CN201717796U - Wide voltage switch state converting circuit - Google Patents

Abstract

The utility model relates to a wide voltage switch state converting circuit. A wide power supply alternating current (AC) voltage input end is connected with a bridge rectifier circuit consisting of D1 to D4 after passing by a switch S as well as a voltage reducing capacitor C1 and a divider resistor R1 after the switch S, a rectifier circuit output end is connected with a voltage clamping circuit after passing by a filter resistor R2 and a capacitor C2, a clamping circuit output end is connected with a photoelectrical coupling circuit via a voltage stabilizing diode, and the load output of the photoelectrical coupling circuit is a low-level digital signal 0/1. The utility model has the advantage of effectively converting on/off states of a power supply switch in the scope of wide power supply voltage into direct current (DC) low-voltage 0/1digital control signal without being interfered, and simultaneously realizes the electrical isolation of the AC power supply input end and the low-voltage DC output circuit.

Description

State switching circuit of wide-voltage switch

Technical field

The utility model relates to a kind of control signal converting circuit, particularly a kind of state switching circuit of wide-voltage switch.

Background technology

Utilize the electric equipment or the utensil of grid ac voltage power supply, the most basic control is to utilize a mains switch directly to control the on-off of power supply.

The supply voltage that electric equipment or utensil adapt to has the branch of what is called " univoltage " and " wide voltage " usually.So-called univoltage is meant that electric equipment or utensil can only adapt to certain fixing line voltage of fluctuation in electric power system prescribed limit (as ± 10%), is 220V as China, and Japan is 100V, and Europe is 240V, and the U.S. is 120V or 277V or the like.The electric equipment or the utensil that adapt to univoltage, when using under the condition beyond the regulation line voltage normal fluctuation range, not only performance is difficult to guarantee the adverse consequences that also can cause damage that has.

As the switch of Switching power break-make, except using the most general armstrong's patent formula switch, also have the automatic control switch that constitutes with semiconductor device (as controllable silicon) or electromagnetic device (as relay contact), for example be used to respond to the optoelectronic switch that human body moves.These switch roles only are electric equipment or the utensil work of making when mains switch is connected, and quit work when power supply disconnects.

When the action that requires this switch makes electric equipment or utensil is not to switch between " work " and " not working ", but when between " normally " and " derate " two states, switching, the on/off two states of switch will be changed, be converted to the signal that the operating state control circuit of electric equipment or utensil can be discerned, the most general is low-voltage direct digital signaling zero/1.Generally also require between low-voltage dc circuit and the ac power supply circuit good electric insulation is arranged.

A typical example is, the optoelectronic switch that a kind of induction human body that is made of controllable silicon or relay moves, when in the bias light condition that can set up and the photosensitive region scope that can set up, mobile object occurring, the switch connection lighting apparatus, through after a period of time that can set up, switch disconnects, and closes lighting apparatus.What will do now is when above-mentioned optoelectronic switch is in " disconnection " state, is not to close lighting apparatus fully, but makes it to reduce brightness., at first the on/off two states of mains switch to be changed for this reason, that the intednsity circuit that making becomes lighting apparatus can be discerned, with low-voltage direct digital signaling zero/1 of AC power electric insulation.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of on/off two states that will exchange the mains switch of wide power power voltage supply to convert state switching circuit of wide-voltage switch with DC low-voltage 0/1 digital controlled signal of ac power input end potential isolation to.

In order to solve above technical problem, the utility model provides a kind of state switching circuit of wide-voltage switch, import behind the decompression capacitor C1 and divider resistance R1 of switch S and back thereof at the wide power alternating voltage, the bridge rectifier that constitutes with D1～D4 is connected, rectification circuit output is after filter resistance R2, capacitor C 2 filtering, be connected with voltage clamping circuit, the output of nip circuit, be connected with the photoelectricity coupling circuit through a voltage stabilizing didoe, the load of photoelectricity coupling circuit is output as low level digital signal 0/1.

Described clamp circuit is made of the diode of two common collector common bases-emitter serial connection, emitter output, wherein the collector electrode of copolar is connected with the rectifying and wave-filtering output voltage, and be connected with a transistor base by a divider resistance R3, this transistor base passes through a voltage-stabiliser tube ZD1 ground connection.

Described divider resistance R1 selects its resistance when output wide power voltage low side, makes the magnitude of voltage of rectification output, and the voltage stabilizing didoe ZD1 in the clamp circuit is punctured.

