DIY Revive Dead Golf Cart Battery – Trojan T-105

On of the most read article on this blog is the 3 best batteries for an off-grid home solar power system post.

If you have not read the article, please click on the link below.

>> 3 best batteries for an off-grid home solar power system <<

In the article, the type of battery recommended is deep cycle battery.

One of the most widely available deep cycle battery is the Trojan T-105 used on most electric golf carts.

If you were to source for used deep cycle battery, most probably you will find a T-105.

In the video above, you’ll learn how to revive an old Trojan T-105 battery from a golf cart.

Not every old golf cart battery can be revived though. Some old battery has dead cells and some may have some sulfation.

The only way to know if the battery can be restored is to try to revive it.

Golf Cart Battery Basics

Golf cart batteries are the life-force behind your electric golf cart.

Golf carts run off of what are called deep-cycle batteries. Although they look similar to normal car batteries, deep-cycle batteries serve a completely different purpose.

While both are lead-acid based, deep-cycle batteries provide a steady current over a long period of time, whereas car batteries provide a very large current over a short period of time. This is because golf carts, like other electric vehicles, derive all their power from their batteries.

One battery is not enough to run a golf cart. Instead, they use battery packs that consist of multiple batteries.

Individual golf cart batteries usually come in 6-volts or 8-volts. The combined total of the voltage from each battery makes up the total golf cart voltage.

For instance, a 36-volt golf cart probably has six 6-volt batteries. And a 48-volt golf cart probably has either eight 6-volt batteries or six 8-volt batteries. And as you can probably guess, the higher the voltage the longer the run time and the greater the power.

If your batteries aren’t charged, however, it doesn’t matter how many volts your battery pack has, it’s still not going to run. The type of golf cart charger you would need depends on the total number of volts your battery pack has.

A 36V golf cart requires a 36 volt charger, and a 48V golf cart requires a 48 volt charger. If you have a 36V golf cart and later decide to upgrade to a 48V golf cart by adding two additional 6V batteries, you can either purchase an additional 12V charger for two new batteries, or you can replace your 36V charger with a 48V charger, just so long as the voltage from the charger corresponds with the voltage of the batteries.

Golf Cart Battery

To keep your golf cart running strong you’re going to want to charge your batteries after every use. Most new chargers are fully automated, which means they regulate the current so that you do not over-charge your batteries.

If you have an older golf cart charger that is not fully automated you would want to set a timer to shut off the charger after your cart is fully charged. A good rule of thumb is to charge it for at least twice as long as you drove it.

Another thing to be aware of is how well your batteries are performing. To keep them in tip-top shape requires proper care. You should be aware of such information as proper water levels and cleaning techniques.

The most proactive thing you can do is to take proper safety measures and set up a weekly or monthly schedule to make sure everything is well maintained. One weak battery will bring down all of the otherwise strong batteries to the weakest battery’s level, so it makes sense to keep them all properly maintained.

If you want to customize your cart with electrical golf cart accessories, they too will be powered from your golf cart batteries. There are several ways to hook them up, and the best way depends on your particular situation.

Most electrical golf cart accessories are 12V accessories, which means they run off of twelve volts. The quick and easy way to power your accessories is to hook them up directly to two of your 6V batteries. But this can cause an imbalance in your battery pack, especially if you have too many accessories requiring too much wattage.

At this point it would be better to add a separate auxiliary battery strictly to run your accessories, or a converter to evenly distribute the power from all of your batteries to your accessories.

When it’s time to replace your batteries you will need to think about proper golf cart battery disposal. To recycle your old batteries you should take them to a retailer who recycles old batteries for resale. Most retailers that sell lead-acid batteries also take used batteries because it is required by most state laws. Recycling your used golf cart batteries is good for the environment and good for the health of you and those around you.

Knowing about golf cart batteries is an essential part of knowing how to own and operate a golf cart. To find out more about golf cart batteries, along with everything else that’s golf cart related, please visit http://www.guide-to-golf-carts.com.

Deep Cycle Battery Reconditioning Guide

Deep Cycle Batter Revive

Do you want to know more on reviving dead or weak deep cycle batteries?

If you do, check out the EZ Battery Reconditioning program.

In the program, you will learn how to:

Get old or “dead” golf cart batteries, industrial or L16 batteries
Recondition them back to 100% of their working condition
Use those “like-new” batteries instead of buying new overpriced batteries to save a lot of money

The guide will also show you how to recondition many other types of old, dead batteries back to 100% of their working condition again (so they’re just like new), including:

Car batteries
Laptop batteries
Cell Phone batteries
Marine batteries
PLUS MANY MORE!

So if you’re ready to learn how to recondition all types of batteries…

…back to 100% of their working condition

…Then click the link below

<CLICK HERE> Show Me The Presentation Now!

How To Fix Solar Panels With Reduced Power Output

Overheating of Photovoltaic (PV) solar panels is a very common problem faced by many home owners who has invested in a residential solar power system, particularly in hot regions. Every solar panel is designed to work in an optimum range of temperature.

During the hottest parts of the day, it may so happen that the temperature exceeds this optimum range. The result is a drop in voltage output in the PV panel. This is a typical phenomenon and gets rectified once the system is cooled down.

Normally the panel is designed in such a way, that some drop in the voltage will not affect its efficiency. For example an 18V PV cell at 25 degree Celsius will work in the range of 17 – 18V. So even if the atmospheric temperature is high and the efficiency of the cell falls, you may expect to get a voltage of 12 V.

