CN203759092U - Capacitive photovoltaic battery voltage/current acquisition apparatus - Google Patents

Abstract

The utility model provides a capacitive photovoltaic battery voltage/current acquisition apparatus, comprising a sampling module, a voltage signal measuring module, a current signal measuring module, an MCU (Microprogrammed Control Unit) signal processing module and a manual shift selecting module; wherein the manual shift selecting module is used for selecting a measuring shift according to measured photovoltaic battery parameters, then a shift selecting signal is transmitted to the voltage signal measuring module and the current signal measuring module through the MCU signal processing module to determine the measuring shift; the sampling module performs sampling to acquired voltage/current signals of an output end of the photovoltaic battery and respectively transmits the signals to the voltage signal measuring module and the current signal measuring module to perform amplification and filtering processing, then the processed signals are transmitted to the MCU signal processing module for processing, after that, the signals are uploaded to higher monitoring equipment for use. The capacitive photovoltaic battery voltage/current acquisition apparatus of the utility model has the advantages of simple circuit structure, low cost, high sampling precision, short sampling period, convenient operation and good operating stability.

Description

A kind of condenser type photovoltaic cell electric current and voltage harvester

Technical field

The utility model relates to the electric current and voltage detection technique field of photovoltaic cell output, is specifically related to a kind of capacitor charge and discharge technology of utilizing to the voltage of photovoltaic cell output, the device that electric current gathers.

Background technology

Current, the application of solar electrical energy generation is more and more extensive.In solar electrical energy generation process, need to carry out real-time sampling to voltage, the electric current of photovoltaic cell output, to meet the monitoring demand of upper level system or power network dispatching system.At present, photovoltaic power station monitoring system is mainly provided with equipment by inverter manufacturer, due to inverter, manufacturer is numerous, each inverter Chang Duanjuncong our factory inverter sets out, select the electric current and voltage harvester of corresponding photovoltaic cell, the product of different vendor each other cannot be compatible, thereby bring difficulty to the work of solar power station actual monitored; The monitoring of solar power station is difficult to form convenient, unified monitoring system.In addition, one of major defect of photovoltaic generation is that the photoelectric transformation efficiency of solar battery array is too low, for addressing this problem, the important channel adopting is at present to adopt MPPT maximum power point tracking (MPPT) technology, and the working point by real-time adjustment photovoltaic cell is to reaching the maximization of photovoltaic battery array output power.The first step of implementing MPPT maximum power point tracking (MPPT) technology is samples to voltage, the electric current of photovoltaic battery array output, and its device for sampling at present, its circuit structure relative complex, sampling precision is not high, and the sampled measurements time is length and less stable.

Utility model content

The purpose of this utility model is: for deficiency of the prior art, provide that a kind of circuit structure is simple, cost is lower, sampling precision is higher, the sampling period is short, the condenser type photovoltaic cell electric current and voltage harvester of easy to operate and good operating stability.

The technical solution of the utility model is: condenser type photovoltaic cell electric current and voltage harvester of the present utility model, and its design feature is: comprise sampling module, voltage signal measurement module, current signal measurement module, MCU signal processing module and manual gear selecting module;

Above-mentioned sampling module is provided with first signal input end, secondary signal input end, the first control signal input end, the second control signal input end, voltage signal output end and current signal output end; Voltage signal measurement module is provided with voltage signal input end, the first selective stage signal input end, the second selective stage signal input end and voltage signal output end; Current signal measurement module is provided with current signal input end, the first selective stage signal input end, the second selective stage signal input end and current signal output end; MCU signal processing module is provided with the first control end, the second control end, the first selective stage signal output terminal, the second selective stage signal output terminal, the 3rd selective stage signal output terminal, the 4th selective stage signal output terminal, voltage signal input end, current signal input end, selective stage signal input end and voltage and current signal output terminal; Manually gear selecting module is provided with signal output part and power end;

