Monday, September 30, 2013

Diode rectifiers, capacitors, and fall break........

I'm not getting any sleep this week for sure.
Purring like a kitten on an updated diode rectifier and a battery-less capacitor system.
Almost ready for Thursday?

Updated diode rectifier.
Here is a nice article about how to use these.
I have used these in at least 3 other bikes (350 twins) with great results.
The two wires (pink, yellow, or white depending on the model) can be combined and run to either side of the rectifier.  
The brown wire to the other side.  
If you can't figure out what to do with the (+) and (-) you probably shouldn't be touching your wiring....

The black pvc tubeing is the 15,000 uF capacitor that replaces the battery.
Works on bikes up to 350cc, twin and singles with a fixed magnetic alternator.
Side view.
The rectifier has the black/blue/red/white wires coming out.
Exhaust leak or crud burning off?
I can't wait to tear this down and start making it pretty.
Almost time to get into the top end of the to-be race engine.

Below is a quick but well written explanation of the rectifier.

Replace That Bad Diode
A common problem in any restoration is fixing and replacing inoperative or missing electrical components. If the exact part cannot be located then the restorer is forced to improvise. Most amateur mechanics do not have too much trouble figuring out switches and lamps but usually are stopped cold when they encounter a diode rectifier lurking under the seat. In this article I will tell you what a rectifier is and how a simple replacement from Radio Shack can be used to not only replace a bad unit but to actually improve it.
From the mid-fifties on, most of the british bikes abandoned the old generator in favor of an alternator. In the typical alternator arrangement a permanent magnet on the end of the crankshaft rotates inside a fixed set of stator coils. The movement of the magnets causes an alternating voltage to be induced in the stator coils. While the alternating current supplies a lot of energy, it can not charge a battery which needs direct current. A generator with its complicated set of brushes and commutator puts out direct current but the brushes wear and have to constantly be replaced. This complexity of course equates with unreliability. The alternator with only one
moving part, the magnet, is the epitome of simplicity and hence relibility.
The alternator became practical in the fifties with the advent of the solid-state rectifier, often called a diode. Think of a diode as a one- way valve for electricity. Electrons will pass one way (the direction indicted by the arrows in the figure) but not the other. The two leads from the stator coils go to a bridge rectifier which actually contains 4 diodes. During one phase of the cycle the diodes pass current from the positively charged stator lead to the positive pole of the bridge. When the
current reverses the diodes direct the current from the other lead to the bridge's positive pole. Thus, the alternating current is rectified to a direct current by the diodes. Most Japanese systems used two sets of stator coils. With the lights off one set of coils whose output closely matched the ignition current were connected to the diode. Turning on the light connected a second set of stator coils which would supply additional current for the headlights. In the Lucas system shown in the figure, the stator put out enough current to run the lights all the time and soaked up the additional current with a zenner diode when the lights were off. Note that the Lucas system used a positive ground.
Assuming that the wires are intact, failure to charge the battery will invariably be either a bad stator coil or a blown diode. The stator coil can be tested by connecting the two stator wires to an
old automotive head light bulb and starting the engine. Only run the engine at idle speed so you do not blow out the bulb. If the bulb lights then the stator is OK and the problem is probably in the diode. Old diodes also suffer from high back current. On many bikes the positive pole of the bridge rectifier is connected directly to the battery all of the time. A leaky diode will insidiously draw current from the battery and after a week or so without riding the leaky diode will discharge the battery.
Lets assume that you have determined that your patient needs a new rectifier. You will probably be shocked at the price as NOS venders typically charge between $20 and $40 for one and that is assuming you can even find one. Not to worry! Diodes are rated in only two critical parameters the maximum current and the peak backwards voltage. A typical motorcycle alternator puts out about 8-10 amps. Radio Shack offers a full wave bridge rectifier* (part number 276-1185) that is rated at 25 amps and it will withstand up to 50 volts, much more than any bike will put out. The price? A paltry $2.60 at the time of this writing. Furthermore, the RS diode is state of the art and will be far more efficient and reliable the original item. The RS diode has 4 spade lugs on it so it will plug right into your triumph or BSA. On a Honda Dream I simply replaced the screw lugs on the wires with female spade ends.
The diode that was on the bike probably had only 3 connections but the RS diode has 4. Where does the extra wire go? The bike's original unit had a 4th connection but you didn't notice it because it was on the mounting lug, the ground. As you look at the diode, 2 of the wires are marked AC. Connect one of the 2 stator wires to each of the AC posts. That will leave a "plus" and a "minus" lug. If the bike is a positive ground like a triumph, connect the "minus" lug to the battery wire (it originally went to the center lug of the Lucas diode). Make a jumper lead and connect the "plus" lug to the motorcycle frame for a ground. If the bike is negative ground like a Honda Dream, Hawk, CB 160 or 90), then reverse the process. Put the positive battery wire on the "plus" lug and ground the "minus" lead. William Silver sent me the diagram below that
covers most older Hondas and other Japanese bikes will be similar.
