Loading documents preview...
HOW TO BUILD A ZPE RESEARCH LAB AT YOUR HOME Electronics and tools you are going to need .........................................................................................................................1 Tools for the ‘industrial automation’, pulse tests, Easer, pulse motors, etc ..........................................................................2 Building the inverter .............................................................................................................................................................2 Things to ‘scavenge’ or buy..................................................................................................................................................5 Projects .................................................................................................................................................................................5 Project: ‘Bedini’ pulse-motor ...........................................................................................................................................5 Project: Rotoverter (RV) principle, Rotoconversion, RV effect.......................................................................................5 Project: Radiant Energy (RE) proof in RLC.....................................................................................................................8 Project: EASER (charge pump) ......................................................................................................................................10 Project: MEG, MEMA, easyMEG (Easer principle) ......................................................................................................12 Project: RV, resonance, OU and LOOPING...................................................................................................................13 Project: Transverter (Trafo Converter) ...........................................................................................................................15 Project: COLD fusion, sonofusion..................................................................................................................................16 Project: Ecklin-Brown generator ....................................................................................................................................16 Theory (consolidated knowledge, invaluable) ....................................................................................................................18 Links ...................................................................................................................................................................................23 Tools for research ...........................................................................................................................................................23 ZPE links ........................................................................................................................................................................23 Theory.............................................................................................................................................................................23 Some Rotoverter guidelines................................................................................................................................................24 ! % " %
# !
$
#
#
& "
! -
$# $&
# !
1 $
%2
"
'( )!
#"
$
* +,+
"*
0
"
(
"*12-
!
# .
/
#
"
"
#
"
#
$
!
$ +
"
#
12 $
%
3
" # " "
#
& . + " . # 6 "# !
" 78+ # *+ -
#
+
#"
"
"
!
*! - 4 " ) $ "
" % $ " # *+(< -
4
#
*+ - +
?
9 "
#
$
9 :
= $ 7
$
$ #> "#
"
: % #
! "
4
% " ;
5 #
"
#
" " #
"
"
@
Electronics and tools you are going to need •
/
* 8 $
-
* /
# "
2 "
A # #
B
5- C
"
9 8
1
•
/
* - 5
D
%
E.. ( 8
#
#
•
# # "
•
5 6
•
•
7
•
4
•
(8/
# #
2
& -
*
# # :
!
*
/!F " % %
@
"#
&) E
&) #
&) E
&) $ &) E $ &) G
#C
<
%
8 A7< A8
#
"
H/!.
#
%
:*
%< $
"#
A
-
* " .
#
$
#
(#
#
-
Tools for the ‘industrial automation’, pulse tests, Easer, pulse motors, etc *((8 *+ 6
#
$"
$
6
#
#
/
$ ; #
!
: "
%
/
9 9 @ •
(
EEE
9 : *<
$- I
.
8JJ
• " * " *(8 B: 2
"
" " " %
B '8 %$ (8/
# @
!
•
"
$ $
G
(( #
4
'8
#
6
"*
5-
5
:
Building the inverter
2
# 2
#
<1754!7
<1754!7
*
"
6
(( #
#
6
"# #"
-
" #
Figure 1 Inverter circuit. Source: http://www.theverylastpageoftheinternet.com/forsale/plans/inverter/inverter.htm R17, R19 22 ohm R16, R18 1.8k R20,R21 100 ohm 1W Q1,Q2 IRF3205 C15,C16 2.2uF 63V metallic polyester film C17 (30uF oil) – omit from circuit! C18 30000uF, D16 (5amp diode) D8..D11 zeners 12V D12,D13 1N4007; D14,D15 1N4007 (double) It is recommended to use separate or external power supply for driving power FETs, to ensure the gates get enough voltage, the transition speeds are faster and they will not get hot. 2 E "
F "
: #
KB
" #
KB
# *
*
: C6
1
#
* " E(&
-
3
hef 4093b 22
1in
3
R1
IRF640
U1 22 1K R4
R3
12.7 V1
1
1
100u C1
IRF640 D1 BY 228
Q1
IRF640
hef 4093b 22
2in
3
4
R2 22 1K R6
Q2 12:120VAC
IRF640 4
D3 BY 228
Q3
U2 R5
D2 BY 228
2
D4 BY 228
Q4
2
Figure 2 Simple way to build the inverter for resonance tests. It uses bypass diodes to positively bias the collapsing EMF back to the capacitor/battery. To tune use variable pulse lengths. 4093 chip ensures that vertically FETs do not short circuit. !
