L736 Battery Size: Voltage, Capacity, Equivalent Models & Compatibility Insights

The L736 battery has dimensions of 0.31 x 0.31 x 0.14 inches. It weighs 2.3 grams and has a battery capacity of 190 milliamp hours. This type of battery is commonly used in various electronic devices. Ensure that your device is compatible with this battery for optimal performance.

Several equivalent models, including the AA and LR44 batteries, can substitute for the L736 battery size. While these alternatives may offer similar performance, checking the device specifications is essential to ensure compatibility. Additionally, the L736 battery’s design often features a cylindrical shape with specific dimensions, making it suitable for a variety of applications. Common uses include remote controls, toys, and flashlights, where reliable power is critical.

In the next section, we will explore how to properly maintain the L736 battery size to prolong its lifespan. We will also discuss environmental considerations for disposal and recycling of these batteries, ensuring sustainability and responsible usage. This information will help consumers make informed choices for their devices, contributing to better battery performance and environmental responsibility.

What Is the Size of the L736 Battery?

The L736 battery is a type of button cell battery commonly used in small electronic devices. Its dimensions typically measure 7.4 mm in diameter and 3.6 mm in height.

According to the International Electrotechnical Commission (IEC), the L736 battery is classified within the 7 series of button cells, recognized for specific voltage and capacity specifications.

The L736 battery provides a nominal voltage of 1.5 volts, suitable for low-drain devices. This battery type is often found in watches, calculators, and remote controls. It is efficient in powering small electronic gadgets.

Further defining the L736, the Association of Battery Manufacturers notes that similar battery types include the LR41 and AG3, with slight variations in size and chemical composition.

Factors influencing battery choice include device power requirements, expected lifespan, and operating conditions. These factors determine which battery models are most effective.

According to market research by Grand View Research, the button cell battery market is projected to reach $12.9 billion by 2028, driven by increased use in healthcare and wearable technology.

The widespread use of L736 batteries impacts consumer electronics’ design, development, and sustainability practices. Efficient energy solutions can influence production cycles and recycling practices.

Environmental implications arise from battery disposal, contributing to landfill waste. Economically, relying on button cell batteries may necessitate public awareness of recycling options.

For addressing battery waste, the Battery Recycling Association recommends implementing collection programs and educating consumers on disposal methods.

Strategies include developing biodegradable batteries and increasing incentives for manufacturers to produce eco-friendly alternatives.

What Voltage Does the L736 Battery Offer?

The L736 battery offers a nominal voltage of 1.5 volts.

1. Main Points Related to L736 Battery Voltage:
   – Nominal voltage
   – Voltage under load
   – Voltage variations due to temperature
   – Comparison with other battery types (e.g., alkaline, lithium)
   – User experiences and recommendations

The L736 battery voltage characteristics provide various insights for users and manufacturers.

1. Nominal Voltage:
   The L736 Battery’s nominal voltage is 1.5 volts. This is the standard voltage rating under normal conditions. It is used widely in consumer electronics, including remote controls and toys.

2. Voltage Under Load:
   The voltage of the L736 battery may drop under load. This means that when the battery powers a device, the voltage can be lower than 1.5 volts. This phenomenon occurs due to internal resistance and battery chemistry.

3. Voltage Variations Due to Temperature:
   The voltage output may vary with temperature changes. Higher temperatures can increase voltage, while lower temperatures may reduce it. According to a 2019 study by the Journal of Power Sources, this variation can affect a battery’s performance in cold conditions.

4. Comparison with Other Battery Types:
   When compared to other battery types, such as alkaline batteries which typically offer similar nominal voltages, the performance characteristics may differ. Lithium batteries offer higher energy density and longer life but at a higher cost. A comparison conducted in 2020 by Battery University highlighted these differences.

5. User Experiences and Recommendations:
   Users often report that the L736 battery performs well in low-drain devices. However, some recommend using alkaline or lithium batteries for high-drain electronics. User reviews on platforms like Amazon reflect mixed opinions on performance longevity, especially in high-demand applications.

What Is the Capacity of the L736 Battery?

The L736 battery, a commonly used button cell, typically has a capacity ranging from 150 to 250 milliampere-hours (mAh). This capacity indicates the amount of electric charge the battery can store and deliver over time.

According to the Battery University, button cell batteries like the L736 are designed for low-drain applications, making them ideal for devices such as watches and calculators. The exact capacity can vary based on the manufacturer and specific model.

The L736 battery operates at a nominal voltage of 1.5 volts. Its capacity is influenced by factors such as temperature, discharge rate, and the quality of materials used in manufacturing. Lower temperatures can reduce capacity, while higher discharge rates can also lead to quicker depletion.

Other sources, like the manufacturer’s specifications, often provide insights into the performance of the L736 battery. These specifications help in selecting the right battery for specific devices.

Factors affecting capacity include the batch quality, storage conditions, and device compatibility. Over time, capacity may diminish due to chemical reactions within the battery.

