Size 26 Battery Dimensions: Features, Specs, And Performance Of Group 26 Batteries [Updated On- 2025]

A size 26 battery has the following dimensions: Part Number: [insert part number if needed], Length: 8.75 inches, Width: 6.75 inches, Height: 8 inches. These dimensions are important for understanding the physical size and ensuring the battery fits properly in your device.

In terms of specifications, size 26 batteries usually offer a capacity ranging from 45 to 70 amp-hours. Their cold cranking amps rating typically falls between 500 to 700, ensuring reliable performance even in low temperatures. Performance is further enhanced by their ability to withstand deep cycling, making them suitable for applications that require regular charging and discharging.

Overall, size 26 battery dimensions and features make them a preferred choice for many users seeking durability and efficiency. Understanding these elements is essential for selecting the right battery for specific needs.

Next, exploring the advantages of using size 26 batteries will provide deeper insights into their benefits and capabilities in various environments.

# Table of Contents

What Are the Dimensions of a Size 26 Battery?

The dimensions of a size 26 battery, also known as Group 26, typically measure 12.0 inches in length, 6.8 inches in width, and 7.5 inches in height.

The main points regarding size 26 battery dimensions include:
1. Standard dimensions
2. Weight considerations
3. Terminal configurations
4. Applications and uses

The specifications of a size 26 battery reveal various attributes that can influence its performance and suitability for different applications.

Standard Dimensions: The size 26 battery dimensions are standardized to 12.0 x 6.8 x 7.5 inches. This uniformity allows manufacturers to design compatible housing for vehicles or equipment. For example, the standardization aids in ensuring that the battery fits securely within the designated battery compartment.
Weight Considerations: A typical size 26 battery weighs around 60-70 pounds. This weight can affect handling and installation processes. Heavy batteries, while offering stability, may require additional support mechanisms for transportation and installation.
Terminal Configurations: Size 26 batteries usually come with top or side terminal configurations. The terminal type can impact the ease of connection and compatibility with electrical systems. Users may have preferences based on specific installation requirements or equipment layouts.
Applications and Uses: Size 26 batteries are commonly used in vehicles, marine applications, and recreational vehicles. Their power capacity supports reliable performance in demanding situations. For example, they are often found in larger vehicles that require consistent power for starting and accessory functions.

Understanding these specifications helps consumers choose the right battery for their needs, facilitating proper installation and optimal performance.

What Distinguishing Features Define a Size 26 Battery?

The distinguishing features of a Size 26 Battery include its dimensions, type, terminal configuration, and application.

Dimensions:
– Length: 6.8 inches
– Width: 7.0 inches
– Height: 7.5 inches
Type:
– Lead-Acid
– Lithium-Ion options available
Terminal Configuration:
– Post and/or side terminal options
Application:
– Used primarily in automotive and marine applications
Capacity:
– Typically ranging from 70 to 100 amp-hours
Weight:
– Generally weighs between 40 to 60 pounds

Each characteristic contributes to the utility and suitability of Size 26 Batteries in various settings.

Understanding the Size 26 Battery dimensions and its associated features is essential for selecting the right battery for specific needs.

Dimensions:
Size 26 Battery dimensions are standard for its class. The length is 6.8 inches, the width is 7.0 inches, and the height is 7.5 inches. These dimensions allow for compatibility with specific vehicles and equipment designed for this size. Proper fitment ensures optimal performance.
Type:
The Size 26 Battery typically comes in lead-acid or lithium-ion variations. Lead-acid batteries are known for their reliability and lower cost. Lithium-ion batteries, while more expensive, offer higher energy density, lighter weight, and longer lifespan. A user may choose based on cost or performance needs.
Terminal Configuration:
Size 26 Batteries may feature post or side terminal configurations. Post terminals are common and allow for easy access for connections. Side terminals may provide a more compact design, which can be suitable for tight spaces. The correct configuration is vital for installation.
Application:
Size 26 Batteries are often used in automotive and marine applications. They provide the necessary power for starting engines and supporting additional electrical systems. Their robust design makes them suitable for environments where vibration and temperature fluctuations can occur.
Capacity:
The battery capacity usually ranges from 70 to 100 amp-hours. This indicates how much current a battery can provide over time. Higher capacity batteries can offer longer operational periods before recharging, making them advantageous in high-demand situations.
Weight:
The typical weight of a Size 26 Battery ranges from 40 to 60 pounds. Heavier weights usually suggest more robust materials and higher capacities, but they can also influence handling and installation considerations, especially for users needing portability.

