CN204794943U - MOS pipe drive circuit among electric current voltage conversion circuit - Google Patents

Abstract

The utility model discloses a MOS pipe drive circuit among electric current voltage conversion circuit, including voltage detector U1, triode T1 and T2 and resistance R31, R32, R33 and R34, resistance R31 and resistance R32 connect between DC+ and DC - after establishing ties, voltage detector U1's VDD terminating resistor R31 and R32's tie point, voltage detector U1's VSS termination DC -, voltage detector U1's the OUT termination triode T1 and T2's the b utmost point, triode T1's c extremely connects + 12 ends, triode T1's the e utmost point and triode T2's e utmost point short circuit, and triode T2's c extremely connects the DC - end, triode T1's the e utmost point is through resistance R34 to pulse output end DRIVE, this MOS pipe drive circuit among electric current voltage conversion circuit easy to carry out thinks about ingeniously, is particularly suitable for being applied to single line power supply occasion, and stability is good.

Description

Metal-oxide-semiconductor drive circuit in a kind of current/voltage converter circuit

Technical field

The utility model relates to the metal-oxide-semiconductor drive circuit in a kind of current/voltage converter circuit.

Background technology

In traditional direct current supply field, no matter be constant pressure source or constant-current source, all adopt two wires to power, be i.e. a power line and a loop line.And in remote optical fiber communication especially fibres submarine telecommunication application, due to the advantage such as feature, cost of single line constant current-supplying, mostly adopt optoelectronic composite cable.Optoelectronic composite cable has one deck shield copper pipe, on cable, the power supply of load utilizes this layer of copper pipe to provide constant current to realize just, and it only has a wire, and its loop line utilizes seawater or realizes greatly.Because cable only have a wire and by a certain constant current value, seem abnormal difficult with traditional method constant pressure source obtained needed for load.

In addition, single line constant current turns in constant voltage electrical energy conversion circuit, and metal-oxide-semiconductor drive circuit is one of Key Circuit;

Therefore, the metal-oxide-semiconductor drive circuit designed in a kind of current/voltage converter circuit is necessary.

Utility model content

Technical problem to be solved in the utility model is to provide the metal-oxide-semiconductor drive circuit in a kind of current/voltage converter circuit, and the metal-oxide-semiconductor drive circuit in this current/voltage converter circuit is easy to implement, is skillfully constructed, and can form stable trigger impulse.

The technical solution of utility model is as follows:

A metal-oxide-semiconductor drive circuit in current/voltage converter circuit, metal-oxide-semiconductor drive circuit comprises voltage detector U1, triode T1 and T2 and resistance R31, R32, R33 and R34; Triode T1 and T2 is respectively NPN type triode and PNP triode;

Resistance R31 and resistance R32 is connected between DC+ and DC-after connecting; The tie point of vdd terminal connecting resistance R31 and R32 of voltage detector U1; The VSS termination DC-of voltage detector U1; The b pole of OUT termination triode T1 and T2 of voltage detector U1; The c pole of triode T1 connects+12 ends, the e pole of triode T1 and the e pole short circuit of triode T2, and the c pole of triode T2 connects DC-end; The e pole of triode T1 through resistance R34 to pulse output end DRIVE; Between pulse output end DRIVE and DC-holds, cross-over connection has voltage-stabiliser tube D31; Pulse output end DRIVE is trigger impulse output.

Voltage detector U1 adopts S-80850CLUA-B7BT2G chip.

Described resistance R32 is variable resistor.

Beneficial effect:

Metal-oxide-semiconductor drive circuit in current/voltage converter circuit of the present utility model, integrated chip S-80850CLUA-B7BT2G is adopted to implement voltage detecting as voltage detector, the push-pull circuit be made up of 2 triodes again forms trigger impulse, circuit working good stability, easy to implement, stable and reliable trigger impulse can be provided.

Accompanying drawing explanation

Fig. 1 is the general frame of single line converting constant current source to constant voltage source electrical energy conversion circuit;

Fig. 2 is current bypass and CC/CV main circuit schematic diagram;

Fig. 3 is metal-oxide-semiconductor driving circuit principle figure;

Fig. 4 is the enable output circuit schematic diagram of constant pressure source;

If Fig. 5 is that two ends supply station is for electrical schematic.

