L736C Battery Replacement: Best Alkaline Options & Cross Reference Guide

The L736C battery can be replaced by several equivalents, including L736, LR736, L736H, A63, G3A, 3GA 192, AG3, LR41, and 392/384. Battery part numbers may vary by manufacturer. Always check compatibility before purchasing to ensure the best fit for your device.

To ensure compatibility, a cross-reference guide can help. This guide will list alternative battery types that may fit devices originally designed for the L736C. Common equivalents include the LR44 and A76 batteries. Understanding these substitutes is vital for maintaining your device’s functionality.

Choosing the correct battery replacement influences device efficiency significantly. It is prudent to check your device specifications before purchasing. This ensures optimal performance and longevity.

In the next section, we will delve deeper into the specifics of each recommended alkaline battery. We will also explore the potential differences in their applications and performance. This examination will help you make an informed choice for your L736C battery needs.

What Is the L736C Battery and Its Importance?

The L736C battery is a type of alkaline battery commonly used in small electronic devices. It is known for its reliable power output and long shelf life. This battery typically falls under the AAAA size category.

According to the Battery Association, alkaline batteries such as the L736C are designed for devices that require a moderate amount of power, such as remote controls and small flashlights. They are essential for providing consistent energy to portable devices.

The L736C battery features a nominal voltage of 1.5 volts. It consists of a zinc anode and a manganese dioxide cathode, which work together to generate electricity through a chemical reaction. This battery size is advantageous due to its compactness.

The International Electrotechnical Commission (IEC) defines the AAAA battery as the 6F22 size. The standardization of battery sizes facilitates replacements and compatibility across various devices, ensuring convenient usage.

Various factors, including increased device usage and technological advancements, contribute to the demand for L736C batteries. The proliferation of remote-controlled devices is a significant driver of this battery’s importance.

Approximately 40% of consumers prefer alkaline batteries for everyday devices, according to a 2022 report by the Consumer Battery Association. This trend is expected to grow, emphasizing the need for a stable supply of alkaline batteries.

The importance of the L736C battery extends beyond consumer convenience. Its reliability impacts everyday activities, from remote control operations to powering essential medical devices.

Socially, a consistent supply of L736C batteries ensures that devices function properly, improving quality of life. Environmentally, efficient battery disposal can reduce pollution.

Specific examples include the use of L736C batteries in hearing aids and remote controls, where reliability is crucial for user experience.

To address battery waste, the International Solid Waste Association advocates for recycling programs and proper disposal methods.

Strategies include promoting rechargeable battery options and improving battery life through advanced technology. Additionally, educating consumers on battery recycling can mitigate environmental impacts.

Why Is It Essential to Find the Right Replacement for the L736C?

Finding the right replacement for the L736C battery is essential for ensuring optimal performance and compatibility with your devices. An incorrect replacement can lead to inadequate power supply or damage to the device.

The American National Standards Institute (ANSI) defines battery types and specifications, emphasizing the importance of using correct replacements to maintain device integrity and functionality.

One of the main reasons it’s crucial to find the right replacement for the L736C is that it directly affects the device’s operation. A replacement that does not match the original specifications could result in reduced performance, such as shorter usage time or malfunction. Furthermore, incompatible batteries can potentially damage the electronic components of the devices they are used in, leading to costly repairs.

Technical terms related to batteries include “voltage,” which refers to the electrical potential difference, and “capacity,” which indicates the amount of charge a battery can store, measured in milliampere-hours (mAh). Using a battery with incorrect voltage or capacity can disrupt the device’s functionality.

The mechanisms involved include how batteries release energy through chemical reactions, which power electronic devices. Each battery type is designed for specific devices; for example, a 1.5-volt battery like the L736C is ideal for certain small electronic devices. If a higher voltage battery is used, it could overload the device, potentially leading to failure or damage.

Specific actions contributing to the need for proper battery replacement include frequent usage of devices and environmental factors such as temperature extremes. For instance, a device that operates in a high-temperature environment may require a battery that can withstand heat better than the standard L736C. Using an inappropriate substitute in such scenarios can reduce the lifespan of both the battery and the device.

What Are the Best Alkaline Battery Options to Replace the L736C?

The best alkaline battery options to replace the L736C include the Energizer A76, Duracell D76, and Rayovac 76.

