Duracell Battery Group Size: Key Insights, Specifications, and Cross Reference Chart

{Duracell batteries come in various group sizes. CR1216 has a capacity of 25 mAh, CR1220 is 38 mAh, CR1616 is 50 mAh, CR1620 is 80 mAh, and CR1632 is 145 mAh. For automotive use, Duracell offers reliable, maintenance-free options like Group Size 35 and 24F.}

Specifications for Duracell batteries vary by group size. For example, a Group 24 battery typically provides about 70 amp-hours of capacity, while a Group 31 battery can offer up to 100 amp-hours. This capacity is critical for devices needing sustained power over time.

A cross-reference chart is invaluable for consumers comparing Duracell batteries with other brands. It details the compatibility between different batteries, helping consumers make informed choices. For instance, a Group 24 battery from another brand may be cross-referenced to show its equivalency to a Duracell Group 24.

Understanding battery group sizes, specifications, and cross-reference options enhances your ability to select the best power source. Next, we will explore the specific applications of various Duracell battery group sizes, shedding light on their use in everyday devices and specialized equipment.

What is the Group Size of a Duracell Battery?

The group size of a Duracell battery refers to the specific classification or designation that indicates its physical size and electrical specifications. In battery terminology, group sizes are typically defined by the dimensions and shape, determining compatibility with devices.

According to the Consumer Battery Association, group sizes help users select appropriate batteries for devices, ensuring optimal performance and safety. Duracell batteries come in various group sizes, such as AA, AAA, C, D, and 9V, each suited for different applications.

Each group size has distinct attributes. For example, AA batteries are commonly used in household items like remote controls, while D batteries are typically found in larger devices such as flashlights and portable radios. The group size affects battery capacity and voltage, influencing how long a device can operate.

The International Electrotechnical Commission also provides definitions for standard battery sizes, such as stating that an AA battery measures 14.5 mm in diameter and 50.5 mm in length. This standardization ensures consistent performance across brands like Duracell.

Factors influencing battery choice include device requirements, energy demands, and cost. An improper group size can lead to device malfunctions, increased wear, or safety hazards.

In 2021, Duracell reported that it produced over 10 billion batteries annually, showcasing their market presence and consumer reliance on their products. The increasing demand for portable electronics suggests that battery utilization will continue to grow.

The implications of group sizes extend to waste management and recycling. Mismanaged batteries can lead to environmental contamination due to chemicals.

To mitigate battery waste, organizations like Call2Recycle recommend proper disposal and recycling practices. They advocate for public education programs aimed at increasing awareness of battery life cycles and environmental responsibility.

Technologies like rechargeable battery systems present sustainable solutions. Innovations in battery chemistry also aim to reduce environmental impacts and enhance performance.

Overall, understanding the group size of Duracell batteries helps consumers make better choices and promotes environmental stewardship.

What are the Different Group Sizes for Duracell Batteries?

The different group sizes for Duracell batteries are as follows: AA, AAA, C, D, 9V, and specialty batteries.

1. AA
2. AAA
3. C
4. D
5. 9V
6. Specialty batteries (e.g., coin cells, rechargeable options)

The different group sizes for Duracell batteries showcase a range of applications, from common household uses to specialized equipment. This variety allows consumers to choose the appropriate battery for their specific needs.

1. AA:
   The AA battery is the most popular size, widely used in everyday electronics such as remote controls, toys, and cameras. Duracell AA batteries come in alkaline and rechargeable versions. According to Duracell’s specifications, the alkaline version provides a reliable power source, with a shelf life of up to 10 years. Research by Consumer Reports shows that AA batteries account for over 60% of the battery market due to their versatility.

2. AAA:
   The AAA battery is smaller than the AA and is often used in devices like flashlights, smaller remote controls, and digital cameras. Duracell offers alkaline and rechargeable AAA batteries, with the alkaline version also having a long shelf life of about 10 years. As noted in a 2021 report by Statista, AAA batteries hold a significant share of the consumer battery market, appealing to users who prioritize compact size.

