CS260774B1 - Telegraph adapter connection for common bus systems - Google Patents

Abstract

A telegraph adapter for computer systems with a common bus allows these computer systems to be connected to telex exchanges, thereby providing the possibility of creating mutual connections between computers and connecting remote telex machines to them.

Description

The invention relates to the connection of a telegraph adapter for a common bus computer system.

Until now, computer systems with a common bus contained no telegraph adapter and therefore could not be connected directly to the long-range control panel.

The above drawback eliminates the wiring of a telegraph adapter for common bus computer systems, which is based on the first output of the command register block being connected to the command input of the passive connection block, while the second output of the command register block is connected to the command input of the active block. the second input of which is connected to the first input of the passive connection block and is also connected to the quiescent output of the link state register as well as the output of the link status indicator, the first input of the active connection block being connected to the second input of the passive connection block the second connection state register input as well as the polarity output of the telegraph converter, while the outputs of the passive link block are coupled to the inputs of the passive state register whose outputs are connected to the second interrupt input of the interrupt log as well as the first control input of the telegraph signal converter control block, the second control input of which is connected to the outputs of the active link state register and at the same time to the third interrupt input of the interrupt logic. the fourth interrupt input of the interrupt logic is coupled to the output of the transmit state register, the first input of which is connected to the output of the parallel-serial converter, while the second transmit state register input is coupled to the enable output of the dial counter . Options whose output is connected to the second data input of the telegraph converter control block as well as to the clock input of the dial counter, whose setting input is connected to the Start input as well as the strobe input of the parallel-serial converter whose data inputs are connected to the data input as well as the data input of the option decode block whose decoded outputs are associated with the set inputs of the dial counter block, while the third command register output is associated with the command input of the maintenance block whose data input is connected to the data output of the parallel-serial converter with the first data input of the telegraph signal converter block, the active output of which is connected to the first connection state register input, and the control input of the telegraph signal converter, the data input of which is connected to the data output of the converter control block the telegraph signal as well as the blocking input of the serial-parallel converter, whose first data input is connected to the data output of the maintenance block, while the data output of the telegraph converter is connected to the second data input of the serial-parallel converter a connection whose inputs are connected to the outputs of an active link block, the telegraph line being connected to the telegraph input of the telegraph signal converter, whose telegraph output is connected to the telegraph line, while the data reception register inputs are connected to the serial-parallel converter outputs, whose data output is associated with the data output, wherein the interrupt output is associated with the output of the interrupt request and the command input is associated with the command register command input.

The wiring of a telegraph adapter for common bus computer systems is advantageous because it allows direct connection of the common bus computer systems to the telegraph exchange. Until now, there was only the possibility of interconnecting through the punched tape of the intermediate telex machine and the di-tape input and output of the computer system with a common bus, which required the additional presence of the operator.

The attached drawing shows an overall block diagram of a telegraph adapter for computer systems with a common bus.

The wiring of a telegraph adapter for common bus computer systems is characterized in that the command register 1 determines three modes of operation on the basis of the commands received through the command A input.

The passive connection mode starts by changing the idle state of the idle state on the telegraph line D. This change is transmitted via the telegraph converter 13's thigraphic input C13, further through the telegraph converter 13's polarity output 13A to the second input of the passive link block 3. The passive link block 3 is connected by outputs 3A to the inputs A7 of the passive link status register 7 and sets the outputs 7A that are connected to the second interrupt logic log input 11. Interrupt logic log output 11A via interrupt request output E requests the computer system to service the request. . The computer system sets the first output 1A, which is connected to the command input B3 of the passive link block 3, based on the status of the passive connection state register 7 via the command A input and the command register 1 command input A1. The passive link block 3 sets, through its outputs 3A and the inputs A7 of the passive link state register 7, the respective outputs 7A, which are connected to the first control input A12 of the telegraphic signal converter control block 12 of which

280774, the active output 12A provides via the control input B13 of the telegraph signal converter 13 an increase in the current of the telegraph line D. This provides the subscriber connection.

