DE3014923A1 - Control circuit for phase controlled oscillator - with pull-in range increased by positive and negative feedback with diode switching - Google Patents

Abstract

The range of this control loop circuit for a phase controlled oscillator is increased by employing a combination of positive and negative feedback to an amplifier which produces a sawtooth waveform output for tuning the oscillator until it locks to a predetermined frequency. This circuit maintains a constant feedback current and eliminates the need for critical or frequency dependent feed back. The output voltage of an amplifier (3) is fed back to its inverting and its non-inverting inputs (12,11) via a capacitor (5) in a positive sense (5,6) and a negative sense (5,7,8) respectively. The negative feedback via diodes (7,8) comes into effect when these diodes conduct at a predetermined threshold voltage.

Description

Circuit for augmenting the capture range of a capture circuit

for the control loop of a phase-controlled oscillator The invention relates to a circuit according to the preamble of the main claim.

Circuits of this type are in the most varied of embodiments known. They solve the task given to them, the catching area of the standard soleplate to enlarge, only incomplete.

The phase-locked loop of a phase-locked oscillator. more conventional Without additional measures, Bauart has a limited catching area that can pass through the frequency is determined at which the loop gain falls below the value one. In order to expand this limited capture range, it is known to use the phase locked loop to feed back the existing differential amplifier weakly via a Wien bridge a band pass switched into the feedback loop ensures that that the oscillator is still oscillating at a frequency that is small compared to that the frequency at which the loop gain is one. The amplifier vibrates so through the weak feedback until the phase loop starts and is then synchronized to the specified reference frequency. As long as the phase loop has not caught, so a sinusoidal voltage is generated at the output of the differential amplifier generated by which the Oscillator over a larger area is tuned for searching than would be possible without this additional circuit. However, this known circuit has a number of disadvantages. The setting The feedback is very critical and therefore it is not just very difficult to get one defined capture area but the capture area is also different other influences such as the temperature dependence of the various switching elements addicted. It is therefore not possible to ensure that only such harmonics is synchronized, which at the output of the phase comparison circuit a predetermined Output control voltage. Furthermore, it is not possible to set in a simple manner at which oscillator detuning direction the capture process occurs.

It is the object of the invention to further develop a circuit of this type and to improve that these disadvantages are avoided and the capture range of a such a capture circuit for the phase locked loop of an oscillator in alone the circuit is enlarged to defined limits.

This task is based on a circuit according to the preamble of the main claim solved by its characterizing features.

Advantageous further developments result from the subclaims.

In the circuit according to the invention, the combined application a feedback and a negative feedback that achieved at the output of the amplifier A triangular or sawtooth voltage arises, with which the oscillator remains is tuned until it is synchronized to the predetermined frequency and thus the feedback and via the output voltage of the phase comparison circuit so that this triangular or sawtooth voltage is prevented. The invention Feedback loop is very simple and constructed uncritically, it No complicated, time-consuming adjustments to the feedback are necessary, the feedback is also independent of frequency, i.e. the one that is still required with the known circuit can be used There is no band or low pass. Through the regulated feedback, the feedback current kept constant and thus the desired output voltage rise via the amplifier achieved.

The invention is described below with reference to schematic drawings two exemplary embodiments explained in more detail.

Fig. 1 shows a phase-locked oscillator 1, the output frequency f is fed to one input of a phase comparison circuit 2. The other The reference frequency fr is fed to the input of this phase comparison circuit 2. The output voltage of this phase comparison circuit is one input 11 a differential amplifier 3 supplied, the output of which in the usual way via a Low pass 4 is connected to the control input of the oscillator 1.

The output voltage U of the differential amplifier 5 is via a capacitor 5 and a resistor 6 fed back to the input 11 in the feedback sense, and although the feedback voltage produced at the resistor 6 is via a summing element 17 superimposed directly on the output voltage of the phase comparison circuit 2.

