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Principal and subordinate structure frequency calibration circuit used for Gm-C filter

A technology of structural frequency and calibration circuit, applied in the direction of electrical components, differential amplifiers, power automatic control, etc., can solve the problems of voltage-controlled oscillator limit stability, large power consumption, and difficulty in achieving high precision, and achieve stability High, simple circuit structure effect

Inactive Publication Date: 2014-07-02
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, several modules of this calibration circuit need to consume a lot of power consumption, and at the same time, the voltage-controlled oscillator still has limitations and stability problems.
[0004] The master-slave control idea of ​​the transconductance amplifier first appeared in the variable gain amplifier. To achieve high-precision gain adjustment, the variable gain amplifier requires high accuracy of the transconductance value of the transconductance amplifier. The transconductance of the transconductance amplifier The value is usually related to multiple device parameters, and it is also a simple linear correlation, so it is difficult to achieve high precision by direct regulation

Method used

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  • Principal and subordinate structure frequency calibration circuit used for Gm-C filter
  • Principal and subordinate structure frequency calibration circuit used for Gm-C filter
  • Principal and subordinate structure frequency calibration circuit used for Gm-C filter

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Embodiment Construction

[0038] Below in conjunction with accompanying drawing and specific embodiment the present invention is described in further detail:

[0039] see figure 1 Shown, the master-slave structure frequency calibration circuit for the Gm-C filter of the present invention includes a transconductance amplifier master-slave control circuit,

[0040] The transconductance amplifier master-slave control circuit includes a first P-type MOSFET PM1, a second P-type MOSFET PM2, a third P-type MOSFET PM3, and a fourth P-type MOSFET. The object field effect transistor PM4, the fifth P-type metal oxide field effect transistor PM5, the sixth P-type metal oxide field effect transistor PM6, the seventh P-type metal oxide field effect transistor PM7, the eighth P-type metal oxide field effect transistor Effect tube PM8, ninth P-type MOSFET PM9, tenth P-type MOSFET PM10, eleventh P-type MOSFET PM11, twelfth P-type MOSFET Effect tube PM12, first N-type MOSFET NM1, second N-type MOSFET NM2, third N-typ...

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Abstract

The invention discloses a principal and subordinate structure frequency calibration circuit used for a Gm-C filter. The principal and subordinate structure frequency calibration circuit used for the Gm-C filter comprises a transconductance amplifier principal and subordinate structure control circuit, an RC oscillating circuit and a digital logic circuit, wherein a principal transconductance amplifier in the principal and subordinate structure control circuit and a subordinate transconductance amplifier inside the Gm-C filter are matched and are controlled through the same bias voltage, so that the transconductance value Gm and the resistance R in the principal and subordinate structure control circuit are in accurate inverse relation; influence on the frequency by errors of the transconductance amplifier process is converted to be influence on the frequency by the errors of the resistance process. Compared with a traditional frequency calibration circuit for the Gm-C filter, the principal and subordinate structure frequency calibration circuit used for the Gm-C filter has the advantages of being simple in structure and good in robustness.

Description

technical field [0001] The invention relates to a master-slave structure frequency calibration circuit for Gm-C filter. Background technique [0002] The calibration circuit is an essential module in the integrated filter circuit. With the development of semiconductor integrated circuits, analog and digital single chips are becoming more and more mainstream. Low-IF filters, as key circuits for radio frequency transceivers and sensor interfaces, are often selected to be integrated on chips to reduce system size and cost. and improve system performance. However, due to process factors such as manufacturing tolerances, process changes, and device aging, the frequency characteristics of the filter will change greatly. For example, a process deviation of 20% in resistors and capacitors will cause a 30% to 50% error in filter frequency. The solution is to add a frequency calibration circuit in the integrated filter, and adjust the parameters of the device adaptively, so that th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03L7/00H03F3/45
Inventor 吴建辉周明杰陈超黄成李红
Owner SOUTHEAST UNIV
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