L736 Battery Replacement: Discover Alkaline Alternatives and Cross Reference Options

The L736 battery replaces LR41, AG3, and 392 alkaline coin cell batteries. It has a voltage of 1.5V and a capacity of 190mAh. You can find it in watches, calculators, and small electronics. Brands like Exell and Vinnic sell L736 batteries in different pack sizes for easy purchasing.

Cross-referencing options can simplify your search for an appropriate replacement. The L736 battery is often synonymous with batteries like LR41 or 192, which are interchangeable in many cases. These alternatives can be found in various stores or online retailers, ensuring easy accessibility.

In summary, understanding L736 battery replacement along with exploring alkaline alternatives provides clarity in selecting the right battery. This knowledge enhances the longevity of your devices and ensures they function efficiently.

Next, we will delve into specific steps for safely replacing the L736 battery, including tips for proper disposal and maintenance practices to extend the longevity of your new battery.

What Is the L736 Battery and Its Typical Applications?

The L736 battery, also known as the LR41 or AG3 battery, is a small alkaline button cell battery. It typically features a diameter of 7.9 mm and a height of 3.6 mm. These batteries are commonly used in various small electronic devices.

According to battery manufacturers like Energizer and Duracell, the L736 battery is used in devices such as watches, calculators, and small toys. These batteries provide reliable power for low-drain applications. They are designed to be lightweight and compact.

The L736 battery operates at a nominal voltage of 1.5 volts. They use alkaline chemistry, which helps deliver a consistent voltage. This battery type is advantageous for devices that require minimal power over extended periods.

The American National Standards Institute (ANSI) refers to the L736 as part of its standard battery classification system. ANSI provides a framework for battery identification, ensuring compatibility across various manufacturers.

Factors contributing to the use of the L736 battery include the rising demand for compact electronic devices and advancements in battery technology. The popularity of wearable technology also influences the market for small batteries.

As of recent estimates, the global market for button cell batteries is projected to grow significantly, reaching approximately $4.2 billion by 2025, according to Market Research Future.

The broader impacts of L736 battery usage include issues related to battery disposal and recycling. Improper disposal of batteries can lead to environmental pollution.

On a societal level, widespread use of small batteries contributes to electronic waste. This waste can harm ecosystems and human health if not properly managed.

Solutions to address battery disposal include promoting battery recycling programs and increasing consumer awareness. Organizations like Call2Recycle provide resources for proper battery disposal.

Best practices for mitigating environmental impacts include using rechargeable battery alternatives, improving battery lifespan, and enhancing recycling infrastructure. These strategies can help reduce waste and promote sustainability.

What Alkaline Batteries Are Suitable Replacements for the L736?

The suitable alkaline battery replacements for the L736 include the following options:

  1. AA (LR6) batteries
  2. AAA (LR03) batteries
  3. 6V Lantern Batteries (6LR61)
  4. 9V batteries (6F22)
  5. L1154 batteries

These alkaline batteries provide varying voltages and capacities, making it essential to select the correct replacement based on the specific device requirement.

1. AA (LR6) Batteries:
AA (LR6) batteries are cylindrical batteries commonly used in household devices. They typically provide 1.5 volts and are compatible with many electronic gadgets. For example, a remote control or flashlight often runs on AA batteries. The high energy density of AA batteries makes them a reliable replacement option for devices needing consistent power.

2. AAA (LR03) Batteries:
AAA (LR03) batteries are smaller in size than AA batteries but still deliver 1.5 volts. These batteries are frequently utilized in compact devices such as wireless mice and digital cameras. Their light weight and decent capacity make them suitable for devices with lower power requirements.

3. 6V Lantern Batteries (6LR61):
6V Lantern Batteries (6LR61) are designed mainly for larger devices, providing longer-lasting power. These batteries are ideal for outdoor lanterns and emergency lighting situations. Their capacity to sustain higher drain devices makes them versatile and dependable.

4. 9V Batteries (6F22):
9V batteries, also known as 6F22, are primarily used in smoke detectors, radios, and other devices requiring a higher voltage. They assemble multiple smaller cells to achieve a 9-volt output. Many people appreciate 9V batteries for their longevity and robust performance in critical applications.

5. L1154 Batteries:
L1154 batteries are also known as AG13 or A76 batteries. They are typically used in small electronic devices, including watches and calculators. These batteries offer a compact size and are essential for devices requiring lower energy levels.

Selecting the right alkaline battery replacement involves understanding the voltage and compatibility of your device.

What Cross Reference Options Exist for the L736 Battery?

The L736 battery has several cross-reference options for users seeking replacements.

  1. LR736
  2. A76
  3. 157
  4. AG13
  5. SR44
  6. 303

Understanding these cross-reference options can help users choose the right battery for their devices.

  1. LR736: The LR736 is a commonly noted alkaline battery type compatible with L736. It provides a similar voltage and capacity, making it a reliable choice for various electronic devices.

  2. A76: The A76 battery serves as an alternative that fits the specifications of the L736. It is often used in similar devices, delivering consistent performance.

  3. 157: The 157 is another cross-reference for the L736 battery, known for its ability to function effectively in watches and small electronics that require stable power.

  4. AG13: The AG13 battery is frequently used in calculators and toys. It is an economical option that typically matches the required specifications of the L736 battery.

  5. SR44: The SR44 is a silver oxide battery that offers higher energy density than alkaline batteries. It is compatible and often preferred for precision devices such as cameras.

