DE938552C - Circuit arrangement for overlay receiver - Google Patents

Description

Circuit arrangement for heterodyne receivers The invention relates to a circuit arrangement for superimposition receivers, in particular for ultra-short waves, one for the simultaneous amplification of the high frequency and the intermediate frequency contains serving tube. Receiver circuits have already become known in one for the simultaneous amplification of high and intermediate frequency oscillations Serving tube system also to amplify the rectification from the High frequency obtained low frequency was exploited. While there is such a Multiple use of an amplifier tube is relatively easy, the one in the anode circuit high-frequency and low-frequency voltages occurring simultaneously from each other to separate, prepares the separation of simultaneously amplified in one and the same tube High frequency and intermediate frequency considerable difficulties, mainly because the amplified intermediate frequency from the grid of the following mixer tube by special Switching measures must be kept away.

These difficulties arise without a great deal of effort in terms of switching means the circuit arrangement according to the invention fixed in that between the anode this tube and a suction circuit located in the anode circuit, which is connected to a middle Intermediate frequency matched and at the same time part of the one to be amplified High frequency tuned, possibly tunable oscillating circuit is a Parallel resonant circuit tuned to the same frequency is switched on, the serves to decouple the intermediate frequency and, for example, the primary circuit of a IF band filter represents. The new circuit is characterized in that the Intermediate frequency under the greatest possible gain in the anode circuit the common amplifier tube is filtered out, while the high frequency is also filtered out fed to the downstream amplifier or mixer tube with the greatest possible amplification will.

The cost of components is increased by taking advantage of a for suppression the intermediate frequency serving suction circuit as part of a to be amplified High frequency tuned oscillation circuit and by decoupling the IF via the parallel oscillation circuit kept small. Although it is known per se, a branch an oscillating circuit that is tuned to a frequency to be amplified, to be designed as a suction circuit for frequencies to be suppressed, but the circuit was not taken in such a way that the frequency suppressed in the gain channel a further amplification channel was fed. In another one that has become known Circuit with one for the simultaneous amplification of high frequency and intermediate frequency serving tube is to the anode although the series connection of a parallel and a Reihensch @ .vingkreises, both of which are matched to the IF, are connected, however This suction circuit did not form part of an oscillation circuit tailored to the HF, and another parallel resonant circuit was provided for decoupling the IF. As a result, the number of components required was higher than for the circuit according to the invention.

The one for the simultaneous amplification of the high frequency and the intermediate frequency Serving tube can also serve as a low frequency tube, whose Anode working resistance preferably at the connection point of coil and capacitor of the suction circuit in the anode circuit is connected.

The invention and related details are based on the in the Drawing shown circuit example explained in more detail. 'The mixing tube for example, for ultra-short wave reception in the range from 9o to 100 MHz Serving superimposition circuit is denoted by Rö 2. Between the one control grid the system of this tube and mass that serves to mix is one on the one to be received High-frequency tunable oscillation circuit switched on, which consists of the coil L 2 and capacitors C 2 and C4. The capacitor C4 is used as a tuning capacitor educated; Of course, the vote can also be done using a variometer take place. The branch of this oscillating circuit, which consists of the coil L 2 and the capacitor C2 is designed as a suction circuit, which is to be kept away from the grid of the mixing tube Rö2 Intermediate frequency of, for example, io, 7 MHz is tuned. For precise adjustment this suction circuit is the coil L2, expediently adjustable.

In front of the mixing tube Rö 2, connected by a coupling capacitor C 3, is the tube Rö 3, which is connected as a reflex stage. In the anode circuit of this tube there is a suction circuit tuned to a central IF, which consists of a coil L i and a capacitor C i. Between this suction circuit and the anode of the tube Rö 3 there is a parallel oscillating circuit consisting of a coil L 3 and a capacitor C 7 , which is tuned to a mean IF and, for example, forms the primary circuit of the first band filter BF of the IF channel. The anode-cathode capacitance of the tube Rö 3 and the relevant switching capacitances are indicated by a capacitor C 6. The DC anode voltage is fed to the tube Rö 3 via an ohmic resistor R i, which is located at the junction of the capacitor C i, which is earthed on one side, and the coil L i. This resistance R i represents the anode resistance of the tube Rö 3 for the low frequency that is also to be amplified in it.

The voltages of three different frequency ranges to be amplified by this tube are located at the control grid of the tube 3. The HF voltages coming from the antenna, for example, are preferably amplified by the tube, since the coil L i and the switching and tube capacitances represented by the capacitor C 6 form an oscillating circuit that is tuned to an average HF and acts as a working resistance for the tube Rö 3 has a high impedance in this frequency range. The increased HF voltages pass through the coil L: 2 and capacitors C2 and C q. formed pre-circle to the first control grid of the hexode system of the mixing tube Rö 2. A leakage of high-frequency energy of this area into the IF and LF channel is not to be feared, since the capacitors C 7 and C i have an extremely low impedance for these frequencies own. -For the IF amplified in the tube Rö 3, the suction circuit formed by the coil L i and the capacitor C i is low-resistance, and the amplified voltage is practically in full on the primary circuit of the band filter BF. The IF voltage occurring at the suction circuit L i, C i due to its effective resistance reaches only a small part of the suction circuit formed by coil L2 and capacitor C: 2 , since the coupling capacitor C 3 has a relatively high resistance for these frequencies. The low residual IF voltage that is still present is diverted to ground by the suction circuit C2, L 2, so that these frequencies are sufficiently suppressed at the first control grid - the hexode system of the tube Rö 2. For the low-frequency voltage occurring in the anode circuit of the tube Rö 3, the apparent resistances of the coils L 3 and L i are negligible, and the LF can be picked up at the anode-side end of the resistor R i. If the resistor R i is sufficiently large, it can also be connected to the connection point between coil L i and capacitor C3.

Claims (1)

PATENT CLAIMS: i. Circuit arrangement for heterodyne receivers, in particular for ultra-short waves, with a tube serving for the simultaneous amplification of the high frequency and the intermediate frequency, characterized in that between the anode of this tube (Rö 3) and a suction circuit (L i, C i) located in the anode circuit, the a mean intermediate frequency is tuned and at the same time is part of an oscillating circuit that is tuned to the high frequency to be amplified, if necessary tunable, a parallel oscillating circuit (L3, C7) tuned to the same frequency is switched on, which serves to decouple the IF and, for example, the primary circuit of an IF band filter ( BF). a. Circuit arrangement according to Claim i, characterized in that the tube (Rö 3) serving for the simultaneous amplification of the HF and the IF also serves as a low-frequency amplifier tube, the anode working resistance (R i) of which is preferably connected to the connection point of the coil (L i) and the capacitor (grounded on one side). C i) of the suction circuit (L i, C r) lying in the anode circuit is connected. References: French Patent No. 784 136; Circuit diagram of the Blaupunkt receiver F 5 io WH.