Batteries Rechargeable (Secondary)98 Products
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| Image | Part Number | Manufacturer | Description | Availability | Actions | |
|---|---|---|---|---|---|---|
 | NP2.3-12FR | EnerSys | POWER SUPP, BATTERIES & COND | In Stock | MOQ: 20 Hover to quote | |
| NP7-6 | EnerSys | POWER SUPP, BATTERIES & COND | In Stock | MOQ: 16 Hover to quote | |
| ODS-AGM40E | EnerSys | ODS-AGM40E | In Stock | MOQ: 72 Hover to quote | |
| ODP-AGM78 | EnerSys | ODP-AGM78 | In Stock | MOQ: 27 Hover to quote | |
| ODP-AGM94R H7 L4 | EnerSys | ODP-AGM94R H7 L5 | In Stock | MOQ: 30 Hover to quote | |
| 0770-6001 | EnerSys | XE13 | In Stock | MOQ: 2 Hover to quote | |
| 0766-6003 | EnerSys | XE40X | In Stock | MOQ: 1 Hover to quote | |
| 0790-6002 | EnerSys | XE95X | In Stock | MOQ: 1 Hover to quote | |
| ODP-AGM8DT | EnerSys | ODP-AGM8DT | In Stock | MOQ: 18 Hover to quote | |
| ODX-ACE31 | EnerSys | ODX-ACE32 | In Stock | MOQ: 24 Hover to quote | |
| ODP-AGM31 | EnerSys | ODP-AGM32 | In Stock | MOQ: 24 Hover to quote | |
| ODS-AGM70A | EnerSys | ODS-AGM70A | In Stock | MOQ: 24 Hover to quote | |
| ODX-AGM8DKT | EnerSys | ODX-AGM8DKT | In Stock | MOQ: 36 Hover to quote | |
| NP2-12 | EnerSys | POWER SUPP, BATTERIES & COND | In Stock | MOQ: 20 Hover to quote | |
| NP12-6 | EnerSys | POWER SUPP, BATTERIES & COND | In Stock | MOQ: 10 Hover to quote | |
| ODP-AGM96R | EnerSys | ODP-AGM96R | In Stock | MOQ: 36 Hover to quote | |
| ODS-AGM15L | EnerSys | ODS-AGM15L | In Stock | MOQ: 128 Hover to quote | |
| ODP-AGM24 | EnerSys | ODP-AGM25 | In Stock | MOQ: 36 Hover to quote | |
| NPX-35TFR | EnerSys | NPX-35TFR | In Stock | MOQ: 8 Hover to quote | |
| NPX-35FR | EnerSys | NPX-35FR | In Stock | MOQ: 8 Hover to quote |
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.