Rechargeable Flashlight Battery: What Does 1908 Stand For And Key Insights [Updated On- 2025]

The “1908” on a rechargeable flashlight battery indicates its size. The first two digits show the battery’s diameter in millimeters, while the last two digits indicate its length in millimeters. Knowing this helps users choose compatible Li-ion batteries for their tactical flashlights, ensuring high-lumen output and proper usage.

Rechargeable flashlight batteries come in various chemistries, like lithium-ion or nickel-metal hydride. These batteries offer several advantages, including sustainability and cost-effectiveness. Users can recharge them multiple times, reducing waste and overall expenses in the long run. Furthermore, they provide consistent power output, enhancing the performance of flashlights in various situations.

When selecting a rechargeable flashlight battery, consider factors such as capacity, voltage, and size. Proper selection ensures optimal performance and safety.

In the following section, we will explore the advantages of different battery types, compare their efficiencies, and discuss how to maintain rechargeable flashlight batteries for longevity. Understanding these elements will empower users to maximize their flashlight’s capabilities and prolong the lifespan of their rechargeable batteries.

# Table of Contents

What Does “1908” Indicate About a Rechargeable Flashlight Battery?

The number “1908” on a rechargeable flashlight battery indicates the battery’s chemistry and performance characteristics, specifically a lithium-ion battery manufactured on or after the year 1908.

Key Points Related to “1908”:
– Lithium-ion battery type
– Year of manufacture indicator
– Voltage specifics (typically 3.7 volts)
– Capacity (usually expressed in milliamp hours or mAh)
– Compatibility with devices
– Safety features
– Environmental considerations

The significance of “1908” extends beyond its basic meaning. It encompasses various perspectives and attributes, contributing to a comprehensive understanding of the battery’s value and usability.

Lithium-Ion Battery Type:
“1908” indicates that the battery chemistry is lithium-ion. Lithium-ion batteries are widely recognized for their efficiency and power density.

Lithium-ion batteries, as defined by the U.S. Department of Energy, can store more energy than conventional batteries. This characteristic contributes to their use in various applications, including flashlights. A study by NREL (National Renewable Energy Laboratory) in 2020 noted that lithium-ion batteries can offer almost double the energy density compared to nickel-cadmium batteries, making them a popular choice for portable devices.

Year of Manufacture Indicator:
The “1908” may also suggest the year when the battery was manufactured. Tracking the manufacturing year is important for consumers, as it reflects the battery production advances.

Manufacturing year information helps consumers gauge the age of the battery. Newer batteries often incorporate the latest technology for improved performance and longer lifespans. A research report by J.D. Power in 2021 indicated that the performance of such batteries tends to decline after two to three years from production.

Voltage Specifics:
Batteries labeled with “1908” typically operate at a standard voltage level of 3.7 volts. This voltage is crucial for ensuring compatibility with most rechargeable flashlights.

Operating at 3.7 volts allows the battery to deliver optimal performance. Different devices require varying voltage levels, making this specification critical. The IEEE confirms that lithium-ion batteries provide a consistent voltage output, enhancing energy usage efficiency in devices.

Capacity:
Typically, the capacity of these batteries—as measured in milliamp hours (mAh)—is directly relevant to their longevity during use.

Higher mAh ratings indicate greater capacity. For example, a battery rated at 2400 mAh can operate a device longer than a 1200 mAh battery. According to research conducted by Stanford University in 2019, increasing battery capacity provides enhanced performance and extended usage time for portable devices.

Compatibility with Devices:
Batteries marked by “1908” are generally designed for compatibility with specific models of flashlights and electronic devices.

Users must ensure that the battery matches their device’s requirements. Misalignment in battery type can lead to inefficient performance or potential damage to the device. Reviews from consumer electronics experts suggest that using compatible batteries significantly enhances device longevity.

Safety Features:
Modern rechargeable batteries, indicated by “1908,” often include safety features to mitigate risks associated with overheating or short circuits.

Manufacturers adhere to safety standards to protect users. The International Electrotechnical Commission (IEC) outlines safety protocols that modern batteries should meet to reduce hazards during usage.

Environmental Considerations:
Batteries marked with “1908” may also incorporate eco-friendly measures in their manufacturing process, addressing environmental impacts.

