Gas measurement device and gas measurement method

The invention claimed is: 1. A gas measurement device comprising: a base member having an opening at its upper portion and formed of a gas-impermeable material; a filter disposed so as to close the opening and formed of a gas-permeable material; a gas chamber defined by the base member and the filter; a gas sensor disposed in the gas chamber; a catalyst member connected to a power source applying voltage or current, performing a reaction of a first gas and a second gas contained in a mixed gas contacted with the catalyst member to generate a third gas, and exhibiting a catalytic action in which the reaction changes in response to temperature; a signal generation unit configured to output a synchronous signal for determining timing; a control unit configured to control the power source based on a control signal for determining temperature of the catalyst member and the synchronous signal so that the temperature of the catalyst member becomes a temperature determined by the control signal at the timing determined by the synchronous signal; an acquirement unit configured to acquire a detection value of the gas sensor at the timing determined by the synchronous signal; and an output unit configured to output the detection value and the control signal in association with each other, wherein the filter has the catalyst, and the gas sensor is configured to detect gas molecules contacted with the catalyst member, and the control unit is configured to output the control signal having a waveform corresponding to the temperature of the catalyst member when the rectangular wave of the synchronous signal is received a predetermined first number of times, and the acquirement unit is configured to acquire the detection value when the rectangular wave of the synchronous signal is received a predetermined second number of times. 2. The gas measurement device according to claim 1 , further comprising a plurality of gas sensors including the gas sensor, wherein the plurality of gas sensors includes another gas sensor configured to detect a gas molecule different from a gas species of the gas molecule detected by the gas sensor. 3. The gas measurement device according to claim 1 , further comprising a determination unit configured to determine the gas species based on a pre-acquired relationship, the detection value, and the control signal, wherein the pre-acquired relationship is a relationship between the gas species, the detection value, and the control signal. 4. The gas measurement device according to claim 1 , wherein the first gas is hydrogen, and the second gas is oxygen, and the third gas is water, and the gas sensor is configured to detect hydrogen contained in the mixed gas after contacting with the catalyst member. 5. The gas measurement device according to claim 4 , further comprising a plurality of gas sensors including the gas sensor, wherein the plurality of gas sensors includes another gas sensor configured to detect a gas molecule different from hydrogen detected by the gas sensor. 6. The gas measurement device according to claim 1 , wherein the predetermined second number of times is larger than the predetermined first number of times. 7. A gas measurement device comprising: a base member having an opening at its upper portion and formed of a gas-impermeable material; a filter disposed so as to close the opening and formed of a gas-permeable material; a gas chamber defined by the base member and the filter; a gas sensor disposed in the gas chamber; a catalyst member performing a reaction of a first gas and a second gas contained in a mixed gas contacted with the catalyst member to generate a third gas, and exhibiting a catalytic action in which the reaction changes in response to temperature; a temperature adjustment mechanism connected to a power source applying voltage or current and configured to adjust temperature of the catalyst member; a signal generation unit configured to output a synchronous signal for determining timing; a control unit configured to control the power source based on a control signal for determining temperature of the catalyst member and the synchronous signal so that the temperature of the catalyst member becomes a temperature determined by the control signal at the timing determined by the synchronous signal; an acquirement unit configured to acquire a detection value of the gas sensor at the timing determined by the synchronous signal; and an output unit configured to output the detection value and the control signal in association with each other, wherein the filter has the catalyst, and the gas sensor is configured to detect gas molecules contacted with the catalyst member, and the control unit is configured to output the control signal having a waveform corresponding to the temperature of the catalyst member when the rectangular wave of the synchronous signal is received a predetermined first number of times, and the acquirement unit is configured to acquire the detection value when the rectangular wave of the synchronous signal is received a predetermined second number of times. 8. The gas measurement device according to claim 7 , further comprising a plurality of gas sensors including the gas sensor, wherein the plurality of gas sensors includes another gas sensor configured to detect a gas molecule different from a gas species of the gas molecule detected by the gas sensor. 9. The gas measurement device according to claim 7 , further comprising a determination unit configured to determine the gas species based on a pre-acquired relationship, the detection value, and the control signal, wherein the pre-acquired relationship is a relationship between the gas species, the detection value, and the control signal. 10. The gas measurement device according to claim 7 , wherein the first gas is hydrogen, and the second gas is oxygen, and the third gas is water, and the gas sensor is configured to detect hydrogen contained in the mixed gas after contacting with the catalyst member. 11. The gas measurement device according to claim 10 , further comprising a plurality of gas sensors including the gas sensor, wherein the plurality of gas sensors includes another gas sensor configured to detect a gas molecule different from hydrogen detected by the gas sensor. 12. The gas measurement device according to claim 7 , wherein the predetermined second number of times is larger than the predetermined first number of times. 13. A gas measurement method comprising: controlling, based on a control signal for determining temperature of a catalyst member and a synchronous signal for determining a timing, the temperature of the catalyst member so as to be the temperature determined by the control signal at the timing determined by the synchronous signal, and causing a first gas and a second gas contained in a mixed gas to react by a catalytic action of the catalyst member to generate a third gas; detecting, by a gas sensor, gas contacted with the catalyst member; acquiring a detection value of the gas sensor at a timing determined by the synchronous signal; determining the gas species based on a pre-acquired relationship, the acquired detection value, and the control signal, wherein the pre-acquired relationship is a relationship between the gas species and the detection value, the acquired detection value, and the control signal; outputting the control signal having a waveform corresponding to the temperature of the catalyst member when the rectangular wave of the synchronous signal is received a predetermined first number of times; and acquiring the detection value when the rectangular wave of th