User talk:Thingmaker: Difference between revisions
m Why R3 and R4 constitute a voltage summer... |
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Best regards, Cyril ([[User:Circuit dreamer|Circuit dreamer]]). |
Best regards, Cyril ([[User:Circuit dreamer|Circuit dreamer]]). |
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Thanks [[User:Circuit dreamer|Circuit dreamer]]. I guess there are two of us banned from Wiki's logic circuit descriptions. It appears they prefer information from amateur handbooks to first hand knowledge. I just made a new comment about the DTL description. It is a disaster! I will check the sits you referenced. [[User:Thingmaker|ThingMaker]] |
:Thanks [[User:Circuit dreamer|Circuit dreamer]]. I guess there are two of us banned from Wiki's logic circuit descriptions. It appears they prefer information from amateur handbooks to first hand knowledge. I just made a new comment about the DTL description. It is a disaster! I will check the sits you referenced. [[User:Thingmaker|ThingMaker]] |
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I just looked at your [https://en.wikipedia.org/wiki/Talk:Emitter-coupled_logic/Archive_1#Expert_editing_needed Archive_1]). It makes me want to go back into hiding![[User:Thingmaker|ThingMaker]] |
:I just looked at your [https://en.wikipedia.org/wiki/Talk:Emitter-coupled_logic/Archive_1#Expert_editing_needed Archive_1]). It makes me want to go back into hiding![[User:Thingmaker|ThingMaker]] |
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::Hi Thingmaker. Your story about the [[Talk:Diode–transistor logic#Two Worlds|development of logic gates]] is just incredible... you have to publish it in some more suitable and reputable place... I just want to say a few words in defense of what is written by me in the DTL page: |
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::''"The two resistors R3 and R4 form a resistive summing circuit with weighted inputs that adds the negative bias voltage V− to the positive diode logic output voltage... As a result, the unipolar (positive) diode output voltage (about V+ for logical one and 1.0 V for logical zero) is converted into a bipolar voltage (a few volts above and below ground) to drive the output transistor"'' |
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::I understand your [[Talk:Diode–transistor logic#Has anybody read this?|reaction]] since the written is a bit unconventional explanation... but to be honest, it is still true... You are right that ''"R3 and R4 provide a current sum to drive the base"''... but it is also true that actually they add voltages... R3 and R4 act as voltage-to-current converters that convert the diode output voltage and the negative bias voltage into currents... then these currents are summed (subtracted)... and the current sum drives the base. This summing circuit is so important that I have dedicated a [[Wikibooks:Circuit_Idea/Parallel_Voltage_Summer|separate story]] about it in Circuit Idea wikibook. Regards, [[User:Circuit dreamer|Circuit dreamer]] ([[User talk:Circuit dreamer|talk]], [[Special:Contributions/Circuit dreamer|contribs]], [[Special:EmailUser/Circuit dreamer|email]]) 07:10, 22 July 2014 (UTC) |
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== [[Diode-transistor logic]] == |
== [[Diode-transistor logic]] == |
Revision as of 07:10, 22 July 2014
Welcome to Wikipedia again!
"I always liked the impossible... I found quite often impossible problems could be solved with extremely simple methods..."
How wonderful that sounds, William! Wikipedia should be proud when such remarkable personalities as you want to participate in it!
A few years ago, I followed with interest your professional comments, especially on the talk pages dedicated to TTL and ECL logic gates (e.g., in Archive_1). Unfortunately, no one paid any serious attention and do not reflect them in the Wikipedia articles...
I (Circuit dreamer) contributed closely in Wikipedia during 2006-2010 and then I managed to make a lot in its circuit section; see for example my list of contributions... and especially the articles about digital circuits.
But my efforts to find clear, simple and powerful explanations of basic circuit solutions were perceived by Wikipedians as original research. As a result, I was banned from editing and actually I abandoned Wikipedia...
Then I (Circuit-fantasist) entirely moved to Wikibooks where I created Circuit Idea - a book about great circuit ideas; see for example the story about ECL.
Best regards, Cyril (Circuit dreamer).
- Thanks Circuit dreamer. I guess there are two of us banned from Wiki's logic circuit descriptions. It appears they prefer information from amateur handbooks to first hand knowledge. I just made a new comment about the DTL description. It is a disaster! I will check the sits you referenced. ThingMaker
- I just looked at your Archive_1). It makes me want to go back into hiding!ThingMaker
- Hi Thingmaker. Your story about the development of logic gates is just incredible... you have to publish it in some more suitable and reputable place... I just want to say a few words in defense of what is written by me in the DTL page:
- "The two resistors R3 and R4 form a resistive summing circuit with weighted inputs that adds the negative bias voltage V− to the positive diode logic output voltage... As a result, the unipolar (positive) diode output voltage (about V+ for logical one and 1.0 V for logical zero) is converted into a bipolar voltage (a few volts above and below ground) to drive the output transistor"
- I understand your reaction since the written is a bit unconventional explanation... but to be honest, it is still true... You are right that "R3 and R4 provide a current sum to drive the base"... but it is also true that actually they add voltages... R3 and R4 act as voltage-to-current converters that convert the diode output voltage and the negative bias voltage into currents... then these currents are summed (subtracted)... and the current sum drives the base. This summing circuit is so important that I have dedicated a separate story about it in Circuit Idea wikibook. Regards, Circuit dreamer (talk, contribs, email) 07:10, 22 July 2014 (UTC)
Just to let you know that I moved your comment from the article itself on to the article's talk page: Noyster (talk), 22:02, 21 July 2014 (UTC)
I don't understand! As far as I know I put my comments on the Talk page. If I placed it on the article I regret the error.ThingMaker