What Battery Do You Need for a Milwaukee Heated Jacket? Explained in 2024

The Milwaukee Heated Jacket is powered by the M12™ REDLITHIUM™ Battery, designed to provide warmth and comfort during cold weather. This battery offers up to 6 hours of continuous heat on a single charge, making it an ideal choice for outdoor work and activities. Understanding its features and performance can help users maximize their experience.

What type of battery powers the Milwaukee heated jacket?

The Milwaukee heated jacket utilizes the M12™ REDLITHIUM™ Battery. This compact lithium-ion battery is specifically designed for Milwaukee’s M12 platform, ensuring compatibility across various tools and heated gear. It provides reliable power, enabling efficient operation of the jacket’s heating elements.

Battery Type Description
M12™ REDLITHIUM™ Lithium-ion technology for high performance

How long does the battery last on a single charge?

The M12™ REDLITHIUM™ Battery can deliver up to 6 hours of continuous heat on a single charge, depending on the heat setting used. The duration may vary based on external temperatures and individual usage patterns. Users can extend battery life by using lower heat settings when appropriate.

Heat Setting Estimated Duration
High ~3 hours
Medium ~4.5 hours
Low Up to 6 hours

What are the features of the M12™ REDLITHIUM™ Battery?

The M12™ REDLITHIUM™ Battery comes with several notable features:

  • Fade-Free Power: Maintains consistent power output throughout its discharge cycle.
  • Built-In USB Port: Allows users to charge portable electronics while using the jacket.
  • Durability: Designed to withstand harsh jobsite conditions, ensuring longevity.
Feature Benefit
Fade-Free Power Consistent heating performance
Built-In USB Port Convenient charging for devices
Durability Resists wear and tear in tough environments

How does battery capacity affect heating duration?

Battery capacity directly influences how long users can expect their heated jacket to operate. For example, a higher-capacity battery (like a 6Ah) will provide longer heating times compared to a lower-capacity option (like a 2Ah). Users should consider their needs when selecting a battery size for extended use.

Battery Capacity Approximate Heating Duration
2Ah ~2 hours (high setting)
3Ah ~3 hours (medium setting)
6Ah Up to 6 hours (low setting)

What are the different heat settings and their power consumption?

The Milwaukee heated jacket features three adjustable heat settings:

  • High: Provides maximum warmth but consumes more power, leading to shorter usage time.
  • Medium: Balances warmth and energy efficiency, suitable for moderate conditions.
  • Low: Offers minimal warmth while maximizing battery life, ideal for less severe cold.
Heat Setting Power Consumption (Watts)
High 6 watts
Medium 4 watts
Low 2 watts

Why is it important to choose the right battery for optimal performance?

Selecting the appropriate battery is crucial for ensuring optimal performance of the heated jacket. Using a compatible M12™ REDLITHIUM™ Battery guarantees:

  • Safety: Prevents potential damage or malfunction that can occur with incompatible batteries.
  • Efficiency: Maximizes heating capabilities and runtime based on specific user needs.
  • Reliability: Ensures consistent performance throughout various weather conditions.

Industrial News
In recent developments, Milwaukee has continued to innovate within its heated gear lineup, focusing on enhancing thermal efficiency and user comfort. The introduction of advanced heating elements in jackets has improved heat distribution while maintaining lightweight designs. As outdoor work demands increase during colder months, these innovations position Milwaukee as a leader in cold-weather work apparel.Rack Battery Expert Views
An industry expert commented:

“The integration of lithium-ion technology in heated jackets has revolutionized how we approach outdoor work in winter conditions. The M12™ REDLITHIUM™ Battery not only provides reliable power but also enhances user convenience with features like USB charging.”

This insight highlights how advancements in battery technology contribute significantly to user experience in extreme weather conditions.