CN208580348U - A kind of constant current load circuit and electronic load and power parameter test macro - Google Patents

Abstract

The utility model discloses a kind of constant current load circuit and electronic load and power parameter test macros.Wherein constant current load circuit, comprising: main operational amplifier, gate driving, MOS device and current detecting unit；Main operational amplifier, non-inverting input terminal ground connection, inverting input terminal are connected to the first DA output end through input resistance and are connected to current detecting unit through feedback resistance, and output end connects gate driving；The grid of MOS device connects gate driving, and drain electrode connects tested one pole of power supply, and source electrode connects current detecting unit；Current detecting unit one end ground connection, one end of ground connection connect another pole of tested power supply.It can be realized Constant Current Load, tested power supply protected not to be damaged；It is safe and reliable simultaneously, no bias current, when tested power supply is without exporting, also no-load current and external bias voltage.

Description

A kind of constant current load circuit and electronic load and power parameter test macro

Technical field

The utility model relates to electronic testing instrument field, in particular to a kind of constant current load circuit and electronic load and electricity Source parameter test system.

Background technique

When to DC/DC power module parameter testing, need to export to tested power supply as defined in load, load can with resistance and Constant-current source is realized.It is reliable that payload security is done with resistance, but export electric current to change with output voltage, and adjust difficulty, no It is suitble to the requirement tested automatically；When being loaded with active constant-current source, load current is constant, PLC technology, but constant-current source is in quilt It will appear the voltage opposite with tested power supply output polarity when surveying power supply without output, be easily damaged tested power module.

As it can be seen that either doing load when testing tested power supply with resistance or being loaded with constant-current source, all deposited In shortcoming, it is not able to satisfy the needs of power safety test, cannot achieve the PLC technology of load current, it cannot be guaranteed that negative It carries electric current not change with the variation of tested electric power output voltage, both cannot achieve constant current.

Utility model content

In view of the above problems, the utility model is proposed to overcome the above problem in order to provide one kind or at least partly solve The certainly a kind of constant current load circuit and electronic load and power parameter test macro of the above problem.

In a first aspect, the utility model embodiment provides a kind of constant current load circuit, comprising: main operational amplifier, grid Driving, MOS device and current detecting unit；

The main operational amplifier, non-inverting input terminal ground connection, it is defeated that inverting input terminal through input resistance Rs is connected to the first DA Outlet and current detecting unit is connected to through feedback resistance Rf, output end connects the gate driving；

The grid of the MOS device connects the gate driving, and drain electrode connects tested one pole of power supply, and source electrode connects electric current inspection Survey unit；

Current detecting unit one end ground connection, one end of ground connection connects another pole of the tested power supply.

In some alternative embodiments, the MOS device, comprising: N-channel MOS pipe MOS1 and P-channel metal-oxide-semiconductor MOS2, concatenated diode D1 and D2；

The MOS1 is connected with the grid of the MOS2, and connect with the gate driving；

The MOS1 is connected with the source electrode of the MOS2, and connect with the current detecting unit；

The cathode of D1 and MOS1 drain electrode connect, and anode and the MOS2 drain electrode of D2 connects, and the anode of D1 is with D2's Cathode is connected, and connect with tested one pole of power supply.

In some alternative embodiments, the first DA output end includes: the first DAC conversion module；

Described first DAC conversion module one end connects number bus, and the other end connects the input resistance Rs.

In some alternative embodiments, the gate driving includes:

NPN triode, PNP triode, resistance R3 and resistance R4；

The grounded collector of the collector of the NPN triode and the PNP triode；

The base stage of the base stage and PNP triode of the one end resistance R3 and NPN triode connects, and the other end is put with the main operation The output end connection of big device；

The emitter of the emitter and PNP triode of the one end resistance R4 and NPN triode connects, the other end and the MOS The grid of device connects.

In some alternative embodiments, the constant current load circuit further includes following amplifier unit, is used for the electricity The boost in voltage of stream detection unit input exports after reverse phase.

