Batteries Rechargeable (Secondary)

Showing

of 7

Mfr Part #	Quantity Available	Price	Series	Package	Product Status	Battery Chemistry	Battery Cell Size	Voltage - Rated	Capacity	Size / Dimension	Termination Style
HHR-75AAAB BATTERY NIMH 1.2V 700MAH AAA Panasonic Energy	13,148 In Stock	1 : $3.44000 Bulk	HHR	Bulk	Active	Nickel Metal Hydride	AAA	1.2 V	700mAh	0.41" Dia x 1.75" H (10.5mm x 44.5mm)	Button Top (Extending)
HR-AAU BATTERY NIMH 1.2V 1.5AH AA FDK America, Inc.	15,657 In Stock	1 : $3.88000 Bulk	TWICELL	Bulk	Active	Nickel Metal Hydride	AA	1.2 V	1.5Ah	0.56" Dia x 1.97" H (14.2mm x 50.0mm)	Flat Top (Non-Extending)
HHR-210AAC4B BATTERY NIMH 1.2V 2AH AA Panasonic Energy	7,631 In Stock	1 : $4.37000 Bulk	HHR	Bulk	Active	Nickel Metal Hydride	AA	1.2 V	2Ah	0.57" Dia x 1.99" H (14.5mm x 50.5mm)	Button Top (Extending)
HHR-210AB18 BATTERY NIMH 1.2V 2.1AH A Panasonic Energy	360 In Stock	1 : $5.48000 Bulk	HHR	Bulk	Active	Nickel Metal Hydride	A	1.2 V	2.1Ah	0.67" Dia x 1.97" H (17.0mm x 50.0mm)	Flat Top (Non-Extending)
NH35BP-2 BATTERY NIMH 1.2V 2.5AH C Energizer Battery Company	20 In Stock	1 : $20.93000 Bulk	NH35	Bulk	Active	Nickel Metal Hydride	C	1.2 V	2.5Ah	1.03" Dia x 1.97" H (26.2mm x 50.0mm)	Button Top (Extending)
HHR-70AAAE4 BATTERY NIMH 1.2V 700MAH AAA Panasonic Energy	0 In Stock Check Lead Time	1 : $3.11000 Bulk	HHR	Bulk	Active	Nickel Metal Hydride	AAA	1.2 V	700mAh	0.41" Dia x 1.75" H (10.5mm x 44.5mm)	Flat Top (Non-Extending)
HHR-210AHA01 BATTERY NIMH 1.2V 1.9AH A Panasonic Energy	0 In Stock Check Lead Time	360 : $3.93625 Bulk	HHR	Bulk	Active	Nickel Metal Hydride	A	1.2 V	1.9Ah	0.67" Dia x 1.97" H (17.0mm x 50.0mm)	Flat Top (Non-Extending)

Showing

of 7

Rechargeable (secondary) batteries are electrochemical storage cells that function on the basis of a reversible chemical reaction, allowing depleted cells to be replenished and reused numerous times before requiring disposal. Typically, secondary cells store less energy in a given space than comparable primary cells and exhibit higher levels of self-discharge, making them less stable in long-term storage. While generally more costly on a unit basis than primary cells, their potential for reuse makes them a more economical choice for many applications. While the term "battery" is most properly reserved for an assembly of multiple individual cells, its use in reference to a single cell is common.