TE Connectivity Sensors for Non-Invasive Ventilators
sensors, non-invasive, ventilators
TE Connectivity
TE Connectivity Sensors for Non-Invasive Ventilators | TTI Europe
TE Connectivity Sensors for Non-Invasive Ventilators
Not Your Device? Search For Manuals or Datasheets below:
File Info : application/pdf, 2 Pages, 727.57KB
Document DEVICE REPORTsensors-for-non-invasive-ventilatorsNON-INVASIVE VENTILATOR SENSORS Non-Invasive ventilators are life saving devices for patients who are unable to breathe unassisted or need additional oxygen intake. Non-Invasive ventilators pump air with optional supplemental oxygen via a mask that is placed over the patient's mouth and nose. These units may be used in a hospital or as home units. TE Connectivity's (TE) sensor technologies provide highly reliable and accurate measurements for these life critical applications. This offering expands to temperature, humidity, Oxygen and CO2 sensors as well as equipment for motor control. NON-INVASIVE VENTILATOR Motor D A K Fan and O2 Controller Phase Detection Circuit Room Air Filter B G Fan C Oxygen Optional O2 Source Restrictor B Mixer E F Humidifier Patient A J Inhalation Filter H A Exhalation TE CONNECTIVITY ADVANTAGES · Portfolio Breadth · Medical Experience · Manufacturing Scale · Customization Capability A Pressure 0 to 5 cmH2O (flow +300 slpm measured via p) B Pressure 30 to 40 cmH20 C Pressure 35 to 90 PSI D Barometric Air Pressure E Temperature 60 to 120 F F Humidity 33 to 44 mg H2O/L G Rotation 15,000 to 60,000 RPM H CO2 Level 30,000 to 40,000 ppm J O2 Sensors K Position and Vibration NON-INVASIVE VENTILATOR SENSORS Sensor Technology A Pressure SM9000 SM7000 A Pressure LMI LME B Pressure SM6000 C Pressure MS4525 MS4525DO C Pressure HDI C Pressure HMA-Series C Pressure HCLA D Pressure SM11X1 D Pressure MS5611 E Temperature TSYS03 E Temperature 44000 Series E Temperature PTF Family E Humidity and Temperature F HTU31 G Position KMT36H H CO2 Detection TS418 J Oxygen Sensor P19-OXYZ K Position KMA36 K Vibration 820M1 Application · Air flow and respiration control · Filter cleanliness monitoring · Air flow and respiration control · Filter cleanliness monitoring · Fan pressure · Oxygen flow control for compressed air and gas pressure · Oxygen flow control for compressed air and gas pressure · Oxygen flow control for compressed air and gas pressure · Oxygen flow control for compressed air and gas pressure · Barometric compensation · Barometric compensation · Air and gas temperature management · Air and gas temperature management · Air and gas temperature management · Air and gas mixture humidity and temperature management · Fan speed regulation · Exhalation carbon dioxide level measurement · Home therapy devices, medical ventilators, oxygen concentrators Key Product Features · MEMS board mount pressure sensor · Ultra-low pressure ranges as low as 125 Pa · 16-bit digital output · Insensitive to mounting orientation · SMD hybrid ultra low pressure sensor · 25 to 2500 Pa · I2C and SPI outputs · MEMS board mount pressure sensor · Digital or dual (digital and analog) output · ±1% FS accuracy (digital) · Insensitive to mounting orientation · MEMS board mount pressure sensor · Analog or digital output interface · Total error band less than ±1.0% · Various ceramic package configurations available · MEMS board mount pressure sensor · 12-bit ADC · I2C and analog output · +0.5% FS accuracy · MEMS board mount pressure sensor · 12-bit ADC · SPI/I2C and analog output · ±0.75% FS total accuracy · MEMS board mount pressure sensor · Robust to anesthesia · Low pressure as low as 250 Pa · Analog and I2C output, 12-bit ADC · MEMS board mount pressure sensor · Compact SOIC-8 housing · Digital or analog version available · MEMS board mount pressure sensor · I2C and SPI interface up to 20 MHz · Minimal footprint package 5.0 x 3.0 x 1.0 mm3 · Digital temperature measurement · Available in super small 1.5 mm x 1.5 mm package · Resolution up to 0.01°C · Supply voltage range from 2.4 V to 5.5 V · NTC (Negative Temperature Coefficient) thermistor · Miniaturized components · Rapid time response · RTD (Resistance Temperature Detector) sensor · Thin film platinum deposited on ceramic substrate, glass coated · Tube outline available · Dimensions 1.2 x 4.0 x 1.1 mm3 · Digital or analog output available · Fast response time of t63% in 10 sec after condensation · Optional filter membrane for protection · Magnetic angle sensor for precise position feedback for fans and motors · Three bridge signals with 120° phase difference · Accuracy better than ±0.5° · Filter for NDIR CO2 gas detection · 4.26 m narrow band pass · Small TO-18 package · No degradation of sensitivity over time · No short term recalibration or sensor replacement required · Motor speed control · Motor condition monitoring · Magnetic angle sensor with 360° · Digital output with resolution up to 0.01° · Small TSSOP package · Board mountable accelerometer · Amplified analog output · Hermetically sealed LLC package Benefits · Detects minimal changes in pressure · Simplified signal read-out · Easy system integration · System design flexibility · High resolution and accuracy for enhanced system performance · Low power for battery operation · System design flexibility · Reliable and accurate measurements over time · System design flexibility · Reliable and accurate measurements over time · System design flexibility · High accuracy · Reliable and accurate measurements over time · System design flexibility · Reliable and accurate measurements over time · Detects minimal changes in pressure · Simplified signal read-out · Easy system integration · Compact design · System design flexibility · Excellent long-term stability · Fast conversion speed · Low power consumption · Ultra-compact design · Precise digital output · Low power consumption · High sensitivity · Proven long-term stability and reliability · Long-term stability · High electrical insulation · Small dimensions · Humidity and temperature combined · System design flexibility · Environmental robustness · Contactless absolute angular measurement over full 360° · Highly sensitive · Accurate reference sensor · Very high signal · Compact design · Does not consume or chemically alter the gas sample · Immune to vibrations and mounting orientation · Temperature, relative humidity, and barometric pressure data · Contactless · Maintenance free operation · Precise and reliable measurements · Reliable and long-term stable output · Low power consumption te.com/sensors © 2021 TE Connectivity. All Rights Reserved. TE Connectivity, TE, and the TE connectivity (logo) are trademarks of the TE Connectivity Ltd. family of companies. TE-SEN-MED500 04/2021Adobe PDF Library 15.0