It is in some alternative embodiments, described that follow amplifier unit include: operational amplifier U, feedback resistance R2 and defeated Enter resistance R1；

The inverting input terminal of the operational amplifier U is connected by feedback resistance R2 with its output end, homophase input termination Ground, output end are connect with feedback resistance Rf；

The one end the input resistance R1 is connect with the current detecting unit, and the other end is anti-with the operational amplifier U's The connection of phase input terminal.

Second aspect, the utility model embodiment provide a kind of electronic load, comprising:

In some alternative embodiments, comprising: main operational amplifier, gate driving, MOS device, current detecting unit, Gating switch and switch control unit；

The main operational amplifier, non-inverting input terminal ground connection, inverting input terminal are connected to gating switch through input resistance Rs And it is connected to current detecting unit through feedback resistance Rf, output end connects the gate driving；

The grid of the MOS device connects the gate driving, and drain electrode connects tested one pole of power supply, and source electrode connects electric current inspection Survey unit；

Current detecting unit one end ground connection, one end of ground connection connects another pole of the tested power supply；

The switch control unit input terminal connects tested power supply, the 2nd DA output end and the 3rd DA output end, output end According to the input signal of input terminal control the gating switch coupling cock control unit feedback network or connection the first DA it is defeated Outlet.

In some alternative embodiments, the first DA output end includes the first DAC conversion module, the first DAC Conversion module one end connects number bus, and the other end connect or breaks with the gating switch under switch control unit control It opens.

In some alternative embodiments, the switch control unit includes: comparator and multiplier；

The multiplier input is separately connected the 3rd DA output end and tested power supply, and output end connects comparator；

The comparator non-inverting input terminal connects the 2nd DA output end, and inverting input terminal connects multiplier, output end connection Gating switch.

In some alternative embodiments, the 2nd DA output end includes the 2nd DAC conversion module, the 2nd DAC Conversion module one end connects number bus, and the other end connects the non-inverting input terminal of the comparator；

The 3rd DA output end includes the 3rd DAC conversion module, and described 3rd DAC conversion module one end connects the number Word bus, the other end connect the multiplier.

In some alternative embodiments, the MOS device includes: N-channel MOS pipe MOS1 and P channel MOS tube MOS2, Concatenated diode D1 and D2；

The MOS1 is connected with the grid of the MOS2, and connect with the gate driving；

The MOS1 is connected with the source electrode of the MOS2, and connect with the current detecting unit；

The cathode of D1 and MOS1 drain electrode connect, and anode and the MOS2 drain electrode of D2 connects, and the anode of D1 is with D2's Cathode is connected, and connect with tested one pole of power supply.

In some alternative embodiments, the gate driving includes:

NPN triode, PNP triode, resistance R3 and resistance R4；

The grounded collector of the collector of the NPN triode and the PNP triode；

The base stage of the base stage and PNP triode of the one end resistance R3 and NPN triode connects, and the other end is put with the main operation The output end connection of big device；

The emitter of the emitter and PNP triode of the one end resistance R4 and NPN triode connects, the other end and the MOS The grid of device connects.

In some alternative embodiments, the electronic load further includes following amplifier unit, for examining the electric current It surveys the boost in voltage of unit input, export after reverse phase.

It is in some alternative embodiments, described that follow amplifier unit include: operational amplifier U, feedback resistance R2 and defeated Enter resistance R1；

The inverting input terminal of the operational amplifier U is connected by feedback resistance R2 with its output end, homophase input termination Ground, output end are connect with feedback resistance Rf；

The one end the input resistance R1 is connect with the current detecting unit, and the other end is anti-with the operational amplifier U's The connection of phase input terminal.

The third aspect, the utility model embodiment provide a kind of power parameter test macro, comprising: tested power supply and above-mentioned Any electronic load.

In some alternative embodiments, the switch control unit judges whether the output voltage of the tested power supply reaches To rated output voltage, when tested electric power output voltage is not up to rated output voltage, controls the gating switch connection and open Close the feedback network of control unit；When tested electric power output voltage reaches rated output voltage, the gating switch is controlled, is cut Change to the first DA output end of connection.

