DE1153559B - Device for checking the operational readiness of light-sensitive scanning devices in electrical accounting and calculating machines - Google Patents

Description

In electrical accounting and calculating machines, the light-sensitive devices for determining of pencil marks or similar recordings in several columns of a recording medium To use it, one must know whether all photosensitive devices and their associated Circuits work or not. This is particularly the case when the shown by the markings Information is completely arbitrary, so that a check by bit counting or the parity check are not applicable. The parity check, as z. B. when recording with a binary code is used, requires a fixed coding and consists in each character with an additional check bit is added to the odd number of bits, so that each character position is then on even number of bits can be checked.

In order to overcome these difficulties, it is suggested to put each on a predetermined line Column or at the end of each column to provide a check bit. Along one edge of the recording medium commutator markings are applied as a predetermined counting mark for the individual Check bits are used. If a test bit is detected during a gate circuit with a finite unlock period is open because of the coincidence with a certain commutator mark, then the The resulting pulses are stored in a storage device, for example in cold cathode storage tubes. At a later time, the storage device is queried to see if all check bits have been sensed and thus whether all of the sensing circuits at the time the specific commutator marking. This is a functional test of the recording medium made to recording media, one can certainly assume that these circuits were also in operation during the intervening period. But this ensures that the system is working properly. In the same way, the absence of such a test can then are used to operate appropriate logic circuits in the machine to the machine to stop or to give the machine operator a corresponding error message.

The object of the invention is therefore in an electrical accounting or calculating machine in which Markings on a recording medium are scanned, the circuits of the light-sensitive To check devices in that in each column of the record carrier at a predetermined Line a check bit is provided, and that the device for checking the operational readiness light-sensitive scanning devices

in electrical accounting and calculating machines

ίο applicant:

International Business Machines Corporation, New York, N.Y. (V. St. A.)

Representative: Dipl.-Ing. H. E. Böhmer, patent attorney, Böblingen (Württ), Sindelfinger Str. 49

Claimed priority: “. V. St. v. America 29 June 1959 (No. 823 674)

James M. Cunningham, Francis L. Pratt

and Gerald J. Watkins, Endicott, N.Y. (V. St. A.),

have been named as inventors

Output signals from each of these devices are checked to ensure that all of these devices have sampled a check bit. The invention accordingly relates to a device for checking the operational readiness of light-sensitive Scanning devices for scanning markings in the individual columns of recording media for electrical accounting and calculating machines.

According to the invention, the arrangement is made so that on the recording medium in addition to the predetermined markings still test bits and in the scanning direction a number of known commutator markings are attached, for their scanning in a known manner light-sensitive scanning devices are present, the outputs of which are connected to a switching matrix via a counting device which supplies an output signal for a selectable commutator marking. To the exit this switching matrix and the outputs of the scanning devices scanning the test bits is one

309 669/130

Electronic storage device connected, with their outputs in turn an AND gate circuit connected is; this only emits an output pulse if at the same time as the one that can be selected Commutator pulse all test bits have been fed to the memory device.

Further details and advantages of the invention emerge from the following description of an embodiment in conjunction with the drawings. It shows

Fig. 1 is a schematic partial representation of the device according to the invention for scanning a Side of a recording medium,

Fig. 2 is a partial circuit diagram in connection with the

FIG. 2a shows a part of the diode matrix in the circuit diagram according to FIG. 2 on an enlarged scale,

Fig. 3 is a circuit diagram of the device in which the switching elements are shown only in block form.

From Fig. 1 it can be seen that an elongated light source, e.g. B. a lamp 1, in connection with a cylindrical lens light rays through a number of openings 4 a, 4 b, 4 c etc. in a side

of the column a test bit 25 is provided for the functional test of the light-sensitive devices.

