DE2262905A1 - DEVICE FOR CAPACITIVE SCANNING OF RECORDING MEDIA - Google Patents

Description

Applicant: VEB Kombinat ZENTRONIK

Device for capacitive scanning of recording media

309326/0950

The invention relates to a device for capacitive scanning of recording media, with the on both sides Abtaatelectrode capacities arranged on the recording medium form whose size depends on the dielectric of the marking position located between the electrodes is dependent. Such devices are used in particular for scanning and evaluating punched cards or punched tape information stored in JOrrn used by perforations.

Arrangements are known in which the change in the The capacitance of the capacitor formed by the electrodes is used when a dielectric is present perforated or unperforated part of the recording medium is located between the electrodes. Of the so-called sampling capacitor is arranged in an HF-fed bridge connection (BRD-P 1 236 249, 1 266 038). However, these arrangements can only be used under ideal conditions. The disadvantage is that the evaluation result is falsified by the influence of disturbance variables. The disturbance variables are caused by different paper quality, Impurities formed, among other things, which are an unacceptable Influence the constancy of the dielectric constant of the paper.

It is known to only use a useful pulse to remedy this disadvantage by means of a limiting circuit to be generated if the dielectric constant has a residual value in the order of magnitude of 2 during the scanning process falls below (BRD-P 1 223 18 /}).

The disadvantage is that the limiter is only sensitive to deviations in the dielectric constant from the Pest value in the positive Senses and the fixed value is adjusted again according to the paper quality used must be in order to achieve an evaluable useful signal.

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It is also known that the effects of different paper quality are caused by a leakage tension caused by the simultaneous scanning of a further unperforated area of the recording medium is obtained by To reduce the influence on the evaluation circuit (BED-P 1 198 096).

The disadvantage is that to obtain the control voltage a not punched, he scanned the area of the recording medium which is located at a more or less large distance from the evaluated marking positions. These different distances form a disturbance that is not influenced by the control circuit can be. The necessary adjustment of the circuit is also disadvantageous. To eliminate this disadvantage has become known, in each case two sampling capacitors in pairs on the recording medium web in the immediate vicinity To be arranged in the vicinity of one another, one in each case on the unmarked area of the recording medium to be scanned acts as a comparison capacitor and the other acts as a sampling capacitor for the marking positions is provided. Here, two variants for the arrangement of the sampling capacitors are proposed geometrically identical or similar, arranged in the branches of an RF-fed bridge configuration:

1. The two sampling capacitors are located directly next to one another as seen in the direction of travel, with the one acts on a marking position and the other acts on the adjacent web between the rows of holes.

2. The two sampling capacitors are viewed in the running direction obliquely offset from one another, wherein the one a mark position and the other scan the web between the hole columns. With nested

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Perforation act the capacitors of a capacitor pair alternately as a comparison and sampling capacitor.

Both arrangement variants have disadvantages:

The first variant sets a sufficiently wide unperforated zone between the perforated lines for accommodation of the second sampling capacitor, in addition, with very small distances between the two electrodes, Expect manufacturing difficulties. Another disadvantage is that due to the need for a web between two consecutive perforations, an unperforated point inevitably more extensive than a perforation - This difference leads to an unequal length of the 0 and L pulses during scanning.

The second variant requires a sufficient web width between the hole gaps. If the web width is smaller than the hole diameter, the electrodes must be of the web width be adjusted. This inevitable reduction in the electrode diameter leads to deterioration the efficiency of the arrangement. The different for the reasons already mentioned is also disadvantageous Ratio of the L, O pulse lengths. Is disadvantageous also that according to the arrangement of the marking positions, the alternating function as a scanning or Comparison capacitor requires additional clocking to distinguish between even and odd columns.

The purpose of the invention is to avoid the disadvantages mentioned at a reasonable cost.

The invention is based on the object of providing a device for capacitive scanning of recording media create that with favorable efficiency regardless of

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the arrangement of the marking positions and the nature of the recording medium evaluable signals delivers with approximately the same pulse length.

