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Smart Healthcare | Cypress Semiconductor

Smart Healthcare

Smart Healthcare

Smart_Healthcare 1004X

The foundation of smart healthcare is built on intelligent, low-power, wirelessly connected medical devices. These devices continuously measure, process, capture and protect the biometric data collected by sensors including heart rate, respiratory rate, skin temperature and motion. The recorded information is then wirelessly transferred to the cloud for personal and professional analysis.

Technology Powering Leading Brands

Wireless Hearing Aid System Level Diagram

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PSoC® 4000: Entry-level MCU

PSoC® 4000 is a scalable, reconfigurable, cost-optimized, entry-level Arm® Cortex®-M0 MCU. It combines programmable and reconfigurable analog and digital blocks with flexible automatic routing.

PSoC 4000 Solution

  • Industry’s Best CapSense® including liquid-tolerant capacitive touch interface.
  • Low power operation from 1.71V to 5.5V
  • Programmable analog and digital blocks for a customizable solution

Key Product Features

  • AEC Q100 qualified
  • Up to 10-bit, 11.6 Ksps ADC
  • CapSense block supporting mutual-capacitance sensing
  • Up to 36 GPIO

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Bluetooth® Controller

Cypress' Bluetooth® portfolio consists of Bluetooth Low Energy - only and dual-mode Bluetooth solution that supports Bluetooth Classic i.e. Basic Rate (BR) and Enhanced Data Rate (EDR) as well as Bluetooth Low Energy. Cypress' Bluetooth Low Energy portfolio consists of WICED® SMART, PSoC® 4 Bluetooth Low Energy and PSoC 6 Bluetooth Low Energy System-on-Chip (SoC) devices and System-in-Package (SiP) modules. The Cypress dual-mode Bluetooth portfolio includes Bluetooth 5.0 core specification-compliant, BR + EDR + Bluetooth Low Energy devices and modules that integrate Bluetooth standard profiles and protocols for embedded applications. All of Cypress' Bluetooth Modules are fully integrated, fully certified, programmable modules designed for ease-of-use and reducing time-to-market.

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EXCELON Auto

Instant non-volatility and High-reliability with automotive quality and Functional Safety compliance.

Wireless Hearing Aid Design Challenges

  • Maximize battery life of the wireless hearing aid, by ensuring usage of the lowest energy components.
  • Ensure sufficient nonvolatile memory density and write-cycle endurance to log data continuously over the lifetime of the device.
  • Ensure use of the smallest-footprint components to deliver the smallest form-factor medical device.

Excelon LP Solution

  • Uses 200 times less energy than EEPROM and 3,000 times less energy than NOR Flash.
  • Available in densities up-to 8Mb and provides endurance of 1000-trillion write cycles, which can support logging of data every millisecond, for more than 3,000 years.
  • Offers small footprint GQFN package.

Key Product Features

  • Active Current: 0.6 mA @ 8-MHz
  • Standby Current: 1 uA
  • Hibernate Current: 0.1 uA
  • Write Endurance: 1000-trillion write cycles
  • Small footprint: ~10mm2 8-pin GQFN package

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Click the sign on the Excelon F-RAM chip icon to learn how Excelon enables instant and reliable data-capture in Wireless Hearing Aid System.

Glucose Meter System Level Diagram

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Bluetooth® Controller

Cypress' Bluetooth® portfolio consists of Bluetooth Low Energy - only and dual-mode Bluetooth solution that supports Bluetooth Classic i.e. Basic Rate (BR) and Enhanced Data Rate (EDR) as well as Bluetooth Low Energy. Cypress' Bluetooth Low Energy portfolio consists of WICED™ SMART, PSoC® 4 Bluetooth Low Energy and PSoC 6 Bluetooth Low Energy System-on-Chip (SoC) devices and System-in-Package (SiP) modules. The Cypress dual-mode Bluetooth portfolio includes Bluetooth 5.0 core specification-compliant, BR + EDR + Bluetooth Low Energy devices and modules that integrate Bluetooth standard profiles and protocols for embedded applications. All of Cypress' Bluetooth Modules are fully integrated, fully certified, programmable modules designed for ease-of-use and reducing time-to-market.

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PSoC® Analog Coprocessor

Cypress' PSoC® Analog Coprocessor simplifies the design of sensor-based systems by delivering a scalable and reconfigurable architecture that integrates programmable analog front ends (AFEs) and a signal processing engine (32-bit Arm® Cortex®-M0+) that can calibrate and tune the AFE in software.

The PSoC Analog Coprocessor enables designs to send aggregated, pre-processed, and formatted sensor data over serial communication interfaces to host processors.

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PSoC® 4

PSoC® 4 has tackled some of the complex portions of embedded system design making it easier for you to get your product to market. Functions such as analog sensor integration, capactitive touch, and wireless connectivity have been integrated and optimized in PSoC 4 to “just work” so you don’t have to.

Achieve ultimate flexibility in your design with Cypress’ software-defined peripherals embedded in the PSoC 4 architecture. Configure these peripherals using pre-built library functions or create your own using the programmable architecture inside of PSoC 4 devices:

  • Capacitive Sensing
  • Programmable Analog Blocks
  • Programmable Digital Blocks
  • Wired and Wireless Connectivity

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