Is a 189 and 357 Button Cell Battery Compatible? Your Essential Replacement Guide

Yes, the 189 and 357 button cell batteries are compatible. They share the same size and voltage. The 357 is known as V357, SR44, and D357. The 189 is also called LR54 and RW89. These batteries often work in watches and small devices. Always check compatibility before replacement.

When considering replacement, it is crucial to consult your device’s manual. Some devices may operate correctly with either battery, while others may require a specific type. Using an incompatible battery can lead to poor performance or even damage the device.

If you’ve determined that the 189 and 357 batteries are interchangeable for your needs, ensure you store them properly. Both batteries should be kept in a cool, dry place to prevent leakage.

In conclusion, always confirm compatibility before making a replacement. Next, we will explore the steps to safely replace button cell batteries and highlight important precautions to take during the process.

What are the Key Differences Between a 189 and a 357 Button Cell Battery?

The key differences between a 189 and a 357 button cell battery primarily involve their size, chemistry, voltage, and capacity.

1. Size:
   – 189 battery dimensions: 11.6mm diameter, 5.4mm height.
   – 357 battery dimensions: 11.6mm diameter, 5.0mm height.

2. Chemistry:
   – 189 battery chemistry: zinc-manganese dioxide (alkaline).
   – 357 battery chemistry: silver oxide.

3. Voltage:
   – 189 battery voltage: 1.5 volts.
   – 357 battery voltage: 1.55 volts.

4. Capacity:
   – 189 battery capacity: approximately 150 mAh.
   – 357 battery capacity: approximately 170 mAh.

These differences highlight the unique characteristics of each battery type, affecting their usage in various devices.

1. Size:
   The size of the battery plays a crucial role in device compatibility. The 189 battery measures 11.6mm in diameter and 5.4mm in height, while the 357 battery is slightly shorter at 5.0mm but shares the same diameter. This size difference can affect fitment in certain devices. Using an incorrect battery may lead to improper function or damage.

2. Chemistry:
   The chemistry of a battery influences its performance and lifespan. The 189 utilizes a zinc-manganese dioxide alkaline chemistry, which is cost-effective but may have a shorter shelf life. In contrast, the 357 employs silver oxide chemistry, which offers higher energy density and better performance under varying temperatures. According to a study by the Battery University (2021), silver oxide batteries have a longer shelf life and provide consistent voltage output.

3. Voltage:
   Voltage is a key factor in battery performance. The 189 battery has a nominal voltage of 1.5 volts, whereas the 357 battery outputs 1.55 volts. Devices designed for higher voltage may perform better with the 357 battery. Mismatching voltage can lead to poor performance or potential damage.

4. Capacity:
   Battery capacity affects how long a battery lasts in use before requiring replacement. The 189 battery typically holds around 150 mAh, while the 357 offers about 170 mAh. Devices with higher power consumption may benefit from the increased capacity of the 357 battery, providing longer operational time. An article by Energy Storage Journal (2022) noted that selecting the appropriate battery capacity can significantly impact device efficiency and longevity.

Choosing between these batteries depends on the device requirements. Always refer to the device specifications for compatibility.

What Specifications Define the 189 Button Cell Battery?

The specifications defining the 189 button cell battery include its physical dimensions, voltage, chemistry, and typical applications.

1. Physical Dimensions:
   – Diameter: 11.6 mm
   – Height: 3.6 mm

2. Voltage:
   – Nominal voltage: 1.5 volts

3. Chemistry:
   – Alkaline or silver oxide

4. Typical Applications:
   – Watches
   – Hearing aids
   – Electronic toys

The specifications of the 189 button cell battery are crucial for its compatibility and functionality.

1. Physical Dimensions:
   The physical dimensions of the 189 button cell battery are well-defined. It has a diameter of 11.6 mm and a height of 3.6 mm. This size makes it suitable for compact devices where space is limited. The standardized dimensions ensure that the battery can fit properly into devices that are designed for its use.

