Abstract:
The present invention relates to a conventional circuit connected with the direct-current (DC) power supply in series through the semiconductor forward voltage drop, for producing voltage drop to lower the output DC voltage, however, if the output current is smaller, the voltage drop produced is not enough, the floating-voltage accordingly rises and damages the load, so a shunting current load is arranged in the circuit to suppress the floating-voltage.

Description:
BACKGROUND OF THE INVENTION 
     (a) Field of the Invention 
     The present invention relates to a conventional circuit connected with the direct-current (DC) power supply in series through the semiconductor forward voltage drop, for producing voltage drop to lower the output DC voltage, however, if the output current is smaller, the voltage drop produced is not enough, the floating-voltage accordingly rises and damages the load, so a shunting current load is arranged in the circuit to suppress the floating-voltage. 
     (b) Description of the Prior Art 
     The conventional semiconductor element produces forward voltage drop (VF) with the passing current, which is characterized in that if the current varies between the minimum and the saturation, the forward voltage drop (VF) will become smaller with the current becomes smaller, thus, if a semiconductor is used for series buck, the series buck value is unstable because of current variation from small value to large one. 
     SUMMARY OF THE INVENTION 
     The semiconductor buck circuit with floating-voltage suppression shunting current load of the present invention relates to a circuit, in which two or more semiconductor elements with the forward voltage drop (VF) exist and the forward voltage drop (VF) varies with the value of the passing current before saturation, the semiconductor elements such as Zener diodes, forward series diodes, or LEDs, connect with the direct-current power supply in series to lower the DC output voltage, and the characterized is that the basic load current is produced between the series connected semiconductor elements and the other end of the power supply, and then the basic forward voltage drop (VF) is further produced. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a block diagram showing the first circuit of the semiconductor buck circuit with floating-voltage suppression shunting current load, according to the present invention; and 
         FIG. 2  is a block diagram showing the second circuit of the semiconductor buck circuit with floating-voltage suppression shunting current load, according to the present invention. 
     
    
    
     DESCRIPTION OF MAIN COMPONENT SYMBOLS 
     ( 101 ): First semiconductor buck element 
     ( 102 ): Second semiconductor buck element 
     ( 103 ): Shunting current load 
     ( 104 ): Control device 
     ( 105 ): Zener diode 
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The semiconductor buck circuit with floating-voltage suppression shunting current load of the present invention relates to a circuit, in which two or more semiconductor elements with the forward voltage drop (VF) exist and the forward voltage drop (VF) varies with the value of the passing current before saturation, the semiconductor elements such as Zener diodes, forward series diodes, or LEDs, connect with the direct-current power supply in series to lower the DC output voltage, and the characterized is that the basic load current is produced between the series connected semiconductor elements and the other end of the power supply, and then the basic forward voltage drop (VF) is further produced. 
       FIG. 1  is a block diagram showing the first circuit of the semiconductor buck circuit with floating-voltage suppression shunting current load, according to the present invention; the main components including:
         first semiconductor buck element ( 101 ): constituted by one or more series, parallel, or series-parallel connected semiconductor elements with the forward voltage drop (VF) produced with the passing current, including Zener diodes, which have forward Zener voltage or reverse but forward voltage feature of similar diode, and/or diodes with forward voltage drop, and/or LEDs; in which the first semiconductor buck element ( 101 ) is for forward connecting with the anode of a direct-current power supply V 1  in series, and then connecting with the anode of a second semiconductor buck element ( 102 ) and the anode of a shunting current load ( 103 );   the second semiconductor buck element ( 102 ): constituted by one or more series, parallel, or series-parallel connected diodes, and/or LEDs, and/or Zener diodes, which have the Zener voltage higher than the output voltage (V 2 ) and arranged in the diode functional diversion direction, or the diode group, which is constituted by the Zener diode connecting with the diodes in series and has one-way conductive features; in which the anode of the second semiconductor buck element ( 102 ) is for connecting with the output end of the first semiconductor buck element ( 101 ) and the anode of the shunting current load ( 103 ), and the output end of the second semiconductor buck element ( 102 ) is used as the output end of the anode outputting DC power; and   shunting current load ( 103 ): constituted by one or more than one kind of LEDs and/or resistive elements which are series, parallel, or series-parallel connected by one or more than ones; in which the anode of the shunting current load ( 103 ) is for connecting with the output end of the first semiconductor buck element ( 101 ) and the anode of the second semiconductor buck element ( 102 ), and the output end of the shunting current load ( 103 ) is for connecting with the cathode of the direct-current power supply V 1  and the cathode of the DC output power supply V 2 .       

     In the above embodiment in  FIG. 1 , the output end of the direct-current power supply connects with a Zener diode ( 105 ) used for limiting the voltage or a circuit device with same function in parallel as needed. 
     For the semiconductor buck circuit with floating-voltage suppression shunting current load, a control device ( 104 ) connecting with the power supply in series is further installed for controlling the ON or OFF operation for the direct-current power supply V 1 , or controlling the voltage V 1  of the direct-current power supply to be variable voltage, constant voltage, or limited voltage, and/or controlling the output current of the direct-current power supply V 1  to be variable current, constant current, or limited current;  FIG. 2  is a block diagram showing the second circuit of the semiconductor buck circuit with floating-voltage suppression shunting current load, according to the present invention, the main components including:
         first semiconductor buck element ( 101 ): constituted by one or more series, parallel, or series-parallel connected semiconductor elements with the forward voltage drop (VF) produced with the passing current, including Zener diodes, which have forward Zener voltage or reverse but forward voltage feature of similar diode, and/or diodes with forward voltage drop, and/or LEDs;   the second semiconductor buck element ( 102 ): constituted by one or more series, parallel, or series-parallel connected diodes, and/or LEDs, and/or Zener diodes, which have the Zener voltage higher than the output voltage (V 2 ) and arranged in the diode functional diversion direction, or the diode group, which is constituted by the Zener diode connecting with the diodes in series and has one-way conductive features;   shunting current load ( 103 ): constituted by one or more than one kind of LEDs and/or resistive elements which are series, parallel, or series-parallel connected by one or more than ones; and   control device ( 104 ): constituted by the electromechanical device, and/or the solid state electronic switch element, and/or microprocessor, and/or software, for controlling the ON or OFF operation for the direct-current power supply V 1 , or controlling the voltage V 1  of the direct-current power supply to be variable voltage, or constant voltage, or limited voltage, and/or controlling the output current of the direct-current power supply V 1  to be variable current, or constant current, or limited current.       

     In the above embodiment in  FIG. 2 , the output end of the direct-current power supply connects with the Zener diode ( 105 ) used for limiting the voltage or a circuit device with same function in parallel as needed.