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Kiwi_Roy

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Everything posted by Kiwi_Roy

  1. The sockets on my V11 are the worst, no better than you get on a string of Christmas lights. I pluged in an LED replacement and they shorted right out. I ended up soldering the new lamps in place. LEDs should last me out. Roy
  2. Hubert, Yes if you change the inlet pressure (as it would with the spring housing connected to inlet manifold) in the sizing program the flow will change but if you only change the outlet pressure (manifold pressure) once the pressure drop exceeds 20 psi the flow stays exactly the same. Basicly what happens with choked flow in a liquid passing through an orifice, the pressure drops (vena contracta effect)past it's vapour pressure and vapourises which takes up more space than the liquid thus choking the flow off. I found several quite good explanations on the web. I like Dan Ms explanation of why Guzzi chose this approach. My guess is they decided to simplify things and go for a known flow variable time. Obviously at one time in the past they tried changing the pressure based on manifold vacuum as it shows on the earlier document with Webber fuel injection. See earlier post The pressure loss is fixed in this case by the regulator and throttle position. I'm not saying the injector is as simple as I make out but I expect the valve portion is much larger than it needs to be relative to the nozzle orifice. Perhaps someone can find something on injector theory. BTW, are the injectors something that needs to be replaced occasionally?
  3. OK, now I'm convinced. I was having a hard time understanding why connecting to the manifold would have no effect. I work in process control design so I used a valve sizing program we use to model a hypothetical injector to see what effect changing the pressure would have. As I see it an injector is nothing more than a simple On/Off valve followed by a fixed orifice. As you can see from attached once you go past 20 psid the program gives a "Choked" flow warning Choked flow is a condition where no matter how low you drop the discharge pressure the flow will not change. At a fuel pressure of 37 psig the injector is well within choked flow condition for any senario. The only way to change the flow rate is to use a larger orifice or hold the injector open longer. I'm really sorry I wasted your time with this Regards Roy Fuel Pressure Explanation.pdf
  4. No, I haven't done that yet, I'm sure its a long way off. Something else that makes me think so I park in an underground garage about 20 ft away from the CO sensor that starts the ventilation fan. If I start the bike it quickly triggers the fan wheras nearby cars in the same garage can start-up and leave often without triggering it. Re regulator connections see my next post. Thanks Roy
  5. Yes I started with the 150 mV with the stops backed off and choke clear. My idle reading is ~ 460 mV A little history I purchased the bike late last year. It came with a power commander. Earlier this year it started to miss badly so I disconnected the power commander and put it back to standard, It runs well but seemed to be using too much gas. 8L/100 km at highway speed I thought to myself OK, I will start from scratch, get it running as well as possible then put the power commander back After reading all about the TPS (all 100 pages) I re-set this at the same time adding a little black box that allows me to offset the TPS while riding. I found that even changing the mV by about 250 mV has little effect on performance. I figured that the bike is so rich that even reducing mV by 250 still doesn't approach lean running. My question Does the power commander add/ subtract from the map inside the original ECU or does it completely replace it, In other words even though I am way too rich with the standard map will putting the PC back start me off from scratch? Thanks Roy
  6. OK, I will take your word for it, that document must be an old one, I think you mentioned that. Please see my next to fotoguzzi. Thanks Roy
  7. Here are the relays Order all 5 pin, they are interchangeable http://search.digikey.com/scripts/DkSearch/dksus.dll?Detail&name=Z2247-ND Digikey also have the little switches that go on the Brake / clutch levers Regards Roy
  8. I hate to disagree with you guys who have multi year experience This is the document that prompted my question http://www.dpguzzi.com/efiman.pdf On page 7 it talks about the regulator connected to the manifold and why referring to the diagram on top of page 8 Also the picture on page 3 clearly shows the regulator connected to the manifold. Could it be that it is talking about an earlier model? I have been searching for a reason why my V11 Sport is running so rich ~ 8L/100 km so I clutched at this straw. BTW I work with and specify regulators all the time. (Process Control Instrumentation) Actually once i took the time to read the whole document it's refering to a Webber ECU of earlier vintage. Roy
