High Cost-Effective NiCd AA900mAh 3.6V Emergency Exit Light Batteries


Cell Product parameters:

Application:

Product performance:

1.Ni-Cd battery has high charge and discharge efficiency and good safety performance at high temperature and has long service life under condition of long term floating charge, which makes it very suitable for emergency lighting application.

2.Working temperature for Ni-Cd battery could be up to 55 degree, and even up to 70 degree, and expected service life could be up to 4 to 5 years.

3. Wide range temperature adaptability.Ordinary nickel cadmium batteries can be used in high or low temperature environment. High temperature batteries can be used at temperatures of 70 degrees Celsius or higher.

4. Reliable safety valve. The safety valve provides maintenance free function. Nickel cadmium battery can be used freely in the process of charge discharge or storage. Due to the special material used in the sealing ring and the effect of sealant, the leakage phenomenon of Ni Cd battery is rare.

Ni-Cd Battery Cell Performance:

1. Ni-Cd Cell Charge Curve At 0.1C For 16h At 55 Degree

2. Ni-Cd Cell Discharge Curve At 0.25C At 55 Degree

3. Ni-Cd Cell Charge Efficiency At Different Temperature

4. Ni-Cd Cell Capacity Change At Permanent Charge At 55 Degree (0.05C Floating)

5. Ni-Cd Cell Cycle Life Curve

What are the different parts of a battery? A short summary:

· anode: the negative electrode during discharge. While charging, this becomes positive. In AA and AAA batteries, this is usually the protruding part on the top.

· cathode: the positive electrode during discharge. While charging, this becomes negative. In AA and AAA batteries, this is usually the flat part on the bottom.

· seal: a part of the battery cell that makes sure chemicals cannot leave the battery. It also limits air intake. A good seal is essential for a safe battery

Technical battery terms explained

Whereas they're simple to use, the electrical processes are often a little more complex. Let's take a look at the most common technical battery terms used:

· capacity: the amount of energy that is stored inside a battery. It is measured in mAh (milliamp hours).

· voltage causes electric charges to move through the wire or other conductors. It is measured in volt (V).

· cycle: one sequence of charge and discharge, or: how many times you can use and recharge a battery. Every rechargeable battery has a set amount of cycles (i.e. cycle life) before it starts losing capacity and efficiency.

(In)correct battery usage

What about some less technical battery terms?

· (self-)discharge, drain: discharge or drain happens when a battery loses energy. This ideally happens while it’s used in a device. However, a battery may lose (more) power when used incorrectly or when stored for longer periods of time. This depends on shelf life (see further).

· shelf life: the amount of time you can store unused batteries before they lose a significant amount of their capacity. For Godson batteries, batteries maintain up to 70% of their charge after 10 years.

· short-circuit: when electricity flows unintendedly, usually through a very short ‘path’, it will make the battery heat up and cause damage. Read more about battery safety here.

· memory effect: when a battery is discharged to the same ‘level’. For example: repeatedly discharging a battery to only 50% of its capacity before recharging it will cause the battery to lose some of its potentials. Luckily, there is no proven memory effect in Godson Battery.