TDK Invensense

Release Date

TDK’s ICP-20100 is the Lowest Power Barometric Pressure Sensor to Achieve NextNav Certification

  • The ICP-20100 ultra-low noise pressure sensor is now in mass production, available from distributors worldwide that carry InvenSense products
  • Perfect fit for 3D location services with its ability to accurately measure a height difference as small as 5cm
  • Suitable for smartphones, tablets, drones, AR/VR, and smart home appliances

June 22, 2022

Release Date

TDK introduces two new high-performance ultrasonic ToF sensors

  • ICU-10201 and ICU-20201 are high performance ultrasonic ToF sensors integrating PMUT (Piezoelectric Micromachined Ultrasonic Transducer) with an ultra-low-power SoC (system on chip) in a miniature 3.5 × 3.5 mm² reflowable package
  • The MEMS sensors provide accurate range measurements at distances up to 5m over a wide and configurable Field-of-View (FoV) on any surface and under any lighting condition
Release Date

TDK announces worldwide availability of a new generation of MEMS barometric pressure sensor platform

  • Ultra-low noise MEMS barometric pressure sensor in a compact footprint
  • Accurately measures a height difference as small as 5cm
  • Suitable for Smart Phones, Tablets, Drones, AR/VR, and Smart Home appliances

September 23, 2021

Release Date

TDK launches 3 new SmartSound™ MEMS microphones

  • T5919, a high performance PDM digital MEMS microphone with built in particle ingress filter (PIF) for harsh environments
  • T3903, a high performance PDM digital MEMS microphone with very low power and wide dynamic range
  • T4086, an analog output MEMS microphone in a tiny 2.75 × 1.85 × 0.9 mm package outline, ideal for very space constrained applications

June 15, 2021

Release Date

TDK announces worldwide availability of the InvenSense ICP-10125 waterproof SmartPressure™ platform

  • Industry’s lowest power waterproof MEMS barometric pressure sensor
  • IPX8 compliant: Waterproof to 10 ATM or more than 100 meters
  • Suitable for smart watches, fitness trackers, and outdoor IoT applications

April 14, 2021

Release Date

TDK introduces revolutionary MEMS-based CO2 gas sensor platform

  • Miniaturized ultra-low power MEMS platform for direct and accurate detec-tion of CO2 in home, automotive, IoT, healthcare and other applications
  • TCE-11101 is housed in a 5 mm x 5 mm x 1 mm 28-pin LGA package
  • Platform offers very wide sensing range (400 ppm to 50,000ppm)

January 7, 2021

Release Date

TDK extends ultrasonic ToF sensor platform for long-range up to 5m

  • The new CH201 Time-of-Flight (ToF) range sensor platform expands on the CH101 product portfolio, and includes CH201 MEMS sensors, sensor modules, and developer kits, all currently available through worldwide distribution.
  • Extends accurate range measurements for distances up to 5m over a wide and configurable Field-of-View (FoV) in any lighting condition.
Release Date

TDK announces ultra-high AOP Analog MEMS microphone, ICS-40638

  • High-performance microphone offering 138dB SPL AOP
  • Enabling clear audio capture in loud and noisy conditions
  • Extended frequency response from 35 Hz to 20kHz

August 5, 2020

Release Date

TDK announces world’s lowest-power PDM microphone, T3902

  • T3902 is a 64.5dB SNR/120dB AOP digital microphone in a 3.5 x 2.65 x 0.98 mm package, optimized for mobile devices, wearables, headsets, TV remotes and more
  • High performance microphones offer high SNR at a frequency bandwidth up to 20kHz and very low power (AlwaysOn) 185 µA ultra-low power mode
  • Supports far-field communication (video and phone conference) while ena-bling clear audio capture in loud conditions

June 16, 2020

Release Date

TDK announces fault tolerant motion sensing product family for industrial applications

  • A family of 6-axis Industrial IMUs offers 1.9 deg/hr gyroscope bias instability, fault tolerance and micro-second accurate time stamping features.
  • Using ultra-low noise sensors, IIM-46234 and IIM-46230 products deliver precise measurements, even in harsh environments.
  • Innovative hardware and software design deliver industry-leading redundancy and early warning capabilities to avoid operational disruption.