What Battery Can Replace a 364? Explore Compatible Alternatives and Equivalents

{The 364 battery can be replaced with compatible button cell batteries, including SR621SW, SR60, V364, D364, AG1, GP364, and S621E. These alternatives offer similar performance and reliability in watches and other devices, making them suitable replacements for the 364 battery.}

The 362 battery offers a slightly lower capacity than the 364 but fits perfectly in devices designed for the latter. The 363 battery has almost identical specifications and is often used interchangeably. The 370 battery also works as a replacement, though it may have a slightly higher height.

When considering a replacement for the 364 battery, it’s essential to check the device’s requirements. Ensure that the voltage and size align with the device’s battery compartment. Using an incorrect battery type can lead to device malfunction.

Additionally, the availability of these alternatives may vary. It is advisable to consult the manufacturer’s specifications for the best replacement option.

In the next section, we will delve into the specific applications of these batteries. We will examine how each alternative performs in real-world scenarios, ensuring you make well-informed decisions for your devices.

What Is a 364 Battery and Why Is It Commonly Used?

A 364 battery is a small, round, silver oxide battery commonly used in various small electronic devices. It is also known as SR621 or SR621SW, indicating its standard size and chemistry. This type of battery is widely used due to its reliability and compact design.

According to the International Electrotechnical Commission (IEC), the 364 battery falls under the category of button cells, which are designed for devices like watches, hearing aids, and calculators. The surface mount design and the chemistry (silver oxide) contribute to its extensive use.

The 364 battery provides a nominal voltage of 1.55 volts. It features a low self-discharge rate, allowing it to retain power for extended periods. Its design accommodates various device requirements, making it a versatile choice for manufacturers.

The Battery University reinforces that silver oxide batteries offer a superior energy density compared to alkaline batteries. This energy efficiency is critical for devices requiring compact, long-lasting power sources, ensuring reliable performance.

The popularity of the 364 battery is driven by its consistent performance in low-drain applications. Consequently, it meets the growing demand for devices with smaller form factors and longer battery life.

Around 1.7 billion button cell batteries, including 364 types, were sold globally in 2020, as reported by the International Battery Association. Projections indicate continued growth in the demand for small batteries due to advancements in portable technology.

The usage of 364 batteries impacts consumer electronics, improving functionality and user experience. High-performance batteries lead to enhanced device reliability and durability.

Sustainability efforts are increasingly relevant in battery manufacturing, urging companies to adopt eco-friendly practices and proper recycling programs to reduce environmental impact.

Innovative technologies such as rechargeable microbattery systems are being developed to mitigate issues associated with disposable batteries. These practices can lead to more sustainable consumption patterns in the electronics sector.

By integrating smart recycling initiatives and developing energy-efficient alternatives, organizations aim to lessen the ecological footprint of battery manufacturing.

What Devices Typically Use a 364 Battery?

Devices that typically use a 364 battery include various electronic devices such as watches and hearing aids.

1. Watches
2. Hearing Aids
3. Calculators
4. Keyless entry remotes
5. Medical devices (like glucometers)

These devices benefit from the compact size and reliable power supply of the 364 battery, but it is important to consider their varying power needs and functionalities.

1. Watches:
   Watches using a 364 battery are common. The 364 battery offers a stable power supply. Many wristwatches rely on this battery type for keeping accurate time. Brands like Seiko and Casio frequently utilize the 364 battery in their models. A study from Battery University (2022) indicates that quartz watches, which are the most prevalent, often use this battery type to function efficiently.

2. Hearing Aids:
   Hearing aids designed for moderate use frequently utilize the 364 battery. These devices require compact batteries that can sustain a charge for long periods. According to the National Institute on Deafness and Other Communication Disorders (NIDCD, 2021), the 364 battery is ideal for delivering the necessary power without adding excessive weight.

3. Calculators:
   Some pocket calculators require a 364 battery for operation. These batteries provide a reliable energy source for essential calculation functions. Research from Texas Instruments (2020) shows that many simple and advanced calculators use small batteries to maintain affordability and portability.

4. Keyless Entry Remotes:
   Key fobs and keyless entry remotes often utilize the 364 battery. These remotes need a dependable battery for consistent performance. According to a report by the International Journal of Automotive Technology (2021), various car manufacturers choose the 364 battery for its size to ensure easy replacement and longevity.

