Electrathon America Forum

Ryan,

Full marks for paying attention to what other teams are doing and trying to understand why.

What a fasinating question. We know that batteries can be designed to be better at different tasks. A starter battery is optimized for power. A deep cycle is optimized for energy. So when asked to deliver high amps, a starter battery should be able to supply more total energy than the deep cycle under high amps. And when asked to deliver low amps, the deep cycle should be able to supply more total energy than the starter battery Under low amps.

Basic electrical theory says current will be the same through out the electrical circuit, so the two batteries in series will experience the same current loads. The starter battery is 'stiffer' meaning that it's voltage will sag less under load. So if the starter battery sags to 11 volts under a 50 amp load and the deep cycle sags to 10 amps, then the starter battery is providing more of the energy, 55 Watts to 50 Watts. This means the starter battery is now more discharged and it's no load voltage will be less and under lighter amp loads, the deep cell will be a higher voltage and provide more of the Watts. This would mean each battery would be doing more of the work in the situation that they are optimized for. So I would say "yes", this might be an advantage.

But...your pack is empty when just one battery becomes empty, so it is most important that the cell capacity works out so that they hit empty at the same time. This method does seem to self balance some but capacities need to be close.

Also, keep in mind that testing says there is enough variation in Optima battery capacity that a brand new good battery of either type will be better in all respects that a brand new bad battery of either type. Also that age and temperature hugely effect capacity. And that it takes a number of 'break in' cycles before the battery delivers it's best capacity.

I always tell my kids to read the batteries with a slight load on them. So give the car SLIGHT throttle with the car held tight so it will not move, and read the volts on each battery then. This tells you the actual voltage the battery is putting out when under load. If a battery sits for a couple of minutes it gains a surface charge that is not really telling you much of anything. Do you have any type of battery management system on your car? I know my 2 yellow Optima batteries start out the race at about 26 volts and they go to about 25 by the second/third lap but hopefully at the end are at about 22.5-22 volts so that I am just starting to slow down. The last lap I like to only be able to go about 90% of the top speed on the straight a-ways as then I know I got all of the goodies out of the battery but did not try to get too much and slow down enough that I get passed easily. I also do not slow down any more on corners than I absolutely have to as the acceleration is what kills my batteries. I do not have regenerative braking as I try to never touch a brake and will coast a little on the way to going into a corner if I need to slow down. But on most of out tracks--even the very tightest ones--if I am going about 26 on the straights I try to hold 22 or so on corners so there is not speed to regain. But then there are very few cars that will corner as well as mine at high speeds.

Under load like I said my batteries start at over 26 volts drop to 24.? soon and then the drop slows but it still slowly goes down. At about 30 minutes of race they tend to be in the ~23.2-23.6 range and by the last lap I like it in the 22.5 range at full power. This is about yhe 11.25 volt range of each battery you are talking about. I have been know to overdrive mine and end at around 21 volts total or 10.5 in each but by then you have really slowed down. Again these are read under power.

I put in the first real meter I have ever used part way through the last spring season so am still learning. But what I did with my meter, I drove it the first time with a set of batteries and watched the amps/volts and kept track of the Watt/hours or the Amp/hours used. Near the end of the race if I slow down just a touch but still moving well, I read that I used a total of 39.2 Amp/hours. Once I know that then I planned on using 3.9 amp/hours every 6 minutes to get the full stored power out. If in the last 5-10 minutes my voltage is still looking good (high 22.? volts) then I can drive hard the last of the race to catch those just ahead of me. At the end of each race I note the amp/hours used and can tell if my batteries are 'breaking in' and getting better or wearing out and going downhill in the amount of power they use.

I know some in this area overcharge and heat their batteries to make them hold a couple more amp/hours but with 18 to 21 cars in our fleet most years we don't do that. I know I could but I don't want to have any advantages over my students so we all just keep them charged in our battery truck at 14.2+ volts each.

Most of our course are full of tight corners and at least 2 of them have a 50 foot+ elevation change so we have to drive very conservative or we die very soon. With that said the slowest winning speed last year was an average of 23.4 miles in the hour. So most of our cars corner very well so we never have to slow on corners very much.

The dead battery issue is why Willamette pushed to get the Yellow Top batteries approved. The Red tops were better in some ways but they seemed to lose their competitive edge too soon. They took 2 to 4 races to break in and then after about 15 more races they had trouble making the full race at the speeds they could the year before. We did not use any battery monitoring meters back then but by the end of the second year I always got 1 to 3 less laps than the year before. In the NW if you go to every race there are about 13 to 17 races each year so I had to buy a whole set of new race batteries for each of our 15 to 22 cars (30 to 42 batteries) which took much of the money I was able to raise with grants, etc. The Yellow tops seem to last us at least 3 years if taken care of and still are competitive. My 'race batteries' last year are from 2012 and were still going strong. I am debating on changing them out this year so that they are broken in for my last 3 years of racing. Now I buy about 10-15 batteries a year to add to the rotation from race to practice batteries and then to sell to kids as batteries for their cars. Last year I did not buy any so need to buy 20 this year...anyone know of a cheap place to buy them?

YES I AM RETIRING FULL TIME THIS YEAR AND PLAN ON COMING BACK HALF TIME FOR THE NEXT TWO YEARS TO TEACH MY ELECTRATHON OR INDUSTRY AND ENGINEERING SYSTEMS CLASSES.

SO WE NEED A NEW PRESIDENT SOON!!! ANY IDEAS???

I read someplace that the Red Top Optima batteries are good for approximately 30 charge cycles before they start to fall off while the Yellow Top Optimas are good for 300 cycles. I had the red ones when I was still teaching and mentoring a team; their performance dropped off dramatically by the middle of the second year. When I retired from teaching and started racing my own cars I switched to the yellows. I bought 4 of them in April of 2010 and 4 more in December of 2010 (I had 2 cars). I sold those batteries with the cars in January of this year (2016) and they are still running competitively! I don't know how much longer they will last, but I now know that the yellows are good for at least 6 years if cared for properly.

Yellow Top Optimas sell for $244 + tax each locally - I bought my new ones in February on Amazon for $198 each with free shipping and no core charge...