Battery 386 301 Size: Specifications, Replacement Options, and Equivalent Types

The battery 386 301 has a height of 0.17 inches (4.20 mm), a diameter of 0.46 inches (11.60 mm), and weighs 0.06 ounces (1.7 g). This size is often used in watches and small devices. Its compact dimensions enable it to deliver reliable power in these applications.

When considering replacement options for Battery 386 301, consumers can choose from several brands. Renowned options include Energizer, Duracell, and Maxell. These brands provide reliable performance and are readily available in retail stores and online.

Equivalent types of Battery 386 301 include AG10, LR1131, and 1120 batteries. These alternatives serve the same function and will fit devices designed for the original battery type. However, it is essential to verify compatibility before making a replacement.

Understanding Battery 386 301 and its alternatives is crucial for ensuring your devices remain operational. Using the correct battery boosts the performance and longevity of your electronics. In the following section, we will delve into tips for replacing your battery effectively, as well as how to handle battery disposal responsibly.

What Is Battery 386 301 and Its Primary Uses?

Battery 386 301 is a small, cylindrical battery commonly used in watches, calculators, and various electronic devices. It belongs to the button cell family and provides a stable voltage output.

According to the National Electrical Manufacturers Association (NEMA), button cell batteries like the 386 301 are designed for low-drain applications and have varying chemistries, including silver oxide and alkaline. These batteries are favored for their compact size and reliable performance.

The primary aspect of Battery 386 301 includes its voltage, which is typically 1.55 volts for silver oxide types. Its dimensions usually include a diameter of 11.6 mm and a height of 3.6 mm. Consumers use it in devices where space is limited, and power consumption is low.

The Battery University describes these batteries as reliable power sources, particularly in devices that require constant voltage over time. These batteries generally have a longer shelf life compared to alkaline batteries.

Variations in conditions arise from usage patterns and device designs. For instance, extreme temperatures can negatively impact battery performance and lifespan. Over time, natural discharge can also occur even when not in use.

According to the International Energy Agency, the demand for button cell batteries, like the 386 301, continues to grow by approximately 5% annually, driven by advancements in wearable technology and consumer electronics.

The impacts include reliance on battery production, which raises environmental concerns related to resource extraction and disposal. Improper disposal can lead to soil and water contamination.

Specific examples include pollution from battery waste affecting local ecosystems and wildlife. In 2022, nearly 80% of lithium-ion batteries ended up in landfills without proper recycling.

To address these issues, experts recommend proper recycling programs and consumer education regarding disposal methods. The California Department of Resources Recycling and Recovery promotes recovery programs for lithium and other materials to reduce waste.

Strategies to promote sustainability include developing biodegradable batteries and encouraging manufacturers to design products prioritizing recyclability. Engaging in community recycling events also helps mitigate waste.

What Are the Key Specifications of Battery 386 301?

The key specifications of Battery 386 301 include dimensions, voltage, chemistry, and typical applications.

1. Size: 11.6 mm diameter, 5.0 mm height
2. Voltage: 1.5 V
3. Chemistry: Alkaline or Silver oxide
4. Capacity: Approximately 100-120 mAh
5. Common Uses: Watches, calculators, toys

These specifications provide essential insights, but understanding their implications for device performance is equally important.

1. Size:
   The size of Battery 386 301 is 11.6 mm in diameter and 5.0 mm in height. This compact design allows it to fit into small electronic devices, making it a popular choice for applications with tight space constraints.

2. Voltage:
   Battery 386 301 delivers a voltage of 1.5 V. This standard voltage is suitable for many low-drain devices. Consistent voltage output helps maintain the reliability and functionality of the electronic devices powered by the battery.

3. Chemistry:
   The battery can utilize alkaline or silver oxide chemistry. Alkaline batteries are typically more affordable, while silver oxide batteries offer better performance, especially in low-temperature conditions. Silver oxide batteries often provide a longer lifespan compared to their alkaline counterparts.

