Decoding circuit and method of decoding signal

What is claimed is: 1. A decoding circuit comprising: a section information generation unit suitable for generating section information corresponding to a length of a section in which an input signal has a first value; a period information generation unit suitable for generating period information corresponding to a length of a period of the input signal; a reference information generation unit suitable for generating reference information by dividing a value of the period information by a given value; and a comparison unit suitable for determining a logic value of the input signal by comparing the section information with the reference information, wherein the section information generation unit comprises: a first period signal generation unit suitable for generating a first period signal toggling with a preset period during the section in which the input signal has the first value; and a first counter suitable for generating the section information by performing a counting operation in response to the first period signal. 2. The decoding circuit of claim 1 , wherein the input signal comprises a pulse width modulation signal. 3. The decoding circuit of claim 1 , wherein the preset period of the first period signal is controlled based on a frequency of the input signal. 4. The decoding circuit of claim 1 , wherein: the first period signal generation unit comprises a plurality of first oscillators suitable for generating first preliminary period signals toggling with different periods, and one of the plurality of first oscillators is selected based on a frequency of the input signal, and the preset period of the first period signal is identical to that of the first preliminary period signal of the selected first oscillator. 5. The decoding circuit of claim 1 , wherein the period information generation unit receives the input signal once and generates the period information based on the period of the input signal that is input once. 6. The decoding circuit of claim 5 , wherein the period information generation unit comprises: a second period signal generation unit suitable for generating a second period signal toggling with a preset period during a section between adjacent first edges of the input signal; and a second counter suitable for generating the period information by performing a counting operation in response to the second period signal. 7. The decoding circuit of claim 6 , wherein: the second period signal generation unit comprises a plurality of second oscillators suitable for generating second preliminary period signals toggling with different periods, and one of the plurality of second oscillators is selected based on a frequency of the input signal, and the preset period of the second period signal is identical to that of the preliminary period signal of the selected second oscillator. 8. The decoding circuit of claim 1 , wherein the period information generation unit receives the input signal N times, N being an integer greater than 2, and generates the period information based on a mean period of the input signal that is input N times. 9. The decoding circuit of claim 8 , wherein the period information generation unit comprises: a second period signal generation unit suitable for generating a second period signal toggling with a preset period during a section from a first edge of the input signal to an Nth first edge of the input signal; a second counter suitable for generating preliminary period information by performing a counting operation in response to the second period signal; and a mean value calculation unit suitable for generating the period information by dividing a value of the preliminary period information by N. 10. The decoding circuit of claim 9 , wherein: the second period signal generation unit comprises a plurality of second oscillators suitable for generating second preliminary period signals toggling with different periods, and one of the plurality of second oscillators is selected based on a frequency of the input signal, and the preset period of the second period signal is identical to that of the preliminary period signal of the selected second oscillator. 11. The decoding circuit of claim 1 , wherein the comparison unit determines the logic value of the input signal to be a first logic value when a value of the section information is greater than a value the reference information, and determines the logic value of the input signal to be a second logic value when the value of the section information is equal to or less than the value of the reference information. 12. The decoding circuit of claim 11 , wherein, when the reference information generation unit generates the reference information by dividing the value of the period information by 2, the comparison unit determines the logic value of the input signal to be the first logic value when the length of the section in which the input signal has the first value is longer than half of the length of the period of the input signal, and determines the logic value of the input signal to be the second logic value when the length of the section in which the input signal has the first value is equal to or shorter than half of the length of the period of the input signal. 13. The decoding circuit of claim 1 , further comprising: a storage unit suitable for latching the logic value of the input signal output from the comparison unit at a first edge of the input signal. 14. A method of decoding a signal, comprising: generating period information corresponding to a length of a period of an input signal; generating reference information by dividing a value of the period information by a given value; generating section information corresponding to a length of a section in which the input signal has a first value; and determining a logic value of the input signal by comparing the section information with the reference information wherein the generating of the section information comprises: generating a first period signal toggling with a preset period during the section in which the input signal has the first value; and generating the section information by performing a counting operation in response to the first period signal. 15. The method of claim 14 , wherein the input signal comprises a pulse width modulation signal. 16. The method of claim 14 , wherein the generating of the period information comprises: generating a second period signal toggling with a preset period for a time when the input signal is input once; and generating the period information by performing a counting operation in response to the second period signal. 17. The method of claim 14 , wherein the generating of the period information comprises: generating a second period signal toggling with a preset period for a time when the input signal is input N times, N being an integer greater than 2; generating preliminary period information by performing a counting operation in response to the second period signal; and generating the period information by dividing a value of the preliminary period information by N. 18. The method of claim 14 , wherein the determining of the logic value of the input signal comprises: determining the logic value of the input signal to be a first logic value when a value of the section information is greater than a value of the reference information, and determining the logic value of the input signal to be a second logic value when the value of the section information is equal to or less than the value of the reference information.