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Father Christmas Gets OnSolar 12V Floodlights for his Sleigh

admin — Fri, 06 Jan 2012 13:28:03 +0000

Santa goes green with OnSolar 12V LED Floodlights – the pictures says it all!

This sleigh is powered using a 12V lead acid battery which provides power for all the lighting visible in the images, including a pair of 12V 10W LED floodlights mounted above Santa’s head. Nice to see Santa going green and not resorting to the use of a smoky old generator 10/10 Santa!!

Images (see below) supplied by Mr P Moralee (many thanks).

Santa illuminated with a pair of OnSolar 12V Floodlights

Santa's Sleigh using OnSolar 12V Floodlights

12v Garden Lighting and Summer House Solar PV Project

admin — Wed, 18 May 2011 13:24:01 +0000

Solar powered garden lighting

An OnSolar.co.uk customer tells us about his fabulous 12v garden lighting and solar powered summer house PV powered project…

Our 12 volt DC garden lighting system began over 2 years ago with the idea of having low voltage lighting in our small garden “pavilion” – simply powered by an ordinary 12 volt car battery that could be periodically charged from the mains. I began with a low voltage kitchen light fitting from B&Q, which used 4 x 12 volt halogen MR16 down-lighters and a mains transformer in the base. I disconnected and removed the transformer allowing the unit to be wired directly to the battery. This gave a fantastic light, but due to the fact that they were halogen lamps, drew a lot of current and quickly flattened the battery.

I than had the idea of fitting a small solar panel on the roof of the building that would keep the battery trickle charged, and at the same time to replace the halogen lamps with LED alternatives that only draw 1 watt of power each. A 20 watt panel, and the lamps, were supplied from Maplin, who included a charge controller with the panel that ensures that the battery is not overcharged on very bright days. I also wired into the set-up a 12 volt voltmeter that gives a quick indication of the battery condition.

The Solar Powered garden lamps have three 3W 12v LED lamps

To ensure that the lamps receive a stable 12 volt supply, I purchased a voltage regulator with a built in fuse. LED lamps benefit from a regulated supply that allows them to be operated at peak efficiency and maximizes their operating lifespan. A fully charged car battery can supply fluctuating voltages from 11 to 14 volts, and the regulator evens out these peaks and troughs in the supply. More information on battery storage, and made-to-order regulators (about £5.00 each) can be had from Renewable Energy UK’s web site at reuk.co.uk.

This set up worked so well that I decided to incorporate a radio / CD player, for music in the garden during the evenings. Even a fairly basic car CD player these days will allow you to have Radio / CD / MP3 options and a quick trip to the local ALDI store provided an excellent player that also included an SD card slot, and AUX plug for plugging in an external MP3 player or other music source, as well as the built in MP3 enabled CD player. I hard-wired this unit into the building and added two standard car loudspeakers that I cased in small wooden cabinets. The unit was powered via the fused voltage regulator, and now provides excellent sound over quite a large area of the garden.

Even with the lights on and the CD playing, I found that the setup was still capable of operating for several hours every evening, having been trickle charged whenever sunlight fell on the panel, so now I started to get more ambitious.

Like most people, we seem to have a large number of small self contained solar lamps marking the edges of paths and other features in our garden, but I now wanted something more substantial to make use of all that free energy.

Our local DIY store supplied two 6 foot tall garden lampposts designed to operate on mains voltage, using 3 60watt ES lamps. I installed the posts in the garden, running protected cabling back to the pavilion’s regulated 12 volt DC supply. Then it was time to find suitable LED lamps that would fit the lamp heads. Several internet searches only turned up low voltage CFL tube lamps, but these drew 11 watts of power each, and I really wanted LED lamps, as the internal lighting had been so successful.

Then I was lucky enough to stumble on OnSolar’s web pages, offering the ideal solution. Aiming to meet the lighting needs of boat and caravan owners or anyone requiring extremely low power lighting. OnSolar.co.uk has commissioned the manufacture of several styles of 12 volt LED and compact fluorescent bulbs with standard ES Edison Screw and Bayonet B22 fitting. We opted for 3W 12v LED bulbs in an E27 base fitting. These give a mid / warm white light, and only draw 3 watts of power each, and all in a very attractive “Golf Ball” sized unit. I ordered 6 of these 12v E27 units via their OnSolar eBay store, and at 7.00am the following day the postman was knocking at my door with the delivery – full marks to Ken and everyone at OnSolar, and the Post Office, for a fabulous service.

