"Late Model" Mustangs FAQ Table of Contents and Index Last modified 7/9/98 ========================================================================= Mustangs FAQ Table of Contents ========================================================================= Part 1 [current revision: 1.3] 1) Quick glossary of terms 2) What manuals and publications are good sources of information? 3) Ford addresses and phone numbers 4) What modifications should I make to my car? 5) What modifications can be made to my car for little or no money? Part 2 [current revision: 1.1] 1) Door tag info ("How do I know what XXXX my car came with?") 2) What effect will a different axle ratio have on my car? Part 3 [current revision: 1.2] 1) Information on the factory system 2) Aftermarket stereo installation concerns 3) Some installation examples Part 4 [current revision: 1.0] 1) Failures/diagnoses 2) Water pump 3) Heater core ========================================================================= Mustangs FAQ Index ========================================================================= Subject FAQ Section(s) ------- -------------- 2.3L engine................................1 2.8L engine................................1 302 engine.................................1 4.2L engine................................1 5.0L engine................................1 7.5" rear..................................1 8.8" rear..................................1 air filter.................................1 air intake silencer........................1 AIR pump...................................1 amplifier..................................3 antenna....................................3 anti-lock brakes (aftermarket).............1 AOD........................................1 axle-ratio codes...........................2 body type codes............................2 CFI........................................1 Cobra......................................1 computer chips.............................1 cooling system.............................4 dashboard..................................3 door tag...................................2 EEC-IV.....................................1 EFI........................................1 EGR........................................1 engine type codes..........................2 Ford Motor Company.........................1 Ford Motorsport............................1 Fox........................................1 fuel pressure..............................1 glossary...................................1 GT-40......................................1 headers....................................1 heater core................................4 Mach 460 (see "stereo") MAF........................................1 manuals....................................1 magazines..................................1 modular V8.................................1 mufflers...................................1 multiport fuel injection...................1 noise (electrical).........................3 Panhard rod................................1 pulleys....................................1,3 radio (see "stereo") SFC (see "subframe connectors") speed-density..............................1 smog pump (see "AIR pump) spark plugs................................3 speakers...................................3 SROD.......................................1,2 stereo.....................................3 subframe connectors........................1 suspension (rear)..........................1 SVO........................................1 SVT........................................1 T-5........................................1,2 thermostat.................................1 timing.....................................1 torque arm.................................1 TPS........................................1 TracLink...................................1 Traction-Lok...............................1 transmission...............................1 transmission codes.........................2 underdrive pulleys (see "pulleys) water pump.................................4 WOT........................................1FAQ Part 1
MUSTANGS MAILING LIST FAQ - PART 1, Version 1.3 Last updated 1/5/95 NOTE: The information in this document is correct to the best of the author's knowledge. However, due to a change in employers the author will not be able to update/correct this document in the future. The author accepts no responsibility for any damage, injury, or other "loss" you encounter while working on your car. [This document was put together by Andre Molyneux. The following individuals were of help putting it together or submitted information that was pasted right in. In alphabetical order: Peter Boggini, Ken Corpus Chuck Fry, Gary Gitzen, and Dan Malek.] Basic information and answers to the questions most often asked by newcomers to the list. The FAQ is available via anonymous ftp from the site: ftp.chucko.com The FAQ resides in the directory "/fordnatics/mustangs-faq". In addition, an index is available that gives an idea of what subjects are covered by each section of the FAQ. This is the first installment of the FAQ (frequently asked questions) for the Mustangs mailing list. The FAQ is going to be broken up into multiple sections as there are far too many subjects to be covered in detail in a single document. Future sections will cover such subjects as: - Basic Maintenance - Troubleshooting common problems - Suspension modifications - Brake system modifications - Engine modifications - Sound systems - Alarms This portion of the FAQ will concentrate on basic information that is most commonly requested by newcomers to the Mustangs list. As a result, it lacks the focus that later sections have. As with the Mustangs mailing list itself, the FAQ contains information concerning Mustangs based on Ford's "Fox" platform (1979-1994) only. No attempt will be made to include information on earlier years. This document is broken up into the following sections: 1) Quick glossary of terms 2) What manuals and publications are good sources of information? 