The termination of the passive connection may be at the initiative of its own computer system or the opposing party. The connection is canceled by the computer system through the input of command A by dropping the first output 1A of the command register 1. This will change the outputs 7A of the passive connection state register 7. This change converts the active output 12A to the inactive state and to the active state for a defined period of time the data output 12B of the telegraph signal converter block 12 whose data output 12B is connected to the data input A13 of the telegraph signal converter 13. After interruption of the current of the telegraph line D, the control panel changes the polarity of the current. This indicates the polarity output 13A of the telegraph signal converter 13, which is connected to the second input B15 of the link register 15, the idle output 15A of which indicates idle on the telegraph line D via the line status indication output F.

The passive connection is canceled by the opposite subscriber by reversing the current of the telegraph line D. The polarity output 13A of the telegraph signal converter 13 is connected to the second input C3 of the passive link block 3, whose outputs 3A set the outputs 7A of the passive link register 7. This causes the output of the request for interruption E to be activated and the active output 12A of the telegraph converter control block 12 to be inactive. The line F status indication output then indicates the idle state of the telegraph line D. The computer system handles the interrupt request and terminates the active state on the first output 1A of the command register 1 via the command A input. command B3 terminates the passive connection and the passive circuitry returns to the ground state.

The active link mode begins with the computer system, provided the power state is at the output of the line F status indication. Via the command register 1 command input A1, it sets the second output 1B that is connected to the command input B4 of the active link block 4. The active link block 4 sets, through its outputs 4A and the active link register inputs A8, the outputs 8A, which are coupled to the second control input B12 of the telegraph converter control block 12, the active output 12A of which increases the current through the control input B13 of the telegraph signal converter. telegraph line D. The control panel will interrupt the current through telegraph line D for a defined period of time. During this time, the state at data output 13B of the telegraph signal converter 13 connected to the input of the B8 register 8 of the active link state is set. which are connected to the second control input B12 of the telegraph converter control block 12, where it switches the second data input D12 to the data output 12B and is connected to the third interrupt input C11 of the interrupt logic 11, which interrupts the computer system via the interrupt request E output. based on the status of the active link status register 8, the counter system transmits via the data input C the first character of the encoded dial number, which in decoded form appears on the decoded outputs 2A of the dialing decoder 2 connected to the set inputs C6 of the dialer 6 are stored as the number of dial pulses at the time the signal arrives at the setting input B8 from the start input B. The release output 8A of the dial block 8 releases the select pulse generator 10 via the release input A10 to begin generating pulses at its output 10A. on the other hand, to the clock input A6 of the dialer 8, and to the second data input D12 of the telegraph converter control block 12, and from its data output 12B to the data input A13 of the telegraph converter 13 whose telegraph output 13C interrupts the telegraph D. IMPU To the clock input A6 of the dial counter 6 corresponding to the stored number of dial pulses in the dial counter 8, the output pulse generator 10 is locked via its release input A10 and through the second input B14 of the data transmission status register 14 output 14A, which is connected to the fourth interrupt input D1 of the interrupt logic 11, which, via the interrupt request E output, requests the computer system to transmit the next dial number character via data input G. The repetition occurs after all dial digits have been transmitted. A change in the state of the polarity output 13A of the telegraph signal converter 13 connected to the first input A4 of the active link block 4, whose outputs 4A set the outputs 8A of the active link register 8 by interconnecting the first data input C12 to the data output 12B of block 12 ri telegraph signal converter. At the same time, the computer system is requested to handle data transmission via the third interrupt input C11 of the interrupt logic 11.

During dialing, when the subscriber is occupied, the panel prematurely changes the polarity of the current through the telegraph line D and after a defined period of time changes the polarity of the current again to the original. The active link block 4 recognizes this state on its first input A4 and sets the outputs 8A of the active link register 8 accordingly. The active output 12A of the telegraph converter control block 12 becomes inactive, and the link output 15A of the link state register 15 then indicates kfud on the tele260774 video line D. Via the third interrupt input of logic interrupt 11 ', 11s, and activates interrupt logic 11. Based on the subscriber occupancy status information obtained from the Active Link Status Register 8, the second output 1B of the Command Register 1 is inactive to cancel the Active Link process.

