2003 Prius Stuck between 2 coconut trees for 3 months now, Need some help!!

Bob,

A reasonable approach. The zeners do have a a voltage tolerance specification (usually 5%, sometimes 10%, but 1% is available at a price which would get the modules within 0.1v or so see:Vishay - Diodes - Zener diodes - Tolerance 1%), so there will be a variation from module to module when the battery stabilizes.

You could also just go with a BMS made for EVs.

JeffD

 

How much current did the load tester pull for how long?

JeffD

 

Wow what a great advanture. Glad the OP's Gen 1 back to working codition and happy.
We also learn a lot.

 

An NiMH battery consists of a nickel electrode, a plastic fiber separator, a metal hydride matrix, and very concentrated potassium hydroxide and water electrolyte (see pri_batt_280.jpg. ) When the plastic fiber separator gets too hot, it melts at a spot and that makes a permanent short inside that cell battery.

In normal operation, each cell goes through charge and discharge cycles (see pri_batt_530.jpg. ) During the charge cycles, they get warmer but during the discharge, they hold the heat. Also, a small amount of gas is generated and as the cells get warmer, the internal pressure increases.

At higher temperatures, the heat and pressure causes some of the gas and a small amount of electrolyte to leak out a terminal (see pri_batt_900.jpg. ) To minimize the problem of terminal leaks, Toyota developed a technique using 'glue' and an absorbing pad to prevent a short to ground. But the "O" rings suffer and melt leading to a black, rubbery stain around where the terminal comes out of the plastic case. The little bit of KOH electrolyte 'eats' copper.

If unchecked, over charging expands the battery case and can destroy the battery (see pri_batt_400.jpg ). This is why ordinary 6V and 12V battery chargers and testers are a poor idea. They do not have a sensitive temperature probe or accurate voltage monitor to prevent damaging the modules. The window for failure is very small and the rapid temperature rise and expanding case are only briefly, a minute or so, detectable before permanent damage is done.

The Radio Control community has been dealing with NiMH batteries for years and developed much improved chargers (see pri_batt_060.jpg. ) Prices and capabilities vary but key features are a temperature probe, logic to detect the dV change at peak charge, and a memory to record how much charge was put in and during a subsequent discharge, taken out. This is how I measure the Ahr capacity of modules.

Now others have also tried to replace failed modules in the traction battery but it has a success rate of 25-33% (see pri_batt_440.jpg. ) In this case, two failed modules were replaced but other weaker modules failed soon. It is the battery equivalent of putting new wine in old wine skins. The replacement modules can lead to early failure of other modules, it soon becomes an unwelcome time and money pit. It is equivalent to bailing a boat without fixing the leak.

In 2004, Toyota came out with an improved module design (see pri_batt_960.jpg ) that reduces the concentration of heat at the terminals. With about 700,000 NHW20 cars, 2004-09 on the road, accidents take them out fast enough to provide these improved modules for rebuilding the failing NHW11 traction batteries. But these modules come in all 'states' of wear.

There are a few shops that actually 'survey' these salvaged modules so only the good and matched ones are equally charged and assembled into good, replacements (see pri_batt_730.jpg. ) ReInVolt of Summit North Carolina does this for ~$1,800, not counting shipping. They require the old battery electronics and case, not the modules, to be returned for a core charge, ~$500 (?). But ReInVolt is not the only quality rebuilder but I know they do a good job and stand by their work.

To rebuild a traction battery:

• smart RC battery charger that has temperature and dV logic for NiMH batteries with a data recording capability.
• inventory of modules - to wind up with 38 modules knowing most are already bad, about 19 extra are needed.
• survey of all modules, find the 38 that at near equal Ahr capacity which takes about 12-18 hours per module.
• if there is more than a 10% difference between the low and high modules of the closest 38, buy more and keep testing until you have a good set.
• balance charge all 38 modules using the parallel wire trick or a final charge to the same cutoff voltage.
• reassemble the battery.
• enjoy years of Prius service remembering to keep the traction battery away from heat.

A quality, battery rebuilder does this already using the newer, NHW20 modules. They have inventory, the technology, and the skill to do the job right.