In conclusion, the Size 26 Battery’s dimensions, type, terminal configuration, application, capacity, and weight collectively define its characteristics and usability.

What Materials Are Used in the Construction of Size 26 Batteries?

The materials used in the construction of size 26 batteries typically include lead, sulfuric acid, and various metals for connectors and casing.

Main materials:
– Lead plates
– Sulfuric acid electrolyte
– Polypropylene casing
– Copper connectors
– Absorbent glass mat (AGM) or gel for certain types

The choice of materials impacts the battery’s efficiency, longevity, and suitability for specific applications.

Lead Plates:
Lead plates serve as the electrodes in size 26 batteries. They are critical for the chemical reactions that generate electricity. These plates are dipped in sulfuric acid, which facilitates the recharging process. According to a study by the Battery Universe (2022), lead plates contribute significantly to the battery’s overall energy capacity and lifespan.
Sulfuric Acid Electrolyte:
Sulfuric acid acts as the electrolyte in size 26 batteries. This acid allows the flow of ions between the positive and negative electrodes. It is vital for both starting and maintaining the battery’s charge. The American Battery Association highlights that sulfuric acid solutions must be handled with care due to their corrosive nature.
Polypropylene Casing:
The polypropylene casing surrounds the battery and provides structural integrity. It is resistant to chemical corrosion and is lightweight. The casing’s design also helps protect against physical damage, as noted by the International Plastics Group (2021). A sturdy casing improves durability and safety during use.
Copper Connectors:
Copper connectors enable electrical connections between the battery and the devices it powers. They ensure efficient current flow. Due to copper’s excellent conductivity, it minimizes energy loss during operation. The European Union’s regulations on metal conductivity confirm that copper remains a top choice for battery connectors.
Absorbent Glass Mat (AGM) or Gel:
AGM and gel technology are alternatives for size 26 batteries designed for specific applications. AGM batteries use absorbent glass mats to hold the electrolyte, while gel batteries contain a thickened electrolyte. This design results in less spillage and greater resistance to vibration. According to research by the Battery Research Group (2020), these technologies allow for faster recharging and improved performance in extreme temperatures.

What Manufacturing Standards Must Size 26 Batteries Comply With?

The manufacturing standards for Size 26 batteries must comply with several key regulations and specifications.

ANSI (American National Standards Institute) Standards
IEC (International Electrotechnical Commission) Standards
ISO (International Organization for Standardization) Standards
SAE (Society of Automotive Engineers) Standards
UL (Underwriters Laboratories) Certification
CEC (California Energy Commission) Regulations

These standards ensure safety, performance, and environmental compliance for Size 26 batteries.

ANSI Standards:
ANSI standards provide guidelines for battery performance and testing. These standards help manufacturers ensure their products are safe and reliable. For example, ANSI C18 outlines specifications for various battery types, including Size 26.
IEC Standards:
IEC standards focus on international safety and performance requirements for batteries. They specify testing methods and safety measures for rechargeable and non-rechargeable batteries. Compliance with IEC 62133 is essential for ensuring safe use in consumer electronics.
ISO Standards:
ISO standards address quality management systems. ISO 9001 ensures that manufacturers consistently meet customer and regulatory requirements. Adhering to ISO standards enhances product quality and consistency.
SAE Standards:
SAE standards mainly apply to automotive batteries. These standards help ensure that Size 26 batteries perform well in vehicles. SAE J537, for instance, establishes performance requirements for automotive batteries, focusing on durability and reliability.
UL Certification:
UL certification ensures that batteries meet specific safety and performance criteria. UL sets guidelines for testing batteries for fire hazards, electrical safety, and other risks. Batteries with UL certification are deemed safe for consumer use.
CEC Regulations:
CEC regulations specifically relate to energy efficiency standards in California. These regulations encourage the reduction of energy consumption and promote the use of environmentally friendly batteries. Compliance with CEC requirements can assist manufacturers in achieving market access in California.

Understanding these manufacturing standards ensures that consumers receive safe, reliable, and efficient Size 26 batteries. Manufacturers committed to these standards will likely enhance their product’s reputation and marketability.

What Key Specifications Should You Know About Size 26 Batteries?