The diode gets warm when it is operating so it needs to be mounted to something that will dissipate the heat. If you just wrap the thing with tape and stuff it under the seat you may generate some smoke. The RS diode has a hole through it and usually it can be mounted right where the original diode was. The unit is electrically isolated so don't worry about the metal backing touching the frame. Unfortunately, the mounting hole is only about 3/16" so a 1/4" or a
6 mm screw will not go through it. Use a smaller screw and do not try to drill the hole in the diode bigger.
* Radio Shack has recently reduced the number of components that it sells in many of its stores. If you have trouble finding it you can order it on line from click on components/semiconductors/diodes.
12.7V is the terminal voltage of a fully charged 12V battery, but if that's what you see when it's supposed to be charging it's no wonder the battery goes dead. You can't recharge a battery with 12.7 volts unless you can wait about a hundred years and you don't put any load on it in the meantime. :)
If you see 50VAC out of the alternator but always see 12.7V at the battery terminals, you have an open circuit between them. Charging voltage should be at least about 14V; the actual voltage will vary depending on RPM because the CB160 doesn't have a voltage regulator, but it will be substantially above the nominal battery voltage (which is indeed about 12.7V, not 12.0V).
The brown and yellow wires from the alternator should go to the AC inputs of the rectifier assembly (doesn't matter which wire goes to which input). Those inputs should be marked with some sort of sine wave symbol. If the connections are incorrect, the rectifier assembly will not work because it consists
internally of four diodes connected as a full-wave bridge.
Charging System
The charging system consists of the alternator (rotor/stator), rectifier, voltage regulator and the battery. Problems with the charging system of these older bikes is rare in bikes of 350cc and less, moderate in bikes from 500-650cc and very common in bikes of 750cc and over. It will require a manual to do a good job in this area and if you don't have one anyway, get one(Clymer is good). Here is a breakdown of what the parts do:
alternator: produces an alternating current by passing a moving magnetic field (rotor) through a nonmoving or static (stator) winding of wire. Gasoline is thus converted from a chemical energy to a mechanical energy (within the engine) to an electric energy (within the alternator). This energy is then sent to the rectifier.
rectifier: converts alternating current (AC) to direct current (DC). Early rectifiers simply took half of the energy (single wave), and sent it to the battery. Since alternating current travels in both directions, the early rectifiers simply grabbed the energy going in one direction and set it on. Later rectifiers use a diode group to grab both directions (full wave) of current and combine them into one direction and sent this on. Later rectifiers were much more efficient but more prone to failure.
voltage regulator: governs the amount of current coming from the alternator and limits it to about 14-15 volt. This is usually combined with the rectifier to make one piece of hardware. If too much current is generated, the regulator sends it to the ground or frame.
battery: stores energy and is the main place to dispense energy as needed, to plugs and lights.
A sign of a bad charging system is when the headlight blinks or strobes at idle or when there is a marked increase in headlight intensity when you gun the motor. All bikes show some increase in headlight intensity with higher RPMs but if it goes from dim to bright, it is probably the charging system.
I will tell you in advance that finding why your battery does not charge is a hard thing to do! This is the procedure I follow to try and solve this problem.
1. Make sure the battery is good! Use a volt/ohm meter to see if it is providing near 12 volts. If it reads 10 volts or less, replace it. If it can hardly crank over the engine, replace it. Motorcycle batteries are not real good providers. They can go bad even if you take real good care of them. The small thin lead plates within are not as vigorous as a car battery ones and can be damaged easily.
2. Using your manual, read on how to connect your volt/ohm meter up to your bikes alternator. First check if there is an electrical leak in the wiring of your stator. The insulation of the miles of coiled copper wire can deteriorate and cause the wire to short and thus not provide the extended length of wire needed to pick up the energy from the magnetic field. If a short is detected, it must be replaced ($ ouch).
3. Start the bike and using your volt/ohm meter test the output of the alternator. It must be within the specs of your manual. In the 750cc, the alternator portion of the engine is low and sticks out, just waiting to be smacked when the bike goes down. If your bike has been dumped or impact has occurred to this portion of the engine, you may lose your charging power. The rotor is a magnet and can lose power with an impact.
4. Using your manual, read on how to connect your volt/ohm meter to the rectifier. With the bike running, check its voltage output. It should be within specs (14-15 volts). Now here is a problem, the rectifier converts AC into DC and this conversion requires that some of the electrical energy be converted into heat energy. You can locate the rectifier because it has heat dissipating fins located near it. Unfortunately this heat can cause a failure in the unit which can not be detected except under load (blasting down the road) conditions. So..... the rectifier may read good at idle or high RPMs in the garage but it fails on the road! Many shops will swap rectifiers if they are suspect and test ride to see the result. For us home mechanics this is not possible!
5. I have found that the voltage regulator is rarely at fault. But you can still test it by following the method outlined in the manual. The test consists of using two batteries in series and a variable resistor. In effect you try to put over 14 volts across it and see if it stops this too high voltage.
In my experiences with bad charging systems it is the rectifier. The exception is the 750 cc engines where the rotor can easily be bad.

