CN104202152A - Chain-type fractional-order integral circuit module based 0.4-order Liu chaotic system circuit - Google Patents

Abstract

The invention provides a chain-type fractional-order integral circuit module based 0.4-order Liu chaotic system circuit. A chain-type fractional-order integral circuit module is characterized in that a resistor Rx is connected with a capacitor Cx in parallel to form a first portion, a resistor Ry is connected with a capacitor Cy in parallel to form a second portion, a resistor Rz is connected with a capacitor Cz in parallel to form a third portion, a resistor Rw is connected with a capacitor Cw in parallel to form a fourth portion, cascade input pins PI1 and PI2 and an output pin P are connected to the first portion which is connected with an output pin P1 and the second portion, the second portion is connected with an output pin P2 and the third portion, the third portion is connected with an output pin P3 and the four portion, and the fourth portion is connected with an output pin P4 and cascade output pins PO1 and PO2. A chain-type structure is adopted, and a PCB (printed circuit board) circuit is designed and produced; a 0.4-order fractional-order integral circuit is composed of six portions, thereby being formed by serial connection of two chain-type fractional-order integral circuit module based circuits; the 0.4-order fractional-order chaotic system circuit implemented by the method is high in reliability and less prone to malfunctioning.

Description

The 0.4 rank Liu chaos system circuit based on chain type fractional order integration circuit module is realized

Technical field

The present invention relates to a kind of general fractional order integration circuit module and 0.4 rank chaos system circuit realization thereof, particularly 0.4 rank Liu chaos system and an analog circuit based on chain type fractional order integration circuit module is realized.

Background technology

Because realizing resistance and the electric capacity of the circuit of chaotic systems with fractional order is all unconventional resistance and electric capacity, the general method of resistance series connection and Capacitance parallel connection that adopts realizes, at present, the main method realizing is the method for utilizing existing resistance and electric capacity to combine on bread board, this method reliability and stability are lower, and exist and easily make mistakes, the problem such as easy-to-search not after makeing mistakes, the present invention is for overcoming this problem, adopt chain structure, designed and produced PCB circuit, circuit is comprised of four parts, every part is again by after four resistance and a potentiometer series connection, general fractional order integration modular circuit with four Capacitance parallel connections compositions, 0.4 rank fractional order integration circuit is comprised of six parts, therefore to be composed in series by 2 general fractional order integration modular circuits, adopt the 0.4 rank chaotic systems with fractional order circuit of realizing in this way, reliability is high, be difficult for makeing mistakes.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of 0.4 rank Liu chaos system and analog circuit based on chain type fractional order integration circuit module and realizes, and the present invention adopts following technological means to realize goal of the invention:

1, a kind of chain type fractional order integration circuit module, it is characterized in that being: resistance R x is in parallel with capacitor C x, form first, resistance R y is in parallel with capacitor C y, form second portion, resistance R z is in parallel with capacitor C z, form third part, resistance R w is in parallel with capacitor C w, form the 4th part, cascade input pin PI1, PI2 and output pin P meet first, First tap output pin P1 and second portion, second portion connects output pin P2 and third part, third part connects output pin P3 and the 4th part, the 4th part meets output pin P4 and directly link pin PO1, PO2.

2, a kind of chain type fractional order integration circuit module according to claim 1, is characterized in that: described resistance R x is composed in series by potentiometer Rx1 and resistance R x2, Rx3, Rx4, Rx5, and described capacitor C x is composed in parallel by capacitor C x1, Cx2, Cx3, Cx4; Described resistance R y is composed in series by potentiometer Ry1 and resistance R y2, Ry3, Ry4, Ry5, and described capacitor C y, by capacitor C y1, Cy2, Cy3, Cy4, composes in parallel; Described resistance R z is composed in series by potentiometer Rz1 and resistance R z2, Rz3, Rz4, Rz5, and described capacitor C z is composed in parallel by capacitor C z1, Cz2, Cz3, Cz4; Described resistance R w is composed in series by potentiometer Rw1 and resistance R w2, Rw3, Rw4, Rw5, and described capacitor C w is composed in parallel by capacitor C w1, Cw2, Cw3, Cw4.