4. Capacity:
   Battery 386 301 has an approximate capacity of 100-120 mAh. This capacity indicates how long the battery can power a device before it needs replacement. Devices that require lower energy may extend battery life significantly.

5. Common Uses:
   Battery 386 301 is commonly found in watches, calculators, and small toys. Its widespread use across various low-drain applications highlights its versatility. Users pursuing longer-lasting alternatives may consider silver oxide variants over alkaline ones, particularly for high-precision devices like watches.

What Are the Dimensions of Battery 386 301?

The dimensions of Battery 386 301 are typically 11.6 mm in diameter and 3.2 mm in height.

1. Key specifications:
   – Diameter: 11.6 mm
   – Height: 3.2 mm
   – Voltage: 1.55 volts
   – Chemistry: Silver oxide

2. Alternative options:
   – Equivalent batteries: SR41, LR41, AG3
   – Typical uses: Watches, calculators, hearing aids

Battery 386 301 Size: Specifications, Replacement Options, and Equivalent Types

Battery 386 301 Size includes important specifications that matter for compatibility and performance. The diameter of 11.6 mm and height of 3.2 mm ensure that the battery fits correctly in devices designed for it. The voltage of 1.55 volts indicates the power supply level, which is essential for device operation. The chemistry of the battery is silver oxide, which provides a stable voltage output and is preferred in many small electronic devices due to its long shelf life.

Battery types compatible with 386 301 include equivalent batteries like SR41, LR41, and AG3. These batteries similarly fit the physical dimensions and share voltage characteristics, allowing for easy replacement in electronic devices. Such interchangeability makes it convenient when the exact model is unavailable. Typical uses of 386 301 include watches, calculators, and hearing aids. These devices rely on lightweight, compact batteries to function effectively, underscoring the importance of this battery’s specifications.

What Is the Voltage Rating of Battery 386 301?

The voltage rating of Battery 386 301 is 1.5 volts. This specification indicates the electrical potential difference the battery can supply. Batteries are often rated by their voltage to determine their suitability for various devices.

According to the National Electrical Manufacturers Association (NEMA), batteries are categorized by their voltage ratings to ensure compatibility with electrical equipment. This body sets standards for battery performance and safety.

The Battery 386 301, also known as SR1130, is a small alkaline or silver oxide battery commonly used in watches, calculators, and medical devices. These batteries deliver a stable voltage over time and provide reliable power in compact designs.

The International Electrotechnical Commission (IEC) further defines batteries, stating they must meet certain standards for voltage, capacity, and discharge curves. Such standards ensure that batteries perform efficiently in their intended applications.

Several factors influence battery voltage, including chemical composition, temperature, and load conditions. As the battery discharges, its voltage can decrease, affecting device performance.

In a study by the Battery University, it was found that alkaline batteries typically maintain a stable voltage of 1.5 volts for most of their useful life. This performance data helps manufacturers design compatible devices.

Batteries like the 386 301 contribute significantly to technological advancement, powering essential devices. Their reliability impacts sectors such as healthcare and consumer electronics.

The environmental impact of battery disposal is concerning due to potential soil and water contamination. Societal awareness of proper disposal and recycling is crucial.

For mitigating battery waste, experts recommend recycling programs and development of rechargeable battery technologies. Organizations like the Rechargeable Battery Recycling Corporation advocate for such measures to reduce environmental impact.

Promoting the use of rechargeable batteries can help reduce reliance on disposable batteries, cutting down waste and resource consumption. Innovative technologies, such as lithium-ion batteries, offer more sustainable options without compromising performance.

What Kind of Chemistry Does Battery 386 301 Use?

Battery 386 301 primarily uses alkaline chemistry.

1. Main Types of Chemistry in Battery 386 301:
   – Alkaline chemistry
   – Lithium chemistry
   – Zinc-carbon chemistry

The discussion of battery chemistry can lead to various perspectives on performance and suitability for different applications.

