IIRC, the front of the car is to the right in this diagram, I'm not quite sure anymore. But yes, the numbers coincide with the cylinders, so there is a way in which you can align the diagram with your engine.
Anonymous on 23 Apr : 21:10
Hey Bjoern. I have a question about your wiring diagram on the MAF conversion. Is the diagram of the injector wiring from the top view of the engine? Because I'm guessing the injector numbers don't coinside with the cylinder numbers? Thanks
The auto tranny is a problem, because you have a very limited choice of computers. Unfortunately, I have no idea about auto trannies and can't help you there. Conversion to standard is a big deal and not for the faint of heart. I bought a book on Ford EFI which I found to be very helpful and I learned a lot from it. I think it was this one: [link]
hey bjoern, ive had your maf conversion in my favorites forever... i finally rebuilt the engine, but put in a lumpier cam, along with some other minor mods, so now basically, it runs, but with the old map sensor, not so good. thats alot of technical words, and all ive worked on up to this point is oldies with carbs and no EFI, but im learning alot and im loving it. i have one difference, but i dont think it bothers anything, i have an automatic transmission, so if i install the maf system out of a newer pickup it may want to read the e40d when i just have an aod... unless maybe i can find one with a standard transmission?? i dunno, im getting so confused with all this technology, i would like to do it step by step just as you did. can you help me somehow?
Poster presented at the 2005 Neuroscience meeting in Washington, DC. Abstract: We examine the effects of repetition and stimulus quality on the generalization of differentially conditioned stimuli across contexts. Visual discrimination in Drosophila is a case of differential conditioning of pairs of stimuli (i.e., A+, B- or the reverse; patterns or colors). A second pair of stimuli (i.e., C/D; colors) is arranged as context. Context generalization of this discrimination was previously shown to be dependent on the choice of colors for C/D and on the mushroom bodies, a prominent neuropil in the insect brain. If C and D are chosen such that memory for the A/B discrimination IS NOT generalized between them, both mushroom bodyless as well as wildtype flies fail to retrieve the A/B memory, when the training context is re-established after sufficient exposure to the non-generalizing context. If C and D are chosen such that memory for the A/B discrimination IS generalized, the flies gradually cease to generalize with increasing number of context changes. The latter result indicates that contexts can acquire discriminating power depending on the number of context presentations. Occasion setting is a form of higher order learning, in which a discriminator (e.g. C/D) indicates whether the A/B contingencies are valid or not. Extending the concept of context change towards occasion setting, it emerges that operant control of the discriminator facilitates occasion setting. Our results are among the first to demonstrate higher-order learning in invertebrates. Varying the perceptual quality of the stimuli A/B or C/D in color space suggests that conditionability of both simple discrimination and occasion setting in Drosophila depends crucially on the overlap of the wavelength spectra of the stimuli used.
feedburner.com
