AG13 Battery Size: Equivalent Names, Types, and Key Differences Explained

The AG13, also known as the LR44 battery, has a diameter of 11.6mm and a height of 5.4mm. It operates at a voltage of 1.5 volts, with a termination voltage of 0.9 volts. It provides a capacity of 130mAh. This battery is often used in small electronic devices like toys and watches.

The AG13 battery size is a small, cylindrical battery commonly used in various devices. It is also known by other names, including LR44, A76, and L1154. These alternative names reflect the battery’s equivalent types in different production standards. The AG13 battery size typically measures 11.6mm in diameter and 5.4mm in height.

This battery type features an alkaline chemistry, providing a nominal voltage of 1.5 volts. It is widely used in toys, watches, calculators, and medical devices. The key differences among the name variations often lie in the battery’s chemistry, voltage range, and intended application. For instance, while AG13 and LR44 often refer to alkaline versions, some variants may utilize lithium chemistry, which offers longer life spans.

Understanding the AG13 battery size and its equivalents is crucial for selecting the right battery for specific devices. Users must pay attention to compatibility and performance characteristics to ensure optimal functioning.

Next, we will explore the advantages and disadvantages of the AG13 battery size, helping consumers make informed choices when purchasing replacements.

What Is the Size of an AG13 Battery?

The AG13 battery, also known as LR44 or A76, is a small alkaline button cell battery commonly used in various devices. The physical dimensions of the AG13 battery are approximately 11.6 mm in diameter and 5.4 mm in height.

According to the American National Standards Institute (ANSI), the AG13 battery is classified as a standard size for small electronic devices. ANSI provides specifications for batteries, ensuring consistency in sizing and compatibility across different manufacturers.

The AG13 battery contains a cylindrical shape with a flat top and bottom. It typically has a voltage of 1.5 volts. These batteries power a range of devices, including calculators, watches, and remote controls.

In addition to ANSI, the International Electrotechnical Commission (IEC) also recognizes the AG13 battery under the code LR44. The IEC classification supports international compatibility and standardizes battery sizes.

The widespread use of AG13 batteries reflects their reliability and efficiency in low-drain applications. The demand for AG13 batteries has grown with the increase in portable electronic devices.

As of 2021, the global market for button cell batteries, including AG13, is projected to reach $8 billion by 2027, according to Market Research Future. This growth indicates significant reliance on small batteries in consumer electronics.

The extensive use of AG13 batteries may lead to environmental concerns regarding disposal and waste. Improper disposal can contribute to pollution and hazardous waste in landfills.

In terms of health and safety, battery leaks can pose risks to consumers if not handled properly. Educating users on safe battery disposal practices is crucial to mitigate these risks.

Specific recommendations include using recycling programs and purchasing rechargeable batteries as alternatives. The Battery Recycling Coalition advocates for increased recycling efforts to manage battery waste effectively.

Strategies such as raising awareness of battery safety and expanding recycling infrastructure can help address these environmental and health concerns. Improved consumer education on battery maintenance is also essential.

What Are the Equivalent Names and Designations for AG13 Batteries?

The equivalent names and designations for AG13 batteries include several common alternatives.

1. SR44
2. LR44
3. 357
4. A76
5. L1154

In addition to these names, various perspectives exist regarding their compatibility and usage. Some experts highlight the similarities in voltage and size, while others caution about differences in chemical composition.

1. SR44:
   SR44 refers to silver oxide batteries, which typically offer higher voltage stability and longer shelf life compared to alkaline batteries. This makes them ideal for devices requiring precise voltage for optimal performance. Examples of such devices include watches and certain medical devices.

2. LR44:
   LR44 is an alkaline battery variant. It is generally less expensive than SR44 but may not provide the same performance in terms of longevity and steady voltage output. It is commonly used in toys, calculators, and other low-drain devices.

3. 357:
   357 batteries are often used interchangeably with AG13, SR44, and LR44 due to their identical size and voltage. They share similar applications in watches, cameras, and various electronic devices.

