Accurately Calculating Battery Life

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Discussion Overview

The discussion centers around the accurate measurement of battery life for a listening device powered by two AA batteries. Participants explore methods for estimating battery life, the impact of voltage on performance, and the reliability of manufacturer discharge characteristics.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant questions the meaning of "on-load" and "off-load" voltage, suggesting that these should be expressed in terms of current rather than voltage.
  • Another participant clarifies that the open-circuit voltage is likely 3.08V, while the load voltage drops to 3.04V.
  • Some participants argue that discharge curves from manufacturers may not accurately reflect individual cell characteristics and can vary significantly due to factors like temperature during shipping.
  • There is a discussion about the configuration of batteries in series versus parallel, noting that while voltage adds in series, the amp-hour rating remains the same.
  • One participant emphasizes the importance of considering the duty cycle of the load when estimating battery life using discharge curves.

Areas of Agreement / Disagreement

Participants express differing views on the reliability of manufacturer discharge curves and the factors affecting battery life, indicating that multiple competing perspectives remain without consensus.

Contextual Notes

Participants note that battery performance can be influenced by various uncontrolled variables, such as temperature, which may affect the accuracy of battery life estimations.

Who May Find This Useful

This discussion may be useful for individuals interested in battery technology, electronics design, or those seeking to understand the complexities of estimating battery life in practical applications.

big_tobacco
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:confused: Hello

Could you tell me is there a way of accurately measuring battery life? Basically I have a listening device, it requires 2 x AA batteries, say 2400mAh each (so...4800mAh in total).

I am aware you can ‘estimate’ battery life by determining the device’s current consumption and then calculating against the battery(s) mAH rating, however this assumes the supply voltage remains constant.

I have measured the device as having an on-load voltage of 3.04V, and an off-load voltage of 3.08V.

Also I have found the minimum total voltage required to power the listening device is 1.35 V. (0.67 V per battery)

With this information how could I find out how long the device will run for by cross-checking it with a manufacturer's ‘Discharge Characteristics chart’.

I would be most appreciative if anyone could help.

Kind regards

Lee
 
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big_tobacco said:
:confused: Hello

Could you tell me is there a way of accurately measuring battery life? Basically I have a listening device, it requires 2 x AA batteries, say 2400mAh each (so...4800mAh in total).

I am aware you can ‘estimate’ battery life by determining the device’s current consumption and then calculating against the battery(s) mAH rating, however this assumes the supply voltage remains constant.

I have measured the device as having an on-load voltage of 3.04V, and an off-load voltage of 3.08V.

Also I have found the minimum total voltage required to power the listening device is 1.35 V. (0.67 V per battery)

With this information how could I find out how long the device will run for by cross-checking it with a manufacturer's ‘Discharge Characteristics chart’.

I would be most appreciative if anyone could help.

Kind regards

Lee

Welcome to the PF. What do you mean by on-load and off-load? If you mean a changing load on the battery supply voltage, those should be in currents, no?

You estimate battery life using the discharge curves you mention. If the load current is varying, you need to go back and forth between the different load curves, ratioed by whatever the duty cycle of the load is.

Also, the batteries are considered used up typically when their voltage falls to something like 85% of their starting voltage (varies by type of battery), so you are not going to get much extra life between there and the low 0.67V per cell that you mention in your post.

Can you post a link to the discharge curves for the battery that you want to use, and say more about the current consumption of the load and the duty cycle and frequency of the changing load current?
 
Last edited:
I think he means the open-circuit voltage is 3.08V. When he connects his load, the voltage goes down to 3.04V.

- Warren
 
You can't. Any discharge curves you obtain from the manufacture will merely represent a sample, at best. They will not necessarily reflect individual cell characteristics accurately.
 
big_tobacco said:
Basically I have a listening device, it requires 2 x AA batteries, say 2400mAh each (so...4800mAh in total).

Just to point out, when you connect batteries in serial the voltage adds but the Ah remains the same. When they are in parallel the voltage remains and the Ah adds. So your two AA batteries are 2400mAh at 3v.
 
negitron said:
You can't. Any discharge curves you obtain from the manufacture will merely represent a sample, at best. They will not necessarily reflect individual cell characteristics accurately.

Agreed. For awhile I was a product engineer at a company that made consumer products with the batteries installed at the factory. I was supposed to write a spec. for testing the battery because customers were complaining the batteries were DOA. I called the battery manufacturer up to get their spec. and was surprised to find out there was none.

One of the problems is that batteries deteriorate very rapidly when exposed to temperatures over 40 C. That's an uncontrolled variable during shipping, both from the manufacturer to the factory and from the factory to the store. How hot do you think semi-trailers get inside during shipping in summer? In short, lifetimes can vary tremendously from battery to battery.
 
Fantastic, to be honest everyone has given me some very useful ideas - I shall definitely keep you posted!
 

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