The beneficial effect of above-mentioned constant current load circuit and electronic load provided by the embodiment of the utility model includes at least:

1, constant current load circuit and electronic load provided by the embodiment of the utility model, utilize the output of main operational amplifier Control MOS device grid voltage, MOS device according to the grid voltage of input terminal come the drain current of control output end, thus Realize Constant Current Load.Safe and reliable simultaneously, without bias supply, power supply is provided by the output for being tested power supply for the drain electrode of MOS device, when When tested power supply is without output, also no-load current and external bias voltage, will not be damaged to protect and be tested power supply.

2, constant current load circuit and electronic load provided by the embodiment of the utility model, MOS device by N-channel metal-oxide-semiconductor, P-channel metal-oxide-semiconductor, concatenated diode D1 and D2 composition, so that the drain electrode of MOS device is connect with the positive or negative pole of tested power supply , easy to use, safe.

3, electronic load provided by the embodiment of the utility model is constant-resistance when choosing, which opens up connection, connects switch control unit Electronic load；When choosing, which opens up connection, connects the first DA output end, the drain electrode of MOS device is loaded to tested power supply output constant current, is protected Tested power supply is protected not to be damaged.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is constant current load circuit figure described in the utility model embodiment one；

Fig. 2 is the V-I performance diagram of metal-oxide-semiconductor；

Fig. 3 is the specific implementation circuit diagram of constant current load circuit described in the utility model embodiment one；

Fig. 4 is the structural schematic diagram of electronic load described in the utility model embodiment two；

Fig. 5 is the specific implementation structural schematic diagram of electronic load described in the utility model embodiment two.

Specific embodiment

Exemplary embodiments of the present disclosure are described in more detail below with reference to accompanying drawings.Although showing the disclosure in attached drawing Exemplary embodiment, it being understood, however, that may be realized in various forms the disclosure without should be by embodiments set forth here It is limited.On the contrary, these embodiments are provided to facilitate a more thoroughly understanding of the present invention, and can be by the scope of the present disclosure It is fully disclosed to those skilled in the art.

To solve the above-mentioned problems, the utility model embodiment provides a kind of constant current load circuit and electronic load and power supply Parameter test system when being used for power supply class device detection, can be realized Constant Current Load, and tested power supply is protected not to be damaged；Simultaneously Securely and reliably, no bias current, when tested power supply is without output, also no-load current and external bias voltage.

Embodiment one

Shown in referring to Fig.1, the constant current load circuit of the offer of the utility model embodiment one, comprising: main operational amplifier, grid Pole driving, MOS device and current detecting unit；The wherein non-inverting input terminal ground connection of main operational amplifier, inverting input terminal is through defeated Enter resistance Rs to be connected to the first DA output end and be connected to current detecting unit through feedback resistance Rf, output end connects grid and drives It is dynamic；The grid G of MOS device connects gate driving, and drain D connects tested one pole of power supply, and source S connects current detecting unit；Electricity Detection unit one end ground connection is flowed, one end of ground connection connects another pole of tested power supply.

Grid voltage of the above-mentioned constant current load circuit using the output control MOS device of main operational amplifier, MOS device According to the grid voltage of input terminal come the drain current of control output end, to realize Constant Current Load.Wherein, the leakage of MOS device Pole is provided without bias supply, power supply by the output for being tested power supply, and the power supply of tested power supply is provided by power output end；When power supply is defeated When outlet is without output, it is tested power supply without output, MOS device also no-load current and external bias voltage, thus the tested electricity of protection Source will not be damaged.

According to V-I characteristic of the MOS device under the control of different grid voltages, (about etc. to a given drain voltage VD In grid voltage VDS) and drain current ID, there can be a corresponding grid voltage VGS.Referring to shown in Fig. 2, for example, setting VD =5V, ID=10A, corresponding grid voltage VGS is between 5.0V to 6V.Another characteristic of MOS device is drain current ID Equal to source current IS, drain current ID can be detected in the source electrode of MOS device using this characteristic.