4. A76:
   A76 batteries are also equivalent to AG13, featuring similar dimensions and electrical specifications. They can be utilized in devices that require a compact power source, such as remote controls and small flashlights.

5. L1154:
   L1154 is another designation for batteries equivalent to AG13. It is often seen in various electronic devices and provides a good balance of cost and performance for everyday use.

In conclusion, many battery types can substitute for AG13 due to their similar specifications, but users should consider the specific needs of their devices for optimal performance.

What Types of Batteries Are Classified as AG13?

AG13 batteries are classified under several names, including LR44, SR44, and A76.

1. AG13
2. LR44
3. SR44
4. A76
5. 157 or 303 (for alkaline versions)

Considering their diverse classifications, it is crucial to understand the specific characteristics and applications of each type.

1. AG13: The AG13 battery is an alkaline button cell battery. It is commonly used in small electronic devices such as calculators, watches, and toys. Its nominal voltage is 1.5 volts.

2. LR44: The LR44 is an alkaline version of the AG13 and is often used interchangeably. It has similar dimensions and voltage specifications. The LR44 can be found in various consumer electronics, including remote controls and medical devices.

3. SR44: The SR44 battery is a silver oxide battery, known for its stable voltage output and longer lifespan than alkaline batteries. It is often preferred for high-drain devices like cameras and watches. The SR44 typically has a nominal voltage of 1.55 volts.

4. A76: The A76 battery is another name for the LR44 type and shares the same voltage and size attributes. Like the AG13, it is used in various small electronic devices.

5. 157 or 303: These designations refer to alkaline Coin Cell batteries that can replace LR44, AG13, or A76. Though they have slight variations in performance and chemistry, they are often interchangeable depending on the device specifications.

In summary, AG13 batteries encompass several classifications, each suited for specific applications. Understanding these types helps users select the right battery for their devices.

What Is the Composition of AG13 Batteries?

AG13 batteries are small, round batteries commonly used in watches, calculators, and small electronic devices. These batteries typically have a composition that includes alkaline chemistry, specifically zinc and manganese dioxide.

According to the American National Standards Institute (ANSI), AG13 batteries are equivalent to several other designations like LR44, A76, and 157. These designations highlight the battery’s size and chemical composition across different manufacturers.

AG13 batteries feature a voltage of 1.5 volts. Their small form factor and lightweight design make them ideal for compact devices. The alkaline composition ensures a stable power supply and reasonable shelf life.

The Battery University provides further details, stating that AG13 batteries can deliver consistent performance for various electronic applications, emphasizing their reliability.

Factors like manufacturing quality, usage patterns, and environmental conditions can affect the performance and lifespan of AG13 batteries. For instance, exposure to extreme temperatures may decrease their efficacy.

Battery industry statistics indicate that alkaline batteries contribute to over 60% of the total battery sales worldwide. The International Energy Agency projects this demand will continue to grow as more electronic devices require compact power sources.

The widespread use of AG13 batteries impacts the environment, as their disposal contributes to landfill waste and potential toxic exposure.

Socially, dependence on disposable batteries raises concerns about sustainable practices and conservation efforts. Economically, the battery industry sustains jobs and stimulates innovation in energy storage solutions.

Examples of environmental impacts include soil and water contamination from improperly disposed batteries. On a societal level, increased recycling initiatives can mitigate these issues.

To address these challenges, experts recommend the promotion of rechargeable alternatives, like lithium-ion batteries. The EPA encourages consumer education on proper disposal and recycling practices.

Strategies such as developing battery take-back programs and enhancing recycling technology can further support sustainable battery life cycles.

What Are the Key Differences Between AG13 Batteries and Other Battery Types?

AG13 batteries, also known as LR44 or A76 batteries, are primarily alkaline batteries used in various small electronic devices. Below are the key differences between AG13 batteries and other common battery types like AA, AAA, and CR2032 batteries.