" +,+
$
#
12
+12.7V
Q2N3055 Q1
D1
L1 5.6m D3
4700uF
L2 5.6m
C1
C2 Q2N3055 Q2
D4
L5 560m
-
+
C3
D2
470 R1
L3 1m
47 L4 1m
R2
Figure 3 Hector's positive bias inverter A !
"
% "
A;
*
"B B
"
/' EL0(0
"B
$
-
0E
4
#
"
$ # 4<5 $#
#
"!
#
- !
" "
*$ "
#
" " 4 74+ 9 74%
: # 12
" # " "
7
$
+ ' 0! . .
:
!
A •
"
•
;
" " "
"
#
#
#
9 8 #
•
9 8 M+9 8
•
7
" "
4
•
#
# 6 ""
#
7
"
%
+
#
" 12
# #
#*
#
"
" # *4
# #
# #
"
# #
A
. "
" "!
#
; # 1 %78+
2 6
#
# A5 "
!
"
-
#
# ";
#
#
.
#
"#
" 7
#
A
#
9 8 9 8
"
:
6
"
Things to ‘scavenge’ or buy !
E(&
# *
*07! "
<
$ J#
#
6 *
"
# #
# -
*(<-
&
#
#
Projects 8
3 "
$
Project: ‘Bedini’ pulse-motor N 7
C
# "
O
Project: Rotoverter (RV) principle, Rotoconversion, RV effect "
+
6
#
#
+
+ +
#
#
;
# !
#
=
>#
"
# :
)
" J
#
5
A
6 1
) "
# "C
*
&(
"
-
$
! )
" A;
%
6
8
#
8
# #
*
-
+
# *
)
)- F
P
#*
# #
#
F
#
& "
$
$
# #
<# #
# #
-
" * D
#
6
# #
" *
: "
(< + -
!
LQ
" "
/
" # E(&
%# # -
* !
"
"
#
Q
" ? #
#
" '
" 0
#
"
#
"
#" #
+ #
*
#
Figure 4 Prime mover, starting manually or using a current relay, source: ARK :
C+
+
A
6
Figure 5 RV setup, source: ARK L .
9 8 -
L
F
$ 9 8 ;
"
E
*
B F ! # #
+4 # # *
+4
# #
#
#
9 8 #
( %)
"
$ #
"
0
#
12 $#
# "/
0
+
" #E
"
%
'8 4<5 "
" ?
"
*
# (< 4 74+
# '
$ - 1 " * +9 8 - ! + # & @ # $ 1
+
# # " # "
: 9 8 !
# #"*
:
#
#
" #
! L
* "
#
! #
# #
- 8 " Q
$ $
<
7
Figure 6 Pulse driving circuit, suitable for driving motors with permanent magnet rotors
Project: Radiant Energy (RE) proof in RLC 6 "
&
A =0 C +9 8@>
"
-
R(4
#
:
#
$*8-
# # +9 8 *
A
*+#" +"
# "
# "
"
*
#
:
% #
% A+
4 # #
A " # ":
*
-
-
$
*
#"*+4+ 0
5 9 8
" #
*07!6
#
#
"
" 8 "
;
"
" )# 8
* *
:
+
6 )#
#
-
&
"A
+ +4
" $ 4 H "
# #
#
# # * * -
# *
#
+ !
)
Q # #
9 8
#
# #
2
# /"
9 $
9 8 #"
4
" # - < #
# .
!
"
-
#
-
#
*9 -
+ !
#
#
*+
# #
%
4
. # C
#
:- 7
*
%
#
#
+ "
#
#
8
"
+
C
*+9 8D &) 8
; #
+ #
.
"
"
&) "
#
#
"
1" .
