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Assembly instructions for system 73 76 999 00

Version 21.01.2013

If you can install and time a stock ignition and possess basic mechanical skills, you can install a Powerdynamo!
If you never have worked on your ignition, better have it done by someone who knows.

Powerdynamo can not monitor the compliance to those instructions, nor the conditions and methods of installation, operation, usage and maintenance of the system. Improper installation may result in damage to property and possibly even bodily injury. Therefore we assume no responsibility for loss, damage or cost which result from, or are in any way related to, incorrect installation, improper operation, or incorrect use and maintenance. We reserve the right to make changes to the product, technical data or assembly and operating instructions without prior notice. 

 


IMPORTANT:

Please read these instructions fully and carefully before starting work on your motorcycle
Please bear in mind that any modification of the material as well as own repair attempts which have not been agreed with Powerdynamo may result in a loss of warranty. Do not cut off wires. This leads to a loss of reverse polarity protection and often results in damage to electronics. Also, please take note of the information provided on the information page for this system. Check that what you have bought really corresponds to the motorcycle you have. Wrong ignition settings may damage your engine and even hurt you during kickstart (violent kickbacks). Be careful during the first test runs. If needed change settings to safer values (less advance). During assembly check carefully that the rotor (flywheel) does not touch the stator coils or anything else, which may happen due to various circumstances and lead to severe damage.
Designated use
This system is designated to replace stock dynamo/alternator & ignition systems in vintage and classic motorcycles whose engine characteristics have not been modified aftermarket. This system is not a tuning system and it will not bring significant increases in engine output. It does however significantly enhance roadworthiness and comfort by offering better lighting, better function of side indicators and horn and, compared with the aging stock systems, increased reliability. As our system does not tamper with engine characteristics it does not increase emission of gaseous pollutants and noise. In most cases emission of pollutants should even be reduced due to better combustion. If used as designated the system therefore will not normally infringe the existing legal status of the motorcycle (this statement is valid for Germany, for other countries, please check locally against your road licensing regulations). This system is not suitable for use in competition events. If used other than the designated way, warranty will be voided and it might well be that you do not obtain the desired results or, worst you loose legal roadworthiness.

The charging system is only suitable for use with rechargable 12V (6V systems 6V) lead-acid batteries with  liquide electrolyte or sealed lead-acid batteries, AGM, Gel. It is not suitable for use with nickel-cadmium, nickel-metal-hydride, lithium-ion or any other types of recharchable or non rechargable batteries.

This is a replacement system and not a copy of the stock material. The parts in this system therefore look different and might fit differently (notably ignition coil and regulator) requiring some adaptation by you.

During assembly imperatively start with assy of engine based parts to see that those really fit before you start fitting the external parts. In many cases customers assemble those first and thereby often modify them in breach of warranty which renders them unfit for renewed sale. Replacing old ignition systems is not a matter of taking something from a supermarket shelf as there have been very many types, versions and possibly unknown aftermarket modifications which harbour plenty of room for error.
Our systems are NOT tested for use with third party electronic devices (such as GPS, mobile phones, LED lighting etc)and may cause damage to such parts. Possibly existing  electronic tachometers will not work with the new system. Read our information for suitable solutions. Possibly existing safety switches and electronic valve controls are not supported. It might be that your motorcycle was originally equipped with an ignition that did limit top speed for legal reasons. The new system does not have such a facility, so check your legal situation beforehand.
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, possibly even lead to bodily harm.
Before you order a system, please check whether a puller tool  for the new rotor is included in the kit. If not, better order it at the same time. You might want to order light bulbs, fuse, horn, flasher unit etc.
Never use anything other than  the recommended puller tool to pull the new rotor again. Damage to the rotor as a result of use of other  tools or methods is not covered by warranty.
The rotor is sensible to blows (including during transport). Before assembly, please always check for damage (on rotor without magnet plastification try to push the magnets aside with your fingers). After impact the glued in magnets might have broken loose, sticking to the rotor solely by magnetic force, so that one does not notice right away. During engine run the damage would be considerable. Before placing the rotor onto the engine, please make sure that its magnets have not collected any metal objects such as small screws, nuts and washers. That equally would lead to severe damage.