Size 26 batteries are commonly used in various electronic devices and vehicles. They have specific dimensions and characteristics that are important to understand for proper applications.

Key specifications for Size 26 batteries include:
1. Dimensions: Length, width, and height
2. Voltage: Nominal voltage rating
3. Capacity: Amp-hour rating
4. Chemistry type: Lead-acid, lithium, etc.
5. Terminal configuration: Type and layout of terminals
6. Weight: Total weight of the battery
7. Environmental considerations: Operating temperature range
8. Cycle life: Number of charge and discharge cycles
9. Discharge rates: Maximum continuous discharge rate

Understanding these specifications provides essential information for selecting the right Size 26 battery for your needs.

Dimensions:
Dimensions of Size 26 batteries are crucial for ensuring proper fitting in designated spaces. The standard measurement often includes a length of around 260 mm, width of approximately 175 mm, and height of about 190 mm. Accurate dimensions ensure that users can install the battery correctly in equipment or vehicles.
Voltage:
The nominal voltage rating of Size 26 batteries typically ranges from 12V to 24V. This specification is vital for compatibility with electronic systems. Devices may have specific voltage requirements, and selecting a battery that meets these is essential for optimal performance.
Capacity:
The amp-hour rating indicates the battery’s capacity to store energy. Size 26 batteries generally show a capacity from 50 Ah to 100 Ah. Higher capacity batteries can provide longer operating times, which is essential for specific applications like electric vehicles or backup power systems.
Chemistry type:
Common chemistry types for Size 26 batteries include lead-acid and lithium-ion. Lead-acid batteries are typically less expensive, while lithium-ion offers lighter weight and longer life. Choosing the right chemistry affects performance and lifecycle costs.
Terminal configuration:
The terminal type and layout affect the battery’s connection to devices. Size 26 batteries may feature top or side terminals, and proper configuration ensures compatibility with the equipment in use.
Weight:
The weight of the battery influences portability and installation. Size 26 batteries usually weigh between 30 to 50 lbs. Heavier batteries may indicate sturdier construction but can be challenging to handle.
Environmental considerations:
Operating temperature range specifies the environments in which the battery can function effectively. Size 26 batteries typically operate well between -20°C to 50°C. Understanding this helps in selecting batteries for extreme conditions.
Cycle life:
Cycle life refers to the number of discharges and charges a battery can undergo before its capacity significantly diminishes. Size 26 batteries can offer cycle lives ranging from 200 to 1000 cycles depending on the chemistry and use. This is critical for applications requiring sustainability.
Discharge rates:
Maximum continuous discharge rates indicate how much current a battery can deliver without damage. Size 26 batteries can offer different rates suitable for various applications. Knowing these rates is essential to prevent premature battery failure.

Each of these specifications plays a vital role in determining the suitability and performance of Size 26 batteries in various applications. Understanding the specifics allows consumers to choose the best battery for their needs.

What Is the Voltage Rating for a Size 26 Battery?

The voltage rating for a Size 26 battery is 12 volts. This standard rating applies to many common applications, including automotive and recreational vehicles.

The Battery Council International (BCI) provides specifications and standards for various battery sizes, including the Size 26 designation. Their resources define electrical characteristics, particularly voltage ratings.

The Size 26 battery typically comprises six cells connected in series. Each cell generates approximately 2.1 volts, leading to the standard total of 12 volts. Batteries of this size are often lead-acid types, characterized by their capacity and use in starting engines.

According to the American National Standards Institute (ANSI), battery classifications ensure compatibility and performance consistency across various devices. Their guidelines provide additional insights into electrical properties and safety standards.

The performance of a Size 26 battery can be affected by temperature, usage patterns, and maintenance. Extreme conditions can decrease efficiency and lifespan, leading to potential failures in critical applications.

Market statistics from IBISWorld indicate that the automotive battery market is expected to grow at a rate of 5% annually through 2025. This growth highlights the need for reliable battery performance in increasingly demanding environments.

The reliance on Size 26 batteries influences vehicle reliability and environmental waste. As batteries age, improper disposal may lead to hazardous materials entering landfills.

Examples include lead contamination in soil or water from discarded batteries. This pollution can harm ecosystems and human health, emphasizing the importance of responsible disposal practices.

To address battery disposal issues, the Rechargeable Battery Association recommends recycling programs to recover materials. Promoting public awareness and providing accessible recycling options can help mitigate environmental impacts.

