Series 1 Version 4, 2 Winding Digital SG CIRCUIT ASSEMBLY
Series 1 Version 5, 2 Winding Digital SG CIRCUIT ASSEMBLY
A Mechanical Three Winding SG Circuit Calculation Tutorial (1 of 6)
What Series 1, Version 3 of that which Bedini Basically Knew
It is of particular Note that neither the components' chart or the Mechanical schematic above include an R7 between 555B's Pin 3 and the Transistor's Base (or Pin 1). The builder must here recognize that the Transistor Bedini uses for Switch #1 cannot handle more than 7 Volts at the Base. So R7 accommodates the maximum Voltage the Transistor's Base will accept if the Voltage to 555B is greater than 7 Volts The Mechanical version does not generate more than 7 Volts and, therefore, does mot require an R7.
Assembling Sequence for A Mechanical Three Winding SG Circuit (1 of 6)
junction
{01} is located at the Drive Coil's North Pole
#23 Wire.
Connect junction
{01}, the Drive
Coil's North Pole #23 Wire, to the
neutral side of S3 (ON/OFF Switch).
Then, also connect another
insulated #26 Wire to the same neutral side of S3 (ON/OFF Switch),
and connect this Wire to 555A's
pin #8
and also connect this Wire
to 555A's pin
#4.
Then, also connect one lead of R1A
(the first 150 K Timing Resistor) to
555A's pin
#4,
and, after a break, connect the other end of R1A
(the first 150 K Timing Resistor) to
555A's pin
#7.
Then, also connect R2A (the
second 150 K Timing Resistor) to 555A's
pin #7,
and, after a break, connect the other end of R2A
(the second 150 K Timing Resistor) to
555A's pin
#2.
Then, also connect C1A (the
1 uf Timing Capacitor) to 555A's pin
#2,
and, after a break, connect the other end of C1A
(the 1 uf Timing Capacitor) to 555A's
pin #1,
and, then, also connect
another insulated #26 Wire to 555A's pin
#1,
and connect this Wire to Ground.
Then, after a break,
connect another insulated #26 Wire to 555A's
pin #3,
and connect this Wire to
R8 (the 330 Resistor),
and, after a break, connect another
insulated #26 Wire to the other side of R8 (the 330 Resistor),
and
connect this Wire to H11D1 pin #1,
and, after a break, connect
another insulated #26 Wire to H11D1 pin #2,
and connect this
Wire to Ground.
junction {02} is located at the Drive
Coil's South Pole #23 Wire.
Connect
junction {02}, the Drive
Coil's South Pole #23 Wire, to Q1's pin
#2 (2N3584-1 the Emitter of Switch #1),
and, after a break,
connect another insulated #23 Wire to Q1's pin #3 (2N3584-1 the
Collector of Switch #1),
and connect this Wire to Ground.
junction {03} is located at the Collector
Coil's North Pole #23 Wire.
Connect
junction {03}, the Collector
Coil's North Pole #23 Wire, to D2's (the
1N4007 4 Diode Bridge) input
and, after a break, connect
another insulated #23 Wire to D2's (the 1N4007 4 Diode Bridge)
positive '+' output,
and also connect this Wire to the positive
'+' lead of C3 (the 300V Capacitor),
and, after a break,
connect another insulated #23 Wire to the negative '-' lead of C3
(the 300V Capacitor),
and connect this Wire to the negative '-'
lead of D3 (the 800V SCR),
and, after a break, connect another
insulated #23 Wire to the positive '+' lead of D3 (the 800V SCR),
and connect this Wire to Q2's pin #2 (2N3584-2 the Emitter of
Switch 2),
and also connect this Wire to H11D1 pin #4,
and,
after a break, connect another insulated #23 Wire to H11D1 pin #5,
and connect this Wire to Q2's pin #1 (2N3584-2 the Base of
Switch 2).
junction {04} is located at the
Collector Coil's South Pole #23 Wire.
Connect junction {04}, the
Collector Coil's South Pole #23 Wire,
to D2's (the 1N4007 4 Diode Bridge) input,
and, after a break,
connect another insulated #23 Wire to D2's (the 1N4007 4 Diode
Bridge) negative '-' output,
and connect this Wire to Q2's pin
#3 (2N3584-2 the Collector of Switch 2).
junction
{05} is located at the Trigger Coil's North
Pole #26 Wire.
Connect junction
{05}, the Trigger
Coil's North Pole #26 Wire, to LP1,
and, after a break, connect another insulated #26 Wire to the
other end of LP1,
and connect this Wire to R5 (the 1000 Ohm
Pot),
and, after a break, connect another insulated #26 Wire to
the other end of R5 (the 1000 Ohm Pot),
and connect this Wire
to R6 (the 10 Ohm Resistor),
and, after a break, connect
another insulated #26 Wire to the other end of R6 (the 10 Ohm
Resistor),
and connect this Wire to to Q1's pin #1 (2N3584-2 the
Base of Switch #1),
and also connect this Wire to D1's (the
1N4001 Diode) negative '-' lead,
and, after a break, connect
another insulated #26 Wire to D1's (the 1N4001 Diode) positive '+'
lead,
and connect this Wire to Ground.
junction
{06} is located at the Trigger Coil's South
Pole #26 Wire.
Connect junction
{06}, the Trigger
Coil's South Pole #26 Wire, to Ground.
Either any of my Transient Phase Simulations or the CircuitMaker Program are using Excel
(or Spreadsheet type techniques) for their intense calculations.
It is, therefore, advisable and wise to know Three things:
Any of these resources files can be corrupted if your
computer's resources are over-taxed.
and a requirement to use any of the Transient Phase Simulations is to have Excel or an equivalent.
Preserve Original File, and Work only from a backup to avoid File corruption when using these resources, and be vigilant protecting your work.