US2013016796A1PendingUtilityA1
Signal modulator and signal modulating method
Est. expiryJul 14, 2031(~5 yrs left)· nominal 20-yr term from priority
H04L 27/2075H04L 27/361
38
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Claims
Abstract
A signal modulator includes: a modulating circuit; a first signal trace block arranged to conduct a first in-phase oscillating signal to the modulating circuit, and conduct a first quadrature-phase oscillating signal to the modulating circuit; and a second signal trace block arranged to conduct a second in-phase oscillating signal to the modulating circuit, and conduct a second quadrature-phase oscillating signal to the modulating circuit, and a phase difference caused by the first signal trace block substantially equals a phase difference caused by the second signal trace block.
Claims
exact text as granted — not AI-modified1 . A signal modulator, comprising:
a modulating circuit, arranged to modulate a wireless communication signal according to a first oscillating signal, a second oscillating signal, a third oscillating signal, and a fourth oscillating signal; a first signal trace block, arranged to conduct a first in-phase oscillating signal having a first phase to the modulating circuit such that the modulating circuit receives the first oscillating signal having a second phase, and conduct a first quadrature-phase oscillating signal having a third phase to the modulating circuit such that the modulating circuit receives the second oscillating signal having a fourth phase; and a second signal trace block, arranged to conduct a second in-phase oscillating signal having a fifth phase to the modulating circuit such that the modulating circuit receives the third oscillating signal having a sixth phase, and conduct a second quadrature-phase oscillating signal having a seventh phase to the modulating circuit such that the modulating circuit receives the fourth oscillating signal having an eighth phase; wherein a phase difference between the first phase and the second phase substantially equals a phase difference between the eighth phase and the seventh phase, and a phase difference between the fourth phase and the third phase substantially equals a phase difference between the sixth phase and the fifth phase.
2 . The signal modulator of claim 1 , wherein a phase of the first in-phase oscillating signal is the same as a phase of the second in-phase oscillating signal, and a phase of the first quadrature-phase oscillating signal is the same as a phase of the second quadrature-phase oscillating signal.
3 . The signal modulator of claim 1 , wherein the first signal trace block comprises:
a first conducting circuit, arranged to conduct the first in-phase oscillating signal to the modulating circuit; and a second conducting circuit, arranged to conduct the first quadrature-phase oscillating signal to the modulating circuit; and the second signal trace block comprises: a third conducting circuit, arranged to conduct the second in-phase oscillating signal to the modulating circuit; and a fourth conducting circuit, arranged to conduct the second quadrature-phase oscillating signal to the modulating circuit; wherein one of the first conducting circuit and the second conducting circuit and one of the third conducting circuit and the fourth conducting circuit are symmetric to each other.
4 . The signal modulator of claim 3 , wherein the first conducting circuit and the fourth conducting circuit are bilaterally symmetric to each other, and the second conducting circuit and the third conducting circuit are bilaterally symmetric to each other.
5 . The signal modulator of claim 1 , wherein the first in-phase oscillating signal, the first quadrature-phase oscillating signal, the second in-phase oscillating signal, the second quadrature-phase oscillating signal are differential oscillating signals each comprising a positive oscillating signal and a negative oscillating signal; the first signal trace block comprises:
a first conducting circuit, comprising a first conducting trace and a second conducting trace arranged to conduct the positive oscillating signal and the negative oscillating signal of the first in-phase oscillating signal to the modulating circuit, respectively; a second conducting circuit, comprising a third conducting trace and a fourth conducting trace arranged to conduct the negative oscillating signal and the positive oscillating signal of the first quadrature-phase oscillating signal to the modulating circuit, respectively; the second signal trace block comprises: a third conducting circuit, comprising a fifth conducting trace and a sixth conducting trace arranged to conduct the positive oscillating signal and the negative oscillating signal of the second in-phase oscillating signal to the modulating circuit, respectively; a fourth conducting circuit, comprising a seventh conducting trace and an eighth conducting trace arranged to conduct the negative oscillating signal and the positive oscillating signal of the second quadrature-phase oscillating signal to the modulating circuit, respectively; wherein one of the conducting traces of the first signal trace block and one of the conducting traces of the second signal trace block are symmetric to each other.
