| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Panasonic |
BATTERY NICAD 1.2V 700MAH AA |
2751 |
|
 |
Panasonic |
BATT LITH 3V 20MAH COIN 20.0MM |
2025 |
|
 |
Jauch Quartz |
BATT LITH POLY 1S1P 1270MAH 3.7V |
601 |
|
 |
12V, 38 AH SLA |
0 |
|
|
 |
Panasonic |
BATTERY NIMH 1.2V 2AH AA |
8359 |
|
 |
TinyCircuits |
BATT LITH ION POLY 3.7V 500MAH |
0 |
|
 |
Jauch Quartz |
BATT LITH POLY 1S1P 450MAH 3.7V |
750 |
|
 |
Cornell Dubilier Electronics |
BATTERY LITHIUM 3.7V COIN 24.5MM |
204210 |
|
 |
FDK America |
FUJITSU AAA SIZE MIN. 750MAH 4PC |
422 |
|
 |
Panasonic |
BATTERY NIMH 1.2V 1.9AH AA |
2750 |
|
 |
Bright Way Group |
6 VOLT 4.5 AH |
18 |
|
 |
Panasonic |
BATTERY LEAD ACID 12V 1.3AH |
1941 |
|
 |
FDK America |
BATTERY NIMH 1.2V 4.1AH 4/3 FA |
4343 |
|
 |
Panasonic |
BATT LITH 3V 30MAH COIN 23.0MM |
1 |
|
 |
Panasonic |
BATTERY NICAD 1.2V 1.2AH 4/5 SC |
82 |
|
 |
Bright Way Group |
6 VOLT 5 AH |
20 |
|
 |
Jauch Quartz |
BATT LITH ION 7.2V 3.25AH |
378 |
|
 |
FDK America |
BATTERY NIMH 1.2V 1AH 4/5 AA |
0 |
|
 |
Panasonic |
BATTERY NICAD 1.2V 1.7AH SC |
22 |
|
 |
BatteryGuy |
1.2V 2700MAH NIMH BATTERY A |
20 |
|
Rechargeable batteries (secondary batteries) are electrochemical energy storage devices that can be repeatedly charged and discharged through reversible chemical reactions. Unlike primary batteries, they form the backbone of modern energy storage systems, enabling portable electronics, electric vehicles (EVs), and renewable energy integration. Their ability to reduce long-term costs and environmental impact makes them critical in sustainable technology development.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| Lithium-ion (Li-ion) | High energy density (100-265 Wh/kg), low self-discharge, long cycle life (500-2000 cycles) | Smartphones, EVs, laptops |
| Nickel-Metal Hydride (NiMH) | Moderate energy density (60-120 Wh/kg), environmental friendliness, memory effect resistance | Hybrid vehicles, digital cameras |
| Lead-Acid | Low cost, high surge current capability, heavy weight | Automotive starters, backup power systems |
| Lithium Iron Phosphate (LiFePO4) | Exceptional thermal stability, long lifespan (2000+ cycles), lower energy density | Electric buses, solar storage, marine applications |
Typical rechargeable battery cells consist of:
Cell designs include cylindrical (18650 format), prismatic, and pouch configurations with integrated protection circuits.
| Parameter | Description | Importance |
|---|---|---|
| Energy Density | Wh/kg or Wh/L | Determines runtime and weight |
| Charge Cycle Life | Number of full discharge/charge cycles | Dictates longevity and cost-effectiveness |
| Internal Resistance | Measured in milliohms | Affects power output and efficiency |
| Self-Discharge Rate | Monthly capacity loss percentage | Storage performance indicator |
| Charging Efficiency | Percentage of energy retained during charging | Impacts operational costs |
| Manufacturer | Representative Product | Chemistry Type |
|---|---|---|
| Panasonic | NCR18650B | Lithium-ion |
| BYD | Blade Battery | Lithium Iron Phosphate |
| Samsung SDI | INR18650-30Q | Nickel Cobalt Manganese (NCM) |
| Exide Technologies | Chloride SLA | Lead-Acid |
| LG Chem | LGDBHE21865 | Lithium-ion Polymer |
Key considerations:
Example: Select LiFePO4 for solar storage systems requiring 5000+ cycles and wide temperature tolerance.