If you have access to the Internet, best view those instructions online. You get larger and better pictures by clicking onto them and possibly updated information. System list at http://www.powerdynamo.biz
You should have received those parts:
  • pre-assembled stator unit
  • rotor
  • electronic advance unit ("Black Box")
  • regulator/rectifier
  • twin ignition coil
  • relay with cables
  • rotor nut and spacer shims
  • puller for new rotor
  • 2 screws M6
  • cables and wire binder

To disengage your new rotor again, you should use only the supplied special puller M27x1,25 (part-no.: 99 99 799 34).

Note: Never use a claw puller, a hammer or any other device. This might shake the magnets off.


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 the battery and take it out of the motorcycle for the time of work.


Disconnect the cables from your old alternator. Unscrew the old stator and take it off the engine. Pull the rotor off, you will need a puller screw for this.

Disconnect the wires at the regulator and take the regulator off. Remove the wires running between alternator and regulator.

All those parts will not be needed anymore.



On XS before 1980 take the points and governor  off. They will not be used any more.

On later XS take all electronic ignition parts off, equally further on no longer used.

The new system will trigger ignition not at camshaft level, but from the crank.




Take the woodruff key from the crank. You will not need it anymore.

Please do not forget to do so, otherwise you will have trouble later on the assembly.

(Remark: This woodruff key does not actually hold your rotor on the shaft, this is done by the taper! More info here)




Check whether there is still a small dowel
at the circumference of the dynamo seat. This is part of the old dynamo arrangement preventing the customer from installing the original unit wrong side up.

If the dowel is still there, it has to be removed (it can be pulled with a pair of pliers).

If the pin is left untreated, the new plate will not be sitting level to engine and that will cause the new rotor to touch the coils, leading to total destruction of the material.



Place the new pre-assembled stator unit  onto the engine block.

Screw the new base carefully down with the 2 screws M6x25 provided. Do not use longer  screws or screws with higher head.

Make sure not to damage any wires underneath the plate. There is a way cut in for the wires, but space is still quite limited for the cable.




Push the rubber grommet with the cable in it into the opening .

Than carefully cut of the surplus rubber. Better use the stock rubber if still good.



Have a look at the base plate You will find at about 7 o´clock position a small red marking (encircled here). This is a timing mark.

Hint: on newer plates the marking is just a hole with 2mm diameter

      



Should you have taken the stator completely off for some reason or should you be unsure about the position of it and the ignition marking, here is some reference.

The X marks where the stator cable has to go through

You will notice the half hole (red arrow) - exactly 180 degrees from this is the ignition marking for TDC.

 




Have a look at the rotor /flywheel). On its circumference you will find a pressed in line.


Both markings should align with crankshaft in top dead center (TDC) position, that is the highest position the pistons can get.

Take the spark plugs out. Place the rotor loosely onto the crank shaft to use it as a turning handle.

Bring the crank shaft into TDC position.


To find top dead center position (TDC) you may look at the camshaft, points end (after removing the points plate for points based systems). You will see the small pin in the index hole. At TDC it is straight down (or straight up), depending on cylinder.

 




With the crank at TDC position of either of the 2 cylinders (no matter which), take the rotor carefully  off again without changing crank position.

Than reset the rotor again onto the shaft in such away that the marking on the rotor aligns with the marking on the base plate.

Fasten the rotor with the supplied 2 washers and the special nut.

Take care not to change crank position while fastening.

(Picture shows different engine!)


Should you want to modify timing after an initial test run, unfasten the rotor screw, pull the rotor and reset it - without changing the crank position - in the needed angle.

With placing the rotor differently onto the shaft, you do not change advance range, but you modify where that range is placed (you put different starting points).

