Patent ID: 7480313
Filing Date: 2009-01-20
Classification: H04J

Abstract:
1. An SDH add-drop multiplexer for adding, dropping, or passing through a signal of any channel with respect to an SDH signal in which signals of a plurality of channels are multiplexed; said SDH add-drop multiplexer comprising: a first SDH interface circuit for extracting a clock signal from an SDH signal that is received as input from a first SDH signal input terminal, converting the coding format of said SDH signal, and supplying as output the converted signal together with said extracted clock signal; a first SDH demapping circuit for receiving as input the data signal and clock signal that are supplied from said first SDH interface circuit and demultiplexing signals of a plurality of channels that are multiplexed in the data signal; a first SDH mapping circuit for receiving a clock signal and a digital signal of a plurality of channels, mapping the received digital signal based on a mapping method that has been prescribed in advance, and supplying the mapped digital signal together with said clock signal that was received as input; a second SDH interface circuit for converting the data signal and clock signal that are supplied from said first SDH mapping circuit to an SDH signal of a prescribed interface format and supplying the converted signals as output from a first SDH signal output terminal; a first signal multiplexer for multiplexing a data signal of a plurality of channels that has been received and supplying the result as output; a first transmission digital processing unit for subjecting a multiplexed digital signal that is supplied as output from said first signal multiplexer to a digital process that corresponds to the modulation method performed during modulation; a first modulator for modulating a digital signal that is received as input from said first transmission digital processing unit and supplying the modulated signal that is obtained from a first modulated signal output terminal; a first demodulator for demodulating the modulated signal that is received as input from a first modulated signal input terminal to convert the modulated signal to a digital signal; a first reception digital processing unit for receiving a digital signal that has been demodulated by said first demodulator and performing a digital process that corresponds to the digital process performed in said first transmission digital processing unit; a first signal demultiplexer for demultiplexing the data signal that is supplied from the first reception digital processing unit into a digital signal of a plurality of channels and supplying the result as output; a first signal switch for receiving as input a digital signal of a plurality of channels from said first SDH demapping circuit and a digital signal of a plurality of channels from said first signal demultiplexer and, based on predetermined settings, selecting a signal that is received from either path for each channel and supplying the result as output; a first signal branch circuit for receiving as input a digital signal of a plurality of channels and a clock signal, branching only the signal of a channel that has been set in advance, supplying the result to said first signal multiplexer, and supplying the signal of other channels to said first SDH mapping circuit; a third SDH interface circuit for extracting a clock signal from an SDH signal that is received from a second SDH signal input terminal, converting the coding format of said SDH signal, and supplying as output the converted SDH signal together with said extracted clock signal; a second SDH demapping circuit for receiving as input the clock signal and data signal that are supplied from said third SDH interface circuit and demultiplexing signals of a plurality of channels that are multiplexed in the data signal; a second SDH mapping circuit for receiving a digital signal of a plurality of channels and a clock signal, mapping the received digital signal based on a mapping method that has been prescribed in advance, and supplying the mapped digital signal together with said received clock signal; a fourth SDH interface circuit for converting a data signal and a clock signal that are supplied as input from said second SDH mapping circuit to an SDH signal of a prescribed interface format and supplying the result from a second SDH signal output terminal; a second signal multiplexer for multiplexing and supplying a data signal of a plurality of channels that has been received as input; a second transmission digital processing unit for subjecting a multiplexed digital signal that is supplied from said second signal multiplexer to a digital process that corresponds to the modulation method used during modulation; a second modulator for modulating a digital signal that is received from said second transmission digital processing unit and supplying the obtained modulated signal as output from a second modulated signal output terminal; a second demodulator for demodulating a modulated signal that is received from a second modulated signal input terminal to convert the modulated signal to a digital signal; a second reception digital processing unit for receiving the digital signal that has been demodulated by said second demodulator and performing a digital process that corresponds to the digital process that was performed in said second transmission digital processing unit; a second signal demultiplexer for demultiplexing the data signal that is supplied from said second reception digital processing unit into a digital signal of a plurality of channels and supplying the result as output; a second signal switch for receiving as input the digital signal of a plurality of channels from said second SDH demapping circuit and the digital signal of a plurality of channels from said second signal demultiplexer, and, based on settings that have been determined in advance, selecting and supplying a signal that is received from either path for each channel; a second signal branch circuit for receiving a digital signal of a plurality of channels and a clock signal, branching only the signal of a channel that has been set in advance and supplying this branched signal to said second signal multiplexer, and supplying the signal of the other channels to said second SDH mapping circuit; a first PDH interface circuit for extracting a clock signal from a PDH baseband signal that is received from a PDH baseband signal input terminal, converting said PDH baseband signal that has been received to a digital signal of a format that has been set in advance, and supplying as output the converted digital signal together with said extracted clock signal; a second PDH interface circuit for converting a digital signal that has been received as input to a signal of a coding format that has been set in advance and supplying the converted signal from a PDH baseband signal output terminal; and a cross-connect circuit for branching a signal of a specific channel among a signal of a plurality of channels that have been received as input from said first and second signal switches and supplying the branched signal to said second PDH interface circuit; and inserting a signal that is received as input from said first PDH interface circuit to the signal of other channels and supplying the result to each of said first and second signal branch circuits.