CN209389952U - Switch power source adapter circuit - Google Patents

Abstract

The utility model discloses a kind of switch power source adapter circuits, including current rectifying and wave filtering circuit, absorbing circuit, ON-OFF control circuit, transformer, secondary commutation filter circuit and feed circuit, current rectifying and wave filtering circuit input terminal is connect with electric main, rectification filter circuit output end is electrically connected with transformer primary side output end, absorbing circuit is in parallel with the output end of transformer primary side and input terminal, transformer primary side output end is electrically connected with ON-OFF control circuit control signal, ON-OFF control circuit includes control chip U1, control chip U1 built-in switch, switch is connected with transformer primary side, secondary commutation filter circuit output end is as adapter output end, secondary commutation filter circuit output end is electrically connected with feed circuit input terminal, feed circuit exports comparison signal to the feedback input end of ON-OFF control circuit.Switch power source adapter circuit provided by the utility model, structure is simple, low cost, low-power consumption.

Description

Switch power source adapter circuit

Technical field

The utility model relates to adapter technique fields, specifically, being related to a kind of switch power source adapter circuit.

Background technique

Power supply adaptor is commonly called as Switching Power Supply, also referred to as charger, is widely used in various electrical equipments, such as calculates mechanical, electrical Depending on machine and various movable electrical appliances.In the prior art, in order to improve the reliability of electronic switch, usually using powerful MOS switch pipe is realized, however powerful MOS switch pipe is expensive, so as to cause the increase of circuit cost and power consumption, It also will increase its corresponding peripheral electron device, so that circuit becomes complicated.

Utility model content

The purpose of this utility model is to provide a kind of switch power source adapter circuits, and structure is simple, low cost, low function Consumption.

Technical solution used by switch power source adapter circuit disclosed by the utility model is:

A kind of switch power source adapter circuit, including current rectifying and wave filtering circuit, absorbing circuit, ON-OFF control circuit, transformer, Secondary commutation filter circuit and comparison circuit；

The transformer includes primary side, secondary side and feedback winding, and electric current flows to secondary side, secondary current flow direction feedback by primary side Winding；

The current rectifying and wave filtering circuit input terminal is connect with electric main, the rectification filter circuit output end and transformer primary The electrical connection of side output end, the absorbing circuit is in parallel with the output end of transformer primary side and input terminal, and the transformer primary side is defeated Outlet is electrically connected with ON-OFF control circuit control signal；

The ON-OFF control circuit includes control chip U1, the control chip U1 built-in switch, the switch control change The energization and power-off of depressor primary side, the switch are connected with transformer primary side, and the ON-OFF control circuit power end passes through feedback Winding is electrically connected with transformer secondary, and the transformer secondary output end is electrically connected with secondary commutation filter circuit input terminal, institute Secondary commutation filter circuit output end is stated to input as adapter output end, secondary commutation filter circuit output end and comparison circuit End electrical connection；

Output end is set as reference voltage by the comparison circuit, and the comparison circuit is defeated with transformer secondary by reference voltage Voltage is compared out, and comparison signal is exported to the feedback input end of ON-OFF control circuit, the ON-OFF control circuit root According to the closure of comparison signal control switch.

Preferably, the current rectifying and wave filtering circuit includes unidirectional bridge rectifier and CLC filter circuit, the list It is connect to bridge rectifier input terminal with electric main, the unidirectional bridge rectifier output end and CLC filter circuit are defeated Enter end connection, the CLC filter circuit output end is connect with transformer primary side input terminal.

Preferably, the absorbing circuit include resistance R3, R8, capacitor C3 and diode D5, the capacitor C3 and Resistance R8 connects, and after series connection and resistance R7 is in parallel, the termination transformer primary side input terminal after parallel connection, another termination after parallel connection Diode D5 cathode, the diode D5 cathode connecting transformer primary side output end.

