DE1538422B2 - Receiving part of a remote control device - Google Patents

Description

The invention relates to a receiving part of a remote control device with a multistable Trigger circuit with more than two transistors, each with at least one consumer in their collector branch lies, with a leakage resistor connected to the active pole of a supply voltage source for each transistor is in series with a base resistor connected to the base of this transistor and at the connection point Semiconductor diodes are connected between the bleeder resistor and the base resistor, which are each connected to a collector of all other transistors and which are polarized in reverse direction,

ίο if the transistor belonging to the respective collector Is blocked.

From the German Auslegeschrift 1064105 is a in the manner constructed multistable switch for telecommunications systems known, in which the transistor to be switched from positive or negative applied to its base via a control line Pulses is switched.

This type of control is, however, with remote control devices not for television receivers

2o: possible because the transistors of the multistable trigger circuit in this case not transmitted via lines Pulses can be controlled.

On the other hand, it is also known for wireless remote control of electronic devices under-

35: to emit different frequencies and thus im The receiver can be controlled via crossovers (selective circuits), relays or motors. Such an arrangement for ten channels is described in the magazine "Funkschau", 1964, pages 513 to 515. Of the

30: Low frequency part of the six-channel receiver specified therein contains a resonance circuit with associated transistor amplifier stage for each transmission frequency, which only switches through after a response threshold has been exceeded. The individual transistor amplifiers are independent of each other on the collector side and control circuits for actuating Relays or motors.

Another circuit for the remote control of television sets is from the magazine »Radio-Motoren«, 1961, pages 924 to 926, known. A transmitted ultrasonic signal causes the receiving part this arrangement brought selective stages to respond. These are also transistor amplifier stages, which switch through when a sufficiently large signal occurs and one relay or each Bring a motor to respond, with which the receiver continuously up to a worthy reception Signal is tuned through. Here, too, the individual transistor amplifier stages are on the collector side independent of each other.

Such remote control devices are very complex and expensive, since they are electronic-mechanical Assemblies. It also takes a relatively long time to tune the engine is switched from one transmitter to the other, which is also perceived as disadvantageous.

Based on the state of the art mentioned at the beginning (German Auslegeschrift 1 064105) the object of the invention is the receiving part of a remote control device, for example for Television receiver to be designed in such a way that each transistor has its own, simply structured, frequency-selective Input circle is created.

According to the invention, this object is achieved in that an inductance is used as the base resistance, which is coupled to a filter that is tuned to a different resonance frequency forms the input circuit of the receiving part.

According to a further development of the invention, a further semiconductor diode is connected in series with the inductance in the flow direction with respect to that of the supply voltage source through the bleeder resistor and this inductance switched the flowing current. Advantageously, is also used as a consumer in Collector circuit of the transistors used at least one voltage divider and the one at its tap for Available voltage is supplied to capacitance diodes or transistors.

The inventive solution is thus achieved that on wired actuation of the multi-stable switch can be dispensed with. Furthermore, there are no preliminary stages for generating the line-bound Actuation pulses required, so that there is a very favorable receiving part, its Susceptibility to failure is very low.

The invention will now be explained in more detail using the exemplary embodiment shown in the drawing.

Fig. 1 shows the principle of the invention using the example of a three-stage circuit. Each stage contains a transistor T ₁ , T ₂ , T ₃ , the base branch of which is connected via diodes D ₁₂ , Z) _n , Z) ₂₁ , D ₂₃ , D _3x , D ₃₂ to the collector of each transistor of the other stage in such a way that only one transistor in the circuit is switched on and the others are inevitably blocked. In each collector circuit there is a consumer R _L whose end remote from the transistor is connected to the active pole of the supply voltage source U.

