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我從2013年開始研究非主流訊息,至今已告一個段落。當一個人已經漸漸了解了這個世界的情況,他就不能僅僅繼續停留在資料的研究,而需要再跨出一步,採取實際的行動去創造和成為自己想要看到的改變。現在我選擇了「凱史科技」作為我下一個階段投入的領域,作為我創造改變的支點和工具。

現在我已經把心力轉移到我新創建的《Plasma Lab:Keshe社群實驗空間》,而《地球未來》網站的資訊更新將會變少。

歡迎有興趣的朋友,與我一起投入凱史科技的學習和研究。或加入各地自發組成的凱史社群(台灣香港)。

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2014年5月23日 星期五

【HOPE GIRL】2014年5月18、19日訊息:摩洛哥QEG達成超輸出!

2014年5月18日:摩洛哥QEG達成超輸出

2014年5月19日訊息


發表人:JAMES
2014/5/19

Hey Guys! Sorry I couldn't get on with you last night. I was trying to get a set of data taken and talk to several people... it was 2:30 am before I got it all together... anyway, I'm trying it a different way... I'll leave a message here and you can see it when you get up and around, then I'll check back with you around 6 pm (EST) and we can discuss.
大家好! 抱歉昨晚沒辦法跟大家連絡。我昨晚忙著記錄數據還有跟一些人討論,忙到好就已經凌晨兩點半了。 總之呢,我們正在嘗試新的作法。我會在東岸時間晚上6點左右查看大家的訊息,到時候大家再來討論。

Here's what I've got so far. Firstly, I want to make sure we're all using peak readings at this point. Can you confirm? So here is the data from 3100 turn coils loop wired as secondary: At 2588 RPM (173Hz output frequency), for 1000W input (at the wall), I'm getting 3000W output. At 600W input, It's 1360W, and at 500W in, I've got 836W out. I'm using roughly the same cap value in series (167nF) as the original config., with the six 100W, 240 volt lamps in the loop as the load. So it's just the original C value, in series with the six lamps. For the 350 turn coils loop, I'm using 14.2uF in series, with no R value in the loop. I don't have any high wattage variable resistors here, but I have an 1800 W (30 ohms) heating element that I want to try in the circuit today.
關於我們的最新進度。首先大家要知道這裡講的數字都是峰值,大家可以幫忙確認嗎? 以下是我把3100圈的細線圈當作是輸出線圈的結果: 每分鐘轉速2588轉(輸出頻率173赫茲),輸入1000瓦可以得到3000瓦的輸出。600瓦進,1360出。500瓦進,836瓦出。電容值差不多都是167奈法拉。附載是6盞100瓦,240伏的燈泡。電容與6盞燈泡串連。350圈的粗線圈則加上14.2微法拉的串聯電容,不外加電阻。摩洛哥這邊沒有高瓦數的可變電阻,不過我今天想加在粗線圈上一個1800瓦(30歐姆)的電熱元件。

譯註: QEG起初設定細線圈是發電線圈。

I may be able to move the tap on the heating element... Some things I've noticed: With this configuration, I've actually got 3 resonances as I spin up the rotor (to 2588 RPM). The 1st and 2nd do not phase lock (I can dial right through) and are multi-phasic (power going back and forth as Jeremy mentions), and when I get to the 2588 RPM main resonance, the phase lock is amazing! I can vary the input power between about 500W to over 1000W and RPM change is less than 5. If I increase the cap value (to about 200nF), I get a resonance at very low RPM (about 1200) that really locks in, and has even more power (measured 4200W), but there is some sinewave distortion (peaks are not all the same amplitude) and it's really too slow mechanically. The main resonance has a clean sinewave.

電熱元件應該還要作些處理…我還發現到一些事情。一旦採用粗線圈當發電線圈的設定,馬達在轉速達到每分鐘2588轉前共有三個協振發電點。前面兩次沒有出現相位鎖定效應(提高轉速就沒電了),而且輸出電力是多相位的(數值會忽高忽低,不穩定)。當我設定2588轉會出現協振發電的時候,相位鎖定效應的力量相當驚人! 不管輸入是500瓦還是1000瓦以上,機器的轉速變化不超過5(譯註: 這時候輸入越多 輸出會倍量增加)。如果我把電容值增加到約200奈法拉,轉速非常低的時候就有諧振了(大約是每分鐘1200轉)。它有達到相位鎖定,而且輸出也很可觀(測量到4200瓦)。不過它也有正弦波散亂的問題(峰值出現在不同的振幅),而且轉速真的太慢了。不像是2588轉的協振點,波形就非常一致。

