H2O2FromH2O Videos
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#42 H2O2 - Vertical Etching With Acid Copper II 
I explain how I use this etching tank. Mike Putnum (541)441-0319 Has donated this tank, Thanks Mike! I am Etching the H2O2-PWm V2 and The H2O2-SensrSwt A. www.h2o2fromh2o.oregonsouth.com Please come to my website and follow the link DIY-Projects Information on H2O2-PWM V2 H2O2 Store: http://www.h2o2fromh2o.oregonsouth.com/H2O2-Store1.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#41 H2O2-SensrSWT-A V2.1.0 Part 2 of 2 
Come Visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release Now Beta Testing! Insight on the functions of the SensrSwt-A and assembly tips! http://www.h2o2fromh2o.oregonsouth.com/Beta.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#40 H2O2-SensrSWT-A V2.1.0 Part 1 of 2 
Come Visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release Now Beta Testing! Insight on the functions of the SensrSwt-A and assembly tips! http://www.h2o2fromh2o.oregonsouth.com/Beta.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#39 H2O2 - PWM Case V2 Install Part 17 of 17 
In this episode, PWM installation, Peek Current, Final Current Limiting setting, Is my PWM Capable of 100%, What is the MosFet Voltage drop from Source to Drain. This is the end of the H2O2-PWM Case v2 Series. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#38 H2O2 - PWM Case V2 Calibration Part 16 of 17 
In this episode, Finish Board Calibration, Optional Confidence Test. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#37 H2O2 - PWM Case V2 Calibration Part 15 of 17 
In this episode, Board Verification & Rough Calibration. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf H2O2 Store: http://www.h2o2fromh2o.oregonsouth.com/H2O2-Store1.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#36 H2O2 - PWM Case V2 Layout Part 14 of 17 
In this episode, finish mounting PCB with hardware and checking PCB for fit, soldering wires to PCB, soldering techniques for wires, hiding wires under PCB. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#35 H2O2 - PWM Case V2 Layout Part 13 of 17 
In this episode, Counter Sink PCB mount holes in case, Install Hex Screw/ Jack Screw, Drilling PCB & Installing it. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#34 H2O2 - PWM Case V2 Layout Part 12 of 17 
In this episode, Tighten Cell Negative Lug Screw to out Side Nut, Mark, Punch and Drill PCB mounting holes.This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#33 H2O2 - PWM Case V2 Layout Part 11 of 17 
In this episode Finish soldering Ground Terminal, Solder C7 Negative, Tighten Positive Lug Screw to out Side Nut. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#32 H2O2 - PWM Case V2 Layout Part 10 of 17 
In this episode Soldering Techniques for soldering Large Lugs, Soldering Positive terminal, Soldering Cell Negative terminal, Soldering D1 to Cell negative bus wire, soldering the toughest terminal The Ground terminal. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#31 H2O2- PWM Case V2 Layout Part 9 of 17 
In this episode C7 and C5 Placement Explained, Positioning R12, C5 Bending legs, Soldering C5 and C7 Positive legs, Preparing Cell negative service loop and placing into lug, soldering black wire to C5-C6 Positive junction. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#30 H2O2 - PWM Case V2 Layout Part 8 of 17 
In this episode Soldering MosFet Drains to Cell negative wire , Good soldering techniques, soldering Sense Wires on to R12 to form Current Shunt. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#29 H2O2 - PWM Case V2 Layout Part 7 of 17 
In this episode wire cutting and positioning, Pre-tining wires, Soldering Gates, Cell negative Service loop and wire positioning, Proper stripping of insulation of 14Gauge wire. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#28 H2O2 - PWM Case V2 Layout Part 6 of 17 
In this episode continue building Heat Sink System to completion. I refer several time to thermal compound as Grease! They are one in the same. I my profession it is common to refer to it as thermal grease. Lastly Cleanup! This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#27 H2O2 - PWM Case V2 Layout Part 5 of 17 
