DE2066156C2 - Channel selector for a tuning circuit with a VHF and a UHF tuner - Google Patents

Description

The invention relates to a channel selector according to the preamble of the patent claim.

Such a channel selector has already been proposed in an earlier patent (DE-PS 19 44 067). Precautions for switching and switching between the reception areas of the VHF tuner between VHF and UHF tuners are not made in the older Pateni.

In a known channel selector of another type (CA-PS 8 04 174), which is also by means of a variable capacity Diodes tunable tuner, circuitry measures are already provided to a Switching between the reception areas of the VHF band and between the VHF and the UHF tuner according to the selected channels. The well-known channel selector is used for this one of the number of touch switches equal to the number of channels to be selected, through which each a voltage divider circuit assigned to the selected channel for supplying the corresponding Channel selection voltage is switched on. The channel selection voltages are jn a transistorized circuit further processed for switching. A processing of binary input signals and an excitation however, this document cannot be used to solve the problems that arise.

The invention is based on the object at a Channel selector of the type mentioned at the beginning an automatic Tuncrumschaltune according to the affiliation of the selected channels to the different reception bands. This task is carried out at a channel selector of the type mentioned by the specified in the characterizing part of the claim Invention solved.

It is essential that by means of proof formwork the assignment of the binary input signals for the channels on the one hand to the VHF or UHF band, on the other hand in the VHF band to the lower, frequenztieieren

ίο or to the upper, higher frequency range and corresponding output signals are generated, with the help of which the switchover between VHF and UHF tuner or between the areas of the VHF band on the VHF tuner. The assignment

In doing so, a query is made on the exit side the switching device decoding binary input signals. The tuner switch takes place depending on from the result of this query completely automatically and in a purely electronic way. That represents a significant Simplification and improvement.

In the following, the invention is illustrated by means of exemplary embodiments described with reference to the drawing. It shows

Fig. 1 shows a first embodiment of a channel selector.

FIG. 2 shows details of the circuit of that shown in FIG Channel selector.

3 shows a further exemplary embodiment of the channel selector.

F i g. 4 Details of the circuit of the circuit shown in FIG. 3 shown channel selector.

In the exemplary embodiment of a channel selector shown in FIG. 1, a part enclosed by a broken line 21.7 represents a VHF tuner.

3t This has an input stage with a high-frequency amplifier 206 . as well as an intermediate stage with a mixer 207, a local oscillator 208, a variable capacity diode 209 for the input resonance, variable capacity diodes 210 and 211 for the intermediate

4-stage resonance and a capacitance-variable diode 212 for the resonance of the residual oscillations. Far ¹ - diodes 213 to 216 are pre-cast. which can be biased in the forward or reverse direction to the intermediate taps of resonance coils of the input stage. the intermediate stage and the local oscillator to earth or to earth in terms of high frequency. A connection 218 is used to supply power to the VHF tuner. a terminal 219 for applying the preset channel selection voltages to the capacitance-variable diodes and a terminal 220 for biasing the diodes 213 to 216 with a positive or negative bias voltage to switch between the lower, ie lower frequency and the upper, ie higher frequency, band of the VHF range to effect. A part enclosed by a broken line 221 represents a UHF tuner, which includes a high-frequency amplifier 222, a self-oscillating mixer 223, variable capacitance diodes 224 and 225 of an intermediate stage and a variable capacitance diode 226 for superimposed oscillations. A connection 229 of the UHF tuner is used for the power supply. A circuit arrangement, generally designated by the reference number 200, represents an adjustable binary memory for generating binary input signals. Its output connections are connected to corresponding input connections of a switching device 227 which decodes the binary input values. ü \ c clear assignment between the binary input, signals and

the channels is in TabelU * Binary ; displayed. Binary Table I. Input signal Input signal channel 0000 channel 0001 1000 1001 1 0100 9 0101 2 1100 10 1101 3 0010 11th 0011 4th 1010 12th 1011 5 0110 UHF-I Olli 6th 1110 UHF-2 1111 7th UHF-3 8th UHF-4