The termination of an active connection may be at the initiative of its own computer system or an opposing party. The connection is canceled by the computer system via the command inputs A by dropping the second output 1B of the command register 1. This changes the outputs 8A of the register 8 of the active link status. These changes will turn the active output 12A into an inactive state and to the active state for a defined period of time the data output 12B of the telegraph signal converter block 12, the data output 12B of which is connected to the data input A13 of the telegraph signal converter 13. When the current is interrupted by telegraph D, the control panel changes the polarity of the current. This indicates the polarity output 13A of the telegraph signal converter 13, which is connected to the second input B15 of the link state, whose current ISA output indicates only on the telegraph line D via the line status indication output F.

The active connection is canceled by the counter-party by reversing the polarity of the telegraph line D current. The polarity output 13A of the telegraph converter 13 is connected to the first input A4 of the active link block 4, whose output 4A sets the outputs 8A of the active link register 8. This causes the interrupt request E to be output and the active output 12A of the telegraph converter control block 12 to be inactive. The line F status indication output then indicates the idle state of the telegraph line D. The computer system handles the interrupt request and terminates the active state on the second output 1B of the command register 1 via the command A input. command B4 actively terminates the connection and the active connection circuits return to the ground state.

Data transmission between the subscribers after a successful connection is made via the telegraph line D. The data symbols are sent by the computer system via data input C to the data inputs B9 of the parallel-serial converter 9, which are memorized at the time of pulse at strobe input A9. The serial data stream comes from the data output 9A to the first data input C12 of the telegraphic signal converter control block 12 and cleaves to its data output 12B, which is connected to the blocking input A18 of the serial-parallel converter 16 where it blocks its own data reception. data input A13 of the telegraph signal converter 13. The telegraph signal converter 13 at its telegraph output 13C then interrupts the current of the telegraph line D at the rhythm of the serial data stream. After the transmission of each data character, the output 9B of the parallel-serial converter 9, which is connected to the first input A14 of the data transmission register 14, is set, the output 14A of which is connected to the fourth interrupt input D1 of the interrupt logic 11. via data input C another data character.

The opposing subscriber transmits the data symbol in the form of the interruption of the current of the telegraph line D to the telegraph input C13 of the telegraph signal converter 13 whose data output 13B is connected to the second data input C18 of the serial-parallel converter 16. a parallel converter 18, which are connected to inputs A17 of the data reception register 17, whose output 17A is connected to the first interrupt input All of the interrupt logic 11. Based on the interruption, the computer system reads the data character from the data output 16A.

The maintenance mode is performed by the computer system as part of the diagnostics by setting the third output 1C of the command register 1, which is connected to the command input B5 of the maintenance block 5. Data symbols are sent by the computer system via data input C to the data inputs B9 of the parallel-serial converter 9, to which they are stored at the time of the pulse at strobe input A9. The serial data stream comes from the data output 9A to the data input A5 of the maintenance block 5 and releases its data output 5A, which is connected to the first data input B16 of the serial-to-parallel converter 16. After transmission of each data character converter 9, which is connected to the first input A14 of the data transmission status register 14, the output 14A of which is connected to the fourth interrupt input D1 of the interrupt logic 11. On the basis of the interruption, the computer system can transmit another data symbol via data input C. Upon receipt of the entire data symbol, the outputs 16B of the serial-parallel converter 16, which are connected to inputs A17 of the data reception register 17, whose output 17A is connected to the first interrupt input All of the interrupt logic 11, are set accordingly.

SUBJECT

Telegraph adapter for common bus computer systems, characterized in that the first output (1A) of the command register block (i) is connected to the command input (B3j of the passive link block (3j), while the second output (1B) of the block i1j). the command register is connected to the command input (B4) of the active link block (4), the second input (C4) of which is connected to the first input (A3) of the passive link block (3) and is connected to the register output (15A) thereof the link state as well as the line status indication output (F), wherein the first input (A4j of the active link block (4) is connected to the second input (C3) of the passive link block (3)) (15) the connection state as well as the polarity output (13A) of the telegraph signal converter (13), while the outputs (3A) of the passive connection block (3j) associated with the inputs (A7) of the passive connection state register (7j). the stages (7Aj) are connected to the second interrupt input (B1) of the interrupt logic (.11) as well as to the first control input (A12) of the telegraph converter control block (12), the second control input (B12) of which is connected to the outputs (8A) the active link state register (8) and at the same time the third interrupt input (C11) of the interrupt logic (11), the first interrupt input (A11J of the interrupt logic (11i) connected to the output (17A) of the data reception register (17) and the fourth interrupt input in (011) circuit j logic (ij is connected to the output (14a) of the register (14) the state of data transmission, the first input (A14) being connected to the outlet (9B) _{Parallel-series:} it preyodníka (9), whereas ^one which the second input (B14) of the data transmission status register (14) is connected to the release output (6A) of the dial counter (Q) as well as to the release input (A10) of the generator and (10) with expensive data input (D12) of control block (12) of telegraph converter as well as clock input (A6) of block (6)