3) Ford addresses and phone numbers 4) What modifications should I make to my car? 5) What modifications can be made to my car for little or no money? ======================================================================== 1) Quick glossary of terms ======================================================================== There are lots of terms and acronyms that make "Mustangese" difficult for the uninitiated. The following list is by no means comprehensive, but will hopefully be enough to get you going: 2.3L Ford's 2.3 liter OHC inline 4-cylinder motor. Available for all years 1979-1993. Turbocharged versions of this motor were first introduced in 1979 but were quickly withdrawn due to reliability problems. The turbos came back in the early Eighties, with the turbocharged and intercooled version found in the SVO Mustang being the most powerful version used. 2.8L Ford's 2.8 liter displacement V6 engine. Available 1979-1986? 302 For late-model Mustang purposes, the same thing as the 5.0L (302 cubic- inches approximately equaling 5.0 liters). 4.2L Also known as the 255, a de-stroked, de-bored version of the 302 that has no performance potential whatsoever. However, a 302 will drop right in its place. Yank the 4.2L and send it to the recycler to be made into something far more worthwhile, like razor blades. Used in the 1981-82 model years. 5.0L Ford's 5.0 liter displacement V8 engine. The most popular motor for late-model Mustangs. Available for 1979-1980 and 1983-1994. 7.5 Refers to the 7.5" rear-end used in earlier 5.0L Mustangs and all 4 and 6 cylinder Mustangs (not sure if this applies to the 1994 and later cars). 8.8 Refers to the 8.8" rear-end used in later 5.0L Mustangs. This unit is stronger than the 7.5" rear. AOD Automatic OverDrive trasmission. CFI "Central Fuel Injection", refers to a fuel metering system in which fuel is injected into the incoming air at a single point, after which the airflow is split up for individual cylinders (in contrast to multiport fuel injection). Visually the system bears some resemblance to a carburetor, but the fuel metering is under electronic control. CFI was used on '84 and '85 Mustangs with automatic transmissions mated to the 2.8L V6 or 5.0L H.O., and is an EEC-IV controlled system. Cobra In the late model Mustang world, refers to the highest-performance version of the Mustang available from the factory in 1993-95. Cobra Mustangs have engine, braking, and suspension differences from other Mustangs. "Cobra" is also used to refer to the version of the intake manifold used on the 1993 Mustang Cobra, also known as the GT-41. Originally referred to Carroll Shelby's Ford-powered race cars of the 1960's. EEC-IV Ford's "Electronic Engine Control" computer, version number four. Used on all 5.0 EFI equipped Mustangs from 1986 to 1994. Some earlier CFI cars may have used the previous version (EEC-III). Most Ford vehicles are now switching over to the EEC-V. EFI "Electronic Fuel Injection", typically used to refer to multiport fuel injected cars. EGR "Exhaust Gas Recirculation" Refers to a valve used to pull exhaust gasses back into the intake manifold to reduce emissions. Fox Ford's "Fox" chassis, which has been used for multiple cars including the 1979-1994 Mustangs (other "Fox"-derived cars were the Fairmont, most of the 1980's Thunderbirds, and the Lincoln Mark VII). A large number of components can be swapped between the various "Fox" cars, leading to interesting modifications on a budget. GT-40 In the late model Mustang world, refers to a version of the 5.0L V8 with higher-performance components than other 5.0's. Originally referred to Ford's Production GT racing cars from the late 1960's. MAF "Mass Air Flow" Refers to a system in which the actual airflow into the engine is measured, as opposed to a speed-density system. This term is often used both to describe the entire system or the MAF sensor which actually does the measuring. All 1989+ 5.0 Mustangs, as well as 1988 Mustangs destined for California, use a MAF system. Modular V8 New family of overhead-cam Ford V8 engines. The Mustang has long been rumoured to be a recipient of this engine, as the 5.0L engine will not be able to meet stricter emissions requirements in the future. This engine is currently available at a 4.6 liter displacement in single-overhead cam (approx. 210 hp) and double-overhead cam (approx. 