What Type of Battery?

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There are various types of batteries on the market today:

different sizes, different technology, different voltages, rechargeable and

single-use disposables. So how do you know which to use? This article gives

some basic facts about the different types of batteries available.


Cell. A

device that produces a voltage from a chemical reaction and can source current

to power electronic or electrical devices, appliances or tools. Examples are

AA, AAA, C and D cells. Although these are technically called

“cells,” they are commonly referred to as “batteries”.

Battery. A

single cell can only produce a low voltage, typically 1.2, 1.5 or 3.6 volts.

Batteries consists of several cells connected in series so that voltages add

up. So, for instance, a 9-volt PP3 (MN1604) battery is composed of six flat

cells stacked on top of each other to produce 6 x 1.5 = 9 volts. The cells are

encapsulated by an outer casing. A lead acid car battery is made of 6 cells in

series to produce 12 volts.

Non-rechargeable or primary batteries. These are disposed of once they become “flat”

and their stored energy has been used up.

Rechargeable secondary batteries. These can be “filled” with charge or energy and

used again multiple times.

Capacity. The

amount of charge a battery holds. It’s measured in milliamp-hours (mAh) or

amp-hours (Ah).

For more info on volts, current, amps, watts and electricity,

see my easy-to-understand guide: Watts,

Amps and Volts, Kilowatt Hours (kWh) and Electrical Appliances—Basic Electricity Explained.

CRV3 3 volt non-rechargeable lithium battery alongside an AA

cell for size comparison.


CC BY SA 2.5, 2.0 and 1.0 generic via Wikimedia Commons



Batteries (Primary Cells)

Non-rechargeable or primary cells are available in all the

standard sizes and voltages: AA, AAA, C, D and PP3 (MN1604). The nominal cell

voltage is 1.5 volts and 9 volts for the small square PP3 type.

There are several widely available technologies:


Zinc Carbon. These

were the first, widely available non-rechargeable cells. They have a capacity

between one quarter and one fifth that of alkaline cells. They have a

relatively high internal resistance, and this makes them more suitable for low

current drain devices such as radios, toys and low power torches. They don’t

perform well at low temperatures, and high temperatures can dry out the



Zinc Chloride. These

are an improvement on zinc carbon having a 50% greater capacity, higher current

output capacity and improved leak resistance. They also have better low

temperature performance and longer shelf life.


Alkaline. These

have several advantages over zinc type batteries. Capacity is three to five

times greater, they are able to provide a high current output, they have good

high and low temperature performance and they have a long shelf life, losing

about 5% of capacity per year. Alkaline batteries are the most expensive,

however, compared to zinc cells, but the difference in price has reduced in the

last 20 years as production has increased. The capacity of alkaline cells

depends to a large degree on current load. At low currents, an AA cell can have

a capacity of 3AH, but this can drop to less than 1 AH at current drain of

about 1 amp (which is typical of high draw gadgets).


Lithium. Lithium

battery voltages range from 1.8 to 3.7 volts. The batteries are expensive

compared to alkaline cells but have a higher energy storage density. They are

suitable for high current demand applications and the output voltage is

constant during discharge, unlike the sloping voltage characteristic of other

primary cells. Lithium cells have a very long shelf life and loss of capacity

is only about 0.5% per year. There are several types:

3-volt lithium cells in the CRV3 format which is like

two AA cells side by side. This allows them to be used as drop-in

replacements in devices which take two or four AA cells side by side.

3-volt CR123A cells are often typically used to

power digital cameras and wireless sensors in security alarm systems.

AA size lithium iron disulfide cells. These have a cell voltage of

about 1.8 volts open circuit, dropping to around 1.7 volts when nearly

empty. They have a shelf live of about 20 years.

3-volt lithium coin cells are commonly used to power


An advantage over alkaline cells is that they don’t tend to

leak which is important if they’re used in expensive equipment. A battery leak

can cause serious corrosion of metal connections and other parts.


battery tester available from Amazon



Can You Test Batteries?

This is an inexpensive,

easy-to-use universal battery checker suitable

for 1.5-volt AA, AAA, C and D cells and also small, square 9-volt

“PP3” (MN1604) style batteries, often used in digital multimeters.

It’s suitable for alkaline, NiMH and NiCD cells but not lithium


It indicates whether the battery is flat, low or fully

charged on an analog scale.

High Power, High Drain Batteries


power”, “High Drain”, “Long Life” are terms often

encountered on the packaging of AA, AAA, C, D and PP3 batteries, usually when

sold in large packs in bargain basement stores. It’s important to realize that

these are marketing terms and the batteries may be zinc carbon or zinc chloride

types with relatively low capacity. Make sure to check that alkaline is

actually written on the packaging to get the best performance battery with high

capacity and long shelf life.




