DE1931988C3 - Circuit arrangement consisting of switches and capacitors for delaying electrical signals - Google Patents

Description

The invention relates to a circuit arrangement consisting of switches and capacitors for delaying electrical signals, the input of which is connected to a signal source via a low-pass filter and a load resistor is connected to the output of a further 1 low-pass filter, in which a further N parallel-connected shunt branches are connected between the two low-pass filters, each containing the series circuit of a capacitor and a switch, existing four-pole circuit is arranged, between whose input terminals a first capacitor and between their output terminals a further capacitor, and in which the switches located in the shunt branches are sequentially periodic with a switching frequency that corresponds to the N-th part of the clock frequency } _T , and are switched with a mutual phase shift of the value 2 π! N, corresponding to a time shift by the value \ / f _T.

As is well known, always occurs when setting up transmission links in electrical communications engineering the task of removing the distortions occurring on a transmission path with the help of suitable

neter delay circuits to compensate or, if necessary, the signals to be transmitted to give some pre-distortion. If there is still the task of such delay switching

to realize in integrated technology, one will be one of the first capacitor in the subsequent

try not to use coils if possible, as they are implemented using integrated technology is difficult to access. The magazine "Wireless World", May 1968, p. 101, is already one Delay line has become known to meet the requirements mentioned above able. In this delay line there is a switch v & r- and for each capacitor

branch downstream input switch and em the further capacitor in the previous series branch upstream output switch 5 are provided, and that the input and output switches with a clock frequency / _r are periodically switched with respect to this clock period short closing time such that their closing times do not overlap and their closing times, respectively inside

forwarded, and there are the signal input io of the individual closing times of the switches,
and the connections facing the signal output. Another solution according to the invention, the switch connected in parallel. Since each individual con gabe can be seen in the fact that the switches must be assigned to one capacitor, two switches, are at ground potential switches, that requires a dtrartiger circuit structure relative four-pole circuit em with their input terminals a lot of switches, which is particularly a disturbance - 15 connected on the output side and the shunt branches is felt vorrend if it is necessary, the switched π-element contains that the four-pole circuit as a whole with regard to the set, also one of the shunt branches downstream requirements from a relatively large number of individual amplifiers and one build up between the output elements, clamp existing circuit breaker Furthermore, the US patent 3 i 72 043 20 contains that the π-element in each of its shunt branches has an arrangement for delaying electrical signals a switch and in its series branch an ohm-known, at which the number of required see resistance has that the in the input transverse switching elements can be reduced to a total of two branches of the π-element located switch with a clock. The switching elements described here are switched at a frequency f _T periodically with a closing duration that is short compared to this clock as a rotating mechanical switch off -5 periods The first rotator is complementary to the switch in the input branch of the rende switch that is constantly connected to the input and the π element, and that the second rotating switch is continuously connected to the output of the delay arrangement in the output branch of the π element. Such switches are closed at least temporarily within a two-mechanical switch, in particular rotating mechanical switches in connection with commutators located at two points in time, whereby the first point in time is in each case through, however, in view of its mechanical and the opening point of the in the input cross branch of the sufficiency is not given for the implementation of switching π-Giiedes lying switch and the processing arrangements for delaying electrical 35 second time the opening times in the signals are suitable with today's requirements. The object of the invention is to precede the duration of the closure of the switch located in the input transverse branch of the above-mentioned difficulties in a relatively π-element,
easy way to encounter; A change in the delay circuit can be specified in a simple manner, which can achieve a delay time if the closing side can be implemented by purely electronic means and the switches located in the shunt branch are accessible to so-called integrated technology for a period of the clock frequency /; - is and and in which, on the other hand, a considerable input if the phase of the switching functions can be achieved in the saving of switches. Aisle and output longitudinal branch lying switch

There are two ways to solve the problem - 45 can be changed.

opportunities. In particular, it is thought that the

On the basis of a switch consisting of switches and condensate and output longitudinal branches as a sator circuit arrangement for the resonance charge switch,
delay of electrical signals, at the input of which via A circuit structure in which only one-sided

