radar transmitters
UHF TV transmission
A: It is a microwave oscillator device.
clapp oscillator have frequency more stable and accurate than colpitts oscillator.
A Colpitts oscillator is the electrical dual of a Hartley oscillator. The Hartley oscillator is an LC electronic oscillator that derives its feedback from a tapped coil in parallel with a capacitor. http://en.wikipedia.org/wiki/Colpitts_oscillator http://en.wikipedia.org/wiki/Hartley_oscillator ~MECHASUN~ A Colpitts oscillator is the electrical dual of a Hartley oscillator. The Hartley oscillator is an LC electronic oscillator that derives its feedback from a tapped coil in parallel with a capacitor. http://en.wikipedia.org/wiki/Colpitts_oscillator http://en.wikipedia.org/wiki/Hartley_oscillator ~MECHASUN~
depends on the oscillator and its purpose
Colpitt oscillator is better than hartley because colpitt produces less phase noise and uses capacitor instead of inductor as used in hartley oscillator which means that area is also saved.
AM broadcast - 535~1605 kHz tuning range. The 365 pF cap is most likely in the aerial circuit, as most modern receivers would use a smaller-value section for local oscillator tuning. Alternately, a set may use the *same* value for aerial and local oscillator, with a padding capacitor to reduce the effective max value of the oscillator section.
A: It is a microwave oscillator device.
klystron can act as both an amplifier and oscillator whereas a reflex klystron can act as only an oscillator. klystron needs a buncher cavity(sometimes multiple bunchers) and a catcher cavity whereas a reflex klystron needs only one cavity. klystron bunches electrons in forward direction, whereas the other bunches in the reverse direction using a reflector plate. klystron needs i/p signal (accelerating or deccelerating potential) whereas the other dont.
The Reflex Klystron:Another tube based on velocity modulation, and used to generate microwave energy, is the REFLEX KLYSTRON. The reflex klystron contains a REFLECTOR PLATE, referred to as the REPELLER, instead of the output cavity used in other types of klystrons. The electron beam is modulated as it was in the other types of klystrons by passing it through an oscillating resonant cavity, but here the similarity ends. The feedback required to maintain oscillations within the cavity is obtained by reversing the beam and sending it back through the cavity. The electrons in the beam are velocity-modulated before the beam passes through the cavity the second time and will give up the energy required to maintain oscillations. The electron beam is turned around by a negatively charged electrode that repels the beam. This negative element is the repeller mentioned earlier. This type of klystron oscillator is called a reflex klystron because of the reflex action of the electron beam. Check out the link below for more information.
What is probably the primary advantage of the reflex klystron over the two-cavity klystron is the mechanism used to tune the device. The two-cavity klystron has mechanical tuning, but the reflex klystron is tuned electrically. And it doesn't take an electrical engineering degree for an investigator to figure out that electrical controls can be manipulated a whole bunch faster than a mechanical device.
The Magnetron tube is quite different from the Klystron tube. The Magnetron tube is can only function as an oscillator only.
Jim use dc supply in oscillator circuits to and ac out put.
yes
To increase the efficiency. Comparison between crystal oscillator and ceramic resonator.
The X-band microwave bench is a system which provides standard type rectangular wave-guide components. It includes the study of reflex Klystron and impedance measurement.
Several oscillator designs use a tapped coil in the tuned circuit. The most common is the Hartley oscillator.
That was an automatic reflex.
There are many different types of oscillator circuits, the majority of which use positive feedback.