 |
|
|
continuous wave | A Wisdom Archive on continuous wave | | continuous wave A selection of articles related to continuous wave | |
| | continuous wave | | | Page 1 Page 2 » Page 3 « More » | |
| |
| ARTICLES RELATED TO continuous wave | | | |  continuous wave: Encyclopedia II - Tesla coil - Instances and devicesTesla's Colorado Springs laboratory possessed one of the largest Tesla coils ever built, known as the "Magnifying Transmitter". The Magnifying Transmitter is somewhat different from classic 2-coil Tesla coils. A Magnifier uses a 2-coil "driver" to excite the base of a third coil ("Resonator") that is located some distance from the driver. The operating principles of both systems are similar. The world's largest currently existing 2-coil Tesla coil was made by Greg Leyh. It is a 130,000 watt unit, part of a 38 foot tall sculpture. It is owned by Alan Gibb and currently resides in a private sculpture p ...
See also:Tesla coil, Tesla coil - History, Tesla coil - Early coils, Tesla coil - Disruptive Tesla coils, Tesla coil - Later coils, Tesla coil - Description, Tesla coil - Utilization and production, Tesla coil - Transmission, Tesla coil - Safety and precautions, Tesla coil - Air discharges, Tesla coil - Reception, Tesla coil - The skin effect myth, Tesla coil - Instances and devices, Tesla coil - Popularity, Tesla coil - Related Tesla patents, Tesla coil - Further reading and other references Read more here: » Tesla coil: Encyclopedia II - Tesla coil - Instances and devices |
| |
| | | | | continuous wave: Encyclopedia II - Tesla coil - Description Later coils consist of a primary tank circuit, which is a series LC circuit composed of a high voltage capacitor, spark gap, and primary coil; and the secondary LC circuit, a series resonant circuit consisting of the secondary coil and the toroid. In Tesla's original plans, the secondary LC circuit is composed of a loaded secondary coil which is then placed in series with a large helical coil. The helical coil is then connected to the toroid. The toroid actually forms one terminal of a capacitor, the other terminal being the Earth (or "groun ...
See also:Tesla coil, Tesla coil - History, Tesla coil - Early coils, Tesla coil - Disruptive Tesla coils, Tesla coil - Later coils, Tesla coil - Description, Tesla coil - Utilization and production, Tesla coil - Transmission, Tesla coil - Safety and precautions, Tesla coil - Air discharges, Tesla coil - Reception, Tesla coil - The skin effect myth, Tesla coil - Instances and devices, Tesla coil - Popularity, Tesla coil - Related Tesla patents, Tesla coil - Further reading and other references Read more here: » Tesla coil: Encyclopedia II - Tesla coil - Description |
| |
| | | | | continuous wave: Encyclopedia II - Tesla coil - The skin effect myth The dangers of high frequency electrical current are sometimes perceived as being less than at lower frequencies. This is often, but mistakenly, interpreted as being due to skin effect, a phenomenon that tends to inhibit alternating current from flowing inside conducting media. Although skin effect is applicable to good electrical conductors (i.e., metals), the skin depth of human flesh at typical Tesla Coil frequencies is still of the order of 60 inches or more. This means that high frequency currents will still preferentially flow through ...
See also:Tesla coil, Tesla coil - History, Tesla coil - Early coils, Tesla coil - Disruptive Tesla coils, Tesla coil - Later coils, Tesla coil - Description, Tesla coil - Utilization and production, Tesla coil - Transmission, Tesla coil - Safety and precautions, Tesla coil - Air discharges, Tesla coil - Reception, Tesla coil - The skin effect myth, Tesla coil - Instances and devices, Tesla coil - Popularity, Tesla coil - Related Tesla patents, Tesla coil - Further reading and other references Read more here: » Tesla coil: Encyclopedia II - Tesla coil - The skin effect myth |
| |
| | | | | continuous wave: Encyclopedia II - Phase-shift keying - Higher-order PSK For the general M-PSK there is no simple expression for the symbol-error probability if M > 4. Unfortunately, it can only be obtained from:
where
,
,
,
and
and are jointly-Gaussian random variables.
This may be approximated for high M and high Eb ...
See also:Phase-shift keying, Phase-shift keying - Introduction, Phase-shift keying - Ideal structure, Phase-shift keying - Transmitter, Phase-shift keying - Receiver, Phase-shift keying - Definitions, Phase-shift keying - Applications, Phase-shift keying - Binary Phase-shift Keying BPSK, Phase-shift keying - Implementation, Phase-shift keying - Quadrature Phase-shift Keying QPSK, Phase-shift keying - Implementation, Phase-shift keying - QPSK signal in the time domain, Phase-shift keying - Offset QPSK OQPSK, Phase-shift keying - π / 4–QPSK, Phase-shift keying - Higher-order PSK, Phase-shift keying - Differential Encoding, Phase-shift keying - Example: Differentially encoded BPSK, Phase-shift keying - Differential Phase-shift Keying DPSK, Phase-shift keying - Notes Read more here: » Phase-shift keying: Encyclopedia II - Phase-shift keying - Higher-order PSK |
| |
| | | Page 1 Page 2 » Page 3 « More » | |
| |
|
|