  • turning the rotor on the crank a little clockwise will make the ignition shift to start at a later angle (nearer to DTC)
  • turning it anticlockwise will make it to start the advance cycle earlier.

You may change the advance range as such and the speed with which full advance is reached (at what revs that happens) by switching the advance unit.


Take a look at the little blue switches on at the upper front of the "Black Box" (advance unit). There are 4 little switches for choosing different spark advance curves. There is more than one option and you may choose a curve that corresponds to your requirements. You may switch even during engine run (but please not constantly as the switches are not made for too frequent change).
This setting makes the system to advance very much like the stock points system.
starting at 9° before TDC and advancing in a linear way to 38° at 3.000rpm.
We recommended to start with this setting.

This setup follows the same line as above, but maximal advance is not reached at already 3000 revs, but at 5000 revs only. Do not be deceived, in our experience not the best option.
Starts at 5°, advances to 40° at 3000. Keeps that till 8000 and than throttles the engine back so that you can not surpass 8000 revs.
Starting at 4° before TDC and advancing in a linear way to 34° at 2500  and than to 40° at 3500rpm, keepoing it

This setting starts with an advance of 24° already and advances rapidly to 36 at 3000 revs progressing than slowly to 39 at 5000 revs.


To disengage your new rotor again, you should use only the supplied special puller M27x1,25 (part-no.: 99 99 733 34).

Note: Never use a claw puller, a hammer or any other device. This might shake the magnets off.

You will have to lift first the steel washer out to get the puller in.

Wiring:
the systems brings its own wiring between its components (that is alternator, regulator, advance unit and twin ignition coil.)

Integration of the new system with the original one is done at the connection to the battery (or if you drive without the wires which did run to the battery) (see below).
(Enlarge pictures here - and elsewhere in the instructions online - by clicking onto them)

original wiring

new wiring

Mount the electronic regulator/rectifier, the advance unit, the ignition coil and the relay (so you fit that) at a convenient place, maybe with a little holding plate (not enclosed) at the frame underneath the tank. You could position the parts at practically any convenient place.


Connect the parts as shown in the respective wiring diagram!
For our standard DC regulator (95 22 699 06), use the wiring diagram 92ir12:
For our DC regulator with built in smooting condenser (73 00 799 50), use additional the wiring diagram reg_102:

*

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 advance unit 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.
 

Look for the advance unit 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:

  • white to white
  • red to red
 

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.

*

The brown wires from the new generator and the advance unit with the round eye terminals ...

... 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!
* The grey resp. green cable of the advance unit ... ... is the output of the to the ignition coil and gets connected to the single male terminal there.
*

Important! Avoid prolongation of the green wire between advance unit and ignition coil. This may lead to ignition trouble.
Never run the high tension cable and the cables from the generator to the advance and/or the grey wire from the advance to the ignition coil closely in parallel (say in one shielding). This will trigger back coupling that disturbes ignition and might even damage the advance unit.

* Connecting Powerdynamo alternator to lighting circuit (via regulator):
  The 2 black wires running from the stator coil carry the voltage for lights, horn, flashers etc. They have nothing to do with ignition.

This voltage (something between 10 and 50 volts AC) has however to be stabilized (regulated) and for most uses rectified into direct current (DC) as it primarily is alternating current (AC).

For this we offer 2 different regulators:

  Attention: Any confusion between plus and minus (with the DC versions) leads to immediate destruction of the regulator. This will not constitute a warranty case as it is negligence! One can recognize a burnt regulator mostly by its sharp smell.

*

Regulator type 1: with standard DC regulator (95 22 699 06), use the wiring diagram 92ir12:

*

The new regulator/rectifier has a compact plug with 6 positions, of which one is not used. 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):
  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.

  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).

 

The new red cable with the round eye terminal ...

Take care:
Wrong polarity will damage the electronics!

... 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).