Data from various manufacturers indicate that the average lifespan of an L736 battery is typically two to three years in regular use. However, harsh conditions may shorten this lifespan.

The performance of the L736 battery can affect device reliability, resulting in potential inconvenience for users when the battery fails unexpectedly.

On the environmental front, improper disposal of batteries poses risks. They can release harmful chemicals, affecting soil and water quality.

To mitigate battery waste, organizations like the Environmental Protection Agency (EPA) recommend recycling and proper disposal practices. Battery recycling programs can help minimize environmental impacts.

Specific strategies include using rechargeable batteries where applicable and adopting energy-efficient devices that require less frequent battery replacements. These practices can contribute to a reduced ecological footprint.

Which Models Are Equivalent to the L736 Battery?

The L736 battery is equivalent to several other battery models.

1. L736
2. LR41
3. AG3
4. LR736
5. SR41
6. 392A

The following section will provide detailed explanations for each equivalent model, illustrating similarities and differences in specifications and applications.

1. L736 Battery: The L736 battery is a small, button-cell battery with a typical voltage of 1.5 volts. It is commonly used in watches, toys, and small electronic devices. This model is known for its long shelf life and reliable performance.

2. LR41 Battery: The LR41 battery is a primary alkaline button cell equivalent to the L736. It also provides a voltage of 1.5 volts and is often found in similar applications as the L736, such as calculators and cameras. The LR41 has a similar physical size, making it a suitable replacement.

3. AG3 Battery: The AG3 battery is another alkaline button cell that serves as a substitute for the L736. It offers a voltage of 1.5 volts and fits into various devices, including hearing aids and some electronic toys. Its compatibility with the L736 makes it a popular choice among users.

4. LR736 Battery: The LR736 battery is essentially the same as the L736, as it shares identical specifications, including size, voltage, and capacity. Users can freely interchange these batteries in devices without concerns over performance differences.

5. SR41 Battery: The SR41 battery is a silver oxide button cell battery that operates at 1.55 volts. Compared to the L736, it offers a higher capacity, making it ideal for devices that require consistent and prolonged energy output. Although slightly different in voltage, it is often compatible with devices that use L736 batteries.

6. 392A Battery: The 392A battery is equivalent to the L736 in size and voltage, providing 1.5 volts. It is frequently used in small electronics like remote controls and is a reliable option as a replacement, similar to other listed models.

In summary, the L736 battery is compatible with various models that share similar voltage ratings and dimensions. Users should consider specific device requirements to choose the most suitable equivalent battery.

Which Devices Are Compatible with the L736 Battery?

The L736 battery is compatible with a variety of devices, particularly those used in small electronics.

1. Common devices using L736 batteries:
   – Digital cameras
   – Remote controls
   – Toys
   – Watches
   – Medical devices

2. Less common devices using L736 batteries:
   – GPS devices
   – Some portable gaming consoles
   – Electronic scales
   – Certain calculators

3. Conflicting viewpoints:
   – Some experts argue that newer devices may not support older batteries like the L736.
   – Others believe that the L736 remains versatile due to its widespread compatibility across many brands.

The discussion about the compatibility of the L736 battery highlights various device categories.

1. Common devices using L736 batteries:
   Common devices using L736 batteries include digital cameras, remote controls, toys, watches, and medical devices. For example, many brands of digital cameras rely on the L736 battery due to its compact size and reliable power output. Remote controls for televisions and gaming systems often utilize this battery type as well. This widespread use underscores the battery’s importance in everyday technology.

2. Less common devices using L736 batteries:
   Less commonly, L736 batteries power GPS devices, portable gaming consoles, electronic scales, and certain calculators. While these devices may not always use the L736 battery as their primary power source, they are compatible with it, making it a versatile choice. For instance, some portable gaming consoles might use this battery in compact units or for secondary functions.

3. Conflicting viewpoints:
   Conflicting viewpoints about the L736 battery’s compatibility stem from the rapid evolution of technology. Some manufacturers create devices that use newer battery technologies, which can lead to concerns about the L736’s relevance. However, others argue that due to its broad application, the L736 continues to be a viable choice for various devices. As seen in a report by battery expert Dr. James T. McGee in 2021, the longevity and reliability of the L736 battery in older devices help maintain its significance despite newer advancements.

What Are the Advantages of Using an L736 Battery?

The advantages of using an L736 battery include its long-lasting performance, compact size, wide compatibility, and stable voltage output.

1. Long-lasting Performance
2. Compact Size
3. Wide Compatibility
4. Stable Voltage Output

Understanding the benefits of these attributes can help consumers make informed decisions.

1. Long-lasting Performance:
   The L736 battery provides long-lasting performance, making it ideal for devices requiring consistent power. This battery typically offers a higher capacity than similar models, which means it can run devices longer without needing replacement. For example, in many consumer electronics like cameras or remote controls, users have reported significantly extended usage periods when utilizing an L736 battery compared to less efficient alternatives.

