DE2757643C2 - Channel selection system - Google Patents

Description

The invention relates to a channel selection system for telecommunications equipment, in particular television sets for direct selection of a single channel from a frequency band by means of a mechanically operated Channel selection switch and storage of the same in · «> an electronic memory associated with the channel selection system.

In a known channel selection system of this type. the channel is selected by pressing the channel selector switch and additional pressing of a memory button, so that the selected channel in the electronic Memory is entered.

The object of the present invention is to find a way of how with a channel selector switch, saving an additionally required memory button, which is used when searching for receivable Channels must be operated after each new setting of the channel selector switch, the individual Channels can be switched on and stored at the same time.

This object is achieved according to the invention in that the channel selector switch with an additional, mechanically actuated contact is equipped, which generates a pulse with each channel switch, the enables the information of the currently tuned channel in one of the channel selection system associated electronic memory is stored.

This means that the pulse generated by the additional contact of the channel selector switch is saved in the electronic memory is guaranteed even if the channel selector switch is switched very quickly, can enter the line of the additional contact of the channel selector switch for electronic control Pulse shaping element can be switched on, which is independent of the length of the additional contact incoming impulse by the time unit of 100 extended to 300 msec.

Advantageous embodiments of the invention are shown in the drawing and are described below described in more detail:

F i g. 1 shows the channel selection system according to the invention as a block diagram;

F i g. 2 and F i g. 3 each shows an embodiment of the switched into the line of the additional contact of the channel selector switch to the electronic memory Pulse shape quality;

4 shows the mode of operation of the pulse shaping element, the switch-on voltage Ue being shown as a function of the time f.

In Fig. 1 is a channel selector switch 10 with a wheel switch for the one and a wheel switch for the The tens decimal place of the channel number that is currently set to channel number 24 is shown. Of the Channel selector switch 10 is connected to an electronic memory 13 via four connecting lines.

The two additional contacts 11, which with the Channel selector switch 10 are operated with a connection to the input of the pulse shaping element 12 and with the other connection to ground. The output of the pulse generator 12 is connected to the input of the electronic memory 13 is connected.

In Fig. 2 is an exemplary embodiment of such a pulse shaping element 12 with the additional contact 11 of the channel selection switch 10 shown

When the channel selector switch 10 is switched over, one of the two additional contacts 11 is briefly closed. As a result, the capacitor G is discharged via the resistor /? J via the input E of the pulse shaping element 12. The transistor Γι becomes conductive and a pulse is emitted at the output A of the pulse shaping element 12 and stored in the electronic memory 13. The time constant of the resistors R \, R2 of the capacitor Ci gives the pulse duration. After the capacitor G is charged again, the transistor Γι is blocked and there is no more pulse at output A. At the terminal S of the pulse shaping element 12, a battery voltage of z. B + 5 volts applied.

In Fig. 3, another embodiment is one Pulse shape quality 12 shown.

First, the transistor Γι is blocked via the resistor /? I. When the channel selector switch 10 is actuated, one of the two additional contacts 11 closes (automatically) and the capacitor Ci is charged via the resistor Ri via the input E. As a result, the transistor T \ becomes conductive and a pulse is emitted at output A and entered into the electronic memory 13. After the contacts 11 are opened, the capacitor Ci is first discharged again via the resistors Ri, Ri and via the emitter-base path. After reaching the threshold voltage of the emitter-base diode of the remaining discharge current of the capacitor flows to the base of transistor Γι after gradually transition Q via the resistors R3, R2 and Ru The transistor T \ is blocked again and is thus available at the output A no pulse more at. The resistor R3 is a protective resistor during the charging process of the capacitor Q and determines the charging time constant:

^r load = R ₃ * Q

3 4

The discharge time constant in the time domain in FIG. 4 shows the charging and discharging processes at

which transistor is conductive is determined by closing and opening the additional contact 11

the series connection of the resistors R ₅ and R ₂ ; by mapping the switch-on voltage U _E in dependence

_,,. "". _ ity of the time; shown.

^T discharge = (Rj + R ₂ ) ■ Q ,

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: Channel selection system for telecommunications equipment, in particular televisions for direct Selection of a single channel from a frequency band by means of a mechanically operated channel selector switch and storing the same in an electronic device associated with the channel selection system Memory, characterized in that the channel selection switch (10) with an additional, mechanically actuated contact (11) is equipped with a pulse each time the channel is switched generated, which enables the information of the currently tuned channel in one of the channel π electronic memory (13) associated with the selection system is stored. 2. Channel selection system according to claim 1, characterized in that a pulse shaping element (12) is switched on in the line of the additional contact 'U) of the channel selection switch (10) to the electronic memory (13). 3. channel selection system according to claim 1 and 2, characterized in that the pulse shaping element (12) the impulse coming from the additional contact (11) by the time unit from 100 to 300 msec extended.