I recently replaced my 2 Firefly Oasis 100 AH batteries with a pair of Battleborn 100 A batteries. They are both a Group 31 size, so they literally dropped right in.
The Firefly batteries are 2 years old and were only providing about 50 AH of useful capacity, despite several attempts at reconditioning. I’m a bit disappointed, needless to say.
I have a Balmar MC-614 voltage regulator with a Balmar temperature probe bolted to the Ample Power 105 A alternator terminal. I also have a second temperature probe bolted to the same terminal and connected to my Victron Venus GX. This allows me to record and chart alternator temperatures while under way.
When I installed the Battleborns, I also changed the programming on the MC-614. I modified the battery profile to LFP, and set A1c to 10 to provide 30 minutes of absorption per battery, per the Battleborn recommendations. I left BEL (belt manager) at 5, which is where it was set for the Fireflys.
We headed off to the San Juans, where the winds were light as expected. The Yamnar was turning 2400 RPM. The Venus was reporting the alternator temperature as 175°. On a whim, I decided to check the alternator with my new toy, a Flir C5 thermal imaging camera. Here’s what I found:
Maximum temperature in the image is 245°F. Yikes. I reduced RPM and continued motoring. The Venus was still reporting 175° so I continued at around 1200 RPM and the alternator cooled down. Once at anchor, I programmed BEL to 6 and reduced AL1 (Alternator Temperature) from 90°C to 70°C. This was the result during subsequent motoring:
I didn’t quite align the bullseye, but the hottest point is no longer the alternator. The alternator was still putting out 60 amps, which is more than adequate.
It would be easy to jump to a conclusion and say that my new toy saved me from buying a new alternator. However, I’d like to know when alternator temperature is measured, where is it measured from? Balmar’s probe was mounted per the instructions, and the A1c default is 100°C. Is there an assumption that the probe will be cooler that the internals? Is an internal temperature of 245° at the hottest point destructive?
Mike
The Firefly batteries are 2 years old and were only providing about 50 AH of useful capacity, despite several attempts at reconditioning. I’m a bit disappointed, needless to say.
I have a Balmar MC-614 voltage regulator with a Balmar temperature probe bolted to the Ample Power 105 A alternator terminal. I also have a second temperature probe bolted to the same terminal and connected to my Victron Venus GX. This allows me to record and chart alternator temperatures while under way.
When I installed the Battleborns, I also changed the programming on the MC-614. I modified the battery profile to LFP, and set A1c to 10 to provide 30 minutes of absorption per battery, per the Battleborn recommendations. I left BEL (belt manager) at 5, which is where it was set for the Fireflys.
We headed off to the San Juans, where the winds were light as expected. The Yamnar was turning 2400 RPM. The Venus was reporting the alternator temperature as 175°. On a whim, I decided to check the alternator with my new toy, a Flir C5 thermal imaging camera. Here’s what I found:
Maximum temperature in the image is 245°F. Yikes. I reduced RPM and continued motoring. The Venus was still reporting 175° so I continued at around 1200 RPM and the alternator cooled down. Once at anchor, I programmed BEL to 6 and reduced AL1 (Alternator Temperature) from 90°C to 70°C. This was the result during subsequent motoring:
I didn’t quite align the bullseye, but the hottest point is no longer the alternator. The alternator was still putting out 60 amps, which is more than adequate.
It would be easy to jump to a conclusion and say that my new toy saved me from buying a new alternator. However, I’d like to know when alternator temperature is measured, where is it measured from? Balmar’s probe was mounted per the instructions, and the A1c default is 100°C. Is there an assumption that the probe will be cooler that the internals? Is an internal temperature of 245° at the hottest point destructive?
Mike
corrected. 