CN203537232U

CN203537232U - Charge pump device

Info

Publication number: CN203537232U
Application number: CN201320591174.0U
Authority: CN
Inventors: 王钊
Original assignee: Wuxi Vimicro Corp
Current assignee: Zgmicro Corp
Priority date: 2013-09-25
Filing date: 2013-09-25
Publication date: 2014-04-09
Anticipated expiration: 2023-09-25

Abstract

The utility model relates to a charge pump device. The device comprises a voltage input unit, a voltage conversion unit, a drive unit and a voltage output unit. The voltage input unit at least includes a first input power supply and a second input power supply, and used for providing two or more input voltages for the charge pump, and charging capacitors in the voltage conversion unit. The voltage conversion unit includes a capacitor group and a plurality of electronic switches connected with the capacitor group, and is used for converting the voltage by charging and discharging the capacitors in the capacitor group. The drive unit is used for providing non-overlapping time sequence signals for turning on or off the plurality of electronic switches, thereby enabling the voltage input unit to charge or discharge the capacitors in the capacitor group. The voltage output unit is connected with the voltage conversion unit and used for outputting a voltage through an output terminal. Under the control of the non-overlapping time sequence signals, the electronic switches are turned on and off correspondingly so as to control output capacitors to output a voltage stepped up or down by corresponding times. According to the embodiments of the utility model, the power supply efficiency of voltage conversion of the charge pump is increased.

Description

Charge pump apparatus

Technical field

The utility model relates to integrated circuit fields, relates in particular to a kind of charge pump apparatus.

Background technology

At present, there are two kinds of classical circuit to be all called as charge pump (Charge Pump).A kind of is to be applied in phase-locked loop circuit, is connected in phase frequency detector rear class, by capacitor charge and discharge is produced to comparatively stable voltage, for use in the frequency of controlling voltage controlled oscillator; Another kind is by switching capacity, for voltage transitions, can provide the power output circuit of larger output current, can be described as power charge pump.

Under prior art, power charge pump generally adopts an input voltage, can produce the output voltage higher than input, also can produce the output voltage lower than input, and its efficiency is higher than linear voltage regulator in addition.Charge pump circuit based on switching capacity is widely used in voltage conversion circuit, can realize higher voltage transitions efficiency.For desirable switch, its energy loss can be left in the basket, in this case, can think that the efficiency of power charge pump circuit is 100%, but power charge pump circuit is only when with some fixing multiplying power changing voltage, its ideal power is just 100%, yet that fixing multiplying power only has is limited several.By increase, fly the number of electric capacity, can produce how possible multiplying power, but cost increases thereupon.For example, input voltage is 5V, and output voltage desired value is 0.9V, for only there being a scene that flies electric capacity in charge pump, can only adopt 1/2 times of pattern, produce 2.5V voltage, then by linear voltage regulation technology, reduce to 0.9V, its efficiency is ideally 0.9V/2.5V=36%.For adopting two, fly electric capacity situation, can adopt 1/3 times of pattern, produce 1.67V voltage, then by linear voltage regulation technology, reduce to 0.9V, its efficiency is ideally 0.9V/1.67V=54%, has so just improved efficiency.If but by increase, fly electric capacity number, produce more multiplying power patterns, can cause cost to increase.

Utility model content

The purpose of this utility model is the defect for prior art, a kind of charge pump apparatus is provided, by increasing the number of input power, realized with the less electric capacity that flies and produced more buck multiplying power, and then be conducive to improve the actual power efficiency of power charge pump.