In this episode MosFet Electro Static Discharge (ESD) Handling, Bending MosFet Pins, Building the Heat Sink System. Applying Heat Sink Compound. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#26 H2O2 - PWM Case V2 Layout Part 4 of 17 
In this episode Heat Sinks: Finishing up preparation to mount them. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#25 H2O2 - PWM Case V2 Layout Part 3 of 17 
In this episode Heat Sinks; Drilling Tapping and Mounting. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#24 H2O2 - PWM Case V2 Layout Part 2 of 17 
In this episode Pre-fit Terminals, Securing terminals to #10 Screws, Positions of C5 and C7, then tightening terminals. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail. Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. A Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#23 H2O2 - PWM Case V2 Layout Part 1 of 17 
In this episode hole positions for Positive, Negative, Cell and MosFet mounts. This is My Concept of what a PWM case should look like. Minimal cooling, no fan! Why, Because The Four MosFets are not driven hard. No moving parts to fail Automatic Current Control! Why, Because without it any HHO cell will heat up and reach thermal runaway: Current increase and the cell gets hotter this continues until the cell melts or the current source fails or the fuse blows. Function to monitor Peek Current! Why, because the System will fail if the peek current is to high. Knowing peek current means you are in control of your Cell and its Electrolyte. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#22 H2O2 - PWM V2.1.5 (Beta Testers Wanted ) & Lab Tour 
Update 3/3/2010: Beta Testing is complete, All information is available at www.h2o2fromh2o.oregonsouth.com Please come to my website and follow the link DIY-Projects H2O2 Store: http://www.h2o2fromh2o.oregonsouth.com/H2O2-Store1.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#21 H2O2 - Current HE V1.0.1 - A budget Current Meter Part 2 
Come Visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: 8-17-2009 I have reduced the heating problem by soldering both ends of the copper wire to the threaded bolts at each end. Part 2 of 2 The Current HE is a 0 to 100 Amp Current sensor That has an Accuracy of + - 1% at Full scale. I have observed. An accuracy of .1 amp at low current readings. I am introducing this sensor to the public and will be perfecting the Electronics to support this sensor for use in measuring HHO Cell current. In an effort to increase the communities ability to accurately measure current at a low cost to the end user. Part 1 can be viewed here. http://www.youtube.com/watch?v=KAckYAR5nlw By the way, I totally support Open Office Org. Their Writer and Calc are way better then MS Word and Excel. And it supports my belief in Open Source. Great work OpenOffice.org
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#20 H2O2 - Current HE V1.0.1 - A budget Current Meter Part 1 
Come Visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release Part 1 of 2 The Current HE is a 0 to 100 Amp Current sensor That has an Accuracy of + - 1% at Full scale. I have observed. An accuracy of .1 amp at low current readings. I am introducing this sensor to the public and will be perfecting the Electronics to support this sensor for use in measuring HHO Cell current. In an effort to increase the communities ability to accurately measure current at a low cost to the end user. Part 2 can be viewed here. http://www.youtube.com/watch?v=eC_htixjr2I By the way, I totally support Open Office Org. Their Writer and Calc are way better then MS Word and Excel. And it supports my belief in Open Source. Great work OpenOffice.org
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#19 H2O2 - PWM 30Amp Temperature Test with Dry Cell Load 
Come Visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release The Test is repeated but this time At 30 Amps And a Real Load is used A dry cell with KOH. A 50% Duty Cycle Is where the Mosfet will operate the hottest. The ON and OFF times have equal distances between them so when the MosFet turns on there will be some heat generated and then there is the time to dissipate that heat into the Heat sink (The Case). Then the off time does the same and that heat is dissipated over and over again. If the duty cycle is longer or shorter, the dissipation time is always longer. This should provide a excellent test for the how cool this design will work.
