SU477409A1 - Interface device - Google Patents

Description

This invention relates to the field of digital computing.

A device for interfacing a teletypewriter computer is known, which provides both bit-by-bit and character-by-character information exchange.

The bit-exchange devices contain a buffer register key, a receiver, a wiring frequency pulse generator (timer), a readiness trigger, and a control circuit. When entering information from a teletype, each current and current source package constituting the received symbol is reported to the computer by writing through the time determined by the timer, respectively, "1 or" O to the one-bit buffer register of setting to "1 trigger readiness and subsequent reading of information from the buffer register in the computer. Symbol formation, as well as recognition of the start and stop parcels from the teletype is carried out by software.

When outputting information on a teletype in accordance with the transmitted symbol, programmatically, a signal from the ready trigger is recorded "1 or" O in the buffer register, which, together with the timer and key, participates in the formation of current and current parcels in the telegraphy circuit. Not only the packages encoding the transmitted symbol, but also the start and stop packages are programmatically generated. Advantage of the device

there are low hardware costs for its implementation.

Device disadvantages are complex device maintenance programs that require

a significant amount of memory for their storage and large overhead of machine time for each character of the input - output information, sushi, which significantly limits the throughput of the interface.

The symbol-exchange devices contain a buffer register associated with a computer, a shift register for converting a serial code into a parallel one when entering information and a parallel code into a serial one when outputting information, a pulse generator, a counter, a key, a receiver, a ready trigger and a control circuit. When entering information from the teletype current

and the currentless signals from the teletype are sent to the shift register, where they are converted into parallel code. At the end of the conversion in the computer, a sign of the readiness of the result is given, according to which five bits of the shift register corresponding to the received symbol are written into the buffer register, from where they are read into the computer by a command.

the character code goes to the buffer register, and from there to the seven-digit shift register, in the high and low bits of which codes are written corresponding to the starting and pillar parcels. The signal from the control circuit begins the conversion of the parallel code into a serial one and the generation of current and current parcels corresponding to the transmitted symbol using the key. Upon completion of the conversion, a sign of readiness is issued to the computer.

Special analog circuits are used to form a stop parcel, which must be at least 1.5 times the length of the code parcels.

The known devices and the symbolic exchange use the same sign of readiness for both input and output, which leads to an increase in the volume of programs and, therefore, in service time due to the need for additional analysis to recognize the type of operation.

The purpose of the invention is to increase the capacity and simplify the maintenance of the device.

The essence of the invention is that input and output triggers are inserted into the device, a counter connected to the descrambler, the first output of which through the first valve is connected to the control input of the register, the decoder outputs from the second to the sixth are connected respectively to the second inputs of the first group of gates and the first inputs of the valves of the third group, the second inputs of which are combined and connected to the output of the coincidence circuit. The receiver output is connected to the first input of the coincidence circuit and through the inverter is connected to the input trigger input and the first input of the second OR circuit, the output of which is connected to the single trigger trigger input, the single output of which is connected to the input of the pulse generator, the first and second outputs of which are connected respectively with the counting input of the counter and with the second input of the coincidence circuit. Zero start trigger input and single readiness trigger input are connected to the output of the second valve, the first input of which is connected to the corresponding counter output, the second input is connected to the input of the corresponding valve of the first group of valves and connected to the single output of the trigger, the single input of which is connected to the seventh output of the deflector. The zero output of the trigger is connected to the first input of the third valve, the output of which is connected to the second input of the first valve and to the third input of the coincidence circuit. A single output trigger input is connected to the second input of the third valve and the first input of the fourth valve, the first input of the fifth valve is connected to the single output of the output trigger, zero output of which is connected to the input of the corresponding valve first

valve groups. The second inputs of the fourth and fifth valves, the outputs of which are connected respectively to the second and third outputs of the device, are connected to a single output of the ready trigger. The output of the first OR circuit is connected to the zero inputs of input and output triggers and to the control input of the counter. The control input of the device is connected to the single input of the output trigger and to the second input of the second OR circuit. The drawing shows a diagram of the device. It contains register 1, valve group 2 and 3, output 4, valve group 5, key 6, receiver 7, inputs 8-11, decoder 12, counter

13, coincidence circuit 14, pulse generator 15, valve 16, input trigger 17, trigger 18, valve 19, inverter 20, OR 21 circuit, start trigger 22, output trigger 23, valve 24, ready trigger 25, valves 26 and 27 , outputs 28 and 29, the circuit “OR 30 and inputs 31 and 32.

