DE1773674A1 - Device for statistical recording of information with variable size - Google Patents

Description

Patent Attorneys D1PL.-ING. F. Weickmann, I 1 I.

Dipl.-Ing. H.Weickmann, Dipl.-Phys. Dr. K. Fincke Dipl.-Ing. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 27, DEN

MÖHLSTRASSE 22, CALL NUMBER 48 3921/22

Nö / ftl

DATRAN LIMITED, a British Company, of 1 7 / illiam Hoad, Hitchin, Hertfordshire, England

Device for statistical recording of information

with variable size "

The invention relates to an apparatus for statistical recording of information with variable Size, which can be, for example, somehow variable analogue sizes. In particular, the Invention to a hiotogram recording showing the frequency indicates with which the size of the variable falls within certain classes or categories, i.e. within certain Vertical areas. The invention further relates to a hiutogram record in which the record continuously and constantly updated

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In a known histogram recording, a variable size is scanned periodically and the number of times is counted over a period of time during which the aogetastele value falls within different classes or categories. The various counts can be recorded to make up a histogram record. At the end of the counting period it is necessary to remove information and start counting again. In this system, the recorded information is only pronounced towards the end of the counting period. Often ^: only the end of the counting period can be used. In contrast, the invention is directed to a system in which the recording is continuously and continuously

the most up-to-date is at what information is consumed are eliminated and in which there is a constant and distinct recording of the information.

In a device described at the beginning, the invention consists in that a number of storage capacitors, which corresponds to the number of variable sizes divided into classes or categories, is provided that a classifier for periodic sampling of the variable and classification of their size in a suitable class or Category is provided that the classifier is able to pass on a charge corresponding to the class or the category to the storage capacitors, that a part of the charge of each is periodically via a switch

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Storage capacitor can be removed and that a recording unit to record the size of the charges on each storage capacitor «.

An amount of charge can be brought into the storage capacitor in that either the capacitor about a low level within a short time compared to the time constant of the charging circuit with a uadepotentialquelle is connected or that the storage capacitor is connected to an auxiliary capacity, which has been charged beforehand. The different capacitors belonging to the different classes or Categories belong, should as charging or storage capacitors, as they are represented as data storage, be understood. Under certain constant conditions and when all storage capacitors are the same size and all charging and discharging circuits are the same or similar, then the voltage is on the capacitors directly proportional to the frequency with which the variable is classified in the appropriate class or category » This has the advantage that the recording is significantly more representative when the conditions change is for the new information than for the used information. Las results from the fact that when introducing some charges in a storage capacitor, in whose class or category the introduced charges are not fall, this cannot contain any new information. The capacitor then discharges exponentially, i.e. that

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The decrease in load is greater at the beginning than later. The charge in the capacitor is therefore less than when the selected values in the class or category corresponding to the capacitor at a uniform rate would arrive at an average frequency over a period of time. If on the other hand the If new selected values fall into this class more frequently, then the charge grows exponentially and the charge is higher than if the selected Yths are uniform with a certain average rate over a period of time arrive.

The recording unit can be a cathode ray tube. The voltage on the various storage capacitors is sampled in sequence and used to to cause a transverse deviation of the scanning track, whereby a histogram recording is reproduced. Such a one Cathode ray tube recording can be obtained as many times as desired. One can continuous record obtained in histogram form, classifying the extent of the variable size. Other display devices are conceivable. E.g. the voltages on the different capacitors can be used for this to control a card writer, which periodically writes down the quantities or the voltages, in order to then use them, for example, in an analog or digital computer

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In a simple embodiment of the invention corresponds the number of storage capacitors the number of different classes or categories and the Capacitors have the same capacity. In each of these capacitors one of the electrodes is connected to the same Potential, e.g. connected to earth. The other electrodes are connected to a common switch via separate switches Line connected, with a switch belonging to each storage capacitor. The switches are in sequence operated and complete the circuit for a short predetermined time operated in such a way that there is always no storage capacitor connected to the common line. For example, int the line connected to one end of a resistor. The other end of the resistor is connected to a switch, via which it can either be connected to a Ludepotentialquelle is connected or an open Circuit forms or is connected to earth. A switch unit which has separate switch contacts is preferably used and to complete the circuitry contains separate 7 / i resistors which are connected to a charging potential source or placed at a discharge point (zero potential) • // be able to earth the switch unit is synchronized with the mentioned switches and is operated by the scanning and classification devices controlled such that the L'tdeiiohal tkrois is complete when a single Switch on a single capacitor, whichever is the class

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corresponds to which the variable has fallen is closed. The switch unit connects the common line to the ground potential (usually earth), the switch being permanently connected to a capacitor which does not fall into the appropriate class. As soon as the variable quantity is classified, the appropriate capacitor is connected across a resistor and is additionally charged, while each of the other storage capacitors is partially discharged during the switch operation during the scanning process. With this arrangement the output from the capacitors to the recording unit is equal to the voltage on the mentioned common line. During the free scanning of the switches, the line is connected in sequence to the various storage capacitors and the series scanning of the switches results in a scan of the output voltages.

