Unit | Value | ||
---|---|---|---|
Light color | multicolor | ||
Housing Color | white | ||
Beam | 120° | ||
Height | 5.4mm | ||
Width | 285.0mm | ||
Length | 440.0mm | ||
Unit | min. | typ. | max. |
LED-TECH.DE 326 XT TW3 - 3500K/3500K/630nm/660nm/730nm
Next generation of the ZEUS XT series. The ZEUS 326 XT TW3 boards (tunable white + 3 additional channels) have a total of 326 LEDs on five separately controllable channels. 154 LEDs each of the LM301 series are fitted on channels 1 + 2 and enable tunable white applications in the range of 2200K-6500K. Channels 3-5 offer space for 6 high-power LEDs each to customize the spectrum.
Solderless stripes PCB with sockets for rigid strands (0.2 - 0.75 mm²).
Easy feeding without soldering! The insulated conductor is simply inserted into the clamping point as far as it will go and automatically fixed securely. Please use solid and stripped wires.
Channel 1: 154x Samsung LM301H ONE LEDs 3500KChannel 2: 154x Samsung LM301B LEDs 3500K
Channel 3: 6x Samsung LH351H 630nm
Channel 4: 6x Samsung LH351H 660nm
Channel 5: 6x Samsung LH351H 730nm
Special mountings are possible on request. Please feel free to contact our support.
*We distinguish the modules between CC and CV modules. Please note the product subtitle.
Current | Voltage | Power | Lumen | Lumen/W | µMol/s | µMol/joule |
0.1 A | 36.28 V | 3.63 W | 868 lm | 239.12 lm/W | 10.93 | 3.01 |
0,35 A | 37.24 V | 13.03 W | 3002 lm | 230.39 lm/W | 37.84 |
2.90 |
0.7 A |
38.05 V | 26.63 W | 5860 lm | 220.05 lm/W | 73.96 |
2.78 |
1,05 A | 38.71 V | 40.65 W | 8608 lm | 221.76 lm/W | 108.77 |
2.68 |
1,4 A | 39.29 V | 55.01 W | 11269 lm | 204.85 lm/W | 142.56 |
2.59 |
1.75 A | 39.80 V | 69.65 W | 13831 lm | 198.58 lm/W | 175.14 |
2.51 |
The values shown in the table are averages of the 3500K (LM301H one) LEDs.
Current | Voltage | Power | Lumen | Lumen/W | µMol/s | µMol/joule |
0.1 A | 36,33 V | 3,63 W | 829 lm | 228,37 lm/W | 11,61 | 3,20 |
0,35 A | 37,31 V | 13,06 W | 2876 lm | 220,21 lm/W | 10,19 |
3,08 |
0.7 A |
38,15 V | 26,70 W | 5630 lm | 210,86 lm/W | 78,56 |
2,94 |
1,05 A | 38,81 V | 40,75 W | 8296 lm | 203,58 lm/W | 115,63 |
2,84 |
1,4 A | 39,38 V | 55,13 W | 10883 lm | 197,41 lm/W | 151,55 |
2,75 |
1.75 A | 39,90 V | 69,83 W | 13380 lm | 191,61 lm/W | 186,20 |
2,67 |
The values shown in the table are averages of the 3500K (LM301B) LEDs.
Current | Voltage | Power | Lumen | Lumen/W | µMol/s | µMol/joule |
0,1 A | 11.46 V |
1.15 W |
108 lm |
93.91 lm/W | 2.83 |
2.46 |
0,35 A | 12.77 V | 4.47 W | 363 lm | 81.21 lm/W | 9.82 |
2.20 |
0.7 A |
14.15 V | 9.90 W | 662 lm | 66.87 lm/W | 18.77 |
1.90 |
1,0 A | 15.13 V | 15.13 W | 843 lm | 55.72 lm/W | 25.16 |
1.66 |
The values shown in the table are averages of the 630nm LEDs.
Current | Voltage | Power | Lumen | Lumen/W | µMol/s | µMol/joule |
0,1 A | 10.98 V | 1.10 W | 68 lm | 61.82 lm/W | 4.55 |
4.14 |
0,35 A | 12.44 V | 4.35 W | 237 lm | 54.48 lm/W | 16.16 |
3.71 |
0.7 A |
14.09 V | 9.86 W | 457 lm | 46.35 lm/W | 32.18 |
3.26 |
1,0 A | 15.35 V | 15.35 W | 626 lm | 40.78 lm/W | 45.61 |
2.97 |
The values shown in the table are averages of the 660nm LEDs.
Current | Voltage | Power | Lumen | Lumen/W | µMol/s | µMol/joule |
0,1 A | 9.97 V | 1.00 W | 0 lm | 0.00 lm/W | 0.35 |
0.35 |
0,35 A | 11.11 V | 3.89 W | 3 lm | 0.77 lm/W | 1.35 |
0.35 |
0.7 A |
12.34 V | 8.64 W | 8 lm | 0.93 lm/W | 2.88 |
0.33 |
1,0 A | 13.26 V | 13.26 W | 11 lm | 0.83 lm/W | 4.16 |
0.31 |
The values shown in the table are averages of the 730nm LEDs.
Successful usage of high power LEDs:
Heat management
Applications with high power LEDs need enduring, adequate and plane
heat conduction from the first moment of use. It is very important and
neccessary to get the heat off the devices to ensure the maximum light
output, lifetime and efficiancy.
Drive management
LEDs should be run with a constant current in addition to the
manufacturers recommendations. To ensure this we recommend to take
constant current power supplies because resistors are always a risk
factor in high power LED applications.
IP protection
Unless otherwise stated, the modules are not protected against high humidity or splashing water. If LEDs are used in areas that require increased protection, this must be manufactured according to the requirements.
EMC protection
LEDs are sensitive against heat and electric charge. Please avoid any
kind of short circuits or electric discharge to the illuminant. The chip
can be damaged or even destroyed.
Storage / JEDEC level
The storage temperature should be from -30°C up to + 80°C in dry
ambience. After opening a sealed bag the content should be mounted
rapidly. Once absorbed humidity can be removed by tempering the LEDs in
some cases. More information can be found in the manufacturers
datasheets or on the manufacturer homepages.
Soldering conditions
Each LED has its own soldering conditions that the user should pay
attention to. After the launched lead free processing specifications
many standarts have changed. Information about recommended soldering can
be found in the manufacturers datasheets or on the manufacturer
homepages.