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Tactile Sensing Solution
Product Guide
THE WORLD扴 MOST SENSITIVE SINGLE, ARRAY & MULTI-POINT
TACTILE SENSING SOLUTIONS
About Us
Pioneers in world抯 most sensitive tactile sensors
TacSense is a high-tech startup company spun
o� from the University of California. The
company strives to address global demands in
tactile sensing in various industries like Health &
Wellness, Medical, and Consumer Electronics.
To address the issues that still remain within
the market demand for high-precision and
ultra-flexible mechanical sensing modalities,
TacSense has pioneered to fill that
innovation gap by providing ultra-sensitive
tactile sensors, flexible human-sensing
interfaces, and wearable health
monitors, in addition to consulting
services with these emerging directions.
TacSense has multiple granted US and
international patents on innovative
tactile sensing solutions and is a
recipient of many prestigious Startup
Awards including the Sacramento
Innovation Award and CES
Innovation Award Honoree for its
technological innovations.
Address: Jin Qi Zhi Gu 1005B,
Nan Shan, Shenzhen, China
Phone: +1(86)0755-8653-5421
About Us
Flexible Iontronic Sensing Technology
TacSense has developed the world抯 most sensitive and flexible tactile sensing technology,
known as the Flexible IonTronic Sensing technology (FITS). It utilizes proprietary ionic materials to
establish an ionic-electronic interface in response to mechanical stimuli. It provides real-time
high-quality noise-immune pressure/force signals in a mechanically flexible, optically transparent,
and ultrathin package.
TacSense抯 FITS innovation enhances the overall tactile sensing industry by providing the best
performance qualities over the competing resistive, piezoelectric, or conventional capacitive
tactile sensors with its high signal-to-noise ratio, high sensitivity, static and dynamic responses,
high flexibility, high transparency, and low manufacturing cost. FITS can also provide a sense of
touch and be integrated into a wide range of conventional surfaces or interfaces, such as
wood, leathers, metals, or plastics, enabling materials or products to become more intelligent.
Tactile Sensing Advantages
Flexible Substrate
V
Flexible Substrate
Electrode
Electrode
IonTronic
Material
Resistive Capacitive Piezoelectric Iontronic
Sensitivity
Signal to Noise
Ratio
Static
Response
Dynamic
Response
Flexibility
Transparency
Manufacturing
Cost
Generation 1st 2nd 3rd 4th
Resistive Capacitive Piezoelectric IonTronic
Sensitivity
Signal to
Noise Ratio
Static
Response
Dynamic
Response
Flexibility
Transparency
Production
Cost
Generations 1st 2nd 3rd 4th
Ultra-sensitive
Noise-resistant
Fast Response
High Stability
High Linearity
Low Cost
Various Materials
Moisture-proof
Integrability
Ultra-flexible, Thin
Wide Range
Transparency
Array Performance
Single & Multi-Point Performance
Characteristics
PA10 PB6
Pressure Range 0-250 mmHg 0-500 mmHg
Sensing Area 10 mm 6 mm
SNR 4000:1
Linearity >99.6%
Repeatability >95%
Sampling Rate 1000 Hz
Response Time <1 ms
Interface I2C, SPI, or UART
Current Consumption 60 mA/ch
Temperature =60?
Mechanical Stability >1,000,000 cycles
TSA
Pressure Range 0-4 Mpa
Sensing Area 12.8x12.8 cm2
Linearity >95%
Repeatability >95%
Sampling Rate 50 Hz
Sensing Pitch 2 mm
Thickness 0.3 mm
Interface I2C, SPI, or UART
Temperature =85?
Mechanical Stability >1,000,000 cycles
Applications
We have configured the innovative tactile sensing architecture for flexible and rapid response
detection. This conf |
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