DE1295632B - Method and circuit arrangement for converting electrical analog signals into electrical digital signals - Google Patents

Description

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The invention relates to a method for the value range in which an error of the convert electrical analog into electrical digital first digital signal through the second digital signal Signals. The invention further relates to a scarf that can be corrected, of course, depends on the arrangement for performing this procedure. Overlap between these two signals. Ever Many areas of applied technology, e.g. B. the 5 more the sum of the valencies of the individual Control technology and telemetry technology, the bits of the second digital signal require the valency of the the conversion of electrical analog signals into least significant bits of the first digital signal via electrical Digital signals. For this purpose, increases, the more the two overlap Analog-digital converter known. Signals so that the second digital signal finally The use of a single analog-digital io also the significance of the bit of the first digital converter For this purpose, it is forbidden to correct under signals that have the second lowest value other times when the accuracy of the implementation has.

zens so high demands are made that to achieve this overlap and thus to the resolving power of the converter does not achieve the error correction in a larger one more is enough. It goes without saying that the precision 15 range, the invention provides that the sum of the ability to convert the analog signal into the digital valencies of the individual bits of the second digital signal depends on how far the analog signal is greater than the value of the lowest-value digital converter Resolve the analog signal or the bits of the first digital signal, what small fluctuations he has in the analog The method according to the invention is not based on a Signal can still be recognized. 20 embodiment limited in which only a first

Art circuits have therefore been taken which and a second digital signal, that is to say in total, at least one analog-to-digital converter and at least two digital signals are generated. Depending on at least one digital-to-analog converter. the number of digits in the digital output signal These converters are interconnected so that more than two digital signals, ζ. Β. three digital an error that arises in a converter is generated by 25 signals or more. In the event of a digital breakdown Correction taking place in the circuit compensated output signal with three digits z. B. will turn on that will. divide the input signal into two digital signals with different

For this purpose, a process for implementing different values has already been implemented. The digital signal

electrical analogue into electrical digital signals with the highest valency becomes immediate once

performed using at least one analog-digital 30 to output and simultaneously after

and a digital-to-analog converter known when converting to an analog signal with the

which the analog input signal is combined into a first digital signal of lower significance.

les signal is converted, this first setting digital, after this also converts into an analog signal

Signal was only approximately converted to the analog input signal. The resulting analog

corresponds, in which further the first digital signal 35 signal is again with the analog input signal

carried out to the output and also compared at the same time for the purpose of forming a difference signal,

tig is converted into an analog signal, in which this difference signal is used to correct the

Furthermore, this analog signal with the analog input to the output is carried out with the digital signal

output signal for the purpose of forming a difference signal of the highest significance. This difference signal is used

is compared, in which, furthermore, this difference signal 40 continues to correct the likewise to the output

is converted into a second digital signal and carried out with the lower digital signal

in which finally the first and the second digital valence. After all, it is also used for education

Signal can be added. of a digital output signal with a still

The invention is based on the object of this lower valence, so that a total of a three-digit

To train the method in such a way that in particular the 45 liges digital output signal is generated.

Input of the circuit arrangement lying analog In this and in further developed execution

Digital converter, which has the highest number of bits, forms the principle of the invention

may have a low resolving power and equally to the effect that namely the over-

thus a relatively low price and overlapping of the digital signals with different

has a high working speed. 50 ability to correct the digital signal

According to the invention, this task is given the next higher value,

solves that the sum of the valences of the individual The circuit arrangement according to the invention for

Bits of the second digital signal is at least equal to performing the method according to the invention

the significance of the least significant bit of the first in the following using the example of the just explained

Digital signal is. 55 management form in which a digital

This requirement for a specific ratio signal with three digits is achieved. This exception between the valencies of the bits of the second guide form is characterized in that a and the first digital signal ensures that the first input analog-to-digital converter is with two the value ranges overlap or, otherwise, outputs are provided in the BCD code to the pressed, the bits of the two digital signals partially interlock 60 output higher significance a first digital. So if the first digital signal, analog converter and at the output lower that of the valence at the input of the circuit is a second digital-to-analog converter Analog-to-digital converter is connected directly to the output, carried out to the first digital-to-analog is, due to an inaccuracy in the converter of the higher value, a second If this converter is faulty, this is indicated by the analog-to-digital converter and to the second digital second Corrected the digital signal, which is a third analog-digital conversion comparison using an analog converter connected between the input signal and the zer, the output of the second faulty first digital signal was formed. Analog-to-digital converter to the highest point

