 2
10 % – 100 %
Modechange via push button:
The following control device is recommended by Tridonic:
“Electronic potentiometer with pushbutton control”
Manufacturer: GIRA / www.gira.de, Article number 0308 00
Push-button:
CCT
Mode 1
2.700 – 6.500 K
Brightness
Mode 2
10 % – 100 %
1x pressing the push-button: On / Standby
2x pressing the push-button: change of modus
For details see “Tridonic Tunable white system control guide” on www.tridonic.com
Data sheet 11/11-965-1
Subject to change without notice.
www.tridonic.com
4
U – LED modules, converters and systems
GENERAL ILLUMINATION
Optical characteristics Umodule SPOT TS 2,700 – 6,500 K
The optical design of the umodule SPOT product line ensures optimum
homogenity for the light distribution.
Umodule SPOT TS 2,700 – 6,500 K: Light distribution
-30°
80
-10°
0°
10°
20°
30°
40°
-40°
50°
-50°
60 -60°
60°
40
70°
80°
20
-90°
-100 -80 -60 -40 -20
0
20
40
60
80 100
90°
Relative luminous flux vs. colour temperature
Relative luminous flux vs. temperature
120
120
100
rel. luminous flux [%]
80
60
40
80
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rel. luminous flux [%]
100
60
40
20
20
0
2700
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relative intensity Iv/Iv,max
100
-20°
3200
3700
4700
4200
5200
colour temperature [K]
5700
6200
0
25
30
35
40
45
50
55
temperature [°C]
60
65
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The diagrams are based on statistic values.
Data sheet 11/11-965-1
Subject to change without notice.
www.tridonic.com
5
U – LED modules, converters and systems
GENERAL ILLUMINATION
Coordinates and tolerances according to CIE 1931
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The ambient temperature of the measurement is ta = 25 °C.
The measurement tolerance of the colour coordinates are ± 0.01.
PI point
2700 K
red
6500 K
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blue
2,700 K
0,4350
0,3400
0,4300
0,3350
0,4250
0,4450
0,3350
0,3300
0,4000
0,3250
0,3100
0,3200
0,4050
0,3150
0,4100
0,3150
0,3100
0,4150
0,3200
0,3050
0,3250
0,3000
0,4200
0,2950
0,3300
0,4650
0,3450
0,4600
0,4400
0,4550
0,3500
0,4500
MacAdam ellipse: 3SDCM
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MacAdam ellipse: 3SDCM
y0
0.4200
0,4850
x0
0.4630
Centre
0,4800
Centre
y0
0.3270
0,4750
x0
0.3130
0,4700
6,500 K
Colour spectrum at different colour temperatures
normalized intensity [%]
100
80
2,700 K
60
4,000 K
40
6,500 K
20
0
380
420
460
500
540 580 620
wavelength [nm]
660
Data sheet 11/11-965-1
Subject to change without notice.
www.tridonic.com
700
740
780
6