KratoChvil, public domain image via Publicdomainpictures.net


Batteries (Secondary Cells)

Known as secondary cells, these are available in all the

common sizes. The nominal cell voltage is 1.2 volts and 8.4 volts for the small

square PP3(MN1604) cell.


NiCd. Nickel

cadmium batteries were the first commonly available rechargeable cells. NiCads

suffer from a memory effect phenomenon which means that if you just keep

topping up the battery rather than fully discharging it, the battery

“remembers” the point from which it was topped up and will tend to

lose capacity and discharge to this point. Loss of charge during storage is

about 20% per month. The batteries have a low internal resistance and can

source a high current on demand when used in moderate power devices. The voltage

stays relatively constant during discharge.


NiMH. Nickel

metal hydride batteries are an improvement on NiCd. They have a higher capacity

for a given size of battery but without exhibiting a memory effect phenomenon.

They can also provide higher output for devices with a high current demand.

Voltage is relatively steady during discharge. The disadvantage of NiMH

batteries is that they lose charge relatively quickly, about 30% per month. LSD

or low self discharge NiMH cells are available however.


Rechargeable Lithium-Ion (Li-ion). These cells are used to make up the batteries for

cordless tools, laptops, camcorders etc. The cell voltage is normally from 3.2v

to 3.7v depending on the chemistry. These cells have the highest energy density

compared to other types. Their size is somewhat different to AA or AAA cells

and also their voltage is different, so they are not drop in replacements for

these types (however some manufacturers are now producing lithium-ions with the

same size format as AA and AAA cells with voltage down-regulated to 1.5 volts).

Some tactical LED flashlights are designed to use CR123A or 181650 lithium-ion

cells, but check the spec of the torch before using. Lithium-ion cells must be

charged with a special charger, designed for the purpose.


Lead Acid Gel Batteries. These are commonly found as the backup battery in alarm

panels, however they are often used in high powered torches. They are

relatively inexpensive compared to lithium cells. The nominal voltage is either

6 or 12 volts. Its important to use a proper three stage charger with these

types of battery to maximize their lifespan. Also unlike other types of

battery, they can be damaged if the voltage is allowed to fall below 10 volts

(for a 12 volt battery) for prolonged periods. “Yuasa” is a well

known manufacturer of gel batteries.


and Cons of Rechargeable Batteries

Batteries can be rechargeable or non-rechargeable. Non

rechargeable batteries can only be used once and then need to be replaced.

Rechargeable batteries can be recharged up to 500 times.



Can be

charged several hundred times before they become unable to hold a charge.


They are

able to source a high current output because of their low internal resistance.

This means that they can power devices with a high current demand.




expensive to buy than non-rechargeables but not hugely more expensive.



their charge over time through self-discharge even when not in a device. This

can be up to 30% per month. So a battery is never fully charged when you go to

use it , unless you keep it on constant trickle charge. Newer type NiMH

batteries hold charge for longer. However lithium-ion cells have very low

self-discharge so this problem is less of an issue



of NiCd or NiMH rechargeable cells is less than that of alkaline cells.


Rechargeables as Replacements for Non-Rechargeables

Since the voltage of a NiMH rechargeable cell is about 1.2v

compared to the 1.5 volts of a non rechargeable cell, this can cause problems

in some devices. A device such as a torch will work ok since there is no

electronic circuitry and the torch will just run until the battery is flat.

Some electronic devices have voltage monitoring circuitry

which gives a low battery warning and turns off the device when the voltage

falls to a certain level. Since NiMH batteries have a lower voltage, this will

happen quicker resulting in lower effective duration of use on a charge. Also

some equipment may not even work because of the lower voltage of these cells.

Check your manual for advice.


Battery Lasts the Longest?

1. Lithium

2. Alkaline non-rechargeables

Lithium batteries have the highest capacity and last the

longest. Alkaline non-rechargeable batteries come second, having a long shelf

life, low self-discharge and are inexpensive.


“Flat” AA Batteries

When a gadget indicates that the batteries are flat, this is

often because electronics or software detects that the voltage is below a

threshold level sufficient to run the device. However, the energy remaining is

often adequate to run battery clocks for up to 6 months.


Batteries From Equipment When Not in Use!

When batteries go flat, electrolyte becomes corrosive. Over

time, this can eat through the casing of a battery and end up on battery

terminals and circuit boards, potentially causing major damage to equipment. So

if you aren’t going to be using your gadgets for a long period, it’s wise to

remove the batteries before a leak occurs.



of battery sizes on Wikipedia.


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& Answers

Question: Is

there a better metal than Li-that we can use for batteries?

Answer: There

are several technologies in the pipeline which promise higher energy density,

lower cost and improved safety. These include lithium sulphur, solid state

using graphite anodes, graphene cells and lithium air.

Question: I

am an EET student and we have a class project where we are measuring

temperature and humidity every hour and recording the result. What kind of

batteries would you choose?

