DE2106430A1 - Method for determining polarity during AD conversion according to the iteration method with non-linear characteristic, preferably for PCM systems - Google Patents

Description

Method for determining polarity during AD conversion using the iteration method with a non-linear characteristic, preferably for PCM systems. The invention relates to a method for determining polarity during AD conversion using the iteration method with non-linear characteristic, preferably for PCM systems.

There are processes of AD converters using the iteration process known to one or two comparison circles.

In a procedure with two comparison circles, the PAM becomes both Comparators (comparators) fed directly, the polarity of the comparison voltages is different for both comparators.

In another method with two comparison circles, the PAM the comparison voltages are fed directly to one comparator and reversed in phase to the other are directly on the comparators and have only one polarity.

In a procedure with a comparison circle, Depending on the polarity the PAM switched the positive or negative comparison voltage to the comparator.

Another method with a comparison circle works with one Equivalent voltage polarity, depending on the polarity of the PAM, this is reversed in phase or not switched to the comparator in phase reversed.

All these procedures have in common that after deletion of the old and sampling the new PAM value, the polarity of the PAM is determined first got to. This is necessary for procedures with two comparison voltages, there depending on polarity on one or the other comparator to obtain the binary code must be switched, because depending on the polarity, only one comparator can be used perform the comparison during the individual queries. When using a Comparison circle and positive or negative equivalent voltage, it is necessary to because the polarity of the equivalent voltage depends on the polarity of the PAM of the evaluation network is to be switched, while in the procedure with a comparison circle and phase reversed and non-phase reversed PAM on the phase reversed and phase-reversed PA must not be switched. also is with the procedure a comparison circle and positive and negative comparison voltage the nssage of the comparator when coding the amplitude amount in the case of positive PAM values negated compared to the negative. That is, with positive PAM values, the are greater than the equivalent voltage, it says "L" and "O" if the voltage is negative. To the Generation of the PCM pulses and for switching the query logic of the AD converter must therefore the one statement is negated right from the beginning of the amplitude coding, for which the knowledge of the polarity is required.

In the known methods, ee proves to be disadvantageous that immediately after deleting the old and scanning the new amplitude amount, if still large disturbances due to overshoot azif reason for large and very rapid amplitude changes and large power consumption are present, the decision is made by the comparator amplifier with the highest sensitivity, the polarity decision, must be made. The differences between the comparison voltages that the comparator amplifier are offered are, in the worst case, below the voltage value of the smallest amplitude level to be coded. The disturbances can be too one Error determination of the polarity lead, which results in the high leveling noise is reflected in small amplitudes.

It also proves to be a disadvantage that in the known methods a bit is required for the polarity decision. With 7-bit coding (six Bit for amplitude identification, one bit for polarity identification) due to the fact that a clock time of eight bits is available per channel, a bit of time for roofing and scanning. This time is at the 8-bit coding (seven bits for the amplitude identification, one bit for the Polarity marking) not available. Here must either be within a bit time the erasure, sampling and decision of polarity are done what considerable requirements due to the short pulses for deletion and scanning at the cutoff frequency of the amplifier elements because of crosstalk and because of the shortness of the decision time very fast comparator amplifiers and nachgesohaltte Requires logic parts, or certain parts of the AD converter must be arranged twice who then work alternately.

Switching the polarity of the reference voltage source is also problematic of the evaluation network, since the amounts of stress in the per mille size correspond to each other must be the same and the switchover must take place within 100 to 200 ns.

Finally, switching between phase reversed and Non-phase reversed PÄM at low PAM levels due to interferences occurring in the process critical.

The different zero points are an additional one Problem.

The invention is based on the object of developing a method which makes it possible to make the polarity decision from the beginning of the PAM evaluation and thus to move out of the area of the large disturbances and the polarity bit paralles to the amplitude bits, between or after the amplitude bits.

To solve the problem, it is assumed that at a known arrangement for the iteration process with two comparators, one unipolar Rating net and phase reversed and non-phase reversed PAM are themselves shows that there is only one comparator for positive and negative PAM values the individual queries from during the amplitude coding with "yes" and "no", d. H. PAM greater or less than the comparison voltage, answers and the other comparator constantly says "no" to this. According to the invention, the statements of an or of both comparators observed, stored and during the amplitude coding emitted according to the bits of the amplitude in the code value. It only takes one yes statement of one of the two comparators to determine the polarity. weighs the The amplitude to be coded is below the value for the smallest amplitude level, see above both comparators say "no" to all queries, and you have to opt for this one Case decide for a certain polarity, which brings no errors, since it is indifferent is whether a voltage of 0 volts is marked with + or -. For education of the amplitude bits, the two comparator statements only need an OR circuit be merged.

It is also possible to determine the polarity according to the invention to make that the two Xomparators for the formation of the Ämplitudenbite over a Or circuit are merged and after completion or even during an inserted Break in the amplitude coding the evaluation network switched to 0, a comparator is switched off and the duesage of the switched on behind the OR circuit remaining comparator is removed.

Depending on the positive or negative PÄM, this will be L or 0, g that the polarity bit can be obtained from it.

