Powerdynamo brings new ignition & light
to your vintage motorcycle
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Powerdynamo brings new ignition & light |
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| Assembly instructions system 70 07 799 00 |
Version 08. 10. 2007 |
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Please read these instructions fully before starting work on your bike or any modification on the supplied system. Also, please note the remarks on the information page for this system. |
| If you have no expertise for the installation have it done by an expert or at a specialist's workshop. Improper installation may damage the new system and your motorcycle. | |
| Before you order a system, please check against the section "you
should have received those parts" whether all parts wanted are in
the kit. You might want to order a puller tool,
light bulbs,
fuse, horn,
flasher
unit etc. Never use anything other than a puller tool M27x1.25 to pull the new rotor again. In case of damage to the rotor as a result of use of other (unsuitable) tools and facilities, the warranty claim expires! |
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If you have access to the Internet, see those instructions online. You get larger and better pictures by clicking onto them and possibly updated information. System list at http://www.powerdynamo.biz |
| The rotor is sensible to blows during transport. We therefore double pack the material (box inside box). Should the system have been despatched to you via a reseller and arrive not packed like this, please inform us. | |
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Before assembly, please always check the magnets (try to push
them aside with your fingers).
After impact the glued in
magnets might have broken loose, sticking to the rotor however by
magnetic force, so that one does not notice right away. During run there would be considerable damage as a
result. Before putting the rotor to the engine, please make sure that its magnets have not collected metal objects such as small screws, nuts and washers. That equally would lead to severe damage. |
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You should have received those parts:
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Make sure your motorcycle rests securely, preferably on an elevated work bench
and that you have good access to the dynamo side of the engine. Disconnect your battery and take it out of the motorcycle. Note that you will install a 12 volts system, so you will need a 12 volt battery and 12 volts bulbs. The horn may stay at 6 volts. |
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| Disconnect all wires at the old dynamo and take those parts off. The woodruff key will remain at the crankshaft, but it will need to be flatened a little. A few filestrokes will do. Check at this point with the new rotor. It should sit well on the tapper and not wobble on an overheigh key. | |
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We did make the groove deliberately not so deep in order to prevent a
weakening of the material. No need to worry over the seemingly missing 2 magnets inside the rotor. That is so by design in order to facilitate ignition. |
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Have a look at the new pre-assembled stator unit and memorize its
composition. There are a lower, thicker adapter, a thinner top adapter, a stator baseplate and the stator coil. The upper adapter sports en embossed letter Z. Unscrew the 3 screws M4 holding the stator, lift the coil a little off the plates in order to get access to the 2 countersunk M5 below and take those 2 screws out as well. Separate now the bottom from the top adapter. |
| Make sure not to damage the paint insulation of the stator coil. | |
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Place the bottom adapter onto the DKW's rear dynamo dish (sitting
already on the crankcase) and screw it down with the 4 hex-screws M7x30
supplied.
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As the upper adapter has 2 sets of fastening holes we have put the "Z" mark on it. This marking has to show towards the cylinder. Otherwise ignition will be at wrong moment. (Z in the photo here highlightened) |
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Place the top adapter plate with the stator base and the stator
loosely on it onto the lower adapter. The larger black coil and the wire
will show towards the wire exit. Put the 2 screws M5 to connect all parts. |
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| Now put the stator coil back into its position on the plate,
taking care not the damage the wires. Make sure that the inner
opening of the stator unit slots evenly over the elevated fixing rim of
the base plate - otherwise the coil will sit loopsided and will touch the
rotor, damaging it. Screw the coil down with the 3 hex screws M4 and tighten. |
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Place the rotor onto the shaft. Check that it runs freely above the
plates (if the shaft has been extensively repaired, the rotor might be too
low)
Screw the rotor down with the tubular nut M16. |
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| Remains to fix the external parts | |
| The new twin coil, the voltage converter, the regulator/rectifier
and the relais have to be fixed to the bike at a convenient spot (easier
said than done if you like to hide those parts for as much as possible). In the following pictures a few proposals of how to do that. Any spot is however good enough to fix them. |
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| The rather bulky ignition coil may be fixed to a small holder plate (not supplied) which in turn is fitted to the frame under the tank. The coil than hangs head down over the cylinders. | |
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| The relais may find a place in the switch box. | The regulator and the converter may find a place in the side box. |
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| This system is quite different to most of
our other systems. Reason for this is that we make a twin using an
internal trigger system, which normally might have to little energy for
the twin.
We have however found a solution. The system is both, battery and
magneto ignition at the same time. As a result there is full spark
from first revolutions onwards. Power consumtion is less than 15 Watts, in
middle revs much less as there the magneto does most of the job. All
in all more energy is delivered than consumed, so even with a 45 Watt
headlight bulb good charging of the battery is always provided.