280 hp), as compared to the 5.0L's 205 hp. However, the modular motor produces less torque than the 5.0L and the powerband is shifted further up the RPM range. The modular V8 is a very complex motor that will require more sophisticated hot-rodding techniques. It's also quite expensive. These factors will probably mean that the modular V8 will not become the panacea for Mustang performance. Expect one of the versions of the modular V8 to appear in the Mustang in the 1996 model year (or possibly late in 1995). Multiport Fuel Injection A fuel metering system in which each cylinder has a separate injector. Panhard Rod A device used to control lateral movement of the axle. A Panhard rod is connected to the chassis on one side of the car and to the axle at the other end. Both ends require pivots to allow movement of the axle. A Panhard is used in conjunction with a torque arm or other radical rear suspension modification, and is not considered to be an effective modification if added to an otherwise stock rear suspension. Panhard rods have been in use on many different vehicles for many years. SN95 Ford designation for the fourth generation Mustang platform, introduced in the 1994 model year. While it visually bears no resemblance to the previous generation Mustang, it is still based on a version of Ford's Fox platform, and shares most of its drivetrain and suspension design with the 1979-93 cars. Speed-Density System in which the amount of air entering the engine is estimated based on several other inputs (such as manifold pressure). The estimate is based on assumptions about the engine in use, so engine mods are more likely to confuse a speed-density system than a MAF system. 1986-1988 5.0L Mustangs used speed-density systems (except 1988 cars destined for California, which used MAF). SROD Ford's 4speed (three speed overdrive) transmission used in the 1979 and 1982 to early 1983 5.0 mustangs. SROD stands for Single Rail Over Drive. Subframe Connectors Devices used to connect the front and rear subframes of a Mustang together. The Mustang relies on the floor pan to connect the front and rear subframes, which results in a lot of flexing, making it difficult for the suspension to work correctly. Subframe connectors install underneath the car (although there is one vendor with internal stiffeners that do much the same thing) and connect the front and rear frame rails directly. Subframe connectors should be welded in, as bolted on ones will eventually enlarge the bolt holes and become loose. Many different vendors provide subframe connectors, with the favorite among list members being from Global West. SVO Refers either to Ford's Special Vehicle Operations group or to the SVO Mustang, a 1984-1986 version of the Mustang that was the brainchild of this group. In contrast to the V8 Mustangs, the SVO used a turbocharged and intercooled 2.3 liter 4-cylinder engine. Aside from the 1993 Mustang Cobra, it was the only 1979-1993 Mustang to come from the factory with 4-wheel disc brakes. SVT Ford's "Special Vehicle Team". Responsible for the Mustang Cobra and "Lightning" pickup truck. T-5 Borg-Warner T5 5-speed manual transmission. Used on Mustangs from 1983?- 1994. Torque Arm A rear-suspension modification that yields a significant improvement in handling. Installation of a torque-arm requires the removal of the rear upper control arms and the installation of a Panhard rod to control lateral movement of the axle. This set-up significantly reduces bind in the rear suspension, allowing much more power to be applied when exiting a corner than the stock setup. Installation of a torque arm and Panhard is a major (and expensive) undertaking. TPS Throttle Position Sensor. A potentiometer used to inform the EEC-IV how far the throttle is open. TracLink A rear suspension upgrade that supplements the existing rear control arms, but doesn't replace any of them. It improves handling by eliminating the axle's tendancy to rotate in the opposite direction of the wheels when torque is applied. This prevents some of the tendency for bind in the rear suspension, but doesn't do as well as other more radical modifications. Some racers have found that the TracLink will break under hard use. Global West makes the TracLink, but other manufacturers may have similar designs. Traction-Lok Refers to the limited-slip type differential used in performance Mustangs. The purpose of the differential is to allow the rear wheels to turn at different speeds when going around a corner. A Traction-Lok diff will limit the allowable difference in speeds between the two wheels, while a normal (or "open") differential has no such limits (if one tire has completely lost traction, it will spin merrily while the tire on the other side sits still). The Traction-Lok is often referred to as the "Traction- Slop" as the factory spec allows it to lose much of its effectiveness through wear and yet still be "in spec". WOT Short for "Wide open Throttle." What happens when you floor the long pedal on the right. ======================================================================== 2) What manuals and publications are good sources of information? ======================================================================== The FAQ documents are in no way intended to serve as a replacement for repair manuals. Manuals give step-by-step instructions that are a "must have" for anyone who works on their own car. On the Mustangs mailing list, requests for information that is present in any of the major manuals will usually get a response of RTFM ("read the *$%@ing manual" for those not familiar with the term). The following will give you an idea of what the FM's are. Anyone who can