DE2537562A1 - Simple tuner for radio receiver - has nonlinear potentiometer applying nonlinear tuning volts to make varactor diode linear - Google Patents

Abstract

The simple tuner, for radio receivers, consists of a potentiometer coupled by its slider to the varactor tuning diode and by its main terminals to a constant bias voltage. The potentiometer's resistance element is non-linear such that the varactor diode's non-linear voltage/capacitance properties are compensated. That is: a linear movement of the control knob that drives the slider results in a non-6inear biasing voltage and a linear change in tuning capacitance. The potentiometer's slider consists of a sprung wiper moved by the control knob over a curved non-linear resistance path.

Description

Converter for converting a mechanical movement into an electrical one Voltage The invention relates to a converter for converting a mechanical Movement into an electrical voltage and relates in particular to a device for converting the rotation of a tuning shaft in a radio receiver into a corresponding voltage, which is suitable for this, a voltage-dependent component to vote in a radio receiver.

Variable voltage diodes are increasingly being used Use in radio receivers, especially for tuning the FM part. In such systems, exploited the fact that such Diodes have a capacitance that depends on the counter potential that is applied to the Diode clamps is applied. This changeable capacitance has a size and a Area that make it possible to have such capacitance diodes or varactor diodes in the input to use part of FM tuning equipment. Because the diode is much smaller than previously used corresponding parts, for example a variable capacitor valuable space can be saved by using such a diode.

A serious disadvantage in using varactor diodes for For purposes of tuning, the capacitance of these diodes is a non-linear function of the applied counter potential or reverse potential. Thus, if the user tunes the radio receiver by using a conventional linear potentiometer changed accordingly, the tuning of the radio receiver reacts in a non-linear manner Way. This results in the broadcasting stations crowding together at one end of the tape are, while the distance between individual broadcasting stations is at the opposite End up being excessively large. Furthermore, the frequency display scale or the setting scale must be for the broadcasting stations can be distorted in a corresponding manner to the non-linear ones To reproduce the characteristics of the varactor diode. Overall, this leads to the result that with radio receivers, which are tuned with the help of varactor diodes, Difficulties in tuning often arise because of individual broadcasting stations either very close together or very far apart, which means that the The voting dial or dial is difficult to read.

The object of the invention is to provide a tuning arrangement for a radio receiver with a varactor diode, which makes tuning particularly easy and is clearly arranged.

The solutions laid down in the patent application serve to solve this problem Characteristics.

Thus, according to the basic idea of the inventor, there is a voltage divider connected in series with a DC voltage source and still with a reference potential such as the earth potential. The voltage divider has according to the invention a potentiometer, which has a resistance element that is electrically connected to a movable contact or tap is connected. According to a preferred embodiment the invention provides that the resistance element is produced by that a temperature-stable resistance material is applied to a ceramic substrate with the help of thick film technology. The resulting resistance element is designed to have a predetermined non-linear resistance taper characteristic which is chosen such that the non-linear voltage-reactance characteristic a reactance arrangement with variable voltage such as a varactor diode is, which in a preferred embodiment of the invention as a tuning element is used in a radio receiver. The moving contact of the potentiometer is mechanical connected to the tuning shaft of the radio receiver, causing a rotation of the Wave causes a change in position of the contact with respect to the resistance element. The contact or tap can in turn be changed electrically with the component Voltage connected. In operation, a linear rotation of the shaft results in a non-linear one Voltage change at the tap, in such a way that a controlled change in the nonlinear component is brought about, which eventually becomes a linear one Change in recipient reconciliation.

The invention is explained below, for example, with reference to the drawing described; these show: FIG. la a perspective illustration of a known one Receiver, which has a non-linear dial, Fig. Ib is a perspective view of a receiver with a linear dial according to the invention, FIG. 2 is a circuit diagram according to the invention, Fig. 3 is a perspective view of a mechanical Construction of a preferred embodiment according to the invention, and FIG. 4 a graph which is used to find the desired nonlinear To determine the taper of the resistance element.

