Tunable Spectrum LED Driver for Grow Light

Why spectrum has to be adjusted?

We know that different plants have different requirements for spectrum. Even for the same plant, different growth stages require different spectrums. Obviously, these problems or requirements cannot be solved by fixed-spectrum grow lights. Therefore, we need a grow light with adjustable spectrum. Only the grow light with adjustable spectrum can meet the complex planting needs. Spectrum-adjustable grow lights can provide different plant spectrums in different growth periods, improving the medicinal and nutritional content of the product.

多路调光植物灯375 312

How to realize adjustable spectrum?

According to the latest research results of grow light spectrum, most plants can be affected by red, blue, UV and IR, thus to adjust the spectrum for plant growth, what we need to provide is the adjustable channels of those different LEDs.

tunable spectrum 1

Compared with conventional solution using 4 different AC-DC LED drivers in single luminaire, single driver with multiple output is obviously more welcome by the designers to save assembly cost, space and have higher efficiency. Thanks to the RJ25 and M16 connectors with multiple connection, the quad output driver looks neat and easy to work with.

610w 180 528vac led driver
rj25 pin description

Tunable spectrum LED drivers

  • Absolute Supply Voltage: 100-305Vac
  • 4 Channel Output
  • Ground Wire at Output Connector
  • 95% Efficiency Max.
  • Low Inrush Current
  • 100,000Hour Life @ Tc=75℃
  • 5 Year Warranty @ Tc<=75℃
  • Cable Programmability and Isolated Dimming (NFC Optional)
  • Knob Dimming
  • RJ25 Daisy Chain Connection
  • Dim Off with 0.5W Standby Power
  • 12V 300mA Auxiliary Power to Power Controllers and Fans 
  • UL Class P, ENEC/CB/CCC SELV Output
  • Global Certified Model Available
  • Safety according to EN 61347-1, 61347-2-3,61347-2-13, 623847

120-277Vac Input Votlage

bld 400 c

BLD-400-C990-ENV
#abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 400W120-277Vac6.9-9.9A30 – 58Vdc
2P2: 100W120-277Vac1.95-3A15 – (VCH1-4V)
3P3: 100W120-277Vac1.95-3A15 – (VCH1-4V)
4P4: 100W120-277Vac1.95-3A15 – (VCH1-4V)
bld 400 c

BLD-500-C11A-ENV
#abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 500W120-277Vac9-11A30 – 56Vdc
2P2: 100W120-277Vac1.95-3A15 – (VCH1-4V)
3P3: 100W120-277Vac1.95-3A15 – (VCH1-4V)
4P4: 100W120-277Vac1.95-3A15 – (VCH1-4V)
tld 610 1

BLD-610-C14A-ENV
#abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 610W120-277Vac11-14A30 – 55Vdc
2P2: 100W120-277Vac1.95-3A15 – (VCH1-4V)
3P3: 100W120-277Vac1.95-3A15 – (VCH1-4V)
4P4: 100W120-277Vac1.95-3A15 – (VCH1-4V)
tld 610 1

BLD-710-C16A-ENV
#abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 710W120-277Vac12.5-16A30 – 56Vdc
2P2: 100W120-277Vac1.95-3A15 – (VCH1-4V)
3P3: 100W120-277Vac1.95-3A15 – (VCH1-4V)
4P4: 100W120-277Vac1.95-3A15 – (VCH1-4V)
tld 610 1

BLD-810-C18A-ENV
#abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 810W120-277Vac14.5-18A30 – 55Vdc
2P2: 100W120-277Vac1.95-3A15 – (VCH1-4V)
3P3: 100W120-277Vac1.95-3A15 – (VCH1-4V)
4P4: 100W120-277Vac1.95-3A15 – (VCH1-4V)
tld 610 1

BLD-1K1-C21A-ENV #abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 1000W120-277Vac18-21A30 – 55Vdc
2P2: 100W120-277Vac1.95-3A15 – (VCH1-4V)
3P3: 100W120-277Vac1.95-3A15 – (VCH1-4V)
4P4: 100W120-277Vac1.95-3A15 – (VCH1-4V)

200-480Vac Input Votlage

tld 400 c 1

TLD-400-C990-ENV #abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 400W200-480Vac6.9-9.9A30 – 58Vdc
2P2: 100W200-480Vac1.95-3A15 – (VCH1-4V)
3P3: 100W200-480Vac1.95-3A15 – (VCH1-4V)
4P4: 100W200-480Vac1.95-3A15 – (VCH1-4V)
tld 400 c 1

TLD-480-C11A-ENV #abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 400W200-480Vac9-11A30 – 53Vdc
2P2: 100W200-480Vac1.95-3A15 – (VCH1-4V)
3P3: 100W200-480Vac1.95-3A15 – (VCH1-4V)
4P4: 100W200-480Vac1.95-3A15 – (VCH1-4V)
tld 400 c 2

TLD-610-C14A-ENV #abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 610W200-480Vac11-14A30 – 55Vdc
2P2: 100W200-480Vac1.95-3A15 – (VCH1-4V)
3P3: 100W200-480Vac1.95-3A15 – (VCH1-4V)
4P4: 100W200-480Vac1.95-3A15 – (VCH1-4V)
tld 400 c 3

TLD-810-C18A-ENV #abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 810W200-480Vac14.5-18A30 – 55Vdc
2P2: 100W200-480Vac1.95-3A15 – (VCH1-4V)
3P3: 100W200-480Vac1.95-3A15 – (VCH1-4V)
4P4: 100W200-480Vac1.95-3A15 – (VCH1-4V)
tld 400 c 4

TLD-1K1-C21A-ENV #abcdTS

Output
Channel
Max Output PowerInput Voltage Output Current Output Voltage
1P1: 1000W200-480Vac18-21A30 – 55Vdc
2P2: 100W200-480Vac1.95-3A15 – (VCH1-4V)
3P3: 100W200-480Vac1.95-3A15 – (VCH1-4V)
4P4: 100W200-480Vac1.95-3A15 – (VCH1-4V)

Power shifting?

To use the driver efficiently, power shifting feature is very important. Power shifting means that once the small power channels like UV and IR are in the off status, the power which they consume can be transferred to the main output-white. So for an 800W driver with 500W, 100W,100W and 100W allocation, the main output 500W can be 800W maximum if the other 3 channels are off.

power shifting

Why adjustable spectrum LED driver?

Being able to adjust the spectrum will be a key feature of the next grow light generation because it saves a lot of labour cost to move the plants from room A to room B. And the added BOM cost of the new generation fixture is worth paying attention to while uPowerTek’s new driver solution finds the suitable balance for luminaire designers.

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