In addition, the base branch of each transistor contains an inductance L _B , via which an AC voltage signal can be fed, and a bleeder resistor A ₁ , R ₂ , R ₃ , via which the inductance L _{B is} connected to the active pole of the supply voltage source U. This alternating voltage is rectified in the base-emitter path of the transistor and controls it through if it was previously blocked. The transistor of the circuit that was previously activated is inevitably blocked. So that only one transistor is controlled at a time, the control windings in the base branches of the transistors are each coupled to resonance circuits of different resonance frequencies. With a control signal fed to all resonance circuits, only the transistor whose control winding is connected to the. Signal frequency matched resonance circuit

'is closed. As an example of this, Fig. 1, dashed lines indicate the use of LC parallel resonance circuits Jf ₁ , / ₂ , j ₃ , but the use of series resonance circuits or other types of filters is also possible. When the base-emitter threshold voltage of the transistors is approximately the same or even lower

ίο as the sum of their collector-emitter saturation voltage and the flow voltage of the diodes between collector and inductance, an additional semiconductor diode D ₁ , D ₂ , D ₃ must be connected in the flow direction in the base branch of each transistor (dashed line drawn).

Fig. 2 shows an example of a circuit in television receivers which are tuned with varactor diodes. The collector resistors R _L are designed as voltage dividers P , ie as potentiometers, on which the capacitance diode bias voltage associated with a specific receiving channel can be set. The potentiometer taps must be decoupled _{by semiconductor diodes D 10} D ₂₀ D ₃₀ D _ir , D _2T , D _37.

In addition, partial voltages for controlling the volume, brightness or contrast of the receiver can be taken from additional voltage dividers P 'connected in parallel, so that these values are optimal for each receiving channel set.

The voltage tapped at P ' is fed to one or more regulating transistors, for example. Furthermore, two incandescent lamps, glow lamps or glow sections of display tubes G can be switched into the collector, which indicate to the device user which of the preselected receiving channels is switched on in each case.

So that the reception channels of the television receiver can also be switched directly and without operating the remote control transmitter without significant additional effort, a mechanical or electronic switch S is placed parallel to the collector-emitter path of each transistor, which sets the associated collector resistance R _L by briefly closing the contact once turns on.

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1.Receiving part of a remote control device with a multistable trigger circuit with more than two transistors, in each of whose collector branches there is at least one consumer, each transistor having a bleeder resistor connected to the active P, ol of a supply voltage source in series with a base resistor connected to the base of this transistor and Semiconductor diodes are connected to the connection point between the bleeder resistor and the base resistor, each of which is connected to a collector of all other transistors and which are polarized in reverse direction when the transistor belonging to the respective collector is blocked, characterized by the fact that an inductance (L _B ) serves as the base resistor , which is coupled to a filter that is matched to a different resonance frequency (Z ₁ , / ₂ , / ₃ ) and forms the input circuit of the receiving part. 2. Receiving part according to claim 1, characterized in that in series with the inductance (L _B ) a further semiconductor diode (D ₁ , D ₂ , D ₃ ) in the flow direction with respect to that of the supply voltage source (U) through the bleeder resistor (A ₁ , R ₂ , R ₃ ) and this inductance (L _B ) is connected to the flowing current. 3. Receiving part according to claim 1 or 2, characterized in that at least one voltage divider (P) is provided as a consumer (R _L ). 4. Receiving part according to claim 3, characterized in that the at the tap of the voltage divider (P) Removable voltage is supplied to capacitance diodes and / or transistors. 5. Receiving part according to claim 3, characterized in that at least two taps of adjustable voltage dividers (P) via semiconductor diodes (Z) ₁₇ -, D _2T , D _3T , D _lc , D ₂₀ , D _3C ) are connected to a common line so that only that semiconductor diode (D ₁₇ ... D _3C ) is polarized in the forward direction, which is connected to the voltage divider (P) of a transistor (T ₁ , T ₂ , T ₃ ) that is turned on. 6. Receiving part according to claim 1 or 2, characterized in that the consumer (R _L ) consists of relays or motors in the collector branch of the transistors. 7. Receiving part according to one of claims 1 to 6, characterized in that in parallel or in series with the consumer (R _L ) incandescent lamps, glow lamps or glow paths of display tubes (C) are connected. 8. Receiving part according to one of claims 1 to 7, characterized in that the collector-emitter path of at least one transistor ( T ₁ , T ₂ , T ₃ ), a mechanical or electronic switch (S) is connected in parallel.