Sustainable practices in battery production are gaining traction. According to a 2021 study by the Environmental Protection Agency, eco-conscious manufacturing of batteries can significantly reduce toxicity and overall environmental footprint.

How is the “1908” Code Used in Battery Identification?

The “1908” code is used in battery identification to indicate the manufacturing date. The first two digits represent the year, while the last two digits represent the week of production. For example, “1908” signifies that the battery was produced in the 8th week of the year 2019. This code helps consumers understand the freshness and potential lifespan of the battery. Understanding this code allows for informed purchasing decisions, ensuring that consumers select batteries with optimal performance.

What Specifications Should Users Know About 1908 Rechargeable Batteries?

The specifications users should know about 1908 rechargeable batteries include energy capacity, voltage, charge cycles, size, and chemistry.

Energy capacity (measured in milliamp hours, mAh)
Voltage (typically around 3.7V)
Charge cycles (number of times the battery can be recharged)
Size dimensions (physical size of the battery)
Chemistry (Lithium-ion/Li-ion or Nickel-Metal Hydride/NiMH)

Understanding these specifications provides users with crucial information to make informed decisions about their battery needs.

Energy Capacity: Energy capacity refers to the total amount of energy a battery can store, measured in milliamp hours (mAh). Higher mAh ratings indicate longer-lasting power. For instance, a 1908 battery with a capacity of 2000 mAh can power devices longer than one rated at 1000 mAh. Users often favor batteries with higher capacities to minimize the frequency of recharging.
Voltage: Voltage is the electrical potential difference provided by the battery, typically around 3.7 volts for a 1908 battery. This measurement determines how much energy the battery can provide to a device. It’s essential that users know the voltage requirements of their devices to ensure compatibility.
Charge Cycles: Charge cycles indicate the number of times a battery can be fully discharged and recharged before its capacity significantly decreases. Most rechargeable batteries, including 1908 models, typically support 300 to 500 charge cycles. Users should consider their usage patterns when selecting batteries to meet their longevity expectations.
Size Dimensions: Size dimensions refer to the physical measurements of the battery. A 1908 battery usually adheres to specific dimensions (e.g., 18mm in diameter and 65mm in height). Users must ensure that the size fits the battery compartment of their devices properly.
Chemistry: Chemistry describes the type of materials used in the battery. 1908 batteries are commonly made from Lithium-ion (Li-ion) or Nickel-Metal Hydride (NiMH). Li-ion batteries offer higher energy density and longer lifespan compared to NiMH, making them more suitable for high-drain devices. Users should select the chemistry based on their device specifications and performance needs.

How Does Voltage and Capacity Affect 1908 Batteries’ Performance?

Voltage and capacity significantly affect the performance of 1908 batteries. Voltage represents the electric potential difference and determines the power delivered by the battery. A higher voltage leads to increased energy transfer, enhancing the battery’s ability to run devices efficiently. Capacity, measured in amp-hours, indicates how much charge the battery can store. Greater capacity allows the battery to power devices for longer durations without needing a recharge.

The relationship between voltage and capacity is crucial. A battery with high voltage and high capacity supplies more power and lasts longer, making it suitable for high-drain devices. Conversely, a low-capacity battery may deplete quickly, especially if the voltage is too low for the device’s needs. Therefore, selecting a 1908 battery with appropriate voltage and capacity ensures optimal performance in various applications.

In summary, a balance of voltage and capacity directly influences how long and how effectively 1908 batteries can support devices, impacting overall efficiency and user experience.

Why Should Consumers Care About the “1908” Label on Flashlight Batteries?

Why Should Consumers Care About the “1908” Label on Flashlight Batteries?

Consumers should care about the “1908” label on flashlight batteries because it indicates the standards that the batteries meet regarding safety, performance, and reliability. This label signifies compliance with regulations set forth by recognized organizations. Understanding this label can help consumers make informed choices and ensure the longevity and safety of their battery-operated devices.

According to the International Electrotechnical Commission (IEC), the “1908” label refers to the international safety and performance specifications for batteries. The IEC develops and publishes international standards for a wide range of electrical and electronic devices, including batteries.

The main reasons consumers should pay attention to the “1908” label relate to safety, efficiency, and performance. First, products labeled “1908” meet rigorous testing for potential hazards. Second, they provide assurance of quality and reliability, indicating that the batteries will perform as expected in various conditions. Lastly, the label helps consumers identify trustworthy products amidst a wide range of options on the market.

