ViparSpectra Full Spectrum 1350W LED Grow Light Timer Control Series - TC1350

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ViparSpectraSKU: VS-TC1350
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Price:
$489.99 $499.99

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Estimated Arrival: This item arrives in 1-2 Weeks *ETA to USA Only
Description

What's in the package

  • TC1350 LED Lighting
  • Remote Control
  • User Manual
  • 6-Foot Power Cord
  • Hanging Kit

About This Product

  • VIPARSPECTRA Timer Control Series TC1350 LED Grow Light is scientifically engineered to keep the balance of the PAR output and coverage.
  • Built-in timer design allows you to turn the light on and off automatically. Dimmable feature can be used to program VEG and BLOOM brightness individually.
  • Compares to traditional 1000W HPS/MH while consuming only 608W! Perfect for a 5x5’ vegetative coverage at 44” while 4x4’ flowering coverage at 32”.
  • With revolutionary aluminum heat sinks (0.8” height) and quiet high speed cooling fans, runs 70% cooler than HID lights.
  • 3 years local warranty plus 30 days satisfaction or return guarantee.

Attention Please:

  • Extremely bright, do not look directly at the LED bulbs when the light is working.
  • Indoor use only, not water-proof. No extra ballast is needed.
  • This light includes IR (Infrared) LEDs which look dim/invisible, they are not faulty LEDs.
  • Timer controls both channels on/off together. Cannot turn VEG and BLOOM channel on/off separately.

Outstanding Design:

Selectable Full Spectrum

  • To meet the different spectrum demands of vegetative and flowering stage of plants growth, the TC1350 uses separated VEG and BLOOM channels to control the veg and bloom spectrum individually.
  • Two channels brightness can be adjusted from 0% to 100% separately. Note: Please turn on 100% brightness of both VEG and BLOOM channels for flowering stage.

Large Light, Large Coverage

  • The TC1350 is a full-cycle top-lighting solution for large growing space with PPFD up to 870 μmol/m2/s at 18" above canopy. With the ability to scale from vegetative growth to higher light intensities in bloom, no other lighting systems is needed over a 4'x4' flowering area.

Both Ways to Set System

  • There are both ways to set system. You can choose remote and control knob.
  • Built-in timer control Technology-- Allows you to create custom time to automatically power on or off the light everyday.

HOW TO COMPARE LED GROW LIGHTS?

If you have been researching LED grow lights for your plant growth facility, you have likely been bombarded with a variety of metrics that lighting manufacturers use to market their products: watts, lumens, LUX, PAR, PPF, PPFD. In our opinion, you want to buy a lighting system that delivers the required amount of light to your plants. In order to explain the correct method for evaluating a horticulture lighting system, let’s first highlight two of the metrics used today that you need to avoid:

RULE 1: DON'T FOCUS ON THE WATTAGE OF THE LED'S. Do you use 5W, 10W, or 15W LEDs? We are asked this question on a frequent basis, but the wattage of the LED use in light does not tell you anything meaningful about the lighting system's performance since LED and fixture efficiency varies widely. Remember, the LED wattage is a system input, and growers care about the system output--PAR Output. Hence, the lighting system using 10W or 15W LED wattage doesn't deliver more light to your plants than lighting system using 5W LED wattage.

RULE 2: DON'T LOOK AT A SINGLE PPFD MEASUREMENT. Unless you are growing a small plant directly under your light, a single PPFD measurement doesn’t tell you much. By clustering the LEDs closely together and using narrow beam optics, it is very easy for a manufacturer to show an extremely high PAR measurement directly under the fixture. However, unless you are only growing one plant in this exact location, you need to know how much PAR is being distributed across the entire canopy.

Three important questions you should look to be answered when researching LED grow lights are:

Question 1: How much instantaneous PAR from the fixture is available to plants (measured as PPFD)? 

Question 2: How much PAR is being distributed across the entire canopy? 

Question 3: How much wattage is used by the fixture to make PAR available to your plants?

The three key metrics of the TC1350 used to answer these questions are:

PPFD directly under the fixture

PPFD is photosynthetic photon flux density. PPFD measures the amount of PAR that actually arrives at the plant, or as a scientist might say: “the number of photosynthetically active photons that fall on a given surface each second”. PPFD is a ‘spot’ measurement of a specific location on your plant canopy, and it is measured in micromoles per square meter per second (μmol/m2/s).

PPFD over a 4' x 4' Area

If you are growing over a 4’ x 4’ area, you need to review the PPFD levels over the entire area to calculate the average light level the lighting system is providing. If you only had a center point measurement you may assume a fixture is extremely powerful. However, you would need multiple measurements across the 4’ x 4’ grow area to calculate the average amount of PAR that is provided by the fixture.

Actual Power Draw

In general, for well-designed full spectrum lighting system, the higher actual power draw is, the higher PAR Output a lighting system emits to plants. So how much actual power draw do you get when buying other 3000W(300x10W) LED grow lights?