At the same time it is through a negative feedback circuit created by the capacitor 5 leads to the negative feedback input 12 of the amplifier 3, ensures that the The feedback current i flowing through the capacitor 5 remains constant. The negative feedback loop becomes effective when the feedback current i exceeds a predetermined value. In the exemplary embodiment shown, there are two voltage limiters in parallel with the resistor 6 7 or 8 switched, for example semiconductor diodes, which have the property away to become conductive at a certain voltage threshold. Exceeds the feedback current i proportional voltage at resistor 6 caused by voltage limiter 7 resp. 8 certain threshold value, depending on the polarity of this voltage, one or the other of the two voltage limiters 7 and 8 connected in anti-parallel is conductive and thereby the negative feedback input 12 of the amplifier 3, with which this Voltage limiters 7, 8 are connected, a negative feedback voltage supplied to the superimposed on the feedback. The feedback is therefore through this negative feedback compensated and so the feedback current i kept constant, even if the output voltage U of amplifier 3 increases as desired. Using the circuit shown of voltage limiters 7 and 8 is only a particularly simple option for this structure of the negative feedback loop. Switching elements could also be used directly be connected between the feedback circuit and negative feedback input 12, which have the property of becoming conductive when the feedback current exceeds a predetermined value Value exceeds. For this purpose, for example, would be customary field effect transistors suitable.

If the output voltage U des in this way via a negative feedback regulated feedback amplifier 3 the maximum or

minimum possible value, i.e. the control limits of the amplifier, reached, the feedback stops. To use the regulated feedback again the amplifier must be controlled back into its working range. If the gain of the amplifier 3 is small, it will generally do so by itself However, an additional negative feedback circuit is preferred provided, which ensures that when the output voltage U is its upper The control limit exceeds one at the negative feedback input 12 of the amplifier positive voltage and when the output voltage reaches its lower control limit falls below, at this negative feedback input 12 a neative tension applies. In the exemplary embodiment shown, this is simply done by a corresponding one high value negative feedback resistance 13 is reached.

I) The regulated feedback described with feedback from the amplifier into the working range when the control limits of the amplifier output voltage are reached U has the effect of using two oppositely polarized voltage limiters 7, 8 a triangular output voltage U at the output of amplifier 3. This triangular voltage is fed to the control input of the oscillator 1 until the control loop catches and thus at the output of the phase comparison circuit 2 a correspondingly high Control voltage arises. By linking between feedback voltage and Control voltage of the phase comparison stage 2 is achieved, -that the phase control soleife only starts when the amplitude of the output voltage of the phase comparison voltage 2 exceeds the value of the feedback voltage supplied via resistor 6. In the latter case, the feedback is suppressed and thus the oscillator 1 opens set this frequency.

The voltage difference at the two inputs 11 and 12 of the amplifier 5 is through the resistors 9 and 10 befrrerlzi. This ensures that the amplifier 3 is not overdriven and on the output voltage of the phase comparison circuit 2 is sure to respond.

If one of the voltage limiters 7 or 8 is omitted or instead its connection to the input 12 is directly connected to ground, then instead a triangular output voltage U achieved a sawtooth voltage because -in this If the feedback control in one direction is then omitted.

Fig. 2 shows a particularly simple type of additive superposition between the output voltage of the phase comparison circuit and the feedback circuit. The summing element 17 can be omitted here. A phase comparison circuit is used known ring mixer is used, which has a floating control voltage output 14, 15 owns. In this way, the additive superposition of the feedback voltage can be achieved with the actual control voltage simply by adding the resistor 6 of the feedback circuit with one connection terminal 15 and the other connection terminal 14 of this ring mixer output is connected to the feedback input of the amplifier 3 will.

Since in the circuit according to the invention the phase control soleife as long as does not start as the amplitude of the output voltage of the phase comparison circuit 2 is smaller than the feedback voltage generated at resistor 9, can with the circuit according to the invention catches undesirable harmonics in a simple manner This can be prevented, since these harmonics generally have lower control output voltages deliver.

