Water quality sensor using positive feedback

1 . A sensing system, comprising: an optical actuator configured to apply an optical stimulus into a detection target substance; a photo detector configured to output an electrical signal having a snapback form in response to an optical response generated according to a concentration of the detection target substance to which the optical stimulus is applied; an amplifier configured to amplify the electrical signal output from the photo detector and to provide the amplified electrical signal as positive feedback to the optical actuator; and a detection unit configured to detect the detection target substance in response to the electrical signal. 2 . The sensing system of claim 1 , further comprising: a power source configured to apply a bias current to the photo detector. 3 . The sensing system of claim 1 , wherein the optical actuator includes one of a light emitting diode (LED) and a laser diode (LD). 4 . The sensing system of claim 1 , wherein the photo detector includes a photodiode. 5 . The sensing system of claim 1 , wherein the photo detector is configured to detect one or more among reflected light, transmitted light, scattered light, and fluorescence, each of which is generated by the detection target substance in response to the optical stimulus applied from the optical actuator, thereby outputting the electrical signal corresponding to the detection result. 6 . The sensing system of claim 1 , wherein the amplifier is a current-voltage conversion amplifier which receives a current signal, converts the current signal into a corresponding voltage signal and outputs the converted voltage signal. 7 . The sensing system of claim 1 , wherein the electrical signal having a snapback form includes a snapback region in which the electrical signal is decreased as a voltage across both ends of the photo detector is increased from a snapback point, and a saturation region in which the electrical signal is increased as the voltage across both ends of the photo detector is increased, wherein the snapback region and the saturation region are connected through a saturation point. 8 . The sensing system of claim 7 , wherein the detection unit detects a concentration of the detection target substance by detecting the voltage across both ends of the photo detector when a constant current is provided to the photo detector in the snapback region. 9 . The sensing system of claim 7 , wherein the detection unit detects a concentration of the detection target substance by detecting a current flowing to the photo detector when a constant voltage is provided to the photo detector in the snapback region. 10 . The sensing system of claim 7 , wherein the detection unit detects a concentration of the detection target substance by detecting current and voltage values at the saturation point. 11 . The sensing system of claim 7 , wherein the detection unit detects a concentration of the detection target substance by detecting a current-to-voltage ratio of the saturation region. 12 . A sensing system, comprising: an optical actuator configured to apply an optical stimulus into a detection target substance; a photo detector configured to receive a bias current and an incident light generated by an optical response of the detection target substance; and a positive feedback unit configured to increase the optical stimulus applied from the optical actuator as the bias current increases. 13 . The sensing system of claim 12 , wherein the optical actuator includes at least one of an LED and an LD, and the photo detector includes a photodiode. 14 . The sensing system of claim 13 , wherein the positive feedback unit increases a forward voltage of the diode included in the optical actuator as the bias current increases. 15 . The sensing system of claim 13 , wherein the positive feedback unit includes a differential amplifier, wherein a reference voltage is applied to a first input end of the differential amplifier, the bias current is provided to a second input end of the differential amplifier, a resistor is connected between the second input end and an output end of the differential amplifier, and the output end is connected to the diode included in the optical actuator. 16 . The sensing system of claim 12 , wherein the photo detector outputs a sensing voltage corresponding to the bias current and the incident light. 17 . The sensing system of claim 16 , wherein the photo detector includes a snapback region in which the sensing voltage is decreased as the bias current increases. 18 . The sensing system of claim 17 , further comprising: a detection unit configured to measure a concentration of the detection target substance by measuring the sensing voltage while supplying a predetermined amount of the bias current in the snapback region. 19 . The sensing system of claim 12 , wherein the incident light includes at least one among reflected light, transmitted light, scattered light, and fluorescence which are formed by applying the optical stimulus into the detection target substance. 20 . The sensing system of claim 12 , wherein the detection target substance includes at least one among BSA (bovine serum albumin), NADH (chemically reduced form of NAD (nicotinamide-adenine-dinucleotide)), a graphene oxide, and floating matter.