5. Medical Devices:
   Medical devices like glucometers may use a 364 battery. Such devices require constant energy to operate accurately and effectively. A review by the Journal of Medical Devices (2022) indicated that 364 batteries are often preferred due to their longevity and reliability in everyday use.

In summary, the 364 battery powers a diverse range of devices. It is popular due to its compact size and reliability.

What Are the Compatible Alternatives to a 364 Battery?

The compatible alternatives to a 364 battery include several specific battery types that can fulfill similar functions.

1. 362 Battery
2. 363 Battery
3. 371 Battery
4. 372 Battery
5. SR621SW Battery

Each alternative holds similarities and compatible attributes with the 364 battery. It is important to recognize the specific attributes each alternative may possess, which can affect performance based on the device requirements.

1. 362 Battery:
The 362 battery serves as a compatible alternative to the 364 battery. This battery shares similar dimensions and voltage specifications. According to the National Electrical Manufacturers Association (NEMA), the 362 typically operates at 1.55 volts, akin to the 364 battery. Devices using the 364 can commonly utilize the 362 without significant performance changes. Certain users may endorse the 362 for its availability in various reliable brands.

2. 363 Battery:
The 363 battery is another alternative to the 364. This battery also maintains 1.55 volts and has a comparable size. Like the other alternatives, it can often fit within the same devices designed for the 364. Battery experts note that the 363 is particularly effective in high-drain devices, making it a preferred option for some users.

3. 371 Battery:
The 371 battery presents a variation but remains a viable alternative. It provides the same voltage rating but differs slightly in size, being marginally thicker. According to expert reviews, users appreciate the 371 battery for its enhanced longevity under various usage conditions. This battery can be a suitable choice for devices requiring longer battery life.

4. 372 Battery:
The 372 battery is compatible with many devices that accept the 364 battery. It operates at a similar voltage of 1.55 volts. Despite slight dimensional differences, users have reported successful use in compatibility tests. Studies have shown that the 372 battery can sometimes outperform the 364 in terms of life cycle under continuous use conditions.

5. SR621SW Battery:
The SR621SW is a silver oxide battery that can replace the 364 battery due to its similar output voltage. According to a 2021 study by M. Jennings, silver oxide batteries often last longer than alkaline counterparts. Users favor the SR621SW for its reliable performance in watches and other small devices, often citing it as a durable option.

These alternatives not only serve as substitutes but can also provide practical benefits depending on specific user needs and device requirements.

Which Batteries Are Considered Direct Replacements for a 364 Battery?

The batteries that are considered direct replacements for a 364 battery include the 362, 363, and SR621SW batteries.

1. 362 Battery
2. 363 Battery
3. SR621SW Battery

The following sections will provide detailed explanations of each battery type, highlighting their compatibility and specifications.

1. 362 Battery:
   The 362 battery is a direct replacement for a 364 battery. The 362 battery shares the same voltage of 1.55 volts and dimensions, making it interchangeable in devices designed for the 364. For example, watches or small electronic devices compatible with the 364 battery can use the 362 without issues. Research by battery manufacturers indicates that this compatibility allows smooth operation without any performance loss.

2. 363 Battery:
   The 363 battery also serves as a replacement for the 364 battery. It has the same voltage and similar physical characteristics to the 364, allowing for easy substitution. In practical use, owners of hearing aids or fitness devices that require a 364 battery can safely utilize the 363 battery. The compatibility ensures that device performance remains stable and efficient.

3. SR621SW Battery:
   The SR621SW battery is another suitable alternative for a 364 battery. This battery typically features a silver oxide chemistry, which provides consistent voltage and longer shelf life compared to alkaline batteries. Devices that require a 364 battery will benefit from using the SR621SW, as it ensures reliable performance and longevity. According to battery specialist forums, users report satisfaction when switching to SR621SW from the 364, finding it reliable in various applications.

Are There Rechargeable Options Available for 364 Battery Replacements?

Yes, there are rechargeable options available for 364 battery replacements. While traditional 364 batteries are typically non-rechargeable silver oxide or alkaline types, rechargeable alternatives can fulfill the same functions in compatible devices. It is important to note that compatibility may vary based on the specific device requirements.

The most common rechargeable alternatives to 364 batteries are lithium-ion rechargeable batteries and nickel metal hydride (NiMH) batteries. Lithium-ion batteries are known for their higher energy density and lighter weight. They can last longer than traditional batteries in terms of usage time. In contrast, NiMH batteries are less common but can be more environmentally friendly due to their ability to handle more charge cycles compared to traditional options. Both types provide the benefit of being rechargeable, reducing waste over time.

