A Good Way to Solder an RC Battery

RC battery energy are usually rechargeable battery energy wired as a energy supply to provide greater current. They are often lithium-based battery energy because they are lightweight and produce 3.6 v compared to 1.2 v from a nickel-based battery energy. Soldering an RC battery energy so it's wired to another battery energy to increase outcome is a fairly straightforward task.

1. Eliminate ¼ inches of plastic off both ends of a 3-inch remove of cable using cable strippers. This shows the copper mineral metal core.

2. Heat a soldering metal to operating temperature. Position one end of the cable remove on the beneficial terminal of the first RC battery; it's marked "+" and then put the end of the soldering metal onto the cable and terminal and introduce the solder. Let the solder melt so it coats the terminal and the cable, then take away the soldering metal and let the solder solidify.

3. Position the other end on the adverse terminal marked "-" of the second RC battery energy you are soldering. Repeat using the soldering metal and solder. Eliminate the soldering metal and let the solder solidify. Turn off the soldering metal.

This procedure has soldered two RC battery energy in sequence to double the outcome current. You have one adverse terminal 100 % free on the first RC battery energy and one beneficial terminal 100 % free on the second RC battery energy. Use these terminals to connect to the RC model you want to energy.

Tips

You can solder as many lipo battery energy in sequence as you need to energy your device. Simply continue to solder the end of another cable remove to the beneficial terminal of the second battery energy and then solder the other end to the adverse terminal of a third battery energy and so on, to get to the energy you need.

Matching Tips For RC Battery

RC toys require many different motor types and fuels, but most use batteries either as a part of the engine or the control device. The most common types of batteries are typically a form of lithium-ion or lithium polymer battery designed to last for many cycles and recharge quickly. Batteries must be matched to the device using them to prevent dangerous conditions such as failure and overheating.

Cells

The number of cells in an RC battery determines many of the battery's physical attributes. Multiple-cell batteries often have longer run times and require less recharging for professional events and races. More cells also means longer recharge times, a larger battery size and the need of specialized chargers.

Multiple cell batteries need a charger with the ability to detect and prevent overcharging on each cell. Match the size of the battery with the space available on the RC unit before purchasing a multiple-cell battery to ensure enough clearance is available.

Voltage

RC battery voltages range from 7.4 volts to 18 or more. The voltage of the battery determines the amount of electricity the car will receive. Higher-voltage batteries can cause massive motor overheating and may even melt plastics when matched with a vehicle unable to handle the increased load.

Check the RC device's engine for the specific voltage requirements. Using a weaker battery than the documentation indicates rarely causes harm, but the engine is unlikely to be able to run well, if at all.

Types

LiPo and Lion batteries make up the bulk of the rc battery market. These batteries provide a consistent charge and often outlast older battery types such as the NiMH and NiCad versions of the past. Control units typically require only a single-cell 12-volt battery.

NiCad and alkaline batteries are most common for remote control units, but not the vehicles themselves. Match the lipo battery requirements based on voltage and cells, but pay close attention to what type of charger you will need. Never attempt to charge a battery with a charger for a different battery type. This can result in fires, explosions or severe injury.