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Originally posted by ashtweth
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Ash you're a sweetheart. It's the CSV files that Fuzzy references. But if you can't manage this not to worry. Fuzzy's sent them to me in 'zipped' format. Just need to see if I can get them unzipped???? Still a dinosaur
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Never too much trouble for you Rose
. Okay here they all are, now as for winzip, i use Winrar (which can pretty much unzip any thing,) its a FREE program WinRAR archiver, a powerful tool to process RAR and ZIP files
Let me know if is missed any thing Rosie, if you have any probs drop me an email ashtweth@gmail.com and ill attach them un zipped
2us_start .CSV file
MEGAUPLOAD - The leading online storage and file delivery service
(put code in top right hand side
20us_start .CSV file
MEGAUPLOAD - The leading online storage and file delivery service
2us_finish .CSV file
MEGAUPLOAD - The leading online storage and file delivery service
TEK00012_20_us_finish
MEGAUPLOAD - The leading online storage and file delivery service
2us_4_chan .CSV file
MEGAUPLOAD - The leading online storage and file delivery service
1us_4_Chan .CSV file
MEGAUPLOAD - The leading online storage and file delivery service
TEK00014_400ns_4_chan
MEGAUPLOAD - The leading online storage and file delivery service
AshComment
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ASH MANY THANKS INDEED. Truly appreciated. Will get back to you later on this.Comment
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Rosemary Ainslie COP>17 Heater Circuit - TEST #3
Hi everyone,
Here is the data for test #3 .... this one is the best yet with Mosfet drain spikes of over 500 volts and 70 volt being returned to the 24 Volt battery bank.
The test was ran over a 7 hour period (noted voltage loss .23 volts)
Duty Cycle - 22% (measured prior to 24Volt Battery Bank Connection)
Ambient Temperature - 77 Degrees F
Mosfet Temperature - 154 Degrees F
Load Resistor Temperature - 130 Degrees F
Gate Potentiometer Resistance - 7.2 ohms
On Potentiometer Resistance - 0 ohms (minimum)
Off Potentiometer Resistance - 10,000 ohms (maximum)
TEST #3
Rosemary Ainslie COP>17 Heater Circuit
"Quantum" October 2002
Replication Components -
1) International Rectifier - IRFPG50 HEXFET® Power MOSFET
w/ Sil-Pad insulator between Mosfet and Heat Sink
2) Fairchild Semiconductor - NE555N Timer
3) Vishay Spectrol - SP534 Percision Potentiometer/ 10-turn 2-Watt
4) Exide Technologies Battery "Liquid Lead Acid" Model # GT-H - TRACTOR 12V 12Ah CCA 235
5) CSB Battery Company "Gel Lead Acid" #GP 1270 F2 / 12 Volt 7.0 Ah
6) Test Load Resister "Quantum" 10 ohm Prototype
7) Shunt Resistor - Dale RS-2B 0.25 ohm 3 watt 3 %
Temperature Measurements -
Fluke 62 "mini" IR Themometer ( used maximum reading on each componenet )
Digital Mulit Meter -
Fluke 87 DMM true RMS
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CHANNEL 1 - Mosfet source
CHANNEL 2 - Mosfet drain
CHANNEL 3 - 555 timer pin #3
CHANNEL 4 - 24 Volt Battery Bank
40us
40us 520V .XLR Spread Sheet File
20us
20us 520V .XLR Spread Sheet File
2us
2us 520V .XLR Spread Sheet File
1us
1us 520V .XLR Spread Sheet File
400ns
400ns 520V .XLR Spread Sheet File
200ns
200ns 520V .XLR Spread Sheet File
100ns
100ns 520V .XLR Spread Sheet File
All Images and data from the Tektronix TDS 3054C from the Tektronix Corporation
Glen
Last edited by FuzzyTomCat; 10-08-2009, 04:40 AM. Reason: credit to the Tektronix Corporaton - shunt resistor infoOpen Source Experimentalist
Open Source Research and DevelopmentComment
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GOLLY FUZZY YOU'VE DONE IT
THANK YOU FUZZY
BLOW COP WE'VE GOT OVER UNITY HERE GUYSLast edited by witsend; 10-06-2009, 07:30 PM.Comment
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And may I say - at the risk of boring the guys/girls at TEKTRONIX
WHERE WOULD WE BE WITHOUT YOU?
Many, many thanks for the use of your brilliant instrument. I've said it before. Anyone want to argue these results will need to take up their quarrel with God.
LISA - TRULY OUR ANGEL.
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Wow !
Fuzzy, this is truly great! 
Here are the totals from the 40µs_520V_10_05_09_.xlr:
We need to mention that these are straight Ohmic calculations and no effort has been made toward differentiating the current lead/lag in the inductor as we know the 'Drain' (CH2) value is not a purely resistive reference. However, preliminary observations would indicate a strong negative average on the battery power. This is corroborated by the reduced draw down rate as compared to previous runs not operating in this mode.Code:TIME CH1 CH2 CH3 CH4 Shunt Watts Load Watts ShuntCurrent Load Current Battery Watts ============================================================================================================================================================= Average 0.057212 23.4104 7.27624 26.407 0.84342976 641.04916 0.228848 0.29966 -1.042944 Minimum -4.08 -12 -3.2 14 0 0 -16.32 -46 -448 Maximum 1.64 522 14 70 66.5856 21160 6.56 3.8 170.56
This data should be sufficient such that when compared to the thermal output it should confirm conclusively that the Rosemary Ainslie configuration does produce more output power than it uses on average - unless of course I have made a mistake in my calculations above which is presented here for review.
"Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The DoctorComment
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Hi Harvey,Originally posted by Harvey View PostFuzzy, this is truly great!
Here are the totals from the 40µs_520V_10_05_09_.xlr:
Code:TIME CH1 CH2 CH3 CH4 Shunt Watts Load Watts ShuntCurrent Load Current Battery Watts ============================================================================================================================================================= Average 0.057212 23.4104 7.27624 26.407 0.84342976 641.04916 0.228848 0.29966 -1.042944 Minimum -4.08 -12 -3.2 14 0 0 -16.32 -46 -448 Maximum 1.64 522 14 70 66.5856 21160 6.56 3.8 170.56
Thanks for the doing the 40us data crunches ..... I really like the totals
The experimenters using a power supply for operating the 24VDC may not want to do this with 70 Volt spikes going back into their power supply, plus the gains might never show up ... power with no where to go. I'm just wondering how to capture more from the spikes .... but I'm sure it will come to me soon
Glen
Open Source Experimentalist
Open Source Research and DevelopmentComment
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Indeed it will Fuzzy. If you found this you can do just about anything. Well done again indeed. And thank you so, so much for EVERYTHING. I'm dizzy with excitement still. I really owe you big time.Originally posted by FuzzyTomCat View PostHi Harvey,
Thanks for the doing the 40us data crunches ..... I really like the totals
The experimenters using a power supply for operating the 24VDC may not want to do this with 70 Volt spikes going back into their power supply, plus the gains might never show up ... power with no where to go. I'm just wondering how to capture more from the spikes .... but I'm sure it will come to me soon
GlenComment
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Hi Rose/ALL.
Yes we all do Glen/Harvey , i am impressed with yourself Rose as you have shown that working with open source engineers is beneficial when having a device with a COP+1. There will be more benefits, soon the establishment will have to accept it and will owe you a HUGE apology.
Dr Stiffler is probably one of the only other ones up there, imagine if we all had our own resourced backed non profit research center we would change the world over night. Thanks Glen/ALL. New doc will be up in 30 minutes with Alex's and all's data. Soon as its optimized thanks to Fuzzy il have the run time tests on the farm of the circuit in the real world to report and added to Rossie's doc, got a solar Bedini charger for that and Aaron's negative wave
Comment
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Hi Ash. How exciting is this? Indeed I'm sharing that dream for a research centre. But I'm hoping that Jibbguy will do his bit in getting this to mainstream.Originally posted by ashtweth View PostHi Rose/ALL.
Dr Stiffler is probably one of the only other ones up there, imagine if we all had our own resourced backed non profit research center we would change the world over night.
A big thank you to open source. Definitely the way to go.
Comment
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FuzzyTomCat and All,
Congratulation for doing a very good job. :-)
If there is an solution to find even better "voltage spike" capturing methods
then I'm sure we can find them.
Groundloop.Comment
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Hi Glen,
Seems to be good results, congratulations.
I had a question, it seems that your circuit is operating at around 500KHz according to the scope shots, is this correct? The period seems to be 2us.
EliasComment
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Hi elias,Originally posted by elias View Post
Thanks, I'm not totally positive on the 500KHz because I didn't have my frequency counter attached ... so the only thing I could go by was the Channel 1 information on the scope screen right side under the "mean" mV reading where the frequency numbers are, and it seemed to average 68MHz, next time I'll connect my counter and find out exactly for you and other replicators.
Glen
Open Source Experimentalist
Open Source Research and DevelopmentComment
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Hi Ash,Originally posted by ashtweth View PostHi Rose/ALL.
Yes we all do Glen/Harvey , i am impressed with yourself Rose as you have shown that working with open source engineers is beneficial when having a device with a COP+1. There will be more benefits, soon the establishment will have to accept it and will owe you a HUGE apology.
Dr Stiffler is probably one of the only other ones up there, imagine if we all had our own resourced backed non profit research center we would change the world over night. Thanks Glen/ALL. New doc will be up in 30 minutes with Alex's and all's data. Soon as its optimized thanks to Fuzzy il have the run time tests on the farm of the circuit in the real world to report and added to Rossie's doc, got a solar Bedini charger for that and Aaron's negative wave
Thanks for the many posts and kind words on this "open source" project, It's not often our community of experts can gain credibility, we some times are seen as a bunch of "ya who cowboys" with no one direction, but what we have now done puts things in perspective, that we can all work together and accomplish "great" things, and as you said possibly change the world .... in our own special way ... one step at a time (or leap).
There's much to be done now on the "Rosemary Ainslie COP>17 Heater Circuit" in some refinement, many practical applications and more research on the " Ainslie - Murakami Negitive Dominant Waveform Generator Circuit" to be done. Hopfully we can see the same support from Corporations that stepped up to the plate like Tektronix, and maybe some others that want to jump on board to further our efforts in the alternative energy fields we work on so hard.
Glen
Open Source Experimentalist
Open Source Research and DevelopmentComment
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