When the first signal input end of sampling module is used with secondary signal input end, correspondence is connected with negative electricity with the positive pole of tested photovoltaic cell respectively; The first control signal input end of sampling module and the second control signal input end are corresponding to be respectively electrically connected to the first control end and the second control end signal of MCU signal processing module; The voltage signal input end of voltage signal measurement module is electrically connected to the voltage signal output end signal of sampling module; The first selective stage signal input end of voltage signal measurement module and the second selective stage signal input end are corresponding to be respectively electrically connected to the first selective stage signal output terminal and the second selective stage signal output end signal of MCU signal processing module; The voltage signal input end of MCU signal processing module is electrically connected to the voltage signal output end signal of voltage signal measurement module; The current signal input end of current signal measurement module is electrically connected to the current signal output end signal of sampling module; The first selective stage signal input end of current signal measurement module and the second selective stage signal input end are corresponding to be respectively electrically connected to the 3rd selective stage signal output terminal and the 4th selective stage signal output end signal of MCU signal processing module; The current signal input end of MCU signal processing module is electrically connected to the current signal output end signal of current signal measurement module; The selective stage signal input end of MCU signal processing module is electrically connected to the selective stage signal output end signal of manual gear selecting module; Connect+5V direct supply when manually the power end of gear selecting module is used; The voltage and current signal output terminal of MCU signal processing module is electrically connected to higher level's watch-dog signal while using.

Further scheme is: above-mentioned sampling module comprises electrochemical capacitor C, field effect transistor S ₁, field effect transistor S ₂with sample rate current resistance R;

Positive level and the field effect transistor S of above-mentioned electrochemical capacitor C ₂drain electrode form a common junction because of conllinear, this common junction is the first signal input end of above-mentioned sampling module, is also the voltage signal output end of above-mentioned sampling module simultaneously; The negative pole of electrochemical capacitor C, field effect transistor S ₂source electrode and field effect transistor S ₁leakage level conllinear; Field effect transistor S ₁drain electrode and one end of sampling resistor R form a common junction because of conllinear, this common junction is the current signal output end of above-mentioned sampling module; The other end of sampling resistor R had been both the secondary signal input end of above-mentioned sampling module; Field effect transistor S ₂grid be the first control signal input end of sampling module; Field effect transistor S ₁grid be the second control signal input end of sampling module.

Further scheme is: above-mentioned voltage signal measurement module comprises MUX U1, reverse proportion operational amplifier T1, divider resistance R ₁, divider resistance R ₂, divider resistance R ₃, divider resistance R ₄, resistance R ₅, resistance R _ f 1 and filter capacitor C1; MUX U1 is provided with the first selection input end, second and selects input end, the 3rd to select input end, the first address mouth A ₀, the second address mouth A ₁and signal output part; The first address mouth A of MUX U1 ₀be the first selective stage signal input end of above-mentioned voltage signal measurement module; The second address mouth A of MUX U1 ₁be the second selective stage signal input end of above-mentioned voltage signal measurement module;

Divider resistance R ₁one end be the voltage signal input end of above-mentioned voltage signal measurement module; Divider resistance R ₁the other end, divider resistance R ₂one end and MUX U1 first select input end conllinear; Divider resistance R ₂the other end, divider resistance R ₃one end and MUX U1 second select input end conllinear; Divider resistance R ₃the other end, divider resistance R ₄one end and MUX U1 the 3rd select input end conllinear; Resistance R ₅one end be electrically connected to the signal output part of MUX U1; Resistance R ₅one end and the reverse inverting input conllinear of proportion operational amplifier T1 of the other end, resistance R _ f 1; Oppositely the output terminal of proportion operational amplifier T1 is, one end of one end of resistance R _ f 1 and filter capacitor C1 forms a common junction because of conllinear, and this common junction is the voltage signal output end of above-mentioned voltage signal measurement module; Positive, the divider resistance R of reverse proportion operational amplifier T1 ₄the other end and the equal ground connection of the other end of filter capacitor C1.

Further scheme is: above-mentioned current signal measurement module comprises MUX U2, reverse proportion operational amplifier T2, resistance R ₆, resistance R ₇, resistance R ₈, resistance R ₉, resistance R ₁₀, resistance R _ f 2 and filter capacitor C2; MUX U2 is provided with the first selection input end, second and selects input end, the 3rd to select input end, the first address mouth A ₂, the second address mouth A ₃and signal output part; The first address mouth A of MUX U2 ₂be the first selective stage signal input end of above-mentioned current signal measurement module; The second address mouth A of MUX U2 ₃be the second selective stage signal input end of above-mentioned current signal measurement module;

