CN1610258A - Hysteresis circuit used for comparator - Google Patents
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- CN1610258A CN1610258A CN 200310102894 CN200310102894A CN1610258A CN 1610258 A CN1610258 A CN 1610258A CN 200310102894 CN200310102894 CN 200310102894 CN 200310102894 A CN200310102894 A CN 200310102894A CN 1610258 A CN1610258 A CN 1610258A
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Abstract
The magnetic hysteresis for comparator has the first resistor connected between the first transistor source and the constant current source, and the second resistor connected between the second transistor source and the constant current source in the input stage of the comparator. In addition, the first and the second current generator units are set, so that when the output signal of the comparator is the first logic value, the first current generator unit generates certain current supplied to the first transistor source and generates certain current led out from the second transistor source; and when the output signal of the comparator is the second logic value, the second current generator unit generates certain current supplied to the second transistor source and generates certain current led out from the first transistor source.
Description
(1) technical field
The relevant a kind of electronic circuit of the present invention, particularly relevant a kind of circuit that in differential input comparator, produces magnetic hysteresis.
(2) background technology
Typical comparator has two inputs, and an input voltage and a reference voltage that it can relatively distinguish feed-in two inputs amplify the voltage difference between two voltages, export a high or low logic voltage signal according to this voltage difference at the output of comparator then.Generally speaking, when input voltage during greater than reference voltage, output is exported a high logic voltage; Otherwise, when input voltage during less than reference voltage, output output one low logic voltage.
For fear of the misoperation that causes comparator because of the noise in input voltage signal or the reference voltage signal; usually can comprise hysteresis circuit design in the comparator; make to transfer the threshold voltage value of high logic voltage to from low logic voltage when the output of comparator, be different from the threshold voltage value that transfers low logic voltage from high logic voltage to.Fig. 1 shows the input voltage signal of the comparator with magnetic hysteresis feature and the graph of a relation of output voltage signal, and wherein, transverse axis is represented input voltage signal Vin, and the longitudinal axis is represented output voltage signal Vout.As output voltage signal Vout during for low logic voltage, then input voltage signal Vin must rise to and be higher than a upper limit threshold voltage value Vth, and output voltage signal Vout just can be converted to high logic voltage from low logic voltage.When output voltage signal Vout was high logic voltage, then input voltage signal Vin must drop to and is lower than a lower limit threshold voltage value Vtl, and output voltage signal Vout just can be converted to low logic voltage from high logic voltage.Voltage difference between aforesaid upper limit threshold voltage value Vth and the lower limit threshold voltage value Vtl promptly is called the magnetic hysteresis width, and its big I is set at for example hundreds of mV.
" deciding the magnetic hysteresis comparison means of magnetic hysteresis width " that the Taiwan patent announcement is disclosed for No. 508567 is a kind of comparator circuit with magnetic hysteresis feature.Fig. 2 shows the schematic circuit diagram of the magnetic hysteresis comparison means of this patent.As shown in the figure, magnetic hysteresis comparison means 20 comprises a threshold voltage generator 22, a selection switching device shifter 24 and a comparator 26.Magnetic hysteresis comparison means 20 is to be used to receive an input voltage signal Vin, and produces an output voltage signal Vout.Threshold voltage generator 22 can be according to the desired magnetic hysteresis width of circuit, and utilizes a direct current voltage signal Vdc to produce a upper limit threshold voltage value Vth and a lower limit threshold voltage value Vtl.Select switching device shifter 24 to comprise one first a switch 24a and a second switch 24b, it can switch according to the output voltage signal of comparator 26, and selects upper limit threshold voltage value Vth or the lower limit threshold voltage value Vtl reference voltage signal of device as a comparison.As output voltage signal Vout during for low logic voltage, then switch 24a is for opening (ON) switch 24b for closing (OFF), so selects switching device shifter 24 exportable upper limit threshold voltage value Vth.Otherwise when output voltage signal Vout was high logic voltage, then switch 24a was OFF and switch 24b is ON, therefore selected switching device shifter 24 exportable lower limit threshold voltage value Vtl.According to above-mentioned design, as output voltage signal Vout during for low logic voltage, then input voltage signal Vin must be higher than upper limit threshold voltage value Vth, and output voltage signal Vout just can be converted to high logic voltage from low logic voltage; When output voltage signal Vout was high logic voltage, then input voltage signal Vin must be lower than lower limit threshold voltage value Vtl, and output voltage signal Vout just can be converted to low logic voltage from high logic voltage.By this, can reach the effect of magnetic hysteresis.
Yet the circuit design among above-mentioned Fig. 2 is to add threshold voltage to produce circuit outside comparator, and to reach the effect of its magnetic hysteresis, its shortcoming is that switch speed is slower, and circuit is comparatively complicated and be unfavorable for the use of integrated circuit.Therefore, need badly develop that a kind of switch speed is very fast, simplicity of design and being fit to is applied to the comparator hysteresis circuit in the integrated circuit.
(3) summary of the invention
Main purpose of the present invention is to provide a kind of hysteresis circuit that is used for comparator, and it is the inside that is arranged at comparator, has switch speed advantage faster, and only need use simple elements and structure.
Another main purpose of the present invention is to provide a kind of hysteresis circuit that is used for comparator, and it only need use current source and resistive element, is fit to be applied in the integrated circuit, and can produces the magnetic hysteresis width that is not subjected to power supply and temperature effect.
Hysteresis circuit of the present invention, can be applicable to differential input comparator, differential comparator has a differential input level, comprise a pair of the first transistor and transistor seconds, its gate terminal difference is two inputs of device as a comparison, comparator also has a constant current source, in order to supply the differential input level of certain electric current to comparator.Hysteresis circuit of the present invention is that first and second resistive element, first to fourth constant current source element and first to fourth switch element are set in above-mentioned comparator.First and second resistive element has identical resistance value, first resistive element is coupled between the constant current source element of the source terminal of the first transistor and comparator, and second resistive element is coupled between the constant current source element of the source terminal of transistor seconds and comparator.First to fourth constant current source element be in order to produce constant current source with comparator identical decide electric current.First switch element is to be coupled between the source terminal of the first constant current source element and the first transistor, the first constant current source element is optionally supplied decided the source terminal of electric current to the first transistor.The second switch element is to be coupled between the source terminal of the second constant current source element and the first transistor, makes the second constant current source element optionally derive certain electric current from the source terminal of the first transistor.The 3rd switch element is to be coupled between the source terminal of the 3rd constant current source element and transistor seconds, the 3rd constant current source element is optionally supplied decided the source terminal of electric current to transistor seconds.The 4th switch element is to be coupled between the source terminal of the 4th constant current source element and transistor seconds, makes the 4th constant current source element optionally derive certain electric current from the source terminal of transistor seconds.The unlatching of first to fourth switch element (ON) with close (OFF) and can switch according to the output output signal of comparator, make when the output output signal of comparator is first logical value, the first and the 4th switch element is for opening (ON) second and the 3rd switch element for closing (OFF), when the output output signal of comparator was second logical value, the first and the 4th switch element was for closing (OFF) second and the 3rd switch element for opening (ON).
The said structure according to the present invention can produce monolateral magnetic hysteresis width I ' 2R that constant current source element current value I multiply by two times of resistive element resistance value R, that is total magnetic hysteresis width is 2 ' I ' 2R.
For further specifying above-mentioned purpose of the present invention, design feature and effect, the present invention is described in detail below with reference to accompanying drawing.
(4) description of drawings
Fig. 1 is the output voltage transition diagram that shows the comparator with magnetic hysteresis feature.
Fig. 2 is the schematic circuit diagram for known magnetic hysteresis comparison means.
Fig. 3 is the output voltage transition diagram of the comparator of display application hysteresis circuit of the present invention.
Fig. 4 is for using the comparator schematic circuit diagram of hysteresis circuit of the present invention.
Fig. 5 (a) and 5 (b) are the circuit operation key diagram of the output for comparator when being converted to high logic voltage by low logic voltage.
Fig. 6 (a) and 6 (b) are the circuit operation key diagrams when being converted to low logic voltage for the output of comparator by high logic voltage.
(5) embodiment
Please refer to Fig. 4, the comparator circuit figure of its display application hysteresis circuit of the present invention.It should be noted that be simplified illustration, the comparator circuit among Fig. 4 only demonstrates the element that is associated with hysteresis circuit of the present invention, but not complete comparator circuit.As shown in the figure, have a differential input level in the differential input comparator, it comprises one the one PMOS transistor Q1 and one the 2nd PMOS transistor Q2.The one PMOS transistor Q1 is two PMOS transistors with identical feature with the 2nd PMOS transistor Q2, and its gate terminal difference is two inputs of device as a comparison, also, and respectively in order to receive the first input signal Vin+ and the second input signal Vin-.Comparator also has a constant current source (the 5th constant current source) I5, is the electric current of deciding of I in order to produce current value, is supplied to the input stage of comparator.In addition, comparator also has an output (figure does not show), can export an output signal Vout according to the voltage difference DV of the first input signal Vin+ and the second input signal Vin-.
According to the hysteresis circuit that is used for comparator of the present invention, be that one first resistance R 1, one second resistance R 2, one first constant current source I1, one second constant current source I2, one the 3rd constant current source I3, one the 4th constant current source I4, one first switch SW 1, a second switch SW2, one the 3rd switch SW 3 and one the 4th switch SW 4 are set in differential input comparator.First resistance R 1 and second resistance R 2 are coupled in series between the source terminal S2 of the source terminal S1 of a PMOS transistor Q1 and the 2nd PMOS transistor Q2.More specifically say, two ends of first resistance R 1 are to be connected between the source terminal S1 and the 5th constant current source I5 of a PMOS transistor Q1, and two ends of second resistance R 2 are to be connected between the source terminal S2 and the 5th constant current source I5 of the 2nd PMOS transistor Q2.First resistance R 1 has identical resistance value R with second resistance R 2.First to fourth constant current source I1 ~ I4 is the electric current of deciding that can produce identical current value I, and also the current value that is promptly produced with the 5th constant current source I5 is identical.The first constant current source I1 is the source terminal S1 that is coupled to a PMOS transistor Q1 by first switch SW 1, makes it can optionally supply the source terminal S1 of certain electric current to the PMOS transistor Q1 by the switching of first switch SW 1.The second constant current source I2 is the source terminal S1 that is coupled to a PMOS transistor Q1 by second switch SW2, make its can be by the switching of second switch SW2 optionally the source terminal S1 from a PMOS transistor Q1 derive certain electric current.Similarly, the 3rd constant current source I3 is the source terminal S2 that is coupled to the 2nd PMOS transistor Q2 by the 3rd switch SW 3, makes it can optionally supply the source terminal S2 of certain electric current to the two PMOS transistor Q2 by the switching of the 3rd switch SW 3.The 4th constant current source I4 is the source terminal S2 that is coupled to the 2nd PMOS transistor Q2 by the 4th switch SW 4, make its can be by the switching of the 4th switch SW 4 optionally the source terminal S2 from the 2nd PMOS transistor Q2 derive certain electric current.In addition, the hysteresis circuit that is used for comparator of the present invention also comprises a switch element control device (figure does not show), is used to control the unlatching (ON) of first to fourth switch SW, 1 ~ SW4 and closes (OFF).The switch element control device is that the output signal Vout of the output (figure does not show) according to comparator switches first to fourth switch SW, 1 ~ SW4.As the output signal Vout of the output of comparator during for low logic voltage, may command first and the 4th switch for unlatching (ON) second and the 3rd switch for closing (OFF).Therefore, the first constant current source I1 can supply the source terminal S1 that decides electric current to a PMOS transistor Q1, and the 4th constant current source I4 can derive certain electric current from the source terminal S2 of the 2nd PMOS transistor Q2.When the output signal Vout of the output of comparator was high logic voltage, may command first and the 4th switch were for closing (OFF) second and the 3rd switch for opening (ON).Therefore, the 3rd constant current source I3 can supply the source terminal S2 that decides electric current to the two PMOS transistor Q2, and the second constant current source I2 can derive certain electric current from the source terminal S1 of a PMOS transistor Q1.
Hysteresis circuit of the present invention can make comparator have as shown in Figure 3 hysteresis characteristic.Also be, as the output signal Vout of the output of comparator during for low logic voltage, the first input signal Vin+ of the input of comparator must exceed a voltage difference I ' 2R than the second input signal Vin-, just can make output signal Vout be converted to high logic voltage by low logic voltage.When the output signal Vout of the output of comparator is high logic voltage, the first input signal Vin+ of the input of comparator must than the second input signal Vin-low a voltage difference I ' 2R, just can make output signal Vout be converted to low logic voltage by high logic voltage.Look the demand of side circuit design,, can produce one and not be subjected to fixing or adjustable magnetic hysteresis width of power supply and temperature effect by the selection of resistance value R and current value I.
With 6 (b) operating principle of the present invention is described hereinafter with reference to Fig. 5 (a) and 5 (b) and Fig. 6 (a).
Fig. 5 (a) and 5 (b) are the circuit operation key diagram of the output for comparator when being converted to high logic voltage by low logic voltage.As the output signal Vout of the output of comparator during for low logic voltage, because the first and the 4th switch is for opening (ON) second and the 3rd switch for cutting out (OFF), therefore, the first constant current source I1 can supply the source terminal S1 that decides electric current I to a PMOS transistor Q1, and the 4th constant current source I4 can derive certain electric current I from the source terminal S2 of the 2nd PMOS transistor Q2.At this moment, become to be higher than the second input signal Vin-if the first input signal Vin+ of the input of comparator increases gradually, then the 2nd PMOS transistor Q2 opens but a PMOS transistor Q1 does not close as yet.Therefore, shown in Fig. 5 (a), the electric current of a PMOS transistor Q1 conducting I/2, the electric current of first resistance R 1 of flowing through is I/2, the electric current of second resistance R 2 of flowing through is 3I/2, and the electric current of the 2nd PMOS transistor Q2 conducting I/2.Therefore, the voltage difference between the source terminal S2 of the source terminal S1 of a PMOS transistor Q1 and the 2nd PMOS transistor Q2 is: (I/2) ' and R+ (3I/2) ' R=I ' 2R.So, when the first input signal Vin+ of the input of comparator increases when becoming to be higher than the second input signal Vin-gradually, the output signal Vout of the output of comparator can't be converted to high logic voltage by low logic voltage at once, in the time of must being higher than I ' 2R at the voltage difference DV of the first input signal Vin+ and the second input signal Vin-, just can make output signal Vout be converted to high logic voltage by low logic voltage.
Shown in Fig. 5 (b), after output signal Vout was converted to high logic voltage by low logic voltage, the first and the 4th switch was for cutting out (OFF) second and the 3rd switch for opening (ON).Therefore, the first and the 4th constant current source I1 and I4 are considered as no longer existing, and the 3rd constant current source I3 can supply the source terminal S2 that decides electric current I to the two PMOS transistor Q2, and the second constant current source I2 can derive certain electric current I from the source terminal S1 of a PMOS transistor Q1.At this moment, a PMOS transistor Q1 closes, the 2nd PMOS transistor Q2 conducting electric current I.
Similarly, Fig. 6 (a) and 6 (b) are the circuit operation key diagrams when being converted to low logic voltage for the output of comparator by high logic voltage.When the output signal Vout of the output of comparator is high logic voltage, because the first and the 4th switch is for cutting out (OFF) second and the 3rd switch for opening (ON), therefore, the 3rd constant current source I3 can supply the source terminal S2 that decides electric current I to the two PMOS transistor Q2, and the second constant current source I2 can derive certain electric current I from the source terminal S1 of a PMOS transistor Q1.At this moment, be lower than the second input signal Vin-if the first input signal Vin+ of the input of comparator is reduced to gradually, then a PMOS transistor Q1 opens but the 2nd PMOS transistor Q2 does not close as yet.Therefore, shown in Fig. 6 (a), the electric current of the 2nd PMOS transistor Q2 conducting I/2, the electric current of second resistance R 2 of flowing through is I/2, the electric current of first resistance R 1 of flowing through is 3I/2, and the electric current of a PMOS transistor Q1 conducting I/2.Therefore, the voltage difference between the source terminal S2 of the source terminal S1 of a PMOS transistor Q1 and the 2nd PMOS transistor Q2 is :-(I/2) ' R-(3I/2) ' R=-I ' 2R.So, when the first input signal Vin+ of the input of comparator is reduced to when being lower than the second input signal Vin-gradually, the output signal Vout of the output of comparator can't be converted to low logic voltage by high logic voltage at once, must be lower than at the voltage difference DV of the first input signal Vin+ and the second input signal Vin--during I ' 2R, just can make output signal Vout be converted to low logic voltage by high logic voltage.
Shown in Fig. 6 (b), when output signal Vout was converted to low logic voltage by high logic voltage after, the first and the 4th switch was for opening (ON) second and the 3rd switch for cutting out (OFF).Therefore, the second and the 3rd constant current source I2 and I3 are considered as no longer existing, and the first constant current source I1 can supply the source terminal S1 that decides electric current I to a PMOS transistor Q1, and the 4th constant current source I4 can derive certain electric current I from the source terminal S2 of the 2nd PMOS transistor Q2.This moment, the 2nd PMOS transistor Q2 closed a PMOS transistor Q1 conducting electric current I.
In the concrete example of the invention described above, though be first to fourth constant current source I1 ~ I4 to be set at the 5th constant current source I5 have the identical current value I of deciding, and first resistance R 1 is set at second resistance R 2 has identical resistance value R, but person skilled in the art person should be appreciated that this kind setting is only non-limiting for illustrative.In other embodiments, each constant current source can have unequal current value, and each resistance can have unequal resistance value, by the selection of suitable current value and resistance value and the allotment of width, also can reach the effect identical with above-mentioned concrete example.
Hysteresis circuit of the present invention is not only applicable to differential input situation relatively, also applicable to single-ended input situation relatively.When being used for differential input relatively the time, be that two input Vin+ and the Vin-with comparator receives two signals of desiring to compare respectively; And when being used for single-ended input relatively the time, then the inverting input Vin-of comparator can being received a fixing DC reference voltage, and the non-inverting input Vin+ of comparator is received the signal of desiring to compare.In known techniques shown in Figure 2, because the input value of the inverting input of its comparator 26 limits by threshold voltage generator 22, so this circuit is not suitable for differential input situation relatively.In comparison, hysteresis circuit of the present invention can have wider range of application.
Though the present invention describes with reference to current specific embodiment, but those of ordinary skill in the art will be appreciated that, above embodiment is used for illustrating the present invention, under the situation that does not break away from spirit of the present invention, also can make the variation and the modification of various equivalences, therefore, as long as variation, the modification to the foregoing description all will drop in the scope of claims of the present invention in connotation scope of the present invention.
Claims (14)
1. hysteresis circuit that is used for comparator, this comparator has an input stage and comprises a first transistor and a transistor seconds, the gate terminal of this first transistor and this transistor seconds is respectively as two inputs of this comparator, in order to receive two input signals, this comparator also has a constant current source, in order to supply the input stage of certain electric current to this comparator, this hysteresis circuit comprises:
One first resistive element is coupled between the constant current source of the source terminal of this first transistor and this comparator;
One second resistive element is coupled between the constant current source of the source terminal of this transistor seconds and this comparator;
One first electric current-producing device, when the output output signal of this comparator is first logical value, this first electric current-producing device produces one first electric current and is supplied to the source terminal of this first transistor, and produces one the 4th electric current and derive the source terminal of this transistor seconds; And
One second electric current-producing device, when the output output signal of this comparator is second logical value, this second electric current-producing device produces one the 3rd electric current and is supplied to the source terminal of this transistor seconds, and produces one second electric current and derive the source terminal of this first transistor.
2. the hysteresis circuit that is used for comparator as claimed in claim 1 is characterized in that, this first to fourth electric current has identical current value.
3. the hysteresis circuit that is used for comparator as claimed in claim 1 is characterized in that the current value of this first to fourth electric current is equal to the current value of the constant current source of this comparator.
4. the hysteresis circuit that is used for comparator as claimed in claim 1 is characterized in that, this first resistive element has identical resistance value with this second resistive element.
5. the hysteresis circuit that is used for comparator as claimed in claim 1 is characterized in that, this first and second transistor is to be the PMOS transistor.
6. the hysteresis circuit that is used for comparator as claimed in claim 1, it is characterized in that, this first to fourth electric current has identical current value, and this first resistive element has identical resistance value with this second resistive element, the monolateral magnetic hysteresis width that hysteresis circuit produced of this comparator multiply by two times of these resistance values for this current value, and total magnetic hysteresis width is two times of monolateral magnetic hysteresis width.
7. hysteresis circuit that is used for comparator, this comparator has an input stage and comprises a first transistor and a transistor seconds, the gate terminal of this first transistor and this transistor seconds is respectively as two inputs of this comparator, in order to receive two input signals, this comparator also has a constant current source, in order to supply the input stage of certain electric current to this comparator, this hysteresis circuit comprises:
One first resistive element is coupled between the constant current source of the source terminal of this first transistor and this comparator;
One second resistive element is coupled between the constant current source of the source terminal of this transistor seconds and this comparator;
One switching device shifter, comprise one first switch element, a second switch element, one the 3rd switch element and one the 4th switch element, when the output output signal of this comparator is first logical value, this switching device shifter switch to this first and the 4th switch element for this second and the 3rd switch element of unlatching for closing, when the output output signal of this comparator was second logical value, this switching device shifter switched to this first and the 4th switch element for cutting out this second and the 3rd switch element for opening;
One first constant current source element is optionally supplied the source terminal of certain electric current to this first transistor by this first switch element;
One second constant current source element, optionally the source terminal from this first transistor derives certain electric current by this second switch element;
One the 3rd constant current source element is optionally supplied the source terminal of certain electric current to this transistor seconds by the 3rd switch element; And
One the 4th constant current source element, optionally the source terminal from this transistor seconds derives certain electric current by the 4th switch element.
8. the hysteresis circuit that is used for comparator as claimed in claim 7 is characterized in that, this first to fourth constant current source element can produce the electric current of deciding with same electrical flow valuve.
9. the hysteresis circuit that is used for comparator as claimed in claim 7 is characterized in that, the current value of this first to fourth constant current source element is equal to the current value of the constant current source of this comparator.
10. the hysteresis circuit that is used for comparator as claimed in claim 7 is characterized in that, this first resistive element has identical resistance value with this second resistive element.
11. the hysteresis circuit that is used for comparator as claimed in claim 7 is characterized in that, this first and second transistor is to be the PMOS transistor.
12. the hysteresis circuit that is used for comparator as claimed in claim 7, it is characterized in that, this first to fourth constant current source element can produce the electric current of deciding with same electrical flow valuve, and this first resistive element has identical resistance value with this second resistive element, the monolateral magnetic hysteresis width that hysteresis circuit produced of this comparator multiply by two times of these resistance values for this current value, and total magnetic hysteresis width is two times of monolateral magnetic hysteresis width.
13. hysteresis circuit that is used for comparator, this comparator has an input stage and comprises a first transistor and a transistor seconds, the gate terminal of this first transistor and this transistor seconds is respectively as two inputs of this comparator, in order to receive two input signals, this comparator also has a constant current source, in order to supply the input stage of certain electric current to this comparator, this hysteresis circuit comprises:
First and second resistive element, has identical resistance value, this first resistive element is coupled between the constant current source of the source terminal of this first transistor and this comparator, and this second resistive element is coupled between the constant current source of the source terminal of this transistor seconds and this comparator;
First to fourth constant current source element, in order to produce with the constant current source of this comparator decide current value identical decide electric current,
One first switch element is coupled between the source terminal of this first constant current source element and this first transistor, this first constant current source element is optionally supplied decided the source terminal of electric current to this first transistor;
One second switch element is coupled between the source terminal of this second constant current source element and this first transistor, makes this second constant current source element optionally derive certain electric current from the source terminal of this first transistor;
One the 3rd switch element is coupled between the source terminal of the 3rd constant current source element and this transistor seconds, the 3rd constant current source element is optionally supplied decided the source terminal of electric current to this transistor seconds;
One the 4th switch element is coupled between the source terminal of the 4th constant current source element and this transistor seconds, makes the 4th constant current source element optionally derive certain electric current from the source terminal of this transistor seconds; And
One switch element control device, be used to control the open and close of this first to fourth switch element, make when the output output signal of this comparator is first logical value, this the first and the 4th switch element for this second and the 3rd switch element of unlatching for closing, when the output output signal of this comparator was second logical value, this first and the 4th switch element was for closing this second and the 3rd switch element for opening.
14. the hysteresis circuit that is used for comparator as claimed in claim 13, it is characterized in that, the monolateral magnetic hysteresis width that the hysteresis circuit of this comparator produced is the resistance value that this current value of deciding electric current multiply by two times of these resistive elements, and total magnetic hysteresis width is two times of monolateral magnetic hysteresis width.
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CNB2003101028947A CN1305217C (en) | 2003-10-24 | 2003-10-24 | Hysteresis circuit used for comparator |
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CNB2003101028947A CN1305217C (en) | 2003-10-24 | 2003-10-24 | Hysteresis circuit used for comparator |
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CN1305217C CN1305217C (en) | 2007-03-14 |
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LU86788A1 (en) * | 1986-06-19 | 1987-07-24 | Siemens Ag | BROADBAND SIGNAL DEVICE |
JPH02301213A (en) * | 1989-05-15 | 1990-12-13 | Matsushita Electric Ind Co Ltd | Comparator with hysteresis |
IT1241394B (en) * | 1990-12-31 | 1994-01-10 | Sgs Thomson Microelectronics | COMPARATOR CIRCUIT WITH PRECISION HYSTERESIS AND HIGH INPUT IMPEDANCE |
JP2861868B2 (en) * | 1995-06-29 | 1999-02-24 | 日本電気株式会社 | Comparator with hysteresis |
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