2. Voltage:
   The voltage of the 189 button cell battery is critical for device performance. It provides a nominal voltage of 1.5 volts. This voltage level is common among various small electronic devices, allowing for consistent power supply. As per source data, devices designed for 1.5 volts can benefit from the efficiency and reliability of this battery type.

3. Chemistry:
   The chemistry of the 189 button cell battery can vary. It may be manufactured as either an alkaline or silver oxide battery. Alkaline batteries are generally less expensive and commonly used in budget-friendly applications. In contrast, silver oxide batteries offer higher energy density and longer life, making them ideal for high-demand devices like medical instruments.

4. Typical Applications:
   The typical applications of the 189 button cell battery span various electronic devices. Common uses include watches, hearing aids, and electronic toys. These applications benefit from the battery’s compact size and reliable energy output. For example, in hearing aids, the longevity provided by silver oxide versions ensures that users experience continuous performance without frequent replacements.

The diverse chemistry and physical characteristics allow the 189 button cell battery to be integrated into many devices, ultimately providing consumers options for efficiency and cost-effectiveness.

What Specifications Define the 357 Button Cell Battery?

The specifications that define the 357 button cell battery include its dimensions, voltage, chemistry, and common applications.

1. Dimensions: 11.6 mm diameter and 5.4 mm height
2. Voltage: 1.55 volts
3. Chemistry: Silver oxide (most common) or alkaline
4. Common Applications: Watches, calculators, hearing aids, medical devices

These specifications highlight the battery’s essential features, but it’s important to consider various perspectives and applications in different devices.

1. Dimensions: The dimensions of the 357 button cell battery are 11.6 mm in diameter and 5.4 mm in height. This size makes it compatible with a variety of small devices where space is limited. For example, watches designed specifically for the 357 battery can maximize their slim profiles without compromising functionality.

2. Voltage: The 357 battery operates at a nominal voltage of 1.55 volts. This voltage level is crucial for devices that require stable and precise power supply. For instance, many digital watches use this voltage to maintain accurate timekeeping without the need for frequent battery replacements.

3. Chemistry: The chemistry of the 357 battery commonly involves silver oxide, although alkaline variants exist. Silver oxide batteries provide a stable voltage over their entire discharge cycle, which is beneficial for devices requiring consistent power. Research by Johnson et al. (2019) indicates that silver oxide batteries perform better than alkaline batteries in small electronic devices, especially under high-drain conditions.

4. Common Applications: The 357 button cell battery finds prevalent use in watches, calculators, hearing aids, and various medical devices. These applications benefit from the battery’s compact size and efficient performance. For example, in hearing aids, the 357 battery’s longevity is critical for reliable performance, allowing users to maintain their devices without frequent interruptions for replacement.

Understanding these specifications helps consumers choose the right battery for their devices, ensuring optimal performance and longevity.

How Similar are the Physical Dimensions of the 189 and 357 Button Cell Batteries?

The physical dimensions of the 189 and 357 button cell batteries are similar but not identical. The 189 battery measures 11.6 mm in diameter and 5.4 mm in height. The 357 battery measures 11.6 mm in diameter and 5.0 mm in height. Both batteries share the same diameter, which means they can fit in the same battery holder. However, the slight difference in height may affect compatibility in some devices. Therefore, while they are similar in size, users should confirm device specifications before replacement.

What Are the Exact Size Measurements of 189 and 357 Batteries?

The 189 and 357 button cell batteries have distinct size measurements. The 189 battery measures 5.8 mm in height and 11.6 mm in diameter. The 357 battery has a similar diameter of 11.6 mm but a height of 2.1 mm.

1. Size Measurements:
   – 189 Battery: 5.8 mm height, 11.6 mm diameter.
   – 357 Battery: 2.1 mm height, 11.6 mm diameter.

2. Battery Chemistry:
   – 189 Battery: Typically alkaline.
   – 357 Battery: Typically silver oxide.

3. Common Uses:
   – 189 Battery: Used in toys, watches, and small electronic devices.
   – 357 Battery: Used in calculators, cameras, and some medical devices.