The supply voltage that described state switching circuit of wide-voltage switch is sent here to power supply center line N with through the power supply phase line L of power supply on/off diverter switch S is through decompression capacitor C1 step-down, the alternating voltage of getting on divider resistance R1 is by bridge rectifier D 1～D4 rectification, filter resistance R2 and filter capacitor C2 filtering obtain a direct voltage Ua who represents the mains switch closure.By voltage stabilizing didoe ZD1, transistor Q1, Q2, in the voltage clamping circuit that biasing resistor R3 and bypass resistance R4 form, still be high-end power turn-on switch S at the supply voltage low side no matter, voltage clamping circuit is all exported constant relatively, and a clamping voltage Ub that voltage stabilizing didoe ZD2 is punctured.Draw last breath by the electrifying photoelectrical coupler U of edge and signal transfer function is through output resistance R5 output low-voltage direct digital signaling zero/1.

When mains switch S closes, born most of supply voltage on the described decompression capacitor C1.Choose of the capacitive reactance of the resistance of described divider resistance R1 much smaller than described decompression capacitor C1, when supply voltage changes in a very wide scope, for example when AC 100V varies to AC 277V, the voltage of getting on described divider resistance R1 is through described bridge rectifier D 1～D4 rectification and described filter resistance R2, and the commutating voltage Ua that obtains at the A point after the filter capacitor C2 filtering is reduced to only several volts variation.

In order further to reduce commutating voltage Ua in the low side of wide-voltage range and the variation when high-end, by voltage stabilizing didoe ZD1, transistor Q1, Q2, bypass resistance R4 forms voltage clamping circuit.Commutating voltage Ual when being arranged on the low side of wide power voltage range is a little less than puncture (voltage stabilizing) the voltage V of described voltage stabilizing didoe ZD1 _Z1, be elevated to the wide power voltage range from Ual when high-end before the commutating voltage Uah, as long as arrive puncture (voltage stabilizing) the voltage V of described voltage stabilizing didoe ZD1 at commutating voltage _Z1, described voltage stabilizing didoe ZD1 just punctures, and the base potential of described transistor Q1 is stabilized in the puncture voltage V of described voltage stabilizing didoe ZD1 _Z1On.

When mains switch S when the low terminal voltage of wide power voltage such as AC 100V close, because commutating voltage Ual is lower than the puncture voltage V of described voltage stabilizing didoe ZD1 _Z1, described voltage stabilizing didoe ZD1 does not work.Commutating voltage Ual makes the conducting of described transistor Q1 and Q2.The voltage U bl that obtains at the output point B of voltage clamping circuit equals the saturation conduction voltage that is about 0.3V that Ual deducts described transistor Q1 and Q2.

On certain voltage that is higher than low terminal voltage of wide power voltage, arrive the puncture voltage V that is higher than described voltage stabilizing didoe ZD1 as commutating voltage Uah _Z1The time, described voltage stabilizing didoe ZD1 punctures, and the voltage U bh of the output point B of voltage clamping circuit is just by clamped puncture voltage V at described voltage stabilizing didoe ZD1 _Z1Deduct described transistor Q1, on the current potential of the base-emitter voltage of Q2 (about 1.2V).Described transistor Q1 and Q2 connect into Darlington transistor, be to be twice in order can base-emitter voltage to be increased than single transistor, make when supply voltage changes in the scope of a broad,, make voltage U b have only the small variations of several volts at zero point by voltage clamping circuit.

The output voltage U b of voltage clamping circuit and the puncture voltage V of described voltage stabilizing didoe ZD2 are set _Z2, making when mains switch S is closed, identification circuit output voltage U b is higher than the puncture voltage V of described voltage stabilizing didoe ZD2 _Z2Forward voltage sum with described photoelectrical coupler U light-emitting tube.No matter mains switch S still is high-end when closed at the low side of wide-voltage range, and current flowing is all arranged in the optical transmitting set of described photoelectrical coupler U, and the light receiving element of described photoelectrical coupler U is exported digital low level " 0 " through described output resistance R5.