If the low-pass filter has a signal source and whose switches are earthed, the result can then be reached via a further low-pass filter in the load resistor if the one in the input longitudinal branch is switched on, in which there is also a low-pass between the two resonance reloading switches and the second low-pass filter N parallel-connected cross-two upstream capacitors are replaced by their own, each containing the series connection of a capacitor τι member, in whose cross branches each contain a switch unc tors and a switch, existing four-pole 55 in whose series branch an ohmic resistor is arranged is, between their input during the Re located in the output longitudinal branch

output terminals a first capacitor and between its output terminals another capacitor, and in which the switches located in the shunt branches are sequentially periodic with a switching frequency that is the / V-th part of the clock frequency f _T , and with a mutual Phase shift of the value 2 π / Ν, corresponding to a time shift by the value l // _r , will be switched

sonanzumladeschalter is replaced by an amplifier ker with a downstream switch in the cross branch, and if the one in the input cross branch de The switch located in the π-element is switched like the scarf originally located in the output longitudinal branch ter, while the one in the output transverse branch of the π-term Switches that are lying on the ground are closed at least temporarily between the closing times is the origin

according to the first possibility, this task 65 Hch in the series branch switch, and if de

solved according to the invention in that the switching amplifier in the shunt branch connected switch

ter on one side at ground potential switch ter complementary to the one in the input transverse branch de

tind and is switched to separate input and output π-element lying switch.

Another saving on switches is still very specific mapping that is going on. The scarf s

then achieved when the series branch of the four-pole switch itself can be used in a manner known per se as b

device in M parallel-connected individual series branches electronic switches, which are an inte- d

is split, to which N shunt capacitors attached technology are accessible. The switches and d

are closed, and if each M shunt capacitors 5 the means necessary to control them are in ζ

on the one hand with the M different individual individual no longer shown, since everything to the ver ν

Longitudinal branches and, on the other hand, nothing in common with the subject matter of the invention ii

seeds are connected in series switches. would contribute. The g

The invention is described below using switches S _A and S _B , for example, as spulen- c ¹

Embodiments explained in more detail. Be formed in the io loose resonance charge switch, as i

The drawing shows it e.g. through the German patent specification 12 27 079 c

F i g. 1 a circuit according to the invention, and the German Auslegescrift 12 82 728 known-

Fig. 2 have been associated with the circuit of FIG. ί

Pulse diagram, In the circuit diagram of the l · * i g. 2, which the respective g

Fig. 3 shows an embodiment with 15 switching states of the individual switches that are earthed on one side, depending on

Switches, speed from time t and that for an execution I

F i g. 4 shows a further circuit variant with, for example, N = 3 switches S ₁ to S ₃ in shunt branch j

part system longitudinal branch, is drawn, is indicated by the solid lines 9>

F i g. 5 for the circuit according to FIG. 4 belonging to the blocking and the dashed lines 8 <

