In the market for a Spark, but concerned that it's been discontinued
- Thread starter RossS
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SparkE
Well-known member
It's guaranteed for 8 years from date of first sale (for battery and charging parts), so the manufacturer will have something available.
If you are worried about spare parts and you are buying a car for the next 15 years, maybe not the Spark EV. It has had very few problems reported (but then, only a few thousand were sold). I love mine.
If you are worried about spare parts and you are buying a car for the next 15 years, maybe not the Spark EV. It has had very few problems reported (but then, only a few thousand were sold). I love mine.
MrDRMorgan
Well-known member
For parts, you are pretty much stuck with buying them from GM. I had to replace the windshield in my 2016 - rock hit it - and the windshield alone was $550 as no after-market windshield was available. My first Spark EV was a leased 2015 model and I currently own a 2014 Spark EV w/o DCFC and a 2016 Spark EV with DCFC. I did have not had any problems with any of the three.SparkE said:
My BIG concern is the degradation of the HV battery capacity I have experienced over time and what it is going to cost me to replace or have the HV battery rebuilt - IF... it will even possible. The battery capacity in my 2016 Spark EV dropped to 14.7 kWh yesterday and I only have 27,300 miles on the ODO. The HV battery in my 2014 Spark EV, which does not have DCFC, is currently 15.4 kWh at 21,800 miles.
SparkE
Well-known member
.MrDRMorgan said:
MrDRMorgan :
Concerning HV (main) battery replacement : I think that it is looking like you will be using the battery warranty (8 yrs, 100K miles). Personally, I am wondering if it is worth it to get a replacement ASAP when it drops below the % threshold (to make sure that one is avail), or wait until "7 yrs, 8 months" (leaving room for slack) so that the longest period after warranty replacement has a "good" battery.
But since you have TWO, maybe you can get the "right away" replacement on the first one, and see how that goes (will you get a "new" battery, or will they simply replace enough worn cells to get it just above the minimum of the guarantee???). Also, the 2014 uses a different battery than the 2016. It would prob be better to get the 2014 done when it qualifies, as who knows how many of he older batteries are available for exchange? (The 2015 and 2016 use LG batteries, the vendor GM is still using for the Bolt).
Your 2014 is getting pretty close, as 65% of 21kWh is : 13.65 kWh. By next year you will probably be in the 13.5 kWh range. Are there good EV-certified GM dealers in your area? Or Livermore/Pleasanton?
MrDRMorgan
Well-known member
You state for the 2014 Spark EV that a new A123 HV battery has a capacity of 21 kWh. The limited warranty says I can have the HV battery "replaced" if my battery capacity drops below 13.65 kWh (35% of 21 kWh) within 8 years or 100K miles. If the degradation continues to follow my TorquePro data trendline, my total degradation will reach the 35% point in about 2 years from now or January 2022. My limited warranty period is up in June 2022.SparkE said:
Of greater concern is the degradation I am seeing with my 2016 Spark EV. This is my main vehicle as it has the DCFC option which I use every week. The 2014 does not have DCFC. If a new LG battery has 19 kWh, then my warranty point is a loss of 40% of 19 or 11.4 kWh. I am currently at 14.7 kWh and the trendline shows, on average, I lose about 1 kWh every 8500 miles. So, I can expect to hit the warranty limit in another 28k miles or about 2.5 to 3 years from now. 3 years from now is January 2023 and my warranty is up in August of 2024.
If I had to replace the battery in my 2014 Spark EV and I had to pay for it, GM's list price for just the battery is $18,929 (GMPartsDirect).
Finally, I would probably have Dublin Chevrolet replace the battery since they seem to be the only dealer for miles around which sells and services GM EVs in quantity. And, they would be my first stop if I were to purchase a BOLT.
SparkE
Well-known member
.MrDRMorgan said:
Geez, I don't know HOW I managed it, but I inverted the kWh data for the 2014 and 2016, and thought the 2014 was in "worse" shape. Sorry 'bout that.
Out of curiosity, have you been "testing" the idea that maybe filling the battery to only 75-85% on a regular basis (only charge to "full" when you need it) has any effect on the battery degradation curve? I remember we sort of discussed this many months back, but can't remember if you tried it (and stuck with it for 6+ months).