afford to insure a 5.0L Mustang has got to be able to afford some (or all) of the relevant manuals. - Factory Repair Manuals The Ford factory manuals are published by: Helm Incorporated P.O. Box 07150 Detroit, MI 48207 (800) 782-4356 Helm accepts Visa and Mastercard orders. The factory manuals are broken down into various sets, such as basic servicing manual, emissions, wiring diagrams, etc. Most of the manuals are specific for one particular model and year, but others (like emissions) span all vehicles for a particular year. Call Helm to determine exactly which manuals apply to your year of car. Note: Be prepared for sticker-shock when you call. The full set of factory manuals will probably run in the vicinity of $200 (however, the most used manual - the servicing manual - is typically under $60). Still, the factory manuals are almost a necessity if you do much wrenching on your own car. They are typically much more complete than any of the aftermarket manuals, although they do have their own share of mistakes and omissions. - Third-party repair manuals Haynes, Chiltons, Clymers, and others make a wide variety of repair manuals for all types of motor vehicles. Haynes gets the nod as the best of this crop. Manuals typically span a wide variety of years, and may include wiring diagrams. However, omissions and mistakes due to the large number of years covered make even the best of them problematic. If you absolutely, positively can't afford the factory repair manual, you _have_ to get one of these. Attacking almost any problem without the factory manual or a good aftermarket substitute is an exercise in futility. - Other references "How to Understand, Service, and Modify Ford Fuel Injection and Electronic Engine Control" by Charles O. Probst, published by Robert Bentley of Cambridge, MA, ISBN 0-8376-0301-3. List price is $29.95. Available direct from the publisher at (800) 423-4595, through Ford Motorsport dealers and some enlightened Mustang shops (including list member Ken Corpus, who sells them at a discount to list members - contact Ken_Corpus.Wbst139@xerox.com), or as a last resort, from Classic Motorbooks, (800) 826-6600, order # 119509. This manual takes a lot of the mystery out of Ford's engine control computer. A "must have" for anyone wanting to hot-rod a Ford EFI engine, or who just wants to know how the hell it works. Ford Motorsport SVO Performance Equipment Catalog: This catalog consists of special, high-performance or competition parts or accessories for various Ford vehicles, including the 5.0L Mustang. There are over 850 parts listed in the 1994 catalog, 40% of which are street legal. The catalog also contains parts specifications, parts interchangeability and compatibility information, hints about installation, and more. SVO also provides a technical assistance "hot line" that provides reliable, up-to-date information about the equipment they sell. - Magazines I hesitate to recommend any of the Ford or Mustang rags. Every now and then you'll find a well-researched and relatively unbiased article, but they're rare. Remember that the magazines live by selling advertising space, and debunking a manufacturer's claims could lead to a major loss of revenue. Take the articles (and especially the ads) with a large grain of salt, say about the size of a salt-lick. If you could believe what you see on those glossy pages, a 300hp EFI street motor could be had for $250 and a couple of easy hours under the hood. It just ain't that easy (or cheap). ======================================================================== 3) Ford addresses and phone numbers ======================================================================== - Important FoMoCo phone numbers Ford Motor Company Customer Assistance Center P.O. Box 43360 Detroit, MI 48243 1-800-392-FORD *Hearing Impaired Customers with TDD access call 1-800-232-5952 Tech. Service Bulletin hotline (is this still active?) (800) 241-FORD Ford Motorsport Performance Equipment 44020 N. Groesbeck Highway Mt. Clemens, MI 48083-1115 Technical Assistance Hotline (313) 337-1356 Ford Motorcraft: 1-800-521-5181 Ford Audio & Cellular Systems: 1-800-FORD-333 Ford Online: >>> 70007.1356@Compuserve.com <<< This is a fairly new service, which puts the Ford Customer Assistance Center online with your computer thru the internet with CompuServe. You can send them just about any request for information, new car brocheres or even complaints, and someone will typically respond to you within a day or so . Send them a note to the address listed above. ======================================================================== 4) What modifications should I make to my Mustang? ======================================================================== This question comes up fairly often, but it's impossible to answer without some idea of how you plan to use the car. Are you looking to improve straight-line acceleration? Make it corner better? Are you going to drive the car only on the street or will you take it to the track? Are you going to drag race it, road race it, or just go cruise on Saturday nights? Are you the only person driving it, or will your SO disown you if the car no longer rides and drives like the average street car? Almost any change you can make to the car involves tradeoffs. Lowering the car can improve handling, but you need to select the right