DE1562172A1 - Method for the amplitude modulation of carriers of the carrier system - Google Patents

Description

Dipl.-Phys. NORBERT EILEHS sa PATBNTANWAiT

Method for the amplitude modulation of carriers of the carrier system according to DAS 1 191 416

The invention "relates to a method for amplitude modulation of carriers of the carrier system in DAS 1 191 416 Td e aehr i flat carrier system, as well as orders for the implementation of this procedure.

The carriers described in DAS 1 191 416 consist of alternating positive and negative right-hand pulses, their width is either the same or jumps between two defined sizes, one size being twice the other. The single After another agreement, the carrier is also called '• iVALSH-iiuktion rait a Seqaens / u.

In DAS 1 191 416 the modulation of the carriers with the output signals of a teletype is described in detail. It is also stated there that telephony signals can be transmitted in the same way by the specified carriers, provided that carriers with a sufficiently high index are selected. Signals are transmitted in both 3? The modulation circuit specified for such signals in DAS 1 191 416, a LIuIt iplikat or stuf e, is not able to process signals that are more or less rectangular in shape during the duration of the one square pulse of the carrier differ,

iur Loaun _r : the task of transmitting any signals with one of the carriers described in DAS 1 191 41o, the inventor started from the knowledge that any signal curve is not just a sum of sine and cosine functions,

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but just as well as a sum of Walsh functions leaves. The new method is characterized according to the invention in that the signal to be transmitted is initially a Sequence low-pass filter or a sequence band-pass filter whose upper limit sequence is at most equal to the next lower power of two in relation to the carrier, and that the filtered signal is fed synchronously to the carrier to be modulated and together with it to a multiplication stage will.

A sequence low-pass filter suitable for the method is characterized by an integrator, a memory and two switches, both briefly, immediately one after the other at the end of a square pulse of the limit sequence assigned Are closed carrier, and of which the first connects the integrator output with the memory input during the second subsequently short-circuits the integrator.

A particularly useful axis guide form of a sequence low-pass filter is characterized by a first capacitor, one of which is assigned to the signal input and the between the subtraction input and the output of a first operational amplifier is connected by a first field effect transistor, whose emitter-collector path bridges the first capacitor and whose base a short-circuit pulse can be supplied, by a second capacitor, desoen an assignment with the Addition input of a second operational amplifier is connected, and through a second field effect transistor, whose emitter-collector path connects the output of the first operational amplifier with the second assignment of the second capacitor and whose base can be supplied with a transmission pulse.

A suitable for the process of sequence-B _a ndpaß-J? Ilter is characterized by a first multiplier, a device connected to the output of low pass filter and a second, connected to the low-pass mter-output multiplier, whose second MuItiplikationseingang the same time with the second Kultiplikationseingang first multiplier a carrier with that of the *

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upper band size: ae corresponding sequence can be supplied.

The structure of the multipliers is known from DAS 1 191 416, which has already been referred to.

The invention and the appropriate circuits for its implementation are explained in more detail below with reference to the drawing. Point Eb

A low-pass filter according to the invention in detail FIG. 2

A low-pass filter according to the invention as a block ehaltbild

Fig. 3

An inventive low-pass filter as Principle circuit diagram

Fig. 3a

A three-way diagram for the low-pass filter of Figs. 1, 2 and 3

Fig. 4-

A coding circuit according to the invention as a principle circuit diagram

Fig. 5

A bandpass filter according to the invention as a block diagram

The input terminal 1 of the low-pass filter according to FIG. 1 leads to an RC element with a lung resistor 2 and a capacitor 3 as a cross-capacitor to ground. Between the resistor 2 and the capacitor 3, the collectors of two parallel-connected complementary transistors A and 5 are connected, the emitters of which are also connected to ground. The bases of the two transistors 4 and ^r : are via resistors 6 b.iw. 7 to a separate control room length 0 hzm, 9 guided.

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At the emitter dee amplifier transit ports IO are the Emitter of two parallel-connected complementary transistors 12 and 13 connected, their collectors in common with one assignment of a capacitor 14 are connected. The bases of transistors 12 and 13 bind on the one hand Via high-resistance resistors 15 and 16, likewise coupled to the emitter of the amplifier transmission gate 10 and, on the other hand, in each case via a series RC element 17 to associated ones Control inputs 18 and 19. ".,

To the same assignment of the capacitor 14, to which the - Collectors of transistors 12 and 13 ftthrfn _f is also the | / Baeia of a driver transit gate 20 connected. Against- ·

occupancy of the capacitor 14 is at ground * '.. ,,;

The emitter of the driver transistor 20 is galvanic with connected to the base of a power amplifier transistor Sl, the again all emitter followers and an emitter resistor 22 beitzzt.

