SU508161A3 - Device for determining breathing parameters - Google Patents

Claims (1)

the house of the differential amplifier 12. The gain due to the circuit 11 is dependent on the co-circuits 9, 10, 17 in 23. The signal output of the amplifier 18 is connected to the connection point 24 of the bridge circuit 3 and to the voltmeter 25, opposite to the specified point, connecting bridge 26 This circuit is grounded. The thermistor compensation circuit 11 at the same time is the thermistor 1's adjustment circuit, and the bridging circuit 3 is the sweep circuit for varying the operating temperature of thermistor 1. The device operates as follows. The initial temperature of the thermistor corresponds to room temperature, while the bridge 3 is not balanced at the beginning. Between points 7 and 8 of the bridge circuit, an output potential difference forms, which is fed to the input of the compensation circuit 11, namely, the input of the AF amplifier 12. Differential amplifier 12 together with the emitter amplifier 18 amplifies the output potential difference of the bridge circuit 3 and serves this amplified the difference between the two other opposite points 24 to 26 of the connection of this circuit. Caused by an increase in the output potential difference, the amplification of the current causes an increase in the temperature of the In thermistor, therefore, an increase in its resistance. This will occur until such time as the bridge balance is balanced, after which the temperature reaches the operating value. By adjusting the resistance 2, the working temperature of the thermistor can be changed within a certain range. Usually, the operating temperature of the thermistor is selected in the 15O-250 ° C grid or within narrower limits (18O-220 ° C). With a balanced bridge circuit, that is, when the temperature of the thermistor has reached the operating range, the output signal of the compensation circuit 11 is reduced to bridge circuit 3 via point 24, so that the working potential difference across the opposite pair of points 24 and 26 of the bridge- connection; Troops 3 and the passage of the options through it in this case do not change during the corresponding period of time. As follows from the above, the temperature regulation of thermistor 1 and the achievement of the operating conditions of the nceii circuit depend on each other and flow very quickly. However, as soon as the operating conditions of the device are reached. (zhvazyvatsya gvovym to change the parameters of breathing. Determining the parameters of breathing is carried out by passing the patient’s exhaled air through a thermistor. Since the working temperature of the thermistor is very high, the passage of 1a through the thermistor causes a temperature drop and, therefore, lower the resistance of the thermistor, which leads to the unbalance of the motor circuit. The output signal of the balance is taken from the opposite points 7 and 8 of the circuit 3 connection and goes to the computer circuit 11 The output signal from which, via point 24, re-enters the bridge circuit and compensates for the thermistor temperature change, returning the bridge circuit to an equilibrium state. Thus, when the device operates, the thermistor temperature is kept constant and equal to the selected operating temperature within a certain range, and The potential difference applied through the opposite points 24 and 26 of the connection of the bridge circuit 3 varies depending on the characteristics., the gas flow, the thermistor 1. It is necessary for The compensation of bridge circuit 3 potential difference is measured by a voltmeter 25, which can be calibrated directly in n & units of breathing parameters. Thus, the flow of patient exhaled gas can be continuously monitored with sufficient accuracy using a voltmeter 25 connected to the output of the compensation circuit. The formula of the invention and the Device for determining the parameters of respiration, containing a thermistor, are required in order to improve the accuracy of determining the maximum ventilation of the lungs and the volume of exhalation, with a load, it is equipped with a thermistor temperature control circuit, its differential sweep pattern operating temperature in the form of a bridge circuit for measuring resistances, in one of the branches of which a thermistor is located, with a compensation circuit for a thermistor with temperature difference and; Dderzhi - constant operating temperature in the form of a differential amplifier with signal inputs connected through the opposite connection points of the bridge circuit, and a direct feedback circuit, an additional M emitter amplifier and poletom.