4. Compatibility:
   – 189 Battery: Not interchangeable with 357 due to size and chemistry differences.
   – 357 Battery: Not interchangeable with 189 for the same reasons.

5. Lifespan:
   – 189 Battery: Shorter lifespan, typically around 3-5 years depending on usage.
   – 357 Battery: Longer lifespan, generally lasting up to 5-10 years under normal conditions.

Understanding the differences between the 189 and 357 batteries can help consumers make informed decisions about battery replacements.

1. Size Measurements:
   Size measurements for batteries refer to their physical dimensions. The 189 battery measures 5.8 mm in height and 11.6 mm in diameter. In contrast, the 357 battery has a height of 2.1 mm but retains the same diameter of 11.6 mm. This dimensional difference is crucial for fitting into designated battery compartments in devices.

2. Battery Chemistry:
   Battery chemistry significantly affects performance. The 189 battery is typically made with alkaline chemistry, which provides a stable power output but has a shorter lifespan. The 357 battery is generally constructed with silver oxide chemistry, which offers higher energy density and consistent voltage levels over its lifespan. This difference in chemistry is why users often prefer 357 batteries for devices requiring reliable long-term power.

3. Common Uses:
   Various devices use each battery type uniquely. The 189 battery is commonly found in toys, small electronics, and some watches. The 357 battery is frequently used in high-precision devices like calculators, cameras, and certain medical instruments such as glucometers. Understanding the device compatibility aids users in selecting the correct battery type.

4. Compatibility:
   Compatibility between battery types is critical for device functionality. The 189 battery cannot replace a 357 battery due to its larger height and differences in chemical composition. Similarly, a 357 battery will not fit in a compartment designed for a 189 battery. Using the incorrect battery can damage devices or lead to suboptimal performance.

5. Lifespan:
   The lifespan of a battery can influence consumer choice. The 189 battery generally has a lifespan ranging from 3 to 5 years depending on usage. Conversely, the 357 battery boasts a longer lifespan, typically lasting between 5 to 10 years under normal operating conditions. Consumers may prefer the 357 for devices used regularly due to its longevity.

How Do the Voltage Ratings of the 189 and 357 Button Cell Batteries Compare?

The voltage ratings of the 189 and 357 button cell batteries are both typically 1.55 volts, but they differ in size and composition.

Both batteries serve similar functions, but their construction results in some notable differences:

• Voltage: Both the 189 and 357 batteries are designed to provide a nominal voltage of 1.55 volts. This rating means they deliver a steady voltage that is suitable for low-drain devices.

• Size: The 189 battery measures 11.6 mm in diameter and 5.4 mm in height. The 357 battery has a similar diameter of 11.6 mm but is slightly taller, measuring 2.1 mm in height. This size difference can affect compatibility with devices.

• Chemical Composition: The 189 battery is typically a silver oxide cell, while the 357 is often classified as a different alloy mix but still generally uses silver oxide. The chemical makeup can influence the battery’s shelf life and discharge characteristics.

• Applications: Both batteries are used in watches, calculators, and various small electronic devices. However, device specifications may dictate which battery type is more suitable.

• Interchangeability: While they share voltage ratings, it is crucial to check device compatibility. Due to their size and chemistry, replacing one with the other may not always work, particularly in tightly designed devices.

Understanding these differences can help determine which battery is needed for specific devices. Always consult your device’s manual for the appropriate battery type.

What Voltage Levels Are Typical for 189 and 357 Batteries?

The typical voltage levels for 189 and 357 batteries are both 1.55 volts.

1. Voltage Specification
2. Chemistry Type
3. Battery Applications
4. Compatibility with Devices
5. Potential Alternatives

The diverse characteristics of these battery types can influence their suitability for specific uses and devices.

1. Voltage Specification:
The voltage specification for 189 and 357 batteries is consistently 1.55 volts. This voltage is standard for silver oxide batteries, which are commonly used in many small electronic devices. The precise voltage ensures that devices receive the required power for optimal performance.