1. Energizer A76
2. Duracell D76
3. Rayovac 76

The available alkaline batteries vary in performance, capacity, and availability. Selecting the right battery can depend on the specific device and intended usage.

1. Energizer A76:
   The Energizer A76 is a popular choice for replacing the L736C. This battery provides reliable power and has a long shelf life. Typically, it features a voltage output of 1.5 volts, suitable for devices requiring steady energy. According to Energizer’s data, the A76 offers excellent performance in high-drain devices, making it a preferred option among users. Moreover, its extensive availability in stores enhances its convenience for consumers.

2. Duracell D76:
   The Duracell D76 battery is known for its durability and longevity. It also operates at 1.5 volts and is designed for various applications, including children’s toys and remote controls. Duracell claims that their D76 batteries last significantly longer than other brands under similar conditions. A consumer study indicated that many users trust Duracell for consistent quality and performance in high-demand situations.

3. Rayovac 76:
   The Rayovac 76 offers an affordable alternative to both Energizer and Duracell. While it also provides a voltage output of 1.5 volts, its performance may vary slightly based on the device. Users favor Rayovac for its cost-effectiveness but may experience varying longevity in high-drain applications compared to premium brands. A market survey from 2022 indicated that Rayovac remains popular for everyday use due to its balance between cost and reliability.

Selecting the appropriate alkaline battery to replace the L736C often depends on personal preference and specific device needs, balancing performance against cost.

Which Brands Are Trusted for L736C Replacement Batteries?

Several brands are trusted for L736C replacement batteries, including Energizer, Duracell, and Varta.

1. Energizer
2. Duracell
3. Varta

Transitioning from trusted brands to details about each reveals essential characteristics.

1. Energizer: Energizer is a well-known brand. It offers reliable batteries with a long shelf life. Users often commend its performance in high-drain devices. According to a 2021 survey by Consumer Reports, Energizer batteries performed well in various tests.

2. Duracell: Duracell is another reputable brand. It provides batteries known for their durability and longevity. This brand is frequently recommended for use in remote controls and cameras. A study by Battery University in 2019 highlighted Duracell’s superior discharge rate compared to competitors.

3. Varta: Varta is a trusted brand in Europe. It is recognized for manufacturing batteries suitable for both everyday and specialized devices. Reviews on Amazon indicate that Varta batteries offer excellent performance in extreme temperatures.

In summary, trusted brands for L736C replacement batteries include Energizer, Duracell, and Varta, each providing unique advantages for different usage scenarios.

What Specifications Should You Consider for L736C Replacement Batteries?

The specifications to consider for L736C replacement batteries include size, voltage, capacity, and discharge rates.

1. Size: Ensure the battery matches the physical dimensions required for the device.
2. Voltage: Confirm the battery voltage matches the original specifications.
3. Capacity: Check the amp-hour rating to assess how long the battery can deliver power.
4. Discharge Rates: Review the battery’s maximum discharge rate to ensure it meets device needs.
5. Chemistry Type: Decide between alkaline, lithium, or rechargeable (NiMH) options.
6. Brand Reliability: Consider trusted brands for performance and longevity.
7. Environmental Considerations: Look for eco-friendly options and disposal information.

When selecting a replacement battery, it is crucial to explore the characteristics of each option in detail.

1. Size: The size of the L736C battery needs to be compatible with the device it powers. Different products might have unique size restrictions. Hence, the correct dimensions ensure proper fit and functionality, preventing damage to the device.

2. Voltage: Voltage must match the original battery exactly. The L736C typically has a standard voltage of 1.5V, and using a battery with either lower or higher voltage may lead to device malfunction or damage. Consistency is critical for efficient operation.

3. Capacity: Capacity expresses the amount of stored energy. It is measured in milliamp-hours (mAh). A higher capacity offers longer usage times before requiring a recharge or replacement. Understanding the device’s power demands can guide the selection of an adequately powered battery.

4. Discharge Rates: The discharge rate indicates how quickly the battery can deliver its stored energy. Devices that require significant power for brief periods benefit from batteries with higher discharge rates. In contrast, devices with consistent low power use may perform well with lower rates.

5. Chemistry Type: Battery chemistry influences power output, longevity, and environmental impact. Alkaline batteries are common for L736C replacements, but lithium provides higher energy and longevity. Rechargeable options save costs over time but may require specific chargers.