When mains switch S disconnects, commutating voltage Ua approaches zero, described voltage stabilizing didoe ZD1, ZD2, with described transistor Q1, Q2 does not all work, and commutating voltage Ua and voltage clamping circuit output voltage U b also approach zero, do not have the flow through optical transmitting set of described photoelectrical coupler U of electric current, the light receiving element of described photoelectrical coupler U is through described output resistance R5 output digital high " 1 ".The sort circuit structure can be got rid of the described voltage stabilizing didoe ZD1 that is lower than from the input generation, and the interference of ZD2 puncture voltage avoids output to produce misoperation.

Superior effect of the present utility model is: the utility model can be effectively and uninterruptedly will convert DC low-voltage 0/1 digital controlled signal at the on/off two states of the mains switch of wide power voltage range; Realized the electricity isolation of ac power input end and low-voltage direct output circuit simultaneously.

Description of drawings

Fig. 1 is the utility model state switching circuit of wide-voltage switch figure;

The number in the figure explanation

L-AC power phase line; ZD1, ZD2-voltage stabilizing didoe;

N-AC power center line; The 0/1 numeral output of DC-direct current;

The S-mains switch; + Vcc-low-voltage dc power supply voltage;

1-input voltage divider circuit; The R1-divider resistance;

The 2-current rectifying and wave filtering circuit; The R2-filter resistance;

The 3-voltage clamping circuit; The R3-biasing resistor;

The 4-spacing output circuit; The R4-bypass resistance;

The C1-decompression capacitor; The R5-output resistance;

The C2-filter capacitor; The U-photoelectrical coupler;

D1～D4-bridge rectifier diode; Q1, Q2-transistor.

Embodiment

Below consult shown in the accompanying drawing, the utility model will be further described.

The utility model provides a kind of state switching circuit of wide-voltage switch, import behind the decompression capacitor C1 and divider resistance R1 of switch S and back thereof at the wide power alternating voltage, the bridge rectifier that constitutes with D1～D4 is connected, rectification circuit output is after filter resistance R2, capacitor C 2 filtering, be connected with voltage clamping circuit, the output of nip circuit is connected with the photoelectricity coupling circuit through a voltage stabilizing didoe, and the load of photoelectricity coupling circuit is output as low level digital signal 0/1.

Described clamp circuit is made of the diode of two common collector common bases-emitter serial connection, emitter output, wherein the collector electrode of copolar is connected with the rectifying and wave-filtering output voltage, and be connected with a transistor base by a divider resistance R3, this transistor base passes through a voltage-stabiliser tube ZD1 ground connection.

Described divider resistance R1 selects its resistance when output wide power voltage low side, makes the magnitude of voltage of rectification output, and the voltage stabilizing didoe ZD1 in the clamp circuit is punctured.

Described state switching circuit of wide-voltage switch comprises the input voltage divider circuit of being made up of decompression capacitor C1 and divider resistance R1 1, by bridge rectifier D 1～D4, the current rectifying and wave filtering circuit 2 that filter resistance R2 and filter capacitor C2 form, by voltage stabilizing didoe ZD1, transistor Q1, Q2, the voltage clamping circuit 3 that biasing resistor R3 and bypass resistance R4 form, by voltage stabilizing didoe ZD2, potential isolation and signal output apparatus 4 that photoelectrical coupler U and output resistance R5 form.

The end of mains switch S is connected with power supply phase line L, and the other end of mains switch S is connected with the end of described decompression capacitor C1.

On the other end and power supply center line N of described decompression capacitor C1, be connected in parallel to the positive pole of two diodes of described bridge rectifier Q1～Q4 and input (～) and the described divider resistance R1 that negative pole joins, described bridge rectifier Q1～Q4 is to the voltage commutation on the described divider resistance R1.Be connected in parallel on the negative output terminal (-) that the positive pole of positive output end (+) that the negative pole of two diodes of described bridge rectifier D 1～D4 joins and two diodes joins described filter resistance R2 and described filter capacitor C2 carry out filtering to commutating voltage.

The positive output end (+) of described bridge rectifier D 1～D4, the points of common connection A of the anodal and described filter resistance R2 of described filter capacitor C2 again with an end and the described transistor Q1 of described biasing resistor R3, the collector electrode of Q2 links together.

The negative output terminal (-) of described bridge rectifier D 1～D4, the other end of described filter resistance R2, the negative terminal of described filter capacitor C2, the anode of described voltage-stabiliser tube ZD2, the end of described bypass resistance R4, and the negative electrode of the light emitting devices of described photoelectrical coupler U, on electronegative potential point G, link together.

