SE427885B - RECEIVER CONNECTION IN A COMMUNICATION TECHNICAL RECEIVER WITH DIGITAL FREQUENCY SYNTHETIZER - Google Patents

Description

15 20 Z5 30 40? 9G27ö7 ~ 6 _2_ the rising voltage is supplied for direct control to the frequency determining component of the oscillator. The normally used capacitance diodes change their capacitance depending on the applied voltage and thus enable a tuning of the oscillation circuit of the oscillator. If a transmitter is received, the discriminator voltage is 0 V, so that the oscillator voltage is determined exclusively by the preset value. In the event of deviations, for example during operation of the transmitter or during operation by changing the receiver components, adjustment is made until the voltage 0 V occurring at the output of the frequency discriminator is reached again.

Through the publication "Grundig Technische Informationen" 2/77, pages 93 et seq., It is known to connect the tuning voltage of a voltage-controlled oscillator directly from a voltage memory which is gradually charged and to superimpose on this an additional control voltage from an AFC circuit ("Automatic"). frequency control ").

In addition, by shifting the characteristics of the discriminator in the AFC circuit, the voltage can be arbitrarily changed in such a way that a subjective tuning of a transmitter takes place, whereby, for example, a television picture given at optimal tuning can be set sharper resp. less sharp. The object of the invention is to arrange, in the case of a receiver connection with a frequency synthesizer, a control connection with a frequency discriminator for automatic tuning of the oscillator frequency, which control connection for subjective tuning of the receiver frequency by increment resp. decrementing the frequency divider enables both a tuning and a regulation to the newly set optimal frequency value. In addition, in the case of a receiver connection with so-called channel forwarding, at which in the given channel grid the frequency band will pass, ensure by two fine-tuning keys by means of which transmitters outside the given channel grid can be set by increment resp. decrementing of the frequency divider, that over the two fine tuning keys both the frequency divider and the control coupling are adjustable in such a way that when subjectively tuning a transmitter the control circuit is optimally regulated to this tuned intermediate frequency.

The task is solved by the features stated in claim 1.

Advantageous developments of the invention are described in the subclaims. A switching device according to the invention arranged, for example, in a television receiver apparatus according to the invention has the characteristic feature of transmitters with operation that, in addition to transmitters tuned exactly to the image carrier center (38.9 MHz), transmissively tuned transmitters are also followed. of a digital frequency control ("automatic frequency control") (AFC). This is achieved by a logical connection of the AFC connection with the tuning of the frequency synthesizer in such a way that the division ratio of the frequency divider of the synthesizer is adjustable directly and also from the AFC connection after it has been connected in an appropriate manner. by tuning the resonant circuit, a tuning may be made to each subjectively tuned transmitter, at the same time adjusting the AFC connection to this subjectively tuned transmitter, for which purpose. In parallel with the tuning, the control circuit (APC) is tuned over the frequency divider by pressing a voltage to a capacitance diode in the oscillation circuit of the discriminator.

The invention has provided for the first time that by a simple addition of a synthesizer, which can be set in certain frequency steps, by tuning the synthesizer by means of an AFC coupling, tuning perhaps to any transmitter located between the fixed receiving channels, whereby sam - it is ensured at an early stage that the AFC connection works with respect to the newly tuned transmitter deviating from the optimal receiver frequency and regulates to this subjectively tuned transmitter.

The invention is explained in more detail below with the aid of an exemplary embodiment with reference to Fig. 1, which shows a block diagram of a device according to the invention.

