G Power Supercharger

* g-power supercharger with 405 hp

* complete stainless steel exhaust system

* Porsche brake with 322mm brake discs

* KW-height and hardness adjustable suspension (very low)

* No Door Locks

* No rear Screen Wiper

* No antenna

* No BMW signs

* Rear spoiler in car colour

* Strut brace

* wheel spacers 5mm front, 20mm rear

* 265/40 on rear axis

* Plastic coated wheels (black)

* White indicator bulbs front and rear

* clutch stop

* 32cm diameter steering wheel with full size airbag

Coming Soon… More details and photos

Under The Hood

Before – One of the pleasures of owning an M roadser is to show off your engine.

After – I decided to add a little more spice in the look of it. I started to add some chrome accent. Most of the parts came from Ron J. Stygar expect for the strut bar, which came from Paul Ebeyer Sr.

After – Here’s what I’ve added;

* Battery Ground post

* Diagnostic connector cap

* Engine Lift point

* Oil filter lid

* Oil filter cap

* Radiator Cap

* Steering pump cap

* Radiator Spacer screws

* Valve cover nuts and washers

* Various Z8 nuts

* Windshield wiper jug screw

After doing so I felt that I could go the extra mile and have my valve cover and fuel line cover painted in Imola Red. Needless to say that I was really impress with the result.

I bought a new set of cover since I have use a lot of Armorall of these cover. My dealer told me that even if he would prep the cover very well, I could end up with fish eye on the cover.

After – Here’s the part number for the covers

* 11-12-1-404-466 – BMW M Power valve cover

* 13-54-1-740-160 – Fuel line cover

This really didn’t bring any power to the car but it sure looks more beautiful.

Install VDO Oil Pressure Gauge in BMW Z3 M Coupe or M Roadster

The BMW M coupe comes with a warning light for oil pressure, as well as an oil temperature gauge in the center console. I’d like to know if my oil pressure drops below normal without waiting for the oil warning light to come on at 7 PSI, so I decided to install a VDO oil pressure gauge. This project involves interior trim removal and modification, wiring, and replacement of the oil sender (this last one requires you to drain the oil, so you might as well schedule this project when it’s time for an oil/filter change). As usual, Ron Stygar was a big help on this project. Thanks, Ron! His original post in the bimmer.org archives is here.

Parts Selection

The oil pressure gauge that almost matches the existing coupe gauges is a VDO Vision gauge. I say “almost” because standard Vision gauges come in all black, but the gauges in the coupe’s center console are chrome ringed. If you don’t care about the chrome you can buy a Vision gauge anywhere, but to match the existing gauges I went to Jon Maddux at LeatherZ (www.leatherz.com). Jon sells the 0-80 PSI oil pressure gauge ($79.00) that you need for the coupe, and supplies various colored bulb covers. The orange cover makes the gauge light a very close color match to the existing gauges. For this job you’ll also replace the stock sender with a VDO dual sender with angled mounting adapter that provides both the warning light and pressure reading, and Jon offers these too ($67.00). You’ll be running four wires for the electrical connections – one for power, one for dimming power, one for ground, and one for the sender. I purchased four 10-foot lengths of stranded wire in various colors and this was more than enough length. You need #14 wire for the sender wire to give the circuit the correct impedance; the other wires can be smaller gauge. You’ll also need four crimp-on female wire connectors to make the connections to the gauge and two crimp-on O connectors for the sender connections.

Some coupe owners choose to put their oil pressure gauges in the center console, replacing the analog clock. I didn’t want to give up the clock so opted to put the gauge on the A-pillar. The gauge mounts to the A-pillar, or more accurately to the A-pillar trim cover, in a plastic housing called a “pod”. I bought a single gauge A-pillar pod from egauges (www.egauges.com), part # 240-347 ($31.13). They also sell a dual pod in case you want to add a second gauge such as outside temperature.

Getting Started

NOTE: all directions (forward/rear, left/right) are in reference to the driver’s seated position.

Place the pod on the A pillar trim cover and slide it up or down until you get it approximately where you want it. Mark the location of the pod on the trim cover, then remove the cover by wedging your fingertips between it and the windshield and pulling it away from the windshield. The trim cover is held onto the A-pillar with two snap-in connectors. Once the connectors pop loose, slide the bottom edge of the trim cover out from the crevice formed by the A-pillar and the dash.