Resistance R ₆one end be the current signal input end of above-mentioned current signal measurement module; Resistance R ₆the other end, resistance R ₇one end and MUX U2 first select input end conllinear; Resistance R ₇the other end, resistance R ₈one end and MUX U2 second select input end conllinear; Resistance R ₈the other end, divider resistance R ₉one end and MUX U2 the 3rd select input end conllinear; Resistance R ₁₀one end be electrically connected to the signal output part of MUX U2; Resistance R ₁₀one end and the reverse inverting input conllinear of proportion operational amplifier T2 of the other end, resistance R _ f 2; Oppositely the output terminal of proportion operational amplifier T2 is, one end of one end of resistance R _ f 2 and filter capacitor C2 forms a common junction because of conllinear, and this common junction is the current signal output end of above-mentioned current signal measurement module; Positive, the resistance R of reverse proportion operational amplifier T2 ₉the other end and the equal ground connection of the other end of filter capacitor C2.

Further scheme is: above-mentioned manual gear selecting module comprises plucking number sign switch, resistance R ₁₁, resistance R ₁₂, resistance R ₁₃and resistance R ₁₄; Above-mentioned plucking number sign switch is the rotary encoder of LJV model; Plucking number sign switch has A, B, C, L, R wiring pin; The A wiring pin of plucking number sign switch, B wiring pin, resistance R ₁₁one end and resistance R ₁₂one end form a common junction because of conllinear, this common junction is the power end of aforesaid manual gear selecting module; The L wiring pin of plucking number sign switch, resistance R ₁₁the other end and resistance R ₁₃one end conllinear; The R wiring pin of plucking number sign switch, resistance R ₁₂the other end and resistance R ₁₄one end conllinear; The C wiring pin of plucking number sign switch, resistance R ₁₃the other end and resistance R ₁₄the other end form a common junction because of conllinear, this common junction is the selective stage signal output terminal of aforesaid manual gear selecting module.

Further scheme is: above-mentioned field effect transistor S ₁with field effect transistor S ₂field effect transistor for F1010E model; Above-mentioned electrochemical capacitor C is the electrochemical capacitor of 6800 μ F/50V.

Further scheme also has: above-mentioned MUX U1, MUX U2 are the MUX of CD4051 model; Oppositely proportion operational amplifier T1, reverse proportion operational amplifier T2 are the operational amplifier of OPA333 model.

The utlity model has positive effect: (1) condenser type photovoltaic cell of the present utility model electric current and voltage harvester, it is than the photovoltaic cell data collector with traditional, and circuit structure is simple, cost is lower, easy to operate, good operating stability.(2) condenser type photovoltaic cell electric current and voltage harvester of the present utility model, according to the parameter of tested photovoltaic cell, adopts stepping formula measuring method, and sampling precision is higher, the sampling period is short.(3) condenser type photovoltaic cell electric current and voltage harvester of the present utility model can use in rugged environment, and applicability is strong.

Accompanying drawing explanation

Fig. 1 is the circuit structure block diagram of condenser type photovoltaic cell electric current and voltage harvester of the present utility model, has also shown the electrical connection of itself and photovoltaic cell E in figure;

Fig. 2 is the electrical schematic diagram of the sampling module in Fig. 1, has also shown the electrical connection of itself and photovoltaic cell E in figure;

Fig. 3 is the electrical schematic diagram of the voltage signal measurement module in Fig. 1;

Fig. 4 is the electrical schematic diagram of the current signal measurement module in Fig. 1;

Fig. 5 is the electrical schematic diagram of the manual gear selecting module in Fig. 1.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

(embodiment 1)

See Fig. 1, the condenser type photovoltaic cell electric current and voltage harvester of the present embodiment, is mainly comprised of sampling module, voltage signal measurement module, current signal measurement module, MCU signal processing module and manual gear selecting module.

Sampling module is provided with first signal input end, secondary signal input end, the first control signal input end, the second control signal input end, voltage signal output end and current signal output end; Voltage signal measurement module is provided with voltage signal input end, the first selective stage signal input end, the second selective stage signal input end and voltage signal output end; Current signal measurement module is provided with current signal input end, the first selective stage signal input end, the second selective stage signal input end and current signal output end; MCU signal processing module is provided with the first control end, the second control end, the first selective stage signal output terminal, the second selective stage signal output terminal, the 3rd selective stage signal output terminal, the 4th selective stage signal output terminal, voltage signal input end, current signal input end, selective stage signal input end and voltage and current signal output terminal; Manually gear selecting module is provided with signal output part and power end.