"
; . $ #
Figure 7 RV Experiment, 1kW lightbulb is lit at near its nominal luminic value. Gain 2.74:1, source: ARK ! 8 +
+
4
7 #
#"
! $ #
$# #
spark cap
!
Neon Sign Transf ormer AC 1 V1
4.7n C1
Tesla coil primary
Tesla coil secondary
Figure 8 The Tesla Coil, notice the spark cap position
9
Project: EASER (charge pump) A 78+
*
-
Car Bulb 50W 12V
S1
8
10m
D3
L3
mur105
A!
3
-
#
# *
%
)# "
#
&
" 6 *
, 4
47 R2
"
" 8
! #
)
#
" #
!
# # #
* "
#
9 8 (
. ) * # sense + 5.6k R6
" #
#
#
!
:
%
-
8
#
8
# S S
12
D3 d1n4007
d1n4007
R4
VR1 10k 50%
R7
1
5.6k
270 D4 Z5V1
D2 330 R2
4N25 opto D1 SCR 600V 200A
MJE13005 Q1
green LED BF256A D9
33k R3
Q4
sense -
2
13.5u C2
# * " "# # 3 #
*# ""
%
A $ % - ! A "
L2 25m
L1 1m
4
&!+&
78+ #
S2
D1
!
:
% 4:
50u C1
&
6
# #
"
d1n4007
% 8
8 #
8 * #
3
SCR
BD139 Q2 BU2520AF 1k5V Q1
D2 1N4007
#
#
270 R3
1
63 V1
#
#
#
560 R1
100n C1 2
Figure 9 Opto-SCR module circuit. It is made to meet the HV requirements, component values must be tested in vitro! 1 $# #
. 9 4'
$# #
A 1
= ## # #
> 78+
##
#
;
3
#
# # "
!
#
78+
10
" # 78+ !
) "
*
" - 8
.
#
# " /5 D 3
"
* # #
-
#
# TX1 D5 mur105
D2 mur105 2
1
40u IC=0 C1
40u IC=0 C3
R
18 R4
Sine(0 300 50 0 0) V1
Figure 10 Diode Plug circuit. Idea here is to discharge C-s during other is charging (non-reflecting to source) ' *
# # # "*
"
# + - '
-
9 8 78+-
<4H <4< S1
/4' 0
#" # # # # "
" "*1 %78+ # 4 8
!
# *'
# J1
D3
D1 VOUT
VOUT
d1n4007
d1n4007 L1 1m
L6 10m 12.7 V1
10u C4
L7 250m
12.7 V3
D4 f ast diode in
in 12.7 V2
D9 f ast diode
100m
D8
L4
mur105
%
$ @
VOUT
L2 25m 10u C3
IRF3205 22 R1 D5 15V D6 15V
1K R2
D10 f ast diode
Q3
S2 VOUT
270 R4 BD139 Q5 BU2520AF 1k5V Q4 D7 f ast diode
47 LOAD 50u C2
Figure 11 Various L-pumps (Easers), all are based on the collapsing EMF principle
11
"
9 1'
" # #
# !
# /"
#
# #
A
mur105
mur105
L2 L1 470m 18m
C2 S2P
D2
S4
D4
S2
180u
20u C4
S2
10 R1
D1
C1
mur105
180u
mur105
L4 470m
S1
S3
D3
L3 18m
20u C3
S1P S2P
10
S2
S1
R2
S1
S1P TX1
AC in 1
AC in 2
Figure 12 Transverter "Yin/Yang" circuit, using 4x optical discharge switches that will turn on at blank interval '
#
"
#
0
#
# # 84<5
"
A
$" "
* :@+
+
0
A 78+.