Personally, I rarely charge past 80-85%, even on L2 ; I do that maybe once every month or two to "top-balance" the cells. I don't know that it does any good *for the battery* or not, but it makes me feel better
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MrDRMorgan
Well-known member
Out of curiosity, have you been "testing" the idea that maybe filling the battery to only 75-85% on a regular basis (only charge to "full" when you need it) has any effect on the battery degradation curve? I remember we sort of discussed this many months back, but can't remember if you tried it (and stuck with it for 6+ months).
I tried stop charging at 80% for a while but gave up because a degradation of 0.1 kWh often took a while to see. My 2014 Spark EV is charged almost 100% of the time using the L1 EVSE that came with the car. My 2016 Spark EV is charged using my L2 EVSE plus DCFC every Friday although I only charge to 90% when using DCFC.
I think what I would really like to see from other Spark EV drivers is this:
1. Model Year
2. Current mileage
3. Measured battery capacity
4. Method of measuring battery capacity: (a) calculated from energy screen data or (2) measured by TorquePro.
I tried stop charging at 80% for a while but gave up because a degradation of 0.1 kWh often took a while to see. My 2014 Spark EV is charged almost 100% of the time using the L1 EVSE that came with the car. My 2016 Spark EV is charged using my L2 EVSE plus DCFC every Friday although I only charge to 90% when using DCFC.
I think what I would really like to see from other Spark EV drivers is this:
1. Model Year
2. Current mileage
3. Measured battery capacity
4. Method of measuring battery capacity: (a) calculated from energy screen data or (2) measured by TorquePro.
I think a 5th data point should be time of year Day, Month.
My tracking has shown the numbers go up when it's warm and down when its cold. I'm still not quite a year into ownership which may be the point that gives me the actual decrease in a point that can be compared to a similar time of year.
My tracking has shown the numbers go up when it's warm and down when its cold. I'm still not quite a year into ownership which may be the point that gives me the actual decrease in a point that can be compared to a similar time of year.
MrDRMorgan
Well-known member
Good point! Here are a few of my data points. I have included the battery temperature at the time of measurement.Kermit said:
July 2018___16.8___25 deg. C
Oct 2018___16.6___24 deg. C
May 2019__15.4___24 deg. C
July 2019___15.8___26 deg. C
Oct 2019___15.4___24 deg. C
Jan 2020___14.7___19 deg. C
May 2020__14.5 ?
July 2020___14.8 ?
May 2021__13.5 ?
May 2022__12.5 ?
If the degradation continues as it has, I will be replacing my HV battery under warranty sometime in 2022 or 2023.
JeremyWinter
Member
- Joined
- Jan 13, 2019
- Messages
- 6
That's not how battery degradation works. It peaks off after a initial substantial decline.
https://ww.electrek.co/2018/04/14/tesla-battery-degradation-data/#aprd
https://ww.electrek.co/2018/04/14/tesla-battery-degradation-data/#aprd
MrDRMorgan
Well-known member
That may be true for Tesla batteries as the article mentioned and there are some Spark EV drivers who have driven more than 75k miles and still have considerable battery capacity remaining. I am not one of those lucky ones. Charging to 70% might be one way to extend battery life. But, unlike a Tesla, charging a Spark EV to 70% could, depending how the car is used, seriously limit the usefulness of the car.JeremyWinter said:
I have leased or owned a 2014, 2015 and 2016 Spark EV and every one has shown a significant drop in measured battery capacity. I also tested a friend's 2016 Spark EV and his battery capacity measured 14.8 kWh at just over 30k miles. In all 4 cases, there was a lot of 90%+ charging.
Having said all of this, there is evidence in my data to suggest I need to re-evaluate the 80% charge limit for a longer period of time.
Data for my 2014 Spark EV:
For the period 04 Apr 19 thru 12 June 19, I drove 953 miles (18766 - 17813) and initiated 20 charging sessions using my L1 EVSE with the car set to a 12 amp charging rate and a timed charging interval set to limit charging to 80-85% of SOC by manually disconnecting at 8 am each morning. The start and stop SOC value for this interval was 16.2 kWh. At this point I started charging to 100% and my SOC started dropping again. 15.9 kWh at 18841 miles; 15.7 kWh at 19896 miles, 15.6 kWh at 20788 miles, 15.5 kWh at 21039 miles, 15.4 kWh at 21424 miles and 15.3 kWh at 21862 miles on 6 Jan 2020.