pulse diagrams. ao the conductive state of the switch is indicated. <

The circuit according to FIG. 1 consists of a four- For a better overview, the switching states of: pole 11, its input terminals with 1 and 1 'and individual switches are drawn one above the other. The switches S _A and S _B located in its output terminals with 2 and 2 'designated series branch are in the. The signal coming to the quadrupole 11 comes to the rhythm of a clock frequency j _T periodically switched: for example from a signal source 3, whose internal as tet, the clock period belonging _{to the clock frequency / r!} resistor is designated by 4, and from a l // ₇ thus means the time interval beispiels-: the quadrupole 11 upstream low-pass filter 10 aufeinanderfolquenzen on frequency as the closure start of two below the cutoff frequency of the low-pass filter, gender switching operations of the switches S _A and S _B. The z. B. 4 kHz, limited. At the output terminals 2, 2 'closing time r _{s of} the switches S ₄ and S ₈ , a further low-pass filter 10' must be connected to the quadrupole 11, 30 in relation to the clock period l / j _T , as well as the low-pass filter at the input 10 may be the closing: '. Side of the switch S ₄ and can be turned off. The 'lietpasse aO and 10' do not allow S _B to overlap, as is indicated by the dashed lines, for example, in a known manner in the manner of lines 13 and 14. _{The switches S 1} to S ₃ or general technology, which are located in the so-called active / iC low-pass filters, are integrated in cross-branches. At the output of the low-pass filter 10 35, in other words, S ₁ to S _A , the load resistor 5 is in sequence, through which a switching frequency is switched that the Nth part of the arbitrarily designed circuit is to be represented, the clock frequency f _T is, that is, after the time N f _T, provided that this circuit is suitable, the new-10 'emitted signal from the low-pass filter begins in a suitable manner for the same switch. In addition, the switching processing takes place. The quadrupole 11 itself consists of only 40 processes of these switches with a mutual phase switch and capacitors and begins with a shift of the value 2π / Ν, corresponding to a mutual delay time of l // _r in the input branch between the input terminals, as is the case for menl , 1 'lying capacitor C _A. In the output the switches S ₂ and S are identified. The transverse branch, ie between the output terminal closing time of each men 2, 2 'of the quadrupole 11 located in the transverse branch, is another capacitor 45 switch is dimensioned so that it connects the closing sensor C _B , whose capacitance value corresponds to the capacitance duration of the im Output longitudinal branch switch value of the capacitor S _B located in the input transverse branch and the subsequent closing duration of the capacitor C _A coincides. In the longitudinal branch 6, the input longitudinal branch lying switch S _{A is} included. _A capacitor C, a switch S ^ downstream corresponds to Fig. 2, this is for the switch S ₁ by the gesprechend the capacitor C is indicated _8, a dashed line 5 in longitudinal lines 15 and 16 °. lying switch S _B upstream of the intermediate When the switching operations of the sequence, the dash switches S _A and S _B are reached in the region labeled 11-dash line 17, is a completeness; Four-pole W shunt branches are provided, each of which consists of the diger cyclic passage, the de-series connection of a capacitor and a circuit again to the right of the dash-dotted line . Thus, the capacitor C _{1 is} the switch with a renewed closing of the switch S ₁ ter S ₁ , the capacitor C _{t is} the switch S ₂ , which begins

Capacitor C ₃ of the switch, and finally the the certain extent acting as charging capacitor

Capacitor C _n, the switch S _n in series, capacitor C _A (see FIG. F i g. 1) is according to the

tet The dashed line 7 is intended to indicate . Rules of the sampling theorem via the switch S ,, in

that depending on the connection to the switches S ₁ to S _n N times each

made further requests from a Kon- second unloaded. This becomes a during a

capacitor and a switch existing serial com- opening time of the switch S _A on the capacitor

binations in the transverse branch can be arranged, C _A applied charge χ (ί) during the following

N is an integer in each case. Closing time of switch S ₄ reloaded, namely

On the basis of the circuit shown in FIG. 2 6 _S sequentially to the capacitors C ₁ , C, ... C _v

The circuit diagram shows how the circuit works. Closing switch S ₈ results in

to recognize, for which it is essential that the corresponding to the dashed line 15 in F i g. 2 the on

Closing and opening of the individual switches in a capacitor C ₁ charge lying on the condenser