Preferably, the ON-OFF control circuit includes model LY6016 chip U1, switching diode D6, capacitor C4 and CX, resistance R1, R2, R5, R14 and R16, the resistance R1 and R2 series connection, the power end of a chip termination U1 after series connection, Another termination alternating current fire wire after series connection, the power supply termination capacitor C4 anode and diode D6 cathode of the chip U1, the electricity Hold C4 cathode ground connection, the diode D6 cathode connecting transformer feedback winding output end, the grid terminating resistor of the chip U1 The one end R14, the power end of another chip termination U1 of resistance R14, the output of the feedback termination comparison circuit of the chip U1 End, the one end detection termination capacitor CX, the one end resistance R5 and the one end resistance R6 of the chip U1, another termination of capacitor CX become Depressor T1 primary side output end, the resistance R5 other end and resistance R6 other end ground connection, the drain electrode of the chip U1 terminate transformation Device primary side output end.

Preferably, the secondary commutation filter circuit includes rectifier diode D7, D8, resistance R6 and R9, capacitor C5, C7, C8 and C10, common mode inductance LF1 and inductance L2, the resistance R6 and capacitor C5 series connection, described diode D7, D8 are the same as string Resistance R6 and capacitor C5 after connection is in parallel, and a termination transformer secondary output end after parallel connection, the other end is as secondary after parallel connection Output end after rectification, the capacitor C7 and C10 are in parallel, latter termination transformer secondary input terminal in parallel, the other end after parallel connection Output end, the one side common mode inductance LF1 and the one end inductance L2, the another side the common mode inductance LF1 and transformation after connecing secondary commutation The connection of device pair side input terminal, described one end another terminating resistor R9 inductance L2 and the one end capacitor C8, the resistance R9 other end and Capacitor C8 other end ground connection.

It preferably, further include zener diode ZD2, after the zener diode ZD2 anode connects secondary commutation Output end, the zener diode ZD2 cathode connect transformer secondary input terminal.

Preferably, the comparison circuit includes TL431A voltage stabilizing chip U2, photo-coupler U3, resistance R7, R10, R11, R12, R13, R15 and capacitor C9, the output end of the chip U2 connect with the output pin of the input terminal of photo-coupler U3, institute It is in parallel with the input terminal of photo-coupler U3 to state resistance R15, the mono- terminating resistor R15 of resistance R7, another termination of resistance R7 Transformer secondary output end, the resistance R10 and capacitor C9 series connection, it is in parallel with the output end of chip U2 and input terminal after series connection, The resistance R12 and R13 is in parallel, one end ground connection after parallel connection, the input terminal of another chip termination U2, the resistance after parallel connection The input terminal of mono- chip termination U2 of R11, the output end of another termination adapter of resistance R11, the photo-coupler U3's is defeated Outlet output pin is connect with the feedback input end of chip U1.

Preferably, including safety capacitor CY1, the safety capacitor CY1 mono- terminate transformer primary side input terminal, institute State another termination transformer secondary input terminal of safety capacitor CY1.

The beneficial effect of switch power source adapter circuit disclosed by the utility model is: MOS switch is carried inside chip U1 Pipe, reduces the quantity of electronic device, decreases other corresponding electronic devices, has saved cost.Simultaneously built in chip U1 MOS decreases the power consumption of metal-oxide-semiconductor.

Detailed description of the invention

Fig. 1 is the circuit diagram of the utility model switch power source adapter circuit.

Specific embodiment

The utility model is further elaborated and is illustrated with Figure of description combined with specific embodiments below:

Referring to FIG. 1, a kind of switch power source adapter circuit includes current rectifying and wave filtering circuit, absorbing circuit, switch control electricity Road, transformer, secondary commutation filter circuit and comparison circuit.

Transformer T1 includes primary side Np1 and primary side Np2, pair side Ns and feedback winding Nb, primary side Np1 and primary side Np2 series connection It is integrated.Electric current flows to secondary side by primary side, and secondary current flows to feedback winding.

After external electric main is come in, current rectifying and wave filtering circuit is first passed around.Guarantor is in series between alternating current and rectification circuit Dangerous silk F1, alternating current both ends are parallel with varistor MOV1.Current-limiting protection element of the fuse F1 as circuit, varistor Surge can be absorbed in MOV1, the voltage-limiting protection element as circuit.