The Garden Lamps Illuminated by Night

That night was time for the big switch on. I have wired the lamp-posts to operate via a time switch in the pavilion. This is a former mains powered unit, converted to operate on 12 volts by REUK, and I set it to switch on the exterior lamps at 9.15pm, when it was dark enough to properly evaluate the new lights.
Right on time, all 6 lamps lit up, and I was amazed at how bright these bulbs are.

They now light up every evening between 9.15 and 11.00pm, and create a wonderful effect amongst the bushes and trees in that part of the garden, while my wife and I enjoy our music (and a glass of wine!) in the pavilion, and all powered free of charge with energy generated from sunlight. Future plans include adding a second battery and upgrading the existing distribution board.

Since discovering solar power two years ago with this small setup, we’ve become very enthusiastic about the potential of the technology, so much so that we now have a full solar PV system on the roof of our bungalow, generating energy that reduces our household electricity bills and earns us extra income from power fed into the national grid, but nothing gives us more pleasure than a glass of wine and a little music and lighting in our pavilion on a summer evening, all supplied by our first, DIY, installation.

D and A Phillips

OnSolar.co.uk says…

What a super little project! It sounds as though Mr & Mrs Phillips have gotten bitten by the ‘free energy’ bug and we say ‘way to go! This is truly a great project and just shows what can be done with a little DIY and some ingenuity.

: Solar Regulator

Inside the Garden House

Inside the Garden Room by Night

Make Your Own Electricity Using Solar Power

admin — Mon, 04 Oct 2010 20:20:59 +0000

Who needs Coal or Nuclear power?

Some people are at last seeing the light when it comes to harvesting the Suns solar energy.

With the falling cost of production for modern high efficiency power producing solar powered technologies, it will soon be possible for motivated home owners to fit and install Micro Power generating systems which will be able to fulfil all domestic requirements.

We firmly believe using solar and wind power and converting the energy to hydrogen gas for storage purposes will prove to be the most fabulous power solution for many projects from small micro generation to massive schemes powering many thousands of homes and businesses.

Whilst new ideas are rapidly coming into fruition, production costs are falling which means these fabulous technologies can become public domain and within reach for more modest projects very fast. With luck, this will mean the eventual demise of the oil and nuclear industries which have thier present strangle hold!

You may wish to view the video below: It provides much in the way of hope for future solar power users…

The York Astronomical Society 12V DC Lighting System

admin — Sat, 24 Oct 2009 16:31:40 +0000

Your Astronomical Society kindly prepared the following article to tell us a little about their 12V DC solar PV powered lighting system.

P Buglass says: Since we officially opened the YAS Observatory at our “secret location”, we had plans to provide electric lighting, both white and red. The provision of suitable lighting was made more awkward by the fact that there is no mains electricity available at our site, therefore any power we use would have to be either brought with us, or generated at the site…

Our previous observatory took the first approach and we used a 12V car battery which had to be periodically taken away to be recharged. This was far from ideal and we never knew quite when the battery would run out leaving us in the dark, literally.

For the new observatory we decided on a different approach and settled on a design which incorporated a solar voltaic panel and a number of deep cycle 12V batteries. The power system was installed last Summer and has been tweaked over the Winter and is now able to provide all the lighting needs of the observatory.

The set-up consists of a 43W solar panel which uses a 4 Amp charge controller to change a pair of 12V 115AHr deep cycle batteries, wired in parallel to provide 230AHr of capacity. A more expensive mono-crystalline solar panel was selected due to its smaller size/power ratio as it had to fit inside our cabin windows.

View of the 43w PV panel as seen from the inside

Two 12v 110Ah Lead Acid 'Gel' batteries in parallel complete the battery store

The regulator ensures a stable charge rate to the battery set

Our original plan was to mount the solar panel on the roof of our portacabin, but we were concerned about security and didn’t want to make it too visible. Some maths was performed to look at the angle of the Sun in Winter and Summer, and we decided to mount our panel vertically in one of the cabin’s south facing windows. The maths showed that in Winter when the Sun was low, we would actually generate more power than if the panel had been roof mounted at 18 degrees (an angle we had decided was the maximum we could use and still keep the panel invisible). Therefore we decided to go for window mounting to maximise our Winter power, (the time of year we need it the most). In Summer time, the Sun is much higher, and therefore the vertical panel is much less efficient, but the overall power generated due to the longer days makes up for this.