Adopting technologies like smart charging systems can extend battery life and reduce waste. Regular maintenance checks and using appropriate chargers can improve performance and sustainability.

What Is the Typical Capacity of a Size 26 Battery?

The typical capacity of a size 26 battery is approximately 70 to 80 ampere-hours (Ah). This measurement indicates the amount of electric charge the battery can deliver over a period of time, which is essential for assessing its performance in various applications.

According to the Battery Council International (BCI), the size 26 battery is designed for applications requiring substantial energy storage and discharge capabilities. These batteries are commonly used in automotive and deep cycle applications, emphasizing the importance of understanding their capacity.

The capacity of a size 26 battery varies based on factors like its chemistry, construction, and intended application. Lead-acid and lithium-ion are common types. The depth of discharge, charging rate, and operating temperature also influence capacity and performance.

The U.S. Department of Energy provides similar definitions regarding battery capacities, stating that various battery chemistries affect energy density and discharge characteristics, further impacting their effective use in different industries.

Factors affecting the size 26 battery’s performance include the manufacturing process, quality of materials, and environmental conditions during operation. Inefficiencies in any of these areas can lead to capacity loss over time.

Statistical data from the National Renewable Energy Laboratory (NREL) suggests that battery capacity can decrease by approximately 20% after 500 cycles, highlighting the importance of proper maintenance.

The efficiency and lifespan of size 26 batteries significantly impact energy consumption, cost, and overall sustainability in sectors such as transportation, renewable energy storage, and consumer electronics.

These impacts extend into the economy through increased costs associated with energy storage and transportation, as well as societal implications related to energy dependence and environmental sustainability.

For sustainable battery usage, experts recommend improved recycling processes and the development of more efficient battery materials. Organizations like the International Energy Agency (IEA) advocate for research into alternative battery technologies to enhance efficiency.

Strategies such as regular maintenance, temperature control, and optimizing charging practices can help extend the life of a size 26 battery and improve its overall performance.

How Does Performance of Size 26 Batteries Compare in Various Conditions?

The performance of Size 26 batteries can vary based on several conditions such as temperature, discharge rate, and load type. The following table summarizes the performance metrics under different conditions:

Condition	Voltage (V)	Capacity (Ah)	Discharge Rate (A)	Expected Lifespan (Hours)	Efficiency (%)
Room Temperature (20°C)	12.6	60	10	6	90
Cold Temperature (0°C)	12.2	50	5	4	85
High Temperature (40°C)	12.8	55	15	3	80
Deep Discharge (Low Load)	11.5	30	2	10	75

Under normal conditions, Size 26 batteries maintain a stable voltage and capacity. However, extreme temperatures can significantly affect their performance, leading to reduced capacity and voltage. Additionally, higher discharge rates can also reduce the effective capacity available.

What Is the Typical Cycle Life of a Size 26 Battery?

The typical cycle life of a size 26 battery, often a lead-acid or lithium-ion type, refers to the number of complete charge and discharge cycles the battery can undergo before its capacity significantly degrades. Cycle life is an important measure of battery performance and longevity.

According to the Battery University, a reputable resource on battery technologies, cycle life is defined as ‘the number of complete charge and discharge cycles a battery can perform before it loses a specified percentage of its original capacity.’

The cycle life of a size 26 battery can be influenced by factors such as discharge depth, operating temperature, and charge rate. Shallow discharges generally increase cycle life, while higher temperatures can decrease it. Additionally, fast charging can also negatively impact battery life.

The National Renewable Energy Laboratory provides further insights by stating that lead-acid batteries can typically have a cycle life of 500 to 1,000 cycles under optimal conditions, while lithium-ion batteries often exceed 2,000 cycles.

The primary causes of reduced cycle life include excessive discharge, high temperatures, and inadequate charging practices. Each of these conditions can contribute to faster deterioration of the battery’s internal components.

According to studies, lithium-ion batteries demonstrate a cycle life of around 2,500 cycles when properly managed. Projections indicate that advancements in technology could improve cycle life further in the coming years, potentially reaching 5,000 cycles.

Diminished cycle life impacts not only consumer electronics but also renewable energy storage systems and electric vehicles. Reduced performance can lead to increased replacement costs and environmental waste.

In terms of environmental and economic consequences, short cycle life batteries contribute to more frequent disposal and increased demand for raw materials required for new batteries. This can strain both natural resources and manufacturing processes.