In some cases it may be beneficial to use any capacitor assign a resistance. Then you can set different sensitivities for the reading circle · With one such an arrangement the histogram scale according to the Class numbers are evaluated.

If the various storage capacitors are charged and discharged with the help of an auxiliary capacitor, then a single auxiliary capacitor is used for the

109818/0660

Discharge and charge process. In such an arrangement, instead of a resistor between an additional switch and the common line, the additional container is connected directly to the common line. The common line can be connected to an electrode of the auxiliary capacitor. The other electrode of the auxiliary capacitor is connected to the ground potential via a resistor. During -the various switches, which are connected to the storage capacitors, are open, the additional switch is closed or open DER Λ art that either a charge is supplied to the auxiliary capacitor or charge is taken away from this, depending on whether the next capacitor connected to charge or discharge or not.

In the figures, based on exemplary embodiments, the Invention and advantages thereof are explained. Figure 1 shows schematically a device for statistical Record and Figures 2, 3 and 4 show multifications the arrangement of Figure 1

In the figure 1 a number of storage capacitors 10, 11, 12, etc. shown. The number corresponds to the number of classes or categories in which the variable size can be divided. One electrode of each capacitor is grounded via a common line 19. The others Electrodes of each of these capacitors are over

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Switches 20, 21, 22 etc. are connected to a second line 29. The switches 20, 21, 22 etc. can be mechanical Switches, e.g., leaf contact switches, or electronic switches, e.g., transistors. Mechanical switches are to be preferred because they provide a higher isolation with an open circuit, with charge losses in the Capacities are avoided. The switches are operated periodically in sequence, the periods being short are compared with the time constants of the charging or discharging circuit for the capacitors, which will be described below will. The various switches are normally open and only one is open at any given time closed, as will be explained in more detail. The common line 29 is connected to a loading or unloading unit 30, which contains two resistors 31, 32, connected. The resistance 31 is between the line 29 and a switch contact 33, which is connected to the voltage source 34- with the DC voltage Y leads, switched. The resistor 32 is between the line 29 and the switch contact 35, which for Zero potential source leads, switched.

The switches 20, 21, 22 etc. are activated by the switch control unit in the correct order controlled. This gives output signals for putting the switches into operation on a selected line of the line row 41 as soon as the timer generator 42 receives a signal Will be received. The special output line 41 is through

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a step selector 43 is selected. This step selector is controlled by timing pulses from the timing generator 42 so that it is in cyclic Sequence for each output signal pulse from the timer generator advances by one step.

The input information that is to be displayed can correspond to the output signals of a classifier be, v / elcher an analog input voltage to the

Line 46 into a number of classes or categories ™

divides. Each class or category corresponds to a selected order of magnitude range of the input voltage and provides an output signal on a selected line of the line row 47 which corresponds to the appropriate class or category. A suitable classifier for this purpose is described in British patent application 32155/67. The classifier 45 brings the sampling cycle, which controlled by the timing generator 42 v / ill be in motion, and causing the cyclic switching of the step-like sehaltWählers synchronization with the scanning and classification A periodic or cyclic operation of the indexing twählers, for each Klassifizierungsvox "gang The output impulse from the classifier 45 to the lines 47 is applied to a series of coincidence circuits 46, into which signals from the stepper 43 are fed in. The lines 48 give output signals to lines 49,

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continue as soon as the step selector 43 takes the step which corresponds to the output line 47 selected by the classifier 45. The output signal in line 49 is used as a control pulse to the Switch unit 30 placed. As a result, the switch 33 is selected instead of the switch contact 35. One of selected switch contacts 33 or 35 is triggered by a timer pulse on line 51, which is generated by the timer generator 42 comes, synchronous with the pulses which are sent to the control unit 40 and the step selector lying, operated.

