RU32618U1 - Device for transferring data between a computer and peripherals - Google Patents

Description

Device for transferring data between a computer and a peripheral

The utility model relates to the field of local area computer networks, in particular, home networks on universal serial buses.

Serial data buses are known for peripheral devices such as a mouse, keyboard, printer, modem, and hard disk 1.

Also known devices for transmitting data between a computer and peripheral devices, made in the form of a universal serial bus, including a cable with signal lines, power buses and connectors at the ends for connection

devices

forming commands that determine the operation of the peripheral device and the controller chip that controls the directions of the streams of transmitted data is different; it must be in the peripheral device 2. These conditions are, by technical essence, closest to the claimed result and are selected as a prototype.

The disadvantages of the known devices for communicating personal computers with peripheral devices are:

- restrictions on the distance of transmission of packets of digital information;

-high complexity due to the complexity of the electrical signal transponders;

-high complexity due to the presence of cable splitter devices. The technical result of this utility model is to increase the distance

communication of a personal computer with peripheral devices.

Another technical result is the simplification of the design and lower cost of data transmission devices made in the form of universal serial buses.

These technical results were achieved in a device for transferring data between a computer and peripheral devices, made in the form of a universal serial bus, including a cable with signal lines, flashing bars and connectors at the ends for connecting peripheral devices to a personal computer, a controller chip that generates commands that determine the operation peripheral device and the controller chip that controls the directions of the streams of transmitted data located in the peripheral device, which additionally contains, but at least two microcircuits - a repeater, the first and second external electrodes connected to the outputs of the controller microcircuits, and the third and fourth external electrodes with a cable, matching the impedances of the cable and the controllers and converting signal levels from the outputs of the controller microcircuits located in a non-personal computer and peripheral device, to ensure their transmission via cable without reflection of signals in it.

The second embodiment of a particular embodiment of the device according to the present utility model is characterized in that each of the mentioned additional transponder circuits contains first and second receivers connected by differential inputs to the first, second, third and fourth external electrodes of the circuits, respectively, and outputs to the inputs of the first and second, respectively transmitter, which differential outputs are connected to the third and fourth external electrodes of the microcircuits, while the microcircuits contain a timer roystvo connected to

a logical unit that generates for transmitters permission signals for transmitting data to the external electrodes of the microcircuit, the inputs of which are connected to the outputs of the receivers, and the outputs to the control inputs of the first and second transmitters.

The third embodiment of a particular embodiment of the device according to the present utility model is characterized in that additional microcircuits are located in the connectors at the ends of the cables.

The fourth embodiment of a specific embodiment of the device according to the present utility model is characterized in that one of the additional microcircuits is located in the personal computer, and the second in the cable connector.

The fifth embodiment of a specific embodiment of the device according to the present utility model is characterized in that one of the additional chips is located in the peripheral device, and the second in the cable connector.

The sixth embodiment of a particular embodiment of the device according to the present utility model is characterized in that the additional microcircuits are made on CMOS type elements.

The present 1st utility model is illustrated in the accompanying drawings.

Figure 1 shows a schematic diagram of a device for transmitting data between a personal computer and a peripheral device according to this 1yulyuzno1 | models.

Figure 2 shows a block diagram of a chip - relay.

A device for transmitting data between a personal computer 1 and peripheral devices 2, according to the present utility model, is made in the form of a universal serial bus, and will include: a cable with signal lines 3 and 4, power buses (not shown in Fig.) And connectors 5 and 6 at the ends for connecting peripheral devices to a personal computer, a controller microcircuit 7 that generates commands that determine the operation of the peripheral device and a controller microcircuit 8 that controls the directions of the transmitted data streams, laid in the peripheral device 2. The device further comprises at least two identical microcircuits 9 and 10, the functional block diagram of which is shown in figure 2. The microcircuits have the first 11 and second 12, the third 13 and fourth 14 external electrodes, the first 11 and second 12 connected to the outputs of the microchips of the controllers 7 and 8, and the third 13 and fourth 14 with the signal lines 3 and 4 of the cable. Chips 9 and 10 convert the signal levels from the outputs of the chips of the controllers 7 and 8, located in the personal computer 1 and peripheral device 2, to ensure their transmission via cable without reflection.

Each additional chip 9 and 10 contains the first and second receivers 15 and 16, connected by differential inputs respectively to the first 11, second 12, third 13 and fourth 14 external electrodes of the microcircuits 9 and 10, and the outputs to the inputs of the first and second transmitter 17 and, respectively 18, which are connected by differential outputs to the third 13 and fourth 14, first 11 and second 12 external electrodes of microcircuits 9 and 10. The microcircuits 9 and 10 contain a timer device 19 connected to a logic unit 20, the inputs of which are connected to the outputs p receivers, and the outputs to the control inputs of the first and second transmitters 17 and 18, generating signals for transmitters to transmit data to the external electrodes 11, 12, 13, 14 of microcircuits 9 and 10.

