Button cells, also called button batteries because of their tiny, button-like shape, are thinner and have a bigger diameter than cylindrical batteries like the commonly used AA batteries. Button batteries are categorized according to their unique forms, which include square, cylindrical, and custom shapes.
Rechargeable and non-rechargeable button batteries are the two main varieties. The 3V rechargeable lithium-ion button batteries (ML or VL series) and the 3.6V lithium-ion button batteries (LIR series) are two of the rechargeable choices. The 1.5V alkaline zinc-manganese button batteries (LR and SR series) and the 3V lithium-manganese button batteries (CR series) are non-rechargeable substitutes.
The AG3, AG10, and AG13 button battery versions are frequently found in presents, toys, computer motherboards, and electronic watches. Notable models include the CR2032 and CR2025, which are utilized in electronic dictionaries, as well as the CR2016, SR44, and SR626 types, which are frequently found in electronic watches. We examine the differences between CR2016 and CR2032 in this post in an effort to address a frequently asked query by customers.
CR2016 Overview
The CR2016 is a 3V button-type manganese lithium non-rechargeable battery. The button manganese lithium battery’s international IEC designation is CR; 20 denotes that it has a diameter of 20 mm, and 16 denotes that it is 1.6 mm thick. These batteries have a button-shaped design and are a popular 3.0V button battery with a rated capacity of 75mAh and a nominal voltage of 3.0V.
Motherboards for computers, memory cards, cell phones, Bluetooth devices, remote controls, calculators, electric toys, tiny radio instruments, alarm systems, medical equipment, and other electronic devices are frequently discovered to have this form of battery. The advantages of its comparatively compact size and reliable voltage output are reflected in its wide applicability.
A synopsis of CR2032
The construction of the lithium-manganese dioxide 3V CR2032 lithium manganese battery is distinctive. This design uses metallic lithium as the negative electrode material and manganese dioxide, which has chemical characteristics that are remarkably stable, as the positive electrode material. Because the electrolyte in this battery resembles a button, it is commonly referred to as a lithium button battery or a lithium manganese button battery. It is made up of solid salts or salts dissolved in organic solvents.
Rewrite the following, being careful not to alter the sense of the sentence or the content: Comparing CR2016 and CR2032
The high specific energy of the CR2032 lithium button battery, or a sizable quantity of energy held per unit mass, is one of its primary characteristics. This attribute highlights its usefulness for a variety of applications, together with a long storage time and low self-discharge. The battery has a reputation for having a safe usage profile and a wide working temperature range, consistently performing between -20 and +70°C.
Practically speaking, these characteristics make the CR2032 lithium button battery a top option for a variety of electronic gadgets, from watches and calculators to key chains and tiny medical equipment. Its versatility is enhanced by its ability to maintain operational integrity across a variety of temperature settings, making it a dependable power source for use in both specialized equipment and ordinary consumer devices.
CR2016 vs. CR2032: Difference Between CR2016 and CR2032
In conclusion, even though CR2016 and CR2032 both state 3V, their varying power capacities highlight how crucial it is to replace them with caution. Similar to AA dry batteries, knowing how voltage, capacity, and size interact with one another will help you obtain the maximum performance out of various electronic devices. Therefore, being aware of the specifics of these lithium button batteries enables consumers to choose wisely depending on the requirements of their gadgets.
CR2032 versus CR2016: Thinking
Beyond merely their names, CR2016 and CR2032 button batteries differ from one another. Their sizes are essentially indicated by the numbers in their names; they are both 20 mm wide, but the main distinction is in their thickness. CR2032 is thicker at 3.2 mm than CR2016, which is thinner at 1.6 mm. Despite the fact that they both output 3V of power, their thickness has a significant impact on their capacity and endurance.
Capacity of CR2016 versus CR2032
A thicker battery typically has a higher capacity. This is true for batteries of the same type in all varieties. The concept is straightforward: longer-lasting batteries have greater power because they are fatter. Opting for a thicker battery can result in a longer-lasting power source if your gadget can withstand the increased thickness.
Comparing CR2016 vs CR2032: Weight
These batteries range in weight quite a little. To be more precise, a CR2032 typically weighs 3.1g, and a CR2016 typically weighs 1.6g.
Comparing CR2016 with CR2032: Usage
The specific applications of CR2016 and CR2032 should be considered while comparing them. While CR2016 is widely used in electronic watches, CR2032 is typically found in electronic dictionaries.
In specifics, the CR2016 has a power capacity of roughly 75mAh and operates at 3V. In contrast, the CR2032 is thicker but still outputs 3V and has a 200mAh capacity. The thickness accounts for the majority of the power differential: CR2032 is twice as thick as CR2016.