Cut a hole (I used a Dremel tool with a carbide abrasive tip) in the A pillar trim cover corresponding to the opening in back of the pod.

This hole is used to route wires and to give you access to the back of the gauge for changing the bulb. If your gauge ended up right over one of the trim cover’s snap-in connectors, you may have to adjust the pod position slightly.

Insert the gauge into the pod, orient it so that it will be straight as viewed from the driver’s position, and secure it by screwing the gauge nut onto the back.

To mount the pod to the trim cover, I drilled pilot holes and used the supplied plastic ribbed pins (screws).

Wiring

For power, dimming power, and ground wires, you need a sufficient length of wire to run from the gauge to the footwell area. For the sender wire, you need enough wire to run from the gauge to the footwell area, through the firewall, and on to the front of the engine compartment. Leave plenty of extra length on the wires at this point. Terminate one end of the wires with the crimp-on female wire connectors and, using the instructions with the gauge, mount each wire to the proper connector on the back of the gauge. Tape the wires to the back of the A pillar trim cover to keep them in place. Note which color wire you used for each connection.

Disconnect the battery before proceeding!

You’ll need to remove the lower dash panel just above the pedals, loosen or remove the upper dash panel under the steering wheel, and remove the driver’s kick panel with dead pedal.

Run the wires from the back of the gauge through the crack at the bottom of the A-pillar.

They will come out at the left bottom of the dash.

Re-install the trim cover/pod assembly onto the A-pillar.

Editors Note: The silver metal part with the messy looking ends is an interesting safety feature. Somewhat like a pillow, it’s a soft/thin metal with foam filling. Designed to protect your knees in an accident.

Leave some wire slack under the upper dash panel in case you need to remove the trim cover at some later date. Continue routing the wires down into the footwell area. Locate a violet/any color wire for power, and a gray/red wire for dimming power, from the existing wires in the footwell. You will probably have to release wire bundles by cutting wire ties in order to locate the colors you need. The dimming power wire allows you to control the lighting level of your new gauge by twisting the headlight button, the same way you adjust the other instrumentation.

Cut off any excess on your power and dimming power wires and splice them into the selected wires. I soldered the splices and coated them with some Star Brite liquid electrical tape. Connect the ground wire to the grounding nut, forward of the kick panel speaker. (Ground wires are solid brown in the coupe.)

Resecure all wires with wire ties. You can do a power and dimming test at this point by reconnecting the battery; just don’t forget to disconnect it again!

OK, three wires down and one to go! Take the lid off the fuse box (left rear of engine compartment) then unscrew the four #10 torx screws that hold the fuse box onto the wiring box below it. The right rear screw is somewhat obscured by the hood release cable. Just push the cable out of the way enough to loosen the screw. Disconnect the two black wire junction pods, the large red wire, and the green connector that are fastened to the right side of the fuse box and lift up that side of the box.

This will give you sufficient access to wiring box so you can see and grab the sender wire as you feed it through. You’ll see where the main wiring bundle comes through the firewall and into the wiring box. You can try to get your sender wire through the same hole but it’s already pretty well jammed with wires, so I just drilled a small hole nearby and ran the sender wire through it. Drill another hole in the right side of the wiring box; the sender wire exits the wiring box through this hole. Put a dab of silicon sealer on the hole to keep nasties out of your wiring box, and then reassemble the fuse box.

Route the sender wire along the back of the engine compartment, underneath the intake manifold, and to the oil filter, attaching it to the existing wire looms with wire ties.

Sender Replacement

Now it’s time to drain your oil and remove the old filter insert. Remove the air intake box to allow room to reach the oil sender. Unscrew the old sender from just below the oil filter and cut the wire attached to it, leaving as much length as possible. Terminate it, and the new sender wire, with O-connectors.

Mount the new sender to the angle adapter. Hand-tighten the sender to the adapter until snug but don’t over-tighten. The sender has tapered threads that do not require excessive torque to achieve a good seal. Align the sender so that the connector posts on the top are perpendicular to the engine-mounting hole on the adapter. Install the adapter/sender assembly in place of the old sender. Caution – improper installation of the oil adapter can damage your engine and cause oil leaks. Tighten the adapter bolt to 35-40 NM.

