I've said it for years that if my body was a car, its value wouldn’t be so adversely affected by its age than it would be by its mileage! High mileage and vehicle age are things we must take into consideration when performing maintenance. It's much the same as when a doctor sees a patient. Doctors take into consideration the age and other factors of the patient before making recommendations.
This article is a follow-up to one I wrote last year (“Juggling routine maintenance and repair challenges,” November 2016) about some maintenance I was performing on my own car. In the time since, it has occurred to me that all of us know what maintenance should be performed and at what mileage. If we don't, we can always look it up in our service information or in the owner's handbook. What a lot of us don't know though, is WHY we perform tasks in certain ways.
Batteries and cooling systems
Take for instance, in my previous article I mentioned when refilling a cooling system, I mix distilled water with pure antifreeze instead of using tap water to produce a 50/50 mix. I received numerous letters and emails regarding that particular maintenance procedure. Here, I will expound on why it's so critically important to maintain a clean cooling system.
|(Image courtesy Mitchell 1) This is an OBD I vehicle, using a single wire oxygen sensor. Notice the double digit code instead of the “P” style codes you may be more used to.|
Now, I don't claim to know a lot about chemistry, physics or science. What I've learned came from people much more educated than myself and has been proven repeatedly, therefore I believe it. I try to keep things simple in my mind (I am getting older, you know).
Take for instance the ways that I think of a typical car battery. We start with an insulated case that houses plates that are made of lead and other metals. We fill this case with a non-conductive fluid, which happens to have a very low pH. In other words, the fluid is acidic. So basically we've submerged two or more types of metals in an acid solution. Doing so creates voltage. Is that a basic enough description?
Yes that's a very basic description, and most of the time I really don't need to know any more details. I mean, do I? Do I need to know exactly what pH? Do I need to know what metals? Do I need to know how many plates? Even when performing battery maintenance or electrical system diagnostics, I don't need to know all of the scientific details. No, I’ll perform the tests as instructed and determine whether they pass or fail to know where a fault is. I said I like to keep things simple.
I'm bringing up the typical car battery because I want to talk about the relationship of batteries and cooling systems. What's that? You say you're not aware of any relationship between the two? Maybe that’s because you weren’t told why it can exist.
A story of explanation
Randy is a friend of mine who lives even further away from the city than I. He tries to save himself time and money when he has a vehicle problem by doing what he can himself. Randy’s 1988 Chevrolet pick-up truck had been illuminating the check engine light from the time he purchased it at the farmer’s auction several years before. I think this truck was the second production year that GM had used a Throttle Body Injection (TBI) system; and because of the newness to us at the time, we techs were generally nervous and excited at the same time when we got to diagnose one. I think back to those days when new systems are brought to market today, like the Gas Direct Injection (GDI) systems that have arrived on the scene in the past few years. There’s no difference in my emotions each time. Are you that way, too?
|(Image courtesy Mitchell 1) ECMs were simpler in the days of OBD I. Notice the single wire oxygen sensor. There was no heater circuit back in those days and it was not uncommon for sensors to go offline during an extended idle.|
Randy cared little about the light and drove the truck a couple of years like that. He was using it as a work truck around the farm. Then he had an interested buyer for it so Randy decided to take his truck to have the codes read by his local parts supplier. He felt, since they didn’t charge anything for the service, that he might not need to bother me (read: travel to and have to pay me) for the same service. He also figured that once he knew why the light was staying on, it might be a simple fix (and that he could do it himself, thereby saving even more time and money). Randy may sound like one of your “cheap” customers, but in reality, he has very little time in his day to waste (and he lives about 45 minutes away from me). His primary motivator was the time factor in this case.
The scan of the truck’s Engine Control Module (ECM) revealed a code 13, described in the service information only as “Oxygen Sensor.” No, it was not a P0013. Those of you who aren’t familiar with anything built prior to the second generation of On-Board Diagnostics (OBDII) might not be familiar with any non-standardized Diagnostic Trouble Code (DTC) format that contained as few as one digit. I use the term “privileged” loosely with my tongue in cheek, but we older folks were privileged to have been around before the second generation was even conceived. We had to diagnose those primitive — by today’s standards — systems using what few tools we could get our hands on.
The parts supplier was kind enough to provide Randy with a print-out of the DTC, a brief description of what the code meant and offered a list of parts prioritized by what they felt most often solved their customer’s Code 13 problem. Now, I don’t know from where the data was obtained that was used to prioritize that list, but imagine the tape register receipt on which it was printed — it was three feet long! I’m confident a majority of the customers who received that list probably resolved their Code 13 before purchasing and installing every possible option listed on the print-out. I also believe those customers most likely were not driving a high-mileage vehicle. If I recall, it was in the late-1990s that I saw the vehicle and at that time, the truck’s odometer showed more than 200,000 miles.
|My readings were normal with the ground lead of my scope referenced to the exhaust manifold and my positive lead on the oxygen sensor wire.|
In Randy’s case though, he went through the list methodically. He installed the oxygen sensor first. Notice I didn’t call it a heated oxygen sensor (HO2S)? Sorry, those hadn’t been in use yet on a production-line Chevy. Notice too, that I didn’t mention the location (like B1S1 or B2S2). Well, that’s because they only had one O2 sensor on this vehicle! I said it was primitive, but if you believe it would be simple to diagnose because of its comparative simplicity, you’d be mistaken.
In the past, we couldn’t clear codes using a scan tool. The procedure to immediately clear the stored DTC, instead of waiting for the 50th key cycle to occur without the problem being recognized again, was to disconnect one of the battery terminals for at least 10 seconds. Randy followed the oxygen sensor replacement with the clear DTC procedure and excitedly started the truck. It was within moments the check engine light illuminated and completely eliminated any confidence that he had resolved the problem. Back to the auto parts supplier Randy went.
It was an indication of a lack of confidence in the quality of parts they carried when the store representative jumped to the conclusion the part that was sold to Randy was a “defect” and offered to replace it. Randy installed it right in their parking lot and got the same results that he got with the first one. Then he started working down the list of parts that could cause a Code 13 to set. He bought a few at a time, brought them home and after the replacement of each component, the clear DTC procedure was followed. He grew increasingly frustrated when every time he replaced a part and cleared codes, the problem would not go away. Eventually, you guessed it; the threads in the battery gave way, requiring a battery replacement!
|With my meter referenced to battery ground, I was reading a negative output from the same sensor that was reading normally a moment ago. It’s all about the meter lead placement and referencing the entire circuit path.|