Electric current IS is converted into voltage by current detecting unit, because the closed-loop control characteristic of operational amplifier, main operation are put The voltage that big device exports current detecting unit is as feedback quantity and the voltage of the setting (voltage of the first DA output end output Vda) operation, the grid voltage variation of the output control MOS device of main operational amplifier, is finally setting drain current ID stabilization Definite value, and become constant current state.

Electric current in this constant current state meets following formula:

ID=Vda* (Rf/Rs) * B (1)

In above formula (1), parameter B is the voltage conversion coefficient of current detecting unit, is a constant.Resistance Rf and Rs are also Constant, therefore ID only changes with Vda.As long as setting Vda, corresponding ID is obtained, to realize ID PLC technology.

The electric current ID polarity different problems required for being tested the output of power supply opposed polarity, as long as selecting opposite polarity Metal-oxide-semiconductor, while invert the polarity of Vda.

In one embodiment, it can be, referring to shown in Fig. 3, above-mentioned MOS device includes: N-channel MOS pipe MOS1 and P Channel MOS tube MOS2, concatenated diode D1 and D2；MOS1 is connected with the grid G of MOS2, and connect with gate driving；MOS1 It is connected with the source S of MOS2, and is connect with current detecting unit；The cathode of D1 is connect with MOS1 drain D, the anode and MOS2 of D2 The anode of drain D connection, D1 is connected with the cathode of D2, and connect with tested one pole of power supply.

When MOS device connection be the anode of tested power supply when, acted on by the admittance of D1 and the baffle of D2, electric current only exists MOS1 circulation, MOS2 disconnects in circuit, and the voltage Vda of the first DA output end output is positive, therefore the drain electrode of MOS1 is to quilt It surveys power supply and exports negative sense Constant Current Load, at this point, load outputs 1 are low potential output end, load outputs 2 are high potential output End；

When MOS device connection be the cathode of tested power supply when, acted on by the admittance of D2 and the baffle of D1, electric current only exists MOS2 circulation, MOS1 disconnects in circuit, and the voltage Vda of the first DA output end output is negative, therefore the drain electrode of MOS2 is to quilt It surveys power supply and exports positive Constant Current Load, at this point, load outputs 1 are high potential output end, load outputs 2 are low potential output End.

Above-mentioned load outputs 1 can be the output pin of measured device, correspondingly, load outputs 2 are measured device Ground pin.

Constant current load circuit provided in this embodiment, easy to use, the drain electrode of MOS device and the anode of tested power supply or negative Pole connection；It when tested power supply reaches rated output, is loaded to tested power supply output constant current, tested power supply is protected not damaged It is bad.

In one embodiment, it can be, referring to shown in Fig. 3, the first DA output end includes the first DAC conversion module；The One DAC conversion module one end connects number bus, and the other end connects input resistance Rs.Number bus is used to convert to the first DAC Module sends digital signal, and the control signal from number bus is converted to an analog voltage by the first DAC conversion module Vda, the analog voltage Vda and feedback voltage that main operational amplifier is inputted according to the first DAC conversion module carry out operation, defeated The variation of the grid voltage of MOS device is controlled by gate driving out, to control the drain electrode output constant current load of MOS device.

In one embodiment, can be, referring to shown in Fig. 3, gate driving include: NPN triode, PNP triode, Resistance R3 and resistance R4；The collector of NPN triode and the grounded collector of PNP triode；The one end resistance R3 and NPN triode Base stage connected with the base stage of PNP triode, the connection of the output end of the other end and main operational amplifier；The one end resistance R4 and NPN The emitter of triode is connected with the emitter of PNP triode, the grid connection of the other end and MOS device.