But if the efficiency falls further, be sure that there is no problem with the electrical wiring connections. If your panel does not regain efficiency after cooling, the fall in the voltage of the cells may be caused by corrosion and expansion due to high temperature.

Under such circumstances you need to cool down the panel by putting the array under a shade. Cover the panel and pour water on it. These simple measures should be sufficient to cool down the panel and give the right voltage, if there is no other problem with the circuit.

But if the voltage output does not improve, there is definitely some fault in the electric circuit and you need to fix it immediately. Use a selective shading test to identify the faulty cell. This will help in identifying the faulty cell or wiring by smaller parts.

After you have shaded 3 to 4 cells, the output should be reduced by half. Disconnect the panel and monitor the output of the cell with a multimeter. If you do not have a multimeter, you may use a test load such as a fan to monitor the output.

If after shading a part of the panel and the voltage remains unchanged, this is the part which has the problem. Once you have detected the faulty part, check the tabs and the wiring junctions around the affected area.

Look for any corrosion that might be the cause of the problem. Increased resistance of faulty solder increases the load and resistance and leads to continuously overheating the cell and consequently the panel will get damaged. You need to rectify this problem immediately.

Moisture is a big problem for solar panels. In places close to a sea, salty and moist air corrodes electric connections and aluminum frames very fast.

Wood also get distorted and twisted with moist air causing breakage of tab connections. It may also result in the formation of crack in a cell. All the corroded and oxidizes metal parts must be replaced under such circumstances. It is worthwhile to go for aluminum or perspex sealed panel if you want to avoid these problems, though it may involve some extra cost.

Another problem, though not very common is the damage of blocking diode. Blocking diodes are used in solar panels to prevent the discharge of the batteries during the night time. Damage of blocking diode will result in no power output. So if you are getting no power from your panel, and you have eliminated all other possibilities, carry out a diode test.

If you find the diode to be faulty, replace the diode. If immediate replacement is not possible, take out the diode from the circuit.

Make sure to disconnect the panel at night, otherwise the battery bank will get discharged. Some people use a number of smaller diodes that will sum up to the required amperage. This may help in reducing the cost, but invariably is an invitation to e bigger problems.

As current flows in the path of lowest resistance, so when a number of smaller diodes are used, it will flow through the smallest diode and will continue to do so, till it fails, then the next higher ones will follow.

Thus one by one all the diodes will fail and finally the entire system will blow out with a risk of fire. Remember, if properly maintained, solar panels are very reliable, even in cloudy or snowy weather. Keep your panel sealed to protect it from moisture. If you follow these simple rules, your solar panel will keep working, free of any problem.

Champion Power Equipment 46534 Generator Review

Do you want to just sit tight or be mobile during power outages? It is your choice. If you do not want to compromise, think of buying a Champion Power Equipment 46534 portable gasoline generator.

In fact, it is easy to set up and operate the 46534 portable generator which has an output up to 3500 running watts or 4000 peak watts of AC power. This generator will be helpful in operating whatever household equipment you want to and wherever you require during a power outage.

The Champion Power Equipment 46534 generator is driven by a 196 cc engine with cast iron sleeves. It can churn out a maximum power of 4000 watts. You can run important equipment like furnace fans, window air conditioners, computers, laptops, microwaves, lights, etc. Here’s a tip, it is a good idea to use a surge protector or a multi-outlet extension cord to operate many devices having the same voltage rating at the same time.

The fuel tank of the 46534 generator has a capacity of 3.8 gallons. If you operate the generator at 50% load, it will give 12 hours of uninterrupted backup power, ensuring safety and comfort of your family during routine power outages or in the time of emergencies such as natural disasters, blackouts, etc.

The recoil feature of the 46534 generator is simple and easy to operate. Multiple power outlets of different ratings are available to meet your needs. A 120 volt, 30 amp, twist-lock receptacle will cater to 120 volt, 60 Hz, single phase loads that draw up to 25 amps or 3500 watts of power.

The twist-lock receptacle comes with a 25 amp push-to-reset circuit breaker protection. A recreational vehicle receptacle with a rating of 120 volts and 30 amps can take up to 3500 watts single phase load, operating at 120 volts and 60 Hz.

The recreational vehicle receptacle is also protected by a 25-amp push-to-reset circuit breaker. To operate 120 volts, 60 Hz, single phase loads that need up to 2400 watts can connected to a 120-volt, 20-amp receptacle that is protected by a 20-amp push-to-reset circuit breaker. In short, the generator model from Champion Power Equipment has been well designed to give you all the safety and security features.

The 46534 generator also comes with low-oil sensor and overvoltage protection. If the oil level in the crank case falls below a specified level, the sensor gets activated and the engine is shut down to prevent any damage to the generator set. This ensures peace of mind that the generator will be available when you need it most.

The “Volt Guard”, over voltage protection, used is that of Champion Power Equipment. It constantly monitors the output voltage when the generator is in operation.

In the event of a spike in voltage, the generator is shut off immediately to protect your sensitive electronic devices. It is easy to set up this portable generator. You can also move it around without any hassles.

Weighing only 117 pounds, it measures just 21.1 inches x 23.97 inches x 30.3 inches. Due to its compact size, it can be taken around your home to

provide emergency power wherever required. In order to facilitate mobility, low vibration and quiet operation, the 46534 generator is provided with a handle, 8 inch never-flat wheels, support leg and anti-vibration mounts.

If you are thinking of getting the Champion Power Equipment 46534 portable generator, click on the button on the right to order the unit from Amazon.com and have it delivered to your home right now!