System and method of calibration in a powered air purifying respirator
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/02
A62B-018/00
출원번호
US-0269198
(2011-10-07)
등록번호
US-9192795
(2015-11-24)
발명자
/ 주소
Palacharla, Praveen Kumar
Dumpala, Madan Mohan Reddy
Patil, Swapnil Gopal
Shaik, Mehabube Rabbanee
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Conley Rose, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
47
초록▼
A self-calibrating powered air purifying respirator (PAPR). The PAPR comprises an electric motor mechanically coupled to a blower; an air flow sensor, and a controller coupled to the air flow sensor and to the electric motor. The controller is configured to automatically execute a one-time self-cali
A self-calibrating powered air purifying respirator (PAPR). The PAPR comprises an electric motor mechanically coupled to a blower; an air flow sensor, and a controller coupled to the air flow sensor and to the electric motor. The controller is configured to automatically execute a one-time self-calibration by driving the electric motor to a predefined operation point, receiving an indication from the air flow sensor, determining a reference parameter based on the indication from the air flow sensor, and storing the reference parameter, wherein after completion of the one-time self-calibration the controller controls the electric motor based on the stored reference parameter.
대표청구항▼
1. A self-calibrating powered air purifying respirator (PAPR), comprising: an electric motor mechanically coupled to a blower;an air flow sensor; anda controller coupled to the air flow sensor and to the electric motor, wherein the controller is configured to automatically execute a one-time self-ca
1. A self-calibrating powered air purifying respirator (PAPR), comprising: an electric motor mechanically coupled to a blower;an air flow sensor; anda controller coupled to the air flow sensor and to the electric motor, wherein the controller is configured to automatically execute a one-time self-calibration by driving the electric motor to a predefined operation point, receiving an indication from the air flow sensor, determining a reference parameter based on the indication from the air flow sensor, and storing the reference parameter, wherein after completion of the one-time self-calibration the controller controls the electric motor based on the stored reference parameter;wherein the air flow sensor comprises a first probe located in an airflow channel of the PAPR to measure a stagnation pressure in the air flow channel and a second probe located to measure a static pressure in the air flow channel, wherein the all flow sensor develops the indication of air flow that comprises a difference of pressure between the first and second probes; andwherein the reference parameter is based on determining a difference between an initial value of the reference parameter and the indication of air flow, and when the difference exceeds a tolerance value, adding the initial value and the difference. 2. The PAPR of claim 1, further comprising a battery coupled to the electric motor, wherein the PAPR is human portable. 3. The PAPR of claim 2, further comprising a switched mode power supply coupled to the battery, coupled to the electric motor, and coupled to the controller, wherein the electric motor is powered by the switched mode power supply, and wherein the switched mode power supply is controlled by the controller. 4. The PAPR of claim 1, wherein the predefined operation point of the electric motor is one of a predefined pulse width modulation voltage or a predefined pulse width modulation current level. 5. The PAPR of claim 1, wherein storing the reference parameter includes calculating a cyclic redundancy check (CRC) value of the reference parameter and writing the reference parameter value and the CRC value to a memory of the controller. 6. A self-calibrating powered air purifying respirator (PAPR), comprising: an electric motor mechanically coupled to a blower;an air flow sensor, wherein the air flow sensor comprises a first probe located in an air flow channel of the PAPR to measure a stagnation pressure in the airflow channel and a second probe located to measure a static pressure in the airflow channel, wherein the air flow sensor develops an indication of air flow that comprises a difference of pressure between the first and second probe;a controller coupled to the air flow sensor and to the electric motor, wherein the controller is configured to automatically execute a one-time self-calibration by driving the electric motor to a predefined operation point, receiving the indication from the air flow sensor, determining a reference parameter based on the indication from the air flow sensor, and storing the reference parameter, wherein after completion of the one-time self-calibration the controller controls the electric motor based on the stored reference parameter;a battery coupled to the electric motor, wherein the PAPR is human portable; anda switched mode power supply coupled to the battery, coupled to the electric motor, and coupled to the controller, wherein the electric motor is powered by the switched mode power supply, and wherein the switched mode power supply is controlled by the controller;wherein the reference parameter is determined based on the difference between an initial value of the reference parameter and the indication of air flow and when the difference exceeds a tolerance value, the initial value and the difference are added. 7. The PAPR of claim 6, wherein the controller configuration for storing the reference parameter includes calculating a cyclic redundancy check (CRC) value of the reference parameter and writing the reference parameter value and the CRC value to a memory of the controller. 8. A self calibrating powered air purifying respirator (PAPR), comprising: a blower;an electric motor coupled to the blower;an air flow sensor;a controller coupled to the electric motor and to the air flow sensor;wherein evaluation of a calibration state of the powered air purifying respirator is performed automatically by the controller which drives the electric motor to a predefined operation point when the PAPR is in an uncalibrated state;wherein the controller compares a sensor value output to an initial control reference value stored in a memory of the controller to determine a calibrated control reference value which is stored in the memory of the controller; andwherein the controller is configured to control the electric motor based at least in part on the calibrated control reference value stored in the memory when the powered air purifying respirator is in a calibrated state;wherein the air flow sensor determines the calibrated control reference value by subtracting the sensor value output from the initial control reference value and adding the difference to the initial value of the control reference. 9. The PAPR of claim 8, wherein the controller evaluates the calibration state of the powered air purifying respirator by reading the calibration state stored in the memory, and by writing the calibration state to the memory after storing the calibrated control reference value in the memory. 10. The PAPR of claim 8, wherein the controller drives the electric motor to the predefined operation point with a predefined pulse width modulated signal. 11. The PAPR of claim 10, wherein the controller drives the electric motor to the predefined operation point by waiting a predefined period of time for the electric motor to reach the predefined operation point. 12. The PAPR of claim 8, wherein the air flow sensor calculates a first cyclic redundancy check (CRC) value on the initial control reference value and compares the first cyclic redundancy check value to a cyclic redundancy check value stored in the memory before the air flow sensor compares the sensor value output to the initial control reference value. 13. The PAPR of claim 8, wherein the air flow sensor calculates a second cyclic redundancy check value on the calibrated control reference value and stores the second cyclic redundancy check value in the memory.
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