Answer: AA

or AAA size alkaline batteries are 1.5 volts so you can use multiple cells

connected in series to provide e.g. 3, 4.5, 6 or 9 volts for your instrument.

If you’ve built the electronics yourself, you can power it with AA cells in a

battery holder like the one at the link below. Alternatively, use the required

number of cells in the measuring device. Alkaline batteries have a high

capacity, higher than nickel metal hydride rechargeable cells so they last

longer without running flat. Also, alkaline batteries have a low self-discharge

rate meaning that even if they aren’t supplying current, they don’t lose much

of their energy. Rechargeable cells, however, have a high self-discharge rate

and can go flat without being used over a period of a year or so (so they

wouldn’t be much use for a long-lasting experiment with a duration of over a


Question: What

battery is good for a milk frothier?

Answer: It

depends on the size of the batteries that can be used. Ideally, lithiums if

it’s designed for lithiums, otherwise alkalines.

Question: We

use wireless microphones for a question and answer setting, for two hours a

day, 6 days a week. Mics powered by a single rechargeable AA battery. After

each day mics are placed back on charging cradle. Would you recommend Ni or Li

batteries for this situation?

Answer: It

depends on the charger. A charger will only be designed for a specific battery

technology. ie NiCd, NiMh or lithium. So you need to track down a manual for

the charger and see what they recommend.

Question: Is

a 3LR12 battery the same as 3R12?

Answer: Yes.

It was a 4.5-volt battery size, often used in small flashlights up until the


© 2012 Eugene Brennan


Eugene Brennan (author) from Ireland on July 23, 2019:

It wouldn’t make any difference because batteries are in

series so the same current would be flowing through either of them,

irrespective of which cell is flat. It’s possible that every time you remove

batteries and replace them, the connection between the terminals on the battery

and in the remote control improve.

Stephenmf on

July 23, 2019:

I have a tv remote with AA zinc carbon batteries (low cost).

When gone for a week or two the remote stops working, I reverse the two

batteries and it works. This has happened many times on this and the ROKU

remote. I am a bit confused and it is not the actual connection etc. I’m

thinking that the almost flat batteries when gone is transferring most all the

remaining charge to the second in-series battery. So the first battery is like

a short. When I reverse the batteries, the almost flat but now first one pushes

electrons through the second and it works. Everyone tells me to through the

batteries away and move on. Yes, but why does this happen several times.

Eugene Brennan (author) from Ireland on June 02, 2019:

Lithium iron disulphide batteries are non-rechargeable and

have a higher energy storage density than alkaline, long shelf life and don’t


Cesy on

June 02, 2019:

Hi. What is the best type of battery to use for

disposable/non-rechargeable battery?

Eugene Brennan (author) from Ireland on April 27, 2019:

UM3 batteries are equivalent to AA size. Alkaline are the

highest density cells. There are lithium cells the same size which use internal

electronics to convert voltage to 1.5 volts, but they’re expensive ($10 per

cell) and have less capacity than alkaline.

More than likely, there’s a leakage path somewhere in the

stereo that’s draining the batteries.

Roy on

April 26, 2019:

hello, can you tell me please what is the best battery for

1980’s stereo that requires batteries to keep FM station data…the unit says

UM 3 R6… …am currently using Alkaline AA and replacing them once per

month….thank you

LEricG on

October 27, 2018:

Thank you so much.

Eugene Brennan (author) from Ireland on October 27, 2018:

I can’t find any specific information about safety, and a lot

of “expert” websites probably just get their info from other websites

or Wikipedia. It would probably be best to query some of the battery manufacturers

if you’re curious. There’s some more info about the two types here:


LEricG on October 27, 2018:

Thank you very much Eugene. That is a great help.

Just to clarify for me, you are saying that the zinc chloride

batteries are just as safe as the zinc carbon as they have the same, or similar


Eugene Brennan (author) from Ireland on October 27, 2018:

Zinc carbon and alkaline cells have similar voltages but an

alkaline cell has a lower internal resistance so could source a larger current

if something failed in the toy, potentially causing a fire. Zinc chloride are

effectively zinc carbon batteries with an electrolyte consisting mostly of zinc

chloride rather than ammonium chloride, giving longer life and a higher current

output also. Possibly the other concern is that alkaline could leak, but any

batteries will leak if they’re left for a long period in a device after they’ve

become flat.

LEricG on October 27, 2018:

I’ve just bought a dog toy from China and it says we must use

carbon batteries not alkaline as they will damage the product.

My questions are,

1 Why would alkaline batteries damage it? and

2 If zinc-carbon are safe, would zinc-chloride also be safe?

Thank you


Eugene Brennan (author) from Ireland on June 25, 2018:

The only wet cell in common usage today is in the form of the

lead acid or nickel cadmium wet battery. Most other cells use a paste or gel as

an electrolyte. Dry cells are more convenient because they can be used in any

orientation without leaking.


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