6. Brand Reliability: Established brands often deliver better performance and may include warranties or guarantees. This reliability can lead to lower long-term costs and improved safety.

7. Environmental Considerations: It’s important to recognize the environmental impact of battery usage. Some batteries are recyclable or contain less harmful materials, aligning with sustainability practices. Proper disposal methods must also be taken into account to minimize environmental harm.

By considering these specifications, you can make an informed choice when replacing an L736C battery.

What Other Batteries Are Compatible with the L736C?

The L736C battery is compatible with several battery types. The primary alternatives are as follows:

1. L736
2. AG3
3. LR41
4. SR41
5. 192
6. 384A

These options present various perspectives regarding their compatibility and usage.

1. L736: The L736 battery is essentially identical to the L736C, serving as a direct replacement. Users may choose this option for straightforward compatibility without the risk of differences in performance.

2. AG3: The AG3 battery functions similarly and is widely available. Some users prefer this option due to its popularity and lower price point.

3. LR41: The LR41 is a common alkaline battery that can replace the L736C. It is praised for its long shelf life. However, some users question its discharge rate for high-drain devices.

4. SR41: The SR41 is a silver oxide battery that offers higher energy density compared to alkaline options. It is often preferred for devices requiring consistent voltage. However, its higher cost can deter budget-conscious consumers.

5. 192: The 192 battery serves as an alternative for the L736C. While less common, some users report it is effective for lighter applications, but availability may be an issue.

6. 384A: The 384A battery is another substitute. It has a similar voltage but varies slightly in dimensions, which can affect fit in certain devices.

Understanding these alternatives facilitates informed decisions for users seeking to replace their L736C batteries.

1. L736: The L736 battery directly replaces the L736C, with identical specifications. This ensures compatibility without variances in voltage or capacity, making it a straightforward choice for users looking for seamless integration.

2. AG3: The AG3 battery is a widely-used alkaline option. It shares the same dimensions and voltage, appealing to users for its cost-effectiveness. Many find it suitable for everyday electronics, although users note that it may not perform optimally in devices requiring sustained high energy.

3. LR41: The LR41 is known for its long shelf life and reliability. This battery type maintains voltage more consistently under load, but some users caution that it may not be the best choice for high-drain devices. Studies show that alkaline batteries like LR41 discharge faster in such applications compared to silver oxide alternatives.

4. SR41: The SR41, made from silver oxide, provides high energy density. This means it delivers stable voltage over the lifespan, making it ideal for sensitive devices such as cameras and medical equipment. However, the price point on SR41 batteries is generally higher than alkaline varieties, which is a consideration for budget-conscious consumers.

5. 192: The 192 battery may offer compatibility as a substitute. It is a less common option and often used in niche devices. While it works in some gadgets, its limited availability can make it hard to find, leading some users to stick with more mainstream products.

6. 384A: The 384A is compatible with the L736C, having similar performance attributes. Users must be mindful of slight differences in dimensions that may complicate fitting into smaller or tightly designed devices. While generally effective, its availability can vary based on location and retailer.

Each alternative battery provides unique benefits and drawbacks, allowing users to select based on their specific needs and preferences.

What Are the Key Cross Reference Numbers for L736C Replacement?

The key cross-reference numbers for L736C replacement batteries include the following:

1. 1/2AA
2. CR1/2AA
3. CR14250
4. BR1/2AA
5. FR1/2AA

Understanding these cross-reference numbers is crucial for ensuring compatibility and performance in various devices.

1. 1/2AA:
   The term “1/2AA” describes a type of battery that is half the size of a standard AA battery. It is commonly used in applications requiring compact power solutions. The 1/2AA batteries have a nominal voltage of 3 volts when they are lithium-based.

2. CR1/2AA:
   “CR1/2AA” batteries are lithium batteries with a similar size and voltage as the 1/2AA. They are popular for their long shelf life and low self-discharge rate. These can typically last several years in low-drain devices and are often used in toy applications and remote controls.

3. CR14250:
   “CR14250” batteries denote a similar cylindrical lithium battery designed for compact devices. This version has a diameter of 14 mm and a height of 25 mm. The CR14250 is often utilized in medical and industrial devices due to its reliability and performance in extreme conditions.

