DE2160843A1 - SYSTEM FOR AN ULTRASONIC REMOTE CONTROL FOR TRANSMISSION OF IMPULSIVE REMOTE CONTROL SIGNALS - Google Patents

Description

System for an ultrasonic remote control for the transmission of pulse-shaped Remote control signals The invention relates to a system for an ultrasonic remote control for the transmission of pulse-shaped remote control signals.

For the transmission of the mentioned remote control signals in the ultrasonic range In the case of a remote control for a television receiver, it is known to use the transmitter oscillator in the transmitter part of the remote control in the rhythm of the impulses to be transmitted turn off. It has been shown that the process mentioned by numerous Foreign noises such as the clatter of keys, claps of hands, echoes, etc. are significant can be disturbed. So it is possible that during a pause step of the transmit oscillator between two impulses of the receiving part of the remote control a background noise5 that is in the ultrasonic range, receives and erroneously evaluates it like a useful pulse.

Another problem arises when the transmitter oscillator is switched off.

Since the signal transmitter on the transmitting side is a mechanical, vibrating structure (loudspeaker), it does not immediately fall silent after turning off the oscillator, but it gradually swings out. It can also happen that the signal generator is briefly excited to a natural resonance will. With these uncontrollable vibrations of the signal transmitter, it is possible that the receiving part during the actual pause steps and also after the actual Wrongly receives additional pulses at the end of a pulse train. Similar Difficulties arise from the fact that as a receiving means for the remote control signals The microphone used is also a mechanical, vibratory structure.

The invention is based on the object of a system for an ultrasonic remote control to create, in which the aforementioned noise and the vibrations of the signal generator and the microphone when switching the transmitter oscillator on and off Have influence.

The invention relates to the system mentioned at the beginning. The inventive System is characterized in that the useful frequency is used during the pulse duration a first frequency and during the between the pulses of the remote control signal lying pause steps a second frequency is sent as an auxiliary frequency, and that the auxiliary frequency is sent after the last pulse until the im Receiver part of the remote control existing means of receiving the Remote control signals are no longer ready to receive, and / or the amplitude of the after the last pulse, the auxiliary frequency is continuously and slowly reduced is that no vibrations containing the Mutz frequency are generated.

Developments of the invention and advantageous circuits for implementation of the system according to the invention are described in the subclaims.

A feature of the invention, namely the use of two switchable Frequencies for eliminating interference when transmitting a message is the so-called Frequency shift telegraphy known per se (Pitsch, textbook on radio reception technology, 1964, Volume II, page 977). However, this feature is sufficient to solve the above Task not finished.

The invention is based on an embodiment shown in the drawing is illustrated, explained.

The drawing shows the circuit of the transmitter part of an ultrasonic remote control for a television receiver and part of the circuitry of the receiving part. The one shown Remote control is used to select programs or to tune the television receiver one of four preselectable stations each. Four buttons 4 are provided on the transmitter part, each of which can be used to select a program. The outputs of buttons 4 are on a control circuit 5 is connected which contains a pulse generator and is so constructed is that it is started when one of the buttons 4 is pressed and so many pulses generated as correspond to the program selected with the relevant key 4.

The circuit part containing the transistor 10 serves as the transmitting oscillator. As an oscillating circuit for determining the oscillation frequency in the ultrasonic range serve the coil 9 and the Nondensatoren 11. The capacitor 8 serves as a capacitive Feedback for generating the oscillator oscillation.

The operating voltage source 1 (+ UB) is connected to a tap on the coil 9 connected.

To switch the frequency of the oscillator described so far to can, a tap on the coil is used via an electronic switch 9 connectable capacitor 13. The mentioned electronic switch consists of a transistor 14 and a diode 15 connected in parallel with each other.

If the transistor 14 is turned on, the positive ones flow Half-waves of the oscillations coupled via the capacitor 13 via the transistor 14, while the negative half-waves flow through diode 15. Will the transistor 14, however, blocked, the capacitor 13 charges with the first positive half-wave so far that the diode 15 is blocked for the negative half-sources.

The output voltage of the oscillator is fed to the loudspeaker 12, which serves as a signal transmitter for the transmitter. The oscillator can only then oscillate when the transistor 10 has a positive control voltage at its base is controlled. To this end, the base of transistor 10 is across a resistor 7, a switch 3 and a further resistor 2 to the operating voltage source 1 can be connected. The switch 3 is controlled by an output of the control circuit 5, such that from the actuation of one of the keys 4 to the last of the control circuit 5 generated pulse of the switch 3 conductive is. Will be one of the Buttons 4 are pressed5 so switch 3 is closed. After fast charging a capacitor 6 connected in parallel to the base of transistor 10 the resistor 2 is the operating voltage 1 at the base of the transistor 10, so that this is conductive and the oscillator oscillates. The frequency of the oscillator is first determined by the coil 9 and the capacitors 11.

zs this is the auxiliary frequency of the oscillator.

The pulse generator starts at the same time as the oscillator starts to oscillate in the control circuit 5 to oscillate. At the output of this control circuit 5 or at the tap of the voltage divider connected to the output with the resistors 16 and 17, for example, the pulse sequence 18 appears. This voltage is used for Control of the electronic switch with the transistor 14 such that the capacitor 13 is electrically connected to the coil 9 in the rhythm of the pulse train 18.