78+
#
Project: MEG, MEMA, EasyMEG (Easer principle) A E(& A :
#
" %
4
*
#-
"
$
#"#
#
4 A;
"
6
" #
$
"
# " 4
/
$
# #
"
;
12
<4< C # 4 %< #
;
<4H < #
<4< " # '8
& A;
'8
E
9 8
#
"#
# !
#
4 "<4H
#
#
C $"
"
#
#
Figure 13 EasyMEG, source: www.overunity.com
Project: RV, resonance, OU and LOOPING A+
*
+
- E: 6
F
$
A
13
Figure 14 Looped Rotoverter, source: ARK, http://www.theverylastpageoftheinternet.com/ElectromagneticDev/arkresearch/rotoverter.htm " " "L Q- ! 8E D 27
* E(& E
D
+1!1 4+!4+ * # F;4 E 8 $ E 6 #
9 9 9 E " #
/8
#
" # # #
#
# "
! 7" 6 # #
# " #
"
#
%
# #
7 7" 9 8+
# -
B &( 9 9 9 E + #
E
: #
" 4 #" #" " #
%
": #"
" #
# # %12
# $ !
" "
" 9 1' # 6 #"
"
"
"
$ R(4
#""
# *
#
%
% #"
#
# "
F 8
$
A2 '8
12
'8 % 8 " % D 8
# "E(&
#
"
6
14
# S
: #
#
#
/
" 6
T
# T
#
: #
8
# =4
+
#
#"
E(&
" %
>
-
$
7 #
#
*
"
# " " #
#
9 8
#
R(4
,
:
$
" "
$
# -
6
"
%
# # A
#
# "T # # -
# 12
#"
*
#@A '
9 8 "
"
A #
*+
:%
" EEEE 7" # T T
- ! #
#
# -
'8
% : # # T
#
F
%
*
#
*
EB *EB Q-
A
"
:
#
D "
8
"
#
*
-
+5 "
# ,F
:
Project: Transverter (Trafo Converter)
Figure 15 Transverter circuit idea, source: ARK A# A0 !
" "
"
8 8
8* #
" :
"
)
3 $ 9 8
+ *
15
#- 1 # #
#
78+
# #
Project: COLD fusion, sonofusion +
7101527 10
2
2
% 3 -
" *0 1& "
U #
#
#
#
: #
0
:
@;
" : #
57& $ , $ :" # " # J % # * # 6 # 98 ! 0, $ " $ $ # &" # E $ * " H&) - F # D (7 #S "9 747 3 " $ $ $M # 0 " #" % ## #
#
! B F *
" .
%
6 #
$ 2 #
!
+
+ % # "
#
, $
"
7 " :
#
Project: Ecklin-Brown generator 4 $ %/ # ! -" * +(<
12 ! # "
* %
# #
# : -
-
# 12
" '8 #
#+ #
# #
*
'8 #
+(<
'8
16
Figure 16 Ecklin-Brown generator realizations with magnets (left) and with DC input (right), source: http://www.overunity-theory.de/ecklin/ecklin1.htm
Figure 17 Ecklin Brown generator’s working principle, source: http://www.overunity-theory.de/ecklin/ecklin1.htm ! # 0
$ F
# " LV
#
# !
#
# #
# 4<5 # " #
" " ! $#
*
!
# #
# # #
!
#
W
=
#
17
Theory (consolidated knowledge, invaluable) &+- ! 1
& +
&.&/ -
&-%& 0
"*12-
/
+5*
6
" - X +4 *+
$-0 )
"
1
#" - X 12
1
1
2
* 3 •
5
•
7
•
!
*+5+M'S# +5
12
R(4
#" #
! +
# * 1& #
/
0 4 " "
$"
#"E
)
%
"
*
Y
R(4 ) &
" & #"
#
! 4
#
4 #
<
*4 %
#
# 0
"
(
#
*
0
-
#" 5
# #"
"
-A
#" 9 8 $#
/
4 %
!
R(4 * 3
1
8
4:
!
# (,
3
<" A 404+H; 7 2
% +M'
0H
% 6
4 "
M#
*
2
+
-
# "
&
"
#
A =;
$ #
12
3
$
$ " #
E
+-
D
D
#" 6
-+
!+
&+- !
99
8
%
+ " # T
$#
" #"
# A "
"
=
>
$
9 "
"#
# " 12
'
$ D
+ 1
" $ # " #
T
! 12 T
8
& %
# A
@>
#
12 T7
"
$
8 *+5
2
4
#
&X Z+ % #
(( $ "#
!
