Thermal type flow meter

The invention claimed is: 1. A thermal-type flow meter at outputs an output signal indicating a flow rate of air using a frequency, comprising: a signal generator that generates a periodic signal indicating the flow rate using a frequency; a shunt circuit that is configured by a plurality of switching elements connected in parallel, and outputs the output signal corresponding to the periodic signal; and a delay circuit that delays an operation timing of each switching element such that the respective switching elements are turned on at different phases of the periodic signal, wherein the shunt circuit is configured to lower a signal level of the output signal from a high level in a stepwise shape whenever each switching element is turned on, and to make the signal level of the output signal fall to a low level when all the switching elements are turned on, and wherein the delay circuit changes the delayed time duration to be shortened as the frequency of the periodic signal is increased, and changes the delayed time duration to be lengthened as the frequency of the periodic signal is decreased. 2. The thermal-type flow meter according to claim 1 , wherein the delay circuit changes the delayed time duration in proportion to the frequency of the periodic signal. 3. The thermal-type flow meter according to claim 1 , wherein at least one of the switching elements includes a current limit resistor that is connected to an output terminal of the output signal. 4. The thermal-type flow meter according to claim 3 , wherein the switching element disposed at a final stage of the shunt circuit does not include the current limit resistor, and the other switching elements of the shunt circuit include the current limit resistor. 5. The thermal-type flow meter according to claim 3 , wherein the switching element disposed at a final stage of the shunt circuit does not include the current limit resistor, and the other switching elements of the shunt circuit include the current limit resistor, wherein the delay circuit adjusts an operation timing of each switching element such that an order of switching the switching elements of the shunt circuit from an ON state to an OFF state is reversed to an order of switching from the OFF state to the ON state, and wherein the delay circuit turns finally on the switching element having no current limit resistor when the output signal is switched from the high level to the low level, and turns firstly off the switching element having no current limit resistor when the output signal is switched from the low level to the high level. 6. The thermal-type flow meter according to claim 1 , wherein the delay circuit adjusts an operation timing of each switching element such that an order of switching the switching elements of the shunt circuit from an ON state to an OFF state is reversed to an order of switching from the OFF state to the ON state. 7. The thermal-type flow meter according to claim 1 , wherein the delay circuit is configured by a voltage-dividing circuit that divides a voltage applied to a gate terminal of each switching element to be different values for each switching element. 8. The thermal-type flow meter according to claim 1 , wherein the delay circuit is configured by a calculation circuit that calculates the delayed time duration according to a period of the periodic signal and drives the switching element according to the time duration. 9. The thermal-type flow meter according to claim 1 , wherein the delay circuit adjusts the delayed time duration such that the delayed time duration between any switching elements becomes different from the delayed time duration between other switching elements. 10. The thermal-type flow meter according to claim 1 , wherein the signal generator generates a triangular wave signal as the periodic signal.