Lighting device and vehicle headlamp

What is claimed is: 1. A lighting device comprising: a power supply circuit that supplies a constant current to a light source group in which a first light source block and a second light source block are connected in series; and a switching circuit that includes an active element connected in parallel to the second light source block, and extinguishes the second light source block by applying a current to the active element such that the current bypasses the second light source block, wherein the active element includes a control terminal, has an impedance that can be varied in accordance with a control signal input into the control terminal, and lights the second light source block when the impedance reaches or exceeds a predetermined value, and the switching circuit includes: a control unit that controls the impedance of the active element such that a current flowing through the active element or an end-to-end voltage of the active element matches a target value; and a switching control circuit that sets the target value and to monotonically increase or reduce the target value so that the current flowing through the active element monotonically increases or reduces over time at a rate based on the target value. 2. The lighting device according to claim 1 , wherein the control unit detects the current flowing through the active element or the end-to-end voltage of the active element as a detection value, and feedback-controls the current or the end-to-end voltage serving as the detection value by controlling the impedance of the active element such that the detection value matches the target value. 3. The lighting device according to claim 2 , wherein, when the second light source block is shifted from a lit condition to an extinguished condition, the switching control circuit increases the target value of the current flowing through the active element over time at a predetermined time constant from a value thereof when the active element is OFF to a value thereof when the active element is ON, and the control unit varies the impedance of the active element as the target value increases. 4. The lighting device according to claim 2 , wherein, when the second light source block is shifted from a lit condition to an extinguished condition, the switching control circuit sets the target value of the current flowing through the active element at a predefined value which is larger than a load current flowing through the first light source block when the light source group is lit in a steady state and smaller than a maximum allowable current of the light source group, and the control unit varies the impedance of the active element basis on the target value set at the predefined value. 5. The lighting device according to claim 1 , wherein, when the second light source block is shifted from a lit condition to an extinguished condition, the switching control circuit increases the target value of the current flowing through the active element over time at a predetermined time constant from a value thereof when the active element is OFF to a value thereof when the active element is ON, and the control unit varies the impedance of the active element as the target value increases. 6. The lighting device according to claim 5 , wherein, when the second light source block is shifted from the extinguished condition to the lit condition, the switching control circuit reduces the target value of the current flowing through the active element over time at a predetermined time constant from the value thereof when the active element is ON to the value thereof when the active element is OFF, and the control unit varies the impedance of the active element as the target value decreases. 7. The lighting device according to claim 1 , wherein, when the second light source block is shifted from a lit condition to an extinguished condition, the switching control circuit sets the target value of the current flowing through the active element at a predefined value which is larger than a load current flowing through the first light source block when the light source group is lit in a steady state and smaller than a maximum allowable current of the light source group, and the control unit varies the impedance of the active element basis on the target value set at the predefined value. 8. The lighting device according to claim 7 , wherein, when the second light source block is shifted from the extinguished condition to the lit condition, the switching control circuit reduces the target value of the current flowing through the active element over time at a predetermined time constant from the value thereof when the active element is ON to the value thereof when the active element is OFF, and the control unit varies the impedance of the active element as the target value decreases. 9. The lighting device according to claim 7 , wherein the power supply circuit includes a detection unit that detects a current flowing to the light source group in order to perform constant current control, and the control unit uses the current detected by the detection unit as a detection value, and feedback-controls the current serving as the detection value by controlling the impedance of the active element such that the detection value matches the target value. 10. The lighting device according to claim 1 , wherein the light source group is constituted by a plurality of light emitting diodes connected in series. 11. A vehicle headlamp comprising: the lighting device according to claim 1 ; and a lamp main body attached to a vehicle. 12. A lighting device comprising: a power supply circuit that supplies a constant current to a light source group in which a first light source block and a second light source block are connected in series; and a switching circuit that includes an active element connected in parallel to the second light source block, and extinguishes the second light source block by applying a current to the active element such that the current bypasses the second light source block, wherein the active element includes a control terminal, has an impedance that can be varied in accordance with a control signal input into the control terminal, and lights the second light source block when the impedance reaches or exceeds a predetermined value, and the switching circuit includes: a control unit that controls the impedance of the active element such that a current flowing through the active element or an end-to-end voltage of the active element matches a target value; and a switching control circuit that sets the target value, wherein, when the second light source block is shifted from a lit condition to an extinguished condition, the switching control circuit reduces an absolute value of the target value of the end-to-end voltage of the active element over time at a predetermined time constant from a value thereof when the active element is OFF to a value thereof when the active element is ON, and the control unit varies the impedance of the active element as the absolute value of the target value decreases. 13. The lighting device according to claim 12 , wherein, the control unit detects the current flowing through the active element or the end-to-end voltage of the active element as a detection value, and feedback-controls the current or the end-to-end voltage serving as the detection value by controlling the impedance of the active element such that the detection value matches the target value. 14. The lighting device according to claim 13 , wherein, when a capacitance of capacitor connected in parallel between an output stage of the power supply circuit a