The device operates in two modes: input mode and output mode. iB start of operation with a general reset signal (not in the drawing

shown) are set to "About all device triggers,

In the input mode, when the start (current) parcel appears in the teletype chain of the teletype at the output of receiver 7,

a low voltage level, which is converted by the inverter 20 and sets in "1 trigger 17 input and through the scheme" OR 21 - trigger trigger 22. A high potential from a single output of the trigger 22 starts the generator 15, which, after starting, starts producing short pulses with a wiring frequency at one output, i.e. with a period equal to the duration of the code message, and after a time equal to half the duration of the code message at the other output . The first pulse from the output of the generator 16 passes to the counter 13 and sets the code 001 on it, resulting in a high potential at the first output of the decoder 12, which passes through the valve 19, since at its second input there is a high potential from the output of the valve 16, because at both inputs of this valve, high potentials, respectively, from the single output of the trigger 17 of the input and the zero output of the trigger 18. With this signal, the register 1 is reset to "O."

Through the coincidence circuit 14, the first pulse from the second output of the generator 15 does not pass, since at the moment of its occurrence

the second output of the coincidence circuit 14 is the low potential from the output of the receiver 7.

The subsequent five pulses from the first output of the generator 15 are fed to the counter 13, sequentially setting on it the codes

010, 011, 100, 101, ON, resulting in high potentials consistently occur on the second, third, fourth, fifth, and sixth outputs of the descrambler 12. Depending on the symbol transmitted from the teletype, in the output of the generator 15, at the output of the receiver 7 there will be high (with the current package) or low (with the current package) potentials. When the current is sent, the pulse from the generator 15 passes through the coincidence circuit 14, since at its third input there is a high potential from the output of the valve 16, and through the valve of the group of valves 3, to which a high potential from the decoder 12 is currently applied, is written to the corresponding bit d register 1.

Upon receipt of the seventh pulse from the output of the generator 15, a 1M code is set on the counter, and a high potential arises at the seventh output of the decoder 12, which sets the trigger 18 to 1, resulting in a high potential at one output of the valve 24. The time of occurrence of high potential at the second input of the valve 24 depends on which output of the counter 13 or the decoder 12 is connected to. If, for example, it is connected to a single output of the first discharge of the counter (as shown in the drawing), then a high potential arises at the moment of arrival of the ninth pulse from the first generator output. At this moment, the high potential from the output of the valve 24 sets to “1 ready trigger 25 and to“ About trigger 22. The generator 15 stops the output of pulses.

A high potential from the single output of the ready trigger 25 is supplied to the first inputs of the valves 26 and 27, but since the high potential is present at the second input only of the valve 27, the high potential will be at the output of the valve 27 connected to the output 28 ("Input Ready).

The character code written to register 1 is read into the computer via output 4 ("Informatti in computer"). At the same time, the computer through input 33, "Reset while reading, generates a pulse, setting in" O all triggers, except for register triggers, which, as described above, are set to "O in the beginning of receiving the next character from the teletype. This allows the symbol written in register 1 to be repeatedly read into the computer.

During the input, the trigger 23 of the output is in the "O. The high potential from its zero output goes to the corresponding valve of the group of valves 5. The key 6 under the action of a high potential at the output of any valve of this group opens, therefore, during input it is constantly open.

The output of information from the computer to the teletype begins with the output to the device - input 31 (“Reset upon recording) —a pulse that sets in“ O. device triggers. Then, at input 11 ("Information from a computer), the code of the transmitted symbol is set, which, by a pulse emitted by a computer at input 10 (" Record Reset), is written to register 1. The same pulse passes through the "OR 21 and sets" 1 trigger 22 as a result, the generator 15 starts to emit pulses that follow with a wiring frequency.

The first pulse from the output of the generator 15 sets the code 001 on the counter, and a high potential of the matching circuit 14 occurs at the first output of the decoder 12, and the valve 19 does not work, because at its second input there is a low potential from the single output of the trigger 18. For a time from the first to the second pulse from the generator 15 at the first inputs of all valves 5 will be low potential. The key is locked, as a result of which, in the teletype telegraphy circuit, a current-free (starting) parcel is generated for a duration of one period of the telegraph frequency.

During the time from the second to the third pulse, a high potential is present at the second output of the decoder 12. If the first

Because register bit 1 is in "1, then during this time the key is open, as a result, a current parcel arises in the teletype chain, which is the first code message. If the first bit

Register 1 was set to “O”, then the key will remain closed for the period in question, and the first code package will be currentless.

