What is a Lithium-Ion battery?
A Li-ion battery is also a rechargeable battery. It has a cathode made of lithium metal oxide and an anode usually made of graphite. Compared to NiMH batteries, Li-ion batteries have a higher energy density. In addition, Li-ion batteries have a very long lifespan of between 300 and 500 charge cycles. Lithium-ion batteries are used in a wide range of products, including cars, laptops, cell phones, and so on.
What is a NiMH battery
Similar to the chemical process of NiCd batteries, the positive electrode utilizes nickel hydroxide. Instead of cadmium, the negative electrode is made from a hydrogen-absorbing alloy. Compared to NiCd batteries, NiMH batteries can have two to three times greater capacity and higher energy density.
NiMH battery advantages and disadvantages
- High Energy Density
NiMH batteries have a high energy density. Their average capacity is 2200mAh. It is more than the 1500mAh found in Li-ion batteries. When you get into NiMH vs. lithium batteries, this is the first difference you need to know.
- Good compatibility
You can power ten devices using a NiMH battery with one pack. NiMH batteries are standard-sized, so they can be used with any device using size AAA or AA. The sizes of NiMH are different from Li-ions. They depend on the model or manufacturer of the device.
- Good security
They are safer than lithium-ion batteries because they contain less active material. Li-ion batteries can explode if they are overcharged or short-circuited. This is the difference in safety between NiMH batteries and lithium-ion batteries.
- Fully Dischargeable
They can still be charged when the NiMH batteries reach 0 charges. However, they must not experience reverse polarity; otherwise, they may be damaged.
- High Self Discharge Rate
NiMH batteries pay a significant portion of their monthly charge. This number is approximately 5% the first week following the charge and around 50% the first month. There are several low self-discharge rate types. These are less reliable than standard NiMH but have higher capacities.
- Not reliable for low-load devices
It is not recommended to use NiMH batteries in devices like clocks. They will lose charge quicker due to self-discharge than they do from the load. Instead, use alkaline, lithium, or Li-ion batteries.
- Low Voltage Output
Each AA Cell can only provide 1.2v, while Li-ion cells can deliver 3.7v.
- Long Charging time
A standard charge time for NiMH batteries is between 10-12 hours. These cells may be damaged if they are charged too fast. The charging time for Li-ion batteries is approximately 1-3 hours, depending on their capacity.
- Sensitive To Extreme Temperatures
The output of the NiMH batteries will drop at extreme temperatures. These temperatures can be tolerated by Li-ion batteries to a certain extent.
Li-ion battery advantages and disadvantages
These batteries have a much lower self-discharge than NiMH batteries. They can also be used in low-current devices such as watches or clocks.
These batteries are lighter and smaller than NiMH. This is the difference in shape between lithium-ion vs. NiMH batteries.
- Higher Voltage Output
One cell can produce 3.7V, while two NiMH cells can only deliver 2.4V.
- Faster Charge
Li-ion batteries can be charged in 1-3 hours, depending on the capacity. This is faster than the 10–12 hours required for NiMH batteries. Regarding charging time, there is a vast difference between li-ion and NiMH batteries.
- Temperature Tolerant
These cells can withstand lower temperatures and higher environments than NiMH cells.
- Higher Energy Density
Li-ion battery has a higher charge per gram than a NiMH battery.
- Lower Capacity
These cells have an average capacity of 1500mAh, compared to the average 2200 mAh of NiMH cells.
Different battery pack manufacturers make different sizes for Li-ion battery packs, so they are only compatible with a certain set of devices. NiMHs come in standard sizes.
- Less safe
Ions can be very active. They are very reactive and can generate lots of heat. These cells have circuits. They can be used to monitor temperature and voltage. The circuits stop the cells from exploding.
- Not Fully Chargeable
A Li-ion battery that is fully discharged will cause it to be damaged. You can shock-charge it, but it will lose its efficiency. This type of battery should be charged at least 50%.