3, a kind of chain type fractional order integration circuit module according to claim 1, described 0.4 rank integrating circuit module, it is characterized in that: described 0.4 rank integrating circuit module is comprised of chain type fractional order integration circuit I and chain type fractional order integration circuit I I cascade described chain type fractional order integration circuit I cascade input pin PI1, PI2 is unsettled, described chain type fractional order integration circuit I output pin P1, P2, P3, P4 is unsettled, the PI1 of described chain type fractional order integration circuit I directly link pin PO1 chain link formula fractional order integration circuit I I, the PI2 of the PO2 chain link formula fractional order integration circuit I I of chain type fractional order integration circuit I, the P of chain type fractional order integration circuit I I, P1, P3, P4 and PO1, PO2 is all unsettled, the resistance R x=3.744M of described chain type fractional order integration circuit I, the potentiometer Rx1=1.5M of described chain type fractional order integration circuit I, the resistance R x2=2M of described chain type fractional order integration circuit I, Rx3=200K, Rx4=20K, Rx5=20K, the capacitor C x=15.02uF of described chain type fractional order integration circuit I, the capacitor C x1=10uF of described chain type fractional order integration circuit I, Cx2=4.7uF, Cx3=330nF, Cx4 is unsettled, the resistance R y=1.392M of described chain type fractional order integration circuit I, the potentiometer Ry1=1M of described chain type fractional order integration circuit I, resistance R y2=200K, Ry3=200K, Ry4=0K, the Ry5=0K of described chain type fractional order integration circuit I, the capacitor C y=5.926uF of described chain type fractional order integration circuit I, capacitor C y1=4.7uF, Cy2=1uF, Cy3=220nF, the Cy4 of described chain type fractional order integration circuit I are unsettled, the resistance R z=0.631M of described chain type fractional order integration circuit I, the potentiometer Rz1=0.5M of described chain type fractional order integration circuit I, resistance R z2=100K, Rz3=20K, Rz4=10K, the Rz5=1K of described chain type fractional order integration circuit I, the capacitor C z=1.92uF of described chain type fractional order integration circuit I, capacitor C z1=1uF, Cz2=470nF, Cz3=220nF, the Cz4=220nF of described chain type fractional order integration circuit I, the resistance R w=0.294M of described chain type fractional order integration circuit I, the potentiometer Rw1=51K of described chain type fractional order integration circuit I, resistance R w2=200K, Rw3=20K, Rw4=20K, the Rw5=2K of described chain type fractional order integration circuit I, the capacitor C w=0.605uF of described chain type fractional order integration circuit I, capacitor C w1=470nF, Cw2=100nF, Cw3=33nF, the Cw4 of described chain type fractional order integration circuit I are unsettled,

The resistance R x=0.143M of described chain type fractional order integration circuit I I, the potentiometer Rx1=100K of described chain type fractional order integration circuit I I, resistance R x2=20K, Rx3=20K, Rx4=2K, the Rx5=1K of described chain type fractional order integration circuit I I, the capacitor C x=0.183uF of described chain type fractional order integration circuit I I, capacitor C x1=100nF, Cx2=47nF, Cx3=33nF, the Cx4=3.3nF of described chain type fractional order integration circuit I I; The resistance R y=0.106M of described chain type fractional order integration circuit I I, the potentiometer Ry1=5.1K of described chain type fractional order integration circuit I I, resistance R y2=100K, Ry3=1K, Ry4=0K, the Ry5=0K of described chain type fractional order integration circuit I I, the capacitor C y=0.036uF of described chain type fractional order integration circuit I I, capacitor C y1=33nF, Cy2=3.3nF, Cy3, the Cy4 of described chain type fractional order integration circuit I I are unsettled; The potentiometer Rz1 of described chain type fractional order integration circuit I I, resistance R z2, Rz3, Rz4, the Rz5 of described chain type fractional order integration circuit I I are all unsettled; Capacitor C z1, Cz2, Cz3, the Cz4 of described chain type fractional order integration circuit I I are all unsettled; The potentiometer Rw1 of described chain type fractional order integration circuit I I, resistance R w2, Rw3, Rw4, the Rw5 of described chain type fractional order integration circuit I I are all unsettled; Capacitor C w1, Cw2, Cw3, the Cw4 of described chain type fractional order integration circuit I I are all unsettled;

4, the 0.4 rank Liu chaos system circuit based on chain type fractional order integration circuit module, is characterized in that:

(1) Liu chaos system i is:

$\left\{\begin{array}{ccc}\frac{\mathrm{dx}}{\mathrm{dt}}a(y-x)& & \\ \frac{\mathrm{dy}}{\mathrm{dt}}=\mathrm{bx}-\mathrm{cxz}& i& a=10,b=20,c=1,d=2.5,h==\\ \frac{\mathrm{dz}}{\mathrm{dt}}={\mathrm{hx}}^2-\mathrm{dz}& & \end{array}\right.$

(2) 0.4 rank Liu chaos system ii are:

$\left\{\begin{array}{ccc}\frac{d^{\mathrm{\α}}x}{{\mathrm{dt}}^{\mathrm{\α}}}=a(y-x)& & \\ \frac{d^{\mathrm{\α}}y}{{\mathrm{dt}}^{\mathrm{\α}}}=\mathrm{bx}-\mathrm{cxz}& \mathrm{ii}& a=10,b=20,c=1,d=2.5,h=4,\mathrm{\α}=0.4\\ \frac{d^{\mathrm{\α}}z}{{\mathrm{dt}}^{\mathrm{\α}}}={\mathrm{hx}}^2-\mathrm{dz}& & \end{array}\right.$

(3) according to 0.4 rank Liu chaos system ii constructing analog circuit, utilize operational amplifier U1, operational amplifier U2 and resistance and 0.4 rank integrating circuit module U5-U6,0.4 rank integrating circuit module U7-U8,0.4 rank integrating circuit module U9-U10 to form anti-phase adder and anti-phase 0.4 rank integrator, utilize multiplier U3 and multiplier U4 to realize multiplying, described operational amplifier U1 and operational amplifier U2 adopt LF347N, and described multiplier U3 and multiplier U4 adopt AD633JN;

Described operational amplifier U1 concatenation operation amplifier U2, multiplier U3, multiplier U4 and 0.4 rank integrating circuit module U5-U6,0.4 rank integrating circuit module U7-U8, described operational amplifier U2 connects multiplier U3, multiplier U4 and 0.4 rank integrating circuit module U9-U10, described multiplier U3 concatenation operation amplifier U1, described multiplier U4 concatenation operation amplifier U2;

The 1st pin of described operational amplifier U1 joins by resistance R 8 and the 6th pin of U1, the 2nd pin joins by resistance R 6 and the 1st pin, the 3rd, 5, 10, 12 pin ground connection, the 4th pin meets VCC, the 11st pin meets VEE, the P pin of the 6th pin chain link formula fractional order integration circuit U 7, the 7th pin meets output y, by resistance R 1 and the 13rd pin, join, the P2 pin of chain link formula fractional order integration circuit U 8, the 8th pin meets output x, by resistance R 4 and the 9th pin, join, by resistance R 5 and the 2nd pin, join, connect the 1st pin of multiplier U3, connect the 1st and the 3rd pin of multiplier U4, the P2 pin of chain link formula fractional order integration circuit U 6, the P pin of the 9th pin chain link formula fractional order integration circuit U 5, the 13rd pin joins by resistance R 2 and the 14th pin, the 14th pin joins by resistance R 3 and the 9th pin,

The 1st, 2,6,7 pins of described operational amplifier U2 are unsettled, 3rd, 5,10,12 pin ground connection, the 4th pin meets VCC, and the 11st pin meets VEE, the 8th pin output z, by resistance R 12 and the 9th pin, join, connect the 3rd pin of multiplier U3, the P2 pin of chain link formula fractional order integration circuit U 10, the P pin of the 9th pin chain link formula fractional order integration circuit U 9, the 13rd pin connects the 14th pin by resistance R 10, and the 14th pin connects the 9th pin by resistance R 11;

The 1st pin of described multiplier U3 connects the 8th pin of U1, and the 3rd pin connects the 8th pin of U2, the equal ground connection of the 2nd, 4,6 pin, and the 5th pin meets VEE, and the 7th pin connects U1 the 6th pin by resistance R 7, and the 8th pin meets VCC;

The the 1st and the 3rd pin of described multiplier U4 connects the 7th pin of U1, the equal ground connection of the 2nd, 4,6 pin, and the 5th pin meets VEE, and the 7th pin connects U2 the 13rd pin by resistance R 9, and the 8th pin meets VCC.

PI1, PI2, P1, P2, P3, the P4 pin of U5 in described 0.4 rank integrating circuit module U5-U6 are unsettled, P pin connects the 9th pin of operational amplifier U1, the P of U6, P1, P3, P4 pin are unsettled, P2 pin connects the 8th pin of operational amplifier U1, U5 directly link pin PO1 meets the PI1 of U6, and the PO2 of U5 meets the PI2 of U6;

PI1, PI2, P1, P2, P3, the P4 pin of U7 in described 0.4 rank integrating circuit module U7-U8 are unsettled, P pin connects the 6th pin of operational amplifier U1, the P of U8, P1, P3, P4 pin are unsettled, P2 pin connects the 7th pin of operational amplifier U1, U7 directly link pin PO1 meets the PI1 of U8, and the PO2 of U7 meets the PI2 of U8;

PI1, PI2, P1, P2, P3, the P4 pin of U9 in described 0.4 rank integrating circuit module U9-U10 are unsettled, P pin connects the 9th pin of operational amplifier U2, the P of U10, P1, P3, P4 pin are unsettled, P2 pin connects the 8th pin of operational amplifier U2, U9 directly link pin PO1 meets the PI1 of U10, and the PO2 of U9 meets the PI2 of U10.