7 8

satorCß and thus the capacitor C ₁ are discharged, that the switch S "is complementary to the charge. Since the closing time of the switch S _{1 also includes the closing time of the switch S A} , which is in the input branch of the π-element 20, switch S 'is is switched, ie the switch capacitor C ₁ must be open during this period, ie the S '" when the switch 5' between the dashed lines 14 and 16 is closed again, and vice versa. During the charging phase, one of the capacitors C ₁ to C _n is charged and removed from the capacitor C _A , so S '"is always a momentary charge. Exactly the same considerations apply while 5' and 5" are open, and while conditions also apply for the switches S ₂ and S ₁ , so that the opening time of S '" , the state of charge of the charges accumulated on the capacitor C _A during the sampling of one of the capacitors C ₁ to C _n over the interval intervals increases to io preferably high-impedance input to the storage capacitors C ₁ to C _n and finally the output low-pass filter, and during the time-delayed sequence back to the condensate closing time of S ", the state of charge of a capacitor C _{ß will be} spent. The duration of this before the capacitors C until C _{n is} cleared. In other respects, ie the achievable delay time, also apply to this exemplary embodiment, which depends on the number N of the memory used in the circuit according to FIG. 1 in connection with capacitors and on the choice of the distances between the circuit diagram according to FIG. 2 already employed successive sound processes. One consideration. A realization of the circuit according to a relatively large adjustable change in FIG. 3 requires compared to the circuit according to the length of the delay time can then be obtained. 1 has an additional switch, but has the advantage that, as already mentioned, all branches of the four-pole switch 11 are connected to earth potential on one side in such a way that they are closed for the duration of the closure almost a clock period l // _r the can. The resistance R is in its resistance clock frequency / _r ; It is only important to ensure that the capacitors are sized so that the phase of the switching functions of C ₁ to C ^ can be changed during the relatively short OfT switches S _A and S _B , which means that S '"Do not discharge via switch 5" can be achieved by controlling the. The switches S _A and S _B caused by the resistor R are not compensated for by a rigid assignment attenuation in the switching operations on the output side, but by an amplifier A , the adjustable control device as a decoupling amplifier that allows it to act . In addition, switching operations of the switches S _A and S ₈ need to be shifted in time against each other, including those to be connected downstream of output 2.

As shown in FIG. 1 can be seen, they are in the process of being turned on, as there are no

Input and output longitudinal branch switch capacitor - like the original capacitor

S _A and S _B so-called high-lying switches, ie C _B - must be discharged.

so, both terminals of these switches have zs. In the circuit according to FIG.

compared to the reference potential, for example the tere saving of switching elements still thereby

Ground potential, a voltage and are not like that achieve that the series branch of the Vicrpol circuit 11

Switches S ₁ to S _n grounded on one side. Such upright individual series branches connected in parallel in M

These switches are sometimes undesirable because their gaps are connected to the N shunt capacitors.

Realization in electronic construction given- 40 are closed. For each M transverse condensate

if difficulties arise with regard to the earthing gates on the one hand with the M different individual

circumstances can lead. This difficulty leaves NEN longitudinal branches and on the other hand each with one

if necessary connected by a common switch in series with the circuit

according to Fig. 3 encounter a corresponding structure. being.

Fig. 3 again shows the quadrupole 11. 45 A corresponding embodiment is shown in

its input terminals with 1 and 1 'and its FIG. 4 is shown, in which M has the value 4. ie, the

Output terminals are labeled 2 and 2 '. In the longitudinal branch there are four parallel individual ones

In turn, the series circuits series branches 6a, 6b, 6c and 6d are split up across the branch. Between

from the capacitors C ₁ and S ₁ to C _n and S _n . see the input terminals 1, 1 'of the quadrupole 11

Deviating from the circuit according to F ΐ g. 1 are the 50 in turn is the capacitor C _A , between the

Switch S _A and the capacitor connected upstream of it, output terminals 2, 2 'of the capacitor C _B. Away-

C ₄ by the circuit framed by dash-dotted lines deviating from the circuit according to FIG. 1, is at dei

20 and the switch S ₈ and the capacitor C _n circuit according to FIG. 4 the switch S _A through viei

^{switch S 1 connected in} parallel on the input side by the circuit 21 framed by dash-dotted lines. S ² , S =

replaced. The circuit 20 consists of a.-R element. 55 and S ⁴ replaced, the output side to the series branches

in whose shunt branches the switches S 'and S "are connected - 6 a, 6 b, 6 c and 6d . Correspondingly

are arranged. The circuit 21 consists of a ver is also the switch S ₈ through four switches S ⁵ , S *, S

stronger A, after which in the cross branch of the switch '"and ^{replaces S B} , which on one side with the one ·

is switched. The circuit according to FIG. 3 has then connected individual series branch lines 6a to 6ά

the same mode of operation as the circuit according to 60 and the output side directly ge in parallel