Depending on kickstart transmision (differs from type to type) and on speed of kick, it might well be that the system works even without battery. This would have to be tested however in every single case. |
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The ignition energy is amplified by adding battery power
converted into some 340 Volts. That's why the coil has quite a lot of wires. |
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| Connect the parts as shown in wiring diagram 72ir-bat: | ||||
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Parts of the magneto ignition | |||
| To facilitate wire exit through the often small openings in the engine casing, the plastic plug of the generator's wiring that leads to the ignition coil have not been put onto the wire terminal. You should place the plug there only once all has been properly installed on the engine side. | ||||
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Look for the ignition coil with its female plug and the two wires (red and
white).
Put the provided 2-position plug housing onto this plug and insert the two wires (red and white) from the generator. Make sure that the terminals engage securely in the housing and that you connect:
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Should you need (or want) to get the terminals out of the plug housing again, enter a paper clip from front next to the terminals and push the little barb aside. Than pull the wire out. |
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The brown wire from the new generator with the round eye terminal have to be screwed to the holder frame of the ignition coil (ground). This connection is very important. Please don't depend on the frame as the earth-connection. Varnish, oil and dirt prevent often a good contact! |
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Remains the blue (sometimes blue/white) wire at the ignition coil. This is the kill (cut-off) wire.
Connected to ground - it will stop ignition!
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Switch off via separate kill switch |
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Battery method: |
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The brown wire with the ring terminal
from pins 87a und 86 goes to ground.
The black wire from pin 85 goes to a main switch terminal carrying voltage if switched on. |
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Parts of lighting voltage genaration | |||
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The new regulator/rectifier has a compact plug with 6 positions, of which one is not used (before November 2007 it were two). From November 2007 onwards a female plug cover fitting to this plug is delivered. Into this female plug you have to insert the following wires (which have terminals that snap into the plug): | |||
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The two black cables leading from the generator ... |
... connect to pins 1/4 of the new regulator (from there equally black wires lead inside the unit). It does not matter which wire connects to which of the both terminals (1/4) as they carry alternating current. |
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| * | The new brown cable with the round eye terminal ... |
... connects pin 3 of the regulator unit (from there equally a brown wire goes inside the unit) with the negative pole of the battery or (in case you drive without battery) to ground (chassis). |
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The new red cable with the round eye terminal ... Take care: |
... connects to pin 5 of the new regulator (from there equally a red wire goes inside the unit). Here your regulated positive voltage comes out to connect to battery plus, or (in case you drive without battery) to the voltage input terminal of the main switch (ignition lock, German bikes: pin 51/30). |
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| Make sure that you have a 8A-fuse between battery and vehicle circuitry. | ||||
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The green/red wire at pin 6 of the new regulator ...
Remark: |
... is for the charge control light.
You connect there the wire that formerly did run from the control light to
the original regulator. |
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| The charge light control function is based on a transistor switch and is an additional function. Even if that should fail, the regulator might still be in ok working condition. Simple check: have the engine running, turn lights on, disconnect the battery. If you have bright lights the unit is ok. | ||||
| * | Parts of battery support for ignition | |||
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The converter transforms battery voltage (be that 6 or
12 Volts is of no relevance) into some 340 Volts to amplify the charge
of the ignition condenser (which is inside the ignition coil).
Depending on primary voltage ( 6 or 12 Volts), revs and therefore number of sparks, the unit consumes between 10 and 15 Watts. |
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| * | The red wire of the converter ... | ... is the wire to input battery voltage Plus. It has to be connected to a terminal of the main switch (ignition lock) that carries voltage when the switch is in ON position (German bikes: terminal 15). | ||
| * | The white wire of the converter ... | ... connects to minus of the battery (ground). | ||
| * | The 4-position plug of the converter (with the cabels red, white, blue/white and green/red) ... | ... connected to the fitting counterpart at the ignition
coil. Consider the altered cable colours:
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High tension cables | |||
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Screw the high tension (ignition) cables ...
Please do not use any spark amplifying cables, such as "Nology supercables" or "hot wire". This will disturb the system and possibly damage it. |
... into the ignition coil and pull over the rubber seals before
mounting the
coil (it will be easier).
Please do use the cable arriving with the pack and not any old cable. |
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You will do yourself a favour to treat your bike to new spark plugs and
spark plug sockets (preferably some between 0-2kOhm).
Plenty of problems are to be traced back to "apparently good" (even
completely "brand-new") sparks plugs, terminals and cables. Do not use spark plugs with an intern suppression resistor. NGK (e.g.) offered such spark plugs coded with an "R" (for resistor). |
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In our twin outlet coils both ends of the secondary go to the spark plugs.
Typical resistance between both exits is 6.2kOhm. Both exists fire at the same time (as many twin systems do). Sparks will be polarised however at a 180 degrees difference which might manifest when you strobe it. |
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Ignition will only work correctly if both plug terminals are connected.
