How long does a 36V golf cart charge last?
How Long Will a Cart Last Fully Charged? # Typically, an electric golf cart has between 45 and 90 minutes of full-power run time on a fully charged battery.
How far can an electric golf cart go on a charge?
How far will I be able to travel? Depending on the manufacturer, most gas golf carts have between a 5 and 6 gallon gas tank and get about 40 miles to the gallon. Electric golf carts with fully charged batteries in perfect condition get about 35 miles to the full charge.
How long does a golf cart battery last on one charge?
Individuals who own personal recreational golf carts should also recharge batteries after every round of golf. Depending on the slope of the terrain and the weight of the load, golf carts can travel up to 6 miles on one full charge.
How fast does a 36 volt golf cart go?
Standard 36V and 48V golf carts are capable of the same top-end speed (12MPH). You can, however, make your golf cart go faster by doing a couple of things: Larger Tires – You can purchase larger tires. The larger the diameter of the wheels, the faster your golf cart will go.
How many volts should a fully charged 36 volt golf cart have?
For example: a 36v battery pack will read 38.2v fully charged. Maximum drop under load should not be more than 6v below 38.2v equal to 32 volts or less.
How long does it take to charge a 36 volt battery?
Recharge time can be approximated by dividing the amp hours to be replaced by 90% of the rated output of the charger. For example, a 100 amp hour battery pack with a 10 % discharge would need 10 amps replaced. Using a 5 amp 36 volt charger, we have 10 amp hours/(. 9×5) amps = 2.22 hour recharge time estimate.
How long do electric golf carts run?
Typically, an electric golf cart has between 45 and 90 minutes of full-power run time on a fully charged battery. Times depend on the age of the battery, with newer batteries having longer run times.
Should you leave a golf cart plugged in all the time?
No, it’s not recommended that you leave your golf cart plugged in all the time. Although automatic chargers are designed to prevent over-charging, there is still the risk of the circuit breaker tripping, which would result in damage to your battery’s cells.
How many amps does a 36v golf cart draw?
The Importance of Distinguishing your Battery Pack
|Battery System||Total Volts||Total Amps (Approx)|
|6-6 Volts||36 Volts||1,350|
|4-12 Volts||48 Volts||600|
|6-8 Volts||48 Volts||1,020|
|8-6 Volts||48 Volts||1,800|
How far can a golf cart go on a full charge?
The max range would be approximately 23.4 miles @ 12 miles/hr, or 3.3 rounds or 60 holes. 48V golf cars with DC motors (EZGO TXT, Club Car, Yamaha) generally will run 20% less distance.
Can you overcharge golf cart batteries?
Overcharging your golf cart batteries may damage them. It is best to use an automatic charger that turns itself off when a battery is fully charged. Some older models lack this important feature. If you must use a manual charger, don’t forget to turn it off.
How often do you put water in golf cart batteries?
The typical schedule is about once every 30 days, but this may vary by several days depending on your specific situation. When filling the batteries, add just enough water to bring it 1/4 inch to 1/8 inch shy of the indicator ring to prevent overfilling.
How can I make my 36V golf cart go faster?
6 Ways You Can Make a Golf Cart Faster
- Add More Torque to Your Golf Cart.
- Upgrade Your Golf Cart’s Motor.
- Improve the High-Speed Controller of the Cart.
- Add Better Golf Cart Tires.
- Use a Higher Powered Golf Cart Battery.
- Watch the Weight in Your Golf Cart.
Is 48V better than 36V?
It is pretty simple to understand. A 36V e-bike battery will allow you to draw a lesser critical current, typically around 15 amperes whereas, a 48V e-bike battery will allow more current in the range of 10 – 40 amperes. It means you can go faster with a 48V E-bike battery.
Can I run 48V on a 36V golf cart?
It all depends on your battery bank used with this 36V to 48V conversion. can only be accomplished through installing a 48V motor capable of higher torque, or installing a 48V controller with a higher current limit (amperage). When DC power is discussed, amperage equals torque and voltage equals speed.