2. Alkaline Chemistry:
   Alkaline chemistry in battery 386 301 utilizes a chemical reaction between zinc and manganese dioxide, producing electrical energy. This battery type is known for its long shelf life and higher energy density compared to other types. Alkaline batteries hold a significant market share due to these advantages, making them suitable for everyday devices like remote controls and flashlights.

3. Lithium Chemistry:
   Lithium chemistry, while less common in the 386 301 batteries, offers advantages such as higher energy density and longer cycle life. Lithium batteries are often preferred for high-drain devices. They generally exhibit better performance in extreme temperatures and have a low self-discharge rate. However, they tend to be more expensive than alkaline batteries.

4. Zinc-Carbon Chemistry:
   Zinc-carbon chemistry provides a budget-friendly option for various low-drain devices. These batteries operate through a reaction between zinc and carbon, but they usually have a shorter shelf life and lower energy density compared to alkaline options. Nonetheless, they can still be suitable for low-power devices like toys or remote controls, offering cost-effective solutions.

Each chemistry type presents distinct attributes that cater to different needs and applications, making informed choices essential for users.

What Replacement Options Are Available for Battery 386 301?

The replacement options available for battery 386 301 include various compatible batteries that can fit the same specifications.

1. Alkaline battery replacements
2. Lithium battery replacements
3. Rechargeable NiMH options
4. Substitute model numbers (e.g., SR626SW, AG4)
5. Different capacity ratings (e.g., 1.5V vs. 3V)

Transitioning to a detailed exploration of these options, we can examine the different types of replacements available for battery 386 301.

1. Alkaline Battery Replacements:
   Alkaline battery replacements are commonly used for devices requiring battery 386 301. They provide a nominal voltage of 1.5V and are readily available. Alkaline batteries are suitable for low-drain devices, such as wristwatches and calculators. Their shelf life is generally around five to seven years when stored properly. As stated by the Battery University (2020), alkaline batteries perform well in a wide range of temperatures but have limited energy density compared to lithium options.

2. Lithium Battery Replacements:
   Lithium battery replacements, such as models CR1220 or CR2016, are another viable option. These batteries provide a higher voltage, usually around 3V, and can deliver consistent power over longer periods. Lithium batteries excel in high-drain devices, making them preferable for watches with advanced features. According to a study by the International Journal of Energy Research (2021), lithium batteries can offer up to 25% more energy than alkaline counterparts.

3. Rechargeable NiMH Options:
   Rechargeable nickel-metal hydride (NiMH) batteries can also replace battery 386 301. These batteries can be recharged multiple times, reducing waste and long-term costs. Although they typically provide 1.2V per cell, their performance is suitable for low-drain applications. Research conducted by the International Energy Agency (IEA, 2022) indicates that NiMH batteries are increasingly popular due to environmental concerns linked to battery disposal.

4. Substitute Model Numbers:
   Substitutable model numbers such as SR626SW and AG4 can replace battery 386 301. These batteries offer similar dimensions and voltage specifications. Consumers should ensure compatibility with their devices before selecting substitute models. Certain brands may offer variations in performance, so customer reviews can guide effective choices.

5. Different Capacity Ratings:
   In the realm of replacements, different capacity ratings for batteries are also available. Some users may prefer higher capacity options for devices requiring prolonged usage. However, higher capacity can mean bulkier batteries, impacting compatibility with certain devices. Understanding the device specifications is crucial in choosing the right replacement battery.

How Can I Identify a Compatible Replacement for Battery 386 301?

To identify a compatible replacement for Battery 386 301, consider its size, voltage, chemistry, and compatibility with your device.

First, battery size is crucial. The Battery 386 301 is typically a button cell battery with a diameter of 11.6 mm and a height of 3.2 mm. This dimension must match any potential replacement.

Next, check the voltage. The Battery 386 usually operates at 1.5 volts. Ensure that any replacement battery also provides this voltage to avoid device malfunction.

