Frequently Asked Questions

We are an indoor garden & hydroponic equipment supplier. We help customers understand what it takes to get the most out of their garden.



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Yes and Yes. All glass has naturally occurring UV inhibitors but we are not adding additional filtration as some amount of UV is known to be beneficial, the primary function of the glass lens is to aid in heat retention and evacuation (air cooled).

Clear glass does result in slightly reduced light due to the lambertian refraction effect. The amount depends on the lamp type, glass thickness, shape of reflector and reflective materials.

No, all ETL listed reflectors are tested without air flow being present. However the primary function of an air cooled is to induce air flow and evacuate the heated ambient air.

This primarily depends upon the ballast type (magnetic vs electronic) and also the lamp type (HPS vs Probe Start MH). Some magnetic ballasts can use “long range ignitors” for up to 50’, and most Electronic ballasts reliably fire lamp at lengths above 50’.

1 watt = 3.41 btu per hour. 1000 watt = 3,412 btu per hour.

*Typically we have rounded down:

  • 3,000 BTU’s per air cooled 1000W,
  • 4000 BTU’s per non-air cooled 1000W
  • 6,000BTU’s per 1150W(DE)

Higher voltage operation reduced the amperage consumption. However we all pay for electricity by the Watt. There is no effective power savings in operating 240v vs 120v.

*Running 240V will not save you money, however some equipment may produce less heat being run on 240V and therefore may have a longer life span.

CDM = Ceramic Discharge Metal Halide (the next evolution of high performance metal halide lamps)

LEC315 = Light Emitting Ceramic, 315 watts

VHO = Very High Output, T5 = Tubular lamp 5/8” in diameter

Wall plug in appliance timers are not built to handle the inrush current created by a 1000 W ballast. Even though it may appear that it is rated for it, there’s different types of electrical loads and the timers usually aren’t rated to handle a 1000 W ballast load. When trying to control your lights you should use the appropriate Light Controller which are built specifically to handle the load from ballasts.

Look at the extension cord ANSI rating for maximum wattage / amperage allowed.

*Never exceed or operate at maximum load rating of an extension cord.

Look at your local power bill for the rate per KW (kilowatt), per hour. Example if you pay .10$ per KW it will cost you .10$ to operate a 1000w system for 1 hour

(Note: all systems have a certain % of efficiency loss. Typical 1000w ballast / lamp actually consume approx 1080w)

*If you are located in Texas, you can use to compare energy rates. Don’t forget to check the “Fact Sheet” and check the rate changes above 1,000Kw and 2,000Kw depending on your projected energy consumption. (1Kw = 1,000W)

Four hands are better then two. Ensure that your mounting platform is secure and strong enough to bear the weight of your components.

*Ideally you would mount a support into a stud or 3/4″ plywood, otherwise, if using drywall, make sure to use the proper, or oversized, support anchor.

If the reflector does not have an easy access door, you may need to remove the air ducting.

Ensure fixture is not powered & lamp has been allowed sufficient time to cool. Use a clean dry cloth and gently wipe the outer jacket of the lamp.

Yes, we offer replace lens, or lens & frame combinations for all current reflectors.

We recommend the first call should be to the original place of purchase.

*If you purchased it from us, call us. Otherwise, we can provide parts, but they are not listed on our website.

Yes, longer cords create resistance within the wire. Refer to your individual system and instructions for operation parameters

Credit or replacement of product for anything that has failed during normal “as intended” usage during the warranty period. Warranty period determined by product type.

Typically pulling air through a reflector (inducing air) will create a tighter seal around the seams vs using positive pressure to blow (push) through the reflector.

Does this mean I can simply plug my ballast into any voltage?No, some ballast may be 120v only, or 120v/240v or true Quad voltage 120v/208v/240v/277v. Depending on fixture type a licensed electrician may be required to alter the voltages. Altering voltages may potentially void ETL rating and warranty.

Certain Electronic ballast are “intellivolt” and do not require internal wiring modification to operate at different voltages. Please refer to your individual product for appropriate markings and operation instruction.

Magnetic ballast windings have been made with both Copper and copper covered Aluminum windings. Copper windings historically have a lower temperature bench rise than aluminum windings.

Refer to your individual system and instructions for operation parameters.

We recommend the first call should be to the original place of purchase.

Our goal is to create an even light plane (without hot spots) in a 3×3 or 4×4 pattern. However, with so many reflector types, shapes & reflective subtrates combined with different lighting sources, wattages and configurations the combinations of light pattern are many.

This depends on the ballast itself. Different voltage operation may void ETL and warranty.

These are all safety organizations endorsed by the NRTL Nationally Recognized Testing Laboratories.

Depends on voltage used. Never operate a circuit under max amperage load.

Certain Pulse Start MH lamps require an HPS ignition in order to fire the lamp. However, please confirm lamp & ballast compliance before operating on any setting.

