DE1791222A1 - Circuit arrangement for tuning - Google Patents

Description

"Circuit arrangement for voting" The invention relates -sich on a Schaltu - r "bsar, order for tuning in the input and / or output circuit of an amplifier element lying resonance circles of a recipient using sy2arnu ngs-dependent imp c: @s: nze: @ (Tuning impedances), especially capacitance diode -;., In a first frequency range and at least one. two- th frequency range in which the resonance circles for the frequency ranges each have a tuning impedance z @ .b @ orana @ is and when receiving in an irequer_zbereic.-l at least a tuning_impedance for a different frequency, _z-range by virtue of their pre-tension: b on a fast value hLlo of the norCal paragraph ti.-. rberaicäes and / or on a -n Value with strong damping is switched in such a way that J the relevant resonance circuit made ineffective; You can go any stage in on different areas is voted, assign a voting impecance u: ._ d other- re oscillating circuit elements, in particular inductance, -er., switch; then high-frequency leading Sc a1 @ ä, o- ts. @ ;;, e required. Such Schalü-Iontakte could ---. ouch replace with electrically controlled switching diodes :: earth .. It would also be possible to add one = @ ;, stl ..- per @ .em libsti = area to assign impedance and the individual Resor..anzkreyse by switching impedances, e.g. diodes, in the unneeded To make the case ineffective, e.g. to short-circuit or to be very upset. A further simplification is obtained if each re- sonanzkreis assigned a tuning impedance and this to one not used in the reception tuning fixed value is toggled,: run reception using another resonance circuit takes place. So can through -the upset and / or a strong dampening that resonance circuits that are not required are largely ineffective be made. Although an electronic switchover is required here follows and high-frequency loaded contacts in the Resonance circles are not required, is still the supply of various switching voltages from except. required so that a special switch (area Selector switch) is required. With a circuit arrangement of the ei «ganö @ mentioned type can be avoided if according to the invention the self-tuning potential has a range of change: a @ .st, of at least the sum of 'for the @ ereichse.äst @ ma @ required changes in tension of the spacing . "? mpadatze e ---. ". speaks and when the various .frequency ranges n associated tuning impedances between dembs potential and a tap of a dem @ bstimm-Poten, ioe- te-r parallel voltage divider such a CD e- sc .-. aj. are tet that simply by changing the Abs-jlmm .c- ter.Gials scaled the tuning ranges one after the other will. .: ores at the input and / or output of a verse tc..r'rer elems-n - tes channels are interconnected, which are responsible for the the various coordination areas separated = left for example because of the connection of different connections separate or because of the formation of selective band filters, nen the tuning impedances of in different r: ereic:; @@ effective resonance circles in opposing direction: @@; on fixed values happened. which means that in be @ im:. @; ": _: @ ;, they don't need @ i, -, yter. Switching elements for additional Chen decoupling can be exploited. The invention is described below with reference to the drawing for example explained in more detail. Fig. 1 shows a tuning according to the invention, at the middle of a single one. Abs;, imtpotentiome fers three i, resonance trips for different reception areas .Frequency must be switched on. Fig. 2 shows a lei terbiläanö the circuit -, - after Figure 3, in which the relationship between derrcteru.g of the shielding potential and the change in the @@ bs ti- fruity is the same in three reception areas, dü.-ch switching diodes there. @ 24 @ r: @@!:. Ü Reception used Schwingunnskre-4s each: ieiis betr @ wch li @ icü beG-attenuated, whereby Eieiter @ üannunöstei.lerscaltwngen made sense, by means of which an equal gungsnreises both on the upper. as on the lower. @FiGic hs- ei-.de is possible. Fig. 3 shows another: le @ .terbildg äer switchgear according to Fig. 3, with old diode-fired counter- tensions for the. not be3züt, ztei_ nbstim: .. diode_ä er be procreated. Figures 1, 2 and 3 zelga n Schaltu_agsa nord: @ a__g @@ after the invention, in which only through the - nde- tion of the voting potential several bsti: .mbranges can be switched on one after the other while the each not activated.-L distance :: @ .. areas ineffectiveG. :: be made. The Abs timmpo tentioneter 22a is: at a stabilized food source ++ connected to earth, the voltage of which should be at least the sum of the tuning potential changes required for the connected tuning elements, i.e. in three areas about 3 times as large as is required for each individual diode.