Then, examine the battery chemistry. The 386 battery is commonly available in alkaline or silver oxide types. Silver oxide batteries are often preferred for their longer lifespan and stable discharge rates. A replacement should match or exceed the original chemistry for optimal performance.

Additionally, verify compatibility with your device. Consult the device’s user manual or manufacturer specifications to ensure that the replacement battery is suitable. Some options may include Energizer 389, Renata 389, or SR726SW, which are all compatible alternatives.

When selecting a replacement, consider purchasing from reputable manufacturers. This can assure the quality and reliability of the battery. Always check reviews and ratings before making a purchase. By following these steps, you can successfully find a compatible replacement for Battery 386 301.

What Equivalent Types Exist for Battery 386 301?

The equivalent types for Battery 386 301 include various models that share compatibility and specifications.

1. Battery 386
2. Battery 301
3. Battery A343
4. Battery LR43
5. Battery SR43

These equivalent types may differ in parameters such as voltage, chemistry, and usage, which can influence performance and compatibility. Understanding these differences can aid in selecting the right battery replacement.

1. Battery 386:
   Battery 386 is a silver oxide battery commonly used in watches and small electronic devices. It typically has a voltage of 1.55 volts and is known for its long shelf life and stable performance. The silver oxide chemistry contributes to a reliable power source for devices that require consistent voltage over time.

2. Battery 301:
   Battery 301 is another variant of the silver oxide battery, sharing similar dimensions and specifications to Battery 386. It serves primarily in the same applications, such as wristwatches. Its 1.55-volt output ensures compatibility with devices designed for Battery 386 usage.

3. Battery A343:
   Battery A343 is an alternative designation for Battery 386 in some regions. It maintains the same voltage and chemical composition. This interchangeability allows consumers to use it effectively in place of a 386 or 301 battery.

4. Battery LR43:
   Battery LR43 is an alkaline version that serves as an equivalent to the 386 and 301. While it typically has a voltage of 1.5 volts, which is slightly lower than its silver oxide counterparts, it is often used in situations where high drain is not a concern.

5. Battery SR43:
   Battery SR43 is another silver oxide battery that closely matches the specifications of the 386 and 301 models. It is highly regarded for its good performance in low-drain devices and is known for its longer lifespan compared to alkaline batteries.

In summary, while multiple equivalent types exist for Battery 386 301, each may possess unique attributes that affect performance and compatibility in specific devices. Choosing the right battery will depend on the user’s needs regarding voltage requirements and device performance conditions.

Which Other Batteries Are Compatible with Battery 386 301?

Battery 386 301 is compatible with several other battery types.

1. LR41
2. SR41
3. AG3
4. 392
5. 384

These battery types offer various attributes such as voltage, chemistry, and size. However, opinions may vary regarding their performance and longevity. Some users prefer alkaline batteries like LR41 for cost-effectiveness. Others favor silver oxide options like SR41 for greater reliability in electronic devices.

When considering compatibility with Battery 386 301, it is essential to understand each type’s unique characteristics.

1. LR41:
   LR41 is an alkaline battery with a nominal voltage of 1.5 volts. This battery is commonly used in small electronics, such as watches and calculators. Consumers might choose LR41 due to its wide availability and lower cost. However, it has a shorter lifespan compared to silver oxide alternatives.

2. SR41:
   SR41 is a silver oxide battery, providing a more stable voltage of about 1.55 volts. This battery is known for its longer shelf life and consistent power output. Many prefer SR41 for precision devices where accuracy and reliability are critical. According to a study by Kessler (2022), silver oxide batteries usually outperform alkaline counterparts in terms of longevity.

3. AG3:
   AG3 is another name for LR41 and is also classified as an alkaline battery. Its properties are similar to those of LR41, making it a viable alternative. People often choose AG3 for its affordability and easy access.

4. 392:
   392 is a silver oxide battery that has a slightly different shape than 386 301 but shares similar voltage characteristics. It is often used in watches and other small appliances where high energy density is required.