When the first signal input end of sampling module is used with secondary signal input end, correspondence is connected with negative electricity with the positive pole of photovoltaic cell E respectively; The first control signal input end of sampling module and the second control signal input end are corresponding to be respectively electrically connected to the first control end and the second control end signal of MCU signal processing module; The voltage signal input end of voltage signal measurement module is electrically connected to the voltage signal output end signal of sampling module; The first selective stage signal input end of voltage signal measurement module and the second selective stage signal input end are corresponding to be respectively electrically connected to the first selective stage signal output terminal and the second selective stage signal output end signal of MCU signal processing module; The voltage signal input end of MCU signal processing module is electrically connected to the voltage signal output end signal of voltage signal measurement module; The current signal input end of current signal measurement module is electrically connected to the current signal output end signal of sampling module; The first selective stage signal input end of current signal measurement module and the second selective stage signal input end are corresponding to be respectively electrically connected to the 3rd selective stage signal output terminal and the 4th selective stage signal output end signal of MCU signal processing module; The current signal input end of MCU signal processing module is electrically connected to the current signal output end signal of current signal measurement module; The selective stage signal input end of MCU signal processing module is electrically connected to the selective stage signal output end signal of manual gear selecting module; Connect+5V direct supply when manually the power end of gear selecting module is used; The voltage and current signal output terminal of MCU signal processing module is electrically connected to higher level's watch-dog signal while using.

See Fig. 2, aforesaid sampling module is mainly by electrochemical capacitor C, field effect transistor S ₁, field effect transistor S ₂form with sample rate current resistance R.Positive level and the field effect transistor S of electrochemical capacitor C ₂drain electrode form a common junction because of conllinear, this common junction is the first signal input end of aforesaid sampling module, is also the voltage signal output end of sampling module (in figure, marking U) simultaneously; The negative pole of electrochemical capacitor C, field effect transistor S ₂source electrode and field effect transistor S ₁leakage level conllinear.Field effect transistor S ₁drain electrode and one end of sampling resistor R form a common junction because of conllinear, this common junction is the current signal output end (marking I in figure) of aforesaid sampling module; The other end of sampling resistor R had been both the secondary signal input end of aforesaid sampling module; Field effect transistor S ₂grid be the first control signal input end of sampling module; Field effect transistor S ₁grid be the second control signal input end of sampling module.In the present embodiment, field effect transistor S ₁with field effect transistor S ₂preferably adopt the field effect transistor of F1010E model.Electrochemical capacitor C preferably adopts the electrochemical capacitor of 6800 μ F/50V.

See Fig. 3, voltage signal measurement module is mainly by MUX U1, reverse proportion operational amplifier T1, divider resistance R ₁, divider resistance R ₂, divider resistance R ₃, divider resistance R ₄, resistance R ₅, resistance R _ f 1 and filter capacitor C1 form.In MUX U1 the present embodiment, preferably adopt the MUX of CD4051 model; Oppositely proportion operational amplifier T1 preferably adopts the operational amplifier of OPA333 model.MUX U1 is provided with the first selection input end, second and selects input end, the 3rd to select input end, the first address mouth A ₀, the second address mouth A ₁and signal output part.The first address mouth A of MUX U1 ₀be the first selective stage signal input end of aforesaid voltage signal measurement module; The second address mouth A of MUX U1 ₁be the second selective stage signal input end of aforesaid voltage signal measurement module;

Divider resistance R ₁one end be the voltage signal input end of aforesaid voltage signal measurement module; Divider resistance R ₁the other end, divider resistance R ₂one end and MUX U1 first select input end conllinear; Divider resistance R ₂the other end, divider resistance R ₃one end and MUX U1 second select input end conllinear; Divider resistance R ₃the other end, divider resistance R ₄one end and MUX U1 the 3rd select input end conllinear; Resistance R ₅one end be electrically connected to the signal output part of MUX U1; Resistance R ₅one end and the reverse inverting input conllinear of proportion operational amplifier T1 of the other end, resistance R _ f 1; Oppositely the output terminal of proportion operational amplifier T1 is, one end of one end of resistance R _ f 1 and filter capacitor C1 forms a common junction because of conllinear, and this common junction is the voltage signal output end of aforesaid voltage signal measurement module; Positive, the divider resistance R of reverse proportion operational amplifier T1 ₄the other end and the equal ground connection of the other end of filter capacitor C1.

