NO772280L - TELEVISION RECEIVER WITH A FREQUENCY SYNTHESIZING VOTE CIRCUIT - Google Patents

Description

The invention relates to a television receiver with a frequency synthesizing tuning circuit with a group of inputs for supplying channel data derived from a program selector by means of a converter, a relationship between the program selected by means of the program selector and channel data to be supplied to the group in the tuning circuit being visibly indicated .

A television receiver of this kind is known from figure 2 in "Punkschau" for 1976, volume 5, pages 166-170. IN

this known television receiver uses a frequency synthesizing voting circuit for the voting. A frequency synthesizing circuit comprises between the output of an oscillator coupled to a mixing circuit in the receiver and a frequency-controlled signal input in the oscillator, an adjustable, tuning frequency-determining comparison circuit for comparing the oscillator frequency with a reference frequency and controlling the oscillator frequency to a desired predetermined frequency.

In addition to this, as described in the above-mentioned article, it is common to add channel data to the voting circuit for

to achieve the desired vote of this. This channel data is derived from program data which is adjusted by the viewer and the relationship between the selected program and the channel data to which it is tuned is indicated in the known receiver on the picture screen in a picture tube.

The purpose of the invention is to provide

a significant simplification of such a receiver where the frequency synthesizing circuit can be maintained and the relationship between program data and channel data remains visible.

According to the invention, this is achieved by the converter comprising a combination of switches which are arranged so that the aforementioned condition is indicated by the position of the switches.

The use of switches in the converter enables the construction of simple television receivers; with a frequency synthesizing tuning circuit that does not need to include complicated storage and indicating circuits.

If, according to a further feature of the invention, the program switches in the program selector and corresponding switch in the converter are arranged in the same order and close to each other, a television receiver with a very simple and easily adjustable tuning circuit can be obtained.

The invention will be explained below with reference to the drawings. Figure 1 shows a simplified block diagram for a television receiver according to the invention. Figure 2 shows a possible embodiment of a combination of switches for a converter for a television receiver according to the invention.

In figure 1, a television signal is supplied to the input 11 of a mixer 13. The output 16 of an oscillator 17 is supplied to an input 15 of the mixer 13-Under control of the signal on the inputs 11 and 15, the mixer 13 delivers on the output 19 an intermediate frequency signal which is processed in an apparatus part 21 for video and audio signals that are reproduced.

The output 16 of the oscillator 17 is further connected to a frequency divider 22. The output from the frequency divider 22 is connected to the input 23 in a comparison circuit 25 in which the frequency of the output signal from the frequency divider 22 is compared with the resonance frequency of a crystal 27 which is connected to the terminals 29, 31 in the comparison circuit 25-The comparison circuit 25 has a terminal 33 for

to receive channel data, i.e. data that determines which channel the receiver should be tuned to. This channel data determines the frequency with which the oscillator 17 will oscillate. In addition to this, the comparison circuit 25 has an output .35 which delivers a time control signal by means of which channel data which can be supplied to the terminal 33 can be synchronized. The tuning of the oscillator 17 takes place by means of a tuning voltage which is derived on an output 45 in the comparison circuit 25-I

comparison circuit 25, the frequency of the output signal from the oscillator 17 is measured, but if desired, other types of comparison circuit can also be used, e.g. have a phase measuring circuit and an adjustable frequency divider or a harmonic counting circuit. The input 33 and the output 35 in the comparison circuit 25 are connected to a parallel-series converter 37 which has two outputs connected to inputs 47 and 49 in a program selector 51.

Channel data for the comparison circuit 25 is obtained

in the following manner. The comparison circuit 25 alternatively connects the terminals 33 and 35 with a voltage which is supplied to the inputs 47, 49 by a program selector 51-

The program selector 51 comprises a desired number of program selector switches, two of which are shown in the drawing and provided with reference numbers 53 and 55 - Each of the program selector switches 53 and 55 has two contacts whose other end is connected to two conductors 57, 59 respectively 6l, 63 in a converter 65. Each of these conductors 57, 59, 61, 63 comprises a sliding contact 67, 69, 71, 73 which can also be set so that they form contact between the conductors 57, 59, 6l, 63 and a further conductor 0, 1, 2, ...., 8, 9 which are arranged at a distance from and across the conductors 57, 59, 6l, 63, e.g. in the form of a conductor 75 on an insulating plate 77 with printed wiring. This is shown in figure 2, where the same components have the same reference number as in figure 1.

The additional conductors are numbered from 0 to 9 for

to facilitate the reading of the channel numbers from the position of the contacts 57, 59, 71, 73. Figure 2 shows the numbering on an insulating cover plate to enable immediate reading in the form of a channel number out of the position of a pair of switches 67, 69 and 71j 73 The switches 67, 69 are set to channel 27 and the switches 71, 73 are set to channel 05.

The additional conductors 0 to 9 are connected to a coding circuit 79 which ensures a code conversion so that there are only four connections to the parallel-series converter.' The parallel-serial converter 37 which is used because of the comparison circuit 25 is arranged for receiving serial data in parallel with the serial converter 81.

The program switches 53, 55 are arranged in the same order as the associated contact groups 67, 69 and 71, 73

in the switches in the converter, so that especially when the program switches 53, 55 are arranged near these contact groups, the relationship between the program to be selected and the corresponding channel number can be indicated instantly without the necessity of using special electrical circuits for this purpose.

By alternately scanning the contacts on a program switch, the two channel numbers can alternately be supplied in the parallel circuit "'25/" It is clear that, if desired, a parallel transmission can take place instead of a serial transmission. The number of contacts on the switches 53 and 55 can then be reduced to one, and the number of conductors 0 to 9 must then be chosen correspondingly larger. The number of connections to the comparison circuit suitable for a channel code then obtained must also be adapted.

In the design example, sliding contacts are used

in the converter 65, but it is clear that, if desired, rotating rotors can also be used.

Claims (2)

1. Television receiver with a frequency synchronizing tuning circuit having a group of inputs for supplying channel data derived from a. program selector by means of a converter, in that a relationship between the program selected by means of the program selector and channel data to be supplied to the group in the voting circuit is visibly indicated, characterized in that the converter comprises a combination of switches which are arranged so that said relationship is indicated by position of the switches. 2. Receiver according to claim 1, characterized in that the program selector and converter are arranged close to each other, and that the program selector comprises a number of program switches which are arranged in the same order as the corresponding switches in the converter.