Specs
Average Power Draw608 watts max
LED Chips270 pieces high intensity 5W Bridgelux/Epileds LED chips
Input VoltageAC 100-240 V
Input Frequency50-60 Hz
Lifespan100,000 hours
Package Weight32.1 pounds

What's in the package

  • TC1350 LED Lighting
  • Remote Control
  • User Manual
  • 6-Foot Power Cord
  • Hanging Kit

About This Product

  • VIPARSPECTRA Timer Control Series TC1350 LED Grow Light is scientifically engineered to keep the balance of the PAR output and coverage.
  • Built-in timer design allows you to turn the light on and off automatically. Dimmable feature can be used to program VEG and BLOOM brightness individually.
  • Compares to traditional 1000W HPS/MH while consuming only 608W! Perfect for a 5x5’ vegetative coverage at 44” while 4x4’ flowering coverage at 32”.
  • With revolutionary aluminum heat sinks (0.8” height) and quiet high speed cooling fans, runs 70% cooler than HID lights.
  • 3 years local warranty plus 30 days satisfaction or return guarantee.

Attention Please:

  • Extremely bright, do not look directly at the LED bulbs when the light is working.
  • Indoor use only, not water-proof. No extra ballast is needed.
  • This light includes IR (Infrared) LEDs which look dim/invisible, they are not faulty LEDs.
  • Timer controls both channels on/off together. Cannot turn VEG and BLOOM channel on/off separately.

Outstanding Design:

Selectable Full Spectrum

  • To meet the different spectrum demands of vegetative and flowering stage of plants growth, the TC1350 uses separated VEG and BLOOM channels to control the veg and bloom spectrum individually.
  • Two channels brightness can be adjusted from 0% to 100% separately. Note: Please turn on 100% brightness of both VEG and BLOOM channels for flowering stage.

Large Light, Large Coverage

  • The TC1350 is a full-cycle top-lighting solution for large growing space with PPFD up to 870 μmol/m2/s at 18" above canopy. With the ability to scale from vegetative growth to higher light intensities in bloom, no other lighting systems is needed over a 4'x4' flowering area.

Both Ways to Set System

  • There are both ways to set system. You can choose remote and control knob.
  • Built-in timer control Technology-- Allows you to create custom time to automatically power on or off the light everyday.

HOW TO COMPARE LED GROW LIGHTS?

If you have been researching LED grow lights for your plant growth facility, you have likely been bombarded with a variety of metrics that lighting manufacturers use to market their products: watts, lumens, LUX, PAR, PPF, PPFD. In our opinion, you want to buy a lighting system that delivers the required amount of light to your plants. In order to explain the correct method for evaluating a horticulture lighting system, let’s first highlight two of the metrics used today that you need to avoid:

RULE 1: DON'T FOCUS ON THE WATTAGE OF THE LED'S. Do you use 5W, 10W, or 15W LEDs? We are asked this question on a frequent basis, but the wattage of the LED use in light does not tell you anything meaningful about the lighting system's performance since LED and fixture efficiency varies widely. Remember, the LED wattage is a system input, and growers care about the system output--PAR Output. Hence, the lighting system using 10W or 15W LED wattage doesn't deliver more light to your plants than lighting system using 5W LED wattage.

RULE 2: DON'T LOOK AT A SINGLE PPFD MEASUREMENT. Unless you are growing a small plant directly under your light, a single PPFD measurement doesn’t tell you much. By clustering the LEDs closely together and using narrow beam optics, it is very easy for a manufacturer to show an extremely high PAR measurement directly under the fixture. However, unless you are only growing one plant in this exact location, you need to know how much PAR is being distributed across the entire canopy.

Three important questions you should look to be answered when researching LED grow lights are:

Question 1: How much instantaneous PAR from the fixture is available to plants (measured as PPFD)? 

Question 2: How much PAR is being distributed across the entire canopy? 

Question 3: How much wattage is used by the fixture to make PAR available to your plants?

The three key metrics of the TC1350 used to answer these questions are:

PPFD directly under the fixture

PPFD is photosynthetic photon flux density. PPFD measures the amount of PAR that actually arrives at the plant, or as a scientist might say: “the number of photosynthetically active photons that fall on a given surface each second”. PPFD is a ‘spot’ measurement of a specific location on your plant canopy, and it is measured in micromoles per square meter per second (μmol/m2/s).

PPFD over a 4' x 4' Area

If you are growing over a 4’ x 4’ area, you need to review the PPFD levels over the entire area to calculate the average light level the lighting system is providing. If you only had a center point measurement you may assume a fixture is extremely powerful. However, you would need multiple measurements across the 4’ x 4’ grow area to calculate the average amount of PAR that is provided by the fixture.

Actual Power Draw

In general, for well-designed full spectrum lighting system, the higher actual power draw is, the higher PAR Output a lighting system emits to plants. So how much actual power draw do you get when buying other 3000W(300x10W) LED grow lights?

Average Power Draw608 watts max
LED Chips270 pieces high intensity 5W Bridgelux/Epileds LED chips
Input VoltageAC 100-240 V
Input Frequency50-60 Hz
Lifespan100,000 hours
Package Weight32.1 pounds

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