3 4

Significance on a display board and the output analog-digital converter 11 generate a digital lower significance of the third analog-digital signal D 4, which is fed to the display board 5 and converter to the point of least significance on the bit group with the second highest Scoreboard leads, the higher-valued output embodies. In addition, the fifth bit of the analog of the first input analog-digital converter to digital converter 11 generates a digital output signal D 5, additionally connected to a third digital-to-analog converter which is fed to a digital-to-analog converter 12 is, the outputs of the second and is that the above-mentioned correction element E 3 earth of the third digital-to-analog converter jointly testifies. E 3 is a transfer element that is connected to the amplifier 3 and fed to the third analog-digital converter and is used to correct the digit with the and the sums of the analog output signals io the highest valency.

of the second and the third digital-to-analog converter The digit with the lowest valency is generated algebraically as before with the formation of a difference signal: the digital signals D 1 and D 2 are compared with the analog input signal to the digital-to-analog converters 6 and 7 are supplied, the lower-valued output of which emits the analog signals E 5 and E 6. The Umersten input analog-to-digital converters still at 15 converters 6 and 7 are precision devices. The output signal resulting from another fourth digital-to-analog converter an- addition of E 5 and E 6 is inferred, the higher valence output of E1 is subtracted from the original analog signal E 1 of the third analog-to-digital converter to a fifth and the resulting difference signal E 12 digital-to-analog converter is connected, the output then has a high degree of accuracy in relation to the input signal E1 of the fourth and fifth digital-to-analog converter 20. The analog difference zeros together at the input of a fourth signal E 12 is fed to the amplifier 13, whose analog-to-digital converter is connected, the output signal E13 is fed to a 6-bit analog-digital output of this converter to converter 14 with a low value. Four bits of the analog middle-order digit on a display board digital converter 14 generate a digital output and the higher-order output signal D1, which is fed to display board 5, is sent to a sixth digital-to-analog converter to the digit represents the least significant. Which is closed, whose output together with the converter 14 corrects the first digital approximation output of the first digital-to-analog converter to that of converter 1, even if the first digital input of the second analog-to-digital converter approximates in the bit Group with the second highest is closed. 3 ° valency has an error exceeding one bit.

This circuit arrangement brings the already- The fifth and sixth bits of the analog-digital

explained the advantage that the converter 14 often has a plurality of bit groups which have a higher significance

having analog-to-digital converter only a low transfer element D 6, which the digital-to-analog converter

ges must have resolving power what is fed to their zer 9. The digital-to-analog converter 9 lowers the price and its operating speed generates the correction element E 9 already mentioned above.

increases. E 9 is combined with E 8 to form the analog signal E 10.

F i g. 1 of the drawing shows this embodiment set and fed to the amplifier 10. That

the circuit arrangement according to the invention, in which the analog signal E 11 emitted by the amplifier 10

an analog input signal in a digital output is fed to the analog-digital converter 11,

output signal is implemented with three digits. 40 Four bits of the 5-bit analog-to-digital converter 11

According to the block diagram of an analog to give the digital output signal D 4, an 8-bit analog-to-digital implementation embodying the numeral input signal El having the second highest value. The zer 1 fed. The fifth bit of the analog-digital converter 11 output by this converter is a digital signal and is divided into two groups. Carry element D 5, which is fed to the digital-to-analog converter. The bit group with the highest significance is 45 12. The converter 12 generates the D 1 and the bit group with the second highest value, the above-mentioned transfer element E 3. activity denoted by D 2 . The signals d 1 represent a. It is assumed that the input signal E 1 represents the first approximation of the signal E 1 and will be 8.01. The analog-to-digital converter 1, which is fed to a digital-to-analog converter 2, which has an accuracy below that of the entire arrangement, emits analog signal E 2. The signal E 2 is a 5 ° generated a signal whose value something of 8.01 is fed from amplifier 3, which also gives way to a carry. The sign of the deviation can be obtained from correction element E 3, which is added to E 2 . however affect, and the circuit shown is

An analog signal E 4 ab- is formed at the amplifier 3 in such a way that the error is taken on the lower side. This is a step-like signal that occurs on the input signal E 1. Assume once applied 55 to a 4-bit analog-to-digital converter 4 that the digital signal becomes analog. The converter 4 outputs a digital signal D 3, digital converter 1 is 7 for D 1 and 9 for D 2 . That embodies the digit with the highest value means that instead of the analog value is 8.01, which is digital and a display board 5 is fed. tale value 7.9. The D 1 representation of FIG. 7 appears