Current rectifying and wave filtering circuit includes unidirectional bridge rectifier BD1, capacitor C1, C2 and inductance L1.Unidirectional bridge rectifier electricity Road BD1 is made of 4 rectifier diodes, for converting alternating current to direct current.Direct current after rectification is first by electrolytic capacitor C1 filtering, filters, then filtered by electrolytic capacitor C2 using inductance L1.

The input terminal of current direction transformer T1 primary side Np2 after rectifying and wave-filtering.

ON-OFF control circuit 20 include model LY6016 chip U1, switching diode D6, zener diode ZD1, capacitor C4, C6, C11 and CX, resistance R1, R2, R5, R14, R16 and R17.1 foot of ground terminal of chip U1 is grounded, 1 foot of ground terminal of chip U1 Filter capacitor C11 is connected to 3 foot of power end of chip U1.Current-limiting resistance R1, R2 and zero Europe resistance R17 series connection, that connects is latter 3 foot of power end of chip termination U1, another termination alternating current fire wire after series connection.3 foot of power end of chip U1 meets filter capacitor C4 Anode and diode D6 cathode, capacitor C4 cathode ground connection, diode D6 cathode connecting transformer T1 feedback winding Nb output end.Chip 2 one end foot connecting resistance R14 of gate terminal of U1,3 foot of power end of another chip termination U1 of resistance R14.The feedback end 4 of chip U1 Foot connects the output end of comparison circuit, the one end filter capacitor C6 and zener diode ZD1 anode, the capacitor C6 other end and pressure stabilizing two Pole pipe ZD1 cathode ground connection.4 foot of test side of chip U1 connects the one end safety capacitor CX, the one end resistance R5 and the one end resistance R6, safety Another termination transformer T1 primary side Np1 output end of capacitor CX, the resistance R5 other end and resistance R6 other end ground connection.The leakage of chip U1 Extreme 6 foot, 7 feet and 8 feet connect transformer T1 primary side Np2 output end.MOS switch pipe is carried inside chip U1, reduces electronics device The quantity of part decreases other corresponding electronic devices, has saved cost.Metal-oxide-semiconductor built in chip U1 simultaneously, reduces MOS The power consumption of pipe.Chip U1 exchange electrically activates, and power can dot in zero load for such circuit.

Switching diode D6 is passed through by the electric current of transformer T1 feedback winding Nb output end outflow, is filtered by capacitor C4 Then energy storage merges with the electric current from the direction current-limiting resistance R2 and flows to the power end of chip U1.Then chip U1 starting starts Work, then chip U1 will control the on and off of its internal metal-oxide-semiconductor.The internal alternate on and off of metal-oxide-semiconductor makes directly Galvanic electricity inversion is one-way communication electricity, and one-way communication electricity reaches transformer T1 pair side by transformer T1 primary side transformation again.Wherein chip U1 power end acquires always the electric current of feedback winding output end, the electric current of chip U1 test side constant testing drain electrode, if the two There is exception, chip U1 can then control metal-oxide-semiconductor cut-off.

Absorbing circuit includes resistance R3, R8, capacitor C3 and diode D5.Capacitor C3 and resistance R8 series connection, after series connection and Resistance R7 is in parallel, the termination transformer T1 primary side input terminal after parallel connection, another terminating diode D5 cathode after parallel connection, diode D5 cathode connecting transformer T1 primary side output end.Absorbing circuit can inhibit instantaneous overvoltage and overcurrent to power electronic equipment Destruction, the switching loss of power electronic equipment can also be reduced.The main object of absorbing circuit protection is in the technical program Transformer.