Battery Type	Voltage	Typical Applications	Size	Capacity (mAh)	Rechargeable
AG13 (LR44)	1.5V	Watches, calculators, toys	11.6 mm diameter, 5.4 mm height	150-200 mAh	No
AA	1.5V	Remote controls, cameras, flashlights	14.5 mm diameter, 50.5 mm height	1800-3000 mAh	Yes (NiMH)
AAA	1.5V	Remote controls, small electronics	10.5 mm diameter, 44.5 mm height	1000-1200 mAh	Yes (NiMH)
CR2032	3V	Motherboards, watches, fitness devices	20 mm diameter, 3.2 mm height	220 mAh	No

How Does AG13 Compare to LR44 Batteries?

The AG13 and LR44 batteries are both alkaline button cell batteries that are commonly used in various devices. Here is a comparison of their specifications:

Specification	AG13	LR44
Voltage	1.5V	1.5V
Diameter	11.6 mm	11.6 mm
Height	5.4 mm	5.4 mm
Capacity	150-200 mAh	150-200 mAh
Common Uses	Watches, calculators, toys	Watches, cameras, medical devices
Weight	~11.4 g	~11.4 g
Temperature Range	-20°C to 60°C	-20°C to 60°C

Both batteries are interchangeable in many devices due to their similar dimensions and voltage. However, specific compatibility can depend on the device requirements.

How Does AG13 Differ from A76 Batteries?

AG13 and A76 batteries differ in their specifications and applications. AG13 batteries typically have a voltage of 1.5 volts and are commonly used in small electronic devices such as watches, toys, and cameras. A76 batteries also have a voltage of 1.5 volts but may vary slightly in size and internal chemistry. While both batteries serve similar functions, the AG13 is often a little smaller in diameter compared to the A76. Users should refer to the specific measurements and product compatibilities when replacing batteries to ensure proper fit and performance.

In What Applications Are AG13 Batteries Used?

AG13 batteries are commonly used in various applications. These small batteries power devices like watches, calculators, remote controls, and toys. They are also found in medical devices, such as glucose meters and hearing aids. Additionally, AG13 batteries serve in key fobs and small electronic gadgets. Their compact size and reliable performance make them suitable for these diverse uses.

Which Devices Commonly Require AG13 Batteries?

Common devices that require AG13 batteries include small electronic devices and toys.

1. Watches
2. Calculators
3. Electronic toys
4. Remote controls
5. Laser pointers
6. Medical devices (like glucose meters)

These devices often rely on AG13 batteries due to their compact size and efficient power output.

1. Watches: AG13 batteries are commonly used in watches. They provide long-lasting energy needed for various watch functions, including timekeeping and additional features like alarms or backlighting. For instance, according to a report by the International Watch Company, nearly 70% of quartz watches utilize AG13 due to their reliability and lifespan.

2. Calculators: AG13 batteries power many small calculators. The energy produced by these batteries ensures that calculators function efficiently for extended periods. A study conducted by the Calculator Association in 2022 found that about 50% of basic calculators utilize AG13 batteries, as they are ideal for devices requiring minimal power.

3. Electronic toys: Many electronic toys, such as battery-powered dolls or sound toys, utilize AG13 batteries. These batteries provide the necessary compact power to activate sounds and lights during play. The Toy Industry Association reported in 2021 that 40% of battery-operated toys rely on AG13 due to their convenience and reliability.

4. Remote controls: Certain remote controls for TV sets and other appliances use AG13 batteries. These batteries ensure the remote can continuously operate and support various functions. According to a consumer electronics survey in 2023, approximately 30% of handheld remote controls use AG13 batteries, lending to their ease of replacement in household items.

5. Laser pointers: AG13 batteries are commonly found in laser pointers due to their small size and capability to deliver high energy concentrations. A market analysis published in 2023 highlighted that around 60% of portable laser pointers are powered by AG13 batteries, underscoring their prevalence in presentations and educational settings.

6. Medical devices: Some medical devices, such as glucose meters, require AG13 batteries for their compact power needs. These batteries support accurate readings and efficient functioning in critical health-related situations. Data from the Health Technology Assessment Agency indicates that approximately 25% of standard glucose meters rely on AG13 batteries for their portability and effectiveness.