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#18 H2O2 - PowerStick V1.1.0 Budget Regulator 
Information On Building This at http://www.h2o2fromh2o.oregonsouth.com Update: 1/212/2009: The Plans are ready come and check them out. This is the first DIY project to the H2O2FromH2O WebSite. A Simple Voltage regulator. Based on the LM317. Great for the bench to power projects while still on a bread board. Use as a bench Variable power supply. Have more then one to power your voltage hungry prototype 5V, 3.3V, 2.5V and so on. Use it on the production line to power your device under test, That's what I made the PowerStick for. Vary cost efective when you need 10 power supplies and many diferent voltages. Photos avalible for V1.1.1 http://www.h2o2fromh2o.oregonsouth.com/PowerStick-2.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#17 H2O2 PWM 15Amp Current Test 
Come visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release A 50% Duty Cycle Is where the Mosfet will operate the hottest. The ON and OFF times have equal distances between them so when the MosFet turns on there will be some heat generated and then there is the time to dissipate that heat into the Heat sink (The Case). Then the off time does the same and that heat is dissipated over and over again. If the duty cycle is longer or shorter, the dissipation time is always longer. This should provide a excellent test for the how cool this design will work.
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#16 H2O2 PWM installing MosFets & Pretesting Unit 
Update 8/09/2009: I have posted a PDF that Explains another way to configure your MosFets the Link is below, this is a must view! Finishing up the Case and First Fire up of PWM. Home Page: http://www.youtube.com/user/H2O2FromH20 Web Site: http://www.h2o2fromh2o.oregonsouth.com/ Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#15 - H2O2 Assemble PWM Case 
Update 8/09/2009: I have posted a PDF that Explains another way to configure your MosFets the Link is below, this is a must view! Come visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release I hope this helps give some one an Idea for there case, hope you can learn from my mistakes! Mosfet Configuration: http://www.h2o2fromh2o.oregonsouth.com/images/PWM-CASE/H2O2-InfoDoc-PWM-MosFet-Configuration.pdf
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#14 H2O2 PWM V2.0.1 Circuit Analysis Part 2 of 2 
Come visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release Part 2 of 2 Circuit Analysis of H2O2 PWM V2.0.1
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#13 H2O2 PWM V2.0.1 Circuit Analysis Part 1 of 2 
Come visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release Circuit Analysis of H2O2 PWM V2.0.1. Still High resulution shots of Scope Click on the link http://h2o2fromh2o.oregonsouth.com/Vid-IMGs13.htm
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#12 H2O2 - PWM V2.0.1 PCB FireUp Test 
Here it is H2O2 PWM V2.0.1, It started up with out any problems, and worked better than I expected. It is always exciting to turn on something you have made for the first time, what a feeling! This is just the pulse width modulation drive board, soon the MosFet and supporting hard ware will be ready to test I cant wait. H2O2 Store: http://www.h2o2fromh2o.oregonsouth.com/H2O2-Store1.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#11 H2O2 - SMT Component Placement & Soldering tips - Part 4 of 4 
This 4 part series covers how to solder Surface Mount Components, It gives some basic instruction on proper component placement, how to modify standard through hole parts to mount only to the surface and use of your solder iron. The sample Board is H2O2-PWM V2.0.1
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#10 H2O2 - SMT Component Placement & Soldering tips - Part 3 of 4 
This 4 part series covers how to solder Surface Mount Components, It gives some basic instruction on proper component placement, how to modify standard through hole parts to mount only to the surface and use of your solder iron. The sample Board is H2O2-PWM V2.0.1
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#9 H2O2 - SMT Component Placement & Soldering tips - Part 2 of 4 
This 4 part series covers how to solder Surface Mount Components, It gives some basic instruction on proper component placement, how to modify standard through hole parts to mount only to the surface and use of your solder iron. The sample Board is H2O2-PWM V2.0.1