See Fig. 4, current signal measurement module is mainly by MUX U2, reverse proportion operational amplifier T2, resistance R ₆, resistance R ₇, resistance R ₈, resistance R ₉, resistance R ₁₀, resistance R _ f 2 and filter capacitor C2 form.In MUX U2 the present embodiment, preferably adopt the MUX of CD4051 model; Oppositely proportion operational amplifier T2 preferably adopts the operational amplifier of OPA333 model.MUX U2 is provided with the first selection input end, second and selects input end, the 3rd to select input end, the first address mouth A ₂, the second address mouth A ₃and signal output part.The first address mouth A of MUX U2 ₂be the first selective stage signal input end of aforesaid current signal measurement module; The second address mouth A of MUX U2 ₃be the second selective stage signal input end of aforesaid current signal measurement module;

Resistance R ₆one end be the current signal input end of aforesaid current signal measurement module; Resistance R ₆the other end, resistance R ₇one end and MUX U2 first select input end conllinear; Resistance R ₇the other end, resistance R ₈one end and MUX U2 second select input end conllinear; Resistance R ₈the other end, divider resistance R ₉one end and MUX U2 the 3rd select input end conllinear; Resistance R ₁₀one end be electrically connected to the signal output part of MUX U2; Resistance R ₁₀one end and the reverse inverting input conllinear of proportion operational amplifier T2 of the other end, resistance R _ f 2; Oppositely the output terminal of proportion operational amplifier T2 is, one end of one end of resistance R _ f 2 and filter capacitor C2 forms a common junction because of conllinear, and this common junction is the current signal output end of aforesaid current signal measurement module; Positive, the resistance R of reverse proportion operational amplifier T2 ₉the other end and the equal ground connection of the other end of filter capacitor C2.

See Fig. 5, manually gear selecting module is mainly by plucking number sign switch, resistance R ₁₁, resistance R ₁₂, resistance R ₁₃and resistance R ₁₄form.In plucking number sign switch the present embodiment, preferably adopt the rotary encoder of LJV model.Plucking number sign switch has A, B, C, L, R wiring pin; The A wiring pin of plucking number sign switch, B wiring pin, resistance R ₁₁one end and resistance R ₁₂one end form a common junction because of conllinear, this common junction is the power end of aforesaid manual gear selecting module; The L wiring pin of plucking number sign switch, resistance R ₁₁the other end and resistance R ₁₃one end conllinear; The R wiring pin of plucking number sign switch, resistance R ₁₂the other end and resistance R ₁₄one end conllinear; The C wiring pin of plucking number sign switch, resistance R ₁₃the other end and resistance R ₁₄the other end form a common junction because of conllinear, this common junction is the selective stage signal output terminal of aforesaid manual gear selecting module.

MCU signal processing module mainly comprises the MCU integrated chip of STC12C5A16S2 model.MCU signal processing module is used for measuring gear selecting and gathers to be controlled, and after the voltage of its reception, current signal are calculated, processed, by its voltage and current signal output terminal, sends to higher level's watch-dog to use.

Principle of work and the course of work of the condenser type photovoltaic cell electric current and voltage harvester of the present embodiment are summarized as follows:

The condenser type photovoltaic cell electric current and voltage harvester of the present embodiment, during use, first according to the parameter of photovoltaic cell, select corresponding voltage, electric current gear: wherein gear is selected by the plucking number sign switch manual control of manual gear selecting module, selective stage signal is sent into respectively the address mouth (A of the MUX of voltage signal measurement module and current signal measurement module after by MCU signal processing module ₀, A ₁and A ₂, A ₃).And now MCU signal processing module is controlled the field effect transistor S in sampling module ₂for conducting state, field effect transistor S ₁for cut-off state, to guarantee there is no storage power on electric capacity, guarantee the accuracy of measuring; Photovoltaic cell gathers voltage and electric current (now, the MCU control field effect transistor S of current time when electrochemical capacitor C is charged ₁for conducting state, field effect transistor S ₂for cut-off state).After voltage signal measurement module and current signal measurement module amplify the voltage of collection or current signal respectively, filtering processes, voltage, current waveform signal are sent into MCU signal processing module to be processed, obtain magnitude of voltage and the current value signal of high-precision photovoltaic cell, by MCU signal processing module, the signal after processing is uploaded to higher level's watch-dog and uses.