There are the following advantages over the known methods: For very small amplitudes to be coded, for which the disturbances are of interest are, the first query is now made with the largest equivalent stress and the last with the smallest, so that the drop in the equivalent voltage and that decay the disturbance proceeds in the same way and there is therefore the least amount of influence.

Switching the polarity of the evaluation network and the one supplying it Reference voltage source is omitted.

This simplifies both assemblies and the time and amplitude problems omitted when switching.

The process in which the polarity determination is carried out in parallel with the amplitude coding takes place, has the further advantage that no additional time for the polarity determination is required and two bit times for the erasure and sampling in the case of 7-bit coding and with 8-bit coding there is still one bit available.

There are no duplicate parts of the AD converter in this hall required as this time is sufficient.

The determination of polarity is also no longer of precision a process carried out specifically for this purpose, but it falls prepare if a comparator is used even once during the amplitude encoding on a query "a", that means PAM greater than comparison voltage, said.

The invention is explained in more detail below using two exemplary embodiments will. Fig. 1 shows the first embodiment, Pig. 2 the associated 8-voltage diagram for 8-bit coding, with the polarity being derived from the two memories 33 4 adopted statement of the comparators 1; 2. The PAM is the comparator 1 directly and fed to the comparator 2 via the phase reversal 13. The equivalent stress the comparators receive from the unipolar evaluation network 14.

The statement of the comparators is about the gates 5; 6 each Briefly stored in flip-flops 3 and 4 at the clock limit. The clock pulses G and G # open gate circuit 5 for about 30 to 50 ns. Eomparator 1 with positive PAM values returns to the 1.

to 7th query in the cycle time 8 'to 6 the respective yes or no statement (equal to L or 0), while the comparator 2 constantly supplies 0. With negative PAM values, this is done the other way around. The statement stands for one cycle time in each case the flip-flops 3 and 4, while in each subsequent cycle time the next Statement is inscribed. Provides a comparator in response to a query an L, the output of the flip-flops 3 or 4 flips to 0. This 0 goes over the Or circuit 7 operating in negative logic and via the polarity fade-in 8 as an L-PCM bit out of the circuit. In the case of O from the comparator, everything is done accordingly negated. At the beginning of the 9th cycle time, the flip-Elops 3 and 4 are triggered by the reset pulse R @ flipped by the reset flip-flops 9 into the starting position with L at the output. The polarity memory 10 is in the 1st half of the 1st cycle time by the reset pulse R2 flipped from the reset flip-flop 11 into the starting position with O at the output. Are positive PAM pulses that are at least the value of the smallest to be encoded Level exceed, coded, so will the positive flip-flop 3 in of the cycle time 1 to 7 are set to 0 at least once at the output and thus the polarity memory 10 tilt to L at the etching passage. In the 8th cycle time, the information which is in Polaritätaapeicher 10 is, via the polarity gate circuit 12 to the Poles ritäteinblendung 8 and thus appended to the code word for the amplitude as the last L-PCM bit. Did the positive flip-flop 3 not work, only the negative flip-flop 4, the polarity memory 10 remains in its starting position and a 0 as the last PCM bit is the result.

In principle, the polarity auoeage can also be found at points A or 3 and store it in a polarity memory, but here you get easy due to the different response values with regard to time and threshold Differences between the two memory statements for small amplitudes to be coded.

The drift regulations 16 17 work during a specially reserved Time side by side.

Fig. 3 shows a second embodiment, also for 8-bit coding, 4 shows the associated voltage diagram.

The statement of the comparator that is active according to the polarity is not stored here in two separate flip-flops, but via comparator gates 5 and 6 and Eomparator-OR circuit 18 given to a common flip-flop 15. The comparators deliver on the 1st to 7th query in the cycle time 8 'to 6 the respective response to the amplitude query, which from the flip-flop 15 in the cycle time 1 to 7 ala PCM bit pulses are emitted. In the 7th cycle time the 3ewertuqsnetzwerk 14 switched to 0 and the comparator gate circuit 6 of the comparator 2 switched off, BO that only that Comparator 1 delivers its statement. earth positive Coded amplitudes, the comparator 2 will deliver an L, welohes into the plip-flop 15 written in, released during the 8th cycle time and thus as the last PCM bit is appended to the bits for the amplitude. In the case of negative amplitudes, the comparator 1 will deliver a 0 accordingly. The drift regulations 19; 20 work during one specially reserved time staggered one after the other.

Claims (3)

Claims Procedure for determining polarity during AD conversion using the iteration method with non-linear characteristic, two comparators, a unipolar evaluation network and phase reversed and non-phase reversed PJIM, characterized in that that the statements of both comparators during the amplitude coding in memories briefly cached, via an OR circuit to form the amplitude PCM bits are summarized, the work of one or the other buffer is registered in a polarity memory at the same time and as polarity information serves to form the polarity bit. 2. The method according to claim 1, characterized in that the statement of the comparators is fed to the polarity memory without a buffer 3. Method according to Claim 1, characterized in that the statements of both comparators during the amplitude coding in an Oderschaltuag to form the amplitude PCM bits are summarized and a comparator the polarity statement on the formation of the polarity bit indicates, while the evaluation network after completion of the amplitude coding or switched to 0 in an inserted pause and the other comparator switched off will.