A lot of newer cars do not have the traditional cable that goes from the gas pedal to the throttle body...instead the pedal has a potentiometer*, this in wired to the ECU which tells the throttle body how much to open, just because you have your foot buried to the floor, the throttle body might only be open 50% since the ECU is dictating what is going on.
Now a drive-by-wire throttle body could be wired directly to the pot. on the gas pedal to be 1:1 at all times......with a setup like this on dual carbs or individual throttle bodies, no need to worry about thermal expansion of motor and how that effects the linkage.
* (similar to a variable resitor which varies the voltage output depending on foot placement)
I think it would be a good thing... wouldn't this also mean 1 less thing to not unhook when you pull the engine? what are you thinking in terms of design?
Why not just install a bigger computer too? And green brakes? And maybe a satelite navigation system? And don't forget electric adjustable seats.
Haha.
Depends on how accureat the system is. I've thought about it once before. One of those things that would be best used on a new buildup.
I don't think it would be allowed in most race groups. As a safety issue they like cables and return springs.
But you a street car it'd be cool.
Sure would be a nice way to have hide away linkage on a beetle...
I like that clean look.
I would say go for the weber market first...that has a larger installed base...
I have a dual weber 40mm you could use as a test mule till summer...then the kid comes back...
I think in the engine bay it would be fine...I would be very concerned putting sensitive electronics on the floor or either a beetle or a 914 considering the black hole effect that the floorboard area has in both cars...
Rich
I'd be interested in how the actuation is actually done - I would think that there would be a return spring and perhaps a solenoid to pull the throttle open with some kind of pwm coming from the ECU.
Anyways - I'd mess with it... sounds cool. I'd make sure it's REALLY stable before going anywhere with it though.
QUOTE (fiid @ Feb 28 2006, 02:33 PM) |
I'd be interested in how the actuation is actually done - I would think that there would be a return spring and perhaps a solenoid to pull the throttle open with some kind of pwm coming from the ECU. Anyways - I'd mess with it... sounds cool. I'd make sure it's REALLY stable before going anywhere with it though. |
I'm thinking it could be done much like a wah-wah/volume pedal... same principal... a big pedal actuates a much smaller "volume knob" (aka potentiometer) using a gear possibly... I'm sure we could figure something out... take a part a cry baby and that would be a start
QUOTE (tat2dphreak @ Feb 28 2006, 05:47 PM) |
I'm thinking it could be done much like a wah-wah/volume pedal... same principal... a big pedal actuates a much smaller "volume knob" (aka potentiometer) using a gear possibly... I'm sure we could figure something out... take a part a cry baby and that would be a start |
QUOTE (fiid @ Feb 28 2006, 02:33 PM) |
I'd be interested in how the actuation is actually done - I would think that there would be a return spring and perhaps a solenoid to pull the throttle open with some kind of pwm coming from the ECU. Anyways - I'd mess with it... sounds cool. I'd make sure it's REALLY stable before going anywhere with it though. |
QUOTE (URY914 @ Feb 28 2006, 01:54 PM) |
I don't think it would be allowed in most race groups. As a safety issue they like cables and return springs. But you a street car it'd be cool. |
Having been involved in testing some of the most advanced control-by-wire systems on the planet, I would say that this should not be attempted by someone who does not have a firm understanding of control systems and FMET. Amazingly strange things can happen in suprisingly simple systems.
The liability is too great (not just life and limb, but even just an expensive engine).
Note that I am not typically a nay-sayer to people's ideas.
QUOTE (James Adams @ Feb 28 2006, 04:21 PM) |
Having been involved in testing some of the most advanced control-by-wire systems on the planet, I would say that this should not be attempted by someone who does not have a firm understanding of control systems and FMET. Amazingly strange things can happen in suprisingly simple systems. The liability is too great (not just life and limb, but even just an expensive engine). Note that I am not typically a nay-sayer to people's ideas. |
Yeah I've been thinking about that one as well. If the issue is merely coupling throttle bodies on opposite sides of a boxer engine, one way to approach it would be to run a conventinoal cable to side A of the engine, and have side B driven by a stepper or servo motor to exactly copy the position of side A.