Embodiment

Below with reference to the drawings and specific embodiments, the utility model is described in further details:

Embodiment 1:

As Fig. 3, the metal-oxide-semiconductor drive circuit in a kind of current/voltage converter circuit, metal-oxide-semiconductor drive circuit comprises voltage detector U1, triode T1 and T2 and resistance R31, R32, R33 and R34; Triode T1 and T2 is respectively NPN type triode and PNP triode;

Resistance R31 and resistance R32 is connected between DC+ and DC-after connecting; The tie point of vdd terminal connecting resistance R31 and R32 of voltage detector U1; The VSS termination DC-of voltage detector U1; The b pole of OUT termination triode T1 and T2 of voltage detector U1; The c pole of triode T1 connects+12 ends, the e pole of triode T1 and the e pole short circuit of triode T2, and the c pole of triode T2 connects DC-end; The e pole of triode T1 through resistance R34 to pulse output end DRIVE; Between pulse output end DRIVE and DC-holds, cross-over connection has voltage-stabiliser tube D31; Pulse output end DRIVE is trigger impulse output.

Voltage detector U1 adopts S-80850CLUA-B7BT2G chip.

Described resistance R32 is variable resistor.

In addition, turn constant voltage electrical energy conversion circuit to single line constant current to be described below:

As Fig. 1-5, single line constant current turns constant voltage electrical energy conversion circuit and comprises current bypass, CC/CV main circuit and metal-oxide-semiconductor drive circuit;

Be serially connected in single line constant current output path after CC/CV main circuit and current bypass parallel connection;

Current bypass comprises NMOS tube Q1 and resistance R1; The input of the D of NMOS tube Q1 very current bypass (is designated as M point, the i.e. current output terminal of order line constant current output path), the S pole of NMOS tube Q1 connects with one end of resistance R, the other end of resistance R is the output [being designated as N point, i.e. the current reflux end of order line constant current output path] of current bypass; Also can connect conversely, before namely resistance R is connected on, after Q1 is connected on, in Fig. 2, there is no the diode that picture is connected with NMOS tube;

CC/CV main circuit comprises diode D1, electric capacity C1 and C2, resistance R2 and voltage-stabiliser tube D3;

The positive pole of diode D1 connects the input (i.e. M point) of current bypass; The negative pole of diode D1 connects the output (i.e. N point) of current bypass through electric capacity C1;

Described resistance R2, electric capacity C2 and voltage-stabiliser tube D3 form output branch road; Export branch road in parallel with electric capacity C1; The negative pole of the first terminating diode D1 of resistance R2; The first end of resistance R2 is the negative pole of the second termination voltage-stabiliser tube D3 of direct voltage positive output end DC+, resistance R2, and the negative pole of voltage-stabiliser tube D3 is+12V output; The positive pole of voltage-stabiliser tube D3 connects the output (i.e. N end) of described current bypass; The just very direct voltage negative output terminal DC-of voltage-stabiliser tube D3;

Electric capacity C2 is in parallel with voltage-stabiliser tube D3;

Metal-oxide-semiconductor drive circuit is powered by exporting branch road, for providing trigger impulse for NMOS tube Q1.

Metal-oxide-semiconductor drive circuit comprises voltage detector U1, triode T1 and T2 and resistance R31, R32, R33 and R34; Triode T1 and T2 is respectively NPN type triode and PNP triode;

Resistance R31 and resistance R32 is connected between DC+ and DC-after connecting; The tie point of vdd terminal connecting resistance R31 and R32 of voltage detector U1; The VSS termination DC-of voltage detector U1; The b pole of OUT termination triode T1 and T2 of voltage detector U1; The c pole of triode T1 connects+12 ends, the e pole of triode T1 and the e pole short circuit of triode T2, and the c pole of triode T2 connects DC-end; The e pole of triode T1 through resistance R34 to pulse output end DRIVE; Between pulse output end DRIVE and DC-holds, cross-over connection has voltage-stabiliser tube D31; The grid that pulse output end DRIVE is NMOS tube Q1 provides trigger impulse;

Voltage detector U1 adopts S-80850CLUA-B7BT2G chip.

Described resistance R32 is variable resistor.

The capacitance of electric capacity C1 is determined by following formula:

C=2PT/ [(V2^2-V1^2) * η * K]; Wherein ^ represents power, V1^2 represent V1 square; V2^2 represent V2 square;

P------power module gross output;

The T------time, 50mS

η------power module conversion efficiency, η >=0.85;

V2------input power normal power supply voltage;

V1------power module minium operation voltage value;

K=derate coefficient, derate coefficient gets 0.5 ~ 0.6.

CC/CV main circuit also comprises the transient voltage that the TVS diode D2[in parallel with electric capacity C1 is used for absorbing constant voltage power supply circuit].