Since the electric current IS for flowing through current detecting unit under normal conditions is smaller, therefore the conversion voltage of current detecting unit VIsout value is also smaller, and the computational accuracy of main operational amplifier will receive influence；There are also the conversion electricity of current detecting unit output The analog voltage Vda phase that pressure VIsout is exported with the first DA output end is opposite.Therefore in one embodiment, it can be, Referring to shown in Fig. 3, above-mentioned constant current load circuit can also include following amplifier unit, the electricity for inputting current detecting unit After pressing VIsout boosting, reverse phase, Vis is exported.Following amplifier unit may include: operational amplifier U, feedback resistance R2 and input Resistance R1；The inverting input terminal of operational amplifier U is connected by feedback resistance R2 with its output end, non-inverting input terminal ground connection, defeated Outlet is connect with feedback resistance Rf；The one end input resistance R1 is connect with current detecting unit, and the other end is anti-with operational amplifier U's The connection of phase input terminal.

The electric current for flowing through current detecting unit meets following formula:

I=- /+Vda* (Rf/Rs) * (R1/R2*b)

=-/+Vda* (Rf/Rs) * B formula (2)

In above formula (2), b is the voltage conversion coefficient of current detecting unit, and R1/R2, Rf/Rs are resistance ratios, are normal Amount.Therefore I only changes with Vda.As long as setting Vda, corresponding I is obtained.

As Vda=0, can be released by operational amplifier working principle: VIsout=Vf=Vdas=0, wherein VIsout The conversion output voltage of current detecting unit, Vf and Vdas are the voltage at the both ends resistance Rf and Rs respectively.As Vda=0, Rs and The voltage at the both ends Rf is also 0, that is, Vis=0, so, VIsout is also 0, therefore releases electric current I=0.

Such as current detecting unit is 0~20A, and as I=+/- 20A, VIsout=+/- 4V (b=0.2), Vda output For 0~+/- 10V, suitable resistance R1, R2, Rf, Rs are selected, so that I=- /+Vda*2.Then, the first DAC conversion module is set Output voltage Vda, so that it may constant load current of the setting from -20A to+20A, setting accuracy depend primarily on resistance precision With the digit of the first DAC conversion module.

Embodiment two

Referring to shown in Fig. 4, the electronic load of the offer of the utility model embodiment two, comprising: main operational amplifier, grid drive Dynamic, MOS device, current detecting unit, gating switch and switch control unit；The non-inverting input terminal of main operational amplifier is grounded, Inverting input terminal is connected to gating switch through input resistance Rs and is connected to current detecting unit through feedback resistance Rf, and output end connects Connect gate driving；The grid G of MOS device connects gate driving, and drain D connects tested one pole of power supply, and source S connects electric current inspection Survey unit；Current detecting unit one end ground connection, one end of ground connection connect another pole of tested power supply；Switch control unit input terminal Tested power supply, the 2nd DA output end and the 3rd DA output end are connected, output end is opened according to the input signal of input terminal control gating Close the first DA output end of feedback network or connection of coupling cock control unit.

When choosing, which opens up connection, connects switch control unit, electronic load provided by the embodiment of the utility model is constant-resistance electronics Load；When choosing, which opens up connection, connects the first DA output end, working principle as described in above-described embodiment one, the drain electrode of MOS device to Tested power supply output constant current load.

In one embodiment, it can be, the first DA output end includes the first DAC conversion module, the first DAC conversion module One end connects number bus, and the other end connects or disconnects under switch control unit control with gating switch.

Electronic load provided in this embodiment can reach when being used for power supply class device detection in tested electric power output voltage It is not only easy to use to specified preceding output constant-resistance load, the output constant current load after tested electric power output voltage reaches specified, but also energy Tested power supply is protected not to be damaged in test.

Switch control unit can control gating switch by following manner and select connection switch control unit or the first DA Output end:

In one embodiment, it can be, referring to Figure 5, switch control unit includes: comparator and multiplier；Multiply Multiplier input terminal is separately connected the 3rd DA output end and tested power supply, and output end connects comparator；Comparator non-inverting input terminal connects The 2nd DA output end is connect, inverting input terminal connects multiplier, and output end connects gating switch.

