Operational amplifier for pipeline analog to digital converter

A technology of operational amplifiers and analog-to-digital converters, applied in the direction of analog-to-digital converters, DC-coupled DC amplifiers, analog-to-digital conversion, etc., can solve the problems of pipeline accuracy, inability to achieve high gain, and reduce the bandwidth of operational amplifiers , to achieve the effect of increased gain, high bandwidth, and increased unity gain bandwidth

Active Publication Date: 2018-04-06
XIDIAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This structure increases the output impedance and increases the open-loop gain by adding an auxiliary op amp. However, the added auxiliary op amp will introduce new parasitic capacitance, thereby increasing the pole and reducing the bandwidth of the entire op amp.
The bandwidth of the comparator, the noise on the sampling capacitor, and the load capacitance of each stage all affect the accuracy of the pipeline
Additionally, conventional pipelined op amps cannot achieve high gain at low supply voltages

Method used

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  • Operational amplifier for pipeline analog to digital converter
  • Operational amplifier for pipeline analog to digital converter
  • Operational amplifier for pipeline analog to digital converter

Examples

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Effect test

Embodiment 1

[0029] see figure 1 , figure 1 A circuit diagram of a main operational amplifier for a pipeline analog-to-digital converter provided by an embodiment of the present invention includes: a first main operational amplifier and a second main operational amplifier; the first main operational amplifier includes a first common source common The gate P-type transistor pair M9, M10, the second cascode P-type transistor pair M7, M8, the first cascode N-type transistor pair M5, M6, the first cascode N-type transistor pair M1, M2, so The source of the first cascode N-type transistor pair M1, M2 is connected to the first tail current N-type transistor M0; the second main operational amplifier includes a third cascode P-type transistor pair M14, M15, The second cascode N-type transistor pair M12, M13, the source of the second cascode N-type transistor pair M12, M13 is connected to the second tail current N-type transistor M11; wherein, the first cascode P-type The drain stages of the tran...

Embodiment 2

[0032] figure 2A circuit diagram of an auxiliary operational amplifier for a pipeline analog-to-digital converter provided by an embodiment of the present invention, this embodiment includes the content of the first embodiment, and also includes a first auxiliary operational amplifier, and the first auxiliary operational amplifier includes The fourth cascode P-type transistor pair MAN10, MAN11, the fifth cascode P-type transistor pair MAN8, MAN9, the second cascode N-type transistor pair MAN6, MAN7, the third cascode N-type transistor Transistor pairs MAN4, MAN5, third cascode N-type transistor pairs MAN1, MAN2; wherein, the drain stages of the fourth cascode P-type transistor pairs MAN10, MAN11 are respectively connected to the third cascode N-type transistor pairs MAN1, MAN2 The drain stage of MAN2; the sources of the third common-source N-type transistor pair MAN1 and MAN2 are connected to the third tail current N-type transistor MAN0; the gates of the third common-source ...

Embodiment 3

[0034] image 3 A circuit diagram of an auxiliary operational amplifier for a pipeline analog-to-digital converter provided by another embodiment of the present invention, this embodiment includes the content of the second embodiment, and also includes a second auxiliary operational amplifier, and the second auxiliary operational amplifier includes sequentially connected The sixth cascode P-type transistor pair MAP10, MAP11, the seventh cascode P-type transistor pair MAP8, MAP9, the fourth cascode N-type transistor pair MAP6, MAP7, the fifth cascode N Type transistor pair MAP4, MAP5, first cascode P-type transistor pair MAP1, MAP2; wherein, the drain stages of the fifth cascode N-type transistor pair MAP4, MAP5 are respectively connected to the first cascode P-type transistor pair MAP1 , the drain stage of MAP2; the sources of the first common-source P-type transistor pair MAP1, MAP2 are connected to the first tail current P-type transistor MAP0; the gates of the first common-...

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Abstract

The invention discloses an operational amplifier for a pipeline analog to digital converter. The operational amplifier comprises a first main operational amplifier and a second main operational amplifier; the first main operational amplifier comprises a first common source common gate P type transistor pair, a second common source common gate P type transistor pair, a first common source common gate N type transistor pair and a first common source N type transistor pair, which are connected in sequence, and the source electrode of the first common source N type transistor pair is connected with a first tail current N type transistor; the second main operational amplifier comprises a third common source common gate P type transistor pair and a second common source N type transistor pair, which are connected in sequence, and the source electrode of the second common source N type transistor pair is connected with a second tail current N type transistor, wherein the drain electrode of thefirst common source common gate P type transistor pair is connected with the drain electrode of the third common source common gate P type transistor pair through a compensation capacitor. Compared with the prior art, the operational amplifier can greatly improve the gain and the precision of the operational amplifier in the case of low voltage.

Description

technical field [0001] The invention belongs to the field of operational amplifiers, and in particular relates to an operational amplifier for a pipeline analog-to-digital converter. Background technique [0002] With the development of CMOS technology, the characteristic size of MOS transistors has been continuously reduced, and the characteristic frequency has continued to increase, which has also led to the continuous decline of the intrinsic gain of the MOS transistor, and the continuous decline of the power supply voltage, which also makes the design of high-gain operational amplifiers particularly difficult. . The operational amplifier in the first-stage MDAC is extremely demanding in the pipeline analog-to-digital converter, which makes the design of a high-precision high-speed pipeline ADC particularly difficult. [0003] Traditional pipeline operational amplifiers and various levels of residual operational amplifiers are usually implemented with closed-loop high-pe...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03M1/18H03F3/45
CPCH03F3/45376H03M1/183
Inventor 朱樟明张进刘术彬杨银堂
Owner XIDIAN UNIV
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