Export between branch road and electric capacity C1 and be serially connected with common mode inductance L1.[between the negative pole that an inductance in common mode inductance L1 is connected on diode D1 and DC+, another inductance is connected between the output (i.e. N point) of current bypass and DC-]

Metal-oxide-semiconductor drive circuit in described current/voltage converter circuit also comprises the enable output circuit of constant pressure source; The enable output circuit of constant pressure source comprises voltage detector U2, voltage-stabiliser tube D41, resistance R41 and R42;

Resistance R41 and resistance R42 is connected between DC+ and Dc-after connecting; The tie point of vdd terminal connecting resistance R41 and R42 of voltage detector U2; The VSS termination DC-of voltage detector U2; The OUT end of voltage detector U2 is enable output EN; Between enable output EN and DC-holds, cross-over connection has voltage-stabiliser tube D41;

Voltage detector U2 adopts S-80850CLUA-B7BT2G chip.The DC/DC change-over circuit that Enable Pin is rear class necessity provides enable signal.

Described resistance R42 is variable resistor.

Comprise multiple constant current/constant voltage unsteady flow module be connected in single line constant current output path; The circuit structure of multiple constant current/constant voltage unsteady flow module is identical, and each constant current/constant voltage unsteady flow module comprises described current bypass, CC/CV main circuit and metal-oxide-semiconductor drive circuit.Namely multiple constant current/constant voltage unsteady flow module can cascaded-output.

The realization of constant pressure source is obtained from single line constant-current source by the charging voltage value of control capacitance; its power output is determined by by the constant current value of solid conductor and the charging voltage value of control capacitance, realizes the overvoltage protection of constant pressure source and rear class DC/DC module soft start and enable output function by monitoring the magnitude of voltage of electric capacity.

The constant pressure source of this utility model has uninterrupted power supply function, when supply station or bank station are because of fault Switching power, may have the of short duration power down within 50mS, the upper constant pressure source of optoelectronic composite cable can not affect the power supply of load because having 50mS uninterrupted power supply function.The principle of 50mS uninterrupted power supply illustrates: by electric capacity C1 storage power in Fig. 2; when the power-off of bank station Remote Power Supply; energy needed for load is provided by electric capacity C1, must guarantee that the magnitude of voltage of electric capacity C1 in 50mS does not drop to the under-voltage protection value of rear class DC/DC circuit.

The induced current size that magnetic field of the earth and solar wind produce is directly proportional to the area etc. of optoelectronic composite cable corral, direction may with the electric current on optoelectronic composite cable in the same way, also may be reverse, the induced electricity flow valuve of this device energy bypass is ± 200A (two-way).NMOS tube Q1 in Fig. 2, model is VS-FC220SA20, and current value is 220A, reverse withstand voltage 200V.

The input of constant pressure source over the ground withstand voltage can reach 6KVrms.In Fig. 2, C3, C4, C5, C6 form Y capacitance, and the parameter of single electric capacity is 4700PF/500VAC.

As shown in Figure 5, two ends supply station adopts positive-negative power to power simultaneously, and one end is that positive supply is powered, and the other end is that negative supply is powered.

Claims (3)

1. the metal-oxide-semiconductor drive circuit in current/voltage converter circuit, is characterized in that, metal-oxide-semiconductor drive circuit comprises voltage detector U1, triode T1 and T2 and resistance R31, R32, R33 and R34; Triode T1 and T2 is respectively NPN type triode and PNP triode;

Resistance R31 and resistance R32 is connected between DC+ and DC-after connecting; The tie point of vdd terminal connecting resistance R31 and R32 of voltage detector U1; The VSS termination DC-of voltage detector U1; The b pole of OUT termination triode T1 and T2 of voltage detector U1; The c pole of triode T1 connects+12 ends, the e pole of triode T1 and the e pole short circuit of triode T2, and the c pole of triode T2 connects DC-end; The e pole of triode T1 through resistance R34 to pulse output end DRIVE; Between pulse output end DRIVE and DC-holds, cross-over connection has voltage-stabiliser tube D31; Pulse output end DRIVE is trigger impulse output.

2. the metal-oxide-semiconductor drive circuit in current/voltage converter circuit according to claim 1, is characterized in that,

Voltage detector U1 adopts S-80850CLUA-B7BT2G chip.

3. the metal-oxide-semiconductor drive circuit in current/voltage converter circuit according to claim 1 and 2, is characterized in that,

Described resistance R32 is variable resistor.