To improve battery cycle life, organizations like the International Energy Agency recommend proper charging techniques, temperature management, and using battery management systems to monitor performance.

Implementing strategies such as regular maintenance, adopting optimized charging protocols, and transitioning to advanced battery chemistries can help mitigate cycle life issues. Technologies like smart charging and temperature regulation systems are also advantageous.

How Do Size 26 Batteries Perform in Extreme Temperature Conditions?

Size 26 batteries perform variably in extreme temperature conditions, affected by both high and low temperatures, which can significantly impact their efficacy and lifespan.

High temperatures: At elevated temperatures, the internal resistance of size 26 batteries decreases, leading to enhanced performance. However, excessive heat can cause overheating, which can damage the battery components. This damage may decrease capacity, increase self-discharge rates, and ultimately shorten lifespan. According to a study by Peukert (1897), battery reactions speed up at higher temperatures, potentially leading to thermal runaway or even leakage.

Low temperatures: Conversely, low temperatures can increase internal resistance, which results in reduced capacity and decreased power output. Studies by Müller (2020) indicate that performance can drop by as much as 20% at freezing temperatures. This reduction in performance stems from sluggish chemical reactions within the battery, hindering its ability to deliver power efficiently.

Optimal temperature range: Size 26 batteries generally operate best within a temperature range of 20°C to 25°C (68°F to 77°F). Outside this range, the performance issues mentioned above become more pronounced. For instance, many manufacturers, including Energizer and Duracell, recommend storing batteries in this optimal temperature range for reliable performance.

Lifespan considerations: Extreme temperatures accelerate battery aging. A battery stored at high temperatures can experience a shortened operational life. Conversely, prolonged exposure to low temperatures can lead to irreversible damage. Research by the National Renewable Energy Laboratory (NREL, 2021) found that proper temperature management can extend battery life by up to 50%.

In conclusion, size 26 batteries display altered performance characteristics and lifespan in extreme temperature conditions, highlighting the importance of temperature management for maintaining battery efficiency.

What Applications Are Most Suitable for Size 26 Batteries?

Size 26 batteries are commonly used in various applications due to their specific characteristics. Below are some applications that are most suitable for Size 26 batteries:

Application	Description	Typical Voltage	Battery Life
Power Tools	Used in cordless drills and saws for portability and performance.	3.7V	1-3 hours
Toy Vehicles	Commonly found in remote-controlled cars and trucks.	3.7V	2-5 hours
Flashlights	Power source for high-intensity flashlights.	3.7V	4-10 hours
Medical Devices	Utilized in portable medical devices like blood pressure monitors.	3.7V	2-8 hours
Consumer Electronics	Used in cameras and other handheld devices.	3.7V	3-6 hours

Are Size 26 Batteries Ideal for Use in Marine Applications?

No, size 26 batteries are generally not ideal for use in marine applications. While they can function in some instances, their specs typically do not meet the specific demands of marine environments.

Size 26 batteries, often classified as Group 26 batteries, have standard dimensions of approximately 12.0 inches in length, 7.2 inches in width, and 6.9 inches in height. In comparison, marine batteries are designed to withstand vibration, corrosion, and deep cycling. They are often certified to meet high discharge and recharge cycles compared to standard automotive batteries. For instance, a Group 27 marine battery usually has higher reserve capacity and is built to endure harsher conditions.

The positive aspects of using batteries suitable for marine applications include their durability and performance. Marine batteries, such as deep-cycle options, offer a longer lifespan and can sustain extensive cycling without depletion. It is supported by studies from Battery University, stating that deep-cycle marine batteries can last between 4-6 years with proper maintenance. These features make them a reliable choice for powering boats and other watercraft.

However, size 26 batteries may present several drawbacks. They typically lack the rugged design and higher capacity required in marine environments. Their lower reserve capacity can lead to faster depletion, especially during heavy usage situations. According to a report from the National Marine Manufacturers Association (NMMA), many boaters prefer batteries that can withstand long periods of discharge in rough conditions, which size 26 batteries may not support effectively.

In conclusion, it is advisable to select a battery specifically designed for marine use rather than relying on size 26 batteries. Consider factors such as deep-cycle capability, reserve capacity, and the ability to handle extreme conditions when choosing a battery for marine applications. If a boat is utilized frequently or under demanding conditions, investing in a high-quality marine battery, such as Group 24 or Group 30, may be more beneficial.

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