Rife Plasma System Components Rife Plasma System ComponentsThis page updated on 02 April 2018
SYSTEM MANUALS and Technical Data- SPA5 Processor - Amplifier
Instruction Manual for the SPA5 v1.0 (07 October 2016)
Start-ip Procedure for the SPA5 (10 October 2016)
SYSTEM MANUALS and Technical Data- SPA4 Processor - Amplifier
Technical
Specifications sheet for the SPA4 v1.01 (Also
applies to v2.00)
Instruction
Manual for the SPA4 v2.00(Updated 4
August 2015)
Assembly Manual for the SPA4 v2.0 (Updated 4 August 2015)
Assembly Manual for the SPA4 v1.01 ( Revised 30 December 2014 )
Instruction
Manual for the SPA4 v1.01 ( Revised 15 July 2014 )
Master
connection diagram for the SPA4
Engineering
Change Order 1 for the SPA4 v1.01 ( RF Feedback prevention -
Urgent
ECO. )
Engineering
Change Order 2 for the SPA4 v1.01
( Cooling fan modification - Mandatory ECO. )
Also applies to the PA2 and PA3.
> > > ( Engineering Change Order 3
has been Replaced by ECO-5. ) < <
<
Engineering
Change Order 4 for the SPA4 ( Improves
heat sink cooling - Recommended ECO. )
Also applies to the PA1, PA2, and PA3.
Engineering
Change Order 5 for the SPA4 ( Improves gate drive to IRF730
& STW20NK50Z - Strongly recommended ECO. )
Also applies to the PA1, PA2, and PA3.
Engineering
Change Order 6 & Installation Manual for the SPA4-RFR Upgrade
kit
Combines ECO's 1, 2, 3, 4, & 5. Instructions for upgrading all
SPA4 v1.00 & v1.01 amplifiers to v2.0
SYSTEM MANUALS and Technical Data-
PA3 Amplifier
Instruction Manual for the PA3 v3.0 E
Assembly Manual for the PA3 v3.0 E
Technical
Specifications sheet for the PA3
Instruction
Manual for the PA3 v2.0
Assembly Manual for the SPA3 v2.0
Instruction Manual for the PA3 3.1 v1.00
Assembly Manual for
the PA3 v1.00 3.1
Engineering
Change Order 1 for the PA3 Amplifier (PA3 ECO-1)
Corrects circuit board layout error. (This is an optional ECO for the
v1.00 only.)
SYSTEM MANUALS and Technical Data-
PA2 Amplifier
Instruction manual for the PA2 v3.00 High Power amplifier
Assembly manual for the PA2 kit
Instruction manual for the PA2
Instruction Manual for
the PA2 with the HS2 Heat Sink
with Cooling Fan
Engineering
Change Order 1 for PA2 (PA2 ECO-1)
Corrects the cause of unexpected MOSFET failures, (This is a MANDATORY
ECO.)
SYSTEM MANUALS and Technical Data - PA1 Amplifier
Assembly manual for the PA1 kit
Instruction Manual for the PA1
Instruction
Manual for the PA1 with the
HS2 Heat Sink with Cooling Fan
SYSTEM MANUALS and Technical Data- SSQ-2F v3.10, v3.21 and v3.22
Engineering
Change Order 1 for all versions of the SSQ-2F
( Mandatory ECO )
Engineering
Change Order 2 for all versions of the SSQ-2F ( Recommended
ECO )
SSQ-2F
v3.10 Instruction Manual
SSQ-2F v3.10 Power Supply Addendum to Instruction Manual
Instruction Manual for the SSQ-2F v3.21 with RF Amplifier
Assembly
Manual for the SQ-2F v3.21 with RF Amplifier
Instruction
Manual for the SSQ-2F v3.22 with RF Amplifier
Assembly Manual for the SSQ-2F v3.22 with RF Amplifier
A Contact
Device
adapter for use with the SSQ-2F v3.00 and higher
Test Setup Instructions to verify operation of the SSQ-2F ( all revisions ) and Test Setup Diagram to verify operation of the SSQ-2F ( all revisions ) NOTE: Download both.
