Terminal impedance setting circuit for a two-wire to four-wire converting circuit

1. A terminal impedance setting circuit in a two-wire to four-wire converting circuit which accommodates a two-wire trunk line and which is connected to an analog/digital converter which converts back and forth between an analog signal transmitted over said trunk line and a digital signal propagated in an exchange, said terminal impedance setting circuit setting a terminal impedance which matches a characteristic impedance of said trunk line, said terminal impedance setting circuit comprising:

• a DC blocking section connected to said trunk line for blocking a direct current component while passing an alternating current component;
  
  a first amplifier for amplifying an analog output signal of said analog/digital convertr and sending the resulting amplified signal to said trunk line via said DC blocking section;
  
  a second amplifier for receiving and amplifying an input received over said trunk line via said DC blocking section an for delivering the resulting amplified signal to an analog input terminal of said analog/digital converter;
  
  a series-connected resistor connected serially between said first amplifier and said analog output of said analog/digital converter;
  
  a plurality of shunt resistors connected between an input terminal of said first amplifier and an output terminal of said second amplifier and having predetermined resistance values, each of said resistance values being associated with a respective one of a plurality of kinds of characteristic impedances which are presumed with said trunk line, said shunt resistors individually constituting a voltage dividing circuit with said series-connected resistor;
  
  a first semiconductor switch for selecting any of the plurality of kinds of shunt resistors in response to a command for setting a terminal impedance value given externally so as to set up said voltage dividing circuit;
  
  negative feedback circuits each being associated with said first amplifier and with said second amplifier, each of said negative feedback circuits having a plurality of different kinds of ground resistors each of which has a particular resistance value associated with a respective one of the characteristic impedance values of said trunk line; and
  
  at least one second semiconductor switch for selecting a combination of the ground resistors in response to said command which is given externally and for forming a ground resistance value associated with the characteristic impedance of the trunk line;
  
  said first semiconductor switch and said second semiconductor switch being operated, in response to said command given externally, which is representative of any of the plurality of kinds of characteristic impedance of said trunk line so as to produce a terminal impedance matching with the characteristic impedance of said trunk line.