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Battery Packs

Image Part Number Description / PDF Quantity Rfq
AM3XL4X2

AM3XL4X2

Panasonic

BATTERY PACK ALKALINE 12V AA

0
KR-1100AAUF2

KR-1100AAUF2

Panasonic

BATTERY PACK NICAD 2.4V AA

0
P-80AASL2X2

P-80AASL2X2

Panasonic

BATTERY PACK NICAD 4.8V AA

0
KR-1700AUL2X5

KR-1700AUL2X5

Panasonic

BATTERY PACK NICAD 12V A

0
HR-4U-800F3

HR-4U-800F3

FDK America

BATTERY PACK NIMH 3.6V AAA

0
HHR-330AHL2X2

HHR-330AHL2X2

Panasonic

BATTERY PACK NIMH 4.8V L-FAT A

0
N-500AL4X1

N-500AL4X1

Panasonic

BATTERY PACK NICAD 4.8V 2/3 A

0
P-120SCHF10X1

P-120SCHF10X1

Panasonic

BATTERY PACK NICAD 12V SC

0
P-140ASL2X1

P-140ASL2X1

Panasonic

BATTERY PACK NICAD 2.4V A

0
HHR-650DA08L2X3

HHR-650DA08L2X3

Panasonic

BATTERY PACK NIMH 7.2V D

0
P-280CSL2X3

P-280CSL2X3

Panasonic

BATTERY PACK NICAD 7.2V C

0
UM-3NPAF4

UM-3NPAF4

Panasonic

BATTERY PACK ZINC 6V AA

0
HR-3U-1700F4

HR-3U-1700F4

FDK America

BATTERY PACK NIMH 4.8V AA

0
N-500AL2X1

N-500AL2X1

Panasonic

BATTERY PACK NICAD 2.4V 2/3 A

0
KR-1300SCF2X5

KR-1300SCF2X5

Panasonic

BATTERY PACK NICAD 12V SC

0
P-120SCJSL3X2

P-120SCJSL3X2

Panasonic

BATTERY PACK NICAD 7.2V 4/5 SC

0
P-60ASF4

P-60ASF4

Panasonic

BATTERY PACK NICAD 4.8V 2/3 A

0
HHR-900DA01F5

HHR-900DA01F5

Panasonic

BATTERY PACK NIMH 6V D

0
P-50AAHL3

P-50AAHL3

Panasonic

BATTERY PACK NICAD 3.6V AA

0
HHR-20SCPY14L2X2

HHR-20SCPY14L2X2

Panasonic

BATTERY PACK NIMH 4.8V 4/5 SC

0

Battery Packs

1. Overview

Battery packs are integrated assemblies of multiple electrochemical cells connected in series, parallel, or combination configurations to deliver required voltage, capacity, and power. These modular energy storage systems play critical roles in portable electronics, electric vehicles (EVs), renewable energy storage, and industrial equipment. Modern advancements in battery chemistry and management systems have enabled higher energy densities, faster charging capabilities, and improved safety features essential for expanding electrification across industries.

2. Major Types & Functional Classification

TypeFunctional CharacteristicsApplication Examples
Lithium-ion (Li-ion)High energy density (150-250 Wh/kg), 500-2000 cycles lifespan, low self-dischargeSmartphones, EVs, laptops
Nickel-Metal Hydride (NiMH)Moderate energy density (60-120 Wh/kg), 500-1000 cycles, environmental friendlyHybrid vehicles, digital cameras
Lead-AcidLow cost, high surge currents, 300-500 cyclesAutomotive starters, backup power
Solid-StateHigh safety, >1000 Wh/L energy density, wide temperature rangeNext-gen EVs, aerospace
Lithium Polymer (LiPo)Flexible form factors, 300-500 cycles, lighter weightDrones, wearable devices

3. Structural Composition

Typical battery pack architecture includes:

  • Mechanical Components: Prismatic/cylindrical/smart cells, protective housing, electrical connectors, thermal management materials
  • Internal Technology: Anode/cathode materials (graphite/NMC/LFP), electrolyte (liquid/gel/solid-state), separator films
  • Electronic Systems: Battery Management System (BMS) with voltage monitoring, cell balancing, temperature sensors, communication interfaces (CAN/SMBus)

4. Key Technical Specifications

ParameterSignificance
Energy Density (Wh/kg)Determines runtime/weight ratio for portable devices
Charge Cycle LifeDefines longevity under repeated charge/discharge
Voltage Range (V)Dictates device power requirements
Charge Rate (C-rate)Impacts charging time and thermal performance
Operating Temperature (-20 C to 60 C)Determines environmental suitability

5. Application Domains

  • Consumer Electronics: Smartphones (Samsung Galaxy S23: 4700mAh Li-ion), laptops (Apple MacBook Pro 16": 100Wh)
  • Transportation: Tesla Model Y (75kWh Li-ion pack), Toyota Prius Prime (8.8kWh NiMH)
  • Renewable Energy: Solar storage systems (Tesla Powerwall: 13.5kWh), grid-scale storage (BYD Container System: 576kWh)
  • Industrial: Forklifts (Crown Equipment: 48V Li-ion), medical devices (Philips defibrillators)

6. Leading Manufacturers & Products

ManufacturerProductKey Technology
PanasonicNCR21700B (21700 Li-ion)SiO-C anode, 3.6V, 5100mAh
Samsung SDIICR18650-30QNMC chemistry, 3000mAh
Contemporary Amperex (CATL)NCM811 pouch cellsEnergy density >240Wh/kg
LG ChemLG18650HG23000mAh, 800 cycles
Tesla4680 tabless battery29400mAh, 92kWh pack capacity

7. Selection Guidelines

  • Match voltage/capacity requirements with application needs
  • Evaluate operating environment (temperature, vibration)
  • Verify safety certifications (UN38.3, IEC62133)
  • Assess charging infrastructure compatibility
  • Consider total ownership cost (cycle life vs initial price)
  • Check recyclability and regulatory compliance

8. Industry Trends

Key development directions include:

  • Transition to solid-state electrolytes for enhanced safety (Toyota's 2027 roadmap)
  • Si-based anodes for >400Wh/kg energy density (Tesla's 4680 evolution)
  • Ultra-fast charging (80% in 10 minutes) with new electrode materials
  • Recycling infrastructure expansion (EU Battery Passport initiative)
  • Smart integration with IoT for predictive maintenance
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