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Slew rate intensifier for dynamic CMOS operational amplifier

An operational amplifier, slew rate technology, used in improving amplifiers to improve efficiency, differential amplifiers, DC-coupled DC amplifiers, etc., can solve problems such as circuits no longer effective, and achieve low power consumption and cost, high reliability, The effect of high slew rate

Active Publication Date: 2011-07-06
SPREADTRUM COMM (SHANGHAI) CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] However, when the power supply voltage Vpow decreases with the shrinking of the process critical dimension, because the difference between Vip and Vins is close to the power supply voltage value, there is no voltage space to turn on the transistor Mni and Mpi, so this circuit is no longer valid

Method used

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  • Slew rate intensifier for dynamic CMOS operational amplifier
  • Slew rate intensifier for dynamic CMOS operational amplifier
  • Slew rate intensifier for dynamic CMOS operational amplifier

Examples

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Embodiment Construction

[0037] State 1: Vip-Vin>δ, in this state, make the first state signal state1 valid, such as high level;

[0038] State 2: Vin-Vip>δ, in this state, make the second state signal state2 valid, for example, high level;

[0039] Wherein, the parameter δ is a critical voltage for judging whether the slew rate increaser needs to work, δ<the maximum value δmax at which the slew rate increaser does not need to work, and in this embodiment, δ=500mv.

[0040] The execution unit 200 has two input terminals and two output terminals, and the two input terminals are connected to the comparison unit 100 to receive the first state signal state1 and the second state signal state2 respectively. The two output terminals of the execution unit 200 are respectively connected to the positive phase output terminal voltage Vop and the negative phase output terminal voltage Von of the amplifier 2 . When the execution unit 200 receives a valid (such as high level) first state signal state1, the executi...

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Abstract

The invention discloses a slew rate multiplier of a dynamic CMOS operational amplifier, the operational amplifier is provided with a positive phase input end, a negative phase input end, a positive phase output end and a negative phase output end, and the slew rate multiplier comprises: a comparing unit, which ascertains a first status signal and a second status signal according to a difference value of the voltage of the positive phase input end and the voltage of the negative phase input end, wherein, when the difference of the voltage of the positive phase input end and the voltage of the negative phase input end is more than the value of critical voltage, the first status signal is available, and when the difference of the voltage of the negative phase input end and the voltage of thepositive phase input end is more than the value of critical voltage, the second status signal is available; and an execution unit, which receives the status signals, wherein, when receiving the available first status signal, the charging current to the positive phase output end and the discharging current to the negative phase output end are increased, and when receiving the available second status signal, the charging current to the negative phase output end and the discharging current to the positive phase output end are increased.

Description

technical field [0001] The invention relates to the design of a low power consumption operational amplifier in a low power supply voltage CMOS / BiCMOS analog integrated circuit, in particular to a slew rate increaser capable of increasing the slew rate of the operational amplifier. Background technique [0002] In many applications, the small-signal performance and slew performance of operational amplifiers have different requirements for their operating current values. For example in figure 1 In a high signal-to-noise ratio sigma-delta analog-to-digital converter modulator shown, the first-stage integrator has a 3pF sampling capacitor Cs, and the operational amplifier (Operational Amplifier) ​​is required to be able to transfer the maximum charge Q of the integrating capacitor Cc within 60ns is 3pFx1V. If you allocate 30ns to the slew settling time and 30ns to the linear small signal settling time, the slew performance requires 100uA unilateral output stage drive current I...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H03F3/45H03F1/02
Inventor 傅志军
Owner SPREADTRUM COMM (SHANGHAI) CO LTD
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