Battery 357 Vs. SR927: Complete Replacement Guide With Cross Reference Chart [Updated On- 2025]

Yes, a 357 battery can replace an SR927 battery. Both batteries have similar size specifications and voltage. The 357 uses silver oxide chemistry, while the SR927 is a multi-drain silver oxide battery. Check a cross-reference table for a complete list of replacement equivalences and compatibility details.

It is important to note that while these batteries can sometimes be used interchangeably, they are not identical. The cross-reference chart can help identify equivalent models across different brands. This replacement guide assists in ensuring proper compatibility.

When considering which battery to purchase, it is essential to consult the specifications of your device. Using the correct battery type can enhance performance and longevity. Transitioning to the next section, we will provide a detailed cross-reference chart, outlining compatible brands and models. This will simplify your search for the right battery, ensuring you make an informed choice for your device’s needs.

# Table of Contents

Can You Replace an SR927 Battery with a Battery 357?

No, you cannot directly replace an SR927 battery with a Battery 357. While both batteries have similar dimensions, their chemical composition and voltage specifications may differ.

The SR927 battery is a silver oxide battery, while the 357 battery can refer to either a silver oxide or alkaline variant. Silver oxide batteries typically have a higher voltage output and longer-lasting performance compared to alkaline batteries. Furthermore, using a battery with a different chemical composition can affect device performance and could potentially damage the electronic components. Always check device specifications before replacing batteries to ensure proper functionality.

What Are the Specifications of Battery 357?

The specifications of Battery 357 include its size, voltage, and chemical composition.

Size: 11.6mm diameter and 2.1mm height
Voltage: 1.55 volts
Chemical Composition: Silver oxide
Application: Commonly used in watches, calculators, and small electronic devices
Alternative Designation: Also known as SR926SW or LR926 in some cases

Battery 357 specifications consist of important attributes that vary by perspective. Some users prioritize longevity, while others seek affordability. Additionally, environmental concerns about battery disposal impact opinions on battery choice.

Size:
Battery 357 has a diameter of 11.6mm and a height of 2.1mm. Its small size makes it suitable for compact electronic devices, such as watches and small calculators. These dimensions ensure that it fits securely in devices designed to accommodate this battery type.
Voltage:
Battery 357 operates at a voltage of 1.55 volts. This standard voltage supports the electrical demands of most devices it powers. Different voltages might lead to malfunction or short battery life, making voltage a crucial specification.
Chemical Composition:
Battery 357 contains silver oxide. This composition offers better performance and longevity compared to alkaline batteries. Silver oxide batteries are often favored for their stable voltage output throughout their discharge cycle.
Application:
Battery 357 is widely used in devices such as watches, calculators, and small electronic gadgets. Its reliability in these applications aids in maintaining consistent performance. Users often rely on this battery type, particularly for precision instruments.
Alternative Designation:
Battery 357 can also be known as SR926SW or LR926 in some products. Understanding these alternative names can help consumers find replacements. Confusion may arise with similar batteries, so checking specifications is essential for compatibility.

In conclusion, Battery 357 remains a popular choice among consumers for small devices, due to its specific attributes that cater to their needs.

How Do the Specifications of the SR927 Battery Compare?

The specifications of the SR927 battery, which is commonly used in watches and small electronic devices, are comparable to other batteries like the 357 battery in dimensions, chemistry, and application but differ in voltage and capacity.

The following points summarize the key specifications of the SR927 battery:

Size and Dimensions: The SR927 battery typically measures 9.5 mm in diameter and 2.7 mm in height. This size allows it to fit into various small devices, such as watches and calculators.
Chemistry: The SR927 battery uses silver oxide chemistry. This type of chemistry provides stable voltage and better performance than alkaline batteries under certain conditions. Silver oxide batteries are known for their long shelf life and higher energy density.
Voltage: The SR927 battery delivers a nominal voltage of 1.55 volts. This is slightly higher than the 1.5 volts from standard alkaline batteries and is crucial for devices that require precise voltage levels to function correctly.
Capacity: The typical capacity for an SR927 battery is about 40-50 mAh, depending on the specific model. This capacity allows for prolonged use in devices, reducing the frequency of battery replacements.
Usage: The SR927 battery is used in a variety of applications. It is primarily found in wristwatches, but it is also suitable for small electronics such as calculators, remote controls, and hearing aids.
Cross-Reference: The SR927 battery can be cross-referenced with equivalent batteries like 357, AG13, LR927, and SR926. Despite different naming conventions, these batteries have similar specifications, but users should verify compatibility based on the specific device requirements.