3. C:
   C batteries are larger than AA and AAA batteries. They are typically utilized in larger devices like portable radios and toys. Duracell C batteries are available in standard alkaline and rechargeable formats. The durability and power capacity are vital for devices that require higher energy, as highlighted in a 2020 review by Wired Magazine.

4. D:
   D batteries are among the largest common sizes and are used in high-drain devices, such as large flashlights and radio receivers. Duracell D batteries are also offered in alkaline and rechargeable types. Their large size allows for greater power output, which is essential for devices requiring a sustained energy supply. According to the Battery Council International, D batteries are commonly used in industrial applications as well.

5. 9V:
   The 9V battery is typically used in smoke detectors, radios, and medical devices. Duracell’s 9V batteries come mainly in alkaline and lithium types, each providing different benefits in terms of power and longevity. Alkaline 9V batteries can last several years in low-drain devices, while lithium versions offer extended shelf life and performance in extreme temperatures. The National Fire Protection Association recommends changing 9V batteries in smoke detectors annually.

6. Specialty Batteries:
   Duracell also offers a variety of specialty batteries, including coin cells and various sizes tailored for specific devices. Coin-cell batteries, such as CR2032, are used in watches and small electronics. Duracell makes both alkaline and lithium variations. Research indicates that specialty batteries often face less competition, making Duracell a strong leader in this sector due to their extensive distribution and availability.

The breadth of group sizes for Duracell batteries caters to diverse consumer needs, ensuring reliable power in numerous applications.

How Does Group Size Impact the Performance of Duracell Batteries?

Group size significantly impacts the performance of Duracell batteries. Battery group size refers to the physical dimensions and capacity of the battery. Larger group sizes usually have a higher energy capacity. This means they can power devices longer than smaller group sizes.

Larger batteries often support higher electrical loads. Therefore, they perform better in high-drain devices, such as power tools and gaming consoles. Smaller batteries, on the other hand, are suitable for low-drain devices like remote controls and clocks.

Battery efficiency can also vary by group size. Larger batteries tend to have more chemical reactants, which can lead to increased efficiency and longer life. Conversely, smaller batteries may drain faster in demanding applications.

In summary, the performance of Duracell batteries relates closely to their group size. Larger batteries support higher energy demands and tend to last longer. In contrast, smaller batteries cater to low-energy needs. Choosing the right group size is essential for optimal device performance.

What Are the Specifications for Common Duracell Battery Group Sizes?

Duracell batteries are categorized into various group sizes, each with specific specifications. Common Duracell battery group sizes include AAA, AA, C, D, and 9V.

1. AAA
2. AA
3. C
4. D
5. 9V

The above list highlights the most frequently used Duracell battery sizes and sets the stage for a deeper understanding of each type.

1. AAA:
   AAA batteries are compact in size. They typically measure 44.5 mm in length and 10.5 mm in diameter. Commonly used in small devices like remote controls and digital cameras, AAA batteries offer a low capacity of about 1000-1200 mAh (milliamp hours).

2. AA:
   AA batteries are slightly larger than AAA batteries. They usually measure 50.5 mm in length and 14.5 mm in diameter. AA batteries are well-known for their use in toys, flashlights, and many household devices, offering a capacity of about 2000-3000 mAh.

3. C:
   C batteries are larger cylindrical batteries. Their dimensions are approximately 50 mm in length and 26.2 mm in diameter. They deliver more power and are often used in radios and toys, providing a capacity of about 8000-10000 mAh.

4. D:
   D batteries are among the largest standard size batteries, measuring about 61.5 mm by 33 mm. They are commonly found in larger devices such as boomboxes and high-drain flashlights, with a capacity of around 12000-18000 mAh.

5. 9V:
   9V batteries are rectangular in shape and typically measure 48.5 mm by 26.5 mm. They are frequently used in smoke detectors and wireless microphones, providing a capacity of about 500-700 mAh.

Overall, each Duracell battery size serves specific applications, meeting diverse power requirements across a range of devices. Understanding these specifications allows consumers to make informed choices regarding their battery needs.