  Make sure that you have a 8A-fuse between battery and vehicle circuitry.
 

The green/red wire at pin 6 of the new regulator ...

Remark:
Until November 2007 this wire has been a single wire outside the compact plug.

... is for the charge control light. You connect there the wire that formerly did run from the control light to the original regulator.

Sure that this control only functions with a battery present. Should you drive without battery but still connect the wire, you will see that the light glows even as the generator generates voltage. So without battery, do not connect it.

  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.
* Regulator type 2: with DC regulator with built in smooting condenser (73 00 799 50), use additional the wiring diagram reg_102:
 

 

  • the 2 black (sw) wires are the AC input from the alternator (as it is AC it does not matter which black to which black)
  • the red (rt) wire is the 12V DC output plus
  • the brown (br) wire is gound, internally connected to housing
*

Remains the blue/white wire at the advance unit. This is the kill (cut-off) wire.

Connected to ground - it will stop ignition!

Note:
Should you experience ignition failures, disconnect as a first measure this blue wire. In  many cases that will permit you to get mobile again (particulars see: technical help)!

Switch off via separate kill switch
(when driving without battery):
The relay will not be fitted. The blue/white cable of the advance unit will be connected to a kill switch, closing against ground (a button at the handlebars). Or you mount an ignition lock that has a facility to connect against ground when in OFF position.

Battery method:
Connect the brown relay wire to good ground. Lead the longer black wire from the relay to the wire that did run previously to a pin carrying voltage when the switch is on (in German bikes: pin 15) and connect it there. 
Connect the blue wire from pin 30 of the relay to the blue(/white) wire at the new advance unit.
Should your battery fail on the road, just disconnect that blue wire and your bike will run again (it will now only not stop by switching off).

 
Relay wiring
(if used):

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.

* Screw the high tension (ignition) cable ...

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 seal before mounting the coil (it will be easier).

Please do use the cable arriving with the pack and not any old cable.

  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).
*
 

 

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.

  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.

  We offer  as an alternative 2 single coils which are connected in parallel. With this arrangement you may do testing of just one cylinder by disconnecting the non-used coil.

*

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.

* 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.

 

Important safety and operating information

#

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.
The timing marks on the material are for general guidance only during first installation. Please check after assembly by suitable means (stroboscope) that settings are correct to prevent damage to the engine or possibly even your health. You alone are responsible for the installation and the correctness of settings.

#

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.
Never pull sparkplug caps when engine is running. Wash your vehicle only with engine at standstill and ignition off.

#

Should you have received in the kit HT cables with a fixed rubber boot(which does not contain a resistor) you might have to use spark plugs with an inbuilt resistor (or replace the cap with one containing a resistor) to comply with your local laws.

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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 apply changes to it.
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 carburetor, 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 carburetor will have to be re-adjusted to lower settings. Should the system not start after assembly, first disconnect the blue (or blue/white) 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, make sure there is a good electrical connection between frame and engine block.
In case of troubles, please consult our Knowledge Base first before you send off the material to us for checking

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The spark of classic, points based ignition systems has with about 10,000 Volts comparatively little energy and looks therefore yellow and fat (which however makes it highly visible). The spark from our system is a high energy spark with up to 40,000 Volts and therefore is needle thin focused in form, and blue in colour, which makes it not so visible. Furthermore you get spark only at kick-start operated speeds and not by pushing the kick-lever down slowly with your hand (as you might get with battery based ignitions).

#

Systems using a twin outlet ignition coils have a few peculiarities. 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. Also with such open exits long and dangerous sparks may fly all over the coil.

#

Never do electric arc welding on the bike without completely disconnecting all parts containing semiconductors (ignition coil, regulator, advance) stator and rotor need not be taken off. The same is true for soldering. Before touching electronics disconnect the soldering iron from mains! Never use copper putty on spark plugs.

#

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 jumps between wires are expressly mentioned in our instructions.

#

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" which promise to increase spark.

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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.

#

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 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!