4. BR1/2AA:
   The “BR1/2AA” designation refers to a variation specifically using a different chemistry, typically for higher temperature performance. These batteries can operate effectively in temperatures ranging from -40°C to 85°C. They are often used in applications where temperature fluctuations are expected, like outdoor sensors.

5. FR1/2AA:
   “FR1/2AA” batteries contain a lithium iron disulfide chemistry. These batteries provide high energy output and are suited for devices that require a significant amount of power quickly. Applications might include digital cameras and flash units.

Each of these cross-reference numbers serves as a guide for consumers and technicians. They ensure that the chosen replacement battery performs effectively in its designated application. It is important to consider the specific performance characteristics required for various devices when selecting a replacement.

What Benefits Do Alkaline Batteries Offer as Replacements for the L736C?

Alkaline batteries offer several advantages as replacements for the L736C battery. These benefits include longer shelf life, higher energy density, better performance in extreme temperatures, and greater availability.

1. Longer shelf life
2. Higher energy density
3. Improved performance in extreme temperatures
4. Greater availability
5. Cost-effectiveness
6. Environmental considerations

Alkaline batteries present a variety of benefits that enhance their utility.

1. Longer Shelf Life: Alkaline batteries have a longer shelf life compared to L736C batteries. Typically, alkaline batteries can last up to 5-10 years when stored properly. In contrast, L736C batteries often have a shorter useful life, leading to more frequent replacements.

2. Higher Energy Density: Alkaline batteries generally provide higher energy density than L736C batteries. This means alkaline batteries can deliver more power per unit weight, which is beneficial for devices requiring long-lasting energy, such as remote controls or flashlights.

3. Improved Performance in Extreme Temperatures: Alkaline batteries function better in extreme temperatures, both hot and cold. They maintain their performance in a wider range of temperatures, allowing devices to operate effectively, whether in a cold winter setting or during a hot summer day.

4. Greater Availability: Alkaline batteries are widely available in retail stores and online, making them easily accessible. This availability encourages consumers to choose alkaline batteries over less common types like L736C when replacing batteries in devices.

5. Cost-Effectiveness: Alkaline batteries tend to be more cost-effective in the long run. Although they may have a slightly higher initial purchase price, their longer lifespan and efficiency often result in lower total costs when frequently replaced batteries are considered.

6. Environmental Considerations: Many manufacturers now produce long-life alkaline batteries that are designed to be more environmentally friendly. These advancements can mitigate the environmental impact associated with battery disposal, making alkaline batteries a preferable choice for eco-conscious consumers.

In conclusion, alkaline batteries provide practical benefits when replacing the L736C, making them a suitable choice for various applications.

How Should You Properly Dispose of L736C and Other Used Batteries?

To properly dispose of L736C batteries, as well as other used batteries, it is essential to follow guidelines that protect the environment and human health. Many batteries contain hazardous substances that can contaminate soil and water if not disposed of correctly. In the United States, approximately 180 million units of batteries are discarded annually, and only about 10% are recycled.

Certain types of batteries require specific disposal methods. For rechargeable batteries, like nickel-cadmium (NiCd) or lithium-ion batteries, recycling is mandatory in many areas due to their hazardous materials. Used alkaline batteries, such as the L736C, can often be recycled, but guidelines vary by location.

Here are general disposal methods based on battery type:

• Lead-acid batteries: These must be taken to a recycling center or an auto parts store that offers battery recycling.
• Lithium-ion batteries: Many retailers provide recycling programs specifically for these batteries.
• Alkaline batteries: Check local regulations to determine if recycling is available; many places allow these to be thrown in the trash, but recycling is encouraged.

For example, in California, residents can drop off batteries at designated collection points, while in some states, businesses are required to accept used batteries.

External factors influencing disposal methods include regional recycling laws, the type of battery, and the presence of recycling programs. For instance, urban areas typically have more recycling facilities than rural regions, leading to a higher recycling rate in cities. Additionally, public awareness and education campaigns impact the public’s willingness to recycle.

In summary, disposing of L736C batteries responsibly involves understanding local regulations and utilizing available recycling options. This not only minimizes environmental impact but also promotes the recycling of valuable materials. Further exploration could focus on the development of more accessible recycling programs and public education initiatives to improve battery disposal practices.

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