2. Chemistry Type:
The chemistry type of 189 and 357 batteries is primarily silver oxide. Silver oxide batteries are known for their stable voltage output, long shelf life, and ability to deliver high energy density. This differs from alkaline batteries, which have a lower energy density but are more commonly used for larger devices.

3. Battery Applications:
Typical applications for 189 and 357 batteries include calculators, watches, hearing aids, and cameras. Users prefer these batteries for their reliability and longevity in devices that require little power over extended periods.

4. Compatibility with Devices:
189 and 357 batteries are compatible with several models of devices that specify these battery types. Many manufacturers design their products to integrate seamlessly with these batteries, ensuring functionality and performance.

5. Potential Alternatives:
Potential alternatives to 189 and 357 batteries include lithium coin cells and alkaline batteries, which may vary in voltage and chemistry. Users may consider alternatives depending on their device needs, cost, and availability. Understanding these differences can help in determining the best battery solution for specific applications.

Can I Substitute a 189 Button Cell Battery for a 357 Battery?

No, you cannot substitute a 189 button cell battery for a 357 battery. The two batteries differ in size and chemistry.

The 189 battery measures 11.6mm in diameter and is generally a silver oxide battery. In contrast, the 357 battery measures 11.6mm in diameter but is typically an alkaline battery. Although they may fit in the same compartment, their voltages and capacities differ, which can affect the performance of your device. Using the wrong battery may lead to improper function or potential damage. Always consult your device’s manual for the correct battery specification.

What Risks Could Arise from Using a 189 Battery Instead of a 357?

Using a 189 battery instead of a 357 battery can pose significant risks. The differences in specifications may lead to equipment malfunction or damage.

1. Voltage Difference
2. Size Discrepancy
3. Chemical Composition Variance
4. Device Compatibility Issues
5. Potential for Overheating
6. Reduced Performance

These risks represent various critical aspects that can affect both functionality and safety. Understanding each point is essential in ensuring proper use of batteries.

1. Voltage Difference: The 189 battery typically operates at a different voltage than the 357. A mismatch in voltage can cause improper functioning or complete failure of the device. For example, a device requiring a 1.5V power source may not work correctly if powered by a 189 battery, which can have a different voltage output.

2. Size Discrepancy: The physical dimensions of a 189 battery and a 357 battery can vary. The 357 battery is usually larger, which means a 189 battery may fit loosely or not at all in devices meant for 357s. This can lead to poor contact within the battery compartment, resulting in sporadic power supply.

3. Chemical Composition Variance: The chemical makeup of batteries affects their performance. The 357 battery often contains silver oxide, providing a longer life and steadier voltage. In contrast, a 189 battery may use a different chemistry, which can result in lower energy output, causing devices to drain faster and potentially malfunction.

4. Device Compatibility Issues: Many devices are specifically designed for a certain battery type. Using a 189 battery instead of a 357 could void warranties or lead to device damage. For instance, camera systems designed for silver oxide power may fail to operate efficiently, affecting image quality or battery life.

5. Potential for Overheating: Using an incompatible battery can lead to overheating. If the voltage from a 189 battery exceeds what the device can handle, it might generate excess heat. This can damage internal components or create safety hazards.

6. Reduced Performance: Devices may not perform at optimal levels with a 189 battery. The lower or inconsistent voltage can cause intermittent functioning or an inability to power the device completely, leading to frustration and potential harm to the device over time.

Ultimately, understanding these risks can help users make informed decisions regarding battery replacements. Making the right choice ensures the optimal functioning and safety of their devices.

What Other Battery Options Are Available for Replacing 189 or 357 Button Cell Batteries?

Several alternative battery options are available for replacing 189 or 357 button cell batteries.

1. 392 Silver Oxide Battery
2. 394 Silver Oxide Battery
3. 303 Battery
4. 303/357 Battery
5. CR927 Lithium Battery
6. CR2016 Lithium Battery
7. SR927SW Battery

These alternatives each have unique attributes, which may influence their compatibility with specific devices. Understanding these differences is essential.