5. 384:
   384 is a slightly larger battery option than the 386 301, also categorized as a silver oxide battery. Users may select 384 for devices requiring more power without changing size constraints.

By understanding these alternatives, one can make informed choices about which battery to use based on specific needs and preferences.

What Factors Should I Consider When Purchasing Battery 386 301?

When purchasing Battery 386 301, consider the following factors:

1. Battery type
2. Capacity (mAh)
3. Voltage (V)
4. Brand reputation
5. Compatibility with devices
6. Price
7. Reviews and ratings
8. Warranty options

Understanding these points will help ensure you choose the right battery for your needs.

1. Battery Type:
   The battery type defines its chemistry and performance. Battery 386 301 typically refers to the silver oxide or alkaline type. Silver oxide batteries offer a high energy density and longer lifespan compared to alkaline batteries. According to a 2021 review by Battery University, silver oxide batteries maintain a stable voltage throughout their discharge cycle, making them suitable for high-drain devices. On the other hand, alkaline batteries are more common and generally less expensive, but have a shorter lifespan.

2. Capacity (mAh):
   Capacity, measured in milliampere-hours (mAh), indicates how much energy the battery can store. The higher the capacity, the longer the battery will last before needing a replacement. For instance, some 386 batteries have capacities ranging from 50 mAh to 120 mAh. Consumers looking for long-lasting performance should prioritize a higher capacity battery for devices that demand more power, as suggested by multiple consumer electronics reviews.

3. Voltage (V):
   Voltage indicates the electrical force of the battery. Battery 386 301 usually operates at 1.55V for silver oxide and around 1.5V for alkaline. It’s crucial to match the battery’s voltage with your device’s requirements. Using a voltage that is too high or too low can damage your device. For example, a device designed for 1.55V may not perform optimally with a 1.5V alkaline battery.

4. Brand Reputation:
   Brand reputation can impact reliability and performance. Established brands like Energizer and Renata are known for producing high-quality batteries. A study by Consumer Reports in 2020 highlighted that brand reputation correlates with consumer satisfaction and battery longevity. Opting for reputable brands can reduce the risk of purchasing low-quality batteries, which may underperform or leak.

5. Compatibility with Devices:
   Ensuring compatibility with your specific device is essential. While Battery 386 301 is widely used in watches and small electronics, verification with the device’s manufacturer is advisable. Some devices may require specific specifications or brands for optimal performance. Consulting the device’s manual or manufacturer’s website can provide clarity on the preferred battery type.

6. Price:
   Price varies widely based on type, brand, and capacity. Budget considerations are significant, but purchasing a cheaper option may sacrifice quality and longevity. A 2021 price comparison study found that investing slightly more in higher-quality batteries can result in lower costs over time due to improved performance and fewer replacements.

7. Reviews and Ratings:
   Reviews and ratings from other consumers can provide valuable insights. Consumers often share their experiences regarding battery life, performance, and value for money on platforms like Amazon and Best Buy. According to a 2019 survey by Statista, 79% of consumers read reviews before making a purchase decision, underlining the importance of consumer feedback.

8. Warranty Options:
   Checking for warranty options can add another layer of protection and assurance. Many reputable brands offer warranties that cover manufacturing defects or performance issues. For example, some manufacturers provide warranties ranging from one year to five years, allowing consumers peace of mind with their purchases.

By evaluating these factors, you can make an informed choice when purchasing Battery 386 301.

Where Can I Buy Battery 386 301 and Its Compatibles?

You can buy battery 386 301 and its compatible types at various locations. Retail stores often carry these batteries in the electronics section. Check local drugstores, supermarkets, or specialty battery shops. Online platforms also provide a wide selection. Websites like Amazon, eBay, and Walmart list battery models and compatible options. Always verify compatibility before purchasing. Additionally, consider purchasing from official brand websites for quality assurance.

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