Useful fruit of the present invention is: adopt chain structure, designed and produced PCB circuit, circuit is comprised of four parts, every part is again by after four resistance and a potentiometer series connection, and with the general fractional order integration modular circuit that four Capacitance parallel connections form, 0.4 rank fractional order integration circuit is comprised of six parts, therefore to be composed in series by 2 general fractional order integration modular circuits, adopt the 0.4 rank chaotic systems with fractional order circuit of realizing in this way, reliability is high, is difficult for makeing mistakes.

Accompanying drawing explanation

Fig. 1 is chain type fractional order integration circuit module internal structure schematic diagram of the present invention (a), inner actual connection layout (b) and the actual connection layout of 0.4 rank integrating circuit (c).

Fig. 2 is the circuit connection structure schematic diagram of the preferred embodiment of the present invention.

Fig. 3 and Fig. 4 are the actual connection layout of circuit of the present invention.

Embodiment

Below in conjunction with accompanying drawing and preferred embodiment, the present invention is further described in detail, referring to Fig. 1-Fig. 4.

1, a kind of chain type fractional order integration circuit module, it is characterized in that being: resistance R x is in parallel with capacitor C x, form first, resistance R y is in parallel with capacitor C y, form second portion, resistance R z is in parallel with capacitor C z, form third part, resistance R w is in parallel with capacitor C w, form the 4th part, cascade input pin PI1, PI2 and output pin P meet first, First tap output pin P1 and second portion, second portion connects output pin P2 and third part, third part connects output pin P3 and the 4th part, the 4th part meets output pin P4 and directly link pin PO1, PO2.

2, a kind of chain type fractional order integration circuit module according to claim 1, is characterized in that: described resistance R x is composed in series by potentiometer Rx1 and resistance R x2, Rx3, Rx4, Rx5, and described capacitor C x is composed in parallel by capacitor C x1, Cx2, Cx3, Cx4; Described resistance R y is composed in series by potentiometer Ry1 and resistance R y2, Ry3, Ry4, Ry5, and described capacitor C y, by capacitor C y1, Cy2, Cy3, Cy4, composes in parallel; Described resistance R z is composed in series by potentiometer Rz1 and resistance R z2, Rz3, Rz4, Rz5, and described capacitor C z is composed in parallel by capacitor C z1, Cz2, Cz3, Cz4; Described resistance R w is composed in series by potentiometer Rw1 and resistance R w2, Rw3, Rw4, Rw5, and described capacitor C w is composed in parallel by capacitor C w1, Cw2, Cw3, Cw4.

3, a kind of chain type fractional order integration circuit module according to claim 1, described 0.4 rank integrating circuit module, it is characterized in that: described 0.4 rank integrating circuit module is comprised of chain type fractional order integration circuit I and chain type fractional order integration circuit I I cascade described chain type fractional order integration circuit I cascade input pin PI1, PI2 is unsettled, described chain type fractional order integration circuit I output pin P1, P2, P3, P4 is unsettled, the PI1 of described chain type fractional order integration circuit I directly link pin PO1 chain link formula fractional order integration circuit I I, the PI2 of the PO2 chain link formula fractional order integration circuit I I of chain type fractional order integration circuit I, the P of chain type fractional order integration circuit I I, P1, P3, P4 and PO1, PO2 is all unsettled, the resistance R x=3.744M of described chain type fractional order integration circuit I, the potentiometer Rx1=1.5M of described chain type fractional order integration circuit I, the resistance R x2=2M of described chain type fractional order integration circuit I, Rx3=200K, Rx4=20K, Rx5=20K, the capacitor C x=15.02uF of described chain type fractional order integration circuit I, the capacitor C x1=10uF of described chain type fractional order integration circuit I, Cx2=4.7uF, Cx3=330nF, Cx4 is unsettled, the resistance R y=1.392M of described chain type fractional order integration circuit I, the potentiometer Ry1=1M of described chain type fractional order integration circuit I, resistance R y2=200K, Ry3=200K, Ry4=0K, the Ry5=0K of described chain type fractional order integration circuit I, the capacitor C y=5.926uF of described chain type fractional order integration circuit I, capacitor C y1=4.7uF, Cy2=1uF, Cy3=220nF, the Cy4 of described chain type fractional order integration circuit I are unsettled, the resistance R z=0.631M of described chain type fractional order integration circuit I, the potentiometer Rz1=0.5M of described chain type fractional order integration circuit I, resistance R z2=100K, Rz3=20K, Rz4=10K, the Rz5=1K of described chain type fractional order integration circuit I, the capacitor C z=1.92uF of described chain type fractional order integration circuit I, capacitor C z1=1uF, Cz2=470nF, Cz3=220nF, the Cz4=220nF of described chain type fractional order integration circuit I, the resistance R w=0.294M of described chain type fractional order integration circuit I, the potentiometer Rw1=51K of described chain type fractional order integration circuit I, resistance R w2=200K, Rw3=20K, Rw4=20K, the Rw5=2K of described chain type fractional order integration circuit I, the capacitor C w=0.605uF of described chain type fractional order integration circuit I, capacitor C w1=470nF, Cw2=100nF, Cw3=33nF, the Cw4 of described chain type fractional order integration circuit I are unsettled,