For achieving the above object, the utility model embodiment provides a kind of charge pump apparatus, and described device comprises voltage input unit, voltage conversion unit, voltage output unit:

Described voltage input unit, at least comprise the first input power (V1) and the second input power (V2), be used to charge pump that two or above input voltage are provided, be connected with voltage conversion unit, be used to the capacitor charging in described voltage conversion unit;

Described voltage conversion unit, comprises capacitance group, and a plurality of electronic switches that are connected with electric capacity in described capacitance group, realizes the conversion of voltage swing for the charging and discharging of the electric capacity by described capacitance group;

Driver element, for providing for conducting or turn-offing the non-intersect folded clock signal of described a plurality of electronic switches, and then realizes charging or the electric discharge of the electric capacity in described capacitance group;

Output unit, is connected with described voltage conversion unit, for the voltage after described voltage conversion unit conversion is exported by output;

Under the control of described non-intersect folded clock signal, respective electronic switch conduction and shutoff, control the voltage that described output capacitance is exported corresponding buck multiplying power.

Therefore, the charge pump apparatus that the utility model embodiment provides, according to one group, be used for conducting or turn-off the non-intersect folded clock signal of a plurality of electronic switches, the input power that uses two or more is the capacitor charging in the capacitance group in voltage conversion unit, and then controls the voltage that output capacitance output has corresponding buck multiplying power.The charge pump apparatus providing by application the utility model embodiment, can realize with the less electric capacity that flies and produce more buck multiplying power, and then be conducive to improve the actual power efficiency of power charge pump.

Accompanying drawing explanation

A kind of charge pump apparatus schematic diagram that Fig. 1 provides for the utility model embodiment;

The specific implementation schematic diagram of a kind of charge pump apparatus that Fig. 2 provides for the utility model embodiment;

Fig. 3 is that charge pump apparatus the first clock signal CK1 shown in Fig. 2 is high level, equivalent operating circuit schematic diagram when the second clock signal CK2 and the 3rd clock signal CK3 are low level;

Fig. 4 is that charge pump apparatus the second clock signal CK2 shown in Fig. 2 is high level, equivalent operating circuit schematic diagram when the first clock signal CK1 and the 3rd clock signal CK3 are low level;

Fig. 5 is that the 3rd clock signal CK3 of the charge pump apparatus shown in Fig. 2 is high level, equivalent operating circuit schematic diagram when the first clock signal CK1 and the second clock signal CK2 are low level.

Embodiment

For making object, technical scheme and the advantage of the utility model embodiment clearer, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

A kind of charge pump apparatus schematic diagram that Fig. 1 provides for the utility model embodiment.As shown in Figure 1, the present embodiment comprises voltage input unit 101, voltage conversion unit 102, driver element 103, voltage output unit 104.

Voltage input unit 101 at least comprises the first input power (V1) and the second input power (V2), is used to charge pump that two or above input voltage are provided.Voltage input unit 101 is connected with voltage conversion unit, is used to the capacitor charging in described voltage conversion unit.

In order to try one's best in employing under few prerequisite that flies electric capacity, can make voltage pump adopt more multiplying power changing voltage, the utility model embodiment except using battery supply as the first input power, also adopt other power supply as the second input power.By shutoff or the conducting of electronic switch, can control charge pump and use different input powers for flying capacitor charge and discharge, and then contribute to voltage conversion unit 102 to build the voltage mode of more multiplying powers.

For example, if only have an input voltage V, for the scene of 1/3 multiplying power, can export the output voltage of V/3, and by taking two input powers that input voltage is respectively V1, V2 to provide input voltage for charge pump, by control inputs voltage and fly the annexation of electric capacity, the annexation between input power, the output voltage that can build the various ways such as (V1-V2)/3, (V1+V2)/3, V1/3, V2/3, charge pump apparatus has just constructed more buck multiplying power thus.

Voltage conversion unit 102 comprises capacitance group, and a plurality of electronic switches that are connected with electric capacity in described capacitance group, realizes the conversion of voltage swing for the charging and discharging of the electric capacity by described capacitance group.

Voltage conversion unit 102 comprises capacitance group, can comprise that at least one flies electric capacity in capacitance group, and the electronic switch being connected with electric capacity in capacitance group, the conducting by electronic switch or turn-off can be for flying capacitor charge and discharge.

Driver element 103 is for providing for conducting or turn-offing the non-intersect folded clock signal of described a plurality of electronic switches, and then realizes charging or the electric discharge that described voltage input unit is the electric capacity in capacitance group.