This has the consequence that the oscillator takes place during the pulses the auxiliary frequency with a different frequency, the useful frequency oscillates. The signal transmitter 12 sends out the remote control signal 19.

; Flat the last pulse of the control circuit 5 is the switch 3 open. This means that the operating voltage is 1 from the base of the transistor 10 switched off, but the oscillator continues to oscillate at the auxiliary frequency, because the charging voltage of the capacitor 6 only moves slowly across the resistor 7 and the base-emitter path of the transistor 10 is reduced. With decreasing charging voltage of the capacitor 6 decreases the amplitude of the oscillator frequency, so that at the end of the remote control signal 19 first the auxiliary frequency in full amplitude and then appears with decreasing amplitude.

The remote control signal 19 is from the microphone 20 in the receiving part received by the remote control and fed to the amplifier 21.

The amplified signal is demodulated in circuit 22 so that the signal 18 appears at the output of the circuit 22. To separate the new frequency A resonant circuit is used in circuit 22 from the auxiliary frequency. The outcome of the Circuit is connected to the input of a test circuit 24, which is used to recognize that a useful pulse has been received. The output of the test circuit 24 is connected to the set input of a monostable multivibrator 25. Recognizes the test circuit 24 a useful pulse at the beginning of a remote control signal, so the one-shot multivibrator 25 is toggled into the on-state. The outcome of the monostable flip-flop 25 is connected to the control input of an electronic switch 23 connected, which is in the connecting line between the circuit 22 and a Circuit 26 for evaluating the remote control signals is located and locked in the idle state is. Only when the monostable multivibrator 25 is tilted, the switch 23 is closed. In this case, the remote control signal arrives for evaluation circuit 26, each one output for each by means of the remote control owns selectable program. They are outputs to corresponding inputs of the not connected to the tuner of the television receiver.

The duration of the unstable on-state of the monostable multivibrator 25 is chosen so that the electronic switch 23 is conductive for at least as long is how the transmission of the maximum possible number of pulses takes. Intended to be guaranteed that the end of the auxiliary frequency signal at the end of a neglecting signal only arrives after the electronic switch 23 on the microphone 20 has been blocked again, then the capacitor 6 in the transmitting part must be made so large5 -that the duration of the auxiliary frequency at the end of the remote control signal and the duration the shortest useful pulse sequence together are longer than the duration of the unstable State of the monostable multivibrator 25.

Since the signal generator 12 according to the invention is no longer switched on and off is, but only switched between two frequencies and at the end of the Remote control signal instead of being switched off initially with the auxiliary frequency continues to oscillate and finally oscillates with gradually decreasing amplitude, he can no longer generate glitches.

The fact that in the receiving part in the pulse pauses and at the end of the remote control signal the auxiliary frequency is received, has the additional Advantage that the broadband amplifier 21, which is also used to amplify other remote control channels (e.g. volume, brightness, etc.) is used with other usable frequencies, through the auxiliary frequency is fully controlled and is therefore blocked for interference pulses of lower amplitude. The auxiliary frequency of the exemplary embodiment shown is therefore advantageous chosen so that they are at the upper end of the transmission range in the receiving section band filter used. The useful frequency is smaller than the auxiliary frequency. Make sure that there is no other remote control channel between these two frequencies because the oscillator frequency is between the whole range when switching the frequency Auxiliary frequency and useful frequency range covered.

Claims (6)

Patent claims 9 System for an ultrasonic remote control for the transmission of pulse-shaped Remote control signals, characterized in that during the pulse duration as Usable frequency a first frequency and during the between the pulses of the remote control signals 5 lying pause steps a second frequency is sent as an auxiliary frequency, and that the auxiliary frequency is sent after the last pulse until the means present in the receiving part of the remote control for receiving the remote control signals are no longer ready to receive, and / or the amplitude of the after the last pulse transmitted auxiliary frequency is continuously reduced so slowly that no the useful frequency containing vibrations are generated. 2. System according to claim 1, characterized in that the auxiliary frequency is greater than the usable frequency. 3. System according to claim 1 or 2, characterized in that the Auxiliary frequency at the upper end of the pass band used in the receiving section Band filter lies. 4. A circuit for a system according to any one of claims 1 to 3, characterized characterized in that a frequency switch (14,15) for switching in the transmitting part the frequency of the transmitting oscillator is provided, and that means for in the transmitting part Transmission of the auxiliary frequency after transmission of the last pulse are provided and / or means for continuously reducing the amplitude of the after transmission of the last pulse transmitted auxiliary frequency are provided. 5. A circuit according to claim 4, characterized in that in the reception part of the connection line between the means (21,22) for receiving the remote control signals and the means (26) for evaluating the remote control signals blocked in the idle state is, and that means (23) are provided that the connection line when receiving of a remote control signal for a certain period of time. 6. A circuit according to claim 4, characterized in that the .mittel for sending the auxiliary frequency after the last pulse and the means for continuous Reduction of the amplitude of the auxiliary frequency essentially from a capacitor (6) exist, which is parallel to the input of the transmitter oscillator connected in this way is connected so that its oscillation amplitude can be set via this input and that for storing the control voltage applied to the input of the transmitter oscillator serves. Blank page