The switch unit 30 is operated synchronously with the switches 20, 21, etc. and is controlled by the classifier 45 in such a way that that the line 29 is connected to the voltage source 35. as soon as one of the switches 20, 21, 22, etc., which corresponds to a certain class or category is closed. The line 29 is at zero potential 36, as soon as any of the other switches 20, 21, 22 etc. are closed. With every classification process the capacitors 10, 11, 12 are fully sampled, the switch unit 30 bringing the line 29 to zero potential for all classes except for the selected one.

The capacitors 10, 11, 12, etc. are the same Capacity C. The two resistors also have

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the value R. The charging voltage is V. The switches 20, 21, etc. are closed during the time t _g . As soon as constant ratios are achieved in such a way that the average rate during which measurements in one of the classes ο _{χ are} made in the unit of time η and the average charging voltage for the capacitors V is thereby

J »·

If it is defined that the currents flowing in the corresponding capacitors and currents flowing out of the capacitors are balanced, then ⁿ x <-ir- * b - < ^H - ⁿ x> applies

where N is the sample rate.
So is

^T x = r ^v

the voltage V is directly proportional to the frequency at which the classified or sampled values reach class or category C.

Jw

The capacitor charge in each of the storage capacitors 10, 11, 12, etc., if no additional charge is added, becomes exponential due to the repeated connection derived via the switch contact 35 to zero potential at each switch scan. The derivation of a Part of the voltage appears in step-by-step scanning regardless of the regularity of the scanning or the Measuring rate.

As shown schematically in FIG. 1, it is used

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a cathode ray tube as a recording unit 37. A sawtooth signal is applied in X-direction from a tilting oscillation generator 58 so that a scanning track is given which is synchronized by the timer generator 42 in such a way that the track is simultaneous with the scanning cycle of the switches 20, 21, 22 etc. begins. The voltage on the common line 29 is applied through a modulator 39 to the deflection system for the Y direction so that the recording track is a histogram recording. The modulator essentially contains a switch which is controlled by the timer generator 42. This switches either the output signal line 39 or earth to the deflection system for the Y direction of the recording unit 37. This modulator is designed in such a way that the output line 29 is only closed during the periods in which one of the switches 20, 21, 22 etc. is closed, is connected to the recording unit. Thus the input of the recording unit is always grounded. The timer generator 42 thus controls the order of the operations which take place during the sampling of the variable quantity. The sequence of operations is as follows:
1. The step selector 43 is moved to the next step and, in response to a pulse signal from the timer generator 42, the switch controller 40 feeds the selected relay coil and the output to the recording unit is grounded through the modulator 39 during this period.

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2, The charging or discharging switch unit 30 is operated, the output line 29 is either via the resistor 31 is applied to the constant voltage source 34 or is connected to zero potential 36 via resistor 32 depending on how the output of the coincidence circuits 48 is created. The modulator connects the output line alt of the recording unit 37.

3. The coil of the selected switch 20, 21, 22, etc.

is de-energized and the output of the recording ™ unit is grounded.

The time for the first of these processes to the beginning of the second process is approximately one millisecond. The time for the second process to the beginning of the third process is about 8 milliseconds and for the third process to the beginning of the next sequence around one millisecond, thus resulting in a time period of around 10 milliseconds for a complete scanning process sequence » ä The recording is renewed with each measurement and a continuously recorded relative frequency histogram is provided, which has the basic properties of a probability function.

Eo may, if desired, on the recording unit the special category or category in which an entry has been made to display. The3 can happen through it

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that an output signal, which as a flashing "signal from the coincidence switches 48 via the line 50 to the recording unit as soon as the step switch is in a position which the corresponds to the registered class or category.

7, 'll get a normal histogram record, which the frequency of entries in different If classes or categories are reproduced for a certain period of time, this is achieved by non-discharge of the capacitors and by charging the selected one capacitor by a constant current source

FIG. 2 shows an embodiment of a switch unit 30 which is useful for the present purpose. If the switch contact 52 is placed in the left position in this FIG. 2, then one effectively has a circuit which, in FIG If the switch is in the right position, the line can be connected to a constant current source 54 via the switch contact 53 or to the zero potential 57 via the switch contact 55 via a resistor 56. The switch 52, if desired, can be operated manually. For a normal, out of date histogram recording where the