Fig. 2 shows again the low-pass filter as a block diagram -.i, with an integrator 23, a switch 24 »which the inte- .j # * GratorauBgang connects to ground, a memory 25 and a second switch 26, which connects the integrator output with the - ^ Storage input connects. The integrator is formed in the circuit according to FIG. 1 by the RC element 2, 3, the switch 24 by the complementary circuit is often represented by 4, 5. The capacitor 14 forms the memory 25 and -dl · complementary transietors 12,13 the switch 26,

The low-pass filter works as follows »

At the end of each synchronous _{pulse or time interval t n} which is the same, the time base of the low-pass filter, the switch 26 is initially closed briefly so that the signal voltage in the integrator is transferred to the memory. The switch 24 is then actuated briefly so that the integrator discharges again.

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3? Ig. 3 shows an embodiment of the low-pass filter which has proven to be particularly practical. The input connector 30 is connected via a resistor 31 to one configuration of a first capacitor 32, to which the emitter-collector output of a field-effect transistor 33 is connected in parallel. At the same time, between the assignments of the capacitor 32, there is an operational amplifier 34 with its subtraction input and its output. Operational amplifiers Bind particularly carefully constructed direct current amplifiers, which mostly have a differential input. The addition input of the operational amplifier is connected to ground via a resistor 35. The emitter-collector streoke of a second field effect transistor 36 connects the output of the operational amplifier with the first assignment of a second capacitor 37, the second assignment of which is connected to ground. The first assignment of the capacitor 37 is also connected to the addition input of an additional operational amplifier 38, the subtraction input of which is short-circuited to the output. The filtered signal can be removed from the output terminal 38a. ^{If a signal S 1} Ct) is applied to the input terminal 30, a needle pulse sequence with intervals equal to the time base of the low-pass filter is applied to the base 36a of the second field effect transistor 36 and a load pulse sequence of the same frequency as the first needle pulse sequence is applied to the base 33a of the first field effect transistor 33 offset by the width of a needle pulse, the filtered signal i ^1f (t) can be removed from the ski enime exit 38a.

The capacitor 32 thus corresponds to the integrator 23, the Capacitor 37 to the memory 25, the field effect transistor 36 to the switch 26 and the field effect transistor 33 to the switch

In Fig. 3a some voltage curves in the low-pass filter are shown as an example. The curve a shows an assumed one Input voltage curve F (t), curve b the voltage curve am ■ Output of the integrator, curve c the first needle pulse train, curve d the second needle pulse train and finally curve e the voltage curve at the source output. From this representation it can be seen that the duration of the needle pulses between 0.1

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and V / o the duration of the time base of the low-pass filter. The time base of the filter returns in the output signal I «. (*) Sill width of the individual amplitude levels.

The length of the time frame depends in the specific case on the sequence of the available carrier. She can always go high- » at least equal to the temporal length of the wider of the rectangular pulses contained in the carrier leg, or other expressed iet the limit sequence of the low pass is at most equal to the sequence, the number of which corresponds to the power of two, the closest below the sequence of the carrier, or in a numerical example A carrier with the sequence 145 requires a low-pass

"7

filter with the limit sequence of at most 132 = 2.

A carrier with the limit sequence of the low pass is in the Curve f, a carrier with a higher sequence shown in curve g in Fig. 3a.

One characteristic of low-pass filters is the property that no delay time distortion occurs depending on the sequence number, as it is known from frequency low-pass filters. Rather, all carriers, i.e. all Walsh functions, are included a sequence that is below the limit sequence of the filter is delayed by the same transit time, namely by 3 time, " which corresponds to the time base of the low-pass filter. This explains the offset of curve e with respect to curve a, which is represented by the dotted pieces in big. 3a is indicated. The edge of the filter is unknown, which is also unknown from the frequency filters is infinitely steep, not only with the ideal but also with the real sequence low pass.

A full amplitude modulation stage with a low pass filter is shown in Fig. 4 as a principle / circuit diagram. The stage consists of a low-pass filter and one subsequent multiplier level. The low pass filter ends at the output of the operational amplifier 38a and goes over to the multiplier stage in which the input signal passes once 'a resistor 39 to the subtraction input of a third operational amplifier 40 and via the series connection of two ■ *

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Resistors 41 and 42 are fed to the addition input of the operational amplifier 40. The Subtraktioneingang the OPE _A ratlonsverstarkers 40 is also connected via a resistor 45 with ι »· the output between the two Keihenwiderständen * 41 un £ 42 J.» t, the collector of a field effect transistor 44 Toggle ^'f geeohlöBsen whose emitter is connected to ground and the base of which is connected to a control input 45.

ff The carrier is fed to the control input 45, which is in the Stage is to be amplitude modulated. As required the amplitude of the carrier only jumps between the Y values «1 and * 1. Finally, the exit of the FuItiplikatore is the modulated carrier is removable.