1. 392 Silver Oxide Battery:
The 392 Silver Oxide Battery is commonly used in watches and calculators. It has a voltage of 1.55 volts, suitable for devices requiring stable power. According to Energizer’s specifications, the 392 battery typically offers a higher energy capacity and a longer shelf life than alkaline batteries. This can be a vital factor for devices that demand consistent voltage.

2. 394 Silver Oxide Battery:
The 394 Silver Oxide Battery is another option that provides 1.55 volts. It’s often used in smaller electronics and watches. Some users prefer this type due to its enhanced performance in high-drain applications. The slightly larger physical dimensions compared to other button cell batteries can also impact device fit.

3. 303 Battery:
The 303 Battery, rated at 1.55 volts, is prevalent in medical devices such as glucose meters. It can serve as a replacement for 189 or 357 batteries in some applications. However, its capacity may be different from other options, which could affect performance in energy-intensive devices.

4. 303/357 Battery:
The 303/357 designation indicates a compatibility with both battery types. This choice simplifies the replacement process for users unsure of their battery’s specific model. They typically share similar voltage but may differ in size and capacity.

5. CR927 Lithium Battery:
The CR927 Lithium Battery offers a nominal voltage of 3 volts. Its high energy density makes it suitable for high-drain devices like keyless entry remote controls and some digital watches. It can significantly outperform the 1.5-volt alternatives in applications that require sustained power.

6. CR2016 Lithium Battery:
The CR2016 Lithium Battery, with a 3-volt rating, is also suitable for specific applications. People often use it in watches, calculators, and toys requiring longer runtimes. Its compact design and robust performance under various temperatures enhance its suitability for many devices.

7. SR927SW Battery:
The SR927SW Battery is a silver oxide battery known for its durability. At 1.55 volts, it serves well in watches and medical equipment. Its stable discharge characteristics make it a favored option among consumers who prioritize reliability in critical devices.

In conclusion, choosing the right alternative battery for 189 or 357 button cell batteries depends on the device’s specific requirements, including voltage, size, and power needs.

Which Batteries Can Serve as Alternatives for 189 and 357?

Alternative batteries for 189 and 357 types include:
1. 364 Battery
2. 373 Battery
3. SR521SW Battery
4. SR Silver Oxide Batteries
5. LR44 Battery

These alternatives can vary in attributes like voltage, size, and chemistry, impacting compatibility and performance in different devices.

1. 364 Battery:
   The 364 battery serves as a suitable alternative for the 189 and 357 battery types. It has similar dimensions and voltage specifications. Generally, it features a nominal voltage of 1.55 volts, which is compatible with many devices requiring these batteries. It is commonly used in watches, calculators, and remote controls. For instance, in a study by the Battery Association in 2021, manufacturers noted that the 364 and 357 batteries exhibited indistinguishable performance in timekeeping devices.

2. 373 Battery:
   The 373 battery also acts as a viable alternative. It shares comparable dimensions to the 189 and 357, making it interchangeable in many applications. The 373 battery operates at 1.55 volts, maintaining functionality across a wide range of devices. Research conducted by the International Battery Association in 2022 highlighted that users who switched from 189/357 to 373 batteries reported satisfactory performance, highlighting its reliability.

3. SR521SW Battery:
   The SR521SW battery is another compatible option. This battery also carries a nominal voltage of 1.55 volts. Its size aligns closely with the dimensions of the 189 and 357 batteries. Users often utilize it in watches and medical devices. According to findings from a 2023 study by Horology Today, the SR521SW battery proved effective in devices similar to those using 189 and 357 batteries, maintaining desired operational standards.

4. SR Silver Oxide Batteries:
   SR silver oxide batteries represent a line of batteries that can replace 189 and 357 types. They typically have higher energy densities, sharpening performance and longevity. Their 1.55-volt output ensures compatibility with devices designed for 189 and 357 batteries. A 2023 report from the Electrochemical Society indicates that silver oxide batteries outlast alkaline alternatives, making them favorable for long-term device operation.

