Random sampler adapted to one-dimension slow-varying signal

What is claimed is: 1. A random sampler adapted to a one-dimension slow-varying signal, comprising: a signal preprocessing unit, a slope-controllable sawtooth wave signal generating unit, a signal comparing unit, a counting unit and a signal outputting unit, wherein the signal preprocessing unit is configured to preprocess an input signal and to transmit the preprocessed input signal to the signal comparing unit, the slope-controllable sawtooth wave signal generating unit is configured to generate a slope-controllable sawtooth wave signal, which is transmitted to the signal comparing unit, and to perform zero-resetting, the signal comparing unit is configured to compare the preprocessed input signal from the signal preprocessing unit with the sawtooth wave signal generated by the slope-controllable sawtooth wave signal generating unit and to output a pulse signal to the slope-controllable sawtooth wave signal generating unit and the signal outputting unit when the preprocessed input signal is equal to the sawtooth wave signal, the counting unit is connected to the slope-controlled sawtooth wave signal generating unit via the signal comparing unit and configured to count a number of clock signals while the sawtooth wave signal generating unit is generating the sawtooth wave signal and to transmit the counted number to the signal outputting unit, and the signal outputting unit is configured to, upon receipt of the pulse signal output from the signal comparing unit, output an instantaneous counted number received from the counting unit. 2. The random sampler according to claim 1 , wherein the preprocessing of the input signal by the signal preprocessing unit comprises: reversing the input signal. 3. The random sampler according to claim 1 , wherein the sawtooth wave signal generated by the slope-controllable sawtooth wave signal generating unit is transmitted to the signal comparing unit, where the sawtooth wave signal is compared with the preprocessed input signal, and when the sawtooth wave signal is equal to the preprocessed signal, the signal comparing unit outputs the pulse signal to the slope-controllable sawtooth wave signal generating unit, which resets to zero and regenerates a new sawtooth wave signal. 4. The random sampler according to claim 3 , wherein the slope-controllable sawtooth wave generating unit comprises a constant current source, a capacitor and a switch triggered by the pulse signal, wherein a slope of the sawtooth wave signal is controlled by adjusting a current level of the constant current source and a voltage level of the sawtooth wave signal is reset to zero by the switch triggered by the pulse signal. 5. The random sampler according to claim 1 , wherein the signal comparing unit is constituted of a comparer, the sawtooth wave signal generated by the slope-controllable sawtooth wave signal generating unit and the input signal preprocessed by the signal preprocessing unit are input to a positive input terminal and a negative input terminal of the comparer, respectively, when the sawtooth wave signal is lower than the input signal, an output terminal of the comparer is at a low level, when the sawtooth wave signal is equal to or higher than the input signal, the output terminal of the comparer is at a high level and outputs a pulse signal to the slope-controllable sawtooth generating unit and the signal outputting unit, so that the slope controllable sawtooth generating unit resets to zero to regenerate a new sawtooth wave signal, and the signal outputting unit outputs the instantaneous counted number. 6. The random sampler according to claim 1 , wherein the counting unit is implemented using a counter, and the number counted by the counter conveys time information and information about a voltage level of the sawtooth wave signal which are used for data restoration at a computer connected to an output terminal of the signal outputting unit.