The end of described biasing resistor R3, the negative electrode of the base stage of described transistor Q1 and described voltage stabilizing didoe ZD2 links together.Described transistor Q1, Q2 connects in the Darlington mode.The emitter of described transistor Q2, the end of described bypass resistance R4 and the negative electrode of described voltage-stabiliser tube ZD1 link together, and are the output point B of voltage clamping circuit.

The anode of described voltage-stabiliser tube ZD2 links to each other with the anode of the light emitting devices of described photoelectrical coupler U, constitutes the signal sending end circuit of spacing output circuit.The light receiving element of described photoelectrical coupler U is from exporting DC direct current 0/1 digital signal with the tie point of described output resistance R5.

When mains switch S closed, supply voltage was through described decompression capacitor C1 step-down, described divider resistance R1 divide voltage through described bridge rectifier D 1～D4 rectification, through described filter resistance R2 and described filter capacitor C2 filtering, obtain commutating voltage Ua at the A point.

When mains switch S when the low terminal voltage of wide power voltage is closed, commutating voltage Ual is lower than the puncture voltage V of described voltage stabilizing didoe ZD1 _Z1Described voltage stabilizing didoe ZD1 does not work, commutating voltage Ual makes the conducting of described transistor Q1 and Q2, the output voltage U bl of voltage clamping circuit makes in the signal sending end circuit of spacing output circuit of the light emitting devices that comprises described voltage-stabiliser tube ZD2 and described photoelectrical coupler U current flowing, the light receiving element saturation conduction of described photoelectrical coupler U is from being connected on described output resistance R5 output " 0 " digital signal on low-voltage dc power supply voltage+Vcc.

When mains switch S when the high terminal voltage of wide power voltage is closed, commutating voltage Uah is higher than the puncture voltage V of described voltage stabilizing didoe ZD1 _Z1Described voltage stabilizing didoe ZD1 punctures, described transistor Q1, the Darlington connected mode of Q2, make the output voltage U bh and the Ubl of voltage clamping circuit very approaching, making equally in the signal sending end circuit of spacing output circuit of the light emitting devices that comprises described voltage-stabiliser tube ZD2 and described photoelectrical coupler U has current flowing, and the light receiving element of described photoelectrical coupler U is exported " 0 " digital signal from described output resistance R5.

When mains switch S disconnects, commutating voltage Ua approaches zero, described voltage stabilizing didoe ZD1, ZD2, with described transistor Q1, Q2 does not all work, and voltage clamping circuit does not have voltage output, do not have current flowing in the signal sending end circuit of the spacing output circuit of the light emitting devices of described photoelectrical coupler U, the light receiving element of described photoelectrical coupler U is exported " 1 " digital signal from described output resistance R5.

The sort circuit structure not only can adapt to the excursion of very wide supply voltage, can also get rid of the described voltage stabilizing didoe ZD1 that is lower than from the input generation, and the interference of ZD2 puncture voltage avoids output to produce misoperation.

Like this, described state switching circuit can be effectively and uninterruptedly will convert DC low-voltage 0/1 digital controlled signal at the on/off two states of the mains switch of wide power voltage range; Simultaneously, also make output and input realize electric isolation by photoelectrical coupler.

Claims (3)

1. state switching circuit of wide-voltage switch is characterized in that:

Import behind the decompression capacitor C1 and divider resistance R1 of switch S and back thereof at the wide power alternating voltage, the bridge rectifier that constitutes with D1～D4 is connected, rectification circuit output is after filter resistance R2, capacitor C 2 filtering, be connected with voltage clamping circuit, the output of nip circuit, be connected with the photoelectricity coupling circuit through a voltage stabilizing didoe, the load of photoelectricity coupling circuit is output as low level digital signal 0/1.

2. by the described state switching circuit of wide-voltage switch of claim 1, it is characterized in that:

Described clamp circuit is made of the diode of two common collector common bases-emitter serial connection, emitter output, wherein the collector electrode of copolar is connected with the rectifying and wave-filtering output voltage, and be connected with a transistor base by a divider resistance R3, this transistor base passes through a voltage-stabiliser tube ZD1 ground connection.

3. by the described state switching circuit of wide-voltage switch of claim 1, it is characterized in that:

Described divider resistance R1 selects its resistance when output wide power voltage low side, makes the magnitude of voltage of rectification output, and the voltage stabilizing didoe ZD1 in the clamp circuit is punctured.

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