6 . The signal modulator of claim 5 , wherein the first conducting trace and the eighth conducting trace are bilaterally symmetric to each other, the second conducting trace and the seventh conducting trace are bilaterally symmetric to each other, the third conducting trace and the sixth conducting trace are bilaterally symmetric to each other, and the fourth conducting trace and the fifth conducting trace are bilaterally symmetric to each other.
7 . The signal modulator of claim 5 , wherein the first conducting trace and the eighth conducting trace are equal in length, the second conducting trace and the seventh conducting trace are equal in length, the third conducting trace and the sixth conducting trace are equal in length, and the fourth conducting trace and the fifth conducting trace are equal in length.
8 . The signal modulator of claim 1 , wherein a first order of coupling the first in-phase oscillating signal and the first quadrature-phase oscillating signal to the first signal trace block is the same as a second order of coupling the second in-phase oscillating signal and the second quadrature-phase oscillating signal to the second signal trace block.
9 . The signal modulator of claim 1 , wherein an effective phase difference between the first oscillating signal and the second oscillating signal is larger than a specific phase difference by a phase value, and the effective phase difference between the third oscillating signal and the fourth oscillating signal is smaller than the specific phase difference by the phase value.
10 . The signal modulator of claim 1 , wherein the signal modulator is a part of a receiver arranged to receive the wireless communication signal being a radio frequency signal or a part of a transmitter arranged to transmit the wireless communication signal according to the first oscillating signal, the second oscillating signal, the third oscillating signal, and the fourth oscillating signal.
11 . A signal modulating method, comprising:
utilizing a modulating circuit to modulate a wireless communication signal according to a first oscillating signal, a second oscillating signal, a third oscillating signal, and a fourth oscillating signal; utilizing a first signal trace block to conduct a first in-phase oscillating signal having a first phase to the modulating circuit such that the modulating circuit receives the first oscillating signal having a second phase, and to conduct a first quadrature-phase oscillating signal having a third phase to the modulating circuit such that the modulating circuit receives the second oscillating signal having a fourth phase; and utilizing a second signal trace block to conduct a second in-phase oscillating signal having a fifth phase to the modulating circuit such that the modulating circuit receives the third oscillating signal having a sixth phase, and to conduct a second quadrature-phase oscillating signal having a seventh phase to the modulating circuit such that the modulating circuit receives the fourth oscillating signal having an eighth phase; wherein a phase difference between the first phase and the second phase substantially equals a phase difference between the eighth phase and the seventh phase, and a phase difference between the fourth phase and the third phase substantially equals a phase difference between the sixth phase and the fifth phase.
12 . The signal modulating method of claim 11 , wherein a phase of the first in-phase oscillating signal is the same as a phase of the second in-phase oscillating signal, and a phase of the first quadrature-phase oscillating signal is the same as a phase of the second quadrature-phase oscillating signal.
13 . The signal modulating method of claim 11 , wherein the step of utilizing the first signal trace block to conduct the first in-phase oscillating signal having the first phase to the modulating circuit such that the modulating circuit receives the first oscillating signal having the second phase, and to conduct the first quadrature-phase oscillating signal having the third phase to the modulating circuit such that the modulating circuit receives the second oscillating signal having the fourth phase comprises:
utilizing a first conducting circuit to conduct the first in-phase oscillating signal to the modulating circuit; and utilizing a second conducting circuit to conduct the first quadrature-phase oscillating signal to the modulating circuit; and the step of utilizing the second signal trace block to conduct the second in-phase oscillating signal having the fifth phase to the modulating circuit such that the modulating circuit receives the third oscillating signal having the sixth phase, and to conduct the second quadrature-phase oscillating signal having the seventh phase to the modulating circuit such that the modulating circuit receives the fourth oscillating signal having the eighth phase comprises: utilizing a third conducting circuit to conduct the second in-phase oscillating signal to the modulating circuit; and utilizing a fourth conducting circuit to conduct the second quadrature-phase oscillating signal to the modulating circuit; wherein one of the first conducting circuit and the second conducting circuit and one of the third conducting circuit and the fourth conducting circuit are symmetric to each other.