springs and shocks to keep from bottoming on the bump stops all the time, and you'll tend to scrape the ground a bit. Changes to improve weight-transfer and grip for drag-strip launches are detrimental to the car's ability to corner. Adding a blower requires careful attention to fuel pressure, and can cause your head gaskets (and other parts) to suddenly decide to get up and move. Slapping in a radical camshaft may improve top-end horsepower at the expense of low-end torque, requiring you to rev the engine to keep from stalling when pulling away from a stoplight. Before you get visions of expensive toys in your head, sit down and decide just what it is you want out of your Mustang. Decide just how far you're willing to change it from it's stock condition. Have a goal in mind, even if your goal's just to bolt on some expensive items to impress your friends. Once you've got that goal defined, then you can start finding out how to reach that point. The Mustangs list is a great source of info, but you need to know what you're looking for. Making a request for specific information will get you far better responses than vague ramblings. ======================================================================== 5) What modifications can be made to my Mustang for little or no money? ======================================================================== "Hot tips" of ways to improve performance for little or no money crop up continuously. Unfortunately, most of these "tips" are based on erroneous assumptions, usually with regards to the EEC-IV. This section will focus on the most commonly suggested free/cheap mods, giving an idea of what they hope to accomplish and whether the collective wisdom of those on the mailing list lends them support or feels they do nothing (or actually hurt performance). Most of these mods are with regards to 5.0L Mustangs only, and most concern EFI-equipped engines. "Cheap" is arbitrarily defined here as $200 or less. Most of the following items cost significantly less (or are free), but a few approach the $200 mark. In no particular order: - Advance the base timing The factory timing spec (10 degrees before top dead center) allows the engine to run on "regular unleaded" 87 octane fuel. If you're running a higher octane fuel (premium unleaded is typically 92 octane), advancing the timing will probably result in a few more horsepower. The maximum base advance typically possible on the 5.0L engines before ignition knock sets in is 12 or 13 degrees BTDC. VERDICT - Makes sense, but don't expect huge gains. - Change (or remove) the factory thermostat This is based on the fact that cooler air is denser, so the less you heat the air coming into the engine, the more air/fuel mixture you can pack into each cylinder. An old shade-tree mechanic fix, but it's got several strikes against it. First, you never want to remove the thermostat completely. The cooling system has been designed with the thermostat restriction in mind, and removing it will actually _hurt_ cooling. Second, cylinder wall wear increases as operating temperatures are lowered. The stock Mustang thermostat is set for 196 degrees Fahrenheit. Dropping to 180 will increase wear somewhat, and dropping to 160 or 140 will increase wear dramatically. On EFI cars, cooler thermostats are rumoured to increase performance because the engine will run richer at temperatures below 180 degrees Fahrenheit. True, the EEC-IV will richen the mixture, but staying in "warm up" mode entails more than just a richer mixture. The EEC-IV will be more conservative with the timing curves, and will never get into "closed loop" operation (where it uses the oxygen sensors to fine-tune the mixture). The result will likely be poorer drivability and _decreased_ performance. Also, catalytic converters can be damaged over time by an engine that's continually running rich. VERDICT - Don't remove the thermostat entirely, and don't use a thermostat below 180 degrees Fahrenheit on an EFI car. - Underdrive Pulleys The idea here is to reduce the parasitic loads on the engine, freeing up more power to go to the rear wheels. Underdriving the accessories will reduce the loads, but not as much as the manufacturer's ads would have you believe. The accessory loading isn't linear, so reducing an accessory's RPMs by a third won't reduce the needed power by a third. In addition, if the alternator is underdriven, it may not provide enough power to keep all the electrical loads happy at lower RPMs (especially if you have a mega-watt stereo), and underdriving the power steering pump may result in increased steering effort when idling through the parking lot. There is another reason to underdrive accessories. The accessories were designed to operate at a particular RPM for most of their lives, and can fail or cause problems if run at higher RPMs for long periods of time. This becomes a problem for cars that run on the track. Installing underdrive pulleys in these situations can put the accessories back at their normal operating speeds and increase their useful life. VERDICT - You may pick up a couple of horsepower, but be careful or you may end up with a dead battery. If you run on the track, your power steering pump will thank you. - Mufflers Eliminating bottlenecks anywhere in the intake or exhaust systems is almost always a help. However, the mufflers are