Batteries Non-Rechargeable (Primary)

Image	Part Number	Description / PDF	Quantity	Rfq
	AM-2PIXT Panasonic	BATTERY ALKALINE 1.5V C	0
	LA522 Eveready (Energizer Battery Company)	BATTERY LITHIUM 9V	0
	ZR6DW/2SK Panasonic	BATTERY ALKALINE 1.5V AA	0
	L92BP-4 Eveready (Energizer Battery Company)	BATTERY LITHIUM 1.5V AAA	0
	LR6EGA/4SB Panasonic	BATTERY ALKALINE 1.5V AA	0
	L522MJ Eveready (Energizer Battery Company)	BATTERY LITHIUM 9V	0
	CR-2032/H1HN Panasonic	BATTERY LITHIUM 3V COIN 20MM	0
	AM-1PIX Panasonic	BATTERY ALKALINE 1.5V D	0
	6F22NW/1SK Panasonic	BATTERY ZINC 9V	0
	2CR5 FDK America	BATTERY LITHIUM 6V 2CR5	0
	LR6EGA/2SB Panasonic	BATTERY ALKALINE 1.5V AA	0
	319BPZ Eveready (Energizer Battery Company)	BATTERY W/E SILVER OXIDE	0
	ELCRV3BP2.B1 Eveready (Energizer Battery Company)	BATT CRV3 LITHIUM CAM 3V 2PK	0
	AC13E-4 Eveready (Energizer Battery Company)	BATT ZINC 1.4V BUTTON 7.9MM 4PK	0
	A91BP-36 Eveready (Energizer Battery Company)	BATTERY AA EVEREADY GOLD 35PK	0
	EZ10-8AP Eveready (Energizer Battery Company)	BATTERY ZINC 1.4V COIN 5.8MM 8PK	0
	UM-3NPA/2SKT Panasonic	BATTERY ZINC 1.5V AA	0
	6LR61XWA/B Panasonic	BATTERY ALKALINE 9V	0
	ELCRV3BP Eveready (Energizer Battery Company)	BATT CRV3 LITHIUM CAM 3V 1PK	0
	6LR61XWA/C Panasonic	BATTERY ALKALINE 9V	0

Batteries Non-Rechargeable (Primary)

1. Overview

Non-rechargeable batteries, also known as primary batteries, are electrochemical cells designed for single-use applications. They convert chemical energy into electrical energy through irreversible reactions. These batteries are critical in applications requiring reliable long-term power without recharging infrastructure, playing vital roles in consumer electronics, medical devices, and industrial systems.

2. Main Types & Functional Classification

Type	Functional Characteristics	Application Examples
Alkaline	High energy density, long shelf life (5-10 years), moderate cost	Remote controls, flashlights, toys
Zinc-Carbon	Lower energy density, short shelf life (2-3 years), low cost	Low-drain devices like radios
Lithium (Li-MnO )	High voltage (3V), excellent energy density, 10-15 years shelf life	Digital cameras, IoT devices, medical equipment
Silver Oxide	Stable voltage output, compact size, 3-5 years shelf life	Watches, calculators, hearing aids
Magnesium	High energy-to-weight ratio, military-grade reliability	Missile systems, emergency equipment

3. Structure & Composition

Typical primary battery construction includes: - Cathode: Manganese dioxide (alkaline) or carbon zinc (zinc-carbon) - Anode: Zinc (alkaline) or lithium metal (lithium batteries) - Electrolyte: Potassium hydroxide (alkaline) or organic solvents (lithium) - Separator: Porous membrane preventing short circuits - Container: Steel or nickel-plated steel casing

4. Key Technical Specifications

Parameter	Typical Values	Importance
Nominal Voltage	1.5V (alkaline), 3V (lithium)	Determines device compatibility
Capacity	1500-3000 mAh (AA)	Runtime prediction
Energy Density	150-250 Wh/kg	Size/weight optimization
Self-Discharge Rate	2-10% per year	Storage longevity
Operating Temperature	-20 C to 60 C	Environmental reliability
Leakage Resistance	5-10 years	Device safety

5. Application Fields

Consumer Electronics: Smart meters, wireless sensors
Medical Devices: Pacemakers, glucose monitors
Industrial Equipment: Smoke detectors, remote sensors
Military/Aerospace: Munitions, satellite systems
Emergency Systems: Backup power supplies

6. Leading Manufacturers & Products

Manufacturer	Key Products	Specialization
Duracell	Ultimate Lithium, Quantum	Military-specification batteries
Energizer	Lithium L91, MAX	Consumer electronics focus
Panasonic	CR123A, Alkaline LR6	Industrial applications
Maxell	Lithium CR2032	Miniature battery solutions
Renata (Switzerland)	Silver Oxide cells	Medical device batteries

7. Selection Recommendations

Match voltage requirements with device specifications
Evaluate expected runtime vs. physical size constraints
Consider operating temperature range (-30 C to 85 C extremes)
Assess leakage risk for critical applications
Compare cost per mAh for high-volume deployments
Verify compliance with IEC 60086 standards

Industry Trends Analysis

Key development directions include: - Energy Density Improvement: Graphene-enhanced cathodes targeting 400 Wh/kg - Eco-friendly Materials: Mercury-free zinc-air batteries for hearing aids - Printed Batteries: Flexible primary cells for IoT sensors - Nano-structured Electrodes: 20% capacity increase in AA format - Standardization: Global adoption of IEC 60086-4 safety protocols - Smart Packaging: Integrated fuel gauges in battery casings