14 . The signal modulating method of claim 13 , wherein the first conducting circuit and the fourth conducting circuit are bilaterally symmetric to each other, and the second conducting circuit and the third conducting circuit are bilaterally symmetric to each other.
15 . The signal modulating method of claim 11 , wherein the first in-phase oscillating signal, the first quadrature-phase oscillating signal, the second in-phase oscillating signal, the second quadrature-phase oscillating signal are differential oscillating signals each comprising a positive oscillating signal and a negative oscillating signal; the step of utilizing the first signal trace block to conduct the first in-phase oscillating signal having the first phase to the modulating circuit such that the modulating circuit receives the first oscillating signal having the second phase, and to conduct the first quadrature-phase oscillating signal having the third phase to the modulating circuit such that the modulating circuit receives the second oscillating signal having the fourth phase comprises:
utilizing a first conducting circuit comprising a first conducting trace and a second conducting trace to conduct the positive oscillating signal and the negative oscillating signal of the first in-phase oscillating signal to the modulating circuit, respectively; utilizing a second conducting circuit comprising a third conducting trace and a fourth conducting trace to conduct the negative oscillating signal and the positive oscillating signal of the first quadrature-phase oscillating signal to the modulating circuit, respectively; the step of utilizing the second signal trace block to conduct the second in-phase oscillating signal having the fifth phase to the modulating circuit such that the modulating circuit receives the third oscillating signal having the sixth phase, and to conduct the second quadrature-phase oscillating signal having the seventh phase to the modulating circuit such that the modulating circuit receives the fourth oscillating signal having the eighth phase comprises: utilizing a third conducting circuit comprising a fifth conducting trace and a sixth conducting trace to conduct the positive oscillating signal and the negative oscillating signal of the second in-phase oscillating signal to the modulating circuit, respectively; utilizing a fourth conducting circuit comprising a seventh conducting trace and an eighth conducting trace to conduct the negative oscillating signal and the positive oscillating signal of the second quadrature-phase oscillating signal to the modulating circuit, respectively; wherein one of the conducting traces of the first signal trace block and one of the conducting traces of the second signal trace block are symmetric to each other.
16 . The signal modulating method of claim 15 , wherein the first conducting trace and the eighth conducting trace are bilaterally symmetric to each other, the second conducting trace and the seventh conducting trace are bilaterally symmetric to each other, the third conducting trace and the sixth conducting trace are bilaterally symmetric to each other, and the fourth conducting trace and the fifth conducting trace are bilaterally symmetric to each other.
17 . The signal modulating method of claim 15 , wherein the first conducting trace and the eighth conducting trace are equal in length, the second conducting trace and the seventh conducting trace are equal in length, the third conducting trace and the sixth conducting trace are equal in length, and the fourth conducting trace and the fifth conducting trace are equal in length.
18 . The signal modulating method of claim 11 , wherein a first order of coupling the first in-phase oscillating signal and the first quadrature-phase oscillating signal to the first signal trace block is the same as a second order of coupling the second in-phase oscillating signal and the second quadrature-phase oscillating signal to the second signal trace block.
19 . The signal modulator of claim 11 , wherein an effective phase difference between the first oscillating signal and the second oscillating signal is larger than a specific phase difference by a phase value, and the effective phase difference between the third oscillating signal and the fourth oscillating signal is smaller than the specific phase difference by the phase value.Join the waitlist — get patent alerts
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