Secondary commutation filter circuit includes rectifier diode D7, D8, zener diode ZD2, resistance R6 and R9, filtered electrical Hold C5, C7, C8 and C10, common mode inductance LF1 and filter inductance L2.Resistance R6 and capacitor C5 series connection, diode D7, D8 are the same as series connection Resistance R6 and capacitor C5 afterwards is in parallel, and a termination transformer secondary output end after parallel connection, the other end is as secondary whole after parallel connection Output end after stream.Capacitor C7, C10 and zener diode ZD2 three are in parallel, latter termination transformer secondary input terminal in parallel, Output end, the one side common mode inductance LF1 and the one end inductance L2, common mode inductance LF1 after parallel connection after another termination secondary commutation is another Side is connect with transformer secondary input terminal, the one end another terminating resistor R9 inductance L2 and the one end capacitor C8, the resistance R9 other end and Capacitor C8 other end ground connection.Diode D7, D8 are rectifier diode SB3P45.Zener diode ZD2 make high voltage input and it is low When voltage input, output loading over-current protection point is close consistent, will not severe deviations.

The electric current of transformer T1 pair side output first passes around secondary commutation filtering, and the output end of secondary commutation filtering is as suitable The output end of orchestration.

Comparison circuit 40 include model TL431A voltage stabilizing chip U2, PC817C photo-coupler U3, resistance R7, R10, R11, R12, R13, R15 and capacitor C9.The output end of chip U2 connects with the output pin of the input terminal of photo-coupler U3, resistance R15 with The input terminal both sides of photo-coupler U3 are in parallel, the output after another termination secondary commutation of resistance R7 mono- terminating resistor R15, resistance R7 End.Resistance R10 and capacitor C9 series connection, it is in parallel with the output end of chip U2 and input terminal after series connection.Resistance R12 and R13 are in parallel, and One end ground connection after connection, the input terminal of another chip termination U2 after parallel connection.1 foot of input terminal of mono- chip termination U2 of resistance R11, The output end of another termination adapter of resistance R11.The output end output pin of photo-coupler U3 and the feedback port of chip U1 connect It connects.

The output end of adapter provides operating voltage for comparison circuit, and chip U2 will stablize a reference voltage.Compare electric Reference voltage is compared by road with the output voltage after secondary commutation, and comparison signal is exported by photo-coupler U3 to core The feedback port of piece U1, then chip U1 controls the on and off of internal metal-oxide-semiconductor according to comparison signal.Feedback control with Prevent the output of adapter abnormal, this ensure that adapter stablizes output.

Safety capacitor CY1 is connected between transformer primary side input terminal and secondary side output end.

Finally it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than to this reality With the limitation of novel protected range, although being explained in detail referring to preferred embodiment to the utility model, this field it is general Lead to it will be appreciated by the skilled person that can be with the technical solution of the present invention is modified or equivalently replaced, without departing from this The spirit and scope of utility model technical solution.

Claims (8)

1. a kind of switch power source adapter circuit, which is characterized in that including current rectifying and wave filtering circuit, absorbing circuit, switch control electricity Road, transformer, secondary commutation filter circuit and comparison circuit；

The transformer includes primary side, secondary side and feedback winding, and electric current flows to secondary side by primary side, secondary current flow direction feedback around Group；

The current rectifying and wave filtering circuit input terminal is connect with electric main, and the rectification filter circuit output end and transformer primary side are defeated Outlet electrical connection, the absorbing circuit is in parallel with the output end of transformer primary side and input terminal, the transformer primary side output end It is electrically connected with ON-OFF control circuit control signal；

The ON-OFF control circuit includes control chip U1, the control chip U1 built-in switch, the switch control transformer The energization and power-off of primary side, the switch are connected with transformer primary side, and the ON-OFF control circuit power end passes through feedback winding It being electrically connected with transformer secondary, the transformer secondary output end is electrically connected with secondary commutation filter circuit input terminal, and described time Grade rectification filter circuit output end is as adapter output end, secondary commutation filter circuit output end and comparison circuit input terminal electricity Connection；

Output end is set as reference voltage by the comparison circuit, and reference voltage and transformer secondary are exported electricity by the comparison circuit Pressure is compared, and comparison signal is exported to the feedback input end of ON-OFF control circuit, the ON-OFF control circuit according to than Compared with the closure of Signal-controlled switch.