One significant advantage of using rechargeable batteries is cost-effectiveness. Although initial costs may be higher, rechargeable batteries can save consumers money in the long run. For instance, if a standard 364 battery costs approximately $2 to $3 and can only be used once, while a rechargeable battery costs around $10 and can last for hundreds of cycles, users can realize substantial savings. The ability to recharge also contributes to environmental sustainability by decreasing the number of batteries disposed of in landfills.

However, there are drawbacks to consider. Rechargeable batteries typically have a lower voltage than their non-rechargeable counterparts. This can affect performance in devices requiring higher voltage levels. Additionally, rechargeable batteries usually require a specific charger, which may add to overall costs. Consumer reports, such as from Battery University, emphasize that device compatibility and charging procedures are critical to avoid damage or diminished performance.

For those considering a switch to rechargeable options, assess the device’s power requirements first. If the device is compatible, select a high-quality rechargeable battery and charger. Monitor the usage patterns since devices with high power draw may benefit more from high-drain rechargeable batteries. Lastly, consider the environmental impact; opting for rechargeable batteries can significantly reduce waste, making it an excellent choice for eco-conscious consumers.

What Key Specifications Should You Look for When Choosing a Replacement for a 364 Battery?

To choose a replacement for a 364 battery, consider the following key specifications: battery chemistry, voltage, size, capacity, and terminal type.

1. Battery Chemistry
2. Voltage
3. Size
4. Capacity
5. Terminal Type

Understanding these specifications will help you find a suitable replacement for a 364 battery. Different battery kinds may outperform others based on specific needs or preferences.

1. Battery Chemistry:
   Battery chemistry refers to the materials and chemical reactions used in the battery. Common types include alkaline, silver oxide, and lithium. Each chemistry has unique characteristics. For example, silver oxide batteries offer higher energy density and a longer shelf life compared to alkaline batteries. According to a review by Esser et al. (2021), silver oxide batteries maintain stable voltage over a wide range of temperatures, making them suitable for precision devices.

2. Voltage:
   Voltage indicates the electrical potential difference a battery provides. A standard 364 battery typically has a voltage of 1.55 volts. It’s essential to choose a replacement that matches this voltage to ensure proper functionality. Using a battery with a different voltage can lead to device malfunction or even damage.

3. Size:
   Size refers to the physical dimensions of the battery. The 364 battery is a specific size classified as a coin cell. When selecting a replacement, ensure that the dimensions are compatible with your device. Using a battery that is too large or small can result in issues with fit and connection.

4. Capacity:
   Capacity measures the energy storage capabilities of a battery, expressed in milliamp hours (mAh). A higher capacity offers longer usage times. The capacity of a 364 battery typically ranges between 150 and 200 mAh. Choosing a replacement with comparable or higher capacity can enhance device performance and reduce the frequency of battery changes.

5. Terminal Type:
   Terminal type refers to the connectors used to attach the battery to the device. Ensuring that the terminal style of the replacement aligns with your device’s terminal configuration is crucial. Different configurations can affect the reliability and safety of the connection, as well as the battery’s performance.

What Are the Advantages and Disadvantages of Using Alternative Batteries for a 364?

The advantages and disadvantages of using alternative batteries for a 364 battery are significant.

1. Advantages:
   – Cost-effective
   – Eco-friendly options
   – Longer lifespan
   – Higher energy density
   – Reduced weight

2. Disadvantages:
   – Availability issues
   – Compatibility challenges
   – Potential performance issues
   – Voltage inconsistencies
   – Charging time variations

The discussion of these advantages and disadvantages reveals important perspectives for consumers and manufacturers alike.

1. Advantages:

Cost-effective: Alternative batteries often come at a lower price compared to traditional 364 batteries. Lower manufacturing costs can translate to better affordability for consumers.

Eco-friendly options: Many alternative batteries are designed with sustainability in mind. Options such as lithium-ion or nickel-metal hydride reduce toxic waste and promote recycling at the end of their life cycle.

Longer lifespan: Some alternative batteries can last significantly longer than traditional counterparts. This reduces the frequency of replacement and overall waste.

Higher energy density: Certain alternatives provide higher energy storage capacity. This means they can power devices longer without needing frequent replacements.

Reduced weight: Lightweight alternatives improve portability and ease of use. This is especially beneficial for devices that require easy handling.

2. Disadvantages:

Availability issues: Alternative batteries may not be readily available in all markets. This can limit consumer choices and accessibility.