From Fig. 3 it can be seen that each of the photosensitive devices such as the phototransistors 7, which can be assigned to the first and the last or n-th column, by capacitors C is connected to inverter amplifiers 30 and via cathode amplifier 32 to a control panel 34 are to which circuit connections can be made in order to facilitate the sensing of the Markings 23 in the various columns generated output pulses ζ. Β. to evaluate statistically. Although each record carrier can contain a large number of columns, there are only two

Device according to Fig. 1 used control current 15 light-sensitive devices shown in Fig. 3, circles to relate the drawing and its description

simple. The outputs of the cathode amplifiers 32 are capacitive with the ignition electrodes through capacitors C 33 of cold cathode storage tubes 35 coupled. The output line 73 of the diode matrix switch 20 is via a one-shot multivibrator 39, a cathode amplifier 38 and a resistor 37 connected to each of the ignition electrodes 33, so that when there is a negative voltage on the line

movable screen 4 on a recording medium 5 25 73 the pulses from the phototransistors 7 in the throws, which contains information arranged in columns. Line 40 is insufficient to pass the cold cathode these Information is ignited by light-sensitive tubes 35. The anodes 36 of these tubes Sensing devices 7, of which in the are on a clockwise basis with the rotation of the Fig. 1 shows only one. Transport rollers 8 operated circuit breaker

One is connected to a positive voltage source for the scanning of a large number of 30 CB 1s, columns of course several such scanning so that in the case of coincidence of pulses on the line devices use side by side. The application 40 with a voltage increase on the from the drawing carrier 5 can, for. B. by driven diode matrix 20 acted upon line 43 the ent-guide rollers 8 are transported around the opening tube 35 is ignited and conductive drawing from left to right under the 35 remains until the circuit breaker CB1 sensing device pass. Of course it opens. Each of the photosensitive devices 7 can also be connected to a similar sensing device is connected in the same way, and the cathode scanning of the lower side of the carrier used 45 of the cold cathode tubes 35 are via leads. 52 connected to an AND gate circuit 48 which

A number of commutator markings 10 on a locking circuit 49 are generated on one longitudinal edge of the recording medium 5 40 only when an output pulse for switching on, if all are in order. These commutator markings will be cold cathode tubes 35 at the same time conductive. This is done by a light-sensitive device 11, which should be scanned at the point in time in which it is practically the same as the device 7, and test bits 25 are sensed. The output signal den to generate commutator clock pulses when 45 of the locking circuit 49 is fed to an AND gate of the recording medium on the sensing device circuit 50, which also moves the output signal device past. The sensing device 11 can consist of a similarly constructed circuit arrangement. B. shown in Fig. 2 contain a phototransistor, the voltage for the sensing of the markings on the is turned on so that the pulses on a Kon back of the recording medium via the line capacitor C to an inverter amplifier 12 and then 50 51 is fed. The output signal of the AND is fed to a ring counter, which in gate circuit 50 can be used to actuate a display in a manner known from a ten-digit one-ring device or a control device for the counter 14 and a tens of the machine controlled by this.
Ring counter 16 consists. These ring counters are with Since all cold cathode tubes 35 in a plug-in

connected to a matrix switch 20, which contained a plurality 55 unit, the removal would be carried out of sockets 21 which, via diodes 22 of any tube, connect the corresponding (Fig. 2 a) with the various output lines over the line 52 from the AND gate circuit 48 the ring counter are connected, of which the resistor 46 to the negative voltage source Fig. 2 only interrupt the ones line "3" and the tens and thereby enable the Line "7" are shown. On these two lines 60 AND gate 48 despite the lack of photos occurs at the seventy-third commutator cell in the column works when the corresponding, marking 10 at the same time an output pulse, the tube 35 containing plug-in unit removed that it would also be pulled on line 73 (FIG. 2 a). To overcome this difficulty is orderly socket 21 a pulse occurs. an OR gate circuit 53 is provided with the

While predetermined markings 23 are connected in 65 anode resistors 47 of all tubes 35

different columns and, as shown in FIG. 1, can appear in any order, is next to the
Seventy-third commutator mark 10 in each

is. The output pulse of the OR gate circuit 53 is reversed by an inverter 54 and via line 55 in connection with the lines

52 supplied from the cold cathode tubes to the AND gate circuit 48. Therefore, if one of the tubes 35 has not ignited or taken out of the circuit, the potential of one or more input lines of the OR gate circuit 53 remains positive, so that the voltage of the output line 55 of the inverter 54 becomes negative and thus the appearance of an output signal at the AND gate 48 prevented. A circuit breaker CB 2 , also driven in connection with the transport rollers 8, can be used to apply a reset signal to the locking circuit 49 after the latter has given an indication of the test bits at the end of a recording medium.