The Fig. Ia and ib each illustrate a radio receiver, which has a volume adjustment knob 12 and a transmitter adjustment knob 14. The transmitter control buttons or tuning buttons 14 are both associated with the tuning circuit of the radio receiver and also to the pointers 16 connected. According to the illustration If the receiver of FIG. 1 a has a conventional adjustment dial or dial 20 on which numbers are arranged, which when the pointer 16 faces them, indicate the frequency to which the receiver is tuned. From the representation it can be seen that due to the non-linear change in capacitance of the tuning circuit of the radio receiver, the numbers on the dial 20 are arranged in a non-linear manner are. This means, the higher the frequencies, the further the numbers are from one another away, while at lower frequencies the numbers have moved closer together. In such known systems there is a risk that when voting in the lower Frequency range a mismatch and an adjustment difficulty occur during operation. For comparison, use the setting scale or selection scale 22 of Fig. 1b. The receiver according to FIG. 1b uses the potentiometer device according to the invention, whereby tuning is achieved in a linear manner, and the numbers on the dial 22 are equally spaced from one another.

This will facilitate coordination.

Fig. 2 illustrates a circuit diagram of the invention mechanical transducer, which converts a movement into a voltage. A voltage divider 30 is between a voltage supply 32 and a reference potential 34 or the Mass arranged. The voltage divider consists of a potentiometer 36, which has a resistance element 38, and also a contact or a tap 40. The tap 40 is movable and is in electrical connection with the Resistance element 38. Resistance element 38 has a non-linear taper its resistance characteristic, which is selected in a predeterminable manner in such a way that that the non-linearity of the reactive component or reactive component of the varactor diode is compensated which is to be matched. The movable tap 40 is mechanical coupled to the tuning shaft of the radio receiver, creating a linear rotation the shaft a corresponding displacement of the contact 40 with respect to the element 38 causes. The voltage on the resistance element 38 is through the contact 40 and is then tapped via corresponding electrical connections of the varactor diode fed. A second resistor 44 is shown with the first resistor element 38 connected in series. The series connection of the resistors 38 and 44 sets the current which flows from the power supply 22, and thus also the constant Voltage across resistor 44. It is essential that the varactor diode is always held at a constant reverse bias potential so that a incoming AC voltage signal does not tend to the diode forward bias, which would destroy their impedance characteristics.

Furthermore, a device must be provided to the bandwidth of the receiver to the specified FM band, and therefore must limits be set for the voltage which is fed to the varactor diode. The value of the resistor 44 is chosen so that a minimum voltage is supplied, which serves both to keep the varactor diode reverse biased and to to limit the voltage that is fed to the diode, so that with it the bandwidth of the recipient is determined.

A preferred arrangement of the voltage divider according to the invention is shown in FIG. 3. The first resistance element 38 and the second resistance element 44 are arranged on a ceramic substrate 50, using the thick film technique is used.

A contact 52 is on a first end of the first resistive element 38 provided to establish a connection with the power supply, and a second contact 54 is at the opposite end of the resistor element 38 is provided, whereby the resistance element 38 and the resistance element 44 be connected to each other. Via a third contact 56, the remaining End of the resistance element 44 connected to the circuit ground. The resistance element 38 has a predetermined configuration, which makes its resistance characteristic follows a non-linear taper. This characteristic is illustrated in FIG. 4 explained in more detail below.

The movable contact or tap 40 has a pair of protruding Fingers 60 and 62. These fingers are electrically connected and connected to each other a bracket 66 attached, which is connected to a shaft 68. Operational fingers 60 and 62 are positioned with respect to ceramic substrate 50 such that that the upper finger 60 is continuously engaged with the first resistance element 38 and the second contact 62 permanently in electrical contact with the conductive strip 70, which is also arranged on the substrate 50 is, for example by diffusion, wherein the conductive strip 70 is a Starting compound 72 has. When turned the tuning knob by a user (see Fig. 1), the shaft 68 rotates with the finger 60 in a new position occupies on the resistance element 38. This creates a different tension from that Voltage divider tapped, which is fed to finger 62 via finger 60 and from there the metal strip 60 and the output terminal 72. This voltage becomes then fed to the varactor diode (not shown).

During manufacture, the resistance element 44 can be trimmed very precisely or can be adjusted by either an abrasion or a laser trimming technique is applied. There is also a noticeable improvement in the voltage divider, if carbon contacts are used on fingers 60 and 62, which are the fingers connect to the corresponding contact sections on the substrate.

