CN201654085U - Threshold voltage generating circuit - Google Patents

Abstract

A threshold voltage generating circuit comprises a main control circuit and a biasing circuit connected with the main control circuit. The main control circuit comprises a first switch element, a second switch element, a third switch element and a first operational amplifier, wherein the second switch element is connected with the first switch element, the third switch element is connected with the second switch element, the first operational amplifier is connected with the third switch element, and an output end of the first operational amplifier outputs threshold voltage. The threshold voltage generating circuit can generate more accurately threshold voltage.

Description

Threshold voltage produces circuit

Technical field

The utility model relates to a kind of voltage generation circuit, refers to that especially a kind of threshold voltage that can produce threshold voltage produces circuit.

Background technology

Usually the input voltage that output voltage in the transfer curve is sharply changed the terminal point correspondence of break over region with the input voltage change is called threshold voltage, is also referred to as cut-in voltage.Threshold voltage is followed the variation of flow-route and temperature usually and difference in the prior art, often obtains threshold voltage by searching database, and a kind of circuit that can directly produce more accurate threshold voltage is seldom arranged.

Summary of the invention

In view of above content, be necessary to provide a kind of threshold voltage that can produce more accurate threshold voltage to produce circuit.

A kind of threshold voltage produces circuit, comprise a main control circuit and a biasing circuit that links to each other with described main control circuit, described main control circuit comprises one first on-off element, a second switch element that links to each other with described first on-off element, the 3rd on-off element that links to each other with described second switch element and first operational amplifier that links to each other with described the 3rd on-off element, and an output terminal of described first operational amplifier is exported a threshold voltage.

Preferably, described first on-off element is one first field effect transistor, and described second switch element is one second field effect transistor, and described the 3rd on-off element is one the 3rd field effect transistor.

Preferably, the grid of described first field effect transistor links to each other with its drain electrode, its source class connects the source class of described second field effect transistor, the grid of described second field effect transistor links to each other with its drain electrode, the grid of described the 3rd field effect transistor links to each other with its drain electrode, its source class connects the source class of described second field effect transistor, the common earth terminal that connects of the source class of described first field effect transistor, second field effect transistor and the 3rd field effect transistor.

Preferably, the drain electrode of described the 3rd field effect transistor connects a normal phase input end of first operational amplifier by one the 3rd resistance, the source class of described the 3rd field effect transistor connects the normal phase input end of first operational amplifier by one the 4th resistance, and an inverting input of described first operational amplifier connects described output terminal by one the 5th resistance.

Preferably, described biasing circuit comprises the 4th on-off element that links to each other with described first on-off element, the 5th on-off element that links to each other with described the 4th on-off element, the 6th on-off element that links to each other with described the 5th on-off element and second operational amplifier that links to each other with described the 4th on-off element, described the 5th on-off element.

Preferably, one normal phase input end of described first operational amplifier links to each other with an inverting input of described second operational amplifier by one second resistance and one the 6th resistance, one inverting input of described first operational amplifier connects the inverting input of described second operational amplifier by one first resistance, and a normal phase input end of described second operational amplifier links to each other with described first on-off element.

Preferably, described the 4th on-off element is one the 4th field effect transistor, and described the 5th on-off element is one the 5th field effect transistor, and described the 6th on-off element is one the 6th field effect transistor.

Preferably, the grid of described the 4th field effect transistor connects the grid of described the 5th field effect transistor, its drain electrode connects the normal phase input end of described second operational amplifier, the drain electrode of described the 5th field effect transistor connects the inverting input of described second operational amplifier, the grid of described the 6th field effect transistor connects the grid of described the 5th field effect transistor, described the 4th field effect transistor, the common output terminal that connects described second operational amplifier of the grid of the 5th field effect transistor and the 6th field effect transistor, described the 4th field effect transistor, the common power end that connects of the source class of the 5th field effect transistor and the 6th field effect transistor.

Relative prior art, the utility model threshold voltage produce the more accurate threshold voltage of variation generation that circuit can be followed flow-route and temperature.

Description of drawings

Fig. 1 produces the circuit diagram of circuit better embodiment for the utility model threshold voltage.