According to the invention, the object is achieved by
the scanning capacitors are arranged in the running direction of the recording medium at a distance between two successive marking positions, and the output voltage of the
Bridge in amount and phase analogous to the information
difference of the successive marking positions
is, the changes in the information difference being associated with changes in the digital output signal, and
the digital output signal is saved between two successive changes. In an advantageous embodiment of the solution according to the invention, the evaluation is
The circuit for the bridge output voltage is designed as a phase-sensitive rectifier with a downstream threshold switch as a storing element with a relatively large hysteresis symmetrically around zero

In contrast to the known state of the art, the following advantages result:

1. The design of the free areas of the recording medium, in particular the webs between the marking positions is not critical, since they are used for the comparison scanning are no longer needed.

2. The electrodes of the scanning capacitors can be the
Size of the information marking, for example a perforation, correspond. The efficiency of the device is therefore much higher than that of. known arrangements.

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3. The length of the O- and L-I in pulse is a good approximation the same and practically independent of the material properties of the recording medium and the operating voltage.

The invention is to be explained in more detail below using an exemplary embodiment. In the associated Drawing show:

Fig. 1: the principle of the scanning device, wherein the portion located in the region of the scanning electrodes is a hole card in section and in the plan view shown,

2: the equivalent circuit diagram of the scanning device with an exemplary evaluation circuit,

3: the course of the resulting stresses when a punched card section passes through the scanning device according to FIGS. 1 and 2,

Fig. 3a: the time profile of the voltage Ub at the output the bridge B,

"^ b: the course of the voltage Ub 'over time phase-dependent rectification,

¹¹ 3oid the resulting signal pulses Ua at the output of the evaluation circuit A'.V,

"3d: the associated scanned punch card section 1"

In Fig. 1, the principle of the capacitive scanning device is shown. The high-frequency voltage source U1 feeds the bridge circuit B, the branches of which from the fixed capacitors CI; C 2 and the sampling capacitors Ca and Cb are formed. Between the electrodes of the sampling capacitors Ca; Cb the recording medium 1 runs through «

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According to the invention, the electrodes of the sampling capacitors Ca; Cb arranged in the running direction at a distance between two successive marking positions x; y. In Fig. 1, to illustrate the operation of the device, a part of the recording medium is shown in section and in plan view, which is characterized by two marking positions with information in the form of perforations 3 and an unperforated marking position h Ctege 5. flat Fig. 1 is the dielectric of the sampling capacitor Ca, for example air with a relative dielectric constant of 1 and the dielectric of the sampling capacitor Cb, for example paper with a relative dielectric constant greater than 1. The bridge conditions are not met and the resulting output voltage Ub is dependent on the respective conditions in the branches of the bridge.

^wise Oa -Cb

_m Ub- ~ UI. -

^ ^J cm

In Fig. 3, the time course of the bridge ^{output voltage Ub, the rectified voltage Ub 1} and the resulting signal pulses Ua at the output of the evaluation circuit AW as a function of a scanned punch card section 1 is shown.

Using an example, the mode of operation of the invention according to the scanning device are explained:

If the sampling capacitors Ca; Cb are located directly above the marking positions x; y, as it is for example is shown in Fig. 1, there are four according to equation (i) Combinations possible, resulting in the following bridge output voltages:

Perforation - Perforation Ub = 0 Non-perforation - Non-perforation Ub »0

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Non-perforation - perforation Ub > O perforation - not perforation Ub- 'O

A static evaluation, as it is used in known devices, cannot be carried out because the sequence of marking positions x; y with The bridge exit 3 voltage always has the same information content Ub * O results in and only in the sequence of marking positions x; y with different information content a bridge output voltage Ub is created, the phase position of which indicates the type of information change. The output voltage Ub of bridge B is thus characterized by the peculiarity that they are analogous to the information difference jx-y resp. y-x of two successive marking positions x; y is. An evaluation method is therefore used that changes the information difference in corresponding Evaluates changes in the digital output signal Ua, with the digital output signal is stored.

An exemplary embodiment of such an evaluation circuit AW is in Pig. 2 and consists of a phase. sensitive rectifier G and a threshold switch S, where the threshold switch represents the storing element.