Saturday, September 28, 2013

America's Heartland

There are some great roads south of the iceberg.
Dippin' and divin' all day strong.
Scrapin' pegs and dodgin' hawks.
Walkin' the line and slippin' through the tracks.
Epic day with BCH.
Thanks for the adventures.

100 year old iron. 
 How did I take this picture......
Hutch pic.
Walk the plank.
 If only I could fly.

200 miles of mostly winding, hilly, bumpy, and or gravel hell.
Getting lost in the day.
I can't think of a better way today could have been spent.

Friday, September 27, 2013

Cleaning house

On and off the lift in the same night.

Never heard of it.


 Moyou knew I had a hard week so she got these for me.
 From rusty.....
 to race chrome.
 Finally time for a tune.
Tappets (were) super loose.
Timing (was) way off.

Thursday, September 26, 2013

Night Ride

Skateboarding always comes first.
Sometimes riding does too.
Who has time to wrench on fall days like this.

Monday, September 23, 2013

Maiden Voyage

The not so triumphant maiden voyage.

Soft mounted the tank.
No gas leak!
Configure the exhaust.
Grizzle and Moyou approved.
 The starter motor linkage got xed.
 Tomorrow we start tuning.
An maybe hook up the alternator.
Or not.

Sunday, September 22, 2013

Seat dance Sunday

No maiden voyage today.

Time to make a cush-cush.
 Definitely not Moyou approved.

Seat is getting closer

Getting closer.
 Not Moyou approved yet.
 Sand and fill sand and fill sand and fill sand and fill....

Saturday, September 21, 2013

Tinkering and Riding

Ordered the shocks and got legal at the BMV.

Buttoning stuff up to get it road ready.
Maiden voyage tomorrow?
 Finish the seat pan tomorrow hopefully.
 The chicken whisperer.
Road some country gravel with BCH.
These two look like brothers.
Holiday farms.

Friday, September 20, 2013

A step ahead of myself.

Cleaned old parts, fitted new ones. 
An hour of zen after a 12 hour work day.

 NOS shiny and rusty buddy.
Rubber meets road on Sunday?
1 Chain.

Ariel brand respirator.