Fig. 1, when the in the input branch of the.-R-Glie- are switched and to the capacitor C ₀ or to off

of the 20 lying switch S 'is switched in the same way, input terminal 2 will lead. To the M Längzweigleitun

like the gene originally located in the output longitudinal branch, N shunt capacitors are connected to each, un <

Switch S _B , while the capacitor in the output cross branch of the series branch line 6 a «

JT element 20 lying switch S "at least temporarily 65 C ₁ , C,", C ₁ , and C ₁₄ , corresponding to the line

between the closing 66, the capacitors C ₂₁ , C ₂₂ , C ₂ , and C _{24 are closed} at di

At the time of the line 6c originally located in the longitudinal branch, the capacitors C ", C,", C "and C ₅

Switch Sj and S _n . Furthermore, care must be taken and, finally, the condensers connected to line 6d

C ₄₁ , C ₄₂ , C ₄₃ and C ₄₄ . Each M shunt capacitors, in F i g. 4 each four shunt capacitors of the different series branches 6a to 6d are connected to a common switch in series, which is earthed on one side and leads to the continuous connection between terminals 1 'and T in quadrupole 11. Because of the division into four series branches, in the circuit according to FIG. 4 accordingly four switches S ₁ to S _{4 are} provided, through which four capacitors are combined. For this reason the capacitors C ₁₁ , C ₂₁ , C ₃₁ and C _{41 are} connected in parallel on the output side and connected via the switch S ₁ , correspondingly the capacitors C ₁₂ , C ₂₂ , C ₃₂ and C _{4i are} assigned to the switch S. Capacitors C ₁₃ , C ₃ , C _3S and C _{13 are} assigned to switch S _s and finally capacitors C ₁₄ , C ₂₄ , C ₃₄ and C _{44 are} assigned to switch S _4, each as a series switch. The circuit has the advantage that, for example, when sixteen capacitors are used, four times the delay time can be achieved compared to the circuit according to FIG. 1 when only six additional switches are used.

Also in the embodiment according to FIG. 4, the high voltage switches S ¹ to S ^{8 can be switched} by n-GHeder or by an amplifier and a downstream cross switch corresponding to the circuits 20 and 21 in FIG. 3 replace.

In Fig. 5 a and 5 b are two possible circuit diagrams for the individual switches according to FIG. 4 shown. As with the Schak diagram according to FIG. 2, the dashed lines 8 in turn denote the conductive state and the solid lines 9 denote the non-conductive state of the individual switches. From Fig. 5 a it can be seen that the duration of the closing of the switches S ₁ to S _{4 is} again selected so that it includes the respective closing time of the switch located in the input branch and in the output branch of a longitudinal line. In Fig. 5 a means that the switch S _{1 is closed} over the switching operations of the switches S ¹ and S ⁵ . These considerations also apply to switches S ² and S * and correspondingly to switches S ₂ to S ₄ . The circuit diagram is in FIG. 5 a only for switches S ¹ , S ³ , S ² , S «and S ₁ , S ₂

ίο shown, since the other switches are only in the corresponding Switch wise out of phase.

As shown in FIG. 5 b can be seen, the charge sequence and thus the sound sequence in the individual longitudinal branches 6 a to 6 rf can also be designed differently.

In this case, for example, switches S ¹ , S ⁶ are closed when switches S ² and S ^{7 are} open, and vice versa. In this case, the capacitors on line 6a are charged one after the other and, at the same time, the capacitors on line 6b are discharged one after the other. The switching duration and the switching sequence of the switches S ₁ to S ₄ located in the shunt branch are again as in the switching diagram according to FIG. 5 a. The in Fig. The circuit diagram shown in 5 a results in the maximum

s5 times the delay time, while the one shown in FIG. The circuit diagram shown in FIG. 5 b results in approximately 0.75 times the maximum achievable delay time. In the arrangement according to FIG. 4, the required number of switches is about 3 * YN ', when N is the total number of capacitors used. A more economical circuit structure can thus be achieved by such a circuit structure for values N> 4, since the number of switches required is then less than in the exemplary embodiment shown in FIG.