My TorquePro data also shows:
953 miles between the first and last of the 16.2 kWh values (20 charging sessions limited to 80-85%).
1000 miles between the first and last of the 15.9 kWh values.
737 miles between the first and last of the 15.7 kWh values.
172 miles between the first and last of the 15.6 kWh values.
79 miles between 15.6 kWh and 15.5 kWh.
385 miles between 15.5 kWh and 15.4 kWh.
71 miles between 15.4 kWh and 15.3 kWh.
Bottom line: I am going to try again limiting charging to 80-85% and see what happens. Another interesting thing I saw in the data for my 2016 Spark EV was the measured battery capacity rose and fell in sync with the battery temperature at the time of measurement. Lower battery capacity usually occurred below 20 deg. C
SparkE
Well-known member
With my 2016 Spark EV (sadly, now deceased), I rarely charged over 80%, and almost never charged over 90% (but I did charge to 100% every 5-8 weeks, to make sure that the cells were balanced every now and then).
I also never let the car sit at anywhere near "full charge" for long periods. (When I charged to 100%, often because we were driving it close to the range limit, I would charge it to 100% about an hour or two before leaving.)
After 2 years, I had about a 10% battery degradation (total).
Also, because of a friend's bad experience with a LEAF, I bought and use (at least) monthly a "smart" trickle charger for the 12V accessory battery. (In fact, I now hook up *all* my vehicles, the ICEmobiles, if they haven't been driven on the freeway for at least 8-10 minutes in the previous 3-4 weeks.)
The " friend's bad experience with a LEAF " was that he left it with me while he was away on vacation, and I didn't drive it for 4-5 days. When I finally went out to drive it, HUGE problems with the electronics, car won't start, etc. Turns out it was the 12V battery gone bad. I spent several hours reading thread after thread about the HORRIBLE "keep 12V battery charged" logic in the 2013-and-earlier LEAFs which caused 12V batteries to fail prematurely in lots of LEAFs. So I bought a trickle charger.
I also recommend buying one of those "Li-Ion starter pack" things to take with you in the car. If you hook it up to a failed 12V battery, it should be able to allow you to drive to a parts store to get a new battery (or home) instead of waiting for a tow truck. (I don't have one yet - can anybody recommend a unit that THEY HAVE USED to drive a Spark EV with a failed or disconnected 12V lead-acid battery???)
I also never let the car sit at anywhere near "full charge" for long periods. (When I charged to 100%, often because we were driving it close to the range limit, I would charge it to 100% about an hour or two before leaving.)
After 2 years, I had about a 10% battery degradation (total).
Also, because of a friend's bad experience with a LEAF, I bought and use (at least) monthly a "smart" trickle charger for the 12V accessory battery. (In fact, I now hook up *all* my vehicles, the ICEmobiles, if they haven't been driven on the freeway for at least 8-10 minutes in the previous 3-4 weeks.)
The " friend's bad experience with a LEAF " was that he left it with me while he was away on vacation, and I didn't drive it for 4-5 days. When I finally went out to drive it, HUGE problems with the electronics, car won't start, etc. Turns out it was the 12V battery gone bad. I spent several hours reading thread after thread about the HORRIBLE "keep 12V battery charged" logic in the 2013-and-earlier LEAFs which caused 12V batteries to fail prematurely in lots of LEAFs. So I bought a trickle charger.
I also recommend buying one of those "Li-Ion starter pack" things to take with you in the car. If you hook it up to a failed 12V battery, it should be able to allow you to drive to a parts store to get a new battery (or home) instead of waiting for a tow truck. (I don't have one yet - can anybody recommend a unit that THEY HAVE USED to drive a Spark EV with a failed or disconnected 12V lead-acid battery???)
MrDRMorgan
Well-known member
I haven't had to use it but, in each of my Spark EVs, I now carry a Viking Li-Ion jump starter and power pack. This product is available from Harbor Freight for $79.95 but is occasionally on sale for a lower price. It fits nicely under the driver's seat.SparkE said:
