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Dev:NSROS:Phased Magnetic Nucleosonic Field Array: Difference between revisions
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XenoEngineer (talk | contribs) (Created page with " ===The Field Array, proper,=== is ring-configuration of a power-level 2-input inverting NAND gate —clicking in under one kilowatt output current rating —and very, very fast. The configuration schematic pictures as three logic flip-flops connected in a ring, with the X-crossover typical of the flip-flop latching signal conductors —with said circuits activating as heavy-current sinks with very fast slew rates of modern power transistors (eGaN, e.g.,...") |
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===The Field Array, proper,=== | ===The Field Array, proper,=== | ||
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The latch outputs activate power-transistors, which switches are activated sequentially, and the sequential signal is the activating signal traveling the ring... a ring of inductors sequentially activating the next segment to invert it's output. | The latch outputs activate power-transistors, which switches are activated sequentially, and the sequential signal is the activating signal traveling the ring... a ring of inductors sequentially activating the next segment to invert it's output. | ||
This configuration, referred to as a Resonant-X ring configuration (Res-X) | This configuration, referred to as a Resonant-X ring configuration (Res-X). | ||
Revision as of 14:21, 22 September 2023
Template:HeaderXenoEngineering
The Field Array, proper,
is ring-configuration of a power-level 2-input inverting NAND gate —clicking in under one kilowatt output current rating —and very, very fast.
The configuration schematic pictures as three logic flip-flops connected in a ring, with the X-crossover typical of the flip-flop latching signal conductors —with said circuits activating as heavy-current sinks with very fast slew rates of modern power transistors (eGaN, e.g., EPC2022).
The configuration is a ring of SR logic latches with certain segmentation interconnections of inputs to outputs, forming a differential ring oscillator (at power levels oscillating through short inductors entangled on a donut).
The latch outputs activate power-transistors, which switches are activated sequentially, and the sequential signal is the activating signal traveling the ring... a ring of inductors sequentially activating the next segment to invert it's output.
This configuration, referred to as a Resonant-X ring configuration (Res-X).