At the input E of the switching device, the input signal of the antenna is amplified, which is amplified in an amplifier 1. The reception frequency is mixed in a post-mixed mixer stage 2 additively with the oscillator frequency of the voltage-controlled oscillator 3. The intermediate frequency obtained in this way is fed to an intermediate frequency amplifier 4 for amplification. Over a switching coil or capacitive connection connection, a part of the amplified intermediate frequency is disconnected and fed to a control connection 5 for automatic tuning of the oscillator frequency, in which control connection a frequency discriminator is arranged with a oscillation circuit containing a oscillation circuit. The intermediate frequency amplifier 4 is also connected to the signal evaluation connections. The signal path is indicated by an arrow, the subsequent couplings not being more specifically indicated. 40, 20, 30, 40, ~ '!, / Wa., - f 7962787-6 -4_. In accordance with the invention, the oscillator 3 is controlled by a frequency synthesizer consisting of a constant distributor 6, which divides the oscillator frequency in a constant ratio, and by a programmable frequency divider 7, which is optionally adjustable by the operating personnel. The frequency division ratio setting of this frequency divider can be made from a memory by calling certain digitally stored setting information, for example by channel selection or can also be entered directly. In the latter case, the parts are adjusted directly by decadal control. The oscillator frequency divided by the programmable frequency divider 7 is compared in a phase comparison stage 8 with a constant reference frequency; which is generated in a quartz oscillator 9 and divided into a constant divider lüt The voltage arising from the phase shift is supplied to the oscillator 3 as a control voltage and changes in correspondence to the setting value by pressing on the capacitance diode in the oscillator of the oscillation circuit. This part of the coupling can be considered as previously known with the restriction that the control coupling 5, also called the AFC coupling, is not yet known in connection with a frequency synthesizer .: For the invention it is essential that the frequency division ratio of the frequency divider in the frequency synthesizer is fixed not only by non-displayed numerical data or by callable setting information stored in a memory but can also be changed by the control connection 5, so that the digitally operating tuning connection remains fully effective even when due to frequency operation or subjective reconciliations a reconciliation must take place over the AFC connection. For this purpose, the output of the frequency discriminator 5 is connected to an analog-to-digital converter 11, the output of which, in proportion to the deviation, outputs digital setting information, which in switching mode B is routed directly via an electronic switch 12 to the frequency divider 7. The discriminator in the control switching 5 is quantized in this case, ie. the known S-curve is divided into a setpoint range, a setpoint override range (positive) and a setpoint underride range, whereby in the ideal case the setpoint and the zero line coincide. If the voltage on the discriminator exceeds the setpoint, the analog-to-digital converter causes a corresponding number of steps to be evaluated when individual threshold values are exceeded and a digital setting information, which can be a series of individual pulses or a digital word emitted through a corresponding connection of the frequency divider directly switches the division ratio or gradually changes it.

The method of observation has been based on the assumption that the regulation takes place constantly to a fixed tuner which is given in advance by entering the frequency division ratio. It has been found in practice that an optimal setting to a transmitter is only possible when a subjective tuning of the oscillator 3 takes place. For this purpose, it is necessary that the frequency discriminator line of the control circuit be shifted. This is done by actuating control keys 13,14, whereby a change in positive direction takes place by operating the key 13 and a change in negative direction takes place through the key 14. The two keys 13,14 emit proportionally large amounts of information, which are coded in a post-switched coding device 15 in such a code which can be used both for direct setting of the division ratio of the frequency divider 7 and for conversion to an analog voltage for redirecting the capacitance diode of the oscillation circuit in the frequency discriminator of the control switching 5. In order for this to take place, in the switching position B, the second switching contact of the electronic switch 12 is closed, so that in proportion to the operating time digital information is passed to the digital-to-analog converter 16 which generates a setting voltage corresponding to the oscillating frequency (capacitance) element. . This makes it possible for both the electronic search process and the automatic retrieval to take place over the same circuit by operating the keys 13 and 14.

A setting process for the electronic search process is as follows: It is assumed that no transmitter has yet been received. By operating the keys 13 or 14 in a positive or negative direction, which corresponds to the upper and lower part of the discriminator's characteristics, the coded signal is switched to the digíta1 analog converter in switching mode B. In proportion to the setting size, the capacitance of the capacitance diode in the oscillation circuit, so that the characteristics of the discriminator are shifted. The APC circuit is consequently tuned in non-linear steps, whereby via the analog-to-digital converter 11 a linear setting quantity is delivered to the frequency divider when exceeding resp. undercutting the setpoint for the discriminator's characteristics, which quantity - based on a specific setting - is incremented when the discriminator's zero line falls below and is decremented when exceeding. In the concrete embodiment example, it is assumed that after a certain number of counting steps, a control logic 17 is affected which, before achieving the maximum value of the frequency discriminator characteristic resp. when the characteristic is reached, the electronic switch switches to switching mode A, so that both contacts are switched. When the keys 13 and 14 are permanently actuated, the frequency divider 7 is switched directly over the setting information coded in the encoder 15. This is done until a new transmitter is received, whereby the frequency discriminator's characteristics exceed the zero line. The analog-to-digital converter 11 hereby delivers corresponding information which causes the control logic 17 to switch the electronic switch 12 in such a way that the contacts in position B leave the AFC circuit switched on. In order for the AFC circuit to regulate to this newly tuned transmitter, it is necessary that at the moment of the switching from position B to position A during the search process a voltage is connected to the oscillation circuit's capacitor in the frequency discriminator, which restores the discriminator to its nominal position. With the manual operation of the keys 13 and 14, an automatic control is initiated, whereby it is ensured that this is done digitally. No overlay of the voltages occurs. The AFC circuit affects the frequency synthesizer, whereby the distinctive features and advantages of the frequency synthesizer over voltage memories are maintained. The use of the described switching device can be recommended for television receivers, where according to the CCIR standard frequencies are allowed in a channel raster, but in countries where outside this frequency raster permitted transmitter frequencies are given, an electronic search process is also provided with automatic frequency correction. tion. The same applies when, as a result of frequency operation within the various reception areas, a subjective tuning to an optimal image becomes necessary. However, the device can also be used in connection with other communication technology receiving devices.