Connect the old (alarm) wire and the new (pressure) wire to the correct posts as marked on the top of the sender.

Finishing Up

Replace your filter insert and oil, reconnect your battery, start your car, and check out your new gauge. Under normal operation you’ll see a range of around 15 PSI at idle to 58 PSI. Assuming everything works, replace your interior panels, and you’re done!

Cleaning the Conforti Air Intake System

I’m a big fan of the Conforti Air Intake System, since installation the unit has not given me any trouble and has offered great performance (plus it sounds good). But the time had come to clean the filter. Thankfully cleaning this air intake is nowhere near as involved as cleaning the dinan air intake.

I simply unscrewed the bracket around the filter and then gave the filter a light tug. Once removed, I beat the dust off the filter with my hand then used water to flush it clean. I let it sit awhile to dry, then sprayed some more of that dust catching spray that came with the Conforti kit on the filter and reinstalled it. Later I was informed that soap and water is the recommended cleaning method.

While the filter was drying I looked at the area under the filer, there was a lot of sand and debris in there so I used a shop vac to clean up the area. Once everything was back together I went for a drive to see how much more power I could feel…. couldn’t tell a bit of difference, oh well cleaner is better anyway.

2.8 SuperTrapp Exhaust

Subject: Muffler system upgrade for a 2000 2.8 Z3 Roadster
Cost: $150 for the exhaust plus installation (approx $75), I just checked the website and the price increased to $160.
Good: Customizable sound & performance, low cost AND lightweight
Bad: Non-that I am aware of at this time.

Why do this: As the immortal Tim Allen said “MORE POWER”. One of the first things I did to get more power out of my 2.8 was to Fogg the cold air intake (CAI). Even though Shawn never did a 2000 2.8, I took his ideas and suggestions from both his instruction on the 1.9 and from communications with the immortal himself and I was able to modify my CAI to work similar to his.

Of course this was not enough. So the hunt was on for a more affordable power upgrades. So I started looking into exhaust system replacements. I looked at every type possible, even asking about replacing the exhaust manifold and/or catalytic converter, not without screwing up my emissions & computer. So I concentrated my search to muffler replacement only. I looked at Bola, Dinan, Supersprint, etc. I searched for all types of information (horsepower increase, cost, material type, etc.) that would help me decide what muffler to purchase. I read all the articles from the MZ3 website on exhaust/muffler systems.

To my surprise, I found that all the stainless steel mufflers’ costs were in excess of $300 to $600!!!! Not including installation. Plus I was not convinced that the performance versus cost ratio was worth the money spent. I then remembered about the SuperTrapp system. They were primary an aftermarket motorcycle muffler. But, I saw them on cars in the past, about the late 70s. Plus I knew that they made systems that were stainless steel and lightweight. So the hunt was on.

First: I found their limited website http://www.supertrapp.com/default/atv_splash.htm not a great site to see what was available. But it did explain on how their system works.

Second: I found a supplier (there were not many in my area): http://www.racesearch.com, Part number: 543-2519, http://www.racesearch.com/CGI/mhp?mode=sbpn&pn=543-2519

Third: I found the one I wanted Stainless steel 5″, now granted if you called SuperTrapp & view the Z3 Coupe message board, they recommend that I use a 4″ system for horsepower up to 250 Hp. The 5″ system is rated up to 400 Hp. The reasons for the 5″ is simple with the wider inner diameter, the exhaust gasses would flow easier, less noisy and the 5″ outer diameter fills the factory muffler exhaust cutout nicer.

Arrow points to the location where the stock exhaust tube was cutWhen I had my muffler installed I had the installer hack off the original muffler and it’s supply piping back to the rear axle. If you look at the picture, you will see that the bend to the muffler has been reduced. He then made some custom hangers to hang the muffler at the stock points. Due to the heat generated from the exhaust gasses and the many discussions on the message board on melted bumper fascias due to the muffler. I instructed the installer to have the muffler hang a little lower and poke out more than normal. Giving it less of a chance of the muffler from melting the bumper fascia.

