CN107612521A - Single order high-pass filtering circuit based on memristor - Google Patents

Abstract

Single order high-pass filtering circuit based on memristor, the diode Wien Bridge Circuit of the FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor is characterized in that：The circuit is made up of diode 1N4148, electric capacity and resistance, and diode 1N4148 realizes Wien bridge circuit function, electric capacity and resistance composition RC oscillating circuits.Originally it is new to propose based on the diode Wien Bridge Circuit of FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor, realize the filter circuit in analog circuit, such as low-pass first order filter, second-order low-pass filter, high-pass filter, bandpass filter and all-pass filter, provide a kind of easy method and circuit to study the FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor being made up of diode Wien bridge circuit.

Description

Single order high-pass filtering circuit based on memristor

Technical field

The present invention relates to the basic circuit in analog circuit, the single order high-pass filtering circuit of memristor is based particularly on.

Background technology

Memristor is a kind of nonlinear circuit element, since the physical realizability report of FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor, base Relatively broad research has been obtained in the various application circuits for changing memristor, particularly memristor chaos circuit, has utilized simple base This circuit element carry out organic linking, it is easy to construct it is various be based on memristor, memristor has been used for the research of Chaos Compare far-reaching influence through generating, but memristor is individually applied in analog circuit, realize the filter in signal transacting Wave energy is also fewer at home and abroad, therefore, the present invention proposes the diode Wien Bridge Circuit with FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor Based on, realize the filter circuit in analog circuit, such as low-pass first order filter, second-order low-pass filter, high-pass filter, Bandpass filter and all-pass filter, a kind of letter is provided to study the FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor being made up of diode Wien bridge circuit Just method and circuit.

The content of the invention

1. the single order high-pass filtering circuit based on memristor, it is characterised in that：The memristor is by diode 1N4148 texts Family name's bridge circuit and electric capacity and resistance composition, diode 1N4148 realize Wien bridge circuit function, electric capacity and resistance composition RC vibrations Circuit；Diode D1 positive pole connects diode D4 positive pole, connects the input of memristor, and the negative pole of the diode D1 connects electric capacity C0 one end, connects diode D2 negative pole, and the positive pole of the diode D2 connects diode D3 negative pole, connects the output of memristor End, the negative pole of the diode D2 connect one end of electric capacity, and the negative pole of the diode D3 connects diode D2 positive pole, connects memristor Output end, the positive pole of the diode D3 connects diode D4 positive pole, connects the electric capacity C0 other end, is grounded, the diode D4 positive pole connects diode D3 positive pole, connects the electric capacity C0 other end, and ground connection, the negative pole of the diode D4 meets diode D1 Positive pole, connect the input of memristor, a terminating resistor R0 of electric capacity C0 one end, another termination electricity of the electric capacity C0 Hinder the R0 other end, ground connection；Relationship below is drawn according to the circuit of diode Wien bridge circuit：

If memristor both ends input voltage and electric current are respectively Vm and Im, electric capacity C₀Both end voltage is V₀, its mathematical modeling For：

Wherein, ρ=1/ (2nV_T)；I_s, n and V_TDiode reverse saturation current, emission ratio and thermal voltage are represented respectively, Thus, it is possible to derive that recalling for memristor leads expression formula and be

The single order high-pass filtering circuit based on memristor is by resistance, electric capacity, memristor and operational amplifier LF347BN (U3) form, the negative input end of the operational amplifier LF347BN (U3) meets operational amplifier LF347BN by memristor Rm3 (U3) output end, it is grounded by resistance Ri3, operational amplifier LF347BN (U3) positive input terminal passes through electric capacity C3 and electric capacity C4 connects the input of high-pass filter, is grounded by resistance R4, and operational amplifier LF347BN is met by electric capacity C4 and resistance R5 (U3) output end, operational amplifier LF347BN (U3) positive supply termination VCC, negative supply termination VEE, according to high-pass filtering Device circuit structure draws relationship below：

If the transmission function of high-pass filter is A_u(s), input voltage U_i3, output voltage U_o3, operational amplifier U3 The voltage of positive input terminal be A_up,

According to computing circuit " empty short ", " void is disconnected " and Laplace transform principle are drawn：

Work as C₃=C₄=C, R₄=R₅During=R

Beneficial effect：The present invention is proposed based on the diode Wien Bridge Circuit of FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor, is realized Filter circuit in analog circuit, such as low-pass first order filter, second-order low-pass filter, high-pass filter, bandpass filter And all-pass filter, for study the FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor that be made up of diode Wien bridge circuit provide a kind of easy method with Circuit.

Brief description of the drawings

Fig. 1 is single order high-pass filtering circuit of the realization based on memristor.

Fig. 2 is the diode Wien Bridge Circuit for realizing FIRST ORDER GENERALIZED DISTRIBUTED PARAMETER memristor.

Embodiment

The present invention is further described in detail with preferred embodiment below in conjunction with the accompanying drawings, referring to Fig. 1-Fig. 2.