If one of the binary input signals compiled in Table 1 is fed via the input connections A to D of the switching device 227 that decodes the binary input signals, the output level of the relevant NOT-AND gates 201, bi '20Iu and 202j to 202u is reversed to the lower level , while the output level of the remaining non-AND gates remains at the high level value. Of the 16 possible channels in the channel selector in FIG. 1 only 13 channels are used, but a different number of channels can also be used by setting up the channel selector accordingly. The current flows through voltage divider circuits which are assigned to those NOT-AND gates whose output level has the low level value, while current does not flow through the voltage divider circuits of those NOT-AND gates whose output level has the high level value. If the binary input signal (0000) is supplied via the input connections of the switching device 227 which decodes the binary input signals, then the load-side output of the Nichi-And gates 201? and 202i. correspond to the selected channel 1, the low level value. so that a current is caused to flow. As for the no-and gates 2011 to 201 _{] 2} , a current flows only through the voltage dividing circuit

2051 of the not-and-gate 2011. As a result, appears at terminal 219 a voltage which is substantially equal to the voltage drop over one division of the Voltage divider circuit 205, which is for connection to terminal 219 via a diode 204, in the manner is tapped that the voltage across an electrical power source 228 is divided in an appropriate ratio will as it is through the voltage divider circuits

2052 to 205i2 does not come to a current flow and since the cathodes of the diodes 204j to 2Ο4 | ₂ each have a potential which is equal to the voltage across the electrical energy source 228 and higher than the anode potential. namely, the voltage across the division of the voltage divider circuit 2051. so that the diodes 204; until 2O4i2 are blocked. It should be noted that the forward voltage drop across diode 204 is disregarded here. A desired channel can be selected by applying the channel selection voltage as reverse voltage to the variable capacitance diodes 209 to 212 of the VHF tuner 217 or to the variable capacitance diodes 224 to 226 of the UHF tuner, since these variable capacitance diodes are resonance elements. By presetting the voltage ratios for the voltage divider soundings 2O5i to 205u and the voltage divider circuit formed by the repel resistors and 230 to values that supply voltages that are suitable for the selection of the individual channels.

nei, it can thus be achieved that a channel corresponding to the binary input signal can be selected from the adjustable binary memory 200 if this signal is the. Input terminals A to D of the switching device 227 which decodes the binary input signals.

The resistors of the voltage divider circuits 205, to 205, 2 are formed according to the principles of integrated circuit technology. In particular, they can be formed by diffusion in the same semiconductor block which also contains the switching device decoding the binary input signals and the binary memory. In contrast to the practice of radio transmission, the VHF range available for television transmission is divided into a certain number of channels, for example twelve channels, each channel corresponding to a certain section in the frequency spectrum, so that the corresponding channel selection voltages are determined when the integrated circuit is manufactured can. For the UHF band, on the other hand, the frequencies of the received waves are increased by changing the resistance value - ..?; of the rheostat 230 matched.
Similar to the case of the Nichi-And gates 201, to 201,2, the output level of each of the NOT-And gates 202, to 202, j is also subject to corresponding to dc-.i via the input terminals A to D applied binary input signals of a level shift to the low level value. As a result, a current flows from a current source 231 through a specific signal lamp (203, to 203, ₂ ) representing a channel indicator and thus indicates the channel. A detector circuit in the form of an OR circuit 232 provides when receiving a channel in the lower band of the VHF range, e.g. B. emes of channels 1 to 3, for actuating a Schaltersiromkreises 233, which is an electronic switching arrangement, an output signal with a high level value. When the lower band is received, the output signal breaks! of the switch circuit 233 the current through the dioxins 213 to 216 of the VHF tuner 217, so that the intermediate taps of the resonance coils are high-frequency separated from earth and the reception of the channel in the lower band is enabled. When receiving the higher frequency band, the output signal of Schaltersiromkreises 233 allows a current flow through the diodes 213 to 216 of the VHF tuner 257, so that the intermediate taps of the resonance coils are high-frequency grounded and the reception of a

so channel in the upper band is possible.