Instead of the phase-sensitive rectification, the evaluation circuit also consist of a logical combination of the bridge output voltage Ub with the high-frequency supply voltage U1, with a conjunction bistable multivibrator is controlled as a storing element. Also, for example, is a ferrite core memory can be used as a storing element · The sequence of the sections shown in Fig. 3d In a simplified representation, marking positions corresponds to the time function of the bridge output voltage Ub according to Fig. 3a, the black fields Loohungen 3 and

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22B2905

the white fields indicate unperforated marking positions k. If the recording medium 1 is scanned from left to right according to Pig · 3d, whereby two successive marking positions x; y or y; x are always evaluated, the following combinations result if a perforation 3 is designated with L and a non-perforation 4 with 0:

0-0 - 0 L-O «L 0-L » -L 0-L « -L 0-0 = 0 L-O « L. .L-L - 0 0-0 - 0 0-0 - 0 L-L - 0 0-iL - -L L-O - L. L-O - L. L-O - L 0-0 - 0 0-L « -L ' 0-0 = '0 0-0 - 0 1-L - 0 0-0 «0 0-0 » 0

These results correspond to the chronological sequence of those in Pig. 3b shown voltage Ub ', which is obtained by phase-sensitive rectification from the amplitude- and phase-modulated high-frequency oscillation HP with the envelope curve HK. Due to the inhomogeneity of the recording medium 1, the bridge output voltage Ub is, however, even with the same information content of successive marking positions x; y or, yjx , ie with the information _{difference xy or o} yx not exactly zero, but an interference voltage Ust remains. To generate the digital signal pulses Ua, the voltage Ub * at the output of the phase-sensitive rectifier G is fed to a threshold switch S, whose trigger level U1; U2 corresponds to Pig. 3b are placed by suitable dimensioning so that, on the one hand, the interference voltage Ust, which is dependent on the inhomogeneity of the recording medium, does not cause unintentional switching and, on the other hand, the amplitude of the voltage UV even at the lowest operating voltage

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greater than the trigger level TJ1; 112 of the threshold switch S and safe triggering at points T1; T2 is guaranteed.

The time course of the resulting signal pulses Ua is shown in Fig. 3c, their time course according to the invention the information content of the in Pig. 3d of the recording medium 1 shown in section. 'If the voltage Ub ¹ according to FIG. 3b exceeds the trigger level U2, does the point Ti? the threshold switch S and an L signal is available at the output, which is stored until the voltage Ub ¹ exceeds the trigger level U1 and the threshold switch S flips back at point T1; thus the initial state is reached and the L-G signal drops to KuIl.

From the comparison between FIGS. 3d and 3c it can be seen that, for example, a trigger point Ti; The corresponding O signal is approximately the same width as that of the trigger point en T6; T5 has the corresponding L-3 signal. Marking positions thus generate pulses of approximately the same length, regardless of their information content.

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Claims (3)

Patent claims: (1. Device for capacitive scanning of recording media, in which the electrodes of the sampling capacitors on both sides of the recording medium .paarweise are arranged, the dielectric duroh- the Recording carrier material or «, through the marking medium, for example in the case of perforations through air, .and the sampling capacitors branches an HP-powered bridge are those with an evaluation circuit is connected for signal formation, characterized in that the sampling capacitors (Ca; Cb) in the direction of travel of the recording medium (1) at a distance between two successive marking positions (x; y or, y; x) are arranged and the Output voltage (Ub) of bridge (B) in magnitude and phase analogous to the information difference (x-yj y-x) two consecutive marking positions (x; y or y; x), with the changes in the information difference (x-y; y-x) changes in the digital output signal (Ua) are assigned and between two successive changes to the digital Output signal (Ua) is stored « 2. Device according to claim 1, characterized in ^ that the evaluation circuit (AW) for the bridge output voltage (Ub) a phase-sensitive rectifier (G) with a downstream threshold switch (S) as a storing element is _e 3. Device according to claim 2, characterized in that that the threshold switch (S) is designed with a relatively large hysteresis symmetrically around zero. BATH ORIGINAL 3Ü382S / Ü9S0