When the machine is in operation, the light-sensitive touch Devices 7 each have their assigned columns of the moved by the transport rollers 8 Record carrier 5 from and generate a negative pulse as often as a mark 23 in the associated Column is sensed. This negative sense pulse is reversed by the reversing amplifier 30 and fed as a positive pulse to the control panel 34 for its use in the evaluation machine. These pulses are simultaneously sent via lines 40 to the ignition electrodes of the cold cathode storage tubes 35 supplied. But since the light-sensitive device 11 for reading the commutator markings 10 with the diode matrix switch 29 is connected, which in the assumed example only depends on one output pulse generated by its seventy-third commutator mark remains until sensed Commutator marking the potential of the output line 73 coming from the diode matrix 20 negative, and all output pulses of the light-sensitive devices that occur before this point in time 7 remain ineffective, so that the storage tubes 35 cannot be ignited.

When the light-sensitive device 11 senses the seventy-third commutator marking 10, an output pulse is applied from the diode matrix switch 20 via the plug connection 73, via the monostable multivibrator 39 and the cathode amplifier 38 to the ignition electrodes 33 of the cold cathode storage tubes 35. If at this point in time each of the photocells 7 senses a check bit 25 and negative pulses are generated as a result, which after their reversal in the reversing amplifiers 30 and after their passage through the cathode amplifiers 32 are applied to the ignition electrodes 33 in coincidence with the output pulse of the diode matrix 20, Each of the cathode storage tubes 35 is ignited, whereby output signals are applied to the AND gate circuit 48 via the lines 52. Since the voltage at the anode of each of the ignited tubes drops, the OR gate circuit 53 does not provide a positive output signal and the inverter 54 provides a positive output pulse via the line 55 to the AND gate circuit 48, so that it is due to the coincidence of all positive input signals takes effect and the locking circuit 49 turns on. The locking circuit 49, which can be of any suitable type, then supplies an output signal to the AND gate circuit 50 which, if a similar signal occurs simultaneously from a test circuit for the rear side of the recording medium 5 via the line 51, an output signal for displaying the desired test result supplies. When the recording medium has passed through, the circuit breaker CB 2 closes and resets or clears the locking circuit 49. The circuit breaker CB 1 opens, thereby clearing the storage tubes 35 and resetting the test device for a subsequent sensing. If all of the tubes 35 have not been ignited or for some reason the voltage of all input lines 52 of the AND gate circuit 48 has not been positive, the latch circuit 49 is not switched on and an error is thus indicated.

From the preceding statements it can be seen that with the subject of the invention the Accuracy of the position of the commutator markings in relation to the position of the test bits can be determined, as in the case of faulty Position of the commutator markings the monostable trigger circuit responds at the wrong time and this prevents accurate counting and storage of the check bits. Likewise prevented a lack of a check bit or an error in the associated electrical circuits affect the check bit memory and thereby causes an error to be indicated by the absence of a corresponding output signal the AND gate circuit 50. Even if the recording medium should be printed at an angle, as a result of reading errors can be caused, the reading of the check bit is also effected and results an error detection by the AND gate circuit 50.

Claims (3)

PATE NT TO PROBLEM ΕΙ. Device for checking the operational readiness of light-sensitive scanning devices for scanning markings in the individual columns of recording media for electrical accounting and calculating machines, characterized in that, in addition to the specified markings (23), check bits (25) and in Scanning direction a series of known commutator markings (10) are attached, for the scanning of which light-sensitive scanning devices (11) are available in a known manner, the outputs of which are connected via a counting device (14, 16) to a switching matrix (20) which can be selected for a Commutator marking provides an output signal that an electronic storage device (z. B. cold cathode tubes 35) is provided which has the output connected to the switching matrix (20) and the outputs of the scanning devices (7) scanning the test bits (25) and that to the outputs the memory device an AND gate circuit (48) ang is closed, which only emits an output pulse if all check bits have been supplied to the memory device at the same time as the selectable commutator pulse. 2. Device according to claim 1, characterized in that the scanning devices are phototransistors (11) and the counting device in a known manner as a multi-digit Ring counter is designed. 3. Device according to claim 1, characterized by the arrangement of a with the anode resistors (47) of all cold cathode tubes (35) connected OR circuit (53), the output pulse reversed by an inverter (54) and fed to the AND gate circuit (48). Considered publications: German Patent Nos. 577 035, 579 006, 817 825; British Patent No. 777 557. 1 sheet of drawings ® 309 669/130 8.63