The resistance R x=0.143M of described chain type fractional order integration circuit I I, the potentiometer Rx1=100K of described chain type fractional order integration circuit I I, resistance R x2=20K, Rx3=20K, Rx4=2K, the Rx5=1K of described chain type fractional order integration circuit I I, the capacitor C x=0.183uF of described chain type fractional order integration circuit I I, capacitor C x1=100nF, Cx2=47nF, Cx3=33nF, the Cx4=3.3nF of described chain type fractional order integration circuit I I; The resistance R y=0.106M of described chain type fractional order integration circuit I I, the potentiometer Ry1=5.1K of described chain type fractional order integration circuit I I, resistance R y2=100K, Ry3=1K, Ry4=0K, the Ry5=0K of described chain type fractional order integration circuit I I, the capacitor C y=0.036uF of described chain type fractional order integration circuit I I, capacitor C y1=33nF, Cy2=3.3nF, Cy3, the Cy4 of described chain type fractional order integration circuit I I are unsettled; The potentiometer Rz1 of described chain type fractional order integration circuit I I, resistance R z2, Rz3, Rz4, the Rz5 of described chain type fractional order integration circuit I I are all unsettled; Capacitor C z1, Cz2, Cz3, the Cz4 of described chain type fractional order integration circuit I I are all unsettled; The potentiometer Rw1 of described chain type fractional order integration circuit I I, resistance R w2, Rw3, Rw4, the Rw5 of described chain type fractional order integration circuit I I are all unsettled; Capacitor C w1, Cw2, Cw3, the Cw4 of described chain type fractional order integration circuit I I are all unsettled;

4, the 0.4 rank Liu chaos system circuit based on chain type fractional order integration circuit module, is characterized in that:

(1) Liu chaos system i is:

$\left\{\begin{array}{ccc}\frac{\mathrm{dx}}{\mathrm{dt}}a(y-x)& & \\ \frac{\mathrm{dy}}{\mathrm{dt}}=\mathrm{bx}-\mathrm{cxz}& i& a=10,b=20,c=1,d=2.5,h==\\ \frac{\mathrm{dz}}{\mathrm{dt}}={\mathrm{hx}}^2-\mathrm{dz}& & \end{array}\right.$

(2) 0.4 rank Liu chaos system ii are:

$\left\{\begin{array}{ccc}\frac{d^{\mathrm{\α}}x}{{\mathrm{dt}}^{\mathrm{\α}}}=a(y-x)& & \\ \frac{d^{\mathrm{\α}}y}{{\mathrm{dt}}^{\mathrm{\α}}}=\mathrm{bx}-\mathrm{cxz}& \mathrm{ii}& a=10,b=20,c=1,d=2.5,h=4,\mathrm{\α}=0.4\\ \frac{d^{\mathrm{\α}}z}{{\mathrm{dt}}^{\mathrm{\α}}}={\mathrm{hx}}^2-\mathrm{dz}& & \end{array}\right.$

(3) according to 0.4 rank Liu chaos system ii constructing analog circuit, utilize operational amplifier U1, operational amplifier U2 and resistance and 0.4 rank integrating circuit module U5-U6,0.4 rank integrating circuit module U7-U8,0.4 rank integrating circuit module U9-U10 to form anti-phase adder and anti-phase 0.4 rank integrator, utilize multiplier U3 and multiplier U4 to realize multiplying, described operational amplifier U1 and operational amplifier U2 adopt LF347N, and described multiplier U3 and multiplier U4 adopt AD633JN;

Described operational amplifier U1 concatenation operation amplifier U2, multiplier U3, multiplier U4 and 0.4 rank integrating circuit module U5-U6,0.4 rank integrating circuit module U7-U8, described operational amplifier U2 connects multiplier U3, multiplier U4 and 0.4 rank integrating circuit module U9-U10, described multiplier U3 concatenation operation amplifier U1, described multiplier U4 concatenation operation amplifier U2;