The triangular or sawtooth increasing output voltage of the amplifier 3 also makes it possible in a simple manner by means of a simple additional circuit, that only the first of several occurs in a predetermined frequency range Oscillator frequencies is caught, for example, the highest or lowest Frequency of two or more frequencies possible in a predetermined wobble range. For this it is only necessary to use the reference frequency f or the oscillator frequency f initially disconnect from the phase comparison circuit 2 until over the controlled feedback of the amplifier 3 the desired triangular or sawtooth voltage is produced. Then a suitable logic circuit is used as a function from the output voltage U of the amplifier 3 is the reference frequency f or the oscillator frequency f in the upper or lower reversal point of the triangle or sawtooth voltage U is switched on and this ensures that actually only the first possible frequency is caught. Is particularly advantageous this in connection with a sawtooth voltage, since in this case it is simple Way, depending on the sawtooth trailing edge, the switching on of the reference frequency or the oscillator frequency can be controlled to improve the noise and Stability properties of the circuit, it is still advantageous in parallel to the resistor 9 to switch a capacitor 16. This also allows the minimum holding voltage and thus not only catching but also holding on to undesired harmonics can be prevented in a defined manner.

Claims (2)

Claims ½) Circuit to enlarge the capture range of a Capture circuit for the control loop of a phase-controlled oscillator with a feedback amplifier arranged in the control loop, the input side with the phase comparison circuit and on the output side with the voltage-controlled one Oscillator is connected, d a -d u r c h g e k e n n n z e i c h n e t that the output voltage of the amplifier (3) its input (11,12) via a capacitor (5) in feedback and fed to the negative feedback sense and the feedback or. Negative feedback loop (5,6 or 5,7,8) is chosen so that when the feedback current (i) a exceeds the specified value, the excess no longer in the feedback sense but is fed to the input of the amplifier (3) in a negative feedback sense. 2. A circuit according to claim 1, d a d u r c h g e k e n n -z e i c n e t that the feedback circuit is created by the series connection of a capacitor (5) and a resistor (6) is formed and the negative feedback circuit is at least one connected to this resistor (6) of the feedback circuit when exceeded a predetermined voltage threshold becomes conductive and then the negative feedback comprises generating threshold switching element (7,8). 5. A circuit according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that two threshold value switching elements responding to opposite voltage polarities (7,8) are provided. 4. A circuit according to claim 1 or 2, d, a d u r c h g e k e n n z e i c h n e t that only one threshold value switching element responding to a voltage polarity (7 or 8) is provided. 5. Circuit according to one or more of the preceding claims, g e k e n n n z e i c h n e t d u. r c h an additional negative feedback circuit (1)) between amplifier output and negative feedback input (12), which is chosen and dimensioned in this way is that when the output voltage (U) of the amplifier (3) is a predetermined maximum or minimum value is reached and thus the feedback stops, the Amplifier (3) is controlled back into its working range. 6. Circuit according to one or more of the preceding claims, d a d u r c h e k e n n n z e i c h -n e t that the feedback input (11) of the Amplifier (3) the sum of the feedback voltage (across resistor 6) and the Control output voltage of the phase comparison circuit (2) is supplied. 7. A circuit according to claim 6 with a ring mixer as a phase comparison circuit, d a d u r c h g e -k e n n n z e i c h n e t that the one output terminal (14) of the floating ring mixer output with the Feedback input (11) of amplifier 3 and the other output terminal (15) of this ring mixer output is connected to the feedback circuit (5,6). 8. Circuit according to one or more of the preceding claims, d a d u r c h e k e n n n z e i c h -n e t that at the inputs (11,12) of the amplifier (3) limiting resistors (9,10) are switched on. 9. A circuit according to claim 7 or 8, d a d u r c h g e k e n n z e i c h n e t that the one limiting resistor (9) on the one with the feedback circuit (6,7) connected output terminal (15) of the ring mixer output is switched on. 10. The circuit of claim 9, d a du r c h g e k e n n -z e i c h n e t that a capacitor (16) is connected in parallel with this limiting resistor (9) is. 11. Circuit according to one or more of the preceding claims, d a d u r c h e k e n n n z e i c h n e t that an additional switching device to switch off the reference or reference circuit (2) supplied to the phase comparison circuit (2) Oscillator voltage is provided and this depends on the output voltage (u) of the amplifier ()) is controlled so that the reference voltage or oscillator voltage only switched on at the upper or lower reversal point of this output voltage (u) will.