The individual oscillation circuits are created by inductances 75, 76 and 77 formed, which tuning diodes 78, 79 and 80 in series with isolating capacitors 81, 82 and 83 are connected in parallel. At least one of the inductors 75, 76 and 77 can by the rest by, a mining line or another by a voltage-dependent Impedance element be tunable element. The connection points of the diodes and Isolating capacitors are connected to the wiper of the via series resistors 84, 85 and.8.6. Tuning mtiometers 22a connected, while the inductors 75, 76 and 77 at the end connected to the separating capacitors 81, 82 and 83 a potentiometer circuit, -the resistors that can be adjusted if necessary, -.87a, 8 $ and 89 and the tuning potentiometer 22a is parallel, with further Capacitors for high-frequency grounding can be switched on.

In tens. 1, the diodes 78 and 79 have opposite polarity in such a way that the anode of the diode 78 connected to the separating capacitor 81 is connected to the resistor 84 and the cathode of the diode 79 connected to the separating capacitor 82 is connected to the series resistor 85, the oscillating circuits with the inductors 75 and 76 are otherwise at the same tap dec, potentiometer between the resistors 87 and 88,; nominal the wiper of the potentiometer 224 is at the lower end, the cathode of the diode 78 is positive and thus biased in the reverse direction, so that: results in a minimal capacity. However, the anode of the diode 79 is connected to the more positive tapping point of the potentiometer, circuit 87, 88 and is therefore conductive, so that the associated oscillation circuit is strongly damped by the diode biased in the opening direction and is therefore ineffective. If the wiper of the potentiometer 22a is shifted upwards to more positive values, initially nothing changes in the state of the diodes 79, but the diode 78 receives a lower negative bias voltage and therefore shows a greater capacitance, so that the resonance circuit with the inductance 75 has a lower frequency is tuned. When the wiper has reached and exceeds that potential point which corresponds to the tap 87, 88, the anode of the diode 78 becomes positive with respect to its cathode, so that this oscillating circuit is dampened and ineffective. On the other hand, the cathode of the diode 79 is positively biased with respect to its anode and thus in the reverse direction, so that now the known voltage-dependent capacitance occurs and tuning takes place.

In the states described so far, the cathode of the diode is 80 negative and therefore the oscillation circuit with the diode 77 ineffective. If that Tuning potential: r reaches the value of the tap between resistors 88 and 89 has, the diode 80 is blocked and the a-half-closed oscillation circuit is tuned. In this range, the diode 79 is then practical to a minimum capacitance value permanently set, and the connected oscillation circuit is in resonance on one Value outside the normal tuning range.

If only two areas are to be determined, one of the drawn areas can be used Schwing'.7-, rice circuits can easily be omitted.

3 The circuit according to FIG. 1 still has some disadvantages. Namely, when the tuning potentiometer increases, and thus when a potentiometer tap, possibly coupled with -e.4 -... on the pointer, is moved in the same direction, for example to higher tuning potentials. the frequencies of the circle with inductivity 75 i -, j - reverse direction as those of the circles with inductances 76 and 77. The tuning direction between the circles with inductances 76 and 77 is the same, however, the circuit with the inductance 76 is not ineffective when tuning with the inductance 77 due to attenuation, but only detuned to a high frequency value.

