Flow rate measuring device

The invention claimed is: 1. A flow rate measuring device comprising: an analog conversion part adapted to convert a digital flow rate signal indicating a measured flow rate value to an analog flow rate signal indicating the measured flow rate value, wherein the analog conversion part comprises: a pulse width modulation (PWM) signal generating circuit configured to output three or more predetermined specified voltage levels, and on a basis of the measured flow rate value indicated by the digital flow rate signal, select two specified voltage levels from among the specified voltage levels, as well as on the basis of the measured flow rate value indicated by the digital flow rate signal, setting a duty ratio to generate a PWM signal of which a high level and a low level are the two specified voltage levels, respectively; and a conversion circuit that smooths the PWM signal outputted from the PWM signal generating circuit to convert to the analog flow rate signal, and wherein the PWM signal generating circuit comprises: a primary PWM signal generating circuit that on a basis of a value of the digital flow rate signal: generates a primary PWM signal; and selects the two specified voltage levels from among the three or more specified voltage levels; and a secondary PWM signal generating circuit configured to output the three or more specified voltage levels, and generate a secondary PWM signal as the PWM signal obtained by converting a high level and a low level of the primary PWM signal to the two specified voltage levels, respectively. 2. The flow rate measuring device according to claim 1 , wherein the PWM signal generating circuit is one that selects two adjacent specified voltage levels. 3. The flow rate measuring device according to claim 2 , wherein the adjacent specified voltage levels are all substantially equally set. 4. The flow rate measuring device according to claim 1 , wherein the PWM signal generating circuit is one that sets the duty ratio with a variation in smoothing time constant of the conversion circuit as a parameter. 5. The flow rate measuring device according to claim 1 , wherein the PWM signal generating circuit: compares a value q of the digital flow rate signal and the specified voltage levels V 0 , V 1 , V k , . . . , V n (n is an integer equal to or more than 2, and V k >V k-1 ); searches for j meeting V j ≥s·q>V j-1 (j is an integer not less than 1 and not more than n, and s is a predetermined coefficient); and outputs the PWM signal having a duty ratio (s·q−V j-1 )/(V j −V j-1 ), a low level V j-1 , and a high level V j . 6. The flow rate measuring device according to claim 5 , wherein the PWM signal generating circuit sets the duty ratio of the PWM signal to a value shifted from (s·q−V j-1 )/(V j −V j-1 ) on a basis of a balance between output impedance of the PWM signal generating circuit and input impedance of the conversion circuit. 7. A flow rate controller comprising: the flow rate measuring device according to claim 1 ; a flow rate control valve; and a control part adapted to control the flow rate control valve so as to bring a measured flow rate measured by the flow rate measuring device close to a predetermined target flow rate.