阅读说明：本技术 一种用于ldo抗干扰并带有逻辑控制的误差比较器 (Error comparator with logic control and used for LDO anti-interference ) 是由 任明远 高天航 刘驰 于 2019-11-06 设计创作，主要内容包括：当今现代社会电子产业发展日新月异,集成电路产品也深入影响人们的生活,在满足人们对于各类电子信息相关的需求的同时,各类电路的设计中也面临着各式各样的困难和瓶颈,为了使IC产品能更有效的满足市场需求,能有更良好的性能和质量,低功耗、高电源抑制比的IC产品设计也是广大模拟IC设计者所追求的目标,改善一种新型误差放大器在LDO中的使用,具有低功耗,低噪声,高纹波抑制的能力,从而使输出不受干扰更稳定更准确可靠,这一点在绝大多数的电子产品中都是不可或缺的。(The modern society electronic industry development is different day by day, the integrated circuit product also deeply influences people's life, while satisfying people to the relevant demand of all kinds of electronic information, also face various difficulties and bottlenecks in the design of all kinds of circuits, in order to make the IC product can more effectively satisfy market demand, can have better performance and quality, the IC product design of low-power consumption, high power supply rejection ratio is the goal that vast analog IC designers pursue, improve the use in LDO of a novel error amplifier, have low-power consumption, low noise, the ability of high ripple suppression, thus make the output undisturbed more stable more accurate reliable, this one is indispensable in most electronic products.)

1. An error comparator with logic control for LDO interference resistance mainly comprises; high accuracy benchmark circuit module (1), have error comparator module (2) of three submodule piece, submodule piece low noise processing circuit module (4), frequency compensation circuit module (3), logic control switch module (5), wherein: high-precision reference circuit module (1): the reference voltage has high precision and small temperature drift coefficient and provides stable reference voltage which is not influenced by temperature; error comparator module (2): amplifying the difference value between the reference voltage Vref and the feedback voltage Vfb to adjust the output voltage, and controlling the output voltage of the whole system to be stabilized at the reference voltage; frequency compensation circuit module (3): the circuit module utilizes a zero-pole offset compensation method and a capacitance compensation mode to construct a noise front feedback circuit, so that the power interference resistance of the error comparator is greatly improved; noise processing circuit module (4): the gain is improved by using a cascode structure, a part of noise is eliminated by using a transconductance amplifier structure, and the dependence of a circuit on a power supply caused by a channel modulation effect is reduced; logic control switch module (5): the frequency compensation circuit module (3) and the low noise processing circuit module (4) are connected in series to obtain a pure low noise signal, the pure low noise signal is converted into a digital signal, and the switching frequency is reduced under a certain condition while the suitable voltage is selected and output according to the condition, so that the power consumption is reduced to the maximum extent.

2. The error comparator with logic control for LDO interference rejection of claim 1, wherein the error comparator has a cascode circuit structure for increasing the gain and the power supply rejection ratio, the circuit structure comprises PMOS transistors M1, M2, M4, M5, and M3; NMOS tubes M16, M17, M14 and M15; the PMOS transistor M1 has a source connected with Vin, a gate connected with the source and drain of M4, and a drain connected with the source of M2; the grid electrode of the PMOS tube M2 is connected with the base stage of M12, the drain stage is connected with the drain stage of M3 and is connected with the base stages of M3, M15 and M17; the source electrode of the PMOS pipe M4 is connected with Vin, and the drain electrode of the PMOS pipe M6 is connected with the drain electrode of the PMOS pipe M4; the source electrode of the PMOS tube M5 is connected with Vin, the grid electrode of the PMOS tube M11 is connected with the grid electrode of the PMOS tube M3526 and the resistor R1, and the drain electrode of the PMOS tube M14 is connected with the drain electrode of the PMOS tube M14; the source electrode of the PMOS transistor M3 is connected with the ground, and the grid electrode of the PMOS transistor M15 is connected with the grid electrode of the N8; the grid electrode of the NMOS tube M16 is connected with the grid electrode of M14, the drain electrode is connected with the source electrode of M13, and the source electrode is connected with the drain electrode of M17; the source stage of the NMOS tube M17 is connected with the ground; the source electrode of the NMOS tube M14 is connected with the drain electrode of the M15, and the drain electrode of the NMOS tube M11 is connected with the drain electrode of the NMOS tube M15; the source of the NMOS transistor M15 is connected to ground.

3. The error comparator with logic control for LDO jamming immunity according to claim 1, characterized in that the low noise processing circuit module (3) eliminates noise in the first stage using transconductance amplifier structure, and its circuit structure includes NMOS transistors M8, M9, M6, M7, M10; the grid electrode of the NMOS tube M8 is connected with a band gap reference voltage node, the source electrode is connected with the source electrode of M9 and is connected with the drain electrode of M10, the grid electrode of the NMOS tube M9 is connected with a feedback voltage node, the source electrode is connected with the drain electrode of M10, and the drain electrode is connected with the source electrode of M7; the grid electrode of the NMOS tube M6 is connected with the grid electrode of M7, and the drain electrode of the NMOS tube M4 is connected with the drain electrode of the NMOS tube M6; the drain of the NMOS transistor M7 is connected to the drain of M5 and to the gate of M11.