FIG. 5 shows the block diagram of a bandpass filter according to the invention. The bandpass filter consists of a first multiplier stage 50, a low-pass filter 51 connected to its output and a second multiplier stage 52 controlled by this. The control inputs (45) of the multiplier stages are fed one and the same carrier at the same time. The sequence of this supports formed by a Walsh function is equal to the top of the Grenzoequenz ^r i? Iefpaßfilters 51 or below. One denotes the sequence of the carrier with / u. , the G-sequence of the low-pass filter with / u, then a sequence band of width / U ^ - / u is obtained at the output of the band-pass filter

In order to understand this bandpass, one must refer to the multiplication law (s) that apply to Walsh punctures, which have already been described in DAS 1 191 4-16, which has not been included. According to this, 8ioh gives the 3βς \ ίβπ · 3 of a V / alsh function, which arises from the multiplication of two other Walsh functions, from the steps. dieeor two other Walsh functions in the We: ^ a that in ar-, the two Se ^ ue-fi.-'- en in binary notation adul .. · τ ^:. r. ,, ... i doing I; er - ;: ck3ici-tigt _t dai3 two binary ones with the nobleman: Xeitien Co tribute for al? left ο neighbors e Spa 11 e 1 ;. efer ^ ..

C 0 S 8 1 G / U 3 9 _{BAD O} p, _{O! NAL}

If, for example, a signal containing sequences from 0 to 20 is multiplied by a Walsh function of sequence 8, the Walsh functions with sequences 0 to 7 result in new Walsh functions of sequences 8 to 15, the previous Walsh functions with the sequences 8 to 15 result in new functions of the sequences 0 i.is 7 and the previous functions of the sequences 16 to 20 result in the functions of the sequences 24 to 28. The low-pass filter now hides the new functions with the sequences 0 to 8 if assuming that the 3UR voraussetsungsgemäß _f multiplication selected function has the border sequence of the low-pass filter. If you multiply the hidden functions again by the same Walsh function of sequence 8, you get the original functions of sequences from 8 to 15. A numerical example from each of the three groups should make this clear:

/ U ₅ = 0101 / ^u ii ^{= 1011} / ^U 19 ^{= 10011} / U ₈ = 1000 / U ₈ = 1000 / U ₈ = 01000

/ ^U 13 = 1101 / U ₃ = 0011 / ^U 27 ^{= 11011}

For the modulation method according to the invention, the upper limit sequence of the bandpass only less than or at most equal to that of the sequence of the carrier to be modulated tends to be lower potency. One denotes the border sequence with Vu ', the limit sequence of the low-pass filter contained in the bandpass filter must be at least equal to £ / u'.

^009810/1439 BAD0RI6.NAL

Claims (4)

DIP1..PHYS. NORBBRT EILERS 8β hiwjeshbim »> 562 I / 2 PATBNIANWAtT ύ »JBBII ■» + ■■ j Expectations Method for amplitude modulation of carriers of the carrier system according to DAS \ 191 416, characterized in that the signal to be transmitted is first fed to a sequence low-pass filter or a sequence band-pass filter whose upper limit sequence is at most equal to that in relation to the carrier next lower ^ higher power and that the filtered signal is initiated synchronously with the carrier to be modulated and together with this a multiplication stage, 2.) Sequence low-pass filter for carrying out the method according to claim 1, characterized by an integrator, a memory and two switches, which briefly one after the other are closed at the end of each synchronous pulse and one of them has the integrator output connects to the memory input, the other short-circuits the integrator. 3.) oeqiienz low-pass filter according to claim 2, characterized by a first capacitor, one of which is assigned to the signal input, and which is connected between the subtraction input and the output of a first operational amplifier and which is also bridged by the emitter-collector path of a field effect transistor , whose emitter-collector path bypasses the .Kondensator ^ .nd the base of a short circuit pulse supply 'is feasible by einen.zweiten capacitor whose occupancy is connected to ground and its second capacitor is connected to the addition input of a second operational amplifier, and a second field effect transi- ■ ^s 009810/1439 'BAD ORIGJNAL j? - ■ to disturb, whose Eraitter collector route the output of the first operational amplifier with the second assignment of the second capacitor connects, and whose base a transmission pulse can be fed. 4.) Sequence bandpass filter for performing the process according to claim 1, ^ ekennselehnet by a first Multiplier, one connected to the output Sequence low pass filter and one to the filter output connected second multiplier, the second multiplication input of which at the same time as the second multiplication input of the first multiplier is a carrier with the sequence corresponding to the upper band limit is feedable. For the applicant: t \. Uv 009810/1439 bad original