Claims (1)

260774 9 10 SUBJECT CONNECTION Telegraph adapter for computer systems with a common bus, characterized in that the first output (1A) of the command register block (i) is connected with a command input (B3j block (3j passive connection while · the second output (1B) of the command register block (1) is coupled to the call input (B4) of the active link block (4), the second input (C4) of which is connected to the first input (A3j of the passive link block (3) while being connected to the home the output (15A) of the connection (15) register as well as the output of line status indication (F), the first input (A4) of the active connection block (4) being connected to the second input (C3) of the passive block (3) at the same time, it is connected to the second input (B15) of the connection state register (15) as well as to the polarity output (13A) of the telegraph signal converter (13), while the outputs (3A) of the passive block connection (3) are connected the passages (A7) of the register (7) of the passive connection state, whose outputs (7AJ are connected to the second interrupt input (Bil) of the interrupt logic (11) as well as to the first control input (A12) of the telegraph converter converter block (12) whose second control input (B12) ) is coupled to the outputs (8A) of the active link register (8) and to the third interrupt input (C11) of the interrupt logic (11), the first interrupt input (A11J of the interrupt logic (11) being connected to the output ( 17A), the data acquisition register (17) and the fourth interrupt input (Dli) of the interrupt logic (11) is coupled to an output (14A) of the data transmission register (14) whose first input (A14) is connected to the output (9B) of the parallel a serial converter (9) while the second input (B14) of the broadcasting data register (14) is coupled to the release output (6A) of the counter-select block (6) as well as the release input (A10) of the generator and (10) ) a pulse select whose output (10A) is connected by a second data v the output (D12) of the telegraph signal converter control block (12) as well as the clock input (A6) of the block (6) 4 ·. . OUT of the dial counter whose setting input (B6) is coupled to the start input (B) as with the strobe input (A9) of the parallel-to-serial converter (9) whose data inputs (B9) are connected to the data input (C) as also with the data input (A2) of the option decoding block (2) whose decoded outputs (2A) are connected to the set-up bits (C6j of the option counter block (6), while the third of the command register (1) is connected to the command the input (Bo) of the maintenance block (5), whose data input (Δΰ) is connected to the data output (9A) of the serial-to-converter (9) as well as to the data input (C12) of the converter control block (12) the telegraph signal which the active output (12Δ) is connected to the first input (A15) of the connection state register (15) as well as the control input (B13) of the telegraph signal converter (13) whose data input (A13) is connected to the data output (12B) of the transport control block (12) the telegraph signal as well as the blocking input (A16) of the serial-parallel transducer (16), the first data input (B16) of which is connected to the data output (5A) of the block (5j maintenance, while the data output (13B j of the telegraph signal converter (13) is coupled to a second data input (€ 18) of a serial-parallel converter (16) as well as a. by selecting (B3) the register (8) of the active link state whose inputs (A8) are connected to the outputs (4Aj of the active link (4), the telegraph line (D) being connected to the telegraph input (C13) of the converter (13) the telegraph signal which the telegraph output (12C) is connected by a stelegraph line (D), while the inputs (A17) of the data reception register (17) are coupled to the outputs (16B) of the serial-parallel converter (16), whose data output (16Aj is coupled to the data output (G), wherein the interrupt output (11Aj is coupled to the output of the interruption request (E1 - command access (I1 is coupled to the input of the command register (AI) ( 1) 1 sheet of drawings