The present invention relates to a mixer; more particularly, relates to a mixer having a good circuit gain a good broadband operation, a low voltage and a low power consumption.
Following improvements in semiconductor technologies, related physical components become faster and consume littler power. And thus minimized integrated chip can be designed. A low power consumption is a very important requirement in a wireless communication system, which not only prolongs a battery life time but also reduces a weight of a transceiver module for wider and easier applications.
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Regarding the operational voltage and the power consumption, the Gilbert-cell mixer 7 has a circuit with a high voltage gain and a broadband operation but it does not operated with a low voltage and a low power consumption. Hence, the prior art does not fulfill all users' requests on actual use.
The main purpose of the present invention is to provide a mixer having a good circuit gain, a good broadband operation, a low voltage and a low power consumption to effectively reduce a required power consumption.
Another purpose of the present invention is to realize the mixer with a low-cost commercial CMOS transistor.
To achieve the above purposes, the present invention is a broadband cascode mixer, comprising an LO-injection switching stage, an RF transconductance stage, an output active load and an output buffer, where the LO-injection switching stage is injected with alternating LO signals from bodies of transistors to switch opening and closing of the transistors with threshold voltages of the transistors; the RF transconductance stage amplifies RF signals of voltage inputted and transforms the RF signals of voltage into signals of current; the output active load has an effective impedance, changes resistance with bias voltage, and transforms the signals of current into voltage signals having intermediate frequencies; the output buffer receives the voltage signals having intermediate frequencies generated after operations of circuits of the output active load at outputs of the RF transconductance stage; and all of the voltage signals having intermediate frequencies obtained by amplifying down-converted signals are outputted at one time after impedance matching. Accordingly, a novel broadband cascode mixer is obtained.
The present invention will be better understood from the following detailed description of the preferred embodiment according to the present invention, taken in con junction with the accompanying drawings, in which
The following description of the preferred embodiment is provided to understand the features and the structures of the present invention.
Please refer to
The LO-injection switching stage 11 has a plurality of transistors 111, where the LO-injection switching stage 11 has a bias voltage smaller than a threshold voltage of the transistor of the LO-injection switching stage; and bodies 1111 of the transistors are injected with alternating LO signals to switch opening and closing of the transistors with the threshold voltages of the transistors. The RF transconductance stage 12 amplifies RF signals of voltage inputted and transforms the RF signals of voltage into signals of current. The output active load 13 has an effective impedance; the output active load 13 changes resistance with bias voltage; and, the output active load 13 transforms the signals of current into voltage signals having intermediate frequencies. The output buffer 14 receives the voltage signals having intermediate frequencies gene rated after operations of circuits of the output active load 13 at outputs of the RF transconductance stage 12; and all of the voltage signals having intermediate frequencies obtained by amplifying down-converted signals or up-converted signals are outputted at one time after impedance matching. Therein, both the LO-injection switching stage 11 and the RF transconductance stage 12 comprise a p-channel metal oxide semiconductor (pMOS) transistor and an n-channel metal oxide semiconductor (nMOS) transistor. The output active load 13 is a resistor, an inductor or a transistor; and the transistor is a metal oxide semiconductor (MOS) transistor. The output buffer has a common-gate (C G configuration, a common-source (CS) configuration or a common-drain (CD) configuration. The mixer comprises a single-end circuit, a single-balance circuit or a double-balance circuit. The broadband cascode mixer 1 outputs the down-converted signals or the up-converted signals, where the down-converted signal is obtained from a frequency difference between an RF signal and an LO signal and the up-converted signal is obtained from a sum of frequencies of an RF signal and an LO signal. With the above structure, a novel broadband cascode mixer is obtained.
Please refer to
A second transistor 22 of an RF transconductance stage has a bias voltage in a saturation region to obtain a good transconductance and further amplifies an RF signal inputted. At last, a third transistor 23 of an output active load is a pMOS transistor. The third transistor 23 has a bias voltage in a saturation region to obtain a big output resistance and further in creases a circuit gain of the present invention. Thus, best characteristics are obtained when the first transistor 21 is operated in a linear region, the second transistor 22 the saturation region and the third transistor 23 the saturation region.
In addition, the second transistor 22 of the RF transconductance stage is stacked on the first transistor 21 of the LO-injection switching stage 11 to reduce voltage drop in every stage for operating the present invention at around 0.7 volts. Hence, the present invention has a low power consumption and a low voltage on operation.
Please refer to
Please refer to
Consequently, the broadband cascode mixer according to the present invention has a low voltage, a low power consumption, high RF-LO and LO-RF isolations, and a 3-dB broadband operation for RF frequency inputs, which is fit for inner circuits of a receiver module with a reduced power consumption. Besides, a circuit of the present invention can be realized as a commercial complementary metal-oxide-semiconductor (CMOS) transistor with an operational frequency ranging from several MHz to several GHz. Under such an operational frequency, the present invention is a stable circuit with a low voltage and a low power consumption.
To sum up, the present invention is a broadband cascode mixer, which is good at circuit gain and broadband operation with a low voltage and a low power consumption to be applied in circuits of a receiver module.
The preferred embodiment herein disclosed is not intended to unnecessarily limit the scope of the invention. Therefore, simple modifications or variations belonging to the equivalent of the scope of the claims and the instructions disclosed herein for a patent are all within the scope of the present invention.
Number | Date | Country | Kind |
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096128330 | Aug 2007 | TW | national |