Non-intersect folded clock signal refers between the clock signal that driver element provides and has not overlapping control,, for fear of clock signal simultaneously for overlapping situation appears in high level, has certain Dead Time between all clock signals.

In order to control the voltage transitions multiplying power of voltage conversion unit 102, clock signal can change according to certain frequency.

Output unit 104 comprises output capacitance (CO), is connected, for the voltage after described voltage conversion unit conversion is exported by output with described voltage conversion unit.

By the control of non-intersect folded clock signal, respective electronic switch conduction, shutoff, can control and fly electric capacity is output capacitance charging, makes output capacitance stored energy, release energy, realize output voltage is exported by the output being connected with one end of output capacitance.

The technique scheme that the utility model embodiment provides, can realize by increasing the number of input power, has realized with the less electric capacity that flies and has produced more buck multiplying power, and then be conducive to improve the actual power efficiency of power charge pump.

The technical scheme that the utility model embodiment provides is applicable to have the charge pump that one or more flies electric capacity, and the number of input power can be two or more.To have two input powers, two charge pumps that fly electric capacity are example below, a kind of course of work of the charge pump that description the utility model embodiment provides.

The specific implementation schematic diagram of a kind of charge pump apparatus that Fig. 2 provides for the utility model embodiment, as shown in Figure 2, charge pump apparatus voltage input unit 201, voltage conversion unit 202, driver element 203, voltage output unit 204.Wherein, voltage input unit 201 comprises the first input power V1 and the second input power V2; Voltage conversion unit 202 comprises the first capacitor C 1 and the second capacitor C 2, also comprises the first electronic switch S1, the second electronic switch S2, the 3rd electronic switch S3, quadrielectron switch S 4, the 5th electronic switch S5, the 6th electronic switch S6, the 7th electronic switch S7, the 8th electronic switch S8; Driver element 203 is used for, to the electronic switch input timing control signal in voltage conversion unit, comprising the first clock signal CK1, the second clock signal CK2, the 3rd clock signal S3; Voltage output unit 204 comprises output capacitance CO.

As shown in Figure 2, the first clock signal CK1 is used for controlling conducting or the shutoff of the first electronic switch S1, the second electronic switch S2, the 5th electronic switch S5; The second clock signal CK2 is used for controlling conducting or the shutoff of the 3rd electronic switch S3, the 6th electronic switch S6; The 3rd clock signal CK3 is used for controlling conducting or the shutoff of quadrielectron switch S 4, the 7th electronic switch S7, the 8th electronic switch S8.

Particularly, in voltage input unit 201, the positive pole of the first input power V1 is connected with the one end of the first electronic switch S1 in voltage conversion unit 202, the positive pole of the second input power V2 is connected with the one end of the second electronic switch S2 in voltage conversion unit 202, the minus earth of the negative pole of the first input power V1, the second input power V2.

In voltage conversion unit, the other end of the first electronic switch S1 is connected with one end of the first capacitor C 1, one end of one end of the 8th electronic switch S8, the 3rd electronic switch S3; The other end of the first capacitor C 1 with one end of the 5th electronic switch S5, one end of one end of the 6th electronic switch S6, the 5th electronic switch S5, one end of the 7th electronic switch S7 be connected; The other end of the 5th electronic switch S5 is connected with the other end of the 8th electronic switch S8, one end of the second capacitor C 2; The other end of the second capacitor C 2 is connected with second other end of electronic switch S2, one end of the four or three electronic switch S4; The 6th other end of electronic switch S6 and the other end ground connection of quadrielectron switch S 4.The other end of the 3rd electronic switch S3 in voltage conversion unit, the 7th other end of electronic switch S7 and the output of voltage output unit are connected.

Driver element 203 can be controlled by the first clock signal CK1, the second clock signal CK2, the 3rd clock signal CK3 the course of work of charge pump apparatus.

