TransWikia.com

Li-ion CR2 / 15270 voltage and charging circuitry

Electrical Engineering Asked by J Halcres on November 6, 2021

CR2 / 15270 Li-ion batteries normally come as 3.0v. I thought Li-ion and Lipo batteries were always 3.7v, how is that possible?

Does it require a different charger circuit than normal 3.7v li-ion/lipo batteries?

2 Answers

I thought Li-ion and Lipo batteries were always 3.7v,

Actually the most common Li-ion are 3.6V. The charlatan vendors on eBay and Amazon like to incorrectly use 3.7V. You can find the Panasonic NCR18650 cells on eBay and Amazon as 3.7V. Yet the Panasonic NCR18650 datasheet says 3.6v.

There are various Li-ion chemistries. The more expensive Li-manganese, used in power tools, is 3.7V. Most Li-ion are Li-cobalt or Lithium Nickel Manganese.

The 3.2V Li-phosphate is becoming more popular especially as an automotive Lead Acid replacement. The expensive Li-titanate are 2.4V.

See the "Nominal Voltage" row of the various Li-ion batteries: Summary Table of Lithium-based Batteries


Does it require a different charger circuit than normal 3.7v li-ion/lipo batteries?

You cannot use a charger on a CR2.

The CR2 lithium (Lithium/Iron Disulfide, Li/MnO2) is a primary battery, not rechargeable. Lithium AA batteries have a nominal 1.5V. The CR2 is a dual cell, Li/MnO2 battery

LINK: Lithium (CR2) Datasheet

Answered by Misunderstood on November 6, 2021

Charging of a batter comes down to delivering an amount of current to a battery at a certain voltage level for a specific amount of time.

The combination of current, voltage and time actually represents energy - so what you need to make sure is whether the charger circuitry delivers the required amount of energy to the battery; given that the current and voltage don't go out of the allowed range. If they are to great, they might damage the battery. If to small, the process might never come to a hold.

Basically, in this case, it narrows down to whether the current/voltage requirements of your battery fall within the value ranges for the output current/voltage of your circuitry.

Answered by apaj on November 6, 2021

Add your own answers!

Ask a Question

Get help from others!

© 2024 TransWikia.com. All rights reserved. Sites we Love: PCI Database, UKBizDB, Menu Kuliner, Sharing RPP