CN204166777U - Quadravalence buys biousse banding pattern cell neural network chaos circuit - Google Patents
Quadravalence buys biousse banding pattern cell neural network chaos circuit Download PDFInfo
- Publication number
- CN204166777U CN204166777U CN201420664000.7U CN201420664000U CN204166777U CN 204166777 U CN204166777 U CN 204166777U CN 201420664000 U CN201420664000 U CN 201420664000U CN 204166777 U CN204166777 U CN 204166777U
- Authority
- CN
- China
- Prior art keywords
- resistance
- output terminal
- connect
- inverting input
- operational amplifier
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)
Abstract
A kind of quadravalence buys biousse banding pattern cell neural network chaos circuit, its third and fourth, six, seven operational amplifier A
3, A
4, A
6, A
7form linear inverting integrator, output terminal is respectively chaotic signal output terminal X
1, X
2, X
3, X
4; The first, five operational amplifier A
1, A
5form linear inverting amplifier; Second operational amplifier A
2form non-linear anti-phase limiting amplifier; Inverting integrator A
3respectively with amplifier A
1, inverting integrator A
4connect; Inverting integrator A
4respectively with integrator A
3, amplifier A
5connect; Inverting integrator A
6with integrator A
4, A
7connect; Inverting integrator A
7with integrator A
6connect; The utility model is chaos circuit, can export the various waveforms of Four-order neural-network chaos circuit, phasor and chaos and develop curve, can form chaotic secret communication system.
Description
Technical field
The utility model belongs to non-linear circuit, often claims chaos circuit, is specifically related to a kind of quadravalence and buys biousse banding pattern cell neural network chaos circuit.
Background technology
Nerval network chaotic circuit is a pith of non-linear circuit, its patent No. is the patent " a kind of multiple types quadravalence chaos combinational circuit that can switch and using method thereof " of 200810129213.9, the 4th circuit is wherein that biousse banding pattern cell neural network chaos circuit is bought on a kind of three rank, 3 oscillograms and 3 phasors can only be exported, be made up of eight grades of operational amplifiers, circuit structure is complicated, not through optimization circuits, it is the deficiency of existing nerval network chaotic circuit engineering.
Utility model content
The purpose of this utility model is the deficiency solved the problem, a kind of quadravalence of seven grades of operational amplifiers composition is provided to buy biousse banding pattern cell neural network chaos circuit, 4 oscillograms and 6 phasors can be exported, the quadravalence of stable output can buy biousse banding pattern cell neural network chaotic signal.
The utility model solves the technical scheme that its technical matters adopts: quadravalence buys biousse banding pattern cell neural network chaos circuit, is made up of, wherein: the first operational amplifier (A seven operational amplifiers and resistance and electric capacity
1) inverting input and the first resistance (R
1) connect, in-phase input end ground connection, is connected the second resistance (R between inverting input with output terminal
2), output terminal and the 3rd resistance (R
3), the 5th resistance (R
5) connect; Second operational amplifier (A
2) inverting input and the 3rd resistance (R
3) connect, in-phase input end ground connection, is connected the 4th resistance (R between inverting input with output terminal
4), output terminal and the 6th resistance (R
6) connect; 3rd operational amplifier (A
3) inverting input and the 5th resistance (R
5), the 6th resistance (R
6), the 7th resistance (R
7) connect, in-phase input end ground connection, is connected the first electric capacity (C between inverting input with output terminal
1), output terminal and the first resistance (R
1), the 8th resistance (R
8) connect, output terminal is X
1output terminal; Four-operational amplifier (A
4) inverting input and the 8th resistance (R
8), the 9th resistance (R
9) connect, in-phase input end ground connection, be connected the tenth resistance (R in parallel between inverting input with output terminal
10) and the second electric capacity (C
2), output terminal and the 7th resistance (R
7), the 11 resistance (R
11) connect, output terminal is X
2output terminal; 5th operational amplifier (A
5) inverting input and the 11 resistance (R
11) connect, in-phase input end ground connection, is connected the 12 resistance (R between inverting input with output terminal
12), output terminal and the 13 resistance (R
13) connect; 6th operational amplifier (A
6) inverting input and the 13 resistance (R
13), the 14 resistance (R
14) connect, in-phase input end ground connection, is connected the 3rd electric capacity (C between inverting input with output terminal
3), output terminal and the 9th resistance (R
9), the 15 resistance (R
15) connect, output terminal is X
3output terminal; 7th operational amplifier (A
7) inverting input and 15 resistance (R
15) connect, in-phase input end ground connection, be connected the 16 resistance (R in parallel between inverting input with output terminal
16) and the 4th electric capacity (C
4), output terminal and the 14 resistance (R
14) connect, output terminal is X
4output terminal.
