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IMPORTANT: enter the case-INsensitive alphabetic (no numbers) code AND WRITE SOME SHORT summary of changes (below) if you are saving changes. (not required for previewing changes). Wiki-spamming is not tolerated, will be removed, so it does NOT even show up in history. Spammers go away now. Visit Preferences to set your user name Summary of change: '''Superior injector pulsewidth control''' * beside VEM's advanced injector-opening model (SW solution) * powerful flyback HW helps injectors close faster for even better control Effectively: * easier tuning * smoother and more economical operation * support for injector-sets with poorly matched (different) injopen characteristics See [http://shop.vems.hu/catalog/index.php?cPath=1_7 powerflyback item in webshop]. The same option available for assembled GenBoard v3.x. GenBoard features a powerful GenBoard/Manual/Config/InjectorOpening model that makes it possible (or in some cases just easier) to tune with high-flow injectors. We call injectors high-flow when the injector flowrate in cc/min is close or higher than the cylinder displacement (in cc). Like 550cc/min injectors for 450 cc cylinders. This is common for high-power (high-RPM or high boost or both) engines. We've seen giant 1600cc/min injectors for 550cc cylinders. The injector pulsewidth at idle and low-load can be very short, in the 600..1200 usec range. In this range, the injector-opening characteristic parameters are sensitive to good tuning. Alternative to the injector-opening parameters, almost as good effect can be reached with many-many load-bins, and much work (and strange shape VE table at very low load), but this is a very bad workaround: only makes sense to apply this method with alien ECM that has primitive injector-opening model. '''Raising''' the '''flyback voltage makes the injectors close faster'''. This makes tuning easier. This is what the power-flyback does. In the worst case, if injectors in the set have different opening characteristics, (this can happen, even the flowrate was measured to match perfectly at fully opened state ! often seen with Siemens injectors, but happens elsewhere too), it might happen that only very rich idle is possible (engine stumbles as you try to achieve a not-so-rich idle): pulsewidth must be tuned for the injectors with slowest opening or faster closing : naturally results in overly rich condition for injectors with faster opening or slower closing. ---- It's not easy to see the addon-board because of the same color. It's at the bottom of the picture, has 72 components (36 on top and 36 the bottom side): the ultra-fast black power-diodes are horizontal on the picture. http://www.vems.hu/files/Wiring/DiodeBoard_0003r_s.jpg Power-flyback mounted on v3.x (actually v3.3): * anode (+ red or yellow wire) connected to the onboard flyback rail * cathode (- green wire) connected to EC36pin23 pad - which is connected (remember?) to injector common (switched +12V supply that goes to all injectors) This addon board is used instead of the "traditional" direct (min 0.61mm2) wire between same pads. The same board '''can also be used outside the ECM Alubos case''' (beware of the "connection polarity"): * anode (+ red or yellow wire) connected to to EC36pin23 - which (remember?) internally connected to the onboard flyback rail * cathode (- green wire) connected to injector common (switched +12V supply that goes to all injectors) ---- '''Advantages''' * Power-flyback has the same advantage as the high-voltage flyback: '''raises flyback voltage to get''' the (low or high impedance) '''injectors close faster''' for superior fuel quantity control ** Since v3.3, every board is populated with low-voltage (appr. 1.5V) type onboard flyback. This was decided to allow PWM-ing (a nice and literally "cool" feature of GenBoard). PWM-ing was prohibited for the traditional onboard high-voltage flyback (configuring PWM-ing would kill the high-voltage flyback, even with high-impedance injectors: because the onboard high-voltage flyback had low current-limit). ** Powerflyback adds appr 4V to the onboard flyback voltage, therefore resulting in a significantly raised, appr 5.5V flyback voltage. * but cheers: '''power-flyback allows PWM-ing''' (either for high-impedance or low-impedance injectors: in practice, PWM-ing only configured for low-impedance injectors ). Bares up to 12A mean/20A peak current. As a comparison, an 8cyl engine with 8 injectors flow appr. 5A mean / 8A peak flyback current (but seriously bad - too high, but less than 100% - PWM-duty DC percentage configuration can result in higher current, so some margin does not hurt!). '''Disadvantage''' No disadvantage at all when PWM-ing is not configured. As a side-effect, if PWM-ing is used, PWM duty% must be slightly raised (say, from 30% to 35%). Tiny bit higher current consumption. Very good trade for the gains (easier tuning, smooth running, better engine economy). ---- '''See also''' * GenBoard/Manual/Flyback/Calculations Optional: Add document to category: Wiki formatting: * is Bullet list ** Bullet list subentry ... '''Bold''', ---- is horizontal ruler, <code> preformatted text... </code> See wiki editing HELP for tables and other formatting tips and tricks.