The digit with the second highest value, which is displayed at the output as the digit with the highest value on the display panel 5, is subsequently generated with the addition of a carry element, which is the following way: the digital signal D 2 of will be described below. The D 2 representation of 9 analog-digital converter 1 is fed to a digital-to-digital converter 8 and alog converter 8 is fed to which an analog signal E 8 appears at the output as the number with the second hand. A correction element is added to the signal E 8 with the formation of an uppermost significance with the addition of an over-composed analog signal E 10, which will be described below. The digital link E 9 is supplied. The analog signal E 10 is fed to signals D 1 and D 2 of the analog-to-digital converter 1 to an amplifier 10, which controls a 5-bit signal through the digital-to-analog converter 6 and the analog-to-digital converter 11. Four bits of the digital-to-analog converter 7 with high accuracy

Speed converted into analog signals, combined to form the analog signal El and subtracted from the input signal El. 8.01 minus 7.9 leads to the analog difference signal £ 12 with an amount of 0.11. This exact difference signal E 12 is fed to the amplifier £ 13, at the output of which a signal representing the amount 0.11 appears, which is fed to the analog-digital converter 14. The component 0.01 of 0.11 is generated as Dl and the lowest value digit is added to the display. 0.1 is a carry element and activates the fifth and 0.1 is a carry element and activates the fifth and sixth bit of the analog-digital converter 14, which generates the digital signal D 6. D 6 or 0.1 and Dl or 0.9 are added to the number 1.0 in converters 8, 9 and 11. The 0 of 1.0 or D 4 appears in the display of the number with the second highest value. The 1 of 1.0 or DS is a carryover link that is put together with the first approximation of the number 7 or D 1 to form the number 8 or D 3. The display panel 5 then shows 8.01 instead of 7.9.

Claims (3)

Patent claims: 1. Method of converting analog electrical signals to digital electrical signals using at least one analog-to-digital and one digital-to-analog converter, in which the analog Input signal is converted into a first digital signal, this first digital signal corresponds only approximately to the analog input signal, in which also the first digital signal to the output and is also converted into an analog signal at the same time Furthermore, this analog signal with the analog input signal for the purpose of forming a difference signal is compared, in which this difference signal is also converted into a second digital signal and in which finally the first and the second digital signal are added, characterized in that the sum of the valencies of the individual bits of the second digital signal is at least equal to the valency of the least significant bit of the first digital signal. 2. The method according to claim 1, characterized in that the sum of the values of the individual bits of the second digital signal is greater than the value of the least significant bit of the first digital signal. 3. Circuit arrangement for performing the method according to claim 1 and 2 with analog-digital converters, digital-analog converters and analog signal amplifiers, characterized in that an input-analog-digital converter (1) with two outputs (D 1 and D 2) is provided in the BCD code, a digital-to-analog converter (2) is connected to the higher-valued output (D 1), and a digital-to-analog converter (7) is connected to the lower-valued output, to the digital-to-analog converter (2) the higher valence an analog-digital converter (4) and an analog-digital converter (14) is connected to the digital-analog converter (7), the output (D 3) of the analog-digital converter (4) to the point of highest significance on a display board (5) and the low-valued output (D 7) of the analog-digital converter (14) leads to the point of least significant value on the display board (5), the output (D 1) of the analog-digital converter (1) also leads to it a digital-to-analog converter (6) is connected, the outputs of the digital-to-analog converters (6 and 7) are connected together to the analog-to-digital converter (14) and the sums of the analog output signals of the converters (6 and 7) are previously algebraically compared with the analog, forming a difference signal Input signal are compared, the output (D 2) of lower significance of the input analog-to-digital converter (1) is still connected to a further digital-to-analog converter (8), the output (D 6) of higher significance of the analog-to-digital converter (14) a digital-to-analog converter (9) is connected, the outputs of the two digital-to-analog converters (8 and 9) are connected together to the input of an analog-to-digital converter (11), and the output (D 4) of the converter (11) has a lower valence the point of medium significance is connected to a display board (5) and the output of higher significance is connected to a digital-to-analog converter (12), the output of which is shared with the output of the D Digital-to-analog converter (2) is connected to the input of the analog-digital converter (4). 1 sheet of drawings