part of a larger system and can only do so much by themselves. The factory headers, catalysts, and pipes put a limit on how much can be gained by replacing the mufflers. Aftermarket mufflers result in very modest gains on an otherwise stock system, but become a necessity as flow in the rest of the system is improved. VERDICT - Good as part of an overall exhaust system improvement, otherwise buy them for the sound, not the performance gain. - Disconnecting the EGR valve Pumping partially-burned exhaust gasses back into the intake has gotta be a brain-dead idea, no? No. The EGR valve only operates at part-throttle settings, and uses the exhaust gasses to lower combustion temperatures and reduce the formation of nitrogen oxides, a component of smog. At idle and WOT, the EGR valve is closed, so performance really isn't compromised. On the last few years of carb-equipped 5.0 engines, the EGR can appear to cause a "stumbling" problem that goes away if the valve is disabled. The real problem appears to be getting the correct mixture and timing. If these are set correctly, the "stumbling" problem is significantly reduced (or eliminated) without disabling the EGR. VERDICT - Don't do it. - Remove EGR coolant lines (EFI engines only) The coolant circulated to the EGR spacer is there to take heat _away_ from the spacer, not heat it up. The exhaust tube to the EGR is carrying gasses significantly hotter than the coolant, so eliminating the coolant flow will only make things hotter. VERDICT - Don't do it. - Air Filter K&N sells a reusable air filter element that just requires periodic cleaning and re-oiling. Whether or not the K&N is better than a clean paper filter is debatable. However, if you clean it more often than you would replace a paper filter, on average it will present less of an obstruction. The instructions give some insane cleaning interval (like 50,000 miles or so), but I clean mine at least every other oil change. VERDICT - Use it, but clean it regularly - Air Intake Silencer (EFI engines only) The air intake silencer is located next to the air filter housing, on the opposite side of the sheetmetal (inside the fender). It's a big plastic doohickey with more than a passing resemblance to a Jarvik artificial heart. It's sole purpose in life is to quiet down the air as it's sucked into the engine. The silencer presents a bit of an obstruction to air flow, so removing it will put you one step closer to a better intake path. VERDICT - Yank that puppy. Why should you only hear the exhaust? - Bypass the AIR pump with a shorter belt The AIR (air induced reaction) pump, commonly known as the smog pump, pumps fresh air into the exhaust system to help the catalysts burn any remaining unburned hydrocarbons. Installing a shorter belt to bypass the AIR pump doesn't make much sense because at WOT the pump's output is just dumped back into the atmosphere rather than into the exhaust system. When the output is dumped the pump requires very little power to run, so the performance gain is essentially non-existent. Also, don't expect to bypass the pump and then put the original belt back on right before smog-check time. AIR pumps tend to seize after a while when they're not being driven, so all you'll do is end up having to shell out money for a new one anyway. VERDICT - Don't do it. - Crank up the fuel pressure (EFI engines only) Increasing the fuel pressure on an otherwise stock engine (by by going to an aftermarket regulator) is a bad idea. Within limits, the EEC-IV will compensate for the excess fuel by reducing the injector duty cycle. Beyond this, it will give up and resort to "limp home" mode, in which your engine will run like dog meat. Modified engines sometimes require additional fuel pressure to keep up with the higher airflow, but on a stock engine you're wasting your time. VERDICT - Don't do it. - Disconnect the vacuum line to the fuel pressure regulator (EFI only) This modification has exactly the opposite of the desired effect: It increases the effective idle fuel pressure without raising the fuel pressure at WOT. At best, the EEC-IV will eventually compensate for this blunder under closed-loop operation, but will never notice it at WOT. At worst, the EEC will adjust the mixture at *all* vacuum levels to correspond with the observed fuel delivery during part-throttle, high-vacuum operation, resulting in a leanout at WOT. VERDICT - Don't do it. - Performance chips (EFI engines only) (~$200 for Hypertech or Superchips) Unlike some other manufacturers, Ford hasn't been too open with information about their engine control computer, and designed it such that ROM-swapping isn't feasible. As a result, and aftermarket engine "chips" must either intercept the signals to/from the computer or plug into the EEC-IV's diagnostic port. Getting more power out of an engine requires moving more air through it or making more efficient use out of the air and fuel you've got. There are no emissions requirements that must be met at WOT, so the computer has no reason to hold back when you push the pedal to the floor. Small gains can be realized by bumping up the timing a few degrees, but you can do very much the same thing manually by advancing the base timing (see the first item on this list). Most of the reputable sources dismiss aftermarket chips for stock engines (radically modified cars may require