How Can I Cross Reference Duracell Battery Group Sizes with Other Brands?

You can cross-reference Duracell battery group sizes with other brands by using available battery cross-reference charts and checking specifications for compatibility.

To perform this effectively, consider the following key points:

1. Use Battery Cross-Reference Charts: Many manufacturers provide charts that list equivalent battery sizes across different brands. These charts can be found on various websites and in physical manuals. For example, Duracell may show that their AA battery, designated as “MN1500,” is equivalent to Energizer’s “E91” or Rayovac’s “824”.

2. Check Battery Dimensions and Specifications: Ensure that the physical dimensions match. Common group sizes include AAA, AA, C, D, 9V, and others. Understanding these specifications prevents compatibility issues. For instance, an AA battery typically measures 50.5 mm in length and 14.5 mm in diameter.

3. Consult Manufacturer Guidelines: Each battery manufacturer often provides guidelines on their website. For example, Duracell specifies that their batteries meet certain voltage and capacity standards. Matching these values with other brands helps ensure functionality.

4. Review Online Resources and Databases: Websites like Battery University compile various battery types, sizes, and compatibility information. This resource can aid in quick cross-referencing.

5. Ask Retailers or Professionals: Local electronic stores or professionals in the battery retail space often possess knowledge about battery group sizes and can guide you in finding the correct cross-reference information.

6. Customer Reviews and Forums: Online customer reviews and battery-specific forums can provide insights into which batteries perform well in various devices when using cross-branded options.

By using these strategies, you can effectively cross-reference Duracell battery group sizes with those from other brands, ensuring you select the most suitable battery for your needs.

What Factors Should Be Considered When Cross-Referencing Duracell Battery Sizes?

Several factors should be considered when cross-referencing Duracell battery sizes to ensure compatibility and efficiency.

1. Battery Size
2. Voltage Rating
3. Chemistry Type
4. Capacity (mAh)
5. Application Compatibility
6. Brand Compatibility

Understanding these factors can enhance the selection process and ensure optimal performance from your devices.

1. Battery Size:
   Battery size determines the physical dimensions of the battery. Common sizes include AA, AAA, 9V, and C cells. Each device is designed to fit specific battery sizes. Using the wrong size can lead to non-functioning devices or damage.

2. Voltage Rating:
   Voltage rating indicates the electrical potential of the battery. Most Duracell batteries have standard voltage ratings such as 1.5V for alkaline batteries. Choosing a battery with an incompatible voltage can affect device performance or cause malfunctions.

3. Chemistry Type:
   Chemistry type refers to the chemical composition of the battery, which impacts performance characteristics. For instance, Duracell offers alkaline, lithium, and NiMH (Nickel-Metal Hydride) batteries. Devices designed for one chemistry type may not work properly with another.

4. Capacity (mAh):
   Capacity, measured in milliamp hours (mAh), indicates how long a battery can power a device before depleting. A higher capacity generally means longer usage time. Cross-referencing battery capacity ensures that you choose a battery that meets or exceeds the energy requirements of your device.

5. Application Compatibility:
   Application compatibility involves matching the battery to the device it powers. For example, digital cameras might require high-drain batteries, while remote controls may work adequately with lower-drain batteries. Ensuring compatibility can prevent performance issues.

6. Brand Compatibility:
   Brand compatibility assesses whether a Duracell battery can replace batteries from other manufacturers. While many brands use standard sizes, different manufacturers may have variations in chemistry and performance. Using a Duracell battery can provide additional assurance of quality and longevity compared to lesser-known brands.

Considering these factors will help ensure proper battery selection and optimal device functionality.

What are the Applications of Different Duracell Battery Group Sizes?

Duracell batteries come in various group sizes, each designed for specific applications. These applications range from powering small electronic devices to larger machinery.

1. Group 6 (AA batteries)
2. Group 5 (AAA batteries)
3. Group 9V batteries
4. Group D batteries
5. Group C batteries
6. Specialty batteries (e.g., 123A, 675, etc.)