4. An error comparator with logic control for LDO interference rejection according to claim 1, characterized in that the frequency compensation circuit module (3) is used to form a noise feedforward circuit by using frequency compensation, thereby effectively improving the power supply rejection capability of the error amplifier; the circuit structure comprises PMOS tubes M11 and M12, an NMOS tube M13, a resistor R1, capacitors C1 and C2; the grid electrode of the PMOS tube M11 is connected with the grid electrode of M5, the drain electrode of M5, the drain electrode of M7, one end of a resistor R1, the source electrode of the resistor R1 is connected with Vin, and the drain electrode of the PMOS tube M14 is connected with the grid electrode of M13; the grid electrode of the PMOS tube M12 is connected with the grid electrode of M2, the source electrode is connected with Vin, and the drain electrode is connected with the capacitor C1; the other end of the capacitor C1 is connected with the grid electrode of the M13 and the drain electrodes of the M11 and the M14; one section of the capacitor C2 is connected with the resistor R1.

5. The error comparator with logic control for LDO interference rejection according to claim 1, characterized by adding a logic control switch circuit module (5) to realize the function of converting analog signals into digital signals, and having logic processing capability, selecting suitable output voltage according to conditions, selecting suitable operation mode, and providing the most suitable duty ratio according to the requirements of conditions to reduce the switching frequency under certain conditions, thereby reducing the power consumption to the maximum extent.

Technical Field

The invention relates to a low-power consumption and high-power supply rejection ratio error amplifier used in an LDO (low dropout regulator), which relates to a low-noise circuit structure and a high-power supply rejection ratio circuit structure of the error amplifier, and a logic control switch is added in the LDO to control the working state of load driving, so that the anti-jamming capability of the circuit is greatly improved, and the invention belongs to the field of analog integrated circuit design and integrated circuit systems.

Background

The modern society electronic industry development is different day by day, the integrated circuit product also deeply influences people's life, while satisfying people to the relevant demand of all kinds of electronic information, also face various difficulties and bottlenecks in the design of all kinds of circuits, in order to make the IC product can more effectively satisfy market demand, can have better performance and quality, the IC product design of low-power consumption, high power supply rejection ratio is the goal that vast analog IC designers pursue, improve the use in LDO of a novel error amplifier, have low-power consumption, low noise, the ability of high ripple suppression, thus make the output undisturbed more stable more accurate reliable, this one is indispensable in most electronic products.

Disclosure of Invention

The invention aims to effectively overcome the technical bottleneck in the prior art, provides an error amplifier which has strong anti-interference capability, low noise, extremely high power supply rejection ratio and low power consumption and has various condition selection modes, and a logic control switch module is added in the error amplifier. In a circuit system sensitive to noise, smooth direct-current supply voltage can be provided for an IC, and power supply ripples brought by an external circuit can be effectively resisted.

The invention comprises a high-precision reference circuit module (1), an error comparator module (2) and three sub-modules: the frequency compensation module (3), the low noise processing module (4) and the logic control switch module (5), Vdd is used as the working voltage of the high-precision circuit module (1) and the error comparator (2), and is also used as the input of the high-precision comparator (1), and the stable voltage is output from the error comparator (2), the above purpose of the invention is mainly realized by the following scheme:

high-precision reference circuit module (1): the high-precision reference voltage Vref has high-precision characteristic, low working voltage and smaller temperature drift coefficient, provides stable reference voltage Vref for the error comparator, and is used as one end input of the error comparator (2).

Error comparator module (2): the output Vref of the high-precision reference circuit (1) and the negative feedback voltage Vfb of RA and RB form two-terminal input, thereby adjusting the output voltage. The error comparator (2) comprises three sub-modules, namely a frequency compensation module (3), a low noise processing module (4) and a logic control switch module (5), and the three sub-modules are explained as follows.

Frequency compensation circuit module (3): the module utilizes a zero-pole compensation method and a capacitance compensation mode to construct a noise front feedback circuit, so that the power supply interference resistance of the error comparator is greatly improved, and the power supply rejection ratio is increased.

Low noise processing circuit module (4): the transconductance amplifier structure is used for eliminating part of noise while improving the gain by using the cascode structure, and meanwhile, the dependency of the circuit on a power supply is also reduced.

Logic control switch module (5): pure low-noise signals are obtained at the cascade output end of the frequency compensation (3) and the low-noise processing (4) and are converted into digital signals, suitable voltage is selected and output according to conditions, a suitable working mode can be selected, and meanwhile, the most suitable duty ratio is provided according to the condition requirements, so that the switching frequency can be reduced under a certain condition, and the power consumption is reduced to the maximum extent.