SYSTEM MANUALS and Technical Data- SSQ-2F v1.41
Engineering Change Order 1 for all versions of the SSQ-2F ( Mandatory ECO )
Engineering Change Order 2 for all versions of the SSQ-2F ( Recommended ECO )
Instruction Manual for the SSQ-2F v1.41 with +5 or +12 volt RF output
Assembly Manual for the SSQ-2F v1.41 Kit with +5 or +12 volt RF output
SYSTEM MANUALS and Technical Data - LC31 3.1 MHz Link Coupler System
Instruction Manual for the LC31L-ST High Power Link Coupler
Instruction Manual for the LC31L-BAT High Power Link Coupler
Setup Chart for the LC31 Coupler system for various Bill Cheb Plasma Tubes
Instruction manual for the LC31S, LC31P and LC31TCBA Link Coupler for plasma tube systems ( Revised 27 December 2014 )
Instruction manual for the LC31S1 Link Coupler for use with the SSQ-PT Plasma Tube ONLY
Article about the first LC31 coupler and how it was designed.
How to design and build your own LC31 coupler system.
TYPE "E" ELECTRODE MANUAL and Technical Data- for External Electrode Plasma Tubes
Instruction manual for the Type "E" Electrodes for the Cheb SSQ-PT and the Cheb 2-inch SuperTube
A
Test Load using Incandescent Light Bulbs to verify the operation of the
PA1 amplifier
How
to eliminate RF interference to your Spooky2 frequency generator.
A
Master connection diagram showing you how to set up the UDB1108S,
Spooky2, any F-series generator, or any generator with TTL output with
the PA3 and the LC31 link coupler
A Master connection diagram showing
how to connect the PA2 to a pair of Remote Treatment electrode plates.
(Works with the PS1, PA2, PA3, and SPA4)
A
Master connection diagram showing you how to set up the GB4000, F-165,
F-170 or F-175 with the PA2 amplifier and the LC31 link coupler
Test Setup Instructions to verify operation of the SSQ-2F ( all revisions ) and Test Setup Diagram to verify operation of the SSQ-2F ( all revisions ) NOTE: Download both.
A new 3.1 MHz Matching System that replaces a conventional antenna tuner - basic information
Building your own 3.1 MHz Matching system for your plasma tube Rife system - construction article
OTHER
DOCUMENTS, TROUBLESHOOTING and DIY Information
A video about testing your SSQ-ST plasma tube to see if it is good or bad. (33.1 MB AVI file)
A video about testing your LC31 coupler to see if it is working. (18.1 MB AVI file)
GB-4000 Shielding modifications when used with the PA2 Amplifier - (Opens in a new web page in your browser.)
Spot Frequencies for used with the SSQ-2F (for experimental use only)
How to Build a Regulated Power Supply for the SSQ-2F v3.10 / v3.21 or the PA1 and PA2 Amplifier - (Opens in a new web page in your browser.)
If you want to operate just the SSQ-2F v3.10 / v3.21 with this power supply, it will need to provide 90 V.
If you are going to operate the SSQ-2F v3.10 / v3.21 and the PA1 with this power supply, it will need it to provide 152 V for 300 Watts output or 190 V for 500 Watts output when the PA1 is being tested with a 50 Ohm dummy load.
These files are in MP3 format and may be played back using a computer sound card, an MP3 player, or any other device which will play MP3 files.
This is a sine wave sweep frequency test which sweeps from from 12,500 to 250 Hz in 60 seconds.
Using this file, the SSQ-2F will output an RF signal that is square wave modulated over the frequency range of 25,000 to 500 Hz or 12,500 to 250 Hz, depending on the mode selection of the SSQ-2F. This file is for a quick test of the correct operation of your Plasma Tube system. This sweep covers the entire frequency range required for generating the correct Rife frequencies using a 3.1 or 3.3 MHz RF carrier.
A complete four hour frequency session requires all four 60 minute sweep files. They need not be run in sequence, nor all at one time.
This is a sine wave sweep frequency set which sweeps from from 12,500 to 9,437 Hz in 60 minutes.
When burned to a CD as an audio disk, it will fit on one CD. Using this file, the SSQ-2F will output an RF signal that is square wave modulated over the frequency range of 25,000 to 18,874 Hz or 12,500 to 9,437 Hz, depending on the mode selection of the SSQ-2F. This file is for general use with your Plasma Tube system. This sweep covers the one-fourth of the entire frequency range required for generating the correct Rife frequencies using a 3.1 or 3.3 MHz RF carrier.