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frequency of entry into classes within a "certain." Is specified, the switch 52 is placed in the right position. The switch 55 forms a left open circuit and the switch contact 53 is operated by the coincidence circuits such that it is closed once for each scan cycle, namely when the step selector 43 is in a position which corresponds to the class or category of the input signal. With a constant power source the capacitors 10, 11, 12 etc. are charged linearly proportional to the number of inputs. The precision in relation to the length of time during which measurements are made depends on the quality the charging capacity of the capacitors 10, 11, 12 and the Impedance of the reading circuit from · The switch can be used for a state of the art Recording are also in the right position, with the switch contact 55 for each step of the scanning cycle is operated in such a way that part of the charge f of the capacitors 10, 11, 12 in a manner similar to that in FIG of Figure 1 is discharged through the switch contact 35. In this case it is because the capacitors are linearly charged are desired to dissipate some of the charge from each capacitor during the cycle, and not alone only from this one to which an input was not made has been. For this reason, in this case, process 2 above is divided into two equal intervals. In the first Interval when the step selector is in one position

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is located, which corresponds to an entered class or category, the switch 53 is closed to the Increase charge in the capacitor. In the second interval, the discharge resistor 56, whichever position the step switch counter assumes, is through with the circuit the switch contact 55 connected. Other forms of recording are also possible. For example, if in Figure 1 the switch contact 35 remains open, then a histogram record is generated which includes all entries in the different classes Tdzw, categories for a predetermined Represents duration. The vertical deviation is exponent! El.

If permanent recording is desired, instead of or in addition to the cathode ray tube 37 a card writer can be connected to the common line 29. The successive operations the switches 20, 21, 22 are then applied in rates according to the type of recording medium. this happens normally "take place significantly slower than the sampling rates and therefore the sampling becomes interrupted by the switch unit 30 not in operation during recording on the recording medium is. The histogram is graphically plotted on the map, with the axis for the class or category area across the map. All capacitors 10, 11, etc. are isolated when they are not charged or discharged will. The time during which a given voltage distribution can be applied to the capacitors is

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primarily dependent on the quality of the capacitors.

FIG. 3 shows a modified part of the system of Figure 1 and only the different features should be mentioned. The switch unit 30 of FIG. 1 acts essentially as if it were a switch in the normal position, in which an open circuit is and which but the line 29 either to the

constant voltage source or at zero potential. gt

Eu can be used instead of the two resistors 31 _} 32 in two different circuits, a single resistor between the switch contact and the line 29. FIG. 3 shows a switch arrangement in which, instead of a single resistor between the switch and the line 29, various resistors 70, 71 are provided for each capacitor 10, 11, 12. The contact lever 74 which is normally in the open position and which can either be moved to a charging circuit from the charging potential source 75 or to a sheath potential 76. When using different resistances 70, 71, 72, the reading circuit allows different sensitivity levels for each Kl'in ;; e or i.ute / iorii; in which the sizes of the variables elnye divides v / earth, au have, in Figure 3 different transistors <30, 81, 82 are provided for each class or category. The collector of each transistor is connected to a suitable supply potential source. The basis of every Transir; tor j is connected to the corresponding connection

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set between the resistors 70, 71 »72 etc .. and the switches 20, 21, 22 etc. are placed. The emitters of the various Transistors are connected via resistors 85 to the modulator 39 and thus to the recording unit 37 and also via the charging resistor 57 to the line 19. As soon as the various switches 20, 21, 22 etc. are closed, then the outputs remaining in the various transistors are on the recording unit. The arrangement of FIG. 3 can then ζ, Β · used when the histogram scale is rated according to the number of classes, so that a record results, whose vertical deflection is proportional to -4 * d, where d is the deviation.

FIG. 4 shows another embodiment of that in FIG illustrated arrangement. In this an auxiliary capacitor 90 is inserted, which the charges to and from the storage capacitors or capacitors 10, 11, 12 etc. and takes the place of the ohmic resistors owning charging and discharging switch unit 30. As shown in FIG connected directly to the common line 29. This line is connected to one electrode of the capacitor 90. The other electrode is connected to ground via a resistor 92. The switch 91 is normally open minded. He can, however, connect the line 29 either to the charging potential source 93 or to the zero potential 94 With the help of the arrangement in FIG