The 1st pin of described operational amplifier U1 joins by resistance R 8 and the 6th pin of U1, the 2nd pin joins by resistance R 6 and the 1st pin, the 3rd, 5, 10, 12 pin ground connection, the 4th pin meets VCC, the 11st pin meets VEE, the P pin of the 6th pin chain link formula fractional order integration circuit U 7, the 7th pin meets output y, by resistance R 1 and the 13rd pin, join, the P2 pin of chain link formula fractional order integration circuit U 8, the 8th pin meets output x, by resistance R 4 and the 9th pin, join, by resistance R 5 and the 2nd pin, join, connect the 1st pin of multiplier U3, connect the 1st and the 3rd pin of multiplier U4, the P2 pin of chain link formula fractional order integration circuit U 6, the P pin of the 9th pin chain link formula fractional order integration circuit U 5, the 13rd pin joins by resistance R 2 and the 14th pin, the 14th pin joins by resistance R 3 and the 9th pin,

The 1st, 2,6,7 pins of described operational amplifier U2 are unsettled, 3rd, 5,10,12 pin ground connection, the 4th pin meets VCC, and the 11st pin meets VEE, the 8th pin output z, by resistance R 12 and the 9th pin, join, connect the 3rd pin of multiplier U3, the P2 pin of chain link formula fractional order integration circuit U 10, the P pin of the 9th pin chain link formula fractional order integration circuit U 9, the 13rd pin connects the 14th pin by resistance R 10, and the 14th pin connects the 9th pin by resistance R 11;

The 1st pin of described multiplier U3 connects the 8th pin of U1, and the 3rd pin connects the 8th pin of U2, the equal ground connection of the 2nd, 4,6 pin, and the 5th pin meets VEE, and the 7th pin connects U1 the 6th pin by resistance R 7, and the 8th pin meets VCC;

The the 1st and the 3rd pin of described multiplier U4 connects the 7th pin of U1, the equal ground connection of the 2nd, 4,6 pin, and the 5th pin meets VEE, and the 7th pin connects U2 the 13rd pin by resistance R 9, and the 8th pin meets VCC.

PI1, PI2, P1, P2, P3, the P4 pin of U5 in described 0.4 rank integrating circuit module U5-U6 are unsettled, P pin connects the 9th pin of operational amplifier U1, the P of U6, P1, P3, P4 pin are unsettled, P2 pin connects the 8th pin of operational amplifier U1, U5 directly link pin PO1 meets the PI1 of U6, and the PO2 of U5 meets the PI2 of U6;

PI1, PI2, P1, P2, P3, the P4 pin of U7 in described 0.4 rank integrating circuit module U7-U8 are unsettled, P pin connects the 6th pin of operational amplifier U1, the P of U8, P1, P3, P4 pin are unsettled, P2 pin connects the 7th pin of operational amplifier U1, U7 directly link pin PO1 meets the PI1 of U8, and the PO2 of U7 meets the PI2 of U8;

PI1, PI2, P1, P2, P3, the P4 pin of U9 in described 0.4 rank integrating circuit module U9-U10 are unsettled, P pin connects the 9th pin of operational amplifier U2, the P of U10, P1, P3, P4 pin are unsettled, P2 pin connects the 8th pin of operational amplifier U2, U9 directly link pin PO1 meets the PI1 of U10, and the PO2 of U9 meets the PI2 of U10.

Resistance R 1=R2=R3=R4=R6=R8=R10=R11=10k Ω in circuit, R5=5k Ω, R7=1k Ω, R9=0.25k Ω, R12=40k Ω.

Certainly, above-mentioned explanation is not limitation of the present invention, and the present invention is also not limited only to above-mentioned giving an example, and the variation that those skilled in the art make in essential scope of the present invention, remodeling, interpolation or replacement, also belong to protection scope of the present invention.

Claims (4)

1. a chain type fractional order integration circuit module, it is characterized in that being: resistance R x is in parallel with capacitor C x, form first, resistance R y is in parallel with capacitor C y, form second portion, resistance R z is in parallel with capacitor C z, form third part, resistance R w is in parallel with capacitor C w, form the 4th part, cascade input pin PI1, PI2 and output pin P meet first, First tap output pin P1 and second portion, second portion connects output pin P2 and third part, third part connects output pin P3 and the 4th part, the 4th part meets output pin P4 and directly link pin PO1, PO2.