.
This is a sine wave sweep frequency set which sweeps from from 9,348 to 6,374 Hz in 60 minutes.
When burned to a CD as an audio disk, it will fit on one CD. Using this file, the SSQ-2F will output an RF signal that is square wave modulated over the frequency range of 18,696 to 12,748 Hz or 9,348 to 6,374 Hz, depending on the mode selection of the SSQ-2F. This file is for general use with your Plasma Tube system. This sweep covers the one-fourth of the entire frequency range required for generating the correct Rife frequencies using a 3.1 or 3.3 MHz RF carrier.
.
This is a sine wave sweep frequency set which sweeps from from 6,375 to 3,312 Hz in 60 minutes.
When burned to a CD as an audio disk, it will fit on one CD. Using this file, the SSQ-2F will output an RF signal that is square wave modulated over the frequency range of 12,750 to 6,624 Hz or 6,375 to 3,312 Hz, depending on the mode selection of the SSQ-2F. This file is for general use with your Plasma Tube system. This sweep covers the one-fourth of the entire frequency range required for generating the correct Rife frequencies using a 3.1 or 3.3 MHz RF carrier.
.
This is a sine wave sweep frequency set which sweeps from from 3,313 to 250 Hz in 60 minutes.
When burned to a CD as an audio disk, it will fit on one CD. Using this file, the SSQ-2F will output an RF signal that is square wave modulated over the frequency range of 6,626 to 500 Hz or 3,313 to 250 Hz, depending on the mode selection of the SSQ-2F. This file is for general use with your Plasma Tube system. This sweep covers the one-fourth of the entire frequency range required for generating the correct Rife frequencies using a 3.1 or 3.3 MHz RF carrier.
This is an 8-Channel sine wave sweep frequency set which covers the range of 250 Hz to 12,500 Hz in 30 minutes. (500 to 25000 Hz when run with the SSQ-2F)
The eight frequency bands covered are: 250 - 1782 Hz, 1781 - 3313 Hz, 3312 - 4844 Hz, 4843 - 6376 Hz, 6375 - 7907 Hz, 7906 - 9438 Hz, 9437 - 10,969 Hz, and 10,968 - 12,500 Hz.
When burned to a CD as an audio disk, it will fit on one CD. Using this file, the SSQ-2F will output an RF signal that is square wave modulated. This file is for general use with your Plasma Tube system. This sweep covers the entire frequency range required for generating the correct Rife frequencies using a 3.1 MHz RF carrier. This frequency set consists of 8 separate sine wave signals combined into one signal suitable for use with the SSQ-2F or other devices that can use sine waves. The SSQ-2F should be set to operate in the 2X mode.
NOTE - Use Caution! This sweep has been reported to cause strong effects and reactions.
.
This is an 8-Channel sine wave sweep frequency set which covers the range of 250 Hz to 12,500 Hz in 35 minutes 21 seconds. (500 to 25000 Hz when run with the SSQ-2F)
The eight frequency bands covered are: 250 - 1750 Hz, 1750 - 3500 Hz, 3500 - 5250 Hz, 5250 - 6500 Hz, 6500 - 8250 Hz, 8250 - 9500 Hz, 9500 - 10,750 Hz, and 10,750 - 12,500 Hz.
This sweep has been adjusted according to the suggestions of Ken Uzzell who has been having much success with it. He reports very strong and positive reactions when using this sweep. The frequency sideband interaction and mixing are slightly different from the Sweep #1, above. The frequency step duration and the time-on-frequency for each frequency step have been adjusted per Ken's directions for best results.
When burned to a CD as an audio disk, it will fit on one CD. Using this file, the SSQ-2F will output an RF signal that is square wave modulated. This file is for general use with your Plasma Tube system. This sweep covers the entire frequency range required for generating the correct Rife frequencies using a 3.1 MHz RF carrier. This frequency set consists of 8 separate sine wave signals combined into one signal suitable for use with the SSQ-2F or other devices that can use sine waves. The SSQ-2F should be set to operate in the 2X mode.
NOTE - Use Caution! This sweep has been reported to cause strong effects and reactions.
This web site and all contents including pictures, text and diagrams is Copyright © 2012 - 2018 by Ralph M Hartwell.
All Publication, Reproduction and Manufacturing Rights Reserved.