Another alternative is Toyota will sell a replacement set of NHW11 modules for about $2,200-2,400. It is a simple process to do a one-time replacement of all modules. However, these new modules still use the same design weakness as before. In contrast, the used NHW20 modules have some 'age' but a superior design.

So you have choices, pick two from Good, Fast, and Cheap:

• Good and Fast - Toyota replacement, battery pack
• Good and Fast - rebuilt pack from rebuilder
• Cheap - do it yourself and resell left-overs

GOOD LUCK!
Bob Wilson

 

Listen to Bob. I bought a ReInVolt for my 2004 Prius and then re-balanced the 27 good modules (of 28) and sold them to others for fixing their HV batteries. Net cost ~$1200.

JeffD

 

* * * Comments inserted * * *

2: I am not seeing any batts that are more then a .2volt difference although i keep getting a repeat code of P3006, and various other codes of weak battery blocks.

Other codes?

3: I did the forced charge and forced drain & then charge like you said Bob, and 17 module pairs went back between 16.52 & 16.5, except the 4 replaced modules which were at 16.25& 16.26v. The total battery pack was operating between 295v and 303 volts at rest and is holding at 301v.

16.52 - 16.25V = 0.27V :: very close to the 0.3 V that triggers a P3006.

Sounds like the charge is not equalized BUT if the replacement modules have more Ahr capacity, this too would explain why they show up with a lower voltage after a forced charge. Do they have a higher voltage during the forced discharge?

In theory, you might be able to re-order the pack putting a 'new module' with a 'weak module' in a pair. The wider voltage swing of a weak module would be matched to the smaller voltage swing of a stronger module. . . . in theory.

4: Now some things i have to mention
When i took the car on another test run after i had again thoroughly cleaned all the bus bars and tired to take most the corrosion off, and reassembled and tightened down , i had the pack exposed with no metal cover nor plastic cover & a few bolts so i can get easy access to it.

Are these P3006 codes coming up during drives versus the forced charge and discharge? If so, it would suggest something is still loose. Are the module footer screws/bolts in? The compression rods tight? Any flex would lead to arcs when driving or under vibration. If you have a rubber mallet, hitting around the traction battery case, possibly just rocking the car, might 'initiate' the arcs.

First when i started the car a large spark came from the middle of module pairs emanating out of the trunk side connections. I immediately shut it off and rechecked my work which showed correct, so i started again and no sparks, BUT when i went down the road when the car was switching between ev mode and gas, sparks came again, but this time not as big, but still noticeable, not just from the same middle area but from left side and right side mostly trunk side connections, some in the front but smaller. I got the P3006 code multiple times and various weak block codes, and code P1437 came up again which i have yet to address.

Can you take photos of the arcs? Use the video record option of a digital camera and have someone else start the car and/or have the camera on a tripod and running while you start the car? Later, pull the specific 'arc' frames from the digital video file?

You had mentioned the control electronics 'were burnt up' and had to be replaced. Now I'm wondering if there may be broken or weak pins in that area. There was a Japanese lady who had a broken pin in a connector and that turned out to be very difficult to diagnose and repair.

Now when i forced loaded the batts by having in neutral & all electrical loads on, i read voltage readings of the 19 modules as the following:
All 16 paired mods were between 14.98 & 15.11
17= 15.13
18= 14.92
19= 14.96

Now during that load test in neutral the car shut down and the main battery light lit up small in the upper right hand corner of the systems monitor.

I re-cleared the codes, started the car up and put into park and the gas engine came on and off every 20 to 30 secs or so multiple times, this is when small sparks would fly from the rear connections of the battery modules.

Sparks are bad! It suggests there are leaks to the case. Alternatively, the pack is not mechanically rigid. The KOH and related salts are hydroscopic and the 'arcs' are likely the charge leaking through the conductive path. But any relative motion between modules and the buss bars are going to arc.