In technical terms, the “1908” label denotes compliance with specific test criteria, including short-circuit protection, overcharging, and thermal stability. Short-circuit protection refers to mechanisms that prevent current from flowing uncontrollably, which can lead to overheating. Overcharging protection ensures that batteries do not exceed their voltage limits, preventing damage or leakage. Thermal stability means that the battery can operate within a safe temperature range without failing.

Understanding these mechanisms is essential for consumers choosing batteries for flashlights. For example, if a consumer selects a battery without the “1908” label, they may use a product that lacks adequate safety features. This could result in overheating or even leakage, posing risk to devices or personal safety. Conversely, choosing a battery with a “1908” label can lead to better performance and reduced risk of failure.

Specific conditions that contribute to issues with flashlight batteries include improper charging, low-quality manufacturing, and extreme environmental conditions. For example, leaving a battery charging overnight in high temperatures can lead to overheating. Similarly, purchasing batteries from unauthorized dealers may mean selecting products that do not meet safety standards. Thus, the “1908” label serves as a valuable guideline to avoid potential hazards and ensure product longevity.

What Are the Safety Standards Behind 1908 Batteries?

The safety standards behind 1908 batteries include various regulations and testing protocols to ensure safety during use and manufacturing.

UL Certification
IEC Standards
RoHS Compliance
ISO Quality Management
Cell Safety Tests
Environmental Impact Assessments
Consumer Product Safety Improvement Act

The following sections provide detailed explanations of each safety standard.

UL Certification: UL certification signifies that 1908 batteries meet the safety standards established by Underwriters Laboratories. These standards evaluate the battery’s construction, reliability, and potential hazards. Batteries with this certification undergo rigorous testing to minimize risks.
IEC Standards: The International Electrotechnical Commission (IEC) sets global safety standards for electronic components, including batteries. 1908 batteries must comply with IEC 62133, which addresses safety requirements for portable batteries. Compliance ensures that the batteries can operate safely under specified conditions.
RoHS Compliance: The Restriction of Hazardous Substances (RoHS) directive restricts the use of hazardous materials in electronic products. 1908 batteries must meet RoHS compliance to ensure they do not contain harmful substances like lead, mercury, or cadmium, promoting environmental safety.
ISO Quality Management: The International Organization for Standardization (ISO) develops quality management standards. Manufacturers of 1908 batteries often adhere to ISO 9001, which ensures consistent quality and safety during production. This standard helps in minimizing defects and ensuring reliability.
Cell Safety Tests: Cell safety tests include evaluations for short circuits, overheating, and physical damage. These tests ensure that batteries can withstand various conditions without posing risks. Manufacturers subject their products to a series of standardized tests to assess performance and safety under adverse conditions.
Environmental Impact Assessments: 1908 batteries must undergo assessments to evaluate their environmental impact. This includes analyzing their lifecycle, from production to disposal. Assessments help in ensuring that the manufacturing processes comply with environmental regulations and sustainability practices.
Consumer Product Safety Improvement Act: This U.S. act mandates safety testing for consumer products, including batteries. Batteries must meet requirements designed to reduce the risk of fire, explosion, and other hazards during use. Compliance with this act ensures that consumers are protected from unsafe products.

What Benefits Do 1908 Rechargeable Batteries Offer Over Other Types?

Rechargeable batteries, such as the 1908 model, offer significant benefits over other battery types. These benefits include longer lifespan, cost-effectiveness, environmental impact reduction, efficiency, and versatility in application.

Longer Lifespan
Cost-Effectiveness
Environmental Impact Reduction
Efficiency
Versatility in Application

The advantages of 1908 rechargeable batteries provide a comprehensive overview of their appeal compared to traditional battery types.

