Primary ER26500 3.6V 9000mAh C Size LiSOCL2 Battery with SPC1550 and ER26500+SPC1530 Battery

Primary ER26500 3.6V 9000mAh C Size LiSOCL2 Battery with SPC1550 and ER26500+SPC1530 Battery

Introduction

In the realm of primary batteries, lithium thionyl chloride (LiSOCl2) batteries have emerged as a prominent choice due to their high energy density, long shelf life, and stable discharge characteristics. Among these, the ER26500 3.6V 9000mAh C size LiSOCl2 battery stands out as a versatile power source for various applications. This article delves into the specifics of the ER26500 battery, particularly focusing on its configurations with SPC1550 and SPC1530 connectors, and comparing it with the ER26500+SPC1530 battery.

Understanding the ER26500 3.6V 9000mAh C Size LiSOCl2 Battery

1. Basic Specifications

• Chemistry: Lithium Thionyl Chloride (LiSOCl2)

• Voltage: 3.6V

• Capacity: 9000mAh

• Size: C size (Diameter: 26mm, Height: 50mm)

The ER26500 battery leverages the advantages of LiSOCl2 chemistry, which offers a high-energy density, allowing for a compact size while maintaining substantial power output. The 3.6V nominal voltage and 9000mAh capacity make it suitable for applications requiring sustained power over an extended period.

2. Operating Characteristics

• High Energy Density: The high energy density of LiSOCl2 chemistry allows the ER26500 battery to store more energy per unit volume than traditional batteries.

• Long Shelf Life: ER26500 batteries have an exceptional shelf life, which can extend up to ten years or more when stored at optimal conditions.

• Stable Discharge: The discharge profile of the ER26500 battery is relatively flat, providing consistent power output throughout its life cycle.

• Operating Temperature Range: These batteries can operate within a wide temperature range, making them suitable for various environmental conditions.

3. Applications

Due to its unique characteristics, the ER26500 battery finds applications in various fields:

• Medical Devices: ER26500 batteries are commonly used in medical implants, heart pacemakers, and other medical devices that require reliable and long-lasting power.

• Security Systems: They are ideal for use in security systems, including smoke detectors, burglar alarms, and other surveillance equipment.

• Industrial Instrumentation: The high energy density and long shelf life make them suitable for industrial instrumentation, including meters, sensors, and data loggers.

• Consumer Electronics: They can also be found in high-end consumer electronics that require a steady power supply over an extended period.

SPC1550 and SPC1530 Connectors: Enhancing the Functionality of ER26500 Batteries

To further extend the versatility and ease of use of ER26500 batteries, they are often equipped with specific connectors, such as SPC1550 and SPC1530.

1. SPC1550 Connector

The SPC1550 connector is designed to seamlessly integrate with the ER26500 battery, providing a robust and reliable electrical connection.

• Features:

• Material: Typically made of high-quality materials to ensure durability and corrosion resistance.

• Design: Compact and low-profile design to minimize space requirements.

• Polarity: Clearly marked for easy identification to prevent incorrect installation.

• Contacts: Gold-plated contacts for improved conductivity and corrosion resistance.

• Applications:

• The SPC1550 connector is ideal for applications where a secure and reliable electrical connection is crucial, such as in medical devices, industrial equipment, and security systems.

2. SPC1530 Connector

Similar to the SPC1550, the SPC1530 connector is another option for connecting the ER26500 battery to various devices.

• Features:

• Material: High-quality, durable materials ensure long-lasting performance.

• Design: Compact design for space-saving applications.

• Polarity: Clearly marked for ease of installation and to prevent misconnections.

• Contacts: Gold-plated contacts for optimal conductivity and reliability.

• Applications:

• The SPC1530 connector is suitable for applications requiring a reliable and compact battery connection, such as consumer electronics, portable devices, and other compact systems.

Comparing ER26500 with SPC1550 and ER26500+SPC1530 Batteries

Understanding the differences and similarities between the ER26500 with SPC1550 and ER26500+SPC1530 configurations is essential for selecting the most appropriate battery for specific applications.

1. Battery Specifications

Both configurations utilize the same ER26500 battery core, featuring the same voltage, capacity, and dimensions. The primary difference lies in the connectors attached.

• ER26500 with SPC1550: This configuration comes with an SPC1550 connector attached to the battery.

• ER26500+SPC1530: This configuration includes an SPC1530 connector instead.

2. Connector Differences

The choice of connector can affect several aspects of the battery's performance and usability:

• Size and Profile: While both connectors are designed to be compact, there may be slight differences in size and profile, which can impact space requirements in specific applications.

• Polarity and Markings: Both connectors have clearly marked polarity indicators to prevent incorrect installation. However, the specific marking style and location may vary.

• Contacts: Both connectors utilize gold-plated contacts for optimal conductivity, but differences in contact design may affect mating force, durability, and resistance to corrosion.

3. Application Suitability

The choice of connector often depends on the specific requirements of the application:

• ER26500 with SPC1550: Suitable for applications where the SPC1550 connector offers the necessary electrical and mechanical performance. Examples include medical devices, industrial equipment, and security systems that require a robust and reliable connection.

• ER26500+SPC1530: Ideal for applications where space is a constraint or where the SPC1530 connector provides a better fit or performance. This configuration may be more suitable for consumer electronics, portable devices, and other compact systems.

4. Cost Considerations

The cost of the battery can also be affected by the choice of connector:

• SPC1550 vs. SPC1530: The cost difference between the two connectors may be minimal, but it can depend on factors such as production volumes, material costs, and complexity of the design.

• Overall Battery Cost: The overall cost of the battery (including the connector) should be considered when selecting the most appropriate configuration for a specific application.

Performance and Reliability

Both configurations offer exceptional performance and reliability, leveraging the inherent advantages of the ER26500 battery:

• High Energy Density: Both configurations provide the same high-energy density, enabling sustained power output for extended periods.

• Long Shelf Life: The shelf life of both configurations is comparable, with both offering excellent long-term storage capabilities.

• Stable Discharge: The discharge profile remains consistent, ensuring stable power output throughout the battery's life cycle.

Environmental Considerations

As with any battery, environmental considerations are essential when using ER26500 batteries with SPC1550 or SPC1530 connectors:

• Disposal: Proper disposal of spent batteries is crucial to prevent environmental contamination. Recycling programs should be utilized to minimize waste.

• Storage Conditions: To maximize shelf life, batteries should be stored in cool, dry places away from heat and moisture.

• Handling Precautions: Batteries should be handled with care to prevent short circuits, which can lead to heat generation and potential hazards.

Conclusion

The ER26500 3.6V 9000mAh C size LiSOCl2 battery, equipped with either SPC1550 or SPC1530 connectors, offers a versatile and reliable power solution for a wide range of applications. The choice of connector can depend on specific application requirements, including space constraints, mechanical performance, and electrical characteristics. Both configurations provide high energy density, long shelf life, and stable discharge profiles, making them suitable for various fields such as medical devices, security systems, industrial instrumentation, and consumer electronics.

When selecting the most appropriate configuration, it is essential to consider factors such as application suitability, cost, performance, and environmental considerations. By understanding these aspects, users can make informed decisions to ensure that their ER26500 batteries with SPC1550 or SPC1530 connectors meet their specific needs while maintaining optimal performance and reliability.