After test driving module pairs 1 thru 17 read between 16.75 & 16.79
Modules 18= 16.58
Modules 19= 16.59
@ rest after the test drive total pack measured 303v
12 hours later i took a voltage reading of the modules:
1= 15.93v
2:15.87
3= 15.85
4: 15.83
5 thru 9= 15.82
10 thru 15 =15.84
16= 15.86
17= 15.88
18= 15.65
19= 15.70

15.93 - 15.70 = 0.23V :: within the 0.30V limit

Maybe the batts are not good and i just dont know how to read it correctly
It was so easy for me to see the 4 bad modules as they read under 2 volts, and 1 of them was negative.

Ok so are the sparks a sign of leaking modules or something to ground, or because i didnt have the plastic covers on them and i was heavily charging and discharging?

This reads as if there are either loose or still corroded buss bars and/or possibly leaks to the case. Worse, the pack has to be mechanically rigid. Any vibration because the compression rods are loose and footer bolt/screws missing would be bad.

I know the car toward the end of my 3 mile test drive went into limp mode and jerked around a bit.
I was thinking if it is definitely the batts and at 10 years old and 122k on them is most likely i would look to get gen 3 batts so i am more sure they would be good ones and not older gen 2 batts.

You know more about your situation, time and resources than any of us. We can advise but not decide.

Bob Wilson

 

Hmmmm.

The bus segments are mounted in plastic, and then plastic covers go over them, right? I assume you only left those outer bus covers off.

The difference between two adjacent bus segments shouldn't be much over 16 V normally, which I wouldn't think enough to start an arc across the gap between them.

I think the typical internal resistance of a module pair is around 22 milliohms, which shouldn't add more than about two volts between segments at a 100 A charge or discharge. Again, the segments aren't close enough for 18 V to jump the gap, are they?

A larger voltage difference could develop across a module pair with an especially high internal resistance ... or across a high-resistance terminal connection.

A ground fault between any module and the case could make large voltages appear between the case and other modules further away.

I would certainly recheck the work again ... we know arcing is not the normal intended behavior, so a recheck "which showed correct" might have been a recheck that just wasn't thorough enough to find the trouble.

Please work safely.

-Chap

 

As long as the greatest dV between the lowest and highest is less than 0.3V, you are 'OK' for now.

Long term:

• corrosion source - is probably leaked KOH. I'm sorry I didn't mention this but IF you have to go back and clean the buss bars again, be sure and wipe/neutralize any residual electrolyte on the modules. One of the things ReInVolt does is nickel plate their buss bars since nickel is relatively immune from KOH. Gold plating is another, more expensive option but only if you need to fund retirement later. <GRINS>
• Prius-aware scanner - there are things other than batteries that can go 'boink' but it really would have made your battery exercise . . . a little more insightfull
• do not be surprised if another battery problem shows up in 3-6 months - if you get past this infantile failure point, you probably have years of service in the future. Most of the single-module replacement failures were reported with 6 weeks to 3 months. If you make it past this time, rest easy.

GOOD LUCK!
Bob Wilson

 

thanks, i will try this on my 01. i have triangle and main battery on computer screen. i also cannot get key out unless i disconnect the neg terminal. so maybe this will resolve my cars issue to ready. previous owner installed a reman hv battery and a new 12v toy battery. the car ran for 15 minutes and quit. i want to know what the configuration is for on the positive post cable on the 12 volt. there appears to be a small knive fuse, a clear lense and a black wire that seems a little loose. i dont know how to describe it. its connected but not tight on a push in clip. i bought vol 2 service from a prius owner, and ordered vol 1 off of amazon. i wont disconnect anything other than the 12 v until i have a better grasp of what im into. i will try to jump another battery on for a half an hour. once the electonic bugs are done, the old girl could have a fuel delivery problem. it sat for 3 years.

 

Also, in case it hasn't been mentioned before, the KOH electrolyte is strongly alkaline already, so baking soda is not the first choice for cleaning up and neutralizing it. (People do use baking soda for cleaning up lead-acid batteries, since their electrolyte is, well, acidic.) For around the traction battery, Toyota literature specifies boric acid, and I've heard of people using vinegar if they have that handy and not the boric acid.

By this point, your corroded-then-burned-then-baking-sodaed-then-alcoholed-then-sanded bus segments will probably hold for a while. and you might be able to think about just ordering replacement bus bar assemblies. Even if it's a pain to get them delivered to where you are, maybe you could have them on hand by the next time you have a reason to go into the battery. If you look around this forum for the old TSB on battery terminal resealing, it gives the order number for a parts kit for that job, which includes all new busbar assemblies and a few other goodies like resin endplates that weren't in the original design. (In other words, their TSB instructions were always to unconditionally replace the busbars, even though the batteries were only a few years old when the TSB came out.)

I don't know whether ReInVolt would sell you their nickel-plated busbars a la carte, but it might be worth contacting them to find out.

-Chap

 

You can get a set of bus bars from online parts houses or dealers. Often a better option than dealing with used ones.

Also, I have customers that use and aftermarket full-pack charger that costs ~$1,000. It can help keep older packs alive.
But ultimately, at some point a different pack (rebuilt) may be necessary.
There are other companies out there that we use (Like Adopt a Part) that also have rebuilt packs that are tested and warrantied.

 

This is the most incredible and funniest post I have ever read.

 

Maybe should have titled this Gen 1 Module tolerance...


Ok... seems to be most relevant thread so here goes..
Gen 1 ...rebuilt pack about a year and a half ago finding only 7 modules needed replacing....but was getting red triangle , engine light etc.

Rebuild great success...but couple months after rebuild, WalMarts crappy oil team overfilled oil and I had to pull back into bay as engine was dying. They attempted probably 20-25 restarts killing the main as well as the aux battery ( I should have suited them).. I towed the car to the house rather than the toyota dealer...tore it apart again and individually recharged each module as I have a dual 200 watt pro RC charger. ...then found the aux battery at 10 volts ...so did a tractor battery trick someone suggested (which works perfect ...has only needed 2 in a year and a half ...and at $30 each is a steal)...
got it running and ran perfect for well over a year. Then I started having abs problems (yet another issue) but of late, (in addition to the abs issue) I began getting P3024 block weak errors...and once a P3023 weak block as well....also get P3000 battery control system error.
I could reset them and get by maybe a half day on my route (120 miles full route) before it would set another code.
But it began to get worse...and shut me down on side of highway (that had the second block weak error and p3000) once so figured its time to tear it down again..
This time though, no red triangle./engine light)

Now its apart on bench...

2 days since came off road, and modules sitting at
10 are over 7.8
5 are at 7.4-something
None are at 7.7- something
None are at 7.6- something
remaining are at 7.5- something

so...my observation is before on initial build , I easily identified the bad 5 modules and 2 questionable... so replaced 7 to bring all modules to 7.7+ levels.

this time I am seeing 5 obviously bad modules and 23? questionable ones...

Should I use my charger to cycle the questionable s...and replace the bad ones?

Should I do IR tests on all modules?

Should I explore the 'rehydration' methods in some threads..

Looking more and more like this car (with abs problem ) , possible major batt rebuild, and 230,000 miles possibly needing a timing chain replace...or engine swap is beginning to look more like junk yard fodder.

Its body /interior is nearly immaculate and its such a great car...but the battery is what worries me ... Can I come out ok at all on this build...maybe the 23 modules are toast . I still have the abs issue which I am sure is just the ABS brake booster I can replace myself for less than $100...just a lot of work.

Maybe its time to drive it onto the lot where they say if you can drive it , its worth $5,500..but cant afford $300+ payments as I'm partially retired.

anyone got any suggestions?

I bought this car at $1900 tax and tags incl..with a known battery issue,...and needed to rebuild...but if this is going south ...and I have to spend $700 on modules, another $100 on abs booster (with all that labor), I cant see the savings at the end of the shopping cart compared to a conventional car like a corolla/prism which typically gets 30+ around town...with none of the unique prius problems and most any mechanic will work on it. 48+ mpg is great ...while it lasts ...but the problems (even if I do all the labor) are looking quite expensive.

Got about a year and a half use out of it, I did , at higher mpg...maybe 30K ...but looking like time to 'pay the Piper"