How To Check Exide Battery Manufacturing Date Codes

When purchasing a car battery, you typically assess the price, quality, and warranty as part of your decision-making process. But, one thing that often goes overlooked is the manufacturing date code. Depending on the age of your battery, it may not hold a charge as long as a newer model. In this blog post, we’ll show you how to read the Exide manufacturing date code so you can make an informed decision about your next car battery purchase.

The Exide battery manufacturing date can help determine the age of a battery and whether it is still within its usable life span. This code is typically a four-digit number. The batteries that are more than a few years old may not hold a charge as well as newer batteries, and they may also be more prone to failure.

Exide Battery Date Code Chart

Year of Manufacture Month of Manufacture First Digit Second Digit Third Digit
1955 January 1 9 5
1955 February 1 9 6
1955 March 1 9 7
1955 April 1 9 8
1955 May 1 9 9
1955 June 2 0 0
1955 July 2 0 1
1955 August 2 0 2
1955 September 2 0 3
1955 October 2 0 4
1955 November 2 0 5
1955 December 2 0 6
1956 January 2 0 7
1956 February 2 0 8
1956 March 2 0 9
1956 April 2 1 0
1956 May 2 1 1
1956 June 2 1 2
1956 July 2 1 3
1956 August 2 1 4
1956 September 2 1 5
1956 October 2 1 6
1956 November 2 1 7
1956 December 2 1 8
1957 January 2 1 9
1957 February 2 2 0
1957 March 2 2 1
1957 April 2 2 2
1957 May 2 2 3
1957 June 2 2 4
1957 July 2 2 5
1957 August 2 2 6
1957 September 2 2 7
1957 October 2 2 8
1957 November 2 2 9
1957 December 2 3 0

How can I check the Exide battery manufacture date?

Many have inquired about how to check manufacturing date of Exide battery. Here’s a simple guide on how to read the manufacture date code for most Exide batteries:

  • The first two characters – the first code is the type of the battery followed by the factory code. You may ignore these two characters.
  • The next two characters – The third code is a letter that corresponds to the month of the year. For example, A for January, B for February, C for March, and so on. This indicates the month when the battery was manufactured.
  • The fourth code is in the form of a numerical number, and it indicates the year that the battery was manufactured. So, for example, if you have a code of “B2C7”, it means that the battery was made in March 2007.

When you do Exide battery code check, be sure to note the year as well as the day and month. The manufacturing date code can be different on different batteries, so it is important to check these details before purchasing a new battery. But, remember that not all batteries have a date code that includes the year.

If you are unsure how to read the date code or need help interpreting it, consult your battery manual owner or contact the manufacturer. They should be able to help you determine the age of your battery and whether it is still within its usable life span.

How do I find the manufacturing date code in a battery?

Knowing the manufacturing date code can be helpful if you need to replace your battery. The date code will usually be a series of letters and/or numbers, and it will typically be located on the battery itself or on its packaging. Some date codes are stamped into the battery casing, while others are printed on a sticker. In most common batteries, you can find the manufacturing date code either on the bottom or side of the battery.

How do I know when my car battery expires?

The lifespan of a car battery depends on a variety of factors, including the make and model of your car, the age of your car, how you use your car, and the climate in which you live. That said, most batteries last between three to five years.

There are a few ways to tell if your battery is starting to wear out. One is that your car will take longer than usual to start up in the morning. Another is that you’ll see a decreased performance in your vehicle – for example, it might not be able to climb hills as well as it used to, or it might need more frequent charging.

You can also test your battery by starting your car and seeing if the alternator belt is moving. If it’s not, then your battery has likely expired.

Another way to test your battery is to see if it will hold a charge. To do this, use a digital voltmeter to measure the voltage of the battery with it disconnected from the car. A healthy 12-volt battery should read 12.6 volts or more. If it reads below 12 volts, then the battery is weak and should be replaced.

If you suspect that your battery might be bad, the first step is to bring your vehicle to a mechanic and have them test the battery. A bad battery can cause a lot of problems including your car’s electrical system, so it’s best to be safe by having it checked out.

How to check the Amaron battery manufacturing date?

If you’re looking to check the manufacturing date of an Amaron battery, there are a few different ways you can do so. First, you can check the label on the battery itself – most batteries will have a date code printed somewhere on them. Alternatively, you can contact Amaron directly and they should be able to tell you when your particular battery was manufactured. Finally, if you have the serial number for your battery, most manufacturers have an online tool that allows you to input that information and get back the manufacturing date.


Batteries don’t last forever. Sooner or later, they will lose their charge and need to be replaced. To get the most out of your battery, it’s important to know when it was manufactured. By understanding how to read the battery manufacturing date code, you can ensure that you are buying a fresh battery and not one that is past its prime. With this knowledge in hand, you can keep your family safe and your car running smoothly. Lastly, knowing when the battery was manufactured would give you an idea of when to start planning for a replacement.

About the author, Phil Borges

Phil Borges is a battery aficionado. He's written extensively about batteries, and he loves nothing more than discussing the latest innovations in the industry. He has a deep understanding of how batteries work, and he's always on the lookout for new ways to improve their performance.