  9. Yes it would have a huge effect, connecting the spring housing to the manifold would drop the pressure by whatever vacuum the manifold is running. At idle it would be 33-14 psig, at WOT it would be 33 psig. That kind of makes sense in a way the flow thru the nozzle constant and metered by length of Open pulse, I'm trying to find the link With the spring case disconnected the gauge pressure is constant (pressure measured with a pressure gauge) With the spring case connected the pressure drop is constant (pressure measured with a differential pressure gauge) Raz, would you please attach that link to this thread, I completely lost it. BTW the diagram is a bit confusing because it shows two regulated pressure connections, The bottom one goes back to tank and the top barb connection is the one the text is refering to. Roy
  10. OK Docc, all fixed "I hope" The latest files are right at the top of page 1 Thanks for picking that up
  11. In a document Raz refered to regarding ECU on the bottom of page 7 talking about the fuel pressure relief valve it mentions connecting the spring case to manifold thus keeping the pressure drop fuel to manifold pressure constant. I seem to recall recently the subject came up on another thread and we were told it shouldn't be connected. Which is correct? I ask because the regulator on my bike is not connected to the manifold and it runs very rich which of course it would with 30% too much fuel pressure ( flow and pressure drop are a square root relationship i.e. to double the flow you need 4 x the pressure) It seems to make sense that you would want the pressure drop constant and not the pressure to atmosphere. Thanks Roy
  12. Docc The latest rev is attached to my first post in the thread Guzzi Wiring & Guzzi Wiring layout April 24 2010 No, if you see anything wrong or some way to improve please let me know. I still need to do one of the lighting and a detail of thr ECU wiring I would also like to add the wire colours but as text not screen colour.
  13. Picture attached - The threads on mine were the same. The bolts are marked LOBO 12.8 with 2 dots This is caused by not lining the indent in the shaft up perfectly with the bolt hole. The bolts catch and destroy the thread. If you look through the gap between two halves you should be able to line it up. Sorry, I don't know the torque settings but I doubt it's critical. I just tightened mine by hand to where It seemed right. By the way the original bolts were longer than necessary, 25mm is long enough "Tighten them till they strip, then loosen 1/2 turn", just kidding Roy
  14. Strip the ignition switch down while you are at it, the voltage shouldn't be able to by-pass that as you describe With the switch off and the bike not running pull each fuse one at a time and check for current using a 12 V lamp in place of the fuse. I suspect you will find some wires melted / shorted together between the seat and the switch. I think I would be taking a close look at the connector under the tank at front. Seems a bit like tracking across from one of the Positive wires to a Negative. You really need to find out what's going on the potential arcing could cause a fire. With everything turned off I would remove all the positive wires and measure mA from positive of battery to each of the positive leads, they should all read zero mA. If you see any current at all then you can try to track it down by pulling fuses etc. If you can't find the problem, leave the positive wires off when you are not riding. Report back Roy
  15. And heres a Photo. I added a strip of aluminum to tie the bases together so they don't flop around. The nut and bolt at the left is for the common ground point for the LEDs I strongly suggest you make a metal template for drilling the 1/8 hole so they all end up in the same place, not like mine. Regards Roy
  16. Good point, that light will allow you to test either. A second LED across the coil might be good here or perhaps one of the 2 colour variety Red for Prop Stand, Green for Neutral relay, White for both. BTW Suzuki use an almost identical circuit for their prop-stand / neutral switch. I wonder what % of bikes have the side-stand switch jumpered. Some parts of the world seem to have different requirements as far as these interlocks go. Regards Roy
  17. The starter relay has power on all the time through Fuse 5 so if you have an LED on both contacts one will be on without the key. Looking at the layout the best place to put your LED in all cases is terminal 87, the N/O contact. If you wanted to get real fancy you could put one on each coil as well but be aware the polarity on R2 and R5 is backwards in relation to the others. Roy
  18. Yes, even smaller, most LEDs are rated 20 mA or less. I used the smallest wire I could find, probably 24 or 28 gauge otherwise it would be too stiff. Any resistor that gives you 5 - 10 mA will be bright enough. Yes, some pretty colours might be nice. I ran a wire daisy chain from each of the negative leads to bolt on the chassis, you could run back to the negative terminal on each coil but they are not always on the same side. Some small heat shrink might come in handy. I marked each point on my Carl Allison drawing, I will get it off the bike later and add to mine. The starter relay LED is on NO contact, the rest are on when the bike is running, It might be an idea to make a small metal template so when you drill the bases they all end up in the exact same spot, some of mine wandered off because I drilled right down thru a cross shaped section of plastic. I will post a picture if I can find my camera cable. Cheers Roy
