Gate Motor Solar Selection Tips

” Going green” is a term that’s being uttered with increasing regularity by everybody from the news media to CEOs of huge business. We can all do our bit to minimize our carbon footprint and conserve the environment so that our children and grandchildren might likewise enjoy this gorgeous and special planet of ours. One method to do this is to make use of solar energy to provide power to electrical gadgets around your home or office and, in an age where regular power blackouts have actually ended up being commonplace, it may just be the way to go. Utilizing solar energy will not only drastically reduce raw energy intake, however likewise implies that you will not be left in the lurch when the lights go out.

As far as gate automation goes, there are a variety of solar choices readily available. However what size photovoltaic panel do you purchase? What sort of autonomy can you anticipate in the event of a power blackout? I intend to answer these and other questions in this article. We will look specifically at DC-powered gate motors, as the solar panel will be utilized to charge the battery or batteries.

1. Inspect your motor voltage

Generally, there are two variants when it concerns DC gate motors, namely 12V and 24V models. The 12V designs typically make use of single battery to provide power to the motor while the larger 24V motors – which are generally designed for industrial applications or residential or commercial properties with heavy traffic circulation such as townhouse complexes – have 2 batteries connected in series. It is very important to understand whether you have a 12V or 24V gate motor as this will identify the number of solar regulators you need to buy.

2. The number of extra devices are connected?

This will come into play later on, when you determine the present draw and energy intake. Things like infrared safety beams, intercoms, remote receivers as well as the motor’s control card itself, all draw existing and will need to be taken into consideration when choosing a photovoltaic panel.

3. Variety of hours of sunlight

Obviously, the quantity of small charge you will obtain from a solar panel depends on how much the sun shines on it every day. If you reside in a location that’s mostly overcast, solar energy might not be the response. 5 hours daily or more are usually required for your motor’s batteries to remain in a fully charged state.

4. Do the mathematics

Now that you understand what your motor voltage is, how many ancillary gadgets are connected to it and the number of hours of sunshine you get each day, you can do the following calculations to identify the size of the photovoltaic panel you require. But first, keep in mind to inspect your gate motor’s documents to see what its quiescent present draw is.

Next, get an amp/hour score by increasing the quiescent present draw with 24 (the variety of hours in a day). For instance, if your motor’s PC board draws 50mA of present, the amp/hour ranking will be 1.2 Ah (0.050 x 24 = 1.2 Ah). Perform this calculation for all your peripheral equipment and also for your solar regulator. If you have not decided on a regulator yet, you can utilize a 30A regulator (which draws about 10mA of current) for the sake of your estimation. Accumulate all the overalls for the motor, controller, supplementary devices and regulator.

Example:

Consider a typical domestic sliding gate that operates an average of 10 times daily. It is fitted with a 12V domestic operator and also has a set of security beams linked.

MOTOR CURRENT: 10 (the number of daily operations) x 0.111 Ah (Nett energy/operation) = 1.11 Ah.

ELECTRONIC DEVICES: Motor PCB = 0.384 Ah.

Safety beams = 1.60 Ah.

Solar regulator = 0.24 Ah.

OVERALL ENERGY DEMAND: 3.334 Ah.

5. Choose a panel size.

You are now prepared to select a solar panel. The following schedule needs to offer you a concept of the charge currents and charge outputs related to different size solar panels:.

Solar panel capability Charge Current Charge.

20W monocrystalline 1.2 A 6.0 Ah.

40W monocrystalline 2.4 A 12.0 Ah.

65W monocrystalline 4.0 A 20Ah.

67W monocrystalline 75W 22.0 Ah.

The charge output has actually been identified by multiplying the charge existing by the variety of effective sun hours each day. I utilized 5 hours for the sake of this example.

Last but not least, you need to select a solar panel that has a charge capacity greater than the total need of the system. In other words, if the demand of your gate automation system is 3.334 Ah like in the example above, a 20W panel will suffice.

6. You’ll need the following …

When buying a solar panel, also ensure that you buy a solar regulator. A regulator keeps the charge rate continuous so that your motor’s battery is not over or undercharged. If you have a 24V system, you’ll need 2 solar regulators considering that most regulators are rated for 12V systems.

Visit Gate Motors Pretoria for more information. Thanks for reading!