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slightly different switching sequence can be achieved. The switch 91 is to be closed or opened in such a way that the appropriate charge is placed on the auxiliary capacitor 90 before one of the switches 20, 21, 22, etc. is put into operation. Thus the cycle of operation is initially such that one of the contacts of the switch 91 is closed, either by placing the lever of the switch on the line leading to the source 93 or on the line leading to the zero potential 94, depending on whether a charge is added to the capacitors 10, 11, 12 etc., or not, the switch lever 91 is then in the open position and the appropriate switch of the switch row 10, 11, 12 etc. is closed and becomes then reopened. As a result, the charge from the capacitor 90 is placed on one of the capacitors 10, 11, 12, etc., or part of the charge is carried away from one of these capacitors, the auxiliary capacitor being involved in this. The switch lever 91 is then connected to the line which leads to the zero potential 94, as a result of which the auxiliary capacitor 90 - is discharged before operation begins for the next storage capacitors. Whenever the capacitor 90 is finally discharged, a pulse is generated across the resistor 92 and this voltage is applied to a line 96 which leads to the modulator 39 and feeds the recording unit. In this arrangement the recording is faded in so that only the voltage pulse is used. The time constant of the circuit, which is brought about by the auxiliary capacitor around the resistor 92, is small in comparison with FIG

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the duration of the operation of the switches 20, 21, 22, etc., so that a complete charge or discharge of the auxiliary capacitor is achieved.

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Claims (10)

Claims 1. Device for statistical recording of information with variable size, characterized in that that a number of storage capacitors (10, 11, 12 etc.) »which corresponds to the number of those divided into classes or categories variable sizes is provided that a classifier (45) for periodic sampling of the variables and classification of their size in a suitable class or category is provided that the Classifier to transfer a charge corresponding to the class or the category to the storage capacitors is able to periodically use a switch (35) to part of the charge of each storage capacitor can be removed and that a recording unit (37) for recording the size of the charges on each storage capacitor is provided. 2. Vorrichtng according to claim 1, characterized in that the storage capacitors (10, 11, 12, etc.) all have the same capacity and that all charging and discharging circuits are the same or similar. 3. Device according to claim 1 or 2, characterized in that that the recording device (37) is a cathode ray tube. 109818/0660 - 22 - T773674 4 · Device according to claim 3 »characterized in that that the recording unit (37) means for successively scanning the voltages at the various Contains storage capacitors (10, 11, 12, etc.) and that means for applying the successive scanned voltages are provided, which a transverse deviation of the scanning track as in a histogram recording achieve · 5. Device according to one or more of claims 1 to 4, characterized in that the selected storage capacitor (10 or 11 or 12 or etc.) for charging via a resistor (31) for a short time compared to the time constant of the charging circuit is connected to a constant voltage source (34). 6. Device according to one of claims 1 to 4, characterized characterized in that to charge the selected capacitor (10 or 11 or 12 or etc.) this on a constant current source (54) is applied. 7. Device according to one of claims 1 to 4, characterized in that for charging the selected Capacitor (10 or 11 or 12 or etc.) this is connected to an auxiliary capacitor (90), which has been charged beforehand. - 23 109818/0660 Γ / 73674 8. Device according to one or more of claims 1 to 7, characterized in that for periodic sampling and classification of the variables and for feeding the charge into the suitable capacitor (10 or 11 or 12 or etc.) a number of switches (20, 21, 22 etc.), a switch being provided for each storage capacitor, that these switches connect the storage capacitors to a common input / output line (29), that a step selector (43) is provided for closing and reopening the switch M. , wherein one after the other can be closed or opened and that devices are able to apply a charging current to the input / output line as soon as the switch of the storage capacitor whose charge is to be increased is closed. 9. Apparatus according to claim 8, characterized in that the input - / is the starting line (29) connected to a discharge point (36), wherein a switch is always closed overall λ, which is not part of a capacitor whose charge is to be increased . 10. The device according to claim 8, characterized in that for generating a contact current in the input - / Output line (29) a capacitor charge source (34) a capacitor discharge point (36) are provided that the input / output line via switch (33) (35) to the capacitor charge source and the capacitor 109818 / Π660 - 24 - TV / 3674 discharge point is connected that to compare the Position of the step selector (43) provided with the classified size of the variable coincidence circuits (48) are that if the position of the step selector coincides with the classified size, the corresponding Coincidence circuit actuates the switch (33) and applies the input / output line to the charge source (34) and that in the event of power coincidence the input / output line Output line from switch (35) to discharge point (36) is laid. 11 «Device according to one of claims 8 to 10, characterized characterized in that the input / output line (29) is only connected to the recording unit via a switch is connected when one of the switches (20, 21, 22, etc.) on the capacitors (10, 11, 12, etc.) is closed. 12 »Device according to one of claims 8 to 11, characterized characterized in that devices are provided for escaping a series of scans of the step switch selector (43) are. 109818 / nssO