KV = Kilovolt rating. We recommend using 5KV minimum (6KV for 1500w). Leviton is a major brand socket manufacturer.

Pulse Start requires a higher ignition pulse in order to strike the initial lamp arc. Probe Start lamps do not require this type of ignition pulse.

1000w HPS DE lamps are more efficient, the can offer an improved light spectrum and have quicker warm up / restrike times as well as improved lumen maintenance over the lifetime of the lamp

HID lighting stands for High Intensity Discharge, which is a special type of lighting that is much more intense (brighter) than other types of lighting available. An HID lighting system consists of a ballast, reflector, socket and lamp (light bulb). The ballast acts like the engine, converting and driving energy to illuminate the lamp. HID lighting options include High Pressure Sodium (HPS), Metal Halide (MH), Mercury Vapor and Low Pressure Sodium. The two typically used for plant growth are HPS and MH systems.

Color Rendering Index is a subjective measurement of how well a lamp source renders colors. A measurement of the degree of color- shift an object undergoes when illuminated by a light source when compared to a reference source of comparable color temperature. Incandescent light is assumed to have a CRI of around 100 so it will render all colors correctly. MH only has a CRI of about 70, so only 70% of colors will be rendered correctly. HPS has a CRI of 22.

Color Temperature is not how hot the lamp is. Color temperature is the relative whiteness of a piece of tungsten steel heated to that temperature in degrees Kelvin. HPS has a warm (red) color temperature of around 2700K as compared to MH at 4200K, which has a cool (blue) color temperature.

What is important to remember about these two terms is that CRI readings, of two sources, can only be compared if their color temperature is equal. You cannot compare the CRI of HPS (CRI=22) vs. Metal Halide (CRI=70) because the color temperatures are dif erent (2200K vs. 4500K).

Lumen is a measurement of light output. It refers to the amount of light emitted by one candle that falls on one square foot of surface located at a distance of one foot from the candle. Traditionally, lumens have been the benchmark of a lamps ability to grow plants; meaning the brighter the lamp the better the plant. However, studies have shown that a broader color spectrum lamp will perform much better than a lamp with high lumen output, especially when it comes to plant growth.

MH lamps provide more of the blue/green spectrum, which is ideal for leafy crops, and/or plants that are in a vegetative (actively growing) stage. MH lamps provide a more natural appearance in color and are typically the choice for plants that have little to no natural light available. HPS lamps provide more yellow/orange/red spectrum, which is ideal for most plants that are actively fruiting and flowering. In addition, HPS lighting is the choice for growers looking to supplement natural sunlight. Ideally, the horticulturalist will use MH to grow their plants and HPS to fruit and flower their plants.

Traditionally, fluorescent lighting was used for seedlings, cuttings and plants with low light-level requirements and HID was used for established plants and plants with higher light-level requirements. Advances in fluorescent lighting technology, however, have provided more options for horticulturists. T5 fluorescent lighting is the latest in plant growth lighting. T5’s high-light output combined with its low heat and energy consumption makes it an ideal light source to grow a broader array of plants.

T5 lamps provide the ideal spectrum for plant growth. Photosynthesis rates peak at 435 nm and 680 nm. A 6500K T5 lamp has a spectral distribution with relative intensity peaks at 435 nm and 615 nm. This equates to very little wasted light energy in terms of plant growth. T5 lamps promote incredible health and vigor of seedlings and cuttings. Root development is superior relative to other lighting sources. While T5 lighting is excellent for starting seeds and cuttings, it’s also able to produce enough light for full term growth. Because of their minimal heat output, T5 lamps can be placed 6” – 8” above the plant canopy which maximizes photosynthetic response. Unlike conventional fluorescent lamps, plants grown under T5 lamps do not have to be rotated to the center of the lamp. T5’s slim diameter enables better photo-optic control of the emitted light, increasing efficiency in the form of even light distribution.

Environmental Impacts of T5 (at a glance):

  • T5 lamps have a diameter of 5/8” – smaller is better when it comes to manufacturing, transportation and disposal.
  • Reduction in raw materials and components needed for manufacturing.
  • Reduction in lamp and fixture packaging materials due to relative size.
  • T5 are constructed of 40% less glass than T8.
  • T5 contain 30% less phosphor than T8.
  • T5 contain 3mg of mercury. 70% less than T8.
  • Longer lamp life means reduced maintenance cost and less going to the landfill.

Frequency output to the lamp and energy conversion from electricity to usable light are the biggest differences between HID ballasts and electronic ballasts. HID ballasts produce a frequency of 60 Hz. Electronic ballasts vary from manufacturer to manufacturer, but the frequency produced can be 400x that of an HID ballast. HID ballasts produce more heat than electronic ballasts, thus making electronic ballasts more energy efficient. You will not, however, save money on your electric bill by using electronic ballasts. HID lighting has been available for 60+ years, while electronic ballast (especially 400 watt and higher) is a relatively new technology.

