What is the Razor MX350 charge time? Does the battery charge at the same time as other E-bikes? This question is difficult to answer because each bike is built differently. The Razor dirt bike battery, for example, has a different required charging time than other models by other brands.
What is the Razor MX350 charge time? We’ve answered this and many other questions below. So keep reading and find out.
How Long is the Razor MX350 Charge Time?
The Razor MX350 charge time can go all the way up to 12 hours. Even if the battery’s light goes green, you should still keep it plugged in. However, the manual also says that you shouldn’t leave the battery plugged in for more than 24 hours.
All of Razor’s bikes come with chargers, and the MX350’s battery is very easy to remove too. All you have to do is slide it out and plug it into the charger.
Can I leave my e-bike on charge overnight? Given that the Razor MX350 charge time is approximately 12 hours, yes you can.
How Do I Know if My Razor MX350 Is Charging?
There is a small LED light given on the charger that will indicate when the Razor MX350 charge time is complete. When you plug the charger into the wall, the light turns green. This indicates that the charger is live. If you don’t see the green light, try switching sockets.
Once you connect the other end of the charger to the battery, this light should turn red. This indicates that charging is in process. Once the charging is complete, the light should go back to being green. However, do not disconnect the battery until it completes 12 hours at least, although we recommend charging for up to 24 hours, but not more than that.
If the light on your charger isn’t working, check the charger and its wire for any tears, cuts, or loose wires. Also, check the socket to see if it is live. If you find an issue with the charger, it is best to discard it. Do not charge the battery until you have a new charger.
Can You Overcharge a Razor MX350?
No, you cannot overcharge a Razor MX350. Razor’s chargers come with overcharging security circuits to avoid this issue entirely. This circuit uses Zenor diodes – which allow the current to flow only if it is under a certain value – that check the battery’s terminal voltage.
When a battery is plugged in for charging, its terminal voltage increases. However, once the battery is completely charged, this terminal voltage increases to its maximum. The circuit picks up this rise in terminal voltage and cuts off the energy supply to the battery.
However, if the charger is damaged, there is a chance of the battery overcharging. The current to the battery won’t be cut off in time, and the battery will enter a charging and discharging loop. Every time it is charged completely, it will discharge itself a little, and the current will charge it fully again. This loop will prevent the battery from causing an accident but will drastically reduce the battery’s life in the long run.