2. switch power source adapter circuit as described in claim 1, which is characterized in that the current rectifying and wave filtering circuit includes unidirectional Bridge rectifier and CLC filter circuit, the unidirectional bridge rectifier input terminal are connect with electric main, the unidirectional bridge Formula rectification circuit output end is connect with CLC filter circuit input terminal, and the CLC filter circuit output end and transformer primary side input End connection.

3. switch power source adapter circuit as described in claim 1, which is characterized in that the absorbing circuit include resistance R3, R8, capacitor C3 and diode D5, the capacitor C3 and resistance R8 series connection, after series connection and resistance R7 is in parallel, one end after parallel connection Connect transformer primary side input terminal, it is in parallel after another terminating diode D5 cathode, the diode D5 cathode connecting transformer primary side is defeated Outlet.

4. switch power source adapter circuit as described in claim 1, which is characterized in that the ON-OFF control circuit includes model LY6016 chip U1, switching diode D6, capacitor C4 and CX, resistance R1, R2, R5, R14 and R16, the resistance R1 and R2 go here and there Connection, the power end of a chip termination U1 after series connection, another termination alternating current fire wire after series connection, the power supply termination of the chip U1 Capacitor C4 anode and diode D6 cathode, the capacitor C4 cathode ground connection, the diode D6 cathode connecting transformer feedback winding Output end, one end grid terminating resistor R14 of the chip U1, the power end of another chip termination U1 of resistance R14 are described The output end of the feedback termination comparison circuit of chip U1, one end detection termination capacitor CX of the chip U1, the one end resistance R5 and The one end resistance R6, another termination transformer T1 primary side output end of capacitor CX, the resistance R5 other end and resistance R6 are another The drain electrode of end ground connection, the chip U1 terminates transformer primary side output end.

5. switch power source adapter circuit as described in claim 1, which is characterized in that the secondary commutation filter circuit includes Rectifier diode D7, D8, resistance R6 and R9, capacitor C5, C7, C8 and C10, common mode inductance LF1 and inductance L2, the resistance R6 and Capacitor C5 series connection, the resistance R6 and capacitor C5 after the same series connection of described diode D7, D8 are in parallel, a termination transformer pair after parallel connection Side output end, for the other end as the output end after secondary commutation, the capacitor C7 and C10 are in parallel after parallel connection, latter termination in parallel Transformer secondary input terminal, output end, the one side common mode inductance LF1 and inductance L2 mono- after in parallel after another termination secondary commutation End, the another side the common mode inductance LF1 connect with transformer secondary input terminal, described one end another terminating resistor R9 inductance L2 with The one end capacitor C8, the resistance R9 other end and capacitor C8 other end ground connection.

6. switch power source adapter circuit as claimed in claim 5, which is characterized in that it further include zener diode ZD2, it is described Zener diode ZD2 anode connects the output end after secondary commutation, and the zener diode ZD2 cathode connects transformer secondary input End.

7. switch power source adapter circuit as described in claim 1, which is characterized in that the comparison circuit includes TL431A steady Press chip U2, photo-coupler U3, resistance R7, R10, R11, R12, R13, R15 and capacitor C9, the output end and light of the chip U2 The output pin of the input terminal of coupler U3 connects, and the resistance R15 is in parallel with the input terminal of photo-coupler U3, the resistance R7 mono- Terminating resistor R15, another termination transformer secondary output end of resistance R7, the resistance R10 and capacitor C9 series connection, after series connection In parallel with the output end of chip U2 and input terminal, the resistance R12 and R13 are in parallel, one end ground connection after parallel connection, another after in parallel The input terminal of chip termination U2, the input terminal of the mono- chip termination U2 of resistance R11, another termination adapter of resistance R11 Output end, the output end output pin of the photo-coupler U3 connect with the feedback input end of chip U1.

8. switch power source adapter circuit as described in claim 1, which is characterized in that including safety capacitor CY1, the safety Capacitor CY1 mono- terminates transformer primary side input terminal, another termination transformer secondary input terminal of safety capacitor CY1.