These disadvantages can be eliminated in a simple manner by additional measures eliminate, which are shown in Fig. 2, with matching elements with the same reference numerals are provided. In Fig. 2. The possibility is also provided, -the Match potentials at the upper and lower end of this tuning range in order to achieve the Set frequency ranges to a desired value. These are the lower ones Do not end the resonance circuits directly at taps on a voltage divider circuit connected according to Fig. 1, but between earth and the voltage divider resistors 87, 88 and 89 balance potentiometers 91, 92 and 93 are switched on compared to the tuning potential, three more voltage; are connected, those from # 'estwiders # ends 94, 95 and 96 in series with adjustment potentiometers 97, 98th and 99 exist. The wipers of the potentiometers y7, -98 and 99 become the reference potential for the oscillation circuits to be set by means of the A2 tuning potential with the inductivities 75, 76 and 77 removed, if the wiper of the potentiometer 22a to the value at which the associated oscillating circuit with minimum diode voltage should have a certain resonance frequency, it is due to the associated voltage divider 94, 97 or 95, 98 or 96, 99 only low voltage, and an adjustment on this The lower end of the potential can be determined by means of the associated potentiometers 91, 92 or 93 be performed. Is the wiper of the potentiometer 22a on set a value which corresponds to the maximum diode reverse voltage, then the Adjustment at this upper potential end using one of the potentiometers 97, 98 or 99 possible.

So that all oscillation circuits are the same with the same change in potential Show frequency changes and thus frequency markings on a voltage indicator run in the same direction, the diodes 78, 79 and 80 are opposite in FIG poled the same as the tuning potential or the reference potential.

However, in order then to make the non-required oscillation circuits also by damping effect if a higher frequency is set for the next reception area, are provided between the i: n ode of the diode 78 and the reference potential point of the Sc ..- # i-: iz ur_gskreises the Diode 79 and further between the hnc @ c / y and the reference potential L, - a -.- Point of diode 80 switched on switching diodes 100 and 101, which are parallel to diodes 100 and 10 1 for high frequency and have a high impedance and negligibly low capacitance in the locked state. Who.- .. then, for example, the tuning range of the circuit .with the inductance 75 has passed and the nbs timmpc potential has assumed a value that is more positive than the reference potential of the resonant circuit with the inductance 76, the Diode 100 set in the forward direction and works. then that, attenuation for the circle with the inductivity 75th 'is there. provided that the high frequency voltage dividers have negligible impedance; If necessary, the reference potential points of the individual oscillating circuits are to be connected to earth and / or among one another by capacitances for high frequency, as indicated by the broken lines of earthed capacitors 102, 103 and 104.