Drawings

FIG. 1 is a schematic diagram of an error comparator with logic control for LDO interference rejection according to the present invention;

fig. 2 is a schematic diagram of a circuit structure selection module for cascade connection of the frequency compensation module (2) and the low noise processing module (3) according to the present invention.

Detailed Description

In order to further introduce the specific content of the invention and the structural characteristics of the circuit and solve the defects of weak noise resistance and weak power supply ripple rejection capability of the existing circuit, a control logic switch module is added, and an error comparator can select a working mode and control the switching frequency to further reduce the power consumption. The invention is described in detail with particular reference to the accompanying drawings:

the invention improves an error comparator which is used for LDO anti-interference and has logic control, and is used for solving the problem of low anti-interference power supply rejection capability of the error comparator. Fig. 2 is a schematic diagram of the circuit structure selection module of the invention, and the reference circuit module improves the circuit precision, improves the influence of noise on the circuit system, improves the anti-interference capability of the circuit, and increases the power supply rejection ratio. The power consumption can be maximally reduced, and a voltage mode more meeting the requirement is provided by means of logic control switches.

An error comparator with logic control for LDO interference resistance improves the influence of noise on a circuit system, improves the interference resistance of the circuit and increases the power supply rejection ratio.

An error comparator with logic control for LDO interference rejection features that the power consumption can be maximally reduced, and the logic control switches are used to match the optimal PMW duty cycle to provide a more desirable voltage pattern.

An error comparator with logic control and used for LDO interference resistance improves gain and power supply rejection ratio of the error comparator by using a cascode circuit structure, and the circuit structure comprises PMOS tubes M1, M2, M4, M5 and M3. NMOS transistors M16, M17, M14 and M15, wherein a PMOS transistor M1 is connected with Vin at the source stage, a grid electrode is connected with the source stage and the drain stage of M4, and the drain stage is connected with the source stage of M2. The grid of the PMOS transistor M2 is connected with the base stage of M12, the drain is connected with the drain of M3, and is connected with the base stages of M3, M15 and M17. The source of the PMOS transistor M4 is connected to Vin, and the drain is connected to the drain of M6. The source of the PMOS transistor M5 is connected with Vin, the gate is connected with the gate of M11 and the resistor R1, and the drain is connected with the drain of M14. The source of the PMOS transistor M3 is connected to ground, and the gate is connected to the gates of M15 and N8. The gate of the NMOS transistor M16 is connected to the gate of M14, the drain is connected to the source of M13, and the source is connected to the drain of M17. The source of the NMOS transistor M17 is connected to ground. The source of the NMOS transistor M14 is connected to the drain of M15, and the drain is connected to the drain of M11. The source of the NMOS transistor M15 is connected to ground.

An error comparator with logic control for LDO interference resistance uses a transconductance amplifier structure to eliminate noise in a first stage, and a circuit mechanism of the error comparator comprises NMOS tubes M8, M9, M6, M7 and M10, wherein a grid electrode of the NMOS tube M8 is connected with a band gap reference voltage node, a source electrode of the NMOS tube M3526 is connected with a source electrode of M9, and a drain electrode of the NMOS tube M10 is connected with a drain electrode of the NMOS tube M7. The gate of the NMOS transistor M9 is connected to the feedback voltage node, the source is connected to the drain of M10, and the drain is connected to the source of M7. The gate of the NMOS transistor M6 is connected to the gate of M7, and the drain is connected to the drain of M4. The drain of the NMOS transistor M7 is connected to the drain of M5 and to the gate of M11.

An error comparator used for LDO interference resistance and provided with logic control forms a noise front feedback circuit by using a frequency compensation mode, and further effectively improves the power supply rejection capability of an error amplifier. The circuit structure comprises PMOS tubes M11 and M12, an NMOS tube M13, a resistor R1, capacitors C1 and C2, wherein the grid electrode of the PMOS tube M11 is connected with the grid electrode of the M5, the drain electrode of the M5, the drain electrode of the M7 and one end of the resistor R1, the source electrode of the PMOS tube is connected with Vin, and the drain electrode of the PMOS tube M14 is connected with the grid electrode of the M13. The grid electrode of the PMOS pipe M12 is connected with the grid electrode of M2, the source electrode is connected with Vin, and the drain electrode is connected with the capacitor C1. The other end of the capacitor C1 is connected with the grid of M13 and the drain of M11 and M14. One end of the capacitor C2 is connected with the resistor R1.

In view of the foregoing, it is to be understood that the principles of the invention have been described in connection with the above description. The scope of the invention is not limited thereto. Any simple structural changes made by anyone skilled in the art within the scope of the disclosure of the present invention are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the scope of the claims.