LR6XWA Series, Battery Packs

Results:
20
Manufacturer
Series
Structure
Size / Dimension
Number of Cells
Voltage - Rated
Capacity
Termination Style
Battery Chemistry
Battery Cell Size
Rechargeability
Results remaining20
Applied Filters:
LR6XWA
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ImageProduct DetailPriceAvailabilityECAD ModelTermination StyleNumber of CellsSeriesBattery ChemistryBattery Cell SizeVoltage - RatedCapacityRechargeabilityStructureSize / Dimension
LR6XWA/BL2X3
BATTERY PACK ALKALINE 9V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
6
LR6XWA
Alkaline Manganese Dioxide
AA
9 V
-
No
Front to Back, 3 Rows x 2 Cells
1.71" L x 0.57" W x 3.98" H (43.5mm x 14.5mm x 101.0mm)
LR6XWA/BL2X5
BATTERY PACK ALKALINE 15V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
10
LR6XWA
Alkaline Manganese Dioxide
AA
15 V
-
No
Front to Back, 5 Rows x 2 Cells
2.85" L x 0.57" W x 3.98" H (72.5mm x 14.5mm x 101.0mm)
LR6XWA/BL5X2
BATTERY PACK ALKALINE 15V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
10
LR6XWA
Alkaline Manganese Dioxide
AA
15 V
-
No
Front to Back, 2 Rows x 5 Cells
1.14" L x 0.57" W x 9.94" H (29.0mm x 14.5mm x 252.5mm)
LR6XWA/BF2X5
BATTERY PACK ALKALINE 15V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
10
LR6XWA
Alkaline Manganese Dioxide
AA
15 V
-
No
Side to Side, 5 Rows x 2 Cells
2.85" L x 1.14" W x 1.99" H (72.5mm x 29.0mm x 50.5mm)
LR6XWA/BF10
BATTERY PACK ALKALINE 15V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
10
LR6XWA
Alkaline Manganese Dioxide
AA
15 V
-
No
Side to Side, 1 Row x 10 Cells
5.71" L x 0.57" W x 1.99" H (145.0mm x 14.5mm x 50.5mm)
LR6XWA/BL2X4
BATTERY PACK ALKALINE 12V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
8
LR6XWA
Alkaline Manganese Dioxide
AA
12 V
-
No
Front to Back, 4 Rows x 2 Cells
2.28" L x 0.57" W x 3.98" H (58.0mm x 14.5mm x 101.0mm)
LR6XWA/BL4X2
BATTERY PACK ALKALINE 12V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
8
LR6XWA
Alkaline Manganese Dioxide
AA
12 V
-
No
Front to Back, 2 Rows x 4 Cells
1.14" L x 0.57" W x 7.95" H (29.0mm x 14.5mm x 202.0mm)
LR6XWA/BF9
BATTERY PACK ALKALINE 13.5V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
9
LR6XWA
Alkaline Manganese Dioxide
AA
13.5 V
-
No
Side to Side, 1 Row x 9 Cells
5.14" L x 0.57" W x 1.99" H (130.5mm x 14.5mm x 50.5mm)
LR6XWA/BF2X4
BATTERY PACK ALKALINE 12V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
8
LR6XWA
Alkaline Manganese Dioxide
AA
12 V
-
No
Side to Side, 4 Rows x 2 Cells
2.28" L x 1.14" W x 1.99" H (58.0mm x 29.0mm x 50.5mm)
LR6XWA/BF8
BATTERY PACK ALKALINE 12V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
8
LR6XWA
Alkaline Manganese Dioxide
AA
12 V
-
No
Side to Side, 1 Row x 8 Cells
4.57" L x 0.57" W x 1.99" H (116.0mm x 14.5mm x 50.5mm)
LR6XWA/BF2
BATTERY PACK ALKALINE 3V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
2
LR6XWA
Alkaline Manganese Dioxide
AA
3 V
-
No
Side to Side, 1 Row x 2 Cells
1.14" L x 0.57" W x 1.99" H (29.0mm x 14.5mm x 50.5mm)
LR6XWA/BL3X2
BATTERY PACK ALKALINE 9V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
6
LR6XWA
Alkaline Manganese Dioxide
AA
9 V
-
No
Front to Back, 2 Rows x 3 Cells
1.14" L x 0.57" W x 5.96" H (29.0mm x 14.5mm x 151.5mm)
LR6XWA/BF7
BATTERY PACK ALKALINE 10.5V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
7
LR6XWA
Alkaline Manganese Dioxide
AA
10.5 V
-
No
