Electrocardiograph (ECG)  Favorite




Electrocardiograph (ECG) monitors are vital tools used by healthcare workers to help identify heart conditions and monitor patient health. These tools monitor the heart by measuring heart cells.

An ECG monitor can range from a handheld device for remote monitoring to a sophisticated patient monitoring system used by hospitals.

Freescale and Monebo Technologies have partnered to create a complete diagnostics ECG solution. The Monebo ECG analysis algorithm is used with Freescale's portfolio of more than 500 MCUs, processors and digital signal controllers.

Read more about electrocardiograph (pdf)

Electrocardiograph (ECG)

Recommended Solutions


Products Features
Microcontrollers (MCU) and Processors (MPU)
i.MX28 Applications Processors: Integrated Power Management Unit (PMU), ARM9™ Core ARM9®, single-core, 454MHz, display, 10/100 ETH, CAN, PMU, <1W
i.MX6S: i.MX 6Solo Processors – Single-Core, Multimedia, 3D Graphics, ARM Cortex-A9 Core ARM® Cortex™-A9, single-core, up to 1GHz, display, graphics, video, 10/100/1000 ETH, CAN, PCIe, PMU
i.MX257: Multimedia Applications Processors - Data Acquisition, User Interaction, Connectivity, ARM9™ Core ARM9® processor, SVGA, 10/100 ETH, CAN, 400 MHz, <1W
i.MX537: Multimedia Applications Processors - HD Video, High-end, advanced applications, ARM® Cortex®-A8 Core VGA, graphics, ETH+CAN, 800 MHz <2W
Kinetis K2x USB Microcontrollers (MCUs) Full and high-speed USB 2.0 On-The-Go, Device charge detect capability and USB crystal-less functionality.
Kinetis K5x Measurement Microcontrollers (MCUs) IEEE® 1588 Ethernet and hardware encryption, full-speed USB 2.0 On-The-Go with device charger detect capability and a flexible low-power segment LCD controller with support for up to 320 segments
Kinetis K6x Ethernet Crypto Microcontrollers (MCUs) IEEE® 1588 Ethernet and full and high-speed USB 2.0 On-The-Go, USB crystal-less functionality
VF5xx: ARM® Cortex®-A5 based Microprocessors with 1.5MB SRAM, LCD, security, 2x Ethernet, L2 switch ARM Cortex-A5 500MHz, 1.5M SRAM, Display, dual 10/100 ETH, dual CAN, PMU, <1W
VF6xx: ARM Cortex-A5 + Cortex-M4 MPUs, 1.5 MB SRAM, LCD, security, Ethernet, L2 switch ARM Cortex-A5 500MHz, Cortex-M4 167MHz, 1.5M SRAM, Display, dual 10/100 ETH, dual CAN, PMU, <1W
Display Diver
MC34844: 10 Channel LED Backlight Driver with Power Supply 10ch, 10-27" display
Keypad or Touch Screen
TSSMCU: Freescale Touch-Sensing for MCUs Xtrinsic touch-sensing Software, converts S08 and ColdFire V1 MCUs into touch sensors
CRTOUCH: Freescale Touch-Sensing Platform, a Ready Play Solution Resistive screen controller with basic gesture recognition, and up to four capacitive touch-sensing electrodes
Power Management
MC34704: Multi-channel Power Management IC (PMIC) Multi-channel Power Management IC
MMPF0100: 14 Channel Configurable Power Management IC I.MX power management IC (PMIC)
MMPF0200: 12 Channel Configurable Power Management IC I.MX power management IC (PMIC)
PF3000: 12-Channel Configurