KR101300741B1 - Cmos linear regulation and method for operating the same - Google Patents

Abstract

The present invention relates to a CMOS linear constant voltage regulator, comprising: an input terminal; An input voltage sensing unit configured to receive an input voltage from an input terminal and compare the preset voltage with a preset reference voltage P and transmit a comparison result signal to a mux switch of the error amplifier unit; An error amplifier unit receiving a preset voltage and transmitting an output signal output according to a comparison result signal of the input voltage sensing unit to the switch unit; A switch unit which operates according to an output signal of the error amplifier unit and applies an input voltage to the output terminal; A feed back control unit configured to sense an output voltage applied by the switch unit to the output terminal, apply a portion of the output voltage to the error amplifier unit to form a feedback loop, and improve stability of the output voltage; And an output terminal for outputting a constant output voltage applied from the switch unit. .
According to the present invention as described above, by using the N-type switch of the limited operation at a low input voltage and the P-type switch of the limited operation at a high input voltage, it is possible to operate at a wide range of input voltage It works

Description

CMOS linear constant voltage regulator and its operation method {CMOS LINEAR REGULATION AND METHOD FOR OPERATING THE SAME}

The present invention relates to a CMOS linear constant voltage regulator of a wide input voltage range, and more specifically, by using a combination of the N-type switch for a limited operation at a low input voltage and the P-type switch for a limited operation at a high input voltage, The present invention relates to a technology that enables operation over a wide range of input voltages.

The pass element of the linear regulator typically has two types, N-type and P-type. When selecting a pass element, a suitable device must be selected according to the regulator's specifications and process conditions. Generally, a P-type power switch is used for a regulator design for a low input voltage range and a regulator design for a high input voltage range. Use N-type Power Switch.

When using an NMOS transistor as a pass element, a source node is connected to an output terminal to form a structure of a source follower. This lowers the equivalent impedance of the output stage and has the advantage of reacting quickly to sudden changes in load. However, the operation of N-type MOSFETs in low input voltage range regulators where the dropout voltage is not sufficient because the minimum dropout voltage required for the NMOS transistor to supply the output current is the sum of Vgs and Vdsat has a high dropout voltage. Limited.

When using a PMOS transistor as a pass element, it has a lower dropout voltage than the N-type, making it suitable for regulators in the low input voltage range. However, when used in a regulator with a high input voltage range, a driver core designed for low voltage cannot be used because the control voltage must rise to a high input voltage at no load. As a result, the operation of the P-type MOSFET is limited over the high input voltage range.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, by using a N-type switch having a limited operation at a low input voltage and a P-type switch having a limited operation at a high input voltage. Its purpose is to operate in.

The present invention for achieving the above technical problem relates to a CMOS linear constant voltage device, the input terminal for applying an input voltage to the input voltage sensing unit; An input voltage sensing unit for transmitting a signal to a mux switch of the error amplifier unit by comparing an input voltage applied from the input terminal with a preset reference voltage P; An error amplifier unit receiving a preset voltage and transmitting a signal output according to a signal of an input voltage sensing unit to a switch unit; A switch unit operating according to the signal of the error amplifier unit and applying an input voltage to the output terminal; A feed back control unit configured to sense an output voltage applied by the switch unit to the output terminal, apply a part of the output voltage to the error amplifier unit to form a feedback loop, and improve the stability of the feedback loop and the output voltage; An output terminal for outputting a constant output voltage; .

In addition, the input voltage sensing unit senses an input voltage applied from the input terminal, and when the input voltage is lower than the reference voltage P, the reference voltage P is applied to the hysteresis comparator, and the input voltage higher than the reference voltage P. Is a resistor 1 for applying an input voltage to the hysteresis comparator; And a hysteresis comparator for transmitting an output signal to the mux switch of the error amplifier unit through a reference voltage P or an input voltage applied from the resistor 1; Characterized in that it comprises a.

The switch unit may further include: a P-type switch having a Mux switch of the error amplifier unit connected to the node X and operating through a signal received from the error amplifier unit to apply an input voltage to the output terminal; And an N-type switch having a Mux switch of the error amplifier unit connected to the node Y and operating through a signal received from the error amplifier unit to apply an input voltage to the output terminal. Characterized in that it comprises a.

The feedback control unit may further include: a resistor 2 for sensing an output voltage applied to the output terminal and applying a part of the output voltage to the error amplifier unit to form a feedback loop; And a capacitor and a load to improve stability of the output voltage applied to the feedback loop and the output terminal. And < RTI ID = 0.0 >

The error amplifier unit includes four nodes A, B, C, and D, respectively, and receives a predetermined voltage, and the mux switch is connected to X or Y according to an output signal applied from the input voltage sensing unit. It characterized in that it comprises transmitting a signal to.

On the other hand, the present invention relates to a CMOS linear constant voltage regulator of a wide input voltage range, the method of operating a CMOS linear constant voltage regulator, the input voltage sensing unit is applied to the input voltage from the input terminal (a) process; (B) transmitting the comparison result signal to the error amplifier unit by comparing the input voltage sensing unit with the input voltage applied from the input terminal and the preset reference voltage P; (C) transmitting an output signal to the switch unit by connecting the node with the node X through a signal received from the input voltage sensing unit by the error amplifier unit; (D) operating the P-type switch of the switch unit through an output signal received from the error amplifier unit, and applying an input voltage applied from the input terminal to the output terminal; (E) the feedback control unit applying a part of the output voltage to the error amplifier unit; (F) the output terminal outputting a constant output voltage; (g) after the process, the error amplifier connects to the node Y through the signal received from the input voltage sensing unit and transmits the output signal to the switch unit (g); (H) operating the N-type switch of the switch unit through an output signal received from the error amplifier unit, and applying an input voltage applied from the input terminal to the output terminal; (I) the feedback controller applying part of the output voltage to the error amplifier unit; (J) the output terminal 600 outputs a constant output voltage; .

In addition, the process (c) includes the step (c-1) in which node A of the error amplifier unit is connected to node C and node B is connected to node D; (C-2) the Mux switch of the error amplifier unit connects the output of the error amplifier unit and the node X; And (c-3) transmitting an error signal to the P-type switch of the switch unit.

In addition, (e) the step, (e-1) receiving an output voltage from the switch unit; Resistor 2 of the feedback control unit detects the output voltage and applies a portion of the output voltage to the error amplifier unit to form a feedback loop (e-2); (E-3) improving the stability of the feedback loop and the output voltage by the capacitor and the load of the feedback controller; Characterized in that it comprises a.

In addition, the step (g) includes the step (g-1) in which node A of the error amplifier unit is connected to node D and node B is connected to node C; (G-2) the Mux switch of the error amplifier unit connects the node Y with the output of the error amplifier unit; (G-3) sending an error amplifier signal to the N-type switch of the switch unit; Characterized in that it comprises a.

According to the present invention as described above, by using the N-type switch of the limited operation at the input voltage and the P-type switch of the limited operation at the high input voltage, it is possible to operate at a wide range of input voltage There is.

And according to the present invention, by using a part of the output voltage as an internal power source, there is an effect of reducing power consumption.

1 is an overall configuration diagram of a CMOS linear constant voltage regulator according to the present invention.
2 is a block diagram of an input voltage sensing unit of a CMOS linear constant voltage generator according to the present invention;
3 is a block diagram of an error amplifier unit of the CMOS linear constant voltage generator according to the present invention;
4 is a block diagram of a switch unit of a CMOS linear constant voltage generator according to the present invention;
5 is a configuration diagram of a feedback control unit of the CMOS linear constant voltage generator according to the present invention.
6 is a flow chart of a method of operating a CMOS linear constant voltage regulator in accordance with the present invention.
7 is a detailed flowchart of step S30 of a method of operating a CMOS linear constant voltage regulator according to the present invention;
8 is a detailed flowchart of process S50 of a method of operating a CMOS linear constant voltage generator according to the present invention;
9 is a detailed flowchart of step S70 of a method of operating a CMOS linear constant voltage generator according to the present invention;

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

Hereinafter, a detailed description will be given on the basis of the accompanying drawings for the CMOS linear constant voltage of a wide input voltage range according to the present invention.

1 is a block diagram of a CMOS linear constant voltage of a wide input voltage range according to the present invention.

As shown in FIG. 1, the CMOS linear constant voltage controller having a wide input voltage range according to the present invention includes an input terminal 100, an input voltage sensing unit 200, an error amplifier unit 300, a switch unit 400, and a feedback control unit. 500) and the output terminal 600 is configured.

First, as shown in FIG. 2, the input voltage sensing unit 200 compares the voltage received from the input terminal 100 with a preset reference voltage P, and has an input voltage lower than the reference voltage P. In this case, a comparison signal connecting the error amplifier unit 300 and the X node is transmitted.

,

)(210) 및 Hysteresis 비교기(220)를 포함하여 구성된다.In addition, when the input voltage sensing unit 200 has a voltage higher than the reference voltage P, the input voltage sensing unit 200 transmits a comparison signal connecting the error amplifier unit 300 to the Y node.

,

) 210 and Hysteresis comparator 220.

Specifically, the resistance 1 210 of the input voltage sensing unit 200 serves to sense an input voltage, and when the input voltage lower than the reference voltage P is applied, the reference voltage P is hysteresis. When applied to the comparator 220 and received an input voltage higher than the reference voltage P, the hysteresis comparator 220 is operated by applying the input voltage to the hysteresis comparator 220.

In addition, when the hysteresis comparator 220 receives an input voltage lower than the reference voltage P, the output of the hysteresis comparator 220 always maintains High = 1, so that the error amplifier is connected through the Mux switch 310 of the error amplifier 300. Connect the output of the unit 300 and the X node.

When the input voltage higher than the reference voltage P is applied, the hysteresis comparator 220 operates, and the output of the error amplifier 300 is output through the mux switch 310 of the error amplifier 300. Disconnect the X node connected to and connect to the Y node.

)을 인가받고, 상기 입력전압 센싱부(200)로부터 인가받은 신호에 따라 Mux 스위치(310)를 통해 X 또는 Y 노드와 연결되며, 스위치부(400)에 신호를 공급하고, 이때, 피드백 제어부(500)로부터 출력전압의 일부값(피드백 전압)이 상기 에러엠프(320)에 인가됨으로써 피드백 루프가 형성되어 에러엠프(320)의 내부전원으로 사용된다.In addition, as shown in FIG. 3, the error amplifier unit 300 includes four nodes each of A, B, C, and D, and includes a preset voltage (

) Is connected to the X or Y node through the Mux switch 310 according to the signal received from the input voltage sensing unit 200, and supplies a signal to the switch unit 400. A partial value (feedback voltage) of the output voltage from 500 is applied to the error amplifier 320 to form a feedback loop, which is used as an internal power supply of the error amplifier 320.

이다.The feedback voltage which is a part of the output voltage is =

to be.

In addition, at an input voltage lower than the reference voltage P, node A of the error amplifier unit 300 is connected to node C, and node B is connected to node D.

In addition, when the input voltage is higher than the reference voltage P, the node A of the error amplifier unit 300 is connected to the node D, and the node B is connected to the node C.

In addition, as shown in FIG. 4, the switch unit 400 operates by a signal received from the error amplifier unit 300 to apply an input voltage to the output terminal 600 and the feedback control unit 500. It is configured to include a P-type switch 410 and the N-type switch 420.

In detail, the P-type switch 410 has a lower input voltage than the reference voltage P, and the Mux switch 310 of the error amplifier 300 is configured to output the error amplifier 320 by the output value of the hysteresis comparator 220. If you wire the output to node X, it works.

In addition, in the N-type switch 420, the input voltage is higher than the reference voltage P, and the mux switch 310 of the error amplifier unit 300 outputs the error amplifier 320 by the output value of the hysteresis comparator 220. If you connect node Y with, it works.

At this time, as the output of the error amplifier 320 is disconnected from the node X, the P-type switch 410 does not operate.

Meanwhile, referring to FIG. 5, a feedback controller 500 of a CMOS linear constant voltage regulator having a wide input voltage range according to the present invention will be described below.

,

)(510), 커패시터(

)(520) 및 부하(LOAD)(530)를 포함하여 구성된다.The feedback controller 500 applies a voltage applied through the operation of the switch unit 400 to the output terminal 600, and applies a feedback voltage, which is part of the output voltage, to the error amplifier 300 to form a feedback loop. To output a constant output voltage to the output terminal 600, the resistor 2 (

,

) 510, capacitor (

520) and a load (LOAD) 530.

Specifically, the resistor 2 510 senses an output voltage and applies a feedback voltage to the error amplifier 300 to form a feedback loop, thereby outputting a constant output voltage to the output terminal 600.

이고 출력전압은 =

이다.At this time, the feedback voltage is =

And the output voltage is =

to be.

In addition, the capacitor 520 and the load 530 serve to increase the stability of the feedback loop and the output voltage.

Hereinafter, a method for a CMOS linear constant voltage device having a wide input voltage range according to the present invention will be described with reference to FIG. 6.

First, the input voltage sensing unit 200 receives an input voltage from the input terminal 100 (S10).

Next, the input voltage sensing unit 200 compares the input voltage and the reference voltage P, and determines whether the input voltage is lower than the reference voltage P (S20).

Subsequently, when the input voltage is lower than the reference voltage P, the error amplifier 300 is connected to the node X to apply a signal to the P-type switch 410 (S30).

Subsequently, the P-type switch 410 of the switch unit 400 applies an input voltage applied from the input terminal to the output terminal (S40).

Subsequently, the feedback controller 500 applies a part of the output voltage to the error amplifier 300 to form a feedback loop (S50).

Finally, the output terminal 600 outputs a constant output voltage (S60).

On the other hand, when the determination result of step S20, when the input voltage is higher than the reference voltage (P), the error amplifier 300 is connected to the node Y and applies a signal to the N-type switch 420 (S70).

Subsequently, the N-type switch 420 of the switch unit 400 applies an input voltage applied from the input terminal to the output terminal (S80).

Finally, the procedure is performed from step S80 to step S50.

Specifically, referring to FIG. 7, a detailed process of operation S30 of the method of operating a CMOS linear constant voltage regulator having a wide input voltage range according to the present invention will be described below.

Node A of the error amplifier unit 300 connects to node C, and node B connects to node D (S31).

Here, the Mux switch 310 of the error amplifier unit 300 connects the output of the error amplifier 320 and the node X (S32).

The error amplifier 320 sends a signal to the P-type switch 410 of the switch unit 400 (S33).

In addition, referring to FIG. 8, a detailed process of the S50 process of the method of operating the CMOS linear constant voltage regulator of the wide input voltage range according to the present invention will be described below.

After the S40 process, the output voltage is applied from the switch unit 400 (S51).

Next, the resistor 2 510 senses the output voltage and applies a part of the output voltage to the error amplifier 300 to form a feedback loop (S52).

Then, the capacitor 520 and the load 530 improves the stability of the feedback loop and the output voltage (S53).

In addition, referring to FIG. 9, a detailed process of operation S70 of a method of operating a CMOS linear constant voltage regulator having a wide input voltage range according to the present invention will be described below.

Node A of the error amplifier unit 300 connects to node D, and node B connects to node C (S71).

Here, the Mux switch 310 of the error amplifier 300 blocks the connection of the node X and the output of the error amplifier 300 (S72).

Subsequently, the P-type switch 410 of the switch unit 400 is turned off (S73).

Subsequently, the Mux switch 310 of the error amplifier 300 connects the node Y and the output of the error amplifier 300 (S74).

Then, the error amplifier 300 sends a signal to the P-type switch 410 of the switch 400 (S75).

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100: input terminal 200: input voltage sensing unit
210: resistance 1 220: Hysteresis comparator
300: error amplifier 310: Mux switch
320: error amplifier 400: switch unit
410: P-type switch 420: N-type switch
500: feedback control unit 510: resistance 2
520: capacitor 530: load
600: output terminal

Claims (10)

For CMOS linear constant voltage
Input terminal 100;
An input voltage sensing unit 200 receiving an input voltage from the input terminal 100 and comparing a preset reference voltage P to a Mux switch 310 of the error amplifier 300 to transmit a comparison result signal;
An error amplifier unit 300 receiving a preset voltage and transmitting an output signal output according to the comparison result signal of the input voltage sensing unit 200 to the switch unit 400;
A switch unit 400 operating according to the output signal of the error amplifier unit 300 to apply an input voltage to the output terminal 600;
The feedback unit detects an output voltage applied by the switch unit 400 to the output terminal 600, applies a part of the output voltage to the error amplifier unit 300 to form a feedback loop, and improves the stability of the output voltage. 500; And
An output terminal 600 for outputting a constant output voltage applied from the switch unit 400; CMOS linear constant voltage comprising a.
The method of claim 1,
The input voltage sensing unit 200,
When the input voltage applied from the input terminal 100 is sensed and the input voltage is lower than the reference voltage P, the reference voltage P is applied to the hysteresis comparator 220 and the input voltage higher than the reference voltage P. In the case of the resistor 1 (210) for applying an input voltage to the Hysteresis comparator 220; And
A hysteresis comparator 220 for transmitting a comparison result signal to the mux switch 310 of the error amplifier unit 300 through a reference voltage P or an input voltage applied from the resistor 1 210; CMOS linear constant voltage comprising a.
The method of claim 1,
The error amplifier unit 300,
Each of four nodes A, B, C, and D contains a preset voltage (

) Is applied, and is connected to the X or Y of the Mux switch 310 in accordance with the output signal received from the input voltage sensing unit 200, CMOS linear constant voltage, characterized in that for transmitting a signal to the switch unit 400 .
The method of claim 1,
The switch unit 400,
A P-type switch 410 in which the error amplifier unit 300 is connected to the node X to operate through a signal received from the error amplifier unit 300 to apply an input voltage to the output terminal 600; And
An N-type switch 420 connected to the node Y and operated through a signal received from the error amplifier 300 to apply an input voltage to the output terminal 600; CMOS linear constant voltage comprising a.
The method of claim 1,
The feedback control unit 500 is.
Resistor 2 (510) to sense the output voltage applied to the output terminal 600, to apply a portion of the output voltage to the error amplifier 300 to form a feedback loop; And
A capacitor 520 and a load 530 for improving the stability of the output voltage applied to the feedback loop and the output terminal 600; CMOS linear constant voltage comprising a.
In the method of operating a CMOS linear constant voltage,
(a) a process in which the input voltage sensing unit 200 receives an input voltage from the input terminal 100;
(b) the input voltage sensing unit 200 comparing the input voltage received from the input terminal 100 with a preset reference voltage P;
(c) If the input voltage is lower than the reference voltage (P) as a result of determining the process (b), the error amplifier unit 300 is connected to the node X through the signal received from the input voltage sensing unit 200 and output signal Transmitting to the switch unit 400;
(d) The P-type switch 410 of the switch unit 400 operates through the output signal received from the error amplifier unit 300, and outputs the input voltage received from the input terminal 100 to the output terminal 600. Process of application;
(e) the feedback controller 500 applying a part of the output voltage to the error amplifier 300; And
(f) the output terminal outputting a constant output voltage; Method of operation of a CMOS linear constant voltage comprising a.
The method according to claim 6,
(g) When the input voltage is higher than the reference voltage P as a result of the determination of step (b), the error amplifier 300 connects to the node Y through the signal received from the input voltage sensing unit 200. Transmitting an output signal to the switch unit 400;
(h) The N-type switch 420 of the switch unit 400 operates through the output signal received from the error amplifier unit 300, and outputs the input voltage received from the input terminal 100 to the output terminal 600. Process of application;
(i) the feedback control unit 500 applying a part of the output voltage to the error amplifier unit 300; And
(j) outputting a constant output voltage by the output terminal 600; Method of operation of a CMOS linear constant voltage comprising a.
The method according to claim 6,
The step (c)
(c-1) node A of the error amplifier unit 300 connected to node C and node B connected to node D;
(c-2) the Mux switch 310 of the error amplifier unit 300 connecting the node X to the output of the error amplifier unit 300; And
(c-3) transmitting the signal from the error amplifier 320 of the error amplifier unit 300 to the P-type switch 410 of the switch unit 400; Method of operation of a CMOS linear constant voltage comprising a.
The method according to claim 6,
The above (e) process,
(e-1) receiving an output voltage from the switch unit 400; And
(e-2) forming a feedback loop by applying a part of the output voltage to the error amplifier unit 300 by sensing the output voltage by resistance 2 510 of the feedback control unit 500; Method of operation of a CMOS linear constant voltage comprising a.
8. The method of claim 7,
(G) process,
(g-1) the node A of the error amplifier unit 300 connected to the node D, and the node B connected to the node C;
(g-2) the Mux switch 310 of the error amplifier unit 300 connecting the node Y to the output of the error amplifier unit 300; And
(g-3) transmitting the signal to the N-type switch 420 of the switch unit 400 by the error amplifier 320 of the error amplifier unit 300; Method of operation of a CMOS linear constant voltage comprising a.

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