  6. 303: The 303 battery is a versatile alternative to the L736, commonly used in digital watches and medical devices, ensuring reliable power delivery.

These cross-reference options provide users with flexibility and enhance their ability to maintain effective functioning in their devices.

What Are the Benefits of Choosing Alkaline Alternatives Over L736?

Choosing alkaline alternatives over L736 batteries provides several advantages. Alkaline batteries often offer longer runtime, cost-effectiveness, and better shelf life compared to L736.

  1. Longer runtime
  2. Cost-effectiveness
  3. Better shelf life
  4. Wide availability and compatibility
  5. Environmental considerations

Choosing alkaline alternatives offers various perspectives regarding performance and environmental impact.

  1. Longer Runtime: Alkaline batteries typically provide more power and longer usage time compared to L736 batteries. This often results in fewer battery changes during a device’s active use.

  2. Cost-effectiveness: Alkaline batteries often have lower purchase prices compared to L736 batteries. Users can save money over time when choosing alkaline batteries for devices that consume power regularly.

  3. Better Shelf Life: Alkaline batteries tend to last longer during storage than L736 batteries. They can retain their charge for several years, making them ideal for emergency kits or infrequent use.

  4. Wide Availability and Compatibility: Alkaline batteries are widely available and compatible with a vast range of devices. This makes them a practical choice for consumers looking for easily replaceable options.

  5. Environmental Considerations: Alkaline alternatives can be more environmentally friendly, as they often have less toxic materials. Some alkaline batteries are recyclable, which reduces landfill waste.

In summary, the benefits of choosing alkaline alternatives over L736 include longer runtime, cost-effectiveness, better shelf life, wide availability, and favorable environmental considerations.

How Do Lifespan and Performance of L736 Compare to Its Alternatives?

The L736 battery demonstrates a satisfactory lifespan and performance when compared to its alternatives, such as the LR41 and AG3 batteries. An analysis of various factors reveals the following key points:

  • Lifespan: The L736 typically lasts around 1-2 years, depending on usage. In contrast, the LR41 offers a similar lifespan. According to a study by Energizer (2022), effective battery life is influenced by the device’s power requirements.

  • Performance: The L736 battery delivers a steady voltage of 1.5 volts. This is comparable to the LR41 and AG3 batteries. A report by Duracell (2023) indicates that voltage stability is crucial for devices requiring consistent power.

  • Discharge Rate: The L736 maintains a low discharge rate, allowing for prolonged usage in low-drain devices. Research by Varta (2021) showed that batteries with lower discharge rates are more efficient for devices such as watches and calculators.

  • Environmental Impact: The L736 battery is designed with less hazardous materials compared to some alternatives. The Sustainable Battery Alliance (2023) promotes the use of batteries with minimal environmental impact, highlighting a growing trend in battery production.

  • Availability: The L736 is widely available in retail and online stores. Its easy accessibility makes it a popular choice among consumers, as noted by a market analysis by Battery University (2023).

These factors illustrate that the L736 battery provides competitive lifespan and performance characteristics in comparison to its alternatives, making it a reliable choice for various applications.

What Factors Should You Consider When Selecting a Replacement for the L736 Battery?

When selecting a replacement for the L736 battery, consider factors such as size, voltage, chemistry, capacity, and compatibility with devices.

  1. Size
  2. Voltage
  3. Chemistry (Alkaline, Lithium, NiMH)
  4. Capacity (mAh)
  5. Compatibility with devices

Understanding these factors aids in making an informed decision about battery replacements.

Size:
The size of the replacement battery is crucial for proper fit in the device. The L736 battery has specific dimensions that need to be matched by any alternative. Using a battery that is too large or small may lead to improper placement or connection issues. Proper fitting ensures safety and optimal performance of the device.

Voltage:
Replacement batteries must match the voltage specifications of the L736. Typically, the L736 operates at a nominal voltage of 1.5 volts. Using a battery with a significantly higher or lower voltage can damage the device or lead to inadequate performance. Consistent voltage prevents failures in electronic components.

Chemistry (Alkaline, Lithium, NiMH):
Different battery chemistries affect the performance and lifespan of the battery. Alkaline batteries typically offer a longer shelf life but may not perform well in high-drain devices. Lithium batteries provide higher energy density and longer runtime, suitable for demanding applications. Nickel-Metal Hydride (NiMH) batteries are rechargeable and environmentally friendly, but they can have lower voltage. Evaluating these options based on device requirements is essential.

Capacity (mAh):
The capacity of a battery, measured in milliamp hours (mAh), determines how long the battery will last under a specific load. Higher mAh ratings generally correlate with longer runtimes. Some users might prefer using batteries with higher capacities for devices that consume power more quickly. Conversely, for low-drain devices, standard capacity batteries may suffice.

Compatibility with devices:
Ensure that the replacement battery is compatible with the device. Each device may have specific requirements based on its design and power needs. Sometimes, batteries with similar specifications can perform differently based on manufacturer variations. Consulting the device manual or manufacturer recommendations can prevent compatibility issues.

Considering these specific factors will ensure that you choose the best suitable replacement for the L736 battery.

Where Can You Find L736 Alternatives in the Market?

You can find L736 alternatives in various places in the market. Local retail stores often carry alkaline batteries with compatible ratings. Check electronics shops for specialized battery types. Online marketplaces, such as Amazon and eBay, provide a wide range of options. Battery manufacturers’ websites also list compatible replacements. Additionally, consider visiting pharmacies or convenience stores, as they frequently stock batteries. Always verify the specifications to ensure compatibility with your device.