Live Q & A call for the Bedini SG Trilogy

We're looking at doing a live Q & A conference call Monday the 10th at 6pm Pacific time zone.

The phone number and conference room code will be sent out to the member's list for any of the individual books or packages relating to the Bedini SG Trilogy.

Bedini SG Live Call

This coming Monday the 10th at 6pm Pacific Time Zone, we're having a live Q & A call with Peter Lindemann and Aaron Murakami.

This is by invite only for those of you who have the Beginner's, Intermediate or Advanced Handbooks.

We'll be sending out the phone number and conference room ID on Sunday and Monday.

We'll be starting promptly and after the introduction and beginning announcements, we'll open up for questions.

Please review the books before the call - we only want to spend time answering questions about items that are not covered in the books.



This call could obviously go on for days but we will try to keep it to 1 to 1.5 hours at the most. We can also do other calls in the future.

Besides the books, here are some videos relating to the Bedini SG and even two on Battery Rejuvenation. After reviewing the books, these videos might answer a couple questions - in any case, they might get your own wheels spinning to stimulate some more questions!

Classic roller skate wheel SG https://www.youtube.com/watch?v=xiZ86Dqckm0

Sony Capstan motor SG https://www.youtube.com/watch?v=uFkjTeJ4fAg

Low tech mechanical switch https://www.youtube.com/watch?v=plv9bb-zhj8

Winding a SG coil https://www.youtube.com/watch?v=DUGh9v2AsuA

Building an SG kit (not currently available) https://www.youtube.com/watch?v=7SiwHRrNISE

SG pushing the battery good https://www.youtube.com/watch?v=pgRMnD7W278

Open gap for faster rpm https://www.youtube.com/watch?v=JM-PZiTUJZo

Battery rejuvenation https://www.youtube.com/watch?v=K4__eH9-MXk

More battery rejuvenation https://www.youtube.com/watch?v=XA7iA0iXuB4

Discussion on SG Trilogy https://www.youtube.com/watch?v=eDoz5vgkTOI


Enjoy and we'll be in touch with the phone number and conference call code.

Take care,
Aaron & Peter

Good Information

Hey Peter

Good to know the time line. I really did not know all of the story.

A girl smokes all of the hard heads who think they know, when really they are all babbling idiots. Good to hear your voice. A special thanks to Aaron for being such a good side kick

Mikey You guys are Kool. Keep it going.

SG

Aaron, this video has me hooked. I'd like to build what you're showing and add a latching relay circuit with a voltage comparator so the two batteries are swapped whenever the output battery reaches some level.

What do I need to get; how do I start?

Thanks much.

battery swapper

Hi, the specs for the machine itself are in the Beginner's book at Bedini SG - The Complete Handbook Series for the Bedini SG & Bedini SSG

For the battery swapper, you'd have to design it yourself - not sure if there are any diagrams of one online. There were some battery swapping circuit discussed in the past, but not sure if they were for the SG or not. Sorry I couldn't be more help - would like a battery swapper myself.

battery swapper

Hi, the specs for the machine itself are in the Beginner's book at Bedini SG - The Complete Handbook Series for the Bedini SG & Bedini SSG

For the battery swapper, you'd have to design it yourself - not sure if there are any diagrams of one online. There were some battery swapping circuit discussed in the past, but not sure if they were for the SG or not. Sorry I couldn't be more help - would like a battery swapper myself.

Swappers

Jeff Wilson Art work













While I demonstrated it on the 10 coiler at the show, this swapper can be used on almost any application. For example, I have a 48 volt Solar Panel that feeds the charging input of this device and the swapper maintains each battery while service my Grid Tie inverter.

The Battery Swapper and Charger is a compact, but very complex device to move batteries in and out of a load environment for the purpose of charging each battery individually. With its LCD read out , terminal monitoring, logging capabilities and complex programming, this device can be used as a “Auto” or “Manual” Charger by selecting functionality presented on the LCD or Terminal display. Each section presented in this manual will explain the operational features of this device.

The Components:

1. Housing
2. LCD
3. Reset Switch
4. Select Switch
5. Enter Switch
6. Auto / Manual Switch
7. Charging LED
8. Individual Battery LED’s
9. Terminal / Programming Input
10. Output Amp Meter

Connecting the Device: (See the load connection configurations at the end of this section).

1.Connect the Battery Cables to the Battery’s. *****CAUTION***** OBSERVE THE CORRECT POLAIRITY WHEN PLACING THE CABLES ON THE BATTERY’S.
2.Connect the AC Power Cable to the wall outlet.