In one embodiment, it can be, the 2nd DA output end includes the 2nd DAC conversion module, the 2nd DAC conversion module One end connects number bus, and the other end connects the non-inverting input terminal of comparator；3rd DA output end includes the 3rd DAC modulus of conversion Block, the 3rd DAC conversion module one end connect number bus, and the other end connects multiplier.

The output voltage of analog voltage Vx and tested power supply that above-mentioned multiplier is used to input the 3rd DAC conversion module Vout is multiplied, and result Vw is exported；Above-mentioned comparator be used for compare the 2nd DAC conversion module input analog voltage Vref and The Vw of multiplier input, passes through connecting or disconnecting for output control gating switch and the first DAC conversion module.When tested power supply Vout is exported by 0 volt to when rated value variation, flows through the electric current of load circuit by following formula:

I=Vw*A=(Vx*Vout) * (Rf/Rs) * B formula (3)

In above formula (3), A and Vx are constant, and electric current I=0 when Vout=0 is increased, load with the output voltage of tested power supply Output electric current increase.Curent change amplitude can be changed by setting Vx.

Simplified formula (3) obtains:

I*A=Vout formula (4)

Therefore the output voltage Vout of electric current I and tested electric current meets Ohm's law:

R*I=V formula (5)

When Vw is less than Vref, comparator controls gating switch and the first DAC conversion module is in and disconnects shape by output State, electronic load are equivalent to a resistance, load for constant-resistance；When Vw is more than or equal to Vref, comparator exports reverse phase, control Gating switch and the first DAC conversion module are in connection status, and electronic load becomes constant current state；Above-mentioned Vref is less than Vda.

In one embodiment, it can be, above-mentioned electronic load can also include following amplifier unit, for examining electric current It surveys the boost in voltage of unit input, export after reverse phase.

The above-mentioned specific implementation structure for following amplifier unit, MOS device and gate driving has been described in detail in example 1 It crosses, is not repeated herein.

Based on the same inventive concept, the utility model embodiment also provides a kind of power parameter test macro, comprising: tested Power supply and any electronic load as described in embodiment two.

In one embodiment, it can be, switch control unit judges whether the output voltage of tested power supply reaches specified Output voltage controls gating switch coupling cock control unit when tested electric power output voltage is not up to rated output voltage Feedback network, electronic load to tested power supply output constant-resistance load；When tested electric power output voltage reaches rated output voltage When, control gating switch is switched to the first DA output end of connection, and electronic load is loaded to tested power supply output constant current.

Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art Novel spirit and scope.If in this way, these modifications and variations of the present invention belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to include these modifications and variations.

Claims (10)

1. a kind of constant current load circuit characterized by comprising main operational amplifier, gate driving, MOS device and electric current inspection Survey unit；

The main operational amplifier, non-inverting input terminal ground connection, inverting input terminal are connected to the first DA output end through input resistance Rs And it is connected to current detecting unit through feedback resistance Rf, output end connects the gate driving；

The grid of the MOS device connects the gate driving, and drain electrode connects tested one pole of power supply, and source electrode connects the electric current inspection Survey unit；

Current detecting unit one end ground connection, one end of ground connection connects another pole of the tested power supply.

2. constant current load circuit as described in claim 1, which is characterized in that the MOS device, comprising: N-channel MOS pipe MOS1 and P-channel metal-oxide-semiconductor MOS2, concatenated diode D1 and D2；

The MOS1 is connected with the grid of the MOS2, and connect with the gate driving；

The MOS1 is connected with the source electrode of the MOS2, and connect with the current detecting unit；

The cathode of D1 and MOS1 drain electrode connect, and anode and the MOS2 drain electrode of D2 connects, the cathode of the anode and D2 of D1 It is connected, and is connect with tested one pole of power supply.

3. constant current load circuit as described in claim 1, which is characterized in that the gate driving includes:

NPN triode, PNP triode, resistance R3 and resistance R4；

The grounded collector of the collector of the NPN triode and the PNP triode；

The base stage of the base stage and PNP triode of the one end resistance R3 and NPN triode connects, the other end and the main operational amplifier Output end connection；

The emitter of the emitter and PNP triode of the one end resistance R4 and NPN triode connects, the other end and the MOS device Grid connection.