Getting a stepper or servo motor to hold the throttle open the correct amount is a piece of cake from an engineering point of view; the problem is making it accomplish this in the harsh environment of an engine bay and never failing. But even there, for a single person futzing around with their own car, I don't think that's such a big issue if they are careful. In Megasquirt, for example, you could add some kind of shutdown to be activated if RPM exceeds some threshold while the clutch is pressed. Only one digital input to add (clutch position) and a couple of lines of code. Still, if I had something like this set up, I'd consider the vehicle "experimental" and not drive it in traffic, long distance, etc. until I was _really_ sure about it.
So Mike, are you back to thinking about your ITB project ?
Hey Guys
Throttle by wire is a proven system used since the mid 90s.
Real drive by wire is coming, Throttle, Brakes, and Steering. On the gas pedal, you have 3 potentiometers, each to check the other, fail safe.
Problems associated with a wired throttle is the cost of the actuator, I bet even used its a good penny, and of course Programming, programming, programming. These are some VERY complex code, I looked at a Ford 7.3 flash and fell on my head. The system is so intertwined with other systems that it would be a nightmare to reverse the code, and I don't know if the MS could handle it.
It sure could make swaps a little easier
+Karma
Later
QUOTE (jsteele22 @ Feb 28 2006, 04:28 PM) |
So Mike, are you back to thinking about your ITB project ? |
Hey mikey.. can you design me a writing instrument.. that is NOT a pencil and NOT a pen? (dont give me no feather either)
I just gotta be different!!
sorry....
cool idea.. Dont think that heat expansion is that big of a deal... throw some heat wrap on the cable cover...
QUOTE (Andyrew @ Feb 28 2006, 04:39 PM) |
Hey mikey.. can you design me a writing instrument.. that is NOT a pencil and NOT a pen? (dont give me no feather either) I just gotta be different!! sorry.... cool idea.. Dont think that heat expansion is that big of a deal... throw some heat wrap on the cable cover... |
QUOTE (lapuwali @ Feb 28 2006, 04:09 PM) | ||
Just open the bonnet on your wife's Legacy. Soob's have had throttle by wire for awhile now. My wife's Forester has it, too. Pretty easy to do traction control this way, too. Despite my pro-EFI stance, I'm strangely against drive-by-wire. I also don't like traction control, stability control, ABS, or any of that. And yes, I just read the GRM article on the subject. |
Electric cars use this setup all the time, as they pretty much have to. They make somewhat hardened "pot boxes" that are set up for a linkage, and they even make fully self contained pedals with the pot inside.
Most have a redundant microswitch that can be set up to cut off main power if the pedal is all the way up as a safety feature. Perhaps you could wire this up to a backup system that would cut the fuel pump power if it sensed low vacuum (open throttle) at the same time as sensing your foot off the pedal (microswitch).
I'm seriouly thinking about this for the Alien. Cables Suck when their long. BMW has drive by wire in their 12 cylinder. There are duel motors that cost 850.00 bux a piece.
This can't be hard. Were not talking about drive by RC. Although that may work too
Drive-by-wire pros:
Pro #1. Emissions. Good fuel control boils down to a problem of estimating airflow into the cylinder. If the airflow estimate is wrong, then the engine will have an undesirable A/F ratio, and emissions will suffer.
In old-fashioned systems, where the driver controls the throttle, the ECU must operate in a "reactive" mode, responding after-the-fact to throttle movements. In transient conditions, ie when the driver makes rapid throttle movements (either opening or closing), the complex dynamics of manifold filling and wall-wetting make accurate fuel-control very difficult.
In the more modern drive-by-wire systems, the ECU meters both air AND fuel into the engine. In this way, the ECU is able to avoid those unpredictable and large-magnitude throttle transients that wreak havoc with A/F ratio and emissions. In these systems, the throttle pedal is no longer a throttle-actuator, but rather a throttle-request. The ECU says: "I see you just planted the gas pedal on the carpet. I will respond by slowly opening the throttle in a manner that allows me to avoid a troublesome A/F ratio transient that might cause me to fail an EPA emissions test."
Pro #2. Torque smoothing. All drivers (racers and street drivers) like to have a linear pedal vs. torque response. A computer can easily deliver this in a drive-by-wire system. I might add that clever mechanical design can do the same with a conventional throttle system, although with less flexibility -- pulleys, levers, and/or cams are more difficult to iterate upon than is a software table.