To sum up, the condenser type photovoltaic cell electric current and voltage harvester of the present embodiment, it is than the photovoltaic cell data collector with traditional, and circuit structure is simple, cost is lower, easy to operate, good operating stability; Can adopt stepping formula measuring method according to the parameter of tested photovoltaic cell, sampling precision is higher, the sampling period is short; Can in rugged environment, use, applicability is strong.

Above embodiment is the explanation to embodiment of the present utility model; but not to restriction of the present utility model; person skilled in the relevant technique is not in the situation that departing from spirit and scope of the present utility model; can also make various conversion and variation and obtain the corresponding technical scheme being equal to, therefore all technical schemes that are equal to all should be included into scope of patent protection of the present utility model.

Claims (7)

1. a condenser type photovoltaic cell electric current and voltage harvester, is characterized in that: comprise sampling module, voltage signal measurement module, current signal measurement module, MCU signal processing module and manual gear selecting module;

Described sampling module is provided with first signal input end, secondary signal input end, the first control signal input end, the second control signal input end, voltage signal output end and current signal output end; Voltage signal measurement module is provided with voltage signal input end, the first selective stage signal input end, the second selective stage signal input end and voltage signal output end; Current signal measurement module is provided with current signal input end, the first selective stage signal input end, the second selective stage signal input end and current signal output end; MCU signal processing module is provided with the first control end, the second control end, the first selective stage signal output terminal, the second selective stage signal output terminal, the 3rd selective stage signal output terminal, the 4th selective stage signal output terminal, voltage signal input end, current signal input end, selective stage signal input end and voltage and current signal output terminal; Manually gear selecting module is provided with signal output part and power end;

When the first signal input end of sampling module is used with secondary signal input end, correspondence is connected with negative electricity with the positive pole of tested photovoltaic cell respectively; The first control signal input end of sampling module and the second control signal input end are corresponding to be respectively electrically connected to the first control end and the second control end signal of MCU signal processing module; The voltage signal input end of voltage signal measurement module is electrically connected to the voltage signal output end signal of sampling module; The first selective stage signal input end of voltage signal measurement module and the second selective stage signal input end are corresponding to be respectively electrically connected to the first selective stage signal output terminal and the second selective stage signal output end signal of MCU signal processing module; The voltage signal input end of MCU signal processing module is electrically connected to the voltage signal output end signal of voltage signal measurement module; The current signal input end of current signal measurement module is electrically connected to the current signal output end signal of sampling module; The first selective stage signal input end of current signal measurement module and the second selective stage signal input end are corresponding to be respectively electrically connected to the 3rd selective stage signal output terminal and the 4th selective stage signal output end signal of MCU signal processing module; The current signal input end of MCU signal processing module is electrically connected to the current signal output end signal of current signal measurement module; The selective stage signal input end of MCU signal processing module is electrically connected to the selective stage signal output end signal of manual gear selecting module; Connect+5V direct supply when manually the power end of gear selecting module is used; The voltage and current signal output terminal of MCU signal processing module is electrically connected to higher level's watch-dog signal while using.

2. condenser type photovoltaic cell electric current and voltage harvester according to claim 1, is characterized in that: described sampling module comprises electrochemical capacitor C, field effect transistor S ₁, field effect transistor S ₂with sample rate current resistance R;

Positive level and the field effect transistor S of described electrochemical capacitor C ₂drain electrode form a common junction because of conllinear, this common junction is the first signal input end of described sampling module, is also the voltage signal output end of described sampling module simultaneously; The negative pole of electrochemical capacitor C, field effect transistor S ₂source electrode and field effect transistor S ₁leakage level conllinear; Field effect transistor S ₁drain electrode and one end of sampling resistor R form a common junction because of conllinear, this common junction is the current signal output end of described sampling module; The other end of sampling resistor R had been both the secondary signal input end of described sampling module; Field effect transistor S ₂grid be the first control signal input end of sampling module; Field effect transistor S ₁grid be the second control signal input end of sampling module.