In a particular embodiment of the device for data transmission, according to the present utility model, additional microcircuits 9 and 10 may be located in connectors 5 and 6 at the ends of the cables.

In the second embodiment, one of the additional microcircuits 9 can be located in the personal computer 1, and the second 10 in the cable connector 6.

In the third embodiment, one of the additional microcircuits 10 can be located; it is located in the peripheral device 2, and the other 9 in the cable connector 5.

In the fourth embodiment, additional microcircuits can be implemented on CMOS type electronic devices.

The device, according to the present utility model, operates as follows.

In standby mode, the outputs of the controller 7 are in the states of logical O and logical 1, respectively. When this state changes, in the transponder chips 9 and 10, the data transfer direction is set from the controller 7 of the personal computer 1 to the controller 8 of the peripheral device 2. The data transfer direction is set by the logical unit 20, which generates a data transmission permission signal for the transmitter 17 to the external electrodes 13 and 14. After that, a digital data packet is transmitted from the outputs 13 and 14 of the microcircuit - relay 9 to the signal lines 3 and 4 of the cable. When the state of the signal lines 3 and 4 changes, the logic device 20 generates a control circuit 10 that activates the transmitter 15. The repeater chip 9 transmits data using pulsed signals of lower amplitude (0.5V) compared to the amplitude of the output signal (Z.ZV) of the controller 1. Since the output impedance of the chip - relay 9 is chosen equal to () Ohm, that is, equal to the input impedance of the cable, the device provides reliable data transmission without reflection of signals in lines 3 and 4. Et o allows you to increase the length of communication lines 3 and

4 in the data transmission device, according to the present utility model, up to 25 and more meters. The decrease in the amplitude of the signal in the chip - data repeater 9, which comes from the output of the controller 7, provides less power consumption and less interference in the device. A packet of digital data from communication lines 3 and 4 is fed to the inputs 13 and 14 of the microcircuit - repeater 10 and through the transmitter 15 is transmitted two bi-directional inputs of the controller 8.

The transmission of data packets from the peripheral device 2 to the personal computer 1 is carried out as described above.

A device for transmitting data, according to this utility model, can be widely used in computer networks, in particular home networks, for connecting a personal computer with various peripheral devices, for example, a video camera, printer, etc.

1. 2. Literature M. Dolle, A Dynamic Line-Termination Circuit for Multireceiver Nets, IEEE Jomnal on SolidState Circuits, vol. 28, NO.12, December 1993, pp 1370-1373 Han Shu, USB Multi-Function Connecting Device, United States Patent 6,058,441, May 2,2000.

Claims (6)

1. A device for transmitting data between a computer and peripheral devices made in the form of a universal serial bus, including a cable with signal lines, power buses and connectors at the ends for connecting peripheral devices to a personal computer, a controller chip that generates commands that determine the operation of the peripheral device and a controller chip that controls the directions of the streams of transmitted data located in the peripheral device, which additionally contains at least two relay circuits, the first and second external electrodes connected to the outputs of the controller microcircuits, and the third and fourth external electrodes with a cable, matching the impedances of the cable and the controllers and converting signal levels from the outputs of the controller microcircuits located in the personal computer and peripheral device, to ensure their transmission by cable without reflection of signals in it. 2. The device for transmitting data according to claim 1, characterized in that each of the mentioned additional relay microcircuits contains first and second receivers connected by differential inputs to the first, second, third and fourth external electrodes of the microcircuits, and outputs, respectively, with the inputs the first and second transmitters, which are connected by differential outputs to the third and fourth external electrodes of the microcircuits, while the microcircuits contain a timer device connected to the logic unit, operating signals for transmitters operating for transmitters on the external electrodes of the microcircuit, the inputs of which are connected to the outputs of the receivers, and the outputs to the control inputs of the first and second transmitters. 3. A device for transmitting data according to claims 1 and 2, characterized in that the additional microcircuits are located in the connectors at the ends of the cables. 4. A device for transmitting data according to claims 1 and 2, characterized in that one of the additional microcircuits is located in a personal computer, and the second in the cable connector. 5. A device for transmitting data according to claims 1 and 2, characterized in that one of the additional microcircuits is located in the peripheral device, and the other in the cable connector. 6. A device for transmitting data according to any one of claims 1 to 5, characterized in that the additional microcircuits are made on CMOS type elements.