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PD for higher order sigma-delta modulators λ Design Method of Phase Compensator

A technology of phase compensator and design method, applied in modulation carrier system, digital transmission system, multi-carrier system, etc., can solve the problem of reducing input signal gain, limiting Sigma-Delta modulator noise shaping ability, weakening system input signal gain, etc. problem, to achieve the effect of improving the ability of noise shaping

Active Publication Date: 2020-08-14
HAIAN INST OF HIGH TECH RES NANJING UNIV
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Problems solved by technology

The second-order system is full-time stable, the system structure is simple, and the circuit is easy to implement. The system only includes circuits such as sensing structures and quantizers, and does not include electrical integrators. However, due to the low order of the system, the Sigma-Delta modulator is limited. Noise shaping capability, there is a large quantization error during analog-to-digital conversion
However, a problem that cannot be ignored is that although the phase lead compensator can compensate for the phase lag, the phase lead compensator will inevitably weaken the system input signal gain, which will cause the noise shaping ability of the Sigma-Delta modulator to decline
Therefore, the present invention proposes an improvement scheme for the problem of reducing the input signal gain in the phase lead compensator

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  • PD for higher order sigma-delta modulators <sup>λ</sup> Design Method of Phase Compensator
  • PD for higher order sigma-delta modulators <sup>λ</sup> Design Method of Phase Compensator
  • PD for higher order sigma-delta modulators <sup>λ</sup> Design Method of Phase Compensator

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Embodiment Construction

[0021]The technical solutions in the embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

[0022] (1) Numerical realization of differential operator

[0023] The fractional order differential phase compensator PD used in the present invention λ The transfer function of is in the form of: H(z)=k p +k d (w(z -1 )) λ

[0024] k in the above formula p is the proportional coefficient, k d is the differential coefficient, (w(z -1 )) λ is a half-order integral operator.

[0025] Using the tustin joint continued fraction expansion approximation meth...

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Abstract

The present application discloses a design method of PD Lambada phase compensator For high order Sigma-Delta modulators. A transfer function of a fractional proportional differential phase compensatorPD Lambada is H(z)=kp+kd(w(z-1))Lambada, where kp is a proportional coefficient, kd is a differential coefficient, and (w(z-1))Lambada is a half order differential operator. A fractional differentialoperator is discretized though using tustin joint continued fraction expansion approximation method. The method has advantages: a defect existed in the conventional integer order phase compensator that phase compensation depth and noise shaping strength are contradictory to each other is solved; in the same time the method has an integral effect through adopting the fractional differential operator, can not only compensate phase lag of the high order Sigma-Delta modulator, but also further improve modulator noise shaping capability.

Description

technical field [0001] This application relates to the field of analog-digital mixed signal processing, especially a PD for high-order Sigma-Delta modulators λ Design method of phase compensator. Background technique [0002] As the functions of digital circuits become more and more powerful, the requirements for the performance of analog-to-digital converters are also getting higher and higher. The conversion accuracy of traditional analog-to-digital converters is generally not high, which cannot meet the high-precision requirements of the system. Sigma-Delta ADC is a kind of oversampling analog-to-digital converter, which belongs to a kind of high-precision analog-to-digital converter, and has low requirements on the performance of the front-end anti-aliasing filter. Therefore, Sigma-Delta modulators are widely used in robot control, speech recognition, communication systems and other fields. Through reading a lot of literature, it is found that Sigma-Delta modulation te...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L27/36
CPCH04L27/366
Inventor 徐驰陆洪彬
Owner HAIAN INST OF HIGH TECH RES NANJING UNIV
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