What is with the metal disks and cover???? The SuperTrapp muffler is basically a “glass pack”, where you have an inner tube that has holes and an outer tube that has insulation between the two tubes. Since there is no bends or baffles within the muffler, the gasses are unrestricted to flow toward the end of the pipe. Now the glass pack system has been around for a long time, if you had a hotrod or muscle car, you will know what I mean. Now for the metal disks and cover. The disks that you see on the side of the muffler are really spacers that have been stamped to allow the exhaust gasses to pass between two spacers. The metal cap is to help tune the performance of the muffler and car. Now the easiest way to explain this is to imagine that you have a large bucket with some holes in it. Now fill the bucket up with water, you will see that the water takes a long time to empty out. Now add more holes to the bucket and add water, you will now see that the water will empty out quicker than before. So the more holes you add the faster the water exits. Now there is more to the SuperTrapp system, which deals with vanturies that help pull the exhaust gases from the car. View the SuperTrapp website for more information.

Basically this is how this works with the car: The less spacers you install on the muffler, will produce more backpressure on to the system. Thus, increasing your torque, decreasing overall horsepower and a more quiet sound. With (6) spacers, the noise was a similar to my stock system. The more spacers you install on the muffler, it will reduce backpressure. Thus, decreasing your torque, increasing overall horsepower and a more robust sound. I ran both (12), (18) & (24-max) spacers. I normally run (24) spacers as a daily driver. Which is has a nice growl during idle and a cool roar during hard acceleration plus, I have had no complaints from my neighbors. I did try the system with NO spacers and it was too loud for normal driving.

I have raced my new exhaust with only (12) and no spacers, only to find that no spacers worked best. I will try my (24) spacer setup to see how it fares. Since the installation, I have not conducted a horsepower comparison, my fault. It will be hard to see if my new muffler has done anything, because I have done a ton of things to get this car quicker than stock. Check out my website for details: http://www.z3power.net

Summery: I am happy with the purchase of this muffler and I would do it again. In addition, if I did not have any performance gains in torque or horsepower, I have reduced the overall weight of the car. Which is always a good thing for our heavy cars.

Dinan ///M Air Intake

The ///M engine can benefit from additional air (mass) intake, however the Dinan design (specifically for the M roadster and M coupe) concerns me. Look at the picture below, the air filter is exposed in the lower air intake (front bumper). While this may provide additional performance I really question the long term effects. The K&N filter is rather durable, but what happens when it gets wet. I’ve heard a report of a check engine light coming on after a car wash. I also look at the amount of rock chips this section of my bumper has picked up and wonder how long a paper filter could last against this kind of impact abuse.

For these reasons I would not recommend the Dinan intake unless it was only for Autocrossing or Track use, even under those circumstances I question if the Dinan design has any advantage over the ECIS or Jim C design.

Update: I have been informed “Dinan is now shipping (for free) filter covers, a la K&N condoms, which are supposed to solve these issues”. I think this shows great customer service and reminds everyone why Dinan is such a popular company to do business with.

Dinan ///M Exhaust

Ultimate Fix for Chasis Flex

What’s the Ultimate Fix for Chasis Flex?

Having the chasis welded by rabid English structural engineers

The rear cross member is made of folded metal. Chasis flex is what happens when this member is under heavy loads. The fix is to have Peter at Crayford Coachworks, in Marina Del Rey (310-577-9830) with years of experience reinforcing the Porsche GT2 race cars, go wild. They choose to seam and stich weld a new member into place that had been reinforced with steel tubes. They also seam and stich welded other areas of the frame. The frame of most cars such as BMW, Porsche and Mercedes have little spot welds when they come from the factory. These little welds do not last if you drive your vehicle hard and have a large object hit the underside of your vehicle.

Why I choose to fix my frame

If you find that you have to have the rear lower suspension replaced, you might as well take advantage of the opportunity and have them seam/stich weld the frame. They can also reinforce the rear cross members. I had a large object hit the underside of my vehicle. The Frame had cracks that started from hairline cracks into what you see to the right.

The strongest M Roadster Frame in the World!

Not happy with the way BMW attached the differential, they decided to reinforce that as well. Now I am ready to add the MechTech Turbo Charger!

AC Schnitzer V8 Roadster

Click on Pictures for Larger Image