By the charge pump apparatus shown in Fig. 2, by controlling the low and high level of clock signal, can build the output voltage of the various ways such as (V1-V2)/3, (V1+V2)/3, V1/3, V2/3, the structure (V1-V2)/3 of take is below described as example.

By controlling the situation of change of clock signal, can be so that same charge pump produce different buck multiplying powers, the utility model embodiment is with 0-T1 during the time, and CK1 is that high level, CK2 and CK3 are low level; Time, while being T1-T1+t, is Dead Time, and CK1, CK2, CK3 are low level; Time, while being T1+t-T2, CK2 was that high level, CK1 and CK3 are low level; Time, while being T2-T2+t, is Dead Time, and CK1, CK2, CK3 are low level; Time, while being T2+t-T3, CK3 was that high level, CK1 and CK2 are that low level is example, described the course of work of charge pump.

First, at 0-T1 in the time, CK1 is high level, CK2 and CK3 are low level, switch S 1, S5, S2 conducting, switch S 3, S4, S6, S7, S8 turn-off, the first input power and the second input power form a circuit loop by V1, V2, C1, C2 by the conducting of S1, S5, S2, be the first capacitor C 1 and the second capacitor C 2 chargings, as shown in Figure 3, the voltage V1 of the first input power, the voltage V2 of the second input power, the voltage VC1 of the first electric capacity are, the voltage VC2 of the second electric capacity meets following relation to the equivalent operating circuit of charge pump apparatus:

V1=V2+VC1+VC2；（1）

At T1-T1+t, in the time, CK1, CK2, CK3 are low level, and the voltage V1 of the first input power, the voltage V2 of the second input power, the voltage VC1 of the first electric capacity, the voltage VC2 of the second electric capacity can not change.

At T1+t-T2 in the time, CK2 is that high level, CK1 and CK3 are low level, switch S 3, S6 conducting, switch S 1, S2, S4, S5, S7, S8 turn-off, C1 and CO form a circuit loop, C1 is CO charging, and as shown in Figure 4, and the voltage VC1 of the first electric capacity and the voltage VO of output capacitance meet following relation to the equivalent operating circuit of charge pump apparatus:

VO=VC1；（2）

At T2-T2+t, in the time, CK1, CK2, CK3 are low level, and the voltage VC1 of the first electric capacity and the voltage VO of output capacitance can not change.

At T2+t-T3 in the time, CK3 is that high level, CK1 and CK2 are low level, switch S 4, S7, S8 conducting, switch S 1, S2, S3, S5, S6 turn-off, C1, C2, CO form a circuit loop, as shown in Figure 5, and the voltage VC1 of the first electric capacity is, the voltage VO of the voltage VC2 of the second electric capacity, output capacitance meets following relation to the equivalent operating circuit of charge pump apparatus:

VO=-VC1+VC2 （3）

In conjunction with equation (1), (2), (3), can calculate:

VO=(V1-V2)/3

In prior art, if fly electric capacity number, it is two, input voltage is 5v, target output voltage is 0.9v, adopt the pattern power supplying efficiency of 1/3 times of speed best, charge pump adopts the pattern of 1/3 times of speed can produce the voltage of 1.67v, by linear voltage regulation technology, reduces to 0.9v, and power supplying efficiency is ideally 0.9v/1.67v=54%.And in the utility model, the first input voltage is that 5v, the second input voltage are 2v, charge pump is by the above-mentioned course of work, can produce the voltage of (V1-V2)/3=1v,, by linear voltage regulation technology, reduce to 0.9v, power supplying efficiency is ideally 0.9v/1v=90%.

As can be seen here, the utility model is realized and is produced more buck multiplying power with the less electric capacity that flies, and then is conducive to improve the actual power efficiency of power charge pump.

What need to further illustrate is, the utility model embodiment provides passes through to increase the technical scheme that input power number produces more buck multiplying power and is applicable to all capacitive charge pumps based on switching capacity, by having two charge pumps that fly electric capacity, two input powers, to describe the technical solution of the utility model be a part of embodiment of the present utility model to embodiment above, rather than whole embodiment.For thering are one, three or three above charge pumps that fly electric capacity, by increasing the number of input power, also can realize and produce more buck multiplying power.