1. the single order high-pass filtering circuit based on memristor, it is characterised in that：The memristor is by diode 1N4148 texts Family name's bridge circuit and electric capacity and resistance composition, diode 1N4148 realize Wien bridge circuit function, electric capacity and resistance composition RC vibrations Circuit；Diode D1 positive pole connects diode D4 positive pole, connects the input of memristor, and the negative pole of the diode D1 connects electric capacity C0 one end, connects diode D2 negative pole, and the positive pole of the diode D2 connects diode D3 negative pole, connects the output of memristor End, the negative pole of the diode D2 connect one end of electric capacity, and the negative pole of the diode D3 connects diode D2 positive pole, connects memristor Output end, the positive pole of the diode D3 connects diode D4 positive pole, connects the electric capacity C0 other end, is grounded, the diode D4 positive pole connects diode D3 positive pole, connects the electric capacity C0 other end, and ground connection, the negative pole of the diode D4 meets diode D1 Positive pole, connect the input of memristor, a terminating resistor R0 of electric capacity C0 one end, another termination electricity of the electric capacity C0 Hinder the R0 other end, ground connection；Relationship below is drawn according to the circuit of diode Wien bridge circuit：

If memristor both ends input voltage and electric current are respectively Vm and Im, electric capacity C₀Both end voltage is V₀, its mathematical modeling For：

Wherein, ρ=1/ (2nV_T)；I_s, n and V_TDiode reverse saturation current, emission ratio and thermal voltage are represented respectively, Thus, it is possible to derive that recalling for memristor leads expression formula and be

The single order high-pass filtering circuit based on memristor is by resistance, electric capacity, memristor and operational amplifier LF347BN (U3) form, the negative input end of the operational amplifier LF347BN (U3) meets operational amplifier LF347BN by memristor Rm3 (U3) output end, it is grounded by resistance Ri3, operational amplifier LF347BN (U3) positive input terminal passes through electric capacity C3 and electric capacity C4 connects the input of high-pass filter, is grounded by resistance R4, and operational amplifier LF347BN is met by electric capacity C4 and resistance R5 (U3) output end, operational amplifier LF347BN (U3) positive supply termination VCC, negative supply termination VEE, according to high-pass filtering Device circuit structure draws relationship below：

If the transmission function of high-pass filter is A_u(s), input voltage U_i3, output voltage U_o3, operational amplifier U3 The voltage of positive input terminal be A_up,

According to computing circuit " empty short ", " void is disconnected " and Laplace transform principle are drawn：

Work as C₃=C₄=C, R₄=R₅During=R

Certainly, described above is not limitation to invention, and the present invention is also not limited to the example above, the art it is general The variations, modifications, additions or substitutions that logical technical staff is made in the essential scope of the present invention, fall within the protection of the present invention Scope.

Claims (1)

1. the single order high-pass filtering circuit based on memristor, it is characterised in that：The memristor is by diode 1N4148 Wens electricity Bridge circuit and electric capacity and resistance composition, diode 1N4148 realize Wien bridge circuit function, electric capacity and resistance composition RC oscillating circuits； Diode D1 positive pole connects diode D4 positive pole, connects the input of memristor, and the negative pole of the diode D1 connects electric capacity C0's One end, connects diode D2 negative pole, and the positive pole of the diode D2 connects diode D3 negative pole, meets the output end of memristor, institute The negative pole for stating diode D2 connects one end of electric capacity, and the negative pole of the diode D3 connects diode D2 positive pole, connects the defeated of memristor Go out end, the positive pole of the diode D3 connects diode D4 positive pole, connects the electric capacity C0 other end, is grounded, the diode D4's Positive pole connects diode D3 positive pole, connects the electric capacity C0 other end, and ground connection, the negative pole of the diode D4 is meeting diode D1 just Pole, meet the input of memristor, a terminating resistor R0 of electric capacity C0 one end, another terminating resistor R0 of the electric capacity C0 The other end, ground connection；Relationship below is drawn according to the circuit of diode Wien bridge circuit：

If memristor both ends input voltage and electric current are respectively Vm and Im, electric capacity C₀Both end voltage is V₀, its mathematical modeling is：

Wherein, ρ=1/ (2nV_T)；I_s, n and V_TDiode reverse saturation current, emission ratio and thermal voltage are represented respectively, thus, It can derive that recalling for memristor leads expression formula and be

The single order high-pass filtering circuit based on memristor is by resistance, electric capacity, memristor and operational amplifier LF347BN (U3) Composition, the negative input end of the operational amplifier LF347BN (U3) meet operational amplifier LF347BN (U3) by memristor Rm3 Output end, be grounded by resistance Ri3, operational amplifier LF347BN (U3) positive input terminal is connect by electric capacity C3 and electric capacity C4 The input of high-pass filter, it is grounded by resistance R4, connects operational amplifier LF347BN's (U3) by electric capacity C4 and resistance R5 Output end, operational amplifier LF347BN (U3) positive supply termination VCC, negative supply termination VEE, according to circuit of high pass filter Structure draws relationship below：

If the transmission function of high-pass filter is A_u(s), input voltage U_i3, output voltage U_o3, operational amplifier U3 is just The voltage of input is A_up,

According to computing circuit " empty short ", " void is disconnected " and Laplace transform principle are drawn：

Work as C₃=C₄=C, R₄=R₅During=R