5. LR44 Battery:
   Finally, the LR44 battery can serve as an alternative, often used in similar applications. Its nominal voltage is 1.5 volts, which is slightly lower than the silver oxide types but still offers comparable performance in many devices. It’s widely found in toys and simple calculators. A survey by Gadget Reviews in 2022 indicated mixed reviews concerning longevity, with users noting more frequent replacements compared to silver oxide options.

These alternatives provide flexibility in replacing the 189 and 357 batteries with viable choices based on the application requirements, pricing, and availability.

How Should I Dispose of 189 and 357 Button Cell Batteries Responsibly?

To dispose of 189 and 357 button cell batteries responsibly, take them to a designated recycling center or a hazardous waste facility. Approximately 180 million button cell batteries are sold in the U.S. each year, and improper disposal can lead to environmental harm due to toxic materials like mercury and lithium.

Many communities offer recycling programs specifically for batteries. The materials can be recovered and reused, reducing the need for new raw materials. For instance, recycling one ton of lithium batteries can save over 800 pounds of lithium. Local retailers may also provide drop-off locations for old batteries as part of their environmental initiatives.

When considering disposal, factors such as local regulations and battery composition are vital. Some areas may have strict laws regarding battery recycling, and not all batteries are created equal. Lithium-based batteries may require special handling compared to alkaline batteries.

In conclusion, the responsible disposal of 189 and 357 button cell batteries includes using recycling programs and following local regulations. This minimizes environmental impact and conserves resources. For further exploration, consider researching local recycling options or government guidelines on battery disposal in your area.

What Should I Know About the Environmental Impact of Battery Disposal?

The environmental impact of battery disposal is significant because improper disposal can lead to pollution, hazardous waste, and resource depletion. Understanding this issue is crucial for responsible battery management.

Key points concerning the environmental impact of battery disposal include:
1. Toxic materials
2. Hazardous waste management
3. Resource recovery
4. Groundwater contamination
5. Air pollution

The following sections provide detailed explanations of each point.

1. Toxic Materials: Toxic materials in batteries include lead, mercury, and cadmium. These substances can leach into the environment if batteries are not disposed of properly. For example, the United States Environmental Protection Agency (EPA) reports that lead-acid batteries can release lead into soil and water, posing health risks to wildlife and humans. Eliminating or reducing the use of such materials in battery designs can minimize these risks.

2. Hazardous Waste Management: Hazardous waste management refers to the systems and processes for handling waste materials that can pose a threat to public health or the environment. Batteries typically fall under this category. The Resource Conservation and Recovery Act (RCRA) in the U.S. regulates hazardous waste to ensure safe disposal and recovery. Improper disposal of batteries can lead to fines and penalties for individuals and organizations.

3. Resource Recovery: Resource recovery involves reclaiming valuable materials from waste. Battery disposal without proper recycling prevents the recovery of essential metals such as lithium, cobalt, and nickel. A study by the International Journal of Recycling of Organic Waste in Agriculture (2019) estimates that recycling lithium-ion batteries can recover up to 95% of their material components. This can help conserve natural resources and reduce mining demands.

4. Groundwater Contamination: Groundwater contamination occurs when pollutants seep into water supplies. Improperly disposed batteries can contribute to this issue. The EPA warns that heavy metals from batteries can contaminate groundwater sources, creating a public health risk. For example, the lead from discarded batteries can infiltrate aquifers, potentially resulting in long-term environmental damage.

5. Air Pollution: Air pollution can arise from the incineration of batteries, releasing harmful gases and toxins into the atmosphere. The World Health Organization categorizes these emissions as hazardous, with possible effects on respiratory health and overall air quality. Proper recycling methods can prevent air quality degradation by ensuring that batteries are treated safely and responsibly.

Taking these points into consideration helps in understanding the wider implications of battery disposal. Responsible management practices can mitigate these environmental impacts effectively.

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