SU77491A3 - Detector device - Google Patents

Description

It was filed on March 30, 1939 in the People's Commissariat;

USSR for L 36241 (308275)

Published September 30, 1949

An object of the present invention is a negative feedback detector device, different from the known ones in that a virtual cathode is formed between the anti-satin and screen grids of the pentode.

The invention is illustrated in the drawing.

Between the cathode J and the anode 2 lamoids of the pentode type or lentagride are arranged in succession grids, 4, 5, 6 and 7. The anode 2 remains B1 cycled; The cathode / is grounded through the resistance 8. One end of the input circuit 9 is connected by ic to the control grid 3, and is completely grounded and connected via a capacitor 10 to the cathode /. The value of the capacitor} 0 is chosen so that the carrier frequencies pass easily, and the low frequencies are delayed:. Thus, on, the resistance 8 arises the voltage of both direct current and low frequency current. This is mb. The other voltage is applied to the grid 3.

Primary contour // and secondary contour. 9 tuned to intermediate frequency. The output electrode (anode) of the detector circuit is

grid 4. It is beneficial for this electrode to have the appearance of a spiral grid.

Grid 4 through resistance 12 is connected to the positive pole of any voltage source. Through a capacitor 13, a low-frequency amplifier is connected to the grid 4.

The cathode / and grids 3 ii 4 in place, along with attached chains, are a deregenerative circuit with anodic detection or, as is sometimes said, a "diode detector with an infinite impedance. Such a detector has a linear characteristic, since the offset from the resistance of 8 is sufficiently large to almost completely blink in the absence of signals, and the low-frequency voltage on the resistance 5 times to compensate for the nonlinearity of weak signals. Therefore, the coefficient of power 1 and the detector is less than one. In the proposed scheme, a deregenerative detector works as an amplifier.

This is achieved by glueing the grid 6. Screen grids 5 and 7 are attached to the positive pole

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voltage source and grounded through a capacitor 14.

If a small negative voltage is applied when the signal is received at grid 3, then the current of grids 5 and 7 increases. Under the influence of this:; between the grid 4 and the screen grids, a virtual cathode is formed. As this phenomenon intensifies on the grid, 6: oo; Summer negative potentiality | G; Lizelchivaetsya in accordance with this .g / fall magnitude, for example, n11 F1 and j- resistance 8.

) current voltage on the network | das electrons fly across the grid to grid 4, resulting in an anode current flowing through resistance 12. Thus, the effect of grid 6 and screen grids 5 and 7 increases the low frequency stress on resistance 12. In fact when the signal strength increases, under the influence of the joint action

grids 3 and 6 increase the current of grid 4, v.p yilens anode.

Grid 7 to 5 and grid 6 operate in conjunction with a virtual cathode. This part of the lamp has a negative mutual conductivity characteristic. In other words, with an increase in bias on the grid 6, the current of the grid 4 increases. Such an effect is inverse to the action of the grid 3, the reduction of which negative bias increases the current of the grid 4.

Thus, a detector is obtained, the characteristic of which is linear within fairly wide limits, and the low-frequency voltage removed from it is enhanced compared to the voltage taken from a conventional detector.

Subject of the Invention A negative feedback detector device, distinguished by the fact that a virtual cathode is formed between the counter-inatin and the screen grids of the pentode.