In conclusion, the SR927 battery stands out due to its silver oxide chemistry, which offers consistent performance and longer life compared to other commonly used batteries like the alkaline counterparts. When replacing batteries, it is essential to consider these specifications to ensure proper function in devices.

Are Battery 357 and SR927 Batteries Interchangeable?

No, Battery 357 and SR927 batteries are not interchangeable, despite similarities in size and voltage. Battery 357 typically has a nominal voltage of 1.5 volts and is used in various devices. The SR927, on the other hand, refers to a silver oxide battery, which usually provides a slightly different discharge curve and may have a voltage of 1.55 volts. While they may fit similar compartments, using one in place of the other can lead to suboptimal performance or potential damage to the device.

The primary differences between Battery 357 and SR927 involve their chemistry and performance. Battery 357 is made from alkaline materials while SR927 is a silver oxide battery. This difference in chemistry affects their longevity and ability to provide consistent voltage over time. For example, silver oxide batteries often last longer and provide a more stable voltage compared to alkaline batteries. These distinctions are vital when considering which battery to use for specific devices.

The positive aspects of using Battery 357 and SR927 batteries relate to their reliability in powering small electronic devices. Users often choose SR927 batteries for devices requiring stable and long-lasting power, such as watches and medical devices. According to the International Battery Association, batteries like the SR927 can operate effectively in high-drain applications for extended periods, normally exceeding the lifespan of alkaline counterparts such as the Battery 357.

Conversely, the negative aspects of these batteries can include differences in cost and performance characteristics. Silver oxide batteries, like the SR927, tend to be more expensive than alkaline batteries. Additionally, while the SR927 batteries last longer, the higher initial cost may not be justified for low-drain devices that can efficiently run on Battery 357. Reports from Battery Research Institute (2022) show that switching to a more expensive battery without need can lead to unnecessary expenditures.

In conclusion, it is important to consider the specific requirements of your device before replacing batteries. If your device is designed for Battery 357, stick with it for optimal performance. For devices designed for the SR927, using that specific type will provide the best results. Always check device specifications or consult the manufacturer to ensure compatibility and performance efficiency.

What Are the Key Differences Between Battery 357 and SR927?

Battery 357 and SR927 are both types of button cell batteries used in various electronic devices. The main differences between them include size, voltage, and application.

Size
Voltage
Chemical Composition
Application

The differences between Battery 357 and SR927 lead to varied usage and performance depending on the device requirements.

Size:
The size of Battery 357 is 11.6 mm in diameter and 5.4 mm in height. In contrast, the SR927 battery measures 9.5 mm in diameter and 2.7 mm in height. This size difference affects how and where each battery can be used. Devices specifically designed for the 357 battery cannot accommodate the SR927 due to the latter’s smaller dimensions.
Voltage:
Battery 357 typically provides a voltage of 1.55 volts. The SR927, however, offers a voltage of 1.55 volts as well when it is fresh, but it can have different discharge characteristics over time. This similarity in voltage means that in some cases, users might interchange these batteries, but this can lead to performance issues based on the specific application.
Chemical Composition:
Battery 357 commonly employs silver oxide as its main component, while SR927 batteries can also use silver oxide but may vary in internal construction or electrolyte materials. The chemical differences can affect battery life and discharge rates, making it essential to match the battery type to the device’s specifications.
Application:
Battery 357 is frequently used in larger devices such as cameras, watches, and some medical devices, due to its size and capacity. In comparison, the SR927 is typically utilized in smaller devices such as remote controls, calculators, and smaller watches where space is more limited. Users should be aware of the specific battery requirements of their devices to ensure proper functionality.

How Do Battery Chemistry and Voltage Influence Compatibility?

Battery chemistry and voltage significantly influence compatibility between different battery types. Each battery’s chemical composition affects its voltage output and performance, making it crucial to match these specifications for optimal function.