  19. I'm of the opinion that anything greasy aids contacts, it coats the surface so air (oxidation) and water (corrosion) don't take place. I learned as an apprentice electrician 45 years ago that petroleum jelly aka vaseline works wonders on battery terminals. We also used it liberally on the large drum controllers of electric cranes, more for lubrication in that case. I'm sure there are lots of better greases than plain old vaseline but it's available everywhere. God's gift to Electrical Contacts I call it. I'm starting to rave like an now What were we talking about again? Cheers Roy
  20. (Edited 06 August 2010 - 05:36 AM): If you are having trouble with your relays. Some of the problems could be due to a faulty contact in the base. The attached drawing shows how to remove the connectors from the base so they can be inspected or tightened by pinching with a pair of pliers. If you need to replace them the brass connectors are standard items that can be purchased at any good automotive supply store. I highly recommend dipping your relay pins in vaseline, this will help prevent corrosion and also makes it easier to get the relays in and out. The other drawing shows how you can add LEDs to the relay bases as a troubleshooting aid, I did this with mine and find it very useful. The LEDs are wired to contact 87 so that they indicate when the relay contacts are closed, not just when the coil is energized. Should you decide to go this route, there's a cross piece in the plastic that will make the drill wander, if you make a metal template for drilling the 1/8 hole they will all end up in the same place, not like mine. Here's a picture of the end result http://www.v11lemans...attach_id=10124 Hope this is of interest Roy (edit): updated drawings: See Post # 15 of this thread below:
  21. Sorry, I wasn't being critical, I just missunderstood what you mean. I fully agree it's very hard to do a load test on the bench. Roy
  22. If you look at the diagram Raz posted you will se the 0.3 Ohms is due to the red coil and the armature in series, The main starter current doesn't go through the Omron relay (it would fry instantly) The red coil will draw about 34 amps for the split second it takes the solenoid to engage the gear and close the main contacts. The blue coil is much weaker ~6 amps but strong enough to hold the solenoid in place while your finger is on start so the initial load on the starter relay will be ~ 40 quickly dropping to 6 The starter according to owners manual is 1.2 kW "or 100 Amps at 12V" I'm not sure why you say test the motor no load. Most wouldn't have a meter with a scale that high anyway. What you can do is measure the voltage drop (mV) along the starter cable and try to figure the current out from cable resistance chart. Yes, the CEMF is due to the motor acting as a generator, the faster it spins the larger the CEMF so the current drops. Current = (EMF - CEMF) / Resistance Roy me, for sure
  23. That's the diagram I was looking for. I suspected it was like that. When the start relay closes it energises the low resistance Red coil in series with the motor 34 amps if I'm not misstaken and the blue coil in parallel 6 Amps. The field pulls the plunger in engaging the gear in the flywheel and making the large contacts which effectivly bring the other end of the red coil to +12V. The current drops to 6 Amps (blue coil), enough to hold the solenoid in place. Meanwhile up to 100 Amps flows through the large contacts to the motor. The reason motor current drops with speed, the motor is also a generator, the faster it spins the more voltage it generates but in the opposite direction (counter EMF) I'm not sure our motors have a series field like shown, I read it was permanent magnets. You can replace the connectors in the sockets quite easily, they are available in any good auto parts store. Standard spade connectors with a barb on the back. I will post how. Roy
  24. Mine was quite clean actualy, but cleaning sure made the world of diference. I left mine on the bike because I was too lazy to remove the tank
  25. I was surprised how easily the lock assembly came off, I expected some sort of fancy security bolt but no, just regular Allen bolts. (( I just looked in the parts manual Section H1 page 40 item 22 is listed as "Special Screw", I guess the PO must have changed them out)) The contact block (on mine) is held on with 2 philips head screws. You should be able to leave the lock in situ, the block only fits back one way so no worries there but suggest before you take the contact plate out of it's housing mark it's position, I didn't and it took me a while to figure it out (poor eyesight and bad lighting) I knew I should have taken pictures but all three hands were busy unclipping the parts. Check the resistance first, it might be OK I wouldn't spray it with contact cleaner, might dissolve the plastic. Roy
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