Embodiment

See also Fig. 1, the utility model threshold voltage produces the circuit better embodiment and comprises a main control circuit and a biasing circuit that links to each other with this main control circuit.

This main control circuit comprises one first on-off element, a second switch element, one the 3rd on-off element, first resistance R 1, second resistance R 2, the 3rd resistance R 3, the 4th resistance R 4, the 5th resistance R 5 and one first operational amplifier omp1.This biasing circuit comprises one the 4th on-off element, one the 5th on-off element, one the 6th on-off element, one the 6th resistance R B and one second operational amplifier omp2.

In the present embodiment, this first on-off element is one first field effect transistor M1, this second switch element is one second field effect transistor M2, the 3rd on-off element is one the 3rd field effect transistor M3, the 4th on-off element is one the 4th field effect transistor M4, the 5th on-off element is one the 5th field effect transistor M5, and the 6th on-off element is one the 6th field effect transistor M6.And the first field effect transistor M1, the second field effect transistor M2 and the 3rd field effect transistor M3 are N type field effect transistor (NMOS), and the 4th field effect transistor M4, the 5th field effect transistor M5 and the 6th field effect transistor M6 are P type field effect transistor (PMOS).In other embodiments, on-off element can change to other on-off element or the circuit that can realize said function as required.

The concrete annexation that this threshold voltage produces circuit is as follows: the grid of this first field effect transistor M1 links to each other with its drain electrode, its drain electrode connects the inverting input of the second operational amplifier omp2, its source class connects the source class of this second field effect transistor, the grid of this second field effect transistor links to each other with its drain electrode, the grid of the 3rd field effect transistor links to each other with its drain electrode, its source class connects the source class of this second field effect transistor, the drain electrode of the 3rd field effect transistor connects the normal phase input end of the first operational amplifier omp1 by the 3rd resistance R 3, the source class of the 3rd field effect transistor connects the normal phase input end of the first operational amplifier omp1 by the 4th resistance R 4, the normal phase input end of the first operational amplifier omp1 links to each other with the inverting input of the second operational amplifier omp2 by second resistance R 2 and the 6th resistance R B, the inverting input of the first operational amplifier omp1 connects the inverting input of the second operational amplifier omp2 by first resistance R 1, and connects the output terminal VOUT of the first operational amplifier omp1 by the 5th resistance R 5.The grid of the 4th field effect transistor M4 connects the grid of the 5th field effect transistor M5, its drain electrode connects the normal phase input end of the second operational amplifier omp2, its source class connects the source electrode of the 5th field effect transistor M5, the grid of the 5th field effect transistor M5 connects the output terminal of the second operational amplifier omp2, its drain electrode connects the inverting input of the second operational amplifier omp2, the grid of the 6th field effect transistor M6 connects the grid of the 5th field effect transistor M5, its source class connects the source class of the 5th field effect transistor M5, and its drain electrode connects the drain electrode of the 3rd field effect transistor M3.The common earth terminal GND that connects of the source class of this first field effect transistor M1, this second field effect transistor M2, the 3rd field effect transistor M3, the common power end VDD that connects of the source class of the 4th field effect transistor M4, the 5th field effect transistor M5, the 6th field effect transistor M6.

The variation that this threshold voltage generation circuit can be followed flow-route and temperature produces a more accurate threshold voltage, makes a concrete analysis of as follows:

V1＝V4＝VTH+sqrt(I1*K1)，

V2＝VTH+sqrt(I2*K2)，

V3＝VTH+sqrt(I3*K3)，

Wherein, K1=2/ (μ nCox (W/L) 1),

K2＝2/(μnCox(W/L)2)，

K3＝2/(μnCox(W/L)3)，

VTH represents the threshold voltage of NMOS, the electric current of the first field effect transistor M1 is flow through in the I1 representative, the electric current of the second field effect transistor M2 is flow through in the I2 representative, the electric current of the 3rd field effect transistor M3 is flow through in the I3 representative, μ n represents electron mobility, and Cox represents the gate oxide unit-area capacitance, (W/L) 1 breadth length ratio of representing the first field effect transistor M1, (W/L) 2 breadth length ratios of representing the second field effect transistor M2, (W/L) 3 breadth length ratios of representing the 3rd field effect transistor M3.

VOUT＝V2+V3-V1＝VTH+sqrt(I3*K3)+sqrt(I2*K2)-sqrt(I1*K1)，

Might as well make I1=I2=I3=I,

VOUT＝VTH+sqrt(I)*(sqrt(K3)+sqrt(K2)-sqrt(K1))，

We can be by selection M1, M2, and the breadth length ratio of M3 makes expression formula

Sqrt (K3)+sqrt (K2)-sqrt (K1) equals 0, thereby makes VOUT=VTH.

In addition, we also can keep M1, M2, and the breadth length ratio of M3 is identical, and by regulating I1, I2, the ratio of I3 realize, promptly regulate M4, M5, the breadth length ratio of M6.We can also regulate I1 simultaneously, I2, and I3 and M4, M5, the breadth length ratio of M6 realizes.

This threshold voltage produces the more accurate threshold voltage of variation generation that circuit can be followed flow-route and temperature.

Claims (8)

1. a threshold voltage produces circuit, it is characterized in that: described threshold voltage produces circuit and comprises a main control circuit and a biasing circuit that links to each other with described main control circuit, described main control circuit comprises one first on-off element, a second switch element that links to each other with described first on-off element, the 3rd on-off element that links to each other with described second switch element and first operational amplifier that links to each other with described the 3rd on-off element, and an output terminal of described first operational amplifier is exported a threshold voltage.

2. threshold voltage as claimed in claim 1 produces circuit, and it is characterized in that: described first on-off element is one first field effect transistor, and described second switch element is one second field effect transistor, and described the 3rd on-off element is one the 3rd field effect transistor.

3. threshold voltage as claimed in claim 2 produces circuit, it is characterized in that: the grid of described first field effect transistor links to each other with its drain electrode, its source class connects the source class of described second field effect transistor, the grid of described second field effect transistor links to each other with its drain electrode, the grid of described the 3rd field effect transistor links to each other with its drain electrode, its source class connects the source class of described second field effect transistor, the common earth terminal that connects of the source class of described first field effect transistor, second field effect transistor and the 3rd field effect transistor.

4. threshold voltage as claimed in claim 3 produces circuit, it is characterized in that: the drain electrode of described the 3rd field effect transistor connects a normal phase input end of first operational amplifier by one the 3rd resistance, the source class of described the 3rd field effect transistor connects the normal phase input end of first operational amplifier by one the 4th resistance, and an inverting input of described first operational amplifier connects described output terminal by one the 5th resistance.

5. threshold voltage as claimed in claim 1 produces circuit, and it is characterized in that: described biasing circuit comprises the 4th on-off element that links to each other with described first on-off element, the 5th on-off element that links to each other with described the 4th on-off element, the 6th on-off element that links to each other with described the 5th on-off element and second operational amplifier that links to each other with described the 4th on-off element, described the 5th on-off element.

6. threshold voltage as claimed in claim 5 produces circuit, it is characterized in that: a normal phase input end of described first operational amplifier links to each other with an inverting input of described second operational amplifier by one second resistance and one the 6th resistance, one inverting input of described first operational amplifier connects the inverting input of described second operational amplifier by one first resistance, and a normal phase input end of described second operational amplifier links to each other with described first on-off element.

7. threshold voltage as claimed in claim 6 produces circuit, and it is characterized in that: described the 4th on-off element is one the 4th field effect transistor, and described the 5th on-off element is one the 5th field effect transistor, and described the 6th on-off element is one the 6th field effect transistor.

8. threshold voltage as claimed in claim 7 produces circuit, it is characterized in that: the grid of described the 4th field effect transistor connects the grid of described the 5th field effect transistor, its drain electrode connects the normal phase input end of described second operational amplifier, the drain electrode of described the 5th field effect transistor connects the inverting input of described second operational amplifier, the grid of described the 6th field effect transistor connects the grid of described the 5th field effect transistor, described the 4th field effect transistor, the common output terminal that connects described second operational amplifier of the grid of the 5th field effect transistor and the 6th field effect transistor, described the 4th field effect transistor, the common power end that connects of the source class of the 5th field effect transistor and the 6th field effect transistor.