Voltage regulator with multiple output ranges

The invention claimed is: 1. A voltage regulator, comprising: an input configured to receive an input voltage Vin; an output configured to provide an output voltage Vout; a voltage divider including at least a first resistor and a second resistor with a resistance ratio of 1 (X−1), the input being connected to the first resistor and the output being connected to the second resistor; a voltage source configured to provide a reference voltage Vref to a connecting point between the first resistor and the second resistor; and at least one working circuit directly connected to the output to provide the output voltage as Vout=Vin−X(Vin−Vref); wherein the working circuit includes a pull down current source, and a negative charge pump configured to provide a negative voltage to the output. 2. The voltage regulator according to claim 1 , wherein the output voltage Vout is in a negative range when the negative charge pump is activated to provide a negative voltage and the reference voltage Vref is less than (X−1)Vin/X. 3. The voltage regulator according to claim 1 , wherein the output voltage Vout is in a positive range when the pull down current source is activated and the reference voltage Vref is greater than (X−1)Vin/X. 4. The voltage regulator according to claim 1 , wherein the pull down current source includes a plurality of NMOS transistors, and the substrate of the plurality of NMOS transistors is directly connected to the output. 5. The voltage regulator according to claim 1 , further comprising a switch connected between the output and a ground. 6. The voltage regulator according to claim 5 , wherein the output voltage Vout is coupled to the ground when the voltage divider and the at least one working circuit are deactivated and the switch turns on. 7. The voltage regulator according to claim 1 , wherein the voltage source includes a PMOS regulator. 8. The voltage regulator according to claim 1 , wherein the voltage divider includes at least one PMOS transistor connected between the first resistor and the input. 9. A voltage regulator with multiple output ranges, comprising: a voltage source block; a voltage divider including at least a first resistor and a second resistor connected in this order between an input and an output; a negative charge pump directly connected to the output; and a pull down current source directly connected to the output, wherein the negative charge pump and the pull down current source are selectively activated to provide the multiple output ranges on the output. 10. The voltage regulator according to claim 9 , wherein the output provides an output voltage Vout in a negative range when: the input end is configured to receive an input voltage Vin; a connecting point between the first resistor and the second resistor is set by a voltage source to a reference voltage Vref that is less than (X−1)Vin/X, where X is a ratio coefficient derived from the fact that the resistance ratio of the first and second resistors is 1 (X−1), the negative charge pump is activated to provide a negative voltage; and the pull down current source is deactivated. 11. The voltage regulator according to claim 9 , wherein the output provides an output voltage Vout in a positive range when: the input is configured to receive an input voltage Vin; a connecting point between the first resistor and the second resistor is set by a voltage source to a reference voltage Vref that is greater than (X−1)Vin/X, where X is a ratio coefficient derived from the fact that the resistance ratio of the first and second resistors is 1 (X−1), the negative charge pump is deactivated; and the pull down current source is activated. 12. The voltage regulator according to claim 9 , wherein the pull down current source includes a plurality of NMOS transistors that has a substrate directly connected to the output. 13. The voltage regulator according to claim 12 , wherein one of the plurality of NMOS transistors is directly connected between the output and a ground. 14. The voltage regulator according to claim 13 , wherein the output provides a ground voltage when: the voltage divider, the negative charge pump, and the pull down current source are deactivated; and the NMOS transistor connected between the output and the ground turns on. 15. The voltage regulator according to claim 9 , wherein the voltage divider further includes at least one PMOS transistor configured to switch on/off a voltage provided to the input; and wherein the negative charge pump includes a switch configured to switch on/off a clock signal provided to the negative charge pump. 16. A CMOS image sensor comprising a voltage regulator which comprises: an input configured to receive an input voltage Vin; an output configured to provide an output voltage Vout; a voltage divider including at least a first resistor and a second resistor with a resistance ratio of 1 (X−1), the input being connected to the first resistor and the output being connected to the second resistor; a voltage source configured to provide a reference voltage Vref to a connecting point between the first resistor and the second resistor; and at least one working circuit directly connected to the output to provide the output voltage as Vout=Vin−X(Vin−Vref); wherein the working circuit comprises a negative charge pump directly connected to the output, and a pull down current source directly connected to the output.