Patent ID: 7511557
Filing Date: 2009-03-31
Classification: H03B,H03D

Abstract:
1. An RF communication semiconductor integrated circuit which includes a Gilbert-cell-type quadrature mixer circuit comprising: a first differential circuit which receives an RF receive signal voltage or an IF receive signal voltage converted from the RF receive signal voltage to convert it to first and second RF receive signal currents different in phase by 180 degrees or first and second IF receive signal currents different in phase by 180 degrees; a second differential circuit which receives an RF receive signal voltage or an IF receive signal voltage converted from the RF receive signal voltage to convert it to third and fourth RE receive signal currents different in phase by 180 degrees or third and fourth IF receive signal currents different in phase by 180 degrees; a local signal oscillator; a 90-degree phase-shift circuit which outputs a local signal of said local signal oscillator with a phase advanced or delayed by 90 degrees; a third differential circuit which has a first current input terminal receiving a current input, receives the local signal of said local signal oscillator to switch the current inputted to said first current input terminal at a timing of said local signal oscillator, and converts the current to first and second I output signal currents different in phase by 180 degrees; a fourth differential circuit which has a second current input terminal receiving a current input, receives the local signal of said local signal oscillator to switch the current inputted to said second current input terminal at a timing different in phase by 180 degrees from said local signal oscillator, and converts the current to third and fourth I output signal currents different in phase by 180 degrees; a fifth differential circuit which has a third current input terminal receiving a current input, receives the local signal which is the output of said 90-degree phase-shift circuit to switch the current inputted to said third current input terminal at a timing of the local signal which is the output of said 90-degree phase-shift circuit, and converts the current to first and second Q output signal currents different in phase by 180 degrees; a sixth differential circuit which has a fourth current input terminal receiving a current input, receives the local signal which is the output of said 90-degree phase-shift circuit to switch the current inputted to said fourth current input terminal at a timing different in phase by 180 degrees from the local signal which is the output of said 90-degree phase-shift circuit, and converts the current to third and fourth Q output signal currents different in phase by 180 degrees; a first I signal current adding and coupling unit which adds and couples said first I output signal current and said third I output signal current to output a fifth I signal current; a second I signal current adding and coupling unit which adds and couples said second I output signal current and said fourth I output signal current to output a sixth I signal current; a first Q signal current adding and coupling unit which adds and couples said first Q output signal current and said third Q output signal current to output a fifth Q signal current; and a second Q signal current adding and coupling unit which adds and couples said second Q output signal current and said fourth Q output signal current to output a sixth Q signal current, wherein the first RF receive signal current or the first IF receive signal current of said first differential circuit is coupled to said first current input terminal via a first voltage drop element, the third RF receive signal current or the third IF receive signal current of said second differential circuit is coupled to said third current input terminal via a second voltage drop element, and the first RF receive signal current or the first IF receive signal current is added and coupled to the third RF receive signal current or the third IF receive signal current through the first voltage drop element and a first capacitor, the second RF receive signal current or the second IF receive signal current of said first differential circuit is coupled to said second current input terminal via a third voltage drop element, and the fourth RF receive signal current or the fourth IF receive signal current of said second differential circuit is coupled to said fourth current input terminal via a fourth voltage drop element, and the second RF receive signal current or the second IF receive signal current is added and coupled to the fourth RF receive signal current or the fourth IF receive signal current through the third voltage drop element and a second capacitor.