Hey guys, wanted to share a few pics of my most recent project. M62B44 shortblock, M60B40 heads and cams, M60B40 timing gears and chains. Jaguar XJ8 Eaton M112 Supercharger with intercoolers/intake manifolds and injectors.
It's a slow build, a long term project I'm piecing together over the winter and buying one piece at a time as finances allow.
The M62B44 shortblock:
The junk yard M60B40 to donate it's heads & misc hardware.
The Jaguar Eaton M112 supercharger:
Now to begin measuring, specs and work.
First I measured the combustion chamber volume of the M60B40 heads:
I found there to be roughly 50cc of volume in the chambers.
Next I needed to see how far out of the hole the pistons sit @ TDC of the M62:
I was noticing I was getting different readings depending where on the piston top I measured from. I found the M62 pistons to have a slight dish to them, if I would slide the dial indicator from one side to the other following the wrist pin the pistons measured further above deck at the edge and then would taper closer to deck height in the middle and than back out again towards the other edge.
I needed to measure this volume in the piston dish:
I found there to be roughly 4cc of volume in the piston tops.
The only MLS head gaskets I could find available for the M62B44 is 1.74mm thick. So now I have enough information to calculate compression ratio:
...not quite the 11:1 compression that most believe the M60 heads on M62 block to produce. But it's good news for me using the supercharger.
One issue I've been advised to address is the smaller coolant port for bank 2 underneath the valley pan:
That's where I am currently with the engine, a friend wanted to see a rough mock up of the engine once it's together. I was happy to oblige:
I plan to send the heads out for a clean up, valve & seat dress and I'm considering installing new hydraulic lifters/cam followers as I know they tend to get noisy with high mileage.
For the exception of the cam gears and cam timing chains the crank gear, idler, double roller chain, guides and tensioner will all be new.
Now we can discuss the plans for engine management:
For years now I've been studying the Motronic M3.3 code of the 404 DME, pulling apart and identifying maps. I've come a long way and have pushed this platform as far as I believe it can go. But it just doesn't have the flexibility and total control over the engine that I want. To many variables and mysteries in the Motronic platform, not to mention it doesn't have a direct way of referencing boost.
I've made the decision to move to a standalone EFI system, my choice is called Speeduino. An Arduino based board that uses TunerStudio software for tuning, the same software used for MegaSquirt.
The Speeduino has 4 injector controls and 4 coil logic outputs. Meaning the V8 will be wired and run in waste spark and semi-batch fire injection. The board has a built in 0kpa-250kpa MAP sensor and the system will be set up to run Speed Density.
The car is currently running with it's original M60B40 using the 404DME. My plan is to make the conversion in steps. 1st step will be to convert to waste spark using cylinders 1-4 coil outputs, going to an MSD DIS-4 and two waste spark ignition coils mounted on the firewall.
Once the vehicle is running waste spark on the original DME, I plan to mount the Speeduino inside a gutted DME case wired up to the original DME harness.
Then tune the Speeduino to run the current N/A M60B40 in the car.
Finally will be installing the supercharged M62 in the car and begin tuning for boost.
...this is my plan, we'll see how far I get. Cheers -Mykk
It's a slow build, a long term project I'm piecing together over the winter and buying one piece at a time as finances allow.
The M62B44 shortblock:
The junk yard M60B40 to donate it's heads & misc hardware.
The Jaguar Eaton M112 supercharger:
Now to begin measuring, specs and work.
First I measured the combustion chamber volume of the M60B40 heads:
I found there to be roughly 50cc of volume in the chambers.
Next I needed to see how far out of the hole the pistons sit @ TDC of the M62:
I was noticing I was getting different readings depending where on the piston top I measured from. I found the M62 pistons to have a slight dish to them, if I would slide the dial indicator from one side to the other following the wrist pin the pistons measured further above deck at the edge and then would taper closer to deck height in the middle and than back out again towards the other edge.
I needed to measure this volume in the piston dish:
I found there to be roughly 4cc of volume in the piston tops.
The only MLS head gaskets I could find available for the M62B44 is 1.74mm thick. So now I have enough information to calculate compression ratio:
...not quite the 11:1 compression that most believe the M60 heads on M62 block to produce. But it's good news for me using the supercharger.
One issue I've been advised to address is the smaller coolant port for bank 2 underneath the valley pan:
That's where I am currently with the engine, a friend wanted to see a rough mock up of the engine once it's together. I was happy to oblige:
I plan to send the heads out for a clean up, valve & seat dress and I'm considering installing new hydraulic lifters/cam followers as I know they tend to get noisy with high mileage.
For the exception of the cam gears and cam timing chains the crank gear, idler, double roller chain, guides and tensioner will all be new.
Now we can discuss the plans for engine management:
For years now I've been studying the Motronic M3.3 code of the 404 DME, pulling apart and identifying maps. I've come a long way and have pushed this platform as far as I believe it can go. But it just doesn't have the flexibility and total control over the engine that I want. To many variables and mysteries in the Motronic platform, not to mention it doesn't have a direct way of referencing boost.
I've made the decision to move to a standalone EFI system, my choice is called Speeduino. An Arduino based board that uses TunerStudio software for tuning, the same software used for MegaSquirt.
The Speeduino has 4 injector controls and 4 coil logic outputs. Meaning the V8 will be wired and run in waste spark and semi-batch fire injection. The board has a built in 0kpa-250kpa MAP sensor and the system will be set up to run Speed Density.
The car is currently running with it's original M60B40 using the 404DME. My plan is to make the conversion in steps. 1st step will be to convert to waste spark using cylinders 1-4 coil outputs, going to an MSD DIS-4 and two waste spark ignition coils mounted on the firewall.
Once the vehicle is running waste spark on the original DME, I plan to mount the Speeduino inside a gutted DME case wired up to the original DME harness.
Then tune the Speeduino to run the current N/A M60B40 in the car.
Finally will be installing the supercharged M62 in the car and begin tuning for boost.
...this is my plan, we'll see how far I get. Cheers -Mykk
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