Making a Selection:

When the Battery Cables have been placed Correctly on the battery and the AC wall adapter is plugged in, the LCD Panel will display “Select Auto or Manual Charge ” and “Press Enter”. At this point, using the “Auto / Manual” Charge switch” (6), place the switch in the desired mode, “Auto” or “Manual” then press the “Enter Switch” (5) to initiate the beginning of the mode selected.

The Auto Charge Mode:

With this mode selected, the device will initially test each battery to determine which battery has the least voltage. The battery with the lowest voltage in selected and placed onto the “charge rail”. The device then reads the voltage and displays that value on the LCD. After the device engages the charge relay it begins the charge cycle. The Battery’s voltage is consistently monitored at 15 sec. intervals. At the end of each charge cycle, the battery is allowed to “Rest”. At the end of the “Rest” period, the battery’s voltage is sampled. The complex programming of the device, determines if the battery is fully charged. If the battery is fully charged, the battery is placed back onto the load rail and the automatic selection of the next lowest battery is repeated. If the battery is still not fully charged, the charging cycle is repeated. This operation is continuous. If it is desired to terminate the Auto Charging process, pushing the RESET button (3) will terminate the process and return the device to the “Select Auto or Manual Charge ” and “Press Enter” screen.


The Manual Charge Mode:

If the “Auto / Manual Charge Switch” is place into the “Manual” position and the “Enter Switch” is pressed, the LCD will display “Batt 1” and by pressing and holding “Enter”, “Batt 1” charging would be started. Just as in the Auto Charge routine, the device engages the charge relay which begins the charge cycle. The Battery’s voltage is consistently monitored at 15 sec. intervals. At then end of each charge cycle, the battery is allowed to “Rest”. At the end of the “Rest” period, the battery’s voltage is sampled and the complex programming of the device, determines if the battery is fully charged. If the battery is fully charged, the battery is placed back onto the load rail. The program is then returned to the “Select Auto / Manual Charge” display. Should it be desired to select a different Battery, ensure the “Auto / Manual” Charge switch” (6) is in the “Manual” position, then press and hold the “Select Switch” without pressing the Enter Switch to scroll through the 4 different Battery Selection Options. “Batt 1”, “Batt 2”, “Batt 3”, and “Batt 4”. Continuing to press the “Selection Switch” at “Batt 4” will return to “Batt 1”. Once the appropriate Battery is selected for charging, pressing and holding the “Enter Switch” will begin the charging process as described earlier in the section.

Resetting the Battery Swapper:

At any time, the device can be reset using the “Reset Switch” (3). The device will cycle to the beginning of the program and prompt for “Auto” or “Manual” charging.


RS232 Mode:

Connecting a Serial Cable to the DB9 connector, and with a PC / Laptop running HyperTerminal, the information being displayed on the LCD can also be displayed to the terminal screen. Configure Hyper terminal for 9600, 8, N, 1 and make a connection. Start the MachineOfTime1 Battery Swapper as described earlier in this manual and observe the Terminal screen. Hyper terminal also has a logging feature that can be used to store information during the “Auto” or “Manual” charging process.

Thanks

Jeff

Daftman swapper

Big Swapper





12V 100A Battery Automatic Changeover Switch Battery Isolator Dual Battery Bank | eBay

Directory:Bedini SG:Replications:Monsieur Bonheur-SG - PESWiki

Bedini SG private call

Here's the private invitation only Q & A call we did:
Bedini SG Private Interview 2014-11-10 | A & P Electronic Media – Digital Publishing by Aaron Murakami & Peter Lindemann

Looping the Bedini SG...

Really enjoyed this video. Peter was fired up.


The talk about looping and trying to move batteries around with latching relays...

Forget about it. How about two machines--out of A to in of B; out of B to in of A.

Can you run this by Peter and see what he thinks?

If the output pulses are too strong to pass back into the next stage, how about buffering the input with a resistor and filter cap...?

A looper would not only stifle the critics with their agenda, but provide a means to start harnessing the energy while the system is active. A true power source driven by radiant energy.

two machines

That's already being done with two linear regulator circuits to convert the spikes into steady DC to feed to one machine and the 2nd machine has it's spikes converted to steady DC to the front of the 1st machine. That's required since it can't run on the spikes and simply putting the spikes to caps doesn't do the same thing.

Good insight!

I thought so too until I looked at the basic circuit without the dump caps--trouble is the common bus; it goes from positive input to negative output. If you connect a second SG to loop back, you just shorted everything out.

Mother Nature refuses to make this easy doesn't she.

isolation

It's easy to isolate them from each other.

For example, you can have a trifilar coil with a trigger, power and recovery winding. The recovery winding can charge a cap. You can put that cap right back to the front and reduce the input draw by 50% AND the front battery doesn't even see that cap! I posted a schematic that will do that before but only one person commented that they tried it. Keeping these things from seeing each other is not an issue.