RU97106816A - SEQUENTLY CONNECTED INTERCONNECTION FOR SUMMING MANY SIGNALS ON THE GENERAL CHANNEL - Google Patents

Claims (19)

1. A device for use in a spread spectrum communication system for generating a signal for subsequent radio transmission throughout the system, comprising a first row of processed data, a first modulation block for generating a second row of processed data in response to a first row of input data, a first adder for generating a third a series of processed data by summing the specified first row of processed data with the specified second row of processed data, a second modulation block to generate a fourth row of processed data in response to a second row of input data, a second adder for generating a fifth row of total output by summing said third row of total output with a specified fourth row of processed data, a controller for controlling said first adder and said second adder, and a transmitter for generating broadcast signals in response to the specified second row of total output.  2. The device according to claim 1, characterized in that the spread spectrum communication system comprises a code division multiple access system, and the modulation unit includes a PN sequence processor and a Walsh chip processor.  3. The device according to claim 1, characterized in that the first and said second modulation units and said first and said second adders are made on the same chip with an integrated circuit.  4. The device according to claim 1, characterized in that the input data includes parity data.  5. The device according to claim 4, characterized in that the first and second adders include a parity block that adds parity data to the local data, and also includes a counter that determines the presence of a parity error in the input data.  6. The device according to claim 5, characterized in that the first adder does not add input to the specified first row of processed local data if there is a parity error in the input data.  7. The device according to claim 6, characterized in that the first adder sets the input data to zero if the specified number of consecutive data inputs was not free from a parity error.  8. The device according to claim 4, characterized in that the first adder receives a control signal that determines the operation of the adder in the bypass mode, local mode or normal mode, so that in the bypass mode the adder delays the input data by two synchronizing data and then outputs the output data, in local mode, the first adder does not add input to local data, and in normal mode, the adder adds input to local data and returns the sum as output.  9. The device according to claim 8, characterized in that the first adder performs a parity check in the input data and rejects the input data if the specified number of consecutive data inputs was not free from a parity error.  10. A modem for a spread spectrum communication system, configured to modulate a signal of a mobile device containing a plurality of ringing signals with a conversion function to obtain an encoded signal, and to demodulate the encoded signal received by at least one receiving antenna of the communication system, comprising a demodulator, which processes a sample of the received signal, a modulator comprising a modulation unit that receives external input from another modulator, an adder, otorrhea sums the external input data from another modulator with the local data, and generates a total output data and an output unit which receives the total output, and a controller that controls the demodulator and modulator to carry out appropriate signal processing.  11. The modem of claim 10, characterized in that there is provided a system with an extended spectrum of multiple access with code division multiplexing, and the modulation unit includes a PN sequence processor and a Walsh chip processor.  12. The modem according to claim 10, characterized in that the modulator and adder are made in one chip with an integrated circuit.  13. The modem of claim 10, wherein the input data includes parity data, and the adder includes a parity block that adds parity data to local data, and also includes a counter that determines the presence of a parity error in the input data.  14. The modem according to item 13, wherein the adder receives a control signal that determines the operation of the adder in the bypass mode, local mode or normal mode, so that in the bypass mode the adder places the input data in the output unit, in the local mode the adder does not add data at the input block to the input data and in normal mode, the adder performs a parity check in the data in the input block and disconnects the data if the specified number of consecutive inputs of input data was not free from parity error And otherwise adds the input data to the local data and provides it to the output unit.  15. A method of summing channel data from multiple subscribers in a spread spectrum communication system, comprising the steps of: receiving information words from a first subscriber of a communication system and processing data to generate a first row of processed data, receiving a second row of processed data from a second subscriber, summing said first row processing data with the specified second row of data processing to obtain the total output data, and supplying the total output data to the output unit.  16. The method according to clause 15, wherein the operation of receiving input data includes generating parity information, which is provided with the input data.  17. The method according to p. 16, characterized in that the operation of supplying the total output data to the output unit includes determining the presence of parity errors in the input data, rejecting the input data if there is a parity error in them.  18. The method according to 17, characterized in that the data rejection operation includes setting the input data to zero if the specified number of input data values is not free from a parity error.  19. The method according to clause 16, wherein the operation of receiving and processing data further comprises the operation of applying to the data a pseudo-noise sequence and Walsh encoding function.