Electronic ballasts are more efficient at converting electricity into usable light. Since your power bill is based on kilowatt-hours and not efficiency, a 1000 watt electronic ballast will cost you about the same as a 1000 watt HID ballast to operate.

Lighting systems are available in a variety of voltages. The standard used by most gardeners is 120 volts / 60 Hz which plugs into a standard wall outlet. Other voltages may require special circuits and receptacles. Always contact a licensed electrician if the light you purchased has special voltage requirements and never exceed more than 75% of the rated ability of the fuse/breaker. (For example: use no more than 15 amps on a 20-amp circuit.)

HID systems are available in 120 volt, 208 volt, 240 volt, 277 volt and 480 volt – All at 60 Hz. Fluorescent lighting varies, but most are available from 100 volt to 277 volt and 50 Hz or 60 Hz.

Most lamp manufacturers rate their lamps by “Average Life Hours” and usually claim 10,000 to 24,000 hours. These ratings are based on when the lamp will completely fail to come on. They do not factor in loss of intensity or loss of color. HID lamps lose intensity and color through normal use. This is OK if you are lighting a warehouse, but when it comes to plant growth, these losses can mean wasted electricity and poor plant performance. Serious horticulturalists recommend that you replace your lamps after 6000 hours of use. This equates to using your light 16 hours a day for one year.

This depends on the type of plants and whether you have natural sunlight available to your garden. As a general rule, when you are in a vegetative stage of plant growth and you have no natural sunlight, run your lights 14-18 hours a day. If you have natural sunlight, it will vary because the sunlight may or may not be direct. It will take a little experimenting to find the best length of time to run your lights. If you are actively fruiting and flowering, the rule is to run your lights 12 hours a day if you have no natural light.

The higher the wattage the further away you want the light to be from your plants due to the amount of heat. HID lighting will be further away than a fluorescent fixture because of this. When mounting your lighting fixture take into account the type of plant and how tall the plant will grow. You want to keep the light as close as you can, but not so close to burn the plant. A simple rule is “if it is comfortable for the back of your hand, it will be a safe distance for your plants”. Doing a little research on the type of plant and where it comes from will help in determining how much (or little) light your plants like. With fast growing plants, you may need to check the hanging height on a regular basis as plants that get too close to the lamp will be severely burned.

The size of the garden area will determine the wattage you need. If we assume that the plants will get no sunlight, a 1000 watt light will cover about 7 x 7 feet of growing area. A 600 watt will cover 6 x 6 feet, a 400 watt will cover 4 x 4 feet, and a 250 watt will cover 3 x 3 feet. These sized areas would be considered the “Primary Growing” areas. These lights will light-up larger areas, but plants placed outside of the Primary Growing area, will stretch and bend toward the light; a phenomenon called phototropism. Keep these areas of coverage in mind when using multiple fixtures. The best results occur when the areas of coverage overlap.

The inner arc tube of a Metal Halide lamp contains mercury. Eddison Testing Laboratories has stated that for a Metal Halide fixture to maintain its ETL Listing, that an additional tempered safety lens is required in the event that the arc-tube and outer glass fail. This will prevent the spread of Mercury.

No! The internal components of the ballast are designed to send the correct voltage and current for the rated lamp. Mixing lamps and ballasts will result in premature failure and will void the manufacturers’ warranty. Consider the size area you want your garden to be prior to making a lighting purchase. It is better to grow into a fixture than out of one.

Manufacturers do not state that gloves are required when handling their lamps. It is recommended that your hands be thoroughly washed prior to handling HID lamps though.

A lamp that operates on the opposite ballast it was originally designed for. For example, a 940 watt conversion lamp is an HPS lamp that runs on a 1000 watt Metal Halide Ballast. There are also MH lamps that are designed to operate on HPS ballasts. These bulbs allow the grower to purchase the ballast of their choice and offer the flexibility of growing a variety of plant types by simply changing the lamp they need.

Warm water and mild dish soap are the best to clean and maintain the highly reflective finish. Avoid bleach, ammonia and other harsh or abrasive cleaners.





Inside of Texas – 1-2 days.

Outside of Texas in the South – 3-4 days.

West coast & East coast deliveries – 5-7 days.

*These times are for ground & express shipments, freight shipments will be on a case by case basis.


Not at this time.

Please call for questions as this may change.

ALL SALES ARE FINAL and there are NO RETURNS. Warranty items are subject to case by case basis.

* All manufacturer defects are to be approved by the manufacturer before a return can be made. Please call and speak with our customer service representative to confirm the RMA process.


What is an RMA?

A return merchandise authorization (RMA) is a part of the process of returning a product in order to receive a refund, replacement, or repair during the product’s warranty period.

Have any questions we didn't answer?

* For more information about hydroponics, check out out Hydro 101 page.

**For new product information check our Blog page.

***For feeding schedule information, please visit out Feeding Schedules page.