Described 6th resistance (R
6) be variable resistor, the various curves that quadravalence buys the chaos differentiation of biousse banding pattern cell neural network chaos circuit can be observed.
The beneficial effects of the utility model are:
1, X can be exported
1, X
2, X
3with X
4four chaotic waves signals and X
1-X
2, X
1-X
3, X
1-X
4, X
2-X
3, X
2-X
4, X
3-X
4six chaos phasors;
2, above-mentioned various chaotic signal can be shown on oscillograph;
3, by some specific electrical resistance such as the 6th resistance (R
6) replaced by variable resistor after, the chaotic characteristic of the above various chaotic signal can be changed, can show on oscillograph quadravalence buy biousse banding pattern chaos develop various curves, other various experiment that quadravalence buys biousse banding pattern chaos can also be carried out.
The utility model is applicable to university's chaos education of science, experimental teaching and demonstration, scientific popularization experimental demonstration etc.
Accompanying drawing explanation
Fig. 1 is that quadravalence buys biousse banding pattern cell neural network chaos circuit schematic diagram.
Fig. 2 is that quadravalence buys biousse banding pattern cell neural network chaos circuit X
1-X
2export phasor.
Fig. 3 is that quadravalence buys biousse banding pattern cell neural network chaos circuit X
1-X
3export phasor.
Fig. 4 is that quadravalence buys biousse banding pattern cell neural network chaos circuit X
1-X
4export phasor.
Fig. 5 is that quadravalence buys biousse banding pattern cell neural network chaos circuit X
2-X
3export phasor.
Fig. 6 is that quadravalence buys biousse banding pattern cell neural network chaos circuit X
2-X
4export phasor.
Fig. 7 is that quadravalence buys biousse banding pattern cell neural network chaos circuit X
3-X
4export phasor.
Embodiment
With reference to accompanying drawing 1, the utility model embodiment is made up of seven operational amplifiers and resistance and electric capacity, wherein: the first operational amplifier A
1inverting input and the first resistance R
1connect, in-phase input end ground connection, is connected the second resistance R between inverting input with output terminal
2, output terminal and the 3rd resistance R
3, the 5th resistance R
5connect; Second operational amplifier A
2inverting input and the 3rd resistance R
3connect, in-phase input end ground connection, is connected the 4th resistance R between inverting input with output terminal
4, output terminal and the 6th resistance R
6connect; 3rd operational amplifier A
3inverting input and the 5th resistance R
5, the 6th resistance R
6, the 7th resistance R
7connect, in-phase input end ground connection, is connected the first electric capacity C between inverting input with output terminal
1, output terminal and the first resistance R
1, the 8th resistance R
8connect, output terminal is X
1output terminal; Four-operational amplifier A
4inverting input and the 8th resistance R
8, the 9th resistance R
9connect, in-phase input end ground connection, between inverting input with output terminal, be connected the tenth resistance R in parallel
10with the second electric capacity C
2, output terminal and the 7th resistance R
7, the 11 resistance R
11connect, output terminal is X
2output terminal; 5th operational amplifier A
5inverting input and the 11 resistance R
11connect, in-phase input end ground connection, is connected the 12 resistance R between inverting input with output terminal
12, output terminal and the 13 resistance R
13connect; 6th operational amplifier A
6inverting input and the 13 resistance R
13, the 14 resistance R
14connect, in-phase input end ground connection, is connected the 3rd electric capacity C between inverting input with output terminal
3, output terminal and the 9th resistance R
9, the 15 resistance R
15connect, output terminal is X
3output terminal; 7th operational amplifier A
7inverting input and 15 resistance R
15connect, in-phase input end ground connection, between inverting input with output terminal, be connected the 16 resistance R in parallel
16with the 4th electric capacity C
4, output terminal and the 14 resistance R
14connect, output terminal is X
4output terminal.