Fig. 4 illustrates the manner in which the appropriate Resistance taper for the resistance element 38 is derived. First will generates a graph of the voltage applied to the varactor diode must be in order to tune the radio receiver to a specific frequency. As As can be seen from FIG. 4, this relationship is markedly non-linear. Since the width of the dial corresponds to a given turn of the detachment knob, the required tuning voltage can also be related to the angle of rotation of the knob will. With a constant current, the voltage is directly proportional to one Resistance, and the vertical axis of voltage can be designed so that it corresponds to a predetermined resistance range. This resistance characteristic defines a taper which is on the resistance element necessary is. It should be noted that in the graph the stress axis is cut at a value other than zero. This voltage corresponds to the voltage in FIG. 2, which may be present at the second resistance element 44 got to. In a particular preferred embodiment of the invention, the was used Power supply 7.08 volts, the first resistance element 38 was 10 kilo-ohms, and the further resistance element 44 was 2000 ohms.

According to the basic idea of the inventor, a facility is created, which serves to convert the linear movement of a tuning shaft into a given voltage convert which the non-linearity of a changeable controlled device compensated like a varactor diode, so that the characteristic of the change in Device is designed in a predetermined manner to a corresponding linear Bring about change in the tuning circuit.

- patent claims -

Claims (13)

Claims 0 converter arrangement for converting a mechanical Movement into an electrical voltage, especially for converting a linear one mechanical movement in a corresponding predetermined change in reactance a voltage-dependent reactive component whose reactance is a nonlinear one Function of voltage is, where a DC voltage source is present, where there is also a voltage divider between the DC voltage source and a reference potential is arranged, and wherein the voltage divider is a mechanical having movable contact which is electrically connected to a resistance element is, so that the movable contact with the reactive via a corresponding connection Component is electrically connected, thereby indicating that the Resistance element (38) has a non-linear resistance reduction characteristic, which is designed such that the reactive component is compensated, whereby a linear movement of the contact with respect to the resistance element is a non-linear one Changing the voltage applied to the reactive component causes so that a predetermined change in the reactance of the reactive component is guaranteed. 2. Converter according to claim 1, characterized in that g e k e n n z e i c h -n e t, that the voltage divider (30) has the resistance element (38) which is on a Substrate material (50) is arranged. 3. Converter according to claim 1 or 2, characterized in that g e k e n n z e i c h -n e t that the voltage divider (30) also has the contact (40), which attached to a rotatable shaft (68) is and a finger base (60) which is in contact with the resistance element (38). 4. Converter according to one of the preceding claims, characterized in that g e k It is noted that the voltage divider (30) also has a second resistance element (44), which is connected in series with the first resistance element (38) is, and that the resistance of the second resistance element (44) is selected in such a way is that a limiter voltage for the contact (40) is formed. 5. Converter according to one of claims 1 to 3, characterized in that g e k e n n -z e i c h n e t that the voltage divider (30) continues to have a second resistance element (44), which is arranged on the substrate (50) and in series with the first resistance element (38) is connected, and that the resistance of the second Resistance element (44) is chosen such that a limiter voltage for the Contact (40) is guaranteed. 6. Converter according to one of the preceding claims, characterized in that g e k It is noted that the reactive component is a variable capacitance diode Tension is. 7. Converter according to claim 6, characterized in that g e k e n n z e i c h n e t that the diode is a tuning element in a radio. 8. Converter according to one of the preceding claims, characterized in that g e k It is noted that the contact (40) is operational with the tuning control (14) is coupled to a radio. 9. Method for converting a linear mechanical movement into a given change in a reactance of a voltage-dependent component, characterized, that a source of DC potential is formed that a voltage division of the DC voltage potential with a Potentiometer is brought about, which has a resistance element and a movable Tap has that the resistance element is formed in such a way that it has a predetermined, non-linear taper, which is used to reduce the reactive Compensate component, and that the tap is connected to the reactive component will. 10. The method according to claim 9, characterized g e k e n n z e i c h n e t that the resistance element is applied to a substrate material. 11. The method according to claim 10, characterized in that g e k e n n z e i c h -n e t that the tap is mechanically non-rotatably connected to a rotatable shaft. 12. The method according to any one of claims 9 to 11, characterized g e -k e n n z e i c h n e t that a second resistance element with the first resistance element is connected in series and that the resistance of the second resistance element is chosen such that it defines a limit voltage for the tap. 13. The method according to any one of claims 9 to 12, characterized g e -k e n n z e i c h n e t that a second resistor element is applied to the substrate is and is connected in series with the first resistance element and that the Resistance of the second resistance element is chosen such that a limit voltage is set for the tap. L e r s e i t e