Similarly, the rest are formed (from

second to fifth) code packages.

The seventh pulse from generator 15 causes a high potential at the seventh output of the decoder 12, as a result of which it is set to "I trigger 18, and high potential

from its single output enters the valves 5. Key 6 opens, and a current (stop) of the parcel arises in the peep of the teletype telegraphy. The duration of the stop parcel by connecting the input of the valve 24 to that

or another output of the counter 13 or the decoder 12 can be adjusted from one to seven durations of the code parcel. So, in the case depicted in the drawing,

the duration of the stop parcel is equal to the duration of two code parcels, since a high potential at the output of the valve 24 occurs when the ninth pulse from the generator 15 arrives at the counter 13.

The operation of the valve 24 causes the installation in the “1 ready trigger 25 and in the“ On the trigger 22 trigger ”. The issuance of pulses from the outputs of the generator 15 is stopped.

If you connect the input of the valve 24 to the zero output of the first discharge of counter 13, then the duration of the stop package is equal to the duration of the code package. In order to obtain a stop parcel equal in duration to 1.5 times the duration of code parcels in the case of using a potential counter having main and auxiliary triggers, the input of the valve 24 is connected to the output of the auxiliary trigger of the first discharge of the counter 13.

depending on the speed of the teletype mechanic.

Setting the ready trigger 25 to “I triggers the valve 26, since at its second input there is a high potential from the single output of the output trigger 23, and at output 29 (Output readiness) there is a high potential signaling the readiness of the teletype to receive the following symbol from the computer .

The device allows the exchange of information between computers and various types of telegraph apparatus, which differ in both the speed of cabling and the speed of teletype mechanics. Tuning to different wiring speeds is done by changing the frequency of generator 15, and tuning to different speeds of teletype mechanics by connecting the input of valve 24 to different outputs of counter 13 or decoder 12 and thus changing the length of the stop package.

In addition to the teletype, a transmitter can be connected to the inputs 8 and 9, which allows information to be entered into the computer from a five-track punched tape.

Subject invention

Interface device containing valves, OR circuit, coincidence circuit, inverter, receiver, key, pulse generator, start and readiness triggers, trigger, register, the output of which is connected to the first output of the device and to the first inputs of the corresponding valves of the first group, outputs gates of the first group are connected to the first key input, the key output is connected to the first receiver input, the second input of which is connected to the first input of the device, the second input of which is connected to the second key input, the register input is connected to the outputs in the second and third groups, the first inputs of the second group of valves are connected to the information input of the device, the second inputs are combined and connected to the control input of the device, the third and fourth inputs of which through the first OR circuit are connected to zero inputs of the trigger and the ready trigger, the third input of the device connected to the control input of the register.

characterized in that, in order to increase the capacity and simplify the maintenance of the device, input and output triggers are entered into it, a counter connected to the descrambler, the first output of which through the first valve is connected to the control input of the register, the outputs of the decoder from the second to the next are connected with the second inputs of the valves of the first group

and the first inputs of the third group of gates, the second inputs of which are combined and connected to the output of the matching circuit, the receiver output is connected to the first input of the matching circuit and connected via an inverter to the single input trigger input and to the first input of the second OR circuit, the output of which is connected to the single input the start trigger, the unit output of which is connected to the input of the pulse generator, the first and second outputs of which are connected respectively to the counting input of the counter and to the second input of the coincidence circuit, the zero input of the trigger n OSCAL single trigger input connected to the output of readiness of the second gate, the first

the input of which is connected to the corresponding output of the counter, the second input is combined with the input of the corresponding valve of the first group of valves and connected to a single output of the trigger, whose single input

connected to the seventh output of the decoder, the zero output of the trigger is connected to the first input of the third valve, the output of which is connected to the second input of the first valve and to the third input of the matching circuit, the single output of the input trigger is connected to the second input of the third valve and to the first input of the fourth valve, the first input The fifth valve is connected to a single output of the output trigger, the zero output of which is connected to the input of the corresponding valve of the first group of valves, the second inputs of the fourth and fifth valves, the outputs of which connected to the second and third outputs of the device respectively, connected to the single output of the ready trigger, the output of the first OR circuit is connected to the zero inputs of the input and output triggers and to the control input of the meter, the control input of the device is connected to the output single output trigger and the second input of the second circuit “OR.