Each Duracell battery group size serves distinct functions that cater to different needs. Understanding these applications can help consumers choose the right battery for their devices.

1. Group 6 (AA Batteries): Group 6 batteries are commonly used in household devices. They power remote controls, flashlights, and toys. These batteries are versatile and widely available.

2. Group 5 (AAA Batteries): Group 5 batteries are smaller than AA batteries. They are frequently used in smaller devices like wireless mice, digital cameras, and small flashlights. Their compact size makes them suitable for portable electronics.

3. 9V Batteries: 9V batteries are often found in smoke detectors, guitar effects pedals, and certain alarm systems. Their higher voltage allows them to supply power to devices that require more energy.

4. Group D Batteries: Group D batteries are larger and can deliver a higher capacity. They are typically used in devices like lanterns, large flashlights, and portable radios. Their size makes them suitable for high-drain devices.

5. Group C Batteries: Group C batteries are used in medium-drain devices. They power electric toys, portable speakers, and certain medical devices. Their balance of size and power handling makes them versatile.

6. Specialty Batteries (e.g., 123A, 675): Specialty batteries are designed for specific applications. For instance, the 123A battery is widely used in cameras, while the 675 battery powers hearing aids. Each specialty battery fulfills a unique role.

Understanding the specific applications of different Duracell battery group sizes can help optimize device performance. Consumers can make informed choices based on their needs.

How Do Duracell Battery Group Sizes Compare to Competitor Brands?

Duracell battery group sizes can be compared to competitor brands such as Energizer, Rayovac, and Panasonic. Below is a comparison of common battery sizes and their designations across these brands.

Battery Size	Duracell	Energizer	Rayovac	Panasonic	Common Uses
AA	MN1500	EN91	815	LR6	Remote controls, toys
AAA	MN2400	EN92	813	LR03	TV remotes, flashlights
C	MN1400	EN93	814	LR14	Radios, toys
D	MN1300	EN94	815A	LR20	Flashlights, large toys
9V	MN1604	522	6V	6F22	Smoke detectors, guitar pedals

What Are the Benefits of Choosing the Right Duracell Battery Group Size?

Choosing the right Duracell battery group size offers several benefits that enhance device performance and longevity.

1. Improved Compatibility
2. Enhanced Performance
3. Longer Lifespan
4. Cost Efficiency
5. Optimal Safety

Understanding these points provides a critical foundation for making informed decisions about battery selection.

1. Improved Compatibility:
Choosing the right Duracell battery group size means ensuring that the battery fits properly in the device. Correct size leads to seamless integration, avoiding issues such as poor connections. For example, a group size 27 battery is ideal for certain cars, while using an incorrect size can lead to devices not functioning correctly.

2. Enhanced Performance:
Selecting the appropriate group size affects the overall performance of the device. A properly sized battery delivers consistent power output, which is crucial for high-drain devices. According to a study by Battery University, devices perform best when the battery specifications match the manufacturer’s recommendations.

3. Longer Lifespan:
Using the right Duracell battery group size can extend the battery’s lifespan. Proper sizing reduces strain on energy cells. Research published in the Journal of Power Sources indicates that batteries operate more efficiently and last longer when they are not overworked or undersized.

4. Cost Efficiency:
Investing in the correct battery group size can save money in the long run. While the upfront cost may be comparable, the efficiency and longevity of the battery reduce replacement frequency. A 2021 Consumer Reports study noted that accurate battery sizing leads to fewer replacements, thus offering budget-friendly benefits over time.

5. Optimal Safety:
Choosing the correct battery size contributes to device safety. Overly large batteries can generate excessive heat, posing fire risks, while too-small batteries may leak fluids, damaging the device. The Institute of Electrical and Electronics Engineers (IEEE) has pointed out that proper battery sizing significantly reduces safety hazards.

In summary, selecting the right Duracell battery group size ensures compatibility, enhances performance, increases lifespan, promotes cost efficiency, and optimizes safety.

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