3. condenser type photovoltaic cell electric current and voltage harvester according to claim 1, is characterized in that: described voltage signal measurement module comprises MUX U1, reverse proportion operational amplifier T1, divider resistance R ₁, divider resistance R ₂, divider resistance R ₃, divider resistance R ₄, resistance R ₅, resistance R _ f 1 and filter capacitor C1; MUX U1 is provided with the first selection input end, second and selects input end, the 3rd to select input end, the first address mouth A ₀, the second address mouth A ₁and signal output part; The first address mouth A of MUX U1 ₀be the first selective stage signal input end of described voltage signal measurement module; The second address mouth A of MUX U1 ₁be the second selective stage signal input end of described voltage signal measurement module;

Divider resistance R ₁one end be the voltage signal input end of described voltage signal measurement module; Divider resistance R ₁the other end, divider resistance R ₂one end and MUX U1 first select input end conllinear; Divider resistance R ₂the other end, divider resistance R ₃one end and MUX U1 second select input end conllinear; Divider resistance R ₃the other end, divider resistance R ₄one end and MUX U1 the 3rd select input end conllinear; Resistance R ₅one end be electrically connected to the signal output part of MUX U1; Resistance R ₅one end and the reverse inverting input conllinear of proportion operational amplifier T1 of the other end, resistance R _ f 1; Oppositely the output terminal of proportion operational amplifier T1 is, one end of one end of resistance R _ f 1 and filter capacitor C1 forms a common junction because of conllinear, and this common junction is the voltage signal output end of described voltage signal measurement module; Positive, the divider resistance R of reverse proportion operational amplifier T1 ₄the other end and the equal ground connection of the other end of filter capacitor C1.

4. condenser type photovoltaic cell electric current and voltage harvester according to claim 1, is characterized in that: described current signal measurement module comprises MUX U2, reverse proportion operational amplifier T2, resistance R ₆, resistance R ₇, resistance R ₈, resistance R ₉, resistance R ₁₀, resistance R _ f 2 and filter capacitor C2; MUX U2 is provided with the first selection input end, second and selects input end, the 3rd to select input end, the first address mouth A ₂, the second address mouth A ₃and signal output part; The first address mouth A of MUX U2 ₂be the first selective stage signal input end of described current signal measurement module; The second address mouth A of MUX U2 ₃be the second selective stage signal input end of described current signal measurement module;

Resistance R ₆one end be the current signal input end of described current signal measurement module; Resistance R ₆the other end, resistance R ₇one end and MUX U2 first select input end conllinear; Resistance R ₇the other end, resistance R ₈one end and MUX U2 second select input end conllinear; Resistance R ₈the other end, divider resistance R ₉one end and MUX U2 the 3rd select input end conllinear; Resistance R ₁₀one end be electrically connected to the signal output part of MUX U2; Resistance R ₁₀one end and the reverse inverting input conllinear of proportion operational amplifier T2 of the other end, resistance R _ f 2; Oppositely the output terminal of proportion operational amplifier T2 is, one end of one end of resistance R _ f 2 and filter capacitor C2 forms a common junction because of conllinear, and this common junction is the current signal output end of described current signal measurement module; Positive, the resistance R of reverse proportion operational amplifier T2 ₉the other end and the equal ground connection of the other end of filter capacitor C2.

5. condenser type photovoltaic cell electric current and voltage harvester according to claim 1, is characterized in that: described manual gear selecting module comprises plucking number sign switch, resistance R ₁₁, resistance R ₁₂, resistance R ₁₃and resistance R ₁₄; Described plucking number sign switch is the rotary encoder of LJV model; Plucking number sign switch has A, B, C, L, R wiring pin; The A wiring pin of plucking number sign switch, B wiring pin, resistance R ₁₁one end and resistance R ₁₂one end form a common junction because of conllinear, this common junction is the power end of aforesaid manual gear selecting module; The L wiring pin of plucking number sign switch, resistance R ₁₁the other end and resistance R ₁₃one end conllinear; The R wiring pin of plucking number sign switch, resistance R ₁₂the other end and resistance R ₁₄one end conllinear; The C wiring pin of plucking number sign switch, resistance R ₁₃the other end and resistance R ₁₄the other end form a common junction because of conllinear, this common junction is the selective stage signal output terminal of aforesaid manual gear selecting module.

6. condenser type photovoltaic cell electric current and voltage harvester according to claim 2, is characterized in that: described field effect transistor S ₁with field effect transistor S ₂field effect transistor for F1010E model; Described electrochemical capacitor C is the electrochemical capacitor of 6800 μ F/50V.

7. according to the condenser type photovoltaic cell electric current and voltage harvester described in claim 3 or 4, it is characterized in that: described MUX U1, MUX U2 are the MUX of CD4051 model; Oppositely proportion operational amplifier T1, reverse proportion operational amplifier T2 are the operational amplifier of OPA333 model.