mods, however). A couple of list members received free evaluation chips from a company called "Superchips". These went on a '92 LX and '94 GT, both of them stock 5-speeds. On the '92, back-to-back runs were done on the dyno, one with the chip installed and one without. A small power gain was seen across the powerband, but several factors (the engine was set at the stock 10 degrees BTDC without the chip, and the engine and dyno were both hotter during the chipless run) lead to the conclusion that the gain from the chip was very small indeed compared to what could be gotten simply by advancing the timing by hand. Back-to-back runs weren't possible for the '94, but comparing the run to a previous dyno run by the same car months earlier (and correcting by the differences found on a car that had been run on both days) indicated a *loss* of power. On both cars the engine analyzer indicated that the chip had leaned out the mixture at WOT, apparently too much on the '94. VERDICT - Of very questionable benefit. Why not spend your money on known performance improvers instead? - Aftermarket "Anti-Lock" brakes (Not sure if this is under $200, but it crops up about every 6 months) Anti-lock braking systems have become increasingly popular, but they weren't available on the Mustang until 1994. There is at least one manufacturer of a mechanical system (as opposed to the electronically- controlled system used by auto manufacturers) that can be used on the Mustang. The manufacturer's literature hints that their product is superior to the electronic systems because the electronic systems only kick in when a wheel has locked, whereas the mechanical system prevents lock-up in the first place. This is pretty misleading. Electronic ABS has sensors that detect the instant a wheel has stopped rotating. When this happens, brake pressure to that wheel is momentarily reduced until the wheel starts turning again. The system response is extremely fast, and the amount of time that the wheel has stopped turning is extremely small. This sophisticated "closed-loop" system allows the brakes to work at right about their maximum capacity without locking a wheel for more than a small fraction of a second. On the other hand, the mechanical system attempts to prevent sudden transients in brake system pressure. This means that when you apply sudden pressure to the brake pedal, the system will damp down rate of pressure buildup in the system. This is all well and good for "Joe and Mary Sixpack" who tend to lock up the brakes when the light turns red 200 yards down the road. It's bad for someone who knows how to use their brakes correctly, as it will slow down the system's response to your input. Your right foot says "I want maximum braking now!" which the system interprets to "Ok, let's increase the brake pressure, but not too quickly, we don't want to rush this." If you practice your braking technique, you'll find the point at which you can brake the hardest without locking up a wheel. You'll discover that you can stop quicker by yourself than with the mechanical ABS. Experienced track drivers are divided on the usefulness of electronic ABS, but I doubt you'll find one in favor of the mechanical version. VERDICT - Don't do it. - Install aftermarket headers The factory headers on '85(?)-up Mustangs are lighter than the cast iron manifolds they replace. However, that is about their only benefit. The tubes are crimped and contorted, partly to make room for factory installation tools, partly because it's cheaper to build them that way. Several brands of aftermarket replacement headers are available for $200/pair or less, and all are 50-state smog-legal if installed on the model year(s) for which they are intended. All are an improvement over the stock headers in terms of airflow, yielding on the order of 5 to 8 HP and a small improvement in fuel economy. However, there are a number of choices to make: tubing size (1-1/2" vs 1-5/8), equal vs unequal length, plated vs ceramic-coated vs stainless. Various magazine tests have shown minimal performance differences on stock Mustangs, so in many cases the choice comes down to cost and availability. Before you install them, inspect the headers carefully for weld quality. Often the internal seams will be sloppy. A few minutes with a die grinder will remove these imperfections, maximizing the benefits gained from the headers. Doing this to the factory headers would help as well, but if you're going to the trouble you might as well buy the better afteremarket units. VERDICT - Makes sense, but don't expect huge gains, and do clean them up first. END OF MUSTANGS MAILING LIST FAQ - PART 1
Mustangs List FAQ - Part 1
Awesome reference material about late model Mustangs from the Ford Mustang Mail List FAQ at chucko.com. Part 1: Table of Contents, Index, Glossary, Manuals and Books, Contacting Ford, Mustang Modifications
Written by Chuck Fry
– 2010-11-01How-To Library > Frequently Asked Questions Section
— Mustangs List FAQ - Part 1 —
Written by Chuck Fry – Created 2010-11-01 Published 2010-11-01
Contents © Copyrighted and published under the following terms:
Copyright © the author and published by permission or fair use.
Contents © Copyrighted and published under the following terms:
Copyright © the author and published by permission or fair use.
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