#"
$ Q-
#
#
#
%
6
%
'8
# X:
*8
A
"
"" A
18
/
%
< H04! 8 " # - 12 # C# 81+4% 40! 49 48!+10 '407 !; % " " R(4 5
% D
M# :E F "
* #
A! %
+ +(<
E "*
" # # # E* %
*B %
E
*
"
X
#"+5
*
#
+ " - +(<
"
#
$ #
# # # "
A D
#
!
!
-X
\
!
*
\
F
F F
# ) 7*)
D
"+
E #
'
-
"
#@
"
F
"#
+ ' 0! +10
" "
6
"
"
(5X
#* &( + #
-
&
12 C #" # #"#
,4; 12 MR(4 +4710 084 " <" C % " " +M' +
&( #
+
)
-
$ "
* + /94
-
#
2 *
# ['*
"
#" # 6 &A
"
% #
?
\ (5?(5*
- X 7S+!*
-X
*(& -
J
-
" * ## #(5 *$
*
#-
$ -
5! # !
" $
*
#
% :
(5
# # (5 #
#" "
" #
(< +
"
#
Figure 18 PF triangle, source: http://www.nepsi.com/powerfactor.htm
19
2
# (< + * "$ "
#
+
-
" #
(1F4+
"
# #
12 *S /
#
! -
%
#
"
@0 #
. <4H
#
Y
" / #
8
# "
@
--, 8 &77& 8
H4047 7
&!+& ) &
!
+
4 /
<4H ! *+5- T -
* 9
R(4 4
#
#
4 74+ 4 $
&
: % #
"
#
" #"
%
? ) E BB&( 7 # 2( E
:
B
12 : #" $# 81+4 -
"
" %
#
) 6
6 '1F0 * T :
# #
-
$
#
"
#
"
"
"
: #" T +5
*
"
4 *
" &( "
$
&
+4710 084
0
8
$
% #"
# # %
#
4
7 #
4:
4
#"
0
T S
#
#
! "
# R(4
12
"
A
#
< # <
# : #
4
# #
6
#
4 # #
# "
#
#
" 8 # #
4 #"
%
" #"
#"* #
-
% :
#" ! )
:
%
-,9 70+ 4 " / #" ]
T
"* B
:
E (& # #"
, ) "
*
" 8 *# " # " H "
"- 8 "
" 12
'8 @
"
T8T C "
" % !
# #
#
12 " #
"
"# ' # 48!1+ & 82++40! +501'4 7! 0' 0H F #" F " " Y
4
+5 $#
712+84
20
!!
- +
4
"
# "
# R(4 "
" ! 19
+5
" ! " F !4+
7 Q
F !4+ + 01!
M
"
!1< 8 9 ; * " -
# "
"
% # +-7 &,& "
# "*
T
"< # 1
$ (< *(, T
: " ) '
" # #" -
#
"
#
4
#
"
#
#
#"*
%#
-
#
*
$
-
#" * 6 # -
%
#" #" -
* "
# #E
# *
"
-
#
#
)
# "# F
: #
"
#
#
( #
E' #
8
#
E
"
H20
"#
#
#
#"
%
# @
#
#
*
#" -
84<( 0 9& #! &
0, )
!
,
*
6
$#
!
D
#
+
# 4%H " 12
#"
#
:
" " 9 8 / 0H ///RRRR!@
"
" %
# 0!400
# "
#
"#
:
& .,
"
#
"
%
"
+ 9+8
82++40! 7! 0' 0H F 4 01'4 $# #" +5+ # " # "
+
Q
< H04! 8 <1' 58 ! 107 " /19!7
6
/ " "
# #
+
#
#"
"
(
8 01'4 * A
" 6
# 7
)
4%H " "
H
#
#
6
+5
"
"
# ! 19! H4 7! 0' 0H F "
%4 $
) *
# < LE 1+ H 0 9'47 H0 # $
" 4
A) #
D #
6
21
,--
8
7" "
%
"
@9
7 ,!
#"
# *+ -
"
' #" :
"
:
,F "
- ,+
+ (1F4+
+ 2
# "
! 819 ' #" F E(&9 8E # +
+
S
"
0 4+!4+7 "4%H " $
$
# $ ^ 129 4
# " $
"
#" " 4<(
S # "
+
6
" A
A
#
$
"
# #" -
"#
#
"
$#
$ :
$:
%
#
#
+ ' 0!