2. a kind of chain type fractional order integration circuit module according to claim 1, is characterized in that: described resistance R x is composed in series by potentiometer Rx1 and resistance R x2, Rx3, Rx4, Rx5, and described capacitor C x is composed in parallel by capacitor C x1, Cx2, Cx3, Cx4; Described resistance R y is composed in series by potentiometer Ry1 and resistance R y2, Ry3, Ry4, Ry5, and described capacitor C y, by capacitor C y1, Cy2, Cy3, Cy4, composes in parallel; Described resistance R z is composed in series by potentiometer Rz1 and resistance R z2, Rz3, Rz4, Rz5, and described capacitor C z is composed in parallel by capacitor C z1, Cz2, Cz3, Cz4; Described resistance R w is composed in series by potentiometer Rw1 and resistance R w2, Rw3, Rw4, Rw5, and described capacitor C w is composed in parallel by capacitor C w1, Cw2, Cw3, Cw4.

3. a kind of chain type fractional order integration circuit module according to claim 1, described 0.4 rank integrating circuit module, it is characterized in that: described 0.4 rank integrating circuit module is comprised of chain type fractional order integration circuit I and chain type fractional order integration circuit I I cascade described chain type fractional order integration circuit I cascade input pin PI1, PI2 is unsettled, described chain type fractional order integration circuit I output pin P1, P2, P3, P4 is unsettled, the PI1 of described chain type fractional order integration circuit I directly link pin PO1 chain link formula fractional order integration circuit I I, the PI2 of the PO2 chain link formula fractional order integration circuit I I of chain type fractional order integration circuit I, the P of chain type fractional order integration circuit I I, P1, P3, P4 and PO1, PO2 is all unsettled, the resistance R x=3.744M of described chain type fractional order integration circuit I, the potentiometer Rx1=1.5M of described chain type fractional order integration circuit I, the resistance R x2=2M of described chain type fractional order integration circuit I, Rx3=200K, Rx4=20K, Rx5=20K, the capacitor C x=15.02uF of described chain type fractional order integration circuit I, the capacitor C x1=10uF of described chain type fractional order integration circuit I, Cx2=4.7uF, Cx3=330nF, Cx4 is unsettled, the resistance R y=1.392M of described chain type fractional order integration circuit I, the potentiometer Ry1=1M of described chain type fractional order integration circuit I, resistance R y2=200K, Ry3=200K, Ry4=0K, the Ry5=0K of described chain type fractional order integration circuit I, the capacitor C y=5.926uF of described chain type fractional order integration circuit I, capacitor C y1=4.7uF, Cy2=1uF, Cy3=220nF, the Cy4 of described chain type fractional order integration circuit I are unsettled, the resistance R z=0.631M of described chain type fractional order integration circuit I, the potentiometer Rz1=0.5M of described chain type fractional order integration circuit I, resistance R z2=100K, Rz3=20K, Rz4=10K, the Rz5=1K of described chain type fractional order integration circuit I, the capacitor C z=1.92uF of described chain type fractional order integration circuit I, capacitor C z1=1uF, Cz2=470nF, Cz3=220nF, the Cz4=220nF of described chain type fractional order integration circuit I, the resistance R w=0.294M of described chain type fractional order integration circuit I, the potentiometer Rw1=51K of described chain type fractional order integration circuit I, resistance R w2=200K, Rw3=20K, Rw4=20K, the Rw5=2K of described chain type fractional order integration circuit I, the capacitor C w=0.605uF of described chain type fractional order integration circuit I, capacitor C w1=470nF, Cw2=100nF, Cw3=33nF, the Cw4 of described chain type fractional order integration circuit I are unsettled,

The resistance R x=0.143M of described chain type fractional order integration circuit I I, the potentiometer Rx1=100K of described chain type fractional order integration circuit I I, resistance R x2=20K, Rx3=20K, Rx4=2K, the Rx5=1K of described chain type fractional order integration circuit I I, the capacitor C x=0.183uF of described chain type fractional order integration circuit I I, capacitor C x1=100nF, Cx2=47nF, Cx3=33nF, the Cx4=3.3nF of described chain type fractional order integration circuit I I; The resistance R y=0.106M of described chain type fractional order integration circuit I I, the potentiometer Ry1=5.1K of described chain type fractional order integration circuit I I, resistance R y2=100K, Ry3=1K, Ry4=0K, the Ry5=0K of described chain type fractional order integration circuit I I, the capacitor C y=0.036uF of described chain type fractional order integration circuit I I, capacitor C y1=33nF, Cy2=3.3nF, Cy3, the Cy4 of described chain type fractional order integration circuit I I are unsettled; The potentiometer Rz1 of described chain type fractional order integration circuit I I, resistance R z2, Rz3, Rz4, the Rz5 of described chain type fractional order integration circuit I I are all unsettled; Capacitor C z1, Cz2, Cz3, the Cz4 of described chain type fractional order integration circuit I I are all unsettled; The potentiometer Rw1 of described chain type fractional order integration circuit I I, resistance R w2, Rw3, Rw4, the Rw5 of described chain type fractional order integration circuit I I are all unsettled; Capacitor C w1, Cw2, Cw3, the Cw4 of described chain type fractional order integration circuit I I are all unsettled.