Battery Chemistry: Battery chemistry determines how energy is stored and released. Common chemistries include alkaline, lithium-ion, nickel-metal hydride (NiMH), and nickel-cadmium (NiCd). Each type has unique characteristics:
– Alkaline batteries provide a steady voltage output but may not perform well under high-drain conditions.
– Lithium-ion batteries are rechargeable and offer a higher energy density, meaning they can store more energy in a smaller size.
– NiMH batteries have a lower energy density than lithium-ion but are well-suited for high-drain devices.
– NiCd batteries, although less common now, are durable and resist extreme temperatures.
Voltage: The voltage rating of a battery indicates the amount of electrical potential it can provide. Common household batteries typically range from 1.2V to 9V. Compatibility issues arise when:
– Using a battery with a higher voltage than the device specifications. This can cause damage to the device.
– Using a battery with a lower voltage than required can result in insufficient power and erratic device function.
Device Requirements: Each electronic device has specific voltage and chemistry requirements. These requirements ensure optimal performance:
– A mismatch can cause overheating, ineffective performance, or permanent damage to the device.
– For instance, a device designed for 1.5V alkaline batteries may not function properly with a 3.7V lithium-ion battery.
Performance Impact: Using incompatible batteries can lead to varied performance outcomes:
– Devices may drain batteries faster than expected.
– There may be a risk of leakage or rupture, especially with incompatible chemistries.
Manufacturer Recommendations: Always consult the manufacturer’s specifications for the recommended battery type and voltage. This ensures safety and compatibility, maintaining device efficiency.

Matching battery chemistry and voltage is essential for ensuring compatibility. Using the correct type guarantees device performance and longevity while preventing any potential damage or safety hazards.

In What Devices Are Battery 357 and SR927 Commonly Used?

Battery 357 and SR927 are commonly used in small electronic devices. They are often found in wristwatches, calculators, hearing aids, and various toys. These batteries provide reliable power for devices that require a compact size and consistent energy output.

What Should You Consider When Using a Battery 357 in Place of an SR927?

You should consider battery specifications, voltage, size, and compatibility when using a Battery 357 in place of an SR927.

Battery Specifications
Voltage Differences
Physical Size Compatibility
Device Compatibility
Performance Reliability

Addressing these points is crucial for ensuring the correct functionality of your devices.

Battery Specifications: Battery specifications detail the unique characteristics of each battery type. Battery 357 and SR927 differ in chemical composition and manufacturing standards. The 357 is typically a silver oxide battery, while SR927 can be a corresponding silver oxide or a lithium variant. Always check the specifications listed by manufacturers to ensure compatibility.
Voltage Differences: Voltage differences between batteries can lead to device malfunction. Both Battery 357 and SR927 generally have a voltage of 1.55 volts. However, ensuring this stability for your specific device is essential, especially in sensitive electronic applications. Deviations from the expected voltage can result in poor performance or even damage.
Physical Size Compatibility: Physical size compatibility is another critical factor. Battery 357 has dimensions of approximately 11.6 mm in diameter and 2.6 mm in height. In comparison, SR927 is usually around the same size. However, slight variations may occur between brands and models. Always verify the fit in the device before using an alternative battery.
Device Compatibility: Device compatibility requires checking the device specification for battery type. Some devices are specifically designed for certain batteries and may not function correctly with substitutes. Confirm through the manufacturer’s guidelines to avoid damaging the device or voiding any warranties.
Performance Reliability: Performance reliability is essential when replacing batteries. Battery performance can vary across brands and models. Consider user reviews and brand reputation to ensure you are choosing a reliable battery. An unreliable battery could lead to frequent replacements or device issues, affecting productivity and convenience.

By exploring these aspects, you can make an informed decision when choosing to replace SR927 with a Battery 357.

Where Can You Find a Reliable Cross Reference Chart for Battery 357 and SR927?

You can find a reliable cross reference chart for battery 357 and SR927 on various websites that specialize in batteries and electronics. Reputable sources include manufacturer websites, battery retailer sites, and consumer electronics forums. These sites provide accurate information by listing equivalent batteries and their uses. For instance, you can visit battery comparison sites, such as BatteryJunction.com or BatteryMart.com. Additionally, online retailers like Amazon often include cross reference charts in product descriptions. This ensures that you receive verified information for suitable replacements between battery types.

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