Side to Side, 1 Row x 7 Cells
4.00" L x 0.57" W x 1.99" H (101.5mm x 14.5mm x 50.5mm)
LR6XWA/BF2X3
BATTERY PACK ALKALINE 9V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
6
LR6XWA
Alkaline Manganese Dioxide
AA
9 V
-
No
Side to Side, 3 Rows x 2 Cells
1.71" L x 1.14" W x 1.99" H (43.5mm x 29.0mm x 50.5mm)
LR6XWA/BF6
BATTERY PACK ALKALINE 9V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
6
LR6XWA
Alkaline Manganese Dioxide
AA
9 V
-
No
Side to Side, 1 Row x 6 Cells
3.43" L x 0.57" W x 1.99" H (87.0mm x 14.5mm x 50.5mm)
LR6XWA/BL2X2
BATTERY PACK ALKALINE 6V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
4
LR6XWA
Alkaline Manganese Dioxide
AA
6 V
-
No
Front to Back, 2 Rows x 2 Cells
1.14" L x 0.57" W x 3.98" H (29.0mm x 14.5mm x 101.0mm)
LR6XWA/BF5
BATTERY PACK ALKALINE 7.5V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
5
LR6XWA
Alkaline Manganese Dioxide
AA
7.5 V
-
No
Side to Side, 1 Row x 5 Cells
2.85" L x 0.57" W x 1.99" H (72.5mm x 14.5mm x 50.5mm)
LR6XWA/BF2X2
BATTERY PACK ALKALINE 6V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
4
LR6XWA
Alkaline Manganese Dioxide
AA
6 V
-
No
Side to Side, 2 Rows x 2 Cells
1.14" L x 1.14" W x 1.99" H (29.0mm x 29.0mm x 50.5mm)
LR6XWA/BF4
BATTERY PACK ALKALINE 6V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
4
LR6XWA
Alkaline Manganese Dioxide
AA
6 V
-
No
Side to Side, 1 Row x 4 Cells
2.28" L x 0.57" W x 1.99" H (57.9mm x 14.5mm x 50.5mm)
LR6XWA/BF3
BATTERY PACK ALKALINE 4.5V AA
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Quantity
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PCB Symbol, Footprint & 3D Model
Solder Tab
3
LR6XWA
Alkaline Manganese Dioxide
AA
4.5 V
-
No
Side to Side, 1 Row x 3 Cells
1.71" L x 0.57" W x 1.99" H (43.5mm x 14.5mm x 50.5mm)

Battery Packs

A battery pack is an assemblage of one or more individual battery cells that are connected and secured together to form a single unit with a particular shape and dimensions. They can be arranged in a series, parallel, or a combination of both to deliver the desired voltage, capacity, or power density. Battery packs are identified by various characteristics, including cell size, the number of cells, battery structure, chemistry, chargeability, capacity, and voltage rating. These features are critical in determining the overall performance and capabilities of the battery pack. For example, the number of cells in the pack affects its voltage output and capacity, while the chemistry of the cells dictates the pack's discharge rate, cycle life, and safety features. The configuration of the battery pack depends on the specific needs of the application. For instance, series connections increase the voltage of the pack, while parallel connections increase its capacity. A mix of both series and parallel connections may be used to achieve the desired balance between voltage and capacity. The physical dimensions of the battery pack are also important, as they determine whether it is suitable for the intended device and provide constraints on its design. Overall, battery packs offer a convenient and efficient way to power a wide range of devices. By combining multiple battery cells into a single unit, they can provide the necessary voltage, capacity, and power density for a variety of applications, from portable electronics to electric vehicles and renewable energy systems.