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#8 H2O2 - SMT Component Placement & Soldering tips - Part 1 of 4 
This 4 part series covers how to solder Surface Mount Components, It gives some basic instruction on proper component placement, how to modify standard through hole parts to mount only to the surface and use of your solder iron. The sample Board is H2O2-PWM V2.0.1
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#7 H2O2 - PCB Verification and PCB Tinning 
Update 11/7/2008: This is the link I followed to make the Acid Copper II AKA (Cupric Chloride) etchant http://www.instructables.com/id/Stop-using-Ferric-Chloride-etchant!--A-better-etc/ Etching H2O2 PWM V2.0.1 With Acid Copper II, This is my experience with the Regenerative etching acid. It has no disposal of toxic waste like each time you use up your Ferric chloride etchant. This was the original article on how to make Acid Copper II it is much harder to make the solution, but is worth the read especially Bath Analysis. http://members.optusnet.com.au/~eseychell/PCB/etching_CuCl/index.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#6 H2O2 - Etching A PCB With Acid Copper II 
Update 11/7/2008: This is the link I followed to make the Acid Copper II AKA (Cupric Chloride) etchant http://www.instructables.com/id/Stop-using-Ferric-Chloride-etchant!--A-better-etc/ Etching H2O2 PWM V2.0.1 With Acid Copper II, This is my experience with the Regenerative etching acid. It has no disposal of toxic waste like each time you use up your Ferric chloride etchant. This was the original article on how to make Acid Copper II it is much harder to make the solution, but is worth the read especially Bath Analysis. http://members.optusnet.com.au/~eseychell/PCB/etching_CuCl/index.html
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#5 H2O2 - Applying Transfer paper to PCB, Part 4 of 4 
Part 4 of a 4 part series. This is the Ins and outs of applying Transfer paper to a PCB surface mount or standard through hole and will work for any project. The Paper is STAPLES "photo basic gloss" Item#666176 4x6in but any size of STAPLES "photo basic gloss" will work.
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#4 H2O2 - Applying Transfer paper to PCB, Part 3 
Part 3 of a 4 part series. This is the Ins and outs of applying Transfer paper to a PCB surface mount or standard through hole and will work for any project. The Paper is STAPLES "photo basic gloss" Item#666176 4x6in but any size of STAPLES "photo basic gloss" will work.
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#3 H2O2 - Applying Transfer paper to PCB, Part 2 
Update 11/27/2008: When soaking The Paper in water place 2-3 drops of Dish soap (Surfactant) in Vary Vary hot water and let soak about 1 hour. This will cause the water to penetrate the paper and it will come right off. Part 2 of a 4 part series. This is the Ins and outs of applying Transfer paper to a PCB surface mount or standard through hole and will work for any project. The Paper is STAPLES "photo basic gloss" Item#666176 4x6in but any size of STAPLES "photo basic gloss" will work.
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#2 H2O2 - Applying Transfer paper to PCB, Part 1 of 4 
UpDate 12/19/2008: The paper is for InkJet printers but to make a transfure you must print on the paper with a Laser Printer Only. Update 11/27/2008: When soaking The Paper in water place 2-3 drops of Dish soap (Surfactant) in Vary Vary hot water and let soak about 1 hour. This will cause the water to penetrate the paper and it will come right off. Update: I sugest using only Black when you print, The Color Masking seems thiner. This is the Ins and outs of applying Transfer paper to a PCB surface mount or standard through hole and will work for any project. Part 1 of 4 The Paper is STAPLES "photo basic gloss" Item#666176 4x6in but any size of STAPLES "photo basic gloss" will work.
H2O2 Notes: This is very interesting I recommended the viewing of this video.
#1 H2O2 PWM V2.0.0 
Come visit the website: http://www.h2o2fromh2o.oregonsouth.com Update: Original Release This PWM is based on ZeroFossilFuel Auto Current limiting PWM V2. It has been improved, and is very close to final testing. Plese use the comments and talk about it. This layout partlist and schematic will be released to the public for free.
UpDate 12/9 The Website is up and running http://www.H2O2FromH2O.oregonsouth.com H2O2 Store: http://www.h2o2fromh2o.oregonsouth.com/H2O2-Store1.html
H2O2 Notes: ___
