Butterfly circuit: Difference between revisions

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(Created page with "In the words of the patent application, <blockquote> The principal object of the present invention is to provide ultra-high-frequency tuning apparatus which is readily tunable over a wide frequency range, and which avoids the difficulties of erratic operation encountered in some existing resonant circuit controls. </blockquote> The arrangement consist of a butterfly-type capacitor (two sets of stator plates with a butterfly-shaped rotor that needs no electrical connect...")
 
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The arrangement consist of a butterfly-type capacitor (two sets of stator plates with a butterfly-shaped rotor that needs no electrical connections) within an annular (inductive) band that surrounds and supports the stators,
The arrangement consists of a butterfly-type capacitor (two sets of stator plates with a butterfly-shaped rotor that needs no electrical connections) within an annular (inductive) band that surrounds and supports the stators,
forming parallel inductive paths between the stators.  In effect, turning the rotor varies both the capacitance and the inductance of the tuned circuit, thereby allowing a large tuning ratio without requiring any sliding or wiping contacts.
forming parallel inductive paths between the stators.  In effect, turning the rotor varies both the capacitance and the inductance of the tuned circuit, thereby allowing a large tuning ratio without requiring any sliding or wiping contacts.


Latest revision as of 20:34, 28 May 2024

In the words of the patent application,

The principal object of the present invention is to provide ultra-high-frequency tuning apparatus which is readily tunable over a wide frequency range, and which avoids the difficulties of erratic operation encountered in some existing resonant circuit controls.

The arrangement consists of a butterfly-type capacitor (two sets of stator plates with a butterfly-shaped rotor that needs no electrical connections) within an annular (inductive) band that surrounds and supports the stators, forming parallel inductive paths between the stators. In effect, turning the rotor varies both the capacitance and the inductance of the tuned circuit, thereby allowing a large tuning ratio without requiring any sliding or wiping contacts.

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