FIG. 3 shows a further practical embodiment of the invention, the arrangement of which corresponds to the switching elements of the switching elements which have the same reference numerals in FIG. 3. Auxiliary diodes 105 and 106 are switched on between the cathode of tuning diode 78 and the cathode of tuning diode 79 and the reference potential of the next following circuit, that is to say with the connecting lines between resistors 87 @ and 88 or 88 and 39. The diodes are grounded at both points, possibly by means of additional grounding capacitors 102 and 103 and 104, and thus have an effect. does not affect the capacities of the resonance circuits. The diodes 105 or 10.6 become conductive as soon as the tuning potential of the wiper at the potentiometer 22a has reached a higher voltage than corresponds to the tapping track of the voltage divider 87, 88, 89 connected to the cathode of the diode in question. This ensures that the frequency of the diode 78 or 79 is set to a fixed capacitance value in the reverse direction above its actual tuning range. which results essentially from the difference in the associated connections with the voltage divider 87, 88 and 89. The auxiliary diodes 105 and 106 thus, to a certain extent, produce voltage drops as counter voltages at the resistors 84 and 85, by which the further change in the tuning potential is kept away from the diodes 78 and 79 outside the range of which the cathodes of the diodes 78 and 79 are not included connected to the anodes of the diodes 105 and 106, but to wipers at the resistors 84 and 85, it is possible to set different values of the fixed potential outside the tuning range. This can be particularly important for oscillation circles belonging to the same area in different stages; if these are tuned to different frequencies outside of the working position, the risk of undesired feedback and thus also of the amplification of vibrations lying outside the normal channels is also reduced. Incorrect mixes of the Oscillator and the undamaged formation of communication Vibrations can be safely be prevented, so that even without additional test do not result in any disadvantages: With the connection of the DioCen shown in dashed lines 78 and 79 with Schleiforn the. Potentiometers 84 and 85 There is a certain dependence of the resting potential from the tuning potential because, yes, the grinder no longer directly with the stabilized potential of the diodes 105 or 106 is connected. This can be avoided if, similar to Fig. 2, the cathodes of the F.ziifsdi- oden 105 and 106 to adjustable taps of the voltage divider 87, 88, 89 are connected and if then the Taps for auxiliary diodes that lead to oscillating circuits cher areas belong, can be set differently, so that the auxiliary diodes 105 and 106. to different rest values outside the tuning range are firmly stabilized are. Another embodiment is shown in FIG indicated, de, ß the cathodes of the diodes 105 and 106 not, with the reference point of the oscillation circles -76, 79 resp. 77 ', SO-connected, but with sliders on the Resistors 88 and 89. Where is. note that the Auxiliary diodes of different oscillation circuits of the same Tuning range in different stages at separate Grinder should be connected; for this purpose are moderately at stalls of a part of the resistances. 88- and: 89 several: - held in parallel Q PQ tentiometers with separate To use grinders. In, one, exemplary embodiment was ... the: stabilized Voltage ++: 30 volts, and the tuning potentiometer 22a had one. Resistance of 30 kOhm. Andes tapped between the resistors 87 and 88 and 88 and 89 respectively Voltages of about 4 volts and about 12 volts, respectively; the cons readings 84th, 85 and -86 were 500 kOhm each. The voting mung in Volume I with the S'nw: ngres inductance 75 took place in the area. the Ab-s7; mmpotentiäs, from 1 to 3.5 volts, the Abs -LM:.: Ang in. volume. III in. Oscillation circle: is with, the @ nd @ .T, ri t, t 76 took place between 5 u: ad 12 volts., Vfrend dfe. Ao- mood in the band. IV / V to 790 D IE s with a paragraph 4 imm - po ü: ential of 14 to 30 volts was achieved.

Claims (1)