I remembered Evens said there was also power in the 350 turn coils (as primary) with this configuration, so I decided to see how much... and this was a big surprise... at 86Hz (half of output frequency), I measured 9,460W with 600W input, and 13,326W at 800W input! I verified with a current probe, and there is over 6 amps in the circuit! At 800W input, this is about 1590W RMS - enough to power the motor. I measured the output from the 350 turn loop previously with the original configuration, and with 700W input, I had only 1,836W peak (about 175W RMS).
我記得艾文說過:如果350圈的粗線圈作為發電線圈的話,線圈裡面也會有電力。所以我決定量測看看,結果真的是驚為天人。86赫茲的時候(輸出頻率的一半),600瓦的輸入,線圈的內含電力就有9460瓦,而800瓦的輸入,內含電力就有13,326瓦! 我用電流探棒去量,線圈裡面的電流量超過6安培!!另外800瓦的輸入,得到的有效輸出值是1590瓦,足夠帶動馬達了。我之前把350圈粗線圈當作輸出線圈的時候,700瓦的輸入頂多只有1836瓦的輸出峰值(有效值大約是175瓦)

This leads me to think: what if we went back to the original configuration, and place the C (and possibly R) in the 350 turn loop with the load? Obviously more testing is needed. But, I think there is a lot of merit with this new configuration. We need to better understand the interaction between the primary and secondary, and how to optimally tune the loops. I suspect we need at least one variable resistance, in the 350 turn/14.2uF loop, to be able to fine tune and match the resonances.
The lamps (as load) in the 3100 turn loop provide the R function. I'll try tuning the 350 coil loop today, with this 30 ohm resistive heating element I have. I like the transverter scheme as a means of getting the power out. I believe this would also provide the frequency conversion (from whatever our final output frequency will be) to 50 or 60 Hz, using the timebase in the SCR controller.
這個現象讓我連想到:如果我們改回原先的設定(細線圈當發電線圈),然後把電容(或者是電阻) 接到粗線圈跟附載相連呢? 顯然還有很多測試要做,不過我覺得新設定有很多優點。我們也得弄清楚兩組線圈之間的互動關係,還有進行優化調整的方法。我在猜我們至少需要一個可變電阻,加在350圈的粗線圈,搭配14.2微法拉的電容值,就可以達到良好的調整了。接在3100圈細線圈的燈泡可以充當電阻。我今天要用手邊的30歐姆電熱元件調整350圈的粗線圈。我想用變頻變壓整流器從QEG擷取電力。我相信變壓整流器也可以利用時基功能調整機器任何可能的輸出頻率到50-60赫茲。

譯註: 變壓整流器(transverter)是這次更新提到的新元件。功能是自動分析輸入的電源,然後可以轉變成各種電壓的直流或交流電。

Interfacing to the real world brings up another item I've been wanting to mention to you guys: Judging from Witts latest (full version) video, the lack of any discernable change in resonance/sound/RPM etc. as he turns on lamp after lamp leads me to believe there is a constant impedance load on the output. In other words, I think the generator is operated at full power, full time, and the load is completely isolated from the output circuit (transformer or inductor as load), and all the power is pulled out of the secondary. This transformer/inductor load may also be a 3rd resonant (tuned) circuit on the generator side. And possibly, this may need to be set up first, before trying to tune in to the 'sweet spot' (original configuration).
要使QEG跟現實世界接軌,我得先跟大家講一件事情: Witts最新的開燈泡展示短片中諧振/聲音/轉速等條件並沒有明顯的變化,這讓我相信他的輸出端有個持續阻抗。換句話說,我認為他的機器是全天候全力運轉,而且燈泡(附載)是完全跟機器的輸出迴路分離的(輸出迴路接的是變壓器或電感)。這個變壓器/電感附載也可能是發電機的第三組迴路(而且也要調整過)。另外有可能要先弄好這一組迴路,才能找到機器的超輸出諧振點(依照細線圈當發電線圈的原始設定)

The transverter could work this way since there is a step-down transformer... Here's another scheme we were looking at (attached - you guys may have seen this already). This magnetic converter circuit could also provide the constant impedance and frequency conversion. Take a look and let me know your thoughts. I will be back on around 6pm. Leave me your questions here, and I'll pick them up through the day and we can discuss tonight. Thanks so much for all your work and dedication! Vive La Resistance! Jamie
變壓整流器可以當作QEG的第三組迴路,因為它也是一種降壓變壓器。我們之前也有研究另一種作法(磁性分頻器,請下載附件)。這種磁性轉換迴路也可以當作持續阻抗和轉換頻率的零件。請大家研究一下,讓我知道你們的想法。我會在東岸時間晚上6點左右上線。之後我們可以進行討論。 非常感謝大家的付出和努力! 自由萬歲!

Jamie上

翻譯: Patrick Shih

※更多訊息請參閱:華人區事件聯合行動團隊導航
※更多關於QEG自由能源發電機的資訊請參閱:〈修復世界組織公開聲明〉〈QEG自由能源發電機:原理介紹〉

※轉載註:我認為目前只能說「疑似」達成超輸出。因為目前的電力輸出值,是測量輸出線圈才得到的數值,而非實際加上負載(如燈泡)後的數值。實際上有效的電力輸出值有待確認和驗證。

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