2. Compact Size:
   The L736 battery has a compact size that allows for easy integration into small devices. This is especially valuable in modern electronics where space is often limited. For instance, many portable electronic devices such as hearing aids and remote controls benefit from this compact size, making the devices lighter and more convenient for users to handle.

3. Wide Compatibility:
   The L736 battery is compatible with a variety of devices, enhancing its practicality. Many devices, including watches, electronic toys, and small handheld devices, are designed to use this battery. Users appreciate not having to carry multiple battery types, as the L736 fits several applications, thereby simplifying storage and replacement.

4. Stable Voltage Output:
   The stable voltage output of the L736 battery ensures that devices receive consistent power supply for reliable performance. This is particularly important for sensitive electronics that require steady voltage to function correctly. Studies have shown that batteries with stable voltage can improve device lifespan and performance, as they prevent sudden power fluctuations that could disrupt operations.

Overall, the L736 battery stands out due to its performance, size, compatibility, and reliability, making it a preferred choice for many users in various applications.

How Should You Dispose of L736 Batteries Safely?

L736 batteries should be disposed of safely to prevent environmental harm. These batteries, commonly used in various electronic devices, often contain materials that can be toxic if released into the environment. Approximately 1.5 billion rechargeable batteries are sold in the U.S. each year, highlighting the importance of proper disposal methods.

To dispose of L736 batteries safely, consider recycling options. Many retailers and local waste management agencies offer battery recycling programs. About 80% of batteries can be recycled, which helps recover valuable materials like lithium, nickel, and cobalt. For instance, retailers such as Best Buy and Walmart typically have drop-off bins for recycling batteries.

In another option, specialized recycling facilities can handle battery disposal. These facilities ensure that hazardous materials are processed correctly. For example, call2recycle.org helps locate nearby recycling centers for batteries. It is beneficial to check state and local regulations, as they can vary significantly. Some states have laws mandating battery recycling to promote environmental safety.

Additionally, avoid throwing L736 batteries in regular trash, as they may leak harmful substances into landfills. If disposing of damaged or leaking batteries, handle them with care and contact local hazardous waste management for guidance, as specific protocols may be necessary.

The effectiveness of these disposal methods can be influenced by factors like geographical location and legislative policies. Urban areas often have better access to recycling programs compared to rural locations, potentially leading to lower recycling rates in less accessible regions.

In summary, to safely dispose of L736 batteries, utilize recycling programs, check local disposal guidelines, and avoid placing them in regular trash. Further exploration of local recycling laws and sustainability initiatives can provide deeper insights into battery disposal practices and environmental impact.

What Safety Precautions Should Be Taken When Using L736 Batteries?

Using L736 batteries requires specific safety precautions to ensure safe handling and performance.

1. Store batteries in a cool, dry place.
2. Avoid exposing batteries to extreme temperatures.
3. Do not short-circuit the battery terminals.
4. Handle batteries with care to prevent mechanical damage.
5. Dispose of batteries according to local regulations.
6. Do not mix different battery types or brands.
7. Use proper personal protective equipment (PPE) during installation.

These precautions are essential as they help prevent accidents and extend the battery life. Each point highlights important aspects of safe battery usage.

1. Store Batteries in a Cool, Dry Place: Storing L736 batteries in a cool and dry environment helps avoid corrosion and chemical reactions that could lead to leakage or battery failure. Ideal temperature ranges are typically between 15°C to 25°C (59°F to 77°F) as per guidelines from battery manufacturers.

2. Avoid Exposing Batteries to Extreme Temperatures: Extreme temperatures can negatively impact battery performance. High heat can result in overheating and decreased battery capacity, while freezing temperatures can cause battery electrolyte issues. According to a study by the Battery University in 2019, batteries stored in high temperatures can lose 30% of their capacity in just a year.

3. Do Not Short-Circuit the Battery Terminals: Short-circuiting occurs when metal objects make contact with both terminals, causing a rapid discharge of energy. This can lead to overheating or even explosion. The American National Standards Institute recommends using protective covers for terminals to prevent accidental short-circuiting.

4. Handle Batteries with Care to Prevent Mechanical Damage: Batteries can be relatively fragile. Dropping or bending them can damage internal structures and compromise safety. It is advisable to handle batteries with both hands and avoid excessive force.

5. Dispose of Batteries According to Local Regulations: Proper disposal is crucial due to environmental concerns. Many regions have specific guidelines for disposing of batteries to prevent environmental contamination. The Environmental Protection Agency (EPA) encourages battery recycling programs to minimize hazardous waste.

6. Do Not Mix Different Battery Types or Brands: Mixing different batteries can lead to uneven performance and increase the risk of failure. Using the same manufacturer and model ensures compatibility and optimal performance, reducing potential hazards.

7. Use Proper Personal Protective Equipment (PPE) During Installation: Safety gear such as gloves and safety goggles protect against accidental spills or leaks while handling batteries. The Occupational Safety and Health Administration (OSHA) emphasizes the importance of PPE when dealing with batteries to prevent health risks.

Implementing these precautions will significantly enhance safety and efficiency when using L736 batteries.

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