You may not test one side with the other open (not sitting on the mounted
spark plug). This is because (effectively) each exit uses ground from the
other. That means also that both plugs are working in serial, adding
resistances, so better use low resistance spark plug (resistor) sockets
and make sure they are good. If in doubt, measure resistance on a hot
socket (warm it up before measuring).
Is the flow from ground of one side via spark plug there, via coil, to the other spark plug and its ground interrupted you get no spark - on neither side. If you really want to test only one side, put the HT wire of the other to ground (earth it) than it will work. Sometimes a coil deprived of its ground from the other side searches for a substitute - with some solid fireworks around it to the chassis. |
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Finally - and before installing the battery and before the first kickstart - please re-check carefully all connections and fitments against the wiring diagram. Do check battery and light bulbs for correct voltage (12V). Should something not work, please consult our trouble-shooting guide on our homepage. As a first step disconnect the blue wire from the coil and re-test. |
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IMPORTANT: During crank shaft repair the dynamo shaft is often
machined and gets shorter. The result is a rotor sitting lower, possibly
touching now with its rivets the stator coil. The result is a destroyed
stator and ignition failure. For more detail and how to check see (online) here. |
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Important safety and operating information |
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Safety first! Please observe the general health and safety regulations motor vehicle repair (MVR) as well as the safety information and obligations indicated by the manufacturer of your motorcycle. |
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Ignition systems generate high tension! With our material right up to 40,000 Volts! This may, if handled carelessly, not only be painful, but outrightly dangerous. Please do keep a safe distance to the electrode of your spark plug and open high tension cables. Should you need to test spark firing, hold the spark plug socket securely with some well insulating material and push it firmly to solid ground of the engine block. |
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After installation, please check tightness of all screws, even those preinstalled. If parts get loose during run, there will be inevitably damage to the material. We pre-assemble screws only loosely. |
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Give the newly installed system a chance to work, before you start
to check and test values, or what is worse is to apply changes to
customize the firing point before running the system. Our parts have been checked before delivery to you. You will not be able to check much anyway. At any rate do refrain from measuring the electronic components (such as ignition coil, regulator and advance unit). You risk severe damage to the inner electronics there. You will not get any tangible results from the operation anyway. Bear in mind that also your carburettor, your spark plugs and spark plug sockets (even if completely new) might be the reason for malfunction. The general experience with our systems is that the carburettor will have to be re-adjusted to lower settings. Should the system not start after assembly, first disconnect the blue cut-off wire directly at the ignition coil (or in some cases advance unit) to eliminate any malfunction in the cut-off circuitry. Check ground connections carefully. |
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The spark of classic, points based ignition systems has with about 10,000 Volts with little energy and looks therefore yellow and fat (hence it's visible). The spark from our system is a high energy spark with up to 40,000 Volts and therefore very sharp (needle thin focused) in form, and blue in colour, which makes it not so visible. Furthermore you get spark only at kickstart operated speedss and not by pushing the kicklever down slowly with your hand (as you might get with battery based ignitions). |
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Systems using a twin outlet ignition coils have a few percularities. Please observe that during tests on one side, the other has either to be connected to an fitted spark plug or securely earthed/grounded. Otherwise there will be no spark on either side. |
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Never do electric arc welding on the bike without completely disconnecting all electronics. |
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Electronics are very sensitive to wrong polarity. After work on the system, do check correct polarity of the battery and the regulator. Wrong polarity creates short circuits and will destroy the regulator, the ignition coil and the advance unit. As a rule, wiring will always be colour to colour. Instances, where colour differs between wires it is expressly mentioned in our instructions. |
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When you handle the new rotor, take care not to damage its magnets. Refrain from direct blows to the circumference of the rotor. When transporting never put the rotor over the stator. Observe our information relative to transport of the material. |
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Do not use spark plug sockets with a resistance of more than 5kOhm. Better use 1 or 2kOhm ones. Bear in mind that spark plug sockets do age and thereby increase their internal resistance. Should an engine start up only when cold, a defective spark plug socket and/or spark plug is very probably the cause. In case of problems check high tension cables too. Never use carbon fibre HT-cables, never use so called "hot wires", never use resistor spark plugs. |
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It is a good idea to cover the rotor in a thin layer of oil to reduce the risk of corrosion. |
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Never use a claw puller or a hammer to disengage the rotor. Its magnets might become loose in the event. We offer a special puller screw for disengaging the new rotor again (see assembly instruction)! |
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Should the motorcycle not be in use for some longer period, please disconnect the battery (so existing) to prevent current bleeding through the diodes of the regulator. Though, even a disconnected battery will empty itself after a while. |
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Please do observe these remarks, but at the same
time, don't be afraid of the installation process. Remember, that before you, thousands of
other customers have successfully installed the system. Enjoy driving your bike with its new electric heart! |
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