Low-power-consumption two-step feedforward adder circuit

An addition circuit and low power consumption technology, applied in the field of low power consumption two-step feed-forward addition circuit, can solve the problems of reducing input signal range, increasing nonlinear error, affecting accuracy, etc., achieving no static power consumption and eliminating attenuation , to ensure the effect of stability

Inactive Publication Date: 2012-01-18
ZHEJIANG UNIV
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  • Abstract
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Problems solved by technology

The active adder is mainly composed of an operational amplifier. When the input signal increases, the output of this adder will also increase to the corresponding amplitude. In the case of full scale, the power consumption of the operational amplifier will become very large; at the same time , when the full-scale input reaches the supply voltage, the operational amplifier is saturated, and its non-linear error will increase, thereby affecting the accuracy
In order to avoid excessive nonlinear errors, the full-scale input of the active adder is generally designed to be smaller than the power supply voltage, but this will correspondingly reduce the range of the input signal

Method used

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  • Low-power-consumption two-step feedforward adder circuit
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  • Low-power-consumption two-step feedforward adder circuit

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Embodiment Construction

[0024] In order to describe the present invention more specifically, the technical solution and related principles of the present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0025] like image 3 As shown, a low-power two-step feedforward addition circuit includes a four-input passive adder 2 and an eight-input active adder 1 that provides feedforward accumulation signals for the four-input passive adder 2 .

[0026] The four-input passive adder 2 is composed of eight switching tubes and two capacitors, wherein the fifth switching tube M 5 One end of the system receives the system positive-phase feed-forward input signal Vin provided by the external device p , the fifth switching tube M 5 The other end and the sixth switch tube M 6 One terminal and the third capacitor C 3 connected to one end of the sixth switching tube M 6 The other end of the eight-input active adder 1 receives the anti-phase feed-...

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Abstract

The invention discloses a low-power-consumption two-step feedforward adder circuit, comprising a four-input passive adder and a 2N-input active adder for providing feedforward accumulation signals for the four-input passive adder, wherein N is a natural number more than 1. In the invention, by combining the respective advantages of the active adder and the passive adder, the accumulation of integral feedforward input signals of all integrators in a modulator is realized by using the active adder, the addition between the feedforward accumulation signals and system feedforward signals is realized by using the passive adder, and thus, the problem of attenuation of voltage output signals is solved, the full magnitude of the system feedforward input signals can be made close to the magnitude of a power supply voltage, the property of high precision is achieved, the integral power consumption of the adder circuit is effectively reduced, the requirement on design of an operational amplifier and a multi-bit quantizer is lowered, and no static power consumption is generated; and the low-power-consumption two-step feedforward adder circuit is particularly suitable to the field of Sigma-delta analog-to-digital conversion.

Description

technical field [0001] The invention belongs to the technical field of microelectronic analog-to-digital conversion, and in particular relates to a low-power consumption two-step feed-forward addition circuit. Background technique [0002] With all kinds of portable electronic devices now coming to millions of households and various industrial applications, the demand for analog-to-digital converters as the interface between analog signals and digital signals is also increasing. The Sigma-delta modulator, as the main component in the analog-to-digital converter, is widely used due to its unique high precision. like figure 1 As shown, the feedforward structure is currently a mainstream structure of the Sigma-delta modulator, and the Sigma-delta modulator using the feedforward structure needs an adder to output the feedforward output of the integrators at all levels in the Sigma-delta modulator Added to the system feed-forward input signal. [0003] There are two types of a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03M3/02
Inventor 吴晓波赵津晨王汉卿罗惠洲
Owner ZHEJIANG UNIV
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