DE2941712C2 - - Google Patents

Description

The invention relates to a remote control circuit with egg an analog controllable oscillator, a comparator and two frequency-to-analog converters, with the first converter with the analog controllable oscillator and the Kompara gate forms a control loop and the second converter receives an input signal on the output side and output signal controls the control loop.

Such a remote control circuit is the subject of older German corresponding to DE-OS 28 44 936 Patent application. The older remote control circuit is concerned yourself with the transmit side of a remote control circuit. in the In contrast, the invention is concerned with the receiver side of a remote control circuit.

Radio and television receivers are known today operated by remote control. By remote control for example, the program selection, the setting the volume as well as the adjustment of the brightness and the color contrast in television receivers. Remote control But there are also many other areas of the Technology application, such as B. in the control of driving testify or model aircraft.

There are various methods of transferring tax information. There is a possibility of transmission in transmitting signals of different frequencies  and different due to different frequency selection Perform functions. For a remote control circuit is one sending the information and one sending the information receiving facility required.

The invention has for its object a remote control to specify the recipient who is based on frequency and in each case works with analog signals. In addition, should the remote control receiver according to the invention as possible have low sensitivity to interference. This task is in a remote control circuit of the type mentioned with the marks nenden features of claim 1 solved.

The invention is based on an embodiment example explained.

Fig. 1 shows the receiving side of a remote control circuit according to the invention. According to FIG. 1, the receiving arrangement of the remote control circuit to a Verstär ker 26 and a frequency / DC converter 27. The amplifier 26 amplifies the received signal. The output signal of the amplifier 26 passes to the converter 27 , which generates a DC signal from the amplified frequency signal. The DC signal is fed to a frequency control loop, which consists of the oscillator 29 , the frequency / DC signal converter 30 and the comparator 31 . The control loop is controlled with the DC signal from converter 27 .

The frequency control loop has the task of reducing the sensitivity of the system to interference, by utilizing the "flywheel effect" of the oscillator of the control loop. If, for example, there would be a brief undesired change or even failure of the received signal, the direct signal at the comparator would not be changed or even disappear immediately, as a result of which the system would be more stable. The low pass 32 has the task, in the event that a modulation signal is present, to keep this modulation signal away from the comparator 31 and only to let the direct signal pass. In the exemplary embodiment, a modulation signal is fed directly from the evaluation circuit 28 .

The evaluation circuit 28 is, for example, an analog / digital converter, which provides at its output a digital signal which corresponds to the DC signal supplied at its input. If a certain digital signal appears at the output of the evaluation circuit, a certain function is carried out. Because, by appropriate assignment of functions to certain digital signals can be performed by a certain digital signal, a certain function, such as. B. Control the volume of the sound, etc.

Oscillators for relatively low frequencies are relatively difficult to build with conventional components. In order to be able to use oscillators for higher frequencies at relatively low frequencies, a frequency divider 23 between the oscillator 29 and the converter 30 is generally provided in the receiving circuit of FIG. 2, as a rule. This frequency divider divides the coming frequency from the oscillator accordingly below, so that the correct operating frequency range is available at the input of the converter 30 of the control loop, which corresponds to the control signal supplied to an input of the comparator 31 .

Frequency control loops serve to stabilize the Frequency of the loop generated by the oscillator Frequency signal. Circuit arrangements with an additional (second) converter and an additional frequency signal source according to the invention increase after Fre quency stability, namely because, as above, be wrote, characteristic changes of the converter of the Re gel loop compensated by the second converter the. The best compensation is obtained when the second Transformer, if possible, the same properties as the one control loop. This is achieved by an identical structure as possible, d. H. the he ste and the second converter should be out of the same Chen components exist.

Receives a largely identical set-up of transducers one, for example, through monolithic integration, because Components in one and the same semiconductor body together by means of semiconductor technology (Implanta tion, diffusion, epitaxy) are produced, especially have good matching properties if they simultaneously and with the same procedural methods be put. This is especially true for components that itself on the semiconductor wafer in the immediate vicinity shaft. The two converters can have one thing in common seed semiconductor body or separate semiconductor body have by z. B. the common wafer is shared. The converters can also, for example, in Thick film and / or thin film technology are produced, because this technology is also the same for the converters to achieve matching properties. In the case, that the transducers are separate from each other, they should have a common support body, since a common mer carrier body the best guarantee for the same tempera conditions.  

The converters used for remote control are in general frequency / voltage converter or frequency / Power converter. Can as frequency / voltage converter for example the well-known converter types VFC 32 (BURR BROWN) XR 4151 (EXAR), µA 4151 (FAIRCHILD), 9400 (TELE DYNE), A 84808 (INTECH) and XC 3315 (MOTOROLA) will. By connecting a voltage / current wall one obtains from the known frequency / voltage Frequency / current converter.

Claims (3)

1. Remote control circuit with an analog controllable Os zillator ( 29 ), a comparator ( 31 ) and two frequency-analog converters ( 30, 27 ), the first converter ( 30 ) with the analog controllable oscillator ( 29 ) and the comparator ( 31 ) forms a control loop and the second converter ( 27 ) receives an input signal on the input side, and drives the control loop on the output side, characterized by the application in the receiver of the remote control circuit, the input signal of the second converter ( 27 ) being the peripheral signal. 2. Remote control circuit according to claim 1, characterized in that between the second converter ( 27 ) and the comparator ( 31 ) of the control loop, a low-pass filter ( 32 ) is switched GE. 3. Remote control circuit according to claim 1 or 2, characterized in that a frequency divider ( 23 ) is connected between the oscillator ( 29 ) and the first converter ( 30 ).