By X in Fig. 1
1output terminal, X
2output terminal, X
3output terminal and X
4output terminal is connected to oscilloscope signal input end or computing machine concerned interface, can show X
1, X
2, X
3with X
4waveform, use oscillographic phasor mode to observe, X
1-X
2output terminal phasor signal as shown in Figure 2, X
1-X
3output terminal phasor signal as shown in Figure 3, X
1-X
4output terminal phasor signal as shown in Figure 4, X
2-X
3output terminal phasor signal as shown in Figure 5, X
2-X
4output terminal phasor signal as shown in Figure 6, X
3-X
4output terminal phasor signal as shown in Figure 7.By Fig. 2 to Fig. 7, demonstrate validity of the present utility model.If the 6th resistance R
6replaced by variable resistor, continuously change resistance value, the various curves that chaos develops can be observed, by two identical circuit through suitably connecting, quadravalence can be carried out and buy the various experiments such as the synchronous of biousse banding pattern cell neural network chaos circuit and chaotic secret communication.
The component parameter of the utility model embodiment is as follows: A
1, A
2, A
3, A
4, A
5, A
6, A
7model is TL082 or TL084, R
1=R
2=R
3=R
5=R
10=R
11=R
12=R
15=R
16=10k Ω, R
4=120k Ω, R
7=5.6k Ω, R
8=R
9=2k Ω, R
13=4k Ω, R
14=69k Ω, R
6=33k Ω (variable resistor), C
1=C
2=C
3=C
4=0.01 μ F.
Claims (2)
1. quadravalence buys biousse banding pattern cell neural network chaos circuit, it is characterized in that: be made up of seven operational amplifiers and resistance and electric capacity, wherein: the first operational amplifier (A
1) inverting input and the first resistance (R
1) connect, in-phase input end ground connection, is connected the second resistance (R between inverting input with output terminal
2), output terminal and the 3rd resistance (R
3), the 5th resistance (R
5) connect; Second operational amplifier (A
2) inverting input and the 3rd resistance (R
3) connect, in-phase input end ground connection, is connected the 4th resistance (R between inverting input with output terminal
4), output terminal and the 6th resistance (R
6) connect; 3rd operational amplifier (A
3) inverting input and the 5th resistance (R
5), the 6th resistance (R
6), the 7th resistance (R
7) connect, in-phase input end ground connection, is connected the first electric capacity (C between inverting input with output terminal
1), output terminal and the first resistance (R
1), the 8th resistance (R
8) connect, output terminal is X
1output terminal; Four-operational amplifier (A
4) inverting input and the 8th resistance (R
8), the 9th resistance (R
9) connect, in-phase input end ground connection, be connected the tenth resistance (R in parallel between inverting input with output terminal
10) and the second electric capacity (C
2), output terminal and the 7th resistance (R
7), the 11 resistance (R
11) connect, output terminal is X
2output terminal; 5th operational amplifier (A
5) inverting input and the 11 resistance (R
11) connect, in-phase input end ground connection, is connected the 12 resistance (R between inverting input with output terminal
12), output terminal and the 13 resistance (R
13) connect; 6th operational amplifier (A
6) inverting input and the 13 resistance (R
13), the 14 resistance (R
14) connect, in-phase input end ground connection, is connected the 3rd electric capacity (C between inverting input with output terminal
3), output terminal and the 9th resistance (R
9), the 15 resistance (R
15) connect, output terminal is X
3output terminal; 7th operational amplifier (A
7) inverting input and 15 resistance (R
15) connect, in-phase input end ground connection, be connected the 16 resistance (R in parallel between inverting input with output terminal
16) and the 4th electric capacity (C
4), output terminal and the 14 resistance (R
14) connect, output terminal is X
4output terminal.
