RU2001102787A - ADVANCED SERIAL TIRE PROTOCOL BETWEEN BETWEEN DEVICES - Google Patents

Claims (17)

1. The control channel between devices, containing a serial bus containing a wire "synchronization", a wire "data" and a wire "start / stop", the main interface of the serial bus connecting the main device to the serial bus, the slave interface of the serial bus connecting the slave to serial bus, and the main interface of the serial bus contains (a) a transaction initiator for initiating a transaction by performing a start indication in the start / stop wire, (b) an existing data recording mechanism for controlling the signal level in the “data” wire in accordance with the data to be written to the slave device, (c) the main data reading mechanism for reading data by monitoring the signal level in the “data” wire, and (d) the driver clock pulses to control the level of the signal in the wire "synchronization" in accordance with the desired synchronization signal, and the slave interface of the serial bus contains (e) slave data recording mechanism for controlling setting the signal level in the “data” wire in accordance with the data from the slave device, which must be written from the slave device to another device, (f) the slave data recording mechanism for reading data by monitoring the signal level in the “data” wire, and (g) an internal synchronization mechanism for synchronizing control of the signal level in the "data" wire in accordance with a synchronization signal that the slave serial bus interface receives from the main serial bus interface.  2. The control channel between devices according to claim 1, characterized in that the transaction initiator contains a mechanism for translating the signal level in the start / stop wire to a low state.  3. The control channel between devices according to claim 1, characterized in that the main data recording mechanism comprises a mechanism for controlling the signal level in the “data” wire in accordance with data including payload data and service data, and service data includes yourself slave addressing information.  4. The control channel between devices according to claim 3, characterized in that the addressing information of the slave device further defines a register in the slave device.  5. The control channel between devices according to claim 1, characterized in that the required synchronization signal is used jointly by the master device and the slave device to ensure synchronous operation of the master device and the slave device.  6. The control channel between devices according to claim 1, characterized in that it further comprises a load circuit connected to the data cable and the synchronization wire, the main data recording mechanism includes a data recording signal shaper that shows the logical data in the data wire "zero" by switching to a low voltage level in the wire "data" and shows in the wire "data" logical "unit" using the three states of the data recording driver, thus providing the possibility of the load circuit installed inject a high voltage level in the “data” wire, and the synchronization pulse generator contains a synchronization signal generator, which shows a logical “zero” in the “synchronization” wire by switching to a low voltage level in the “synchronization” wire and shows a logical “unit” using three states of the shaper of the synchronization signal, thus enabling the load circuit to establish a high voltage level in the "synchronization" wire.  7. The control channel between devices according to claim 1, characterized in that it contains at least one additional master device, the additional master device and the slave device competing in the use of the bus, while the additional master device contains (a) a transaction initiator for initiating a transaction by performing a start indication in the start / stop wire, (b) a main data recording mechanism for controlling the signal level in the data wire in accordance with the data to be recorded be in the slave device, (c) the main data reading mechanism for reading data by monitoring the signal level in the "data" wire, and (d) the synchronization pulse generator for controlling the signal level in the "synchronization" wire in accordance with the required synchronization signal, each of the aforementioned main device and an additional main device contains a data wire monitor for monitoring the signal level in the "data" wire and for prohibiting the operation of the main device or additional main devices in the case when the monitored signal level does not agree with the specified signal level, while the data recording mechanism of each of the aforementioned main devices and additional main devices contains a slave addressing mechanism for introducing a sequence of ones and zeros in front of the transmitted address of the slave device in accordance with the priority of the transaction .  8. The control channel between devices according to claim 7, characterized in that the transaction initiator of the main interface of the serial bus of the main device and the transaction initiator of the main interface of the serial bus of the additional main device contains a mechanism for providing an indication of the beginning in the start / stop wire by transferring the signal to start / stop wire to low state.  9. The control channel between devices according to claim 7, characterized in that the main data recording mechanism of the main serial bus interface of each of the main device and the additional main device contains a mechanism for recording data, including payload data and service data, and service data the data includes slave addressing information and determines a register in the slave.  10. The control channel between devices according to claim 7, characterized in that the required synchronization signal of the synchronizing pulse generator of the main interface of the serial bus of each of the said main device and the additional main device contains a signal that is shared between the main device or the additional main device and the slave device for ensure synchronous operation of the master device or additional master device and slave device.  11. The control channel between devices according to claim 7, characterized in that the sequence of ones and zeros contains at least two zeros for transactions that include broadcasting to all slave devices connected to the bus.  12. A communication method between devices, each of which is connected to a serial bus, the device comprising a first type master device, a first type slave device, a second type master device and a second type slave device, while the first and second type master and slave devices use the first serial protocol buses, the master and slave devices of the second type, use the second serial bus protocol, while the serial bus contains a set of bus wires, including a data wire and a synchronization wire, the method comprising the steps of: (a) a host device of the first type initiating a transaction, providing an indication of the start in the specified bus wire, which is used to transmit indications of start and stop of transactions, (b) the host device the first type controls the signal level in the wire "data" of the bus in accordance with the data that must be transmitted to the slave device of the first type, the data including payload data and service data, including the addressing information of the slave device of the first type, (c) control the signal level in the synchronization wire in accordance with the desired synchronization signal, the required synchronization signal being used jointly by the master and the slave of the first type to ensure synchronous operation of the master and slave devices, (d) the main device of the first type completes the transaction, providing a stop indication in the indicated bus wire and supports a stop indication, while the main The device of the first type prohibits the control of the signal of the data bus in the wire of the first type using the main device of the first type and prohibits the signal level of the synchronization bus of the device of the first type while the stop indication is provided and supported by the main device, (e) the slave device of the first type refrains from working for the period while the stop indication is provided and maintained by the master of the first type, (f) the master of the second type in initiates a transaction, providing an indication of the beginning of the “data” wire, (g) the second type of device controls the signal level in the “data” wire in accordance with the data intended for transmission to the second type of slave, the data including payload data and service data, including the addressing information of the slave device of the second type, (h) the master device of the second type controls the signal level in the wire "synchronization" in accordance with the desired synchronization signal, and the required synchronization signal is used jointly by the master and slave to ensure synchronous operation of the master and slave, (i) the master of the second type completes the transaction, providing a stop indication on the wire “data”, (j) the master of the second type prohibits the transaction between the master a device of the second type and a slave device of the second type. 13. The method according to p. 12, characterized in that the second serial bus protocol is an I ² C bus protocol.  14. The method according to p. 12, characterized in that said bus wire is a bus wire, separate and different from the data and synchronization wires.  15. The method according to p. 12, characterized in that the main device of the first type supports the indication "stop" regardless of the presence of any indications in the wires "data" or "synchronization".  16. The method according to p. 12, characterized in that the main device of the first type provides an indication of "stop" in the specified wire of the bus if a threshold is reached showing the duration of the transaction between the main and auxiliary devices of the first type.  17. The method according to p. 16, characterized in that the threshold is the amount of data transmitted in the transaction.