When receiving a channel in the UHF range, the output value appears with a low level value the load side of the not-and-gate 202u, so that here a Sirom flow is effected, whereby the reception by Sigralla.np-e 2O3n of the UHF band is indicated. At the same time, the UHF tuner is connected to the power source via an electronic switch circuit 234, while the VHF tuner through the output of the electronic switch circuit 235 from the Power source is switched off. When receiving a channel in the VHF band, on the other hand, the output level has of the not-and gate 202 «j the high level value, which entails. that now the relationships between the output signals of the electronic switch

b5 circuit 234 and 235 are reversed, so that the VHT-Tunft 217 to di ': power source connected' and the HF tuner 221 ”.on this is switched off.

Fig. 2 shows the details of the control of the cable

indicator, the circuit for switching between the upper and lower bands of the VHF range and the circuit for switching between the power supply for the UHF tuner and the VHF tuner in the embodiment of Fig. I. The better For the sake of clarity, it is assumed that that the connection group for the binary input signals consists of only four input connections 236 to 239. Transistors 240 to 240Ί * are used for control of the individual signal lamps. However, it can of course also be provided that other channel indicators are used as signal lamps control, for example discharge tubes for number displays or illuminated sign tubes. The switching arrangements 241 and 242 in FIG. 2 correspond to the OR circuit 232 or the switching circuit 233 of FIG. I. When switch circuit 242 is in operation, a current flows from a power supply terminal 243 to terminal 244 and provides the diode forward current for switching between the upper and lower bands of the VHF range. If the switch circuit 242 is switched off, flows in Current through a resistor 245 with a high resistance value, causing at terminal 244 with respect to the terminal 246 a negative voltage is generated, so that the diodes 213 to 216 to switch between a reverse voltage is applied to the upper and lower bands of the VHF range. At the Reception of the UHF range, the output level of a NO-AND gate is low, so that a current is off a power source connected to a power supply terminal 248 through a switch circuit 249 and flows through a connection 250 to the UHF tuner. In these circumstances, the VHF tuner will run out a terminal 252 is not supplied with power because the switch circuit is switched off When the VHF range is received, on the other hand, no power is supplied to the UHF tuner while power is supplied to the VHF tuner.

Another embodiment that is derived from the one shown in FIG. 1 is shown in FIG. 3, components of the same type being provided with the same reference numerals so that repetitions can be avoided in the description. For example, if the input terminals A, B. C and D are at the low level value, the input terminals Λ. B. C and D , on the other hand, at the high level value, then deliver the .4.4 through the input connection pairs. BB. CC and DD given bits each the digit position 0. while the binary signal (1111) the presence of a binary input signal with opposite level values at the input connection pairs AA. BB. CC and DD corresponds. The individual binary input signals correspond to the relevant channels as shown in summary in Table 2 below.

Table 2

Binary
Input signal

channel

Binary
Input signal

11th

12th

0000 UHF- ' 0001 1000 UHF-? 1001 0100 UHF-3 0101 1100 UHF-4 1101 0010 UHF-5 0011 1010 UHF-6 1011 0110 UHF-7 0111

The fact that the channels 2 and 3, channels 4 and 5, channels 6 and 7. channels 8 and 9 and channels 10 and II, respectively are combined in pairs. These pair combinations of the channels in Table 2 are for the VHT range possible because there are usually adjacent channels for television broadcasts at the same time and in same area will not be approved and because, moreover, the demarcation between the upper and the

in lower band z. B. between the channels 3 and 4 is located. There are e.g. B. 13 to 62 UHF channels, but are for Television broadcasts within the same area only allowed seven channels or fewer each. Although seven VHF channels and seven UHF channels are listed in Table 2, the total number of Cies of the binary input signals with four bits, eight different VHF channels and eight different ones UHF channels.

