DE703347C - Receiver with noise elimination and sharpening - Google Patents

Description

Receiver with noise elimination and sharpening of receivers with shrinkage control occur during voting when transitioning from a transmitter on the other hand, noise disturbances are particularly evident because: - between the individual Transmitters increase the gain. It is known to eliminate this disadvantage a highly selective oscillation circuit at a high frequency carrying point of the receiver, z. B. to couple a quartz and rectify the high frequency filtered in this way and to be used as an unlock voltage for a tube of the receiver. This tube is then only released when precisely coordinating a station. So it will at the same time achieved a sharp vote. Because the use of a quartz to achieve a narrow resonance curve is expensive, the use of feedback would be desired on the sharp circle.

The invention is a known circuit for noise elimination and based on a sharp vote, with the one behind the sharp circle Amplifier tube is provided, which is blocked by the received carrier frequency and thereby unlocks a receiver tube. According to the invention the amplifier tube following the sharp circle becomes one with respect to a screen grid following grid and the anode in the manner of an audion for extraction the unlocking voltage, while the one in front of the screen grid A feedback voltage is fed to the grid from the selective circle and from the screen grid the feedback current for the selective circle is tapped.

In contrast to the invention, if you had a tube with a use a single control grid and take the feedback current from the anode, so the top of the resonance curve would be flattened because the feedback is a result the blocking of the anode current of this tube becomes ineffective when sharpening. This also applies if the tube is connected as an audion, since the anodes: Voltage dimensioned so small compared to the incident carrier frequency voltage must be that a blockage of the tube occurs.

The figure shows .an embodiment of the invention. The intermediate frequency got from the oscillating circuit Z on the one hand to the receiving rectifier G with resistance W1 and on the other hand via the small capacitor C (loose coupling) to the selective one Oscillation circuit S.

If no transmitter is received, the low-frequency amplifier tube N is blocked because an anode current flows in the anode circuit of tube I (so that the potential of point P is closer to - G than to - G.ax. As a result, the negative grid bias of tube N great.

The anode voltage of the tube I (is the voltage between the points - G and - G, npx. This anode voltage is dimensioned so small that the anode current is blocked by the negative bias voltage occurring at the third grid of the tube 1 (. This is the case, if a transmitter is sharply tuned, because then at the resistor LV. through rectification between the third grid and the cathode of the tube I (a negative bias voltage. As a result of the blocking of the anode current, the potential of the point P shifts in a positive direction Tube N then receives the small negative grid bias - G and is therefore unlocked. If the anode current of tube I (is blocked, feedback still occurs because the current flowing to the screen grid is controlled by the high-frequency voltage prevailing at the oscillating circuit S. Screen grid current also flows when the anode current is blocked.

Claims (1)

Claim: Receiver with noise elimination and sharp tuning by means of a sharp circle and a subsequent amplifier tube, which is blocked by the received carrier frequency and thereby unlocks a receiver tube, characterized in that the amplifier tube following the sharp circle with respect to a grid following a screen grid and the anode is connected like an audio to obtain the unlocking voltage, while the grid in front of the screen grid is fed a feedback voltage from the clear circle and the feedback current for the clear circle is taken from the screen grid.