N e ue claims: 1.Circuit arrangement for the sampling of uniquely, and / or from, -angskrein an amplifier element lying ResonanACrises a recipient by means of tension-sabhse: - giger impedances (matching impedances), especially h @ tpa-- zititsd2Loden,. in a first frequency range and little- at least a second frequency range in which the resonance nanzgreiaer_ for each frequency range one tuning pulse. is then assigned and when receiving in an i? area at least one spacing impedance for one Frequency range by means of their bracing to one fixed: ert outside the normal voting area and / or to a value with strong damping u @ i @ c @ 3 etia s- is tet. in such a way that the @eso in question: @ anmr @ ei.s tin-- made effective isL, characterized in that da3 Tuning potential (22a) a change in range aui @ rei;, t., the at least the sum of the for the 1,3ereichs & b3ti_muiian @; necessary changes to the vote! @@ ped @ 'n: = f: @i (78,7J, 30) and that the different frequency areas assigned Abatimmimpedanzen between the Abstinmpotential and a tap of the Abs tinai- Potentiometer parallel voltage divider (S;, 88,, 89) are switched on in such a way that the changes adjust the tuning ranges according to the abstinence potential-- be switched on differently. 2. Circuit arrangement according to claim 1, daduxch gekonn-. shows that two different frequency ranges arranged diodes (78.79) between the tuning potentials and. an equal tap of the voltage divider with eut- opposite polarity are switched on (Pig. 1). 3: SGhaltL% Ti zanordnun # after. @. Rls; @% ruch 1, ci ^: Jz @ rcii draws ,, that at least two v;: r: @ehiedericn frec @ E @ n = @ i @ :: w enough to; Jeoxdno te diodes (79,80 ) z: riscl @ c @ n dca. @ .; @@ otciati @ .l and various Ab @ vriff en dgs S? @ 77i} au @: @@; st: c 1.i.cx s are protected with the same polarity (l. @ ig.1). 4-. Circuit, arrange ;; after at least one of the a @ ol: cüi @ - judging Luüprüche, marked by the fact that the SZ @@ iail @ ir:, @; share consists of adjustable. 5. Circuit arrangement according to at least one of the vexar.- going claims, characterized in that between the Spannuri "cteiler-tlidez stands (87, 38, c33) cr. s te A ä3 ei potentic: .c # ter (91.92 ) 93). are switched on, aia whose t b-- gri.:ffe @; c: gei @ above the AbstiianipotentiaZ @reiterc tensionun @ s- share from fixed resistors (94, 9 @ bw.!. @@@ j in a row with (zj .-. # eiteri) From: Ileielataoteiatiometern (ä7.98 b? w. ange-- sehloG sen, where the grinders dc "z (zzrei'ceia) potentieraetcr (97.98 or 99) the Tezugnpotentia7. for the Coordination: iicipadance of one oscillation skrei; 3es c @ rtI @ U '@ r @ en wiw ° cl (Fig. 2) 6. Arrangement according to a few of the claims 1, 3, 4- or 5, characterized in that between de Anode of a diode (78 or 79) and the decu-npotentiall @ uj71: t des Sch;> riiagunqskreiyes another diode (7c3 or 80) e: ine Diode (100 or 101) is switched on, dir-avßerlialb des Attenuation of the tuning range. works. 7. S clialtungsanordrung according to at least one of the preceding going claims, characterized in that between the electrode connected to the tuning potential one x Tuning impedance (7z3 or 79) and the reference potential of the next following circle (76, 79, 82 or 77, 80, 83) one The diode (105 or 106) is switched on so that the tuning diode (7ä or 79) in terms of frequency above its own adjustment range to a fixed capacitance value in;, 1? exx: z.cY @ -tcax @ g -ein. @ e'L-cllt @tird, deI_sich IM through the iait that , @ 3`c @ I @ Lil. @ 'Gia'xlüctia0 "LSQ, :: 1Un to. ay: # @. u :: clz da zvri: @@ c: @ cl # e '1 to w 6, da ((i, _ ß; .1 c; il @ e: ra a? 1 cra .; Deu @ agspoi:; ntial arrgcs @: 'rz: 1_a @:. @ Cnen @ro: @ =: t: id @ "w- @ 2d (BA - t #% @ i '? 8 5) and DEX1 BezujF "po (s11, ü _a- of 3I..' C`si- - 8 # xC3, #J # ir @:: L j: i n e i @:. # A .Lües ( ""# `` j # y # #i BGA 77 diode (105 bzwa 106) geachaltct ei.n «nd that d_ ie; re = it dertt to the .iib.y electrode c @ lde # tellpax @@ l; c - # ( 7 S b z v ra 79) rai.ü one fer au Vorviidexs-talld (04 or 85) , ferbuildels Ist LiarüY u, that for the i11S'GJ_r.llil: i.li @ pe @ ia @ lu outside d «es a vrwtzlbaxer value of the fixed potential 9. Schaltur-fanordnusxg next @ i venigLtens oinem der = fs @ .-- spxiche 1 to E, dadtujch marked that between aex electrode connected to the tuning potenti.-1 sti.-n; impedance (7S trl @ S ":. 79) and. einyi oixastellbaren. Ab ri -. @ f of the tension eäler (87.88, £ 3j an aid: Jioie (14a> 106) is switched on, d'eiß the Abütimaldl.a: e ( 7 8 bzv "." (9) in terms of frequency above ih.i ßi`3 range to a selectable, fixed I3@3üüs.r: .. @. `T ': 9E: x t in Locking direction is set. 10. Schaltiuigsanoxdnung according to An.gpxuch 9, thereby ge @ e? @. S-- draws that the to different Sch # vrin-urgskroise: b associated diodes (105 or IM #) to getxerunte eixIstnll. @ bare taps (sliders) are connected.