Under bright sunlight the panel can put almost 3Ahr into the battery bank, but a realistic figure is closer to 2Ahr in Winter time. Even with a conservative estimate of only 1 hour per day of bright sunlight during the winter months, we can still expect to put over 12Ahr into the batteries during the week, which will allow us to use our lights for 6 to 8 hours at a weekend without depleting the batteries on a week by week basis. In Spring and Autumn the figures are more like 30Ahr a week into the batteries, which is more than enough for a few nights of observing at the weekends. In the Summer time we will have power to spare so we will be holding lots of summer BBQs and other evening activities . . . . Bingo anyone?

As with any 12V power system, protective fuses and thick cables are essential. Power loss in a cable is proportional to the square of the current, so with a low voltage system more current is required for a given power, thus increasing the wiring losses significantly. Power loss = I²R, where I is the current drawn, and R the resistance of the wires, so reducing wiring resistance by using thick cables reduces power loss. We used the thickest mains cable we could lay our hands on, and it seems to work well with minimal power loss indicated by the voltage level hardly dropping under load. Where we have a long cable run down the inside of our 40 ft steel shipping container observatory area, we have used a double run of thick twin and earth cable, with all the separate conductors, wired together giving one cable for positive and the other for negative. This may be overkill, but we can pull quite a few Amps through this wiring arrangement with minimal voltage drop at the far end.

The power feed out of the batteries is protected by a 30A in-line fuse (car spade type for easy replacement), and this will likely be up-rated to 40A, or more, in the future as additional power hungry equipment is installed in the observatory such as a mains AC voltage inverter to power laptops, etc.

The white lights we use are low energy, compact fluorescents, rated at 7W and 11W, and take less than 1A from our system, but they are unique in that they are designed to operate directly off a 12V DC supply, so they contain an integrated 12V inverter to power them. They look just like other low energy light bulbs you would find in your house, and give a similar light level you would expect from your bulbs at home. The use of ES (screw) fittings is desirable, as these are easier to ensure the correct polarity is maintained, however the bulbs can be bought in either ES or Bayonet fittings.

Low energy 12V CFL lighting

The warm room cabin has been provided with a single 11W bulb, with a switch beside the cabin door, which provides adequate light for most activities such as reading, committee meetings, etc. A 7W bulb has been installed in a bulkhead fitting on the observing deck for setting up and clearing away purposes, again with it’s own adjacent switch. Finally there is another 11W bulb and switch above the main door into the container, but again the use of this light will be limited to setting up and clearing away, as both this light and the observing deck light will normally be turned off during observing, when red lights will be used exclusively.

The red light in the observatory is provided by a number of small 12V festoon lights, which contain 8 red LEDS each. One red light is located next to the container door with a master red light switch, and two more red lights illuminate the stairs up to the observing deck. On the observing deck itself there are 2 additional red lights, but these can be switched on and off independently of the other red lights if needed, i.e. if CCD imaging was being undertaken and all lighting on the observing deck needed to be extinguished.

Now that the observatory lighting is fully operational, we are working on installing a table area for laptop PCs in the cabin, which will have a small mains power inverter, running off our 12V supply. This will enable observers to use and recharge their laptops as needed. We will also be able to tap off 12V feeds to the telescope pillar, and the 12” other Newtonian telescope drive system, in the latter case again utilising a small mains inverter.

If the additional power demands of the laptop station and telescope drives prove to be taking more out of the batteries than we can put back during the week, we have the option of installing a second 43W solar panel in another south facing window, thus doubling our power generation capacity.

It has been a very rewarding exercise to equip the YAS observatory with a “renewable” energy lighting and power system, and it has demonstrated that something similar could be done on a domestic scale to provide limited household lighting and power too. Holding committee meetings in the observatory with a bright light available at the flick of a switch, without having to fire up the petrol generator, is a great convenience, and one which shouldn’t be underestimated.

The costs of the major system components were £249 for the solar panel, about £50 for each battery, and approximately £10 per 12V low energy bulb. The wiring and other ancillary switches, etc, have come mainly from our “bits and bobs” boxes. Thanks should go out to all those who have helped me put the power system together and get it wired up and working.

I feel it is very appropriate and fitting, for us to be utilising power derived directly from our nearest star, the Sun, to help us in our night time observations of other stars and celestial objects. Long live “Star Power”!

P Buglass, York Astronomical Society, April 2009. http://www.yorkastro.org.uk/

We would like to say Thank You to P Buglass for telling us about his solar PV project and hope that he continues to enjoy the benefits of the ‘Off Grid’ 12v solar PV power system. Long may your 12v cfl lamps perform! Ken. OnSolar.co.uk