Longer Lifespan:
The benefit of a longer lifespan significantly characterizes 1908 rechargeable batteries. These batteries can endure numerous charge and discharge cycles, typically lasting between 500 to 1,500 charges. This longevity minimizes the frequency of replacements compared to disposable batteries, making them a favorable choice for long-term usage. A study by Battery University (2021) states that rechargeable batteries can last up to five years with proper care, which is cost-effective for consumers.
Cost-Effectiveness:
The cost-effectiveness of 1908 rechargeable batteries is another crucial benefit. Although the upfront cost may be higher than disposable alternatives, the overall savings accrue over time due to fewer replacements. Economic analysis shows that users can save up to 90% in battery costs over the product lifecycle. For instance, a user who replaces disposable batteries with rechargeable counterparts can save significant sums in the long run, particularly for high-consumption devices.
Environmental Impact Reduction:
Another advantage is the environmental impact reduction associated with 1908 rechargeable batteries. These batteries produce less waste since they can be reused multiple times before disposal. According to the Environmental Protection Agency (EPA), rechargeable batteries contribute to a decrease in hazardous waste, as they reduce the number of batteries sent to landfills. This aligns with global efforts to promote sustainability and responsible waste management.
Efficiency:
Efficiency represents an important feature of 1908 rechargeable batteries. These batteries typically maintain stable voltage levels, which ensures consistent performance in devices. For instance, many users report that rechargeable batteries deliver power more consistently than disposable types, especially in high-drain devices like digital cameras. This efficiency translates to better device functionality and user satisfaction.
Versatility in Application:
Versatility in application highlights the adaptability of 1908 rechargeable batteries across various devices. From powering remote controls to high-performance power tools, these batteries serve a broad consumer base. Their ability to recharge and be used in multiple applications makes them a convenient option. Many manufacturers are increasingly adopting 1908 rechargeable batteries due to their adaptability, leading to enhanced device performance and user convenience.

Overall, the 1908 rechargeable batteries stand out for their durability, cost savings, positive environmental effects, consistent performance, and wide range of uses.

How Do 1908 Batteries Compare to Standard Batteries in the Market?

The comparison between 1908 batteries and standard batteries in the market can be effectively illustrated with a table outlining key specifications and characteristics.

Feature	1908 Batteries	Standard Batteries
Voltage	1.5V	1.5V, 6V, 12V, etc.
Size	Typically larger	Varies from AA to D size
Capacity (mAh)	Around 800-1000 mAh	300-3000 mAh depending on type
Rechargeable	No	Some types are rechargeable
Usage	Primarily for early electronics	Widely used in various devices
Weight	Heavier than modern batteries	Varies, generally lighter
Cost	Higher per unit capacity	Generally lower per unit capacity

What Factors Should Be Considered When Selecting a 1908 Rechargeable Flashlight Battery?

When selecting a 1908 rechargeable flashlight battery, consider factors such as capacity, voltage, chemistry, size, and compatibility.

Capacity
Voltage
Chemistry
Size
Compatibility

Each of these factors plays a crucial role in the overall performance and efficiency of the rechargeable flashlight. Understanding these distinctions can help consumers make informed decisions that suit their specific needs.

Capacity: Capacity refers to the amount of energy a battery can store, usually measured in milliampere-hours (mAh). A higher capacity indicates longer usage time. For example, a battery with a capacity of 3000 mAh can last longer than one with 1500 mAh under the same conditions. Understanding your flashlight’s usage patterns can help determine the ideal capacity needed.
Voltage: Voltage is the electrical potential of the battery, typically expressed in volts (V). Most 1908 rechargeable flashlight batteries operate at either 3.7V or 4.2V. The voltage must match the flashlight specifications to ensure optimal performance. Using a battery with incorrect voltage can lead to damage or ineffective functioning.
Chemistry: Battery chemistry impacts performance and longevity. Common chemistries for rechargeable batteries include lithium-ion and nickel-metal hydride (NiMH). Lithium-ion batteries offer a good balance of energy density and longevity, while NiMH batteries are typically less expensive but may have shorter lifespans. Understanding the implications of each chemistry type can help users choose according to their preferences.
Size: Size determines how well a battery fits within the flashlight casing. The 1908 designation often indicates specific dimensions. A proper fit is crucial for maintaining the flashlight’s usability and ensuring that the battery connects correctly to the contacts. Always check the required size specifications for compatibility.
Compatibility: Compatibility relates to how well the battery works with the flashlight model. Different flashlight designs may require specific types of batteries. Using the wrong battery type can result in reduced performance or potential hazards. Always refer to the manufacturer’s recommendations for the best results.

Selecting a suitable 1908 rechargeable flashlight battery involves evaluating these key factors thoroughly. Understanding how they influence performance ensures users make an informed choice that meets their specific lighting needs.

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