By applying the channel selection voltages as a blocking voltage to the variable capacitance diodes 209 to 212 of the VHF tuner or the variable capacity diodes 224 to 226 of the UHF tuner can be a desired Channel can be selected with the help of the external tuner.

According to the binary input signals fed in via the input connections A to D , the output is subject to certain of the non-and gates 202 _; to 202i4 of a Pcel shift to the low level value. As a result, a current flows from the power source

3d 231 by a certain of the signal lamps and thus indicates the selection of the channel. Since the input terminal of a NOT-AND gate 236 'is connected to the F. input terminal D. its output connection has the low level value during the reception of the VHF range, as can be seen from the clear assignment in Table 2, and a signal lamp 237 'lights up. which indicates the reception of the VHF range. In a corresponding manner, a no-and gate 238 'is used to light up a signal lamp 239' when the UHF range is received. Instead of the signal lamps, other display devices can also be provided for channel display, such as discharge tubes for the numerical display.

The OR circuit 232 provides upon receipt a channel in the lower band of the VHF range for actuation of the switching electronic circuit 233, the output signal with the high level value. At the reception a channel in the lower band of the VHF range interrupts the output of the switch circuit 233 the current through the diodes 213 to 216 of the VHF tuner 217, so that the intermediate taps of the resonance coils high frequency and allows reception of the channel in the lower band will. While receiving a channel in the upper

S ^ band range allows the output of the switch circuit 233, however, a current passage through the diodes 213 to 216, so that the intermediate taps of the Resonance coils are grounded in terms of high frequencies and the reception of the channel in the upper band

6n light becomes.

When receiving a channel in the VHF range, the load-side output of the NO-AND gate 238 'has the high Level value, when receiving a channel in the UHV range, on the other hand, the low level value. These facts

8 =. before is used to operate the electronic switches' circuits 234 and 235 are used, which serve to activate the VHF tuner when receiving the channel in the VHF range to be connected to the power source, the UHF tuner

against to be disconnected from the power source, and on the other hand when receiving the channel in the UH F area the VIIf Disconnect the tuner from the power source and connect the UHF tuner to the power source.

FIG. 4 shows elements of the channel selector of FIG. 3. The binary input signals on the group of input terminals 240 supplied to a terminal 24 Γ is ver connected to the electrical energy source. (\ '· Ϊ́ supplies a voltage of about 30 volts, namely a slightly higher voltage than the maximum voltage that is to be impressed on the variable capacitance diodes, a connection 242' is with

is connected to a power source to apply a voltage of about 5 volts to the no-and gates of the channel selector, and a terminal 243 ' is connected to ground. The channel selection voltages to be applied to the variable capacity diodes of the VHF tuner are determined by the respective variable resistors 244i to 244; regulated and the channel selection voltages to be applied to the variable capacitance diodes of the UHF tuner by regulating resistors 245 to 2457 . The mode of action of these variable resistors has already been described above.

For this purpose 4 sheets of drawings

Claims (1)

Claim: Channel selector for a tuning circuit with a VHF and a UHF tuner, which have variable capacitance diodes as tuning elements, with a channel selector circuit formed by a digitally controlled analog voltage generator having a large number of gate circuits corresponding to the individual channels, each of the gate circuits having a load resistor, which is tapped via a diode for connection to a point common to the gate circuits, a binary signal generator in the form of a reversible binary counting circuit being connected to the input side of the channel selector circuit, the channel selector circuit also for selecting a corresponding gate circuit in the sense of producing a current passage through the load resistor a binary signal generated by the binary signal generator can be supplied to the selected gate circuit and in the sense of the absence of a current passage through the load walls. and wherein at the point common to the gate circuits on the output side of the channel selector circuit, a corresponding predetermined voltage can be generated which can be applied to the variable capacitance diodes for tuning to a corresponding channel, characterized in that for switching between the reception ranges of the VHF band and ?: > in switching between the VHF band and the UHF band on the output side of the channel selector circuit! (227) an OR circuit (232) with a downstream switch circuit (233,234,235) is connected.