4. the 0.4 rank Liu chaos system circuit based on chain type fractional order integration circuit module, is characterized in that:

(1) Liu chaos system i is:

(2) 0.4 rank Liu chaos system ii are:

(3) according to 0.4 rank Liu chaos system ii constructing analog circuit, utilize operational amplifier U1, operational amplifier U2 and resistance and 0.4 rank integrating circuit module U5-U6,0.4 rank integrating circuit module U7-U8,0.4 rank integrating circuit module U9-U10 to form anti-phase adder and anti-phase 0.4 rank integrator, utilize multiplier U3 and multiplier U4 to realize multiplying, described operational amplifier U1 and operational amplifier U2 adopt LF347N, and described multiplier U3 and multiplier U4 adopt AD633JN;

Described operational amplifier U1 concatenation operation amplifier U2, multiplier U3, multiplier U4 and 0.4 rank integrating circuit module U5-U6,0.4 rank integrating circuit module U7-U8, described operational amplifier U2 connects multiplier U3, multiplier U4 and 0.4 rank integrating circuit module U9-U10, described multiplier U3 concatenation operation amplifier U1, described multiplier U4 concatenation operation amplifier U2;

The 1st pin of described operational amplifier U1 joins by resistance R 8 and the 6th pin of U1, the 2nd pin joins by resistance R 6 and the 1st pin, the 3rd, 5, 10, 12 pin ground connection, the 4th pin meets VCC, the 11st pin meets VEE, the P pin of the 6th pin chain link formula fractional order integration circuit U 7, the 7th pin meets output y, by resistance R 1 and the 13rd pin, join, the P2 pin of chain link formula fractional order integration circuit U 8, the 8th pin meets output x, by resistance R 4 and the 9th pin, join, by resistance R 5 and the 2nd pin, join, connect the 1st pin of multiplier U3, connect the 1st and the 3rd pin of multiplier U4, the P2 pin of chain link formula fractional order integration circuit U 6, the P pin of the 9th pin chain link formula fractional order integration circuit U 5, the 13rd pin joins by resistance R 2 and the 14th pin, the 14th pin joins by resistance R 3 and the 9th pin,

The 1st, 2,6,7 pins of described operational amplifier U2 are unsettled, 3rd, 5,10,12 pin ground connection, the 4th pin meets VCC, and the 11st pin meets VEE, the 8th pin output z, by resistance R 12 and the 9th pin, join, connect the 3rd pin of multiplier U3, the P2 pin of chain link formula fractional order integration circuit U 10, the P pin of the 9th pin chain link formula fractional order integration circuit U 9, the 13rd pin connects the 14th pin by resistance R 10, and the 14th pin connects the 9th pin by resistance R 11;

The 1st pin of described multiplier U3 connects the 8th pin of U1, and the 3rd pin connects the 8th pin of U2, the equal ground connection of the 2nd, 4,6 pin, and the 5th pin meets VEE, and the 7th pin connects U1 the 6th pin by resistance R 7, and the 8th pin meets VCC;

The the 1st and the 3rd pin of described multiplier U4 connects the 7th pin of U1, the equal ground connection of the 2nd, 4,6 pin, and the 5th pin meets VEE, and the 7th pin connects U2 the 13rd pin by resistance R 9, and the 8th pin meets VCC.

PI1, PI2, P1, P2, P3, the P4 pin of U5 in described 0.4 rank integrating circuit module U5-U6 are unsettled, P pin connects the 9th pin of operational amplifier U1, the P of U6, P1, P3, P4 pin are unsettled, P2 pin connects the 8th pin of operational amplifier U1, U5 directly link pin PO1 meets the PI1 of U6, and the PO2 of U5 meets the PI2 of U6;

PI1, PI2, P1, P2, P3, the P4 pin of U7 in described 0.4 rank integrating circuit module U7-U8 are unsettled, P pin connects the 6th pin of operational amplifier U1, the P of U8, P1, P3, P4 pin are unsettled, P2 pin connects the 7th pin of operational amplifier U1, U7 directly link pin PO1 meets the PI1 of U8, and the PO2 of U7 meets the PI2 of U8;

PI1, PI2, P1, P2, P3, the P4 pin of U9 in described 0.4 rank integrating circuit module U9-U10 are unsettled, P pin connects the 9th pin of operational amplifier U2, the P of U10, P1, P3, P4 pin are unsettled, P2 pin connects the 8th pin of operational amplifier U2, U9 directly link pin PO1 meets the PI1 of U10, and the PO2 of U9 meets the PI2 of U10.