Pro #3. Torque limiting (rev-limit, pit-lane speed limit, traction control, launch control, etc.). This is the big advantage of drive-by-wire for motorsports. In a conventional system with a driver-coupled throttle, the ECU can limit torque by ignition retard, or by spark & fuel cuts. This is effective, but in many cases is very brutal, with big torque transients that can cause potentially damaging driveline oscillation. The F1 guys, running drive-by-wire, have figured out that the smoothest way to reduce torque is by limiting the air entering the cylinder -- just close the throttle.
OK, for the Cons:
Con #1. Lousy throttle response. My own personal experience is that the Suby and in particular the Lexus DBW systems are far too aggressive at attenuating throttle transients. They feel lazy and sluggish, even dangerously slow. The engine doesn't respond on a downshift throttle blip. If you plant the throttle, the ECU will "think" for a noticeable fraction of a second before it slowly feeds in more torque. Probably good for emissions, but not so good for avoiding that SUV bearing down on you. I should point out that DBW systems don't HAVE to be so bad. The Boxster that I drove felt exactly like a cable-driven system. I've heard the same about the Corvette.
Con #2. Safety. This is fairly self-explanatory. Do you really want a complex and potentially failure-prone computer system intercepting your throttle requests? There's just something reassuring about a direct mechanical connection between the driver's foot and the throttle blade.
Con #3. Complexity. The DBW systems out there have tens if not hundreds of man-years invested in their design and validation. And for good reason -- refer to Con #2.
Con #4. $$$ All those computers, actuators, sensors, and man-years add up to a substantial cost. You can rest assured that not a single auto manufacturer would have designed DBW if not for first item in the list -- emissions.
BMW uses Dual linear hall sensors in the pedal assembly. One is from .5V to 4.5V the other one is .5V to 2.0V. This differing voltage is used for plausibility. Also if the wires happen to get shorted together the different voltage readings will let it know there is a problem. They use Dual potentiometers on the throttle body. One is from .5V to 4.5V and the other is 4.5V to .5V inverse of the first one. BMW uses these on more than just there V12 now. Most of the new bmws use thottle by wire. They dont seem to have any problems with it. It makes stability control really easy by limiting the thottle opening.
John
Who ever markets this had better have some SERIOUS manufacturers insurance because they will more than likely be getting their asses sued!
I did this on my dyno in 2002 and 2003 when I was doing my cooling system test work and needed a universal throttle that was fast to install and remove and while it worked well I could certainly see that there are glitches that could promote a failure that could stick the throttle at wide ass open.... Fail safes could be used, as always but even those "Fail".....
The person that does this in todays modern world of lawsuites and trigger happy attorneys is asking to get their ass handed to them.
Sorry guys, thats thr truth from the retail side of the world, and it sucks.
Vehicle manufacturers may do this as standard equipment, but they can absorb the costs related to failures without losing their homes and businesses because of one prick that can't install something correctly.....
I can't believe it. A simple stand alone system to move the linkage connection on a throttle body? If it fails it would surely drop to idle... I may have to give this some thought. If I can make it work I'll sell kits like MS.. You put it together, you assume the liability...
While I totally agree that the system has to be made extra-safe and reliable, and that anybody who tries to sell this (or anything) had better be ready for lawsuits, it really, really isn't a very complicated system. There's only one parameter to control, its easy to measure, and it varies quite slowly compared to many other feedback systems.
In fact, DBW throttle control isn't very different from cruise control. You give an input (desired speed vs desired throttle position), the system compares this to a feedback signal (actual speed vs. actual throttle position) and the system automatically generates an appropriate control output (actuale pedal via vacuum servo vs. actuate throttle via electric servo). In fact, the only difference that I can see is that in DBW the desired input is allowed to vary a bit more quickly. This is pretty much a non-issue. The one crucial difference that worries people is that with cruise control, the mechanical linkage is still there - you can turn off the controller in an instant and go back to manual mode. But once you use cruise control, it starts to feel pretty comfortable for its intended use. I think DBW would be the same. (Most people who use it now don't even know...)
Also, I think that a lot of folks who drive 30-year old cars are already used to the idea that control over their their throttle or clutch (i.e., the cables) might possibly give out at any minute .....
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