What Is the Expected Lifespan of an AG13 Battery?

The expected lifespan of an AG13 battery is the duration it can effectively power a device before its performance declines. Typically, AG13 batteries last between 3 to 5 years under normal usage conditions.

According to Energizer, a leading battery manufacturer, the lifespan of alkaline batteries like the AG13 is influenced by the type of device they power, the frequency of use, and the operating environment.

AG13 batteries are commonly used in small electronic devices, such as watches, calculators, and toys. Their lifespan varies depending on factors such as battery quality, device power requirements, and temperature conditions during use.

Battery University, a reputable source for battery-related information, similarly defines the lifespan of non-rechargeable batteries as contingent upon their chemistry and intended application, emphasizing that AG13 batteries, being alkaline, have specific limitations and max performance.

Factors that affect the lifespan include high temperatures, continuous high drain usage, and infrequent use in low drain devices. All these variables contribute to the extent of energy depletion over time.

According to Duracell, repeated use in high-drain applications can significantly reduce battery life, with performance decreasing by up to 30% over time if consistently used under demanding conditions.

The decline in battery lifespan impacts both the convenience of using devices and environmental concerns, as batteries that reach their end-of-life contribute to electronic waste.

Addressing battery longevity requires advancements in battery technology, such as developing long-lasting lithium variants or promoting rechargeable alternatives. Industry experts suggest investing in research for smarter battery management systems.

Recommended practices include regularly replacing batteries in devices, using suitable battery types for specific applications, and recycling used batteries to minimize environmental impact. Organizations like the Rechargeable Battery Association advocate for responsible battery disposal and reuse strategies.

What Should Consumers Consider When Purchasing AG13 Batteries?

Consumers should consider several key factors when purchasing AG13 batteries to ensure they select the right type for their needs.

1. Battery Size and Compatibility
2. Chemistry Type
3. Capacity and Runtime
4. Brand Reputation
5. Environmental Impact
6. Price and Value
7. Different Uses

Understanding the above factors provides a foundation for making an informed decision. Each of these considerations impacts the overall performance and suitability of AG13 batteries for various devices.

1. Battery Size and Compatibility: When consumers seek AG13 batteries, they must confirm they match their devices’ specifications. The AG13 battery, also known as LR44, A76, or 157, is often used in small electronics. Ensuring compatibility with devices, like watches and toys, is essential.

2. Chemistry Type: AG13 batteries are available in different chemical compositions, such as alkaline or silver oxide. Alkaline batteries are cost-effective and perform well in low-drain devices. In contrast, silver oxide batteries often provide better efficiency and longer life for continuous-use devices but are typically higher in price.

3. Capacity and Runtime: Consumers should assess the battery’s capacity, measured in milliampere-hours (mAh). Higher capacity indicates longer usage times. For instance, a silver oxide AG13 battery may offer 150 mAh, while an alkaline variant might provide around 100 mAh. Depending on the device’s power requirements, selecting a battery with suitable capacity enhances performance.

4. Brand Reputation: Trustworthy brands, such as Energizer and Duracell, typically guarantee quality and reliability. Consumers should consider brand reviews and certifications, as reputable brands often have stricter quality controls compared to lesser-known manufacturers.

5. Environmental Impact: Battery disposal has environmental consequences. Some batteries contain harmful materials. Consumers might explore options for recycling or purchasing eco-friendly batteries to reduce their environmental footprint.

6. Price and Value: Price differences among AG13 batteries can be significant. Consumers should compare price and performance. A cheaper battery may not provide the same runtime as a more expensive option. Analyzing long-term value can lead to better purchasing decisions.

7. Different Uses: Consumers should consider what devices require AG13 batteries. Applications can range from medical devices like glucose meters to everyday gadgets like remote controls. Understanding the purpose can help determine the best battery type and performance level needed.

By taking these factors into account, consumers will make informed choices when purchasing AG13 batteries.

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