CS215314B1 - Connecting the Sensor Connection Circuit and the Punch Hole Punch - Google Patents

Abstract

The invention relates to the use of bit processors in assembly technology. The invention solves the problem of scanning programs from punched tape and their reverse punching. The essence of the invention is the connection of the bit processor to a selector and a buffer memory, the output of which is connected in parallel to the data bus driver, the puncher connection circuit, the transverse parity generator and the longitudinal parity generator. The punched tape punch is connected to the puncher connection circuit. The punched tape sensor is connected to the first character follower and the selector. The controller and the tape sensor controller are connected to the zero address transition follower via the control circuit to the modifier, character counter and selector.

Description

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It is an object of the invention to connect a sensor connection circuit and a punch tape punch to the bit processors. Nowadays, when using these systems, it is very laborious to write a program using a programming device that includes a panel of buttons and a display, or reading a program from a buffer memory and an instruction write! and addresses for documentation purposes. When using computational techniques with the ability to generate the required program, it is not possible to use direct binding, but a dump in the specified form must be made and written using the programming tool tastat. This way of work also puts errors in the debugged program caused by 1 'human factor, with great demands on time. When revitalizing devices, the process of which is controlled by the processor is very often regulated by the underlying program and its form needs to be changed several times. These jobs are very time-consuming and accurate. At present, the failures of the bit processors NS 910 and NS 920 are most often caused by overwriting the program in control memories, or by complete shutdown. In these cases, the issue of rapid and accurate entry and replacement of new blocks is particularly relevant.

Very time-consuming are work controls that need to quickly determine if a program's write error is causing the system, or errors are being written to the program via the programming device.

The above-mentioned disadvantages are alleviated and the technical problem is solved by the connection of the connection circuit of the sensor and the hole tape punch, in particular to the bi-processor, the essence of which is that the first branched input is connected to the branched output of the data bus driver and simultaneously to the bit processor and its second. a branched entry to the first character tracker and a tape tape reader. A branching output is connected to the branched output of the selector, the branched output of which is connected in parallel to the branched input of the data bus driver, via the first branched input of the punching circuit of the hole punch, the parity generator and the delay generator. parity, the second branched entry of the pinhole connection. The transient tracking transducer is the output of the controller and tape sensor controller connected to its output and its input to one bit processor output, one input of which is coupled to the transverse parity generator, the second output is connected to the second controller and tape sensor output, and the other the output is connected to the first input of the control circuit. On the day the input of the modifier is connected by its output to the hole tape punch, the first output of the controller and the tape sensor together with the input of the hole tape sensor is connected to the latter. One modifier output is connected to a character counter which is bidirectionally connected to the second input of the control circuit. The second modifier output is connected via the control circuit outputs to the fourth controller input and the tape sensor, to the selector, the data controller. the bus, the hole strip punch, and the parity generator. The output of the first character monitor is connected to the third input circuit.

By connecting the sensor connection circuit and the hole tape punch, a fast and accurate program listing as well as reverse writing and reproduction is achieved. This system also makes it possible to connect to higher systems which can be used for mechanized preparation and / or preparation. to modify the program, and as a peripheral, I can connect a sensor and a hole tape punch. The connection is made using commonly available elements. and is versatile at the same time, as it allows the connection of the sensor and / or perforator of the tape to one output connector.

In the accompanying drawing, we illustrate the connection of the connection of the connection of the sensor of the tape holder to the bit processor.

The connection of the sensor connection circuit and the hole tape punch is converted as follows:

The selector 7 is connected to the branched output of the first bus 9 at the same time as its first branched inlet 71, and at the same time to the bit processor 13 and its second branched input 72 to the first character follower B and to the tape reader 15. A buffer 8 is connected to the branched output of selector 7, the the output is parallel connected to the branched field bus driver input 9, through the first branched inlet 101 of the hole punching circuit 10 to the hole strip punch 14, to the parity generator 11, and via the second parity generator 12 to the second branched the punch connection connection inlet 102 is connected to the first input 21 of the controller and the sensor 2 of the controller and its input to one output of the bit processor 13, one of which the input is bidirectionally connected to the cross parity generator 11, the second input is connected to the second output 2B controls the controller and sensor of the tape 2 and the second output is connected to the first input 41 of the control circuit 4. The perforator of the strip 14 is connected to one input of the modifier 3, the first input 25 of the controller and the tape sensor 2 are connected to its second input together with the sensor input of the tapes 15. The output of the modifier 3 is connected to the readers 5 which is bidirectionally connected to the second input 42 of the control circuit 4. The second output of the modifier 3 is connected via the output of the control circuit 4 to the second input 22 of the controller and the tape sensor 2, to the selector 7, to the bus of data bus 9, to the hole strip punch 14 and to the generator of the parity 12. The output of the first character 6 is connected to the third input 43 of the control circuit 4.

Claims (1)

SUBJECT Connection of the sensor circuit and the hole puncher to the bit processor, characterized in that the selector (7) is connected by its first branched input (71) to the branched output of the data bus driver (9) and simultaneously to the bit processor (13) and its second branched input. a buffer (8) is connected to a branched output of the selector (7), the branched output of which is connected in parallel to a branched input of a data bus connection circuit (9) , via a first branched hole connection (101) of a puncher circuit (10) to a hole-punch punch (14), to a transverse parity generator (11) and through a longitudinal parity generator (12) to a second branched hole of the puncher circuit (10) wherein the zero address transition monitor (1) is connected to its first input (21) of the controller and tape sensor (2) and its input to one output. bit processor (13), Wherein one input is bi-directionally coupled to the transverse parity generator (11), the other input is connected to the second output (26) of the coulter driver and the tape sensor (2), and the other output is connected to the first input (41) of the control circuit (4) a puncher hole punch [14] is connected to one input of the modifier (3), a second puncher output (25) of the controller and the tape sensor (2) are connected to its second input together with an input of the punch sensor (15); (3) is connected to a character counter (5) which is bi-directionally coupled to the second input (42) of the control circuit (4) and the second output of the modifier (3) is connected via the outputs of the control circuit (4) to the second input (22) a controller and a tape sensor (2), a selector (7), a data bus driver (9), a hole puncher (14), and a longitudinal parity generator (12), the output of the first character tracker (6) connected on the third vs tup (43) of the control circuit (4).