DE3031003A1 - DC voltage source providing stepped control voltage - feeds digital values to D=A converter under control of coding switch - Google Patents

Abstract

The source provides a control voltage adjusted in steps and uses a coding switch (11) with a number of switch positions. Each switch output (15--18) is coupled to a respective input of a programmable read-only memory (20), which supplies a different digital value to a D/A converter for each selected switch positions. The analogue voltages provided by the D/A converter comprise the control voltages (Usto--9) for the diode capacitors (24) exhibiting a non-linear voltage/capacitance characteristics. Pref. the coding switch (11) provides binary output values corresponding to a BDC code and allows one of ten possible control voltages (Usto--9) to be selected. The non-linear voltage/frequency characteristic of the HF tuning circuit is automatically compensated.

Description

DC voltage source for generating a

stepwise variable control voltage prior art the invention is based on a DC voltage source according to the preamble of the main claim.

It is quite a DC voltage source for generating a step-wise changeable control voltage for capacitance variation diodes in tunable receiving circuits a walkie-talkie known. This device is connected to a fixed DC voltage horizontal voltage divider made of ohmic resistors provided by the channel switch of the radio is switched in such a way that for each set radio channel a certain DC voltage results, which the receiving circuits on the selected Radio channel corresponds to the resonance frequency. Is the number of gradual variable control voltages are very high, for example in a multichannel two-way radio, so the voltage divider would take up a not negligible additional space requirement to lead.

Apart from that, subject to tunable by capacitance variation diodes HF circuits with a specific voltage-frequency dependency; see Fig. 2. This dependency is due to the fact that capacitance-varying diodes have a voltage-capacitance dependency exhibit; see.

Characteristic curve of the capacitance-varying diode of the type BB 109 G in FIG. 1.

Advantages of the Invention The DC voltage source according to the invention with the characterizing features of the main claim has the advantage that both the non-linear voltage-capacitance dependence of the capacitance-varying diode as well as the resulting non-linear voltage-frequency dependence of the HF circles is automatically compensated.

Another advantage is that the space required for the compensation means even with a high number of control voltages for the capacitance varying diodes is relatively low.

The measures listed in the subclaims are advantageous Developments and improvements of the DC voltage source specified in the main claim possible.

Drawing An embodiment of the invention is shown in the drawing shown on the basis of several figures and in more detail in the following description explained. The drawing shows in Fig. 1 a characteristic curve of a capacitance varying diode, 2 shows the voltage dependency of the resonance frequency of a tunable high-frequency circuit and FIG. 3 shows a simplified block diagram of a DC voltage source according to the invention.

Description of the Invention A DC voltage source according to the invention 10 contains a commercially available BCD coding switch 11 with ten switch positions "O" ... "9", each of which one by pressing one the pushbuttons 12 or 13 can be selected. The coding switch 11 has a Input 14 and four outputs 15 to 18. Input 14 has a connection 19 connected to which there is a fixed DC voltage potential. The outputs 15 to 18 each have one input of a PROM (Programmable Read Only Memory) memory circuit 20 in connection.

Lines 21 connect the outputs of the PROM memory circuit 20 with the digital inputs of a digital / analog converter 22, whose output 23 with a capacitance varying diode 24 of an RF circuit 25 is connected.

The circuit of FIG. 3 described above has the following function the end.

With the BCD coding switch 11 it becomes one of ten control voltages U5t0. .9 'for example the control voltage USt9' is selected, the coding switch gives at its outputs 15 ... 18 logical signals H, L, L, H from, with an H (high) signal the voltage U and an L (low) signal corresponds to a voltage of approximately zero volts.

The logic signals are fed to the PROM memory circuit 20, which outputs a certain digital value with the selected switch position (11911), with which the non-linear voltage-capacitance dependence of the capacitance-varying diode 24 and the resulting non-linear voltage-frequency dependence of the HF circuit 25 is taken into account. To get a characteristic curve for the HF circuit 25, the linear course indicated by a dashed line in FIG. 2 has, the control voltages UStO, o to g must not be linear with the to be set Change the resonance frequency of the HF circuit, but rather rather in one non-linear relationship. This dependency can be programmed once of the PROM memory circuit 20. The supplied by the PROM memory circuit, the respective switch position of the coding switch 11 corresponding digital value is in the digital / analog converter 22 into an analog DC voltage, namely the Converted control voltage UStg, which is supplied to the capacitance-varying diode 24 will. The RF circuit 25 is thus tuned to the desired resonance frequency.

The advantages of the invention are particularly noticeable when in contrast to the exemplary embodiment explained with reference to FIG. 3, a large number of control voltages or resonance frequencies is required. That is especially true for multi-channel two-way radios. These devices would take the place of the coding switch 11 step in Fig. 3 of the channel switch of the radio transceiver.

Claims (4)

Claims DC voltage source for generating a step-wise variable Control voltage for capacitance variation diodes in tunable HF circuits, thereby characterized in that a coding switch (11) is provided with several switch positions whose outputs (15 ... 18) are connected to a PROM (Programmable Read Only Memory) memory circuit (20) are connected, which for each switch position of the coding switch a different, the non-linear voltage-capacitance dependence of the capacitance-varying diode (24) and the resulting non-linear voltage-frequency dependence of the HF circuit (25) taking into account digital value to a digital / analog converter (22) emits, and that the analog output voltage of the digital / analog converter is the control voltage (Ust0 ... 9) for the capacitance varying diode. 2. DC voltage source according to claim 1, characterized in that that the HF circuit (25) is a selection circuit. 3. DC voltage source according to claim 1, characterized in that that the HF circuit (25) belongs to a voltage-controlled oscillator. 4. DC voltage source according to claim 1, characterized in that that the coding switch (11) is a BCD coding switch at its outputs (15 ... 18) outputs binary values corresponding to the BCD code.