Compatibility challenges: Some devices are specifically designed for traditional 364 batteries. Using alternatives may result in performance issues or malfunction.

Potential performance issues: Not all alternative batteries deliver the same power output as traditional batteries. Users may experience variability in performance depending on the alternative chosen.

Voltage inconsistencies: Voltage levels can vary between alternative batteries and original specifications. This inconsistency can lead to improper device functioning.

Charging time variations: Alternative batteries may take longer to charge compared to standard options. This can affect users who require quick turnaround times for battery replacement.

In summary, while alternative batteries for 364 options present several advantages, they also come with notable drawbacks that users should consider.

What Should You Consider Before Purchasing a Replacement Battery for a 364?

Before purchasing a replacement battery for a 364, consider the battery type, compatibility, quality, capacity, and price.

1. Battery Type
2. Compatibility
3. Quality
4. Capacity
5. Price

When evaluating these factors, it’s important to understand their implications for your specific needs and the performance of your device.

1. Battery Type: The battery type refers to the chemical composition of the battery. Common types include alkaline, lithium, and rechargeable nickel-metal hydride (NiMH). Each type has distinct voltage levels, shelf lives, and usage scenarios. For instance, lithium batteries tend to offer a longer shelf life and better performance in extreme temperatures compared to standard alkaline batteries.

2. Compatibility: Compatibility signifies whether a replacement battery will function correctly in your device. Not all batteries labeled as ‘364’ maintain the same dimensions or terminal types. Cross-referencing manufacturer specifications ensures that the battery fits, both physically and electrically. Misalignment can lead to device malfunction.

3. Quality: Quality assesses the performance and reliability of the battery. Well-known brands often provide more reliable products compared to generic options. A study by Consumer Reports (2021) found that reputable brands outperformed lower-tier batteries in longevity and performance consistency. High-quality batteries maintain their charge longer and perform better under load.

4. Capacity: Capacity indicates the energy storage capability of a battery, usually measured in milliampere-hours (mAh). Higher capacity typically means longer usage time before needing a replacement. When selecting a replacement, it may be beneficial to choose a battery with a higher capacity rating, provided it meets the device’s specifications without exceeding its limits.

5. Price: Price reflects the cost-effectiveness of the battery choice. It’s important to balance cost with quality and performance. While lower-priced batteries may seem attractive initially, they can lead to more frequent replacements and potentially greater long-term costs. It could be prudent to invest in a mid-range battery that strikes a balance between affordability and performance.

By carefully considering these factors, you can make an informed choice that meets your needs and extends the life of your device.

How Do 364 Compatible Batteries Compare to Other Battery Types?

364 compatible batteries are small, silver oxide batteries primarily used in watches and medical devices. They offer specific advantages compared to other battery types, including size, capacity, lifespan, and performance under varied temperatures.

• Size: 364 batteries are compact. Their small size allows them to fit into slim electronics like wristwatches, where larger batteries cannot. The dimensions typically range from 11.6 mm in diameter, providing minimal bulk.

• Capacity: These batteries generally provide a capacity of around 150 mAh, which supports devices that have low power demands. In comparison, alkaline batteries typically offer higher capacities but are larger in size. For instance, an AAA alkaline battery has a capacity of about 1000 to 1200 mAh.

• Lifespan: Silver oxide batteries, like the 364, have an impressive shelf life, often lasting up to 5 years or more when stored correctly. They outperform many alkaline batteries, which tend to have shorter lifespans due to leakage over time. A study in the Journal of Power Sources (Smith, 2021) highlights that silver oxide batteries retain capacity longer than alkaline types in similar conditions.

• Temperature performance: The 364 batteries operate effectively across a wide temperature range. They maintain consistent output even in extreme temperatures, which benefits sensitive devices requiring reliable power. For instance, alkaline batteries may struggle in colder environments, reducing their effectiveness.

• Voltage stability: The 364’s voltage remains stable at 1.55 volts throughout its discharge cycle. This contrast with alkaline batteries, which can start at a higher voltage but taper off during use, can lead to device malfunctions in precision applications.

Due to these characteristics, 364 compatible batteries are often preferred for specific applications. Their advantages make them suitable for devices requiring small size, reliable power, and stable voltage.

Related Post:

• Can a 364 battery replace a 377a battery
• Can a 364 battery work to replace 626 batteries
• Can you replace with a 364 button battery cross reference
• What can replace a 18650 battery
• What battery can replace cr2032