When calling a subjectively tuned transmitter, it is necessary that in addition to the setting information for the frequency divider, data for the tuning of the discriminator's oscillation circuit is also stored and called. The latter memory can be an analog memory or a digital memory, the called setting information of the D / A converter 16 is supplied to the capacitance diode in the oscillation circuit of the control switching circuit 5. The memories are not displayed.

Claims (6)

7902787-6 PATENT REQUIREMENTS Receiver connection in a communication technology receiving device with digital frequency synthesizer with adjustable frequency divider, which divides the oscillator frequency of a voltage-controlled oscillator in the set division ratio, which divided frequency in a phase comparison connection is compared with a constant reference frequency the voltage proportional to the phase deviation as a control voltage is supplied to the frequency-determining component of the oscillator, characterized in that a control coupling (5) is arranged with a frequency discriminator which has a voltage-controlled capacitance diode for automatic tuning of the oscillator frequency counter-frequency. deviation from the oscillator frequency set by means of the frequency synthesizer which, even by pressing a voltage to the capacitance diode, generates a control voltage which is converted in an analog-to-digital converter (11) into a digital setting information as proportion against the tuning decrement or increment the set pitch of the frequency divider (7). 2. A receiver connection according to claim 1, characterized in that the frequency discriminator line of the control connection for generating the control voltage is divided into the areas of setpoint, setpoint exceeding and setpoint undercutting and that a post-switched analog-to-digital dependence. falling below certain threshold values provides digital information for changing the division ratio setting. Receiver connection according to Claim 1 or 2 with input keys for setting the frequency divider resp. to call stored fixed division conditions resp. tripping of an electronic search process, characterized in that by operating a setting key to the capacitance diode of the frequency discriminator a certain voltage is supplied, which is so large that the oscillation circuit is set to a resonant frequency which sets 7902 '? 87 ~ 6 8 to the discriminator position curve and that a manually operable analog value sensor is provided, over which the oscillation circuit of the frequency discriminator can be tuned by applying a voltage proportional to the time or setting after setting the frequency divider and that via a switching contact the analog-coupled analogue * can be connected to the frequency discriminator. is connected to the frequency divider, whose digital setting information decrements resp. increments the set frequency divider. 4.; Receiver connection according to Claim 3, with two fine-tuning keys for incrementing and decrementing the frequency divider, which are connected to connected digital circuits which provide proportional digital setting information to the operating time, characterized in that an electronic switch is an electronic word switch. depending on the frequency discriminator curve over a control circuit during the setting of the frequency divider, the control circuit and the connected analog-to-digital converter connect to the frequency divider resp. fine tuning keys directly with the frequency divider. 5. Receiver connection according to claim 4, characterized in that when operating the fine tuning keys in the frequency discriminator oscillating circuit, the tuning takes place from a nominal position in non-linear steps and that proportionally to the tuning over the A / D converter after exceeding or exceeding the value. the frequency divider this increments resp. decrements in linear steps and that after completing a certain number of linear steps the electronic switch disconnects the control circuit and connects a control unit which generates a digital information proportional to the operating time of the operating keys, over which control unit when operating the fine tuning direct keys the oscillator's oscillating circuit by pressing a certain voltage to the capacitance diode is reset to the nominal position and that the frequency divider of the frequency synthesizer changes until an additional setpoint is reached on the discriminator line and that the electronic switch is switched off by the affected control circuit. takes place over the control circuit. Receiver device according to Claim 5, characterized in that the setpoint of the frequency divider and that of the control circuit