For this purpose 3 sheets of drawings

Claims (5)

Patent claims: 1. Off switches and capacitors existing circuitry to delay electrical signals at its input via a low pass a signal source and at whose output a load resistor is connected via a further low-pass filter, wherein said further between the two low-pass filters a parallel from N cross-branches, each of the Contain series connection of a capacitor and a switch, an existing four-pole circuit is arranged, between whose input terminals a first capacitor and between whose output terminals a further capacitor is, and in which the switches located in the shunt branches are sequentially periodic with a switching frequency that corresponds to the W th part the clock frequency f _T , and are switched with a mutual phase shift of the value ItiJN, corresponding to a time shift by the value Vf _T , characterized in that the switches (S ₁ ... S _s ) are switches at ground potential on one side and for separation ung of the input and output an input switch (S _A ) connected downstream of the first capacitor (C _A ) in the subsequent series branch and an output switch (S _B ) connected upstream of the further capacitor (C _B ) in the preceding series branch and that the input and output switches with a clock frequency f _{T are switched} periodically with a closing duration that is short compared to this clock period such that their closing times do not overlap and their closing times are within the individual closing times of the switches (S ₁ ... S _n ) . 2. Circuit arrangement according to claim 1, characterized in that the closing duration of the switches (S ₁ ... S _n ) lying in the shunt branch is almost one clock period of the clock frequency f _T and that the phase of the switching functions of the input and output switches (S _A , S _B ) is changeable. 3. Circuit arrangement according to claim 1 or 2, characterized in that the input and output switches (S _A , S _B ) are designed as Resonanzumladeschalter. 4. Circuit arrangement according to claim 1 or 3, characterized in that the series branch of the four-pole circuit (11) is split into M parallel-connected individual series branches (6 α to 6 d) , to which N cross capacitors are connected, and that each M cross capacitors on the one hand the M different individual series branches and, on the other hand, are connected to a common, series-connected switch (S ₁ to S ₄ ). 5. Circuit arrangement consisting of switches and capacitors for delaying electrical signals, at the input of which a signal source is connected via a low-pass filter and at the output of which a load resistor is connected via a further low-pass filter, in which a four-pole circuit is also provided between the two low-pass filters, the N parallel-connected shunt branches contains, each consisting of the series connection of a capacitor and a switch, and in which the switches are switched one after the other periodically with a switching frequency which is the IV th part of the clock frequency and with a mutual phase shift of the value 2 n / N, corresponding to a time shift by the value Vj y, characterized in that, that the switches (S ₁ ... S #) are switches at ground potential on one side, that the four-pole circuit (11) contains a π element (20) connected to its input terminals (1, 1 ') on the input side and upstream of the shunt branches, that the four-pole circuit furthermore contains a circuit (21) consisting of an amplifier (1) connected downstream of the shunt branches and a switch (S '") lying between the output terminals (2, 2'), that the π-element (20) in each of its shunt arms a switch (S *, S ") and in its series branch an ohmic resistor (R) , that the switch (S") located in the input branch of the jr-element with a clock frequency / r periodically with a short against this clock period Closing time is switched that the switch (S '") located between the output terminals (2, 2') is switched complementarily to the switch (S ') located in the input branch of the π-member, and that the switch (S') in the output branch of the.-T- GIiedes lying switch (S ") is closed at least temporarily within a period of time located between two points in time, the first point in time being given by the opening point in time (13) of the switch (S ') lying in the input transverse branch of the ct element and the second point in time ( 14) the opening times (16) of the switches (S ₁ ... S _n ) provided in the transverse branches are preceded in each case by the duration of the closing of the switch (S ') located in the transverse branch of the.-R element.