Above-described embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; institute is understood that; the foregoing is only embodiment of the present utility model; and be not used in and limit protection range of the present utility model; all within spirit of the present utility model and principle, any modification of making, be equal to replacement, improvement etc., within all should being included in protection range of the present utility model.

Claims

1. a charge pump apparatus, is characterized in that, described device comprises voltage input unit, voltage conversion unit, voltage output unit, driver element:

Driver element, for providing for conducting or turn-offing the non-intersect folded clock signal of described a plurality of electronic switches, and then realizes charging or the electric discharge that described voltage input unit is the electric capacity in capacitance group;

Under the control of described non-intersect folded clock signal, respective electronic switch conduction and shutoff, control the voltage that output capacitance is exported corresponding buck multiplying power.

2. charge pump apparatus according to claim 1, it is characterized in that, described capacitance group in described voltage conversion unit comprises the first electric capacity (C1), the second electric capacity (C2), and described a plurality of electronic switches comprise the first electronic switch (S1), the second electronic switch (S2);

The positive pole of described the first input power (V1) in described voltage input unit is connected with one end of described the first electronic switch (S1) in described voltage conversion unit, the positive pole of described the second input power (V2) in described voltage input unit is connected with one end of described the second electronic switch (S2) in described voltage conversion unit, the minus earth of the negative pole of described the first input power (V1), described the second input power (V2).

3. charge pump apparatus according to claim 2, it is characterized in that, the described a plurality of electronic switches in described voltage conversion unit also comprise the 3rd electronic switch (S3), quadrielectron switch (S4), the 5th electronic switch (S5), the 6th electronic switch (S6), the 7th electronic switch (S7), the 8th electronic switch (S8);

The other end of described the first electronic switch (S1) is connected with one end of one end of the first electric capacity (C1), the 8th electronic switch (S8), one end of the 3rd electronic switch (S3); The other end of described the first electric capacity (C1) with one end of the 5th electronic switch (S5), one end of one end of the 6th electronic switch (S6), the 5th electronic switch (S5), one end of the 7th electronic switch (S7) be connected; The other end of described the 5th electronic switch (S5) is connected with the other end of described the 8th electronic switch (S8), one end of described the second electric capacity (C2); The other end of described the second electric capacity (C2) is connected with the other end of described the second electronic switch (S2), one end of described quadrielectron switch (S4); Described the 6th other end of electronic switch (S6) and the other end ground connection of described quadrielectron switch (S4).

4. charge pump apparatus according to claim 3, is characterized in that, the other end of described the 3rd electronic switch (S3) in described voltage conversion unit, the other end of described the 7th electronic switch (S7) are connected with the output of described voltage output unit.

5. charge pump apparatus according to claim 4, is characterized in that, described voltage conversion unit comprises output capacitance (CO);

The other end of the other end of described the 3rd electronic switch (S3), described the 7th electronic switch (S7) is connected with one end of output, described output capacitance (CO); The other end ground connection of described output capacitance (CO).

6. according to the charge pump apparatus described in claim 3-5 any one, it is characterized in that, the non-intersect folded clock signal that described driver element provides comprises the first clock signal, the second clock signal, the 3rd clock signal;

Described driver element, for providing for conducting or turn-offing the non-intersect folded clock signal of described a plurality of electronic switches, is specially:

Described the first clock signal is used for controlling conducting or the shutoff of described the first electronic switch (S1), the second electronic switch (S2), the 5th electronic switch (S5); Described the second clock signal is used for controlling conducting or the shutoff of described the 3rd electronic switch (S3), the 6th electronic switch (S6); Described the 3rd clock signal is used for controlling conducting or the shutoff of described quadrielectron switch (S4), the 7th electronic switch (S7), the 8th electronic switch (S8).