2. quadravalence according to claim 1 buys biousse banding pattern cell neural network chaos circuit, it is characterized in that: described 6th resistance (R
6) be variable resistor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420664000.7U CN204166777U (en) | 2014-11-07 | 2014-11-07 | Quadravalence buys biousse banding pattern cell neural network chaos circuit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420664000.7U CN204166777U (en) | 2014-11-07 | 2014-11-07 | Quadravalence buys biousse banding pattern cell neural network chaos circuit |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204166777U true CN204166777U (en) | 2015-02-18 |
Family
ID=52540443
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420664000.7U Expired - Fee Related CN204166777U (en) | 2014-11-07 | 2014-11-07 | Quadravalence buys biousse banding pattern cell neural network chaos circuit |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204166777U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104361800A (en) * | 2014-11-07 | 2015-02-18 | 山东外国语职业学院 | Fourth-order Mobius band type chaotic circuit of cellular neural network |
-
2014
- 2014-11-07 CN CN201420664000.7U patent/CN204166777U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104361800A (en) * | 2014-11-07 | 2015-02-18 | 山东外国语职业学院 | Fourth-order Mobius band type chaotic circuit of cellular neural network |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102663496B (en) | Four-order neural-network hyper-chaotic circuit | |
CN101373563B (en) | Lorentz chaos circuit | |
CN103021239B (en) | Fifth-order tsai hyperchaotic circuit | |
CN204166775U (en) | Biousse banding pattern cell neural network chaos circuit is bought on three rank | |
CN103049790B (en) | Novel four-order neural network hyperchaotic circuit | |
CN103036673B (en) | A kind of eight amplifier five rank hyperchaotic circuits | |
CN204166777U (en) | Quadravalence buys biousse banding pattern cell neural network chaos circuit | |
CN204166776U (en) | The two vortex type cell neural network hyperchaotic circuit in three rank | |
CN204290998U (en) | Quadravalence six adds three formula eight wing hyperchaotic circuits | |
CN203085031U (en) | Fifth-order Chua's hyperchaotic circuit | |
CN101441830B (en) | Left inclination double-eddies chaos circuit | |
CN204168304U (en) | A kind of five rank hyperchaotic circuits exporting graceful phasor | |
CN204270578U (en) | A kind of quadravalence amplitude limit type Jerk hyperchaotic circuit | |
CN202523286U (en) | Four-order neutral network super-chaotic circuit | |
CN204272149U (en) | A kind of five rank amplitude limit type Jerk hyperchaotic circuits | |
CN104376764B (en) | The double vortex type cell neural network hyperchaotic circuit in three rank | |
CN209046656U (en) | A kind of three rank Hysteretic nonlinearity chaos circuits | |
CN202995788U (en) | New fourth-order neural network hyperchaotic circuit | |
CN204166774U (en) | The two vortex type cell neural network hyperchaotic circuit of quadravalence | |
CN104468088B (en) | Quadravalence six plus the wing hyperchaotic circuit of three formula eight | |
CN209543699U (en) | A kind of three rank class Lorentz 3+2 type chaos circuits | |
CN202976624U (en) | Eight-operation amplifier fifth-order hyperchaotic circuit | |
CN104361799B (en) | Biousse banding pattern cell neural network chaos circuit is bought on three rank | |
CN207304573U (en) | A kind of five non-linear chaos circuit of rank one-way transmission of seven amplifier | |
CN104361800B (en) | Quadravalence buys biousse banding pattern cell neural network chaos circuit |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150218 Termination date: 20151107 |
|
EXPY | Termination of patent right or utility model |