4. constant current load circuit as described in any one of claims 1-3, which is characterized in that the constant current load circuit further includes Amplifier unit is followed, is exported after the boost in voltage, reverse phase for inputting the current detecting unit；

It is described that follow amplifier unit include: operational amplifier U, feedback resistance R2 and input resistance R1；

The inverting input terminal of the operational amplifier U is connected by feedback resistance R2 with its output end, non-inverting input terminal ground connection, defeated Outlet is connect with feedback resistance Rf；

The one end the input resistance R1 is connect with the current detecting unit, and the reverse phase of the other end and the operational amplifier U is defeated Enter end connection.

5. a kind of electronic load characterized by comprising main operational amplifier, gate driving, MOS device, current detecting list Member, gating switch and switch control unit；

The main operational amplifier, non-inverting input terminal ground connection, inverting input terminal are connected to gating switch and warp through input resistance Rs Feedback resistance Rf is connected to current detecting unit, and output end connects the gate driving；

The grid of the MOS device connects the gate driving, and drain electrode connects tested one pole of power supply, and source electrode connects current detecting list Member；

Current detecting unit one end ground connection, one end of ground connection connects another pole of the tested power supply；

The switch control unit input terminal connects tested power supply, the 2nd DA output end and the 3rd DA output end, output end according to The input signal of input terminal controls the first DA output end of feedback network or connection of the gating switch coupling cock control unit.

6. electronic load as claimed in claim 5, which is characterized in that the first DA output end includes the first DAC modulus of conversion Block, described first DAC conversion module one end connect number bus, the other end under switch control unit control with the choosing Pass is opened up to connect or disconnect；

Or,

The 2nd DA output end includes the 2nd DAC conversion module, and described 2nd DAC conversion module one end connects number bus, The other end connects the non-inverting input terminal of the comparator；

Or,

The 3rd DA output end includes the 3rd DAC conversion module, and the 3rd DAC conversion module one end connection number is total Line, the other end connect multiplier.

7. electronic load as claimed in claim 5, which is characterized in that the switch control unit includes: comparator and multiplication Device；

The multiplier input is separately connected the 3rd DA output end and tested power supply, and output end connects comparator；

The comparator non-inverting input terminal connects the 2nd DA output end, and inverting input terminal connects multiplier, output end connection gating Switch.

8. electronic load as claimed in claim 5, which is characterized in that the MOS device includes: N-channel MOS pipe MOS1 and P Channel MOS tube MOS2, concatenated diode D1 and D2；

The MOS1 is connected with the grid of the MOS2, and connect with the gate driving；

The MOS1 is connected with the source electrode of the MOS2, and connect with the current detecting unit；

The cathode of D1 and MOS1 drain electrode connect, and anode and the MOS2 drain electrode of D2 connects, the cathode of the anode and D2 of D1 It is connected, and is connect with tested one pole of power supply.

9. such as the described in any item electronic loads of claim 5-8, which is characterized in that the electronic load further includes following amplifier Unit exports after the boost in voltage, reverse phase for inputting the current detecting unit；

It is described that follow amplifier unit include: operational amplifier U, feedback resistance R2 and input resistance R1；

The inverting input terminal of the operational amplifier U is connected by feedback resistance R2 with its output end, non-inverting input terminal ground connection, defeated Outlet is connect with feedback resistance Rf；

The one end the input resistance R1 is connect with the current detecting unit, and the reverse phase of the other end and the operational amplifier U is defeated Enter end connection.

10. a kind of power parameter test macro characterized by comprising be tested power supply and as described in claim 5-9 is any Electronic load；

The switch control unit judges whether the output voltage of the tested power supply reaches rated output voltage, in tested power supply When output voltage is not up to rated output voltage, the feedback network of the gating switch coupling cock control unit is controlled；Work as quilt When survey electric power output voltage reaches rated output voltage, the gating switch is controlled, is switched to the first DA output end of connection.