"
#
# *+ "
# L
$ #
:
#
! SE D "
"
+4 01! 1
$:
#" #
L
#
# #
%
#"
# 3
( +40! 1 4+20 !; * 9 74 * # #"
1 4+20 !; "4 74+
, 404+H;
#"
+
9 8 3 "
"
R(4
" $ : "
#
"
#
" "#
"
$ # " #
"
#"
) 6
!
#
"
$# !
" !
@(
"
4%H "
%
#
"
: #
#
"
% $
-
+
"
!
#" #
#
+
#
"
3
< !8& 0H !&4 712+84 "
044'7 #
$
9 1 '@ ,44(
01!47@@@ F #
"
*"
# 2
" # -@
%
""
#
0 , + &9
- / 8 M
" .
$
@!
#
' !,, ) "! . L & $
! . # 3"
@
22
Links Tools for research /
A
7
A
A
"
A
:
A
(
#
<#
$ "
A
A
" #
A
A
4
#
A
A
ZPE links "# " #
$0 + :+
= $" 5
A
7
! A
&
8
9
5
^
/
#
A
:
A
$ "
A #
A
&
8
$ >"
A
#
$"
"#
A #
A
#"
#
A 3
A
A
A
$ "
A
"
#
4
#
'
"
4 H "#
A
F # 9 8
:
# " # "
6 A
4[ 8!
Theory +
A
A
"
_3 9 8
A
7
+
_3
A
$
$ :
A
$
$ :
A
A
#
A
9$
4
0 ! 9
]( *
1 % ! " A <
+
" A
8
: $:
_) $
"
`
B
$: 7+ 3
LL $
A A
A #4
<
%
:
-A (
$ ]
A
"
"
A A
[S 7( #
E
E
EE S[
B
23
Some Rotoverter guidelines +
#
E% T
%
" #
T
- 2
" % F E 9
"
] :
*
E%
#
" -
#
E #
;
#
/
*
$ -
E
8 !
&(
E
7
#
*E% "
E
" ]
*
E%
#
"
& #
:
,F
;
" 0 F
"
/ "
%
"
# 5 /
*# #
F "
T
T
7
"
* 5
!
# F
E% ,F #
] !
%
# L%
# T ##
#
E% *
T
# ##
'
#
! 5
%E
#
" " # -
%
% #
-
# 6
8 !
#
# T !
-
T %
% #
%
#
#
<28& D F
F
E:E
&2H4
*:
-
#
E%
# E% "
'9 4
"
" &
]+
*
# -
%
% #$ * #
ED
%
+(<
3 # 27+(<% S +(<
# #
!
#
% -
#
%
-
# +(<
#
" * *#
/ #
#
#
"E% :E C /"
#
#
+(< *ED # #
+(< 27&)*27-
ED
)
+(<
" /
3
!
#
#*
E% A
6
T
`H
!
# # 0
#
* $ " ;% # "
#
E% T
- !
#
"
] ;
#
#
%
/
%
#
# "
TC
T
# %
# "
T
T (
" %
#
24
F
# %
#
#
] #
"
# "
0
: " "
# $
# :
]
#
* "
-
:
!
#
/ #
T
:
% "
#
#" -
#
7
"
#*
:
:
" %# &
5 /4 8 +4529% # #
#
#
F
#
# ] $8
*+
" #
#
"
" F %
" #
$
#
# " #
" +5 - 0
"6 5
$
T "
" #
$
;
# #
T
#
"
# 8
# *
H
%E
#
T
#
#
-
*
" :
% #
"E
%
!
#
,F
F
"
E
%
:
#
" %#
# ' +48!9 ;
#
$
* ED #
+(< #
#
"
D &) %
" 6
"
'8% % 8 #
#
# "
% # #
5 " # + %
# E '8
! !
+
#
#
#
0
% (
"# '8 "
"
"
#
# # "
"
% # %
7
%a # "
" F
%BQ #
$
% A
"
# #
4
# #
# '
$
:
25