Howa boutcha @strawbrad I thought you might like this recent gem I found Sunday...it's going to be right in my top 10 finds. And delivered to my door. Looking forward to checking it out. Was advertised as a 2012, because, well, it was removed from a salvaged 370k mile 2012 Prius....it even includes a key fob, just in case I want to drive the battery somewhere... tmr
I can't make out a date code from the serial number. Have you checked the date of the modules? Hopefully this battery did not get too many of the 370K miles.
This pack appears to be a junkyard replacement of the original battery. Junkyards tend to be really rough on the batteries and throw them around, stack them to high, and bend them up. On this pack the socket for the orange safety disconnect got mangled. The electric tape shows someone tried and failed at repair. One cable was not fully seated in the housing resulting in high voltage arcing. This arcing burned a hole in the case. Guy's, be careful.
Nice..and you're 100% spot on about salvage yards. I had a pallet of cores arrive once that looked like someone beat it with a sledgehammer to make everything fit "tetris" style. Even had a couple melted module lugs where the plastic protectors were missing and the case was mashed into the terminals. Your photos are the first I've ever seen with holes blown in the case. It reminds me of some weld jobs I've seen at work, lol. Sometimes makes you wonder how close a vehicle/truck was to being a fireball.
Time for an update. At first I thought this did not qualify as really bad battery work. This battery came out of a car fire. The battery did not start the fire but was damaged by the fire. The poor workmanship is how the junk yards handled this battery. It was stored inside and transported in this condition. Thankfully no one was hurt and nothing was burnt down. The burnt up battery is from a Camry. The orange plug shown is not from this battery. I pried open just one side of the cover to get to the bus bars. This shows the high voltage disabled. Many of the modules still measured over seven volts.
Will you test and check these modules? It would be interesting to see if the capacity is still there. I'd keep the working ones, in case of supply chain failure!
Time for an update. Today's battery was "repaired" by a small neighborhood garage. It lasted less than a day. My customers managed to get a refund for the shoddy work performed.
High voltage batteries are not forgiving of shoddy work. Proper torque is necessary and I have seen battery fires caused by loose connections. What did this battery in were the very dirty connections.
Here's a little brain teaser. Who can spot the big problem with this battery? There are kinda two big errors. This is what I saw after removing the cover. More pictures to follow.
With a quick glance I see some things, lol. I love it!! But I'll wait. Going by the base plate and stickers it's a Dorman? A hint for one biggie...Most people pay for this modification to go the other way
Temperature sensors are in the wrong place? Usually you want to put those toward the middle of the pack where it gets hottest, it looks like this one had them mounted toward the edge. If I'm wrong, blame it on the fact that I haven't yet had to do any work on my battery.
The temp sensors were hot glued in place. At first I thought this was just a bunch of junk modules thrown together for a core. The glued in temp sensors show it was built to be used. One of the serious problems was someone removed the bus bars and plastic covers and then put the metal top back on. That leaves about 1/4" between the open battery terminals and bare metal. Without the bus bars there is only 7.5 volts available but if just one module shorted out it would get your attention. Anyone else see what TMR-JWAP does? Here are a couple more pictures.
well the last picture has individual cell expansion and corrosion. Swelling of the battery housing is in the same category as "crossing the streams". Lots of cleaning needed on that unit. Battery ECU has 3 stickers????? Wth? And cell #1 is on the end of the battery furthest away from the Battery ECU? Isn't that backwards?
The big one that jumped out to me in the first photo is that it's a Gen 2 HV battery (case, lol) with Gen 1 modules. The color scheme of the base plate is Dorman. The clamp bars and end caps, rubber vent tubes and intake air temp sensor (green wires) & mount give away the gen 2 part. The orientation on the retainer clips on top give away the Gen 1 module. Gen 1 has the clips oriented towards the sides of the module. Gen 2 and above, the retainer clips are oriented with the clips toward the ends of the module. The white wires going to the temp sensor that's glued to a module is a "wth". Gen 2 has the temp sensors mounted to the bottom of the modules, since that's the 'outflow' of cooling air after it passes through the modules. Gen 1 has them on top, since cooling air on a Gen 1 enters from the bottom. Not sure what they were trying to accomplish by gluing a temp sensor to the top of a module, although it looks like the actual 'retainer' portion of the thermistor has been broken off and they just jammed it down into the sensor hole and glued it in place. That sensor will effectively only show whatever intake air temp is, unless the battery gets extremely hot. Maybe they just thought since it was a gen 1 module, that the temp sensor has to be mounted on top, instead of utilizing brainpower to understand why the sensors are mounted where they are in the different gen batteries. Had to break off the retainer clip ends to get it to fit in the hole, lol. Most big rebuilders remove the OEM stickers from the ECU. Since there were several part codes reflecting updates over the years, I guess they don't want you to be upset if you see a 2004 ecu in a battery going into a 2009 or something.
Oh my! What a can of worms that has been over the years. For a Gen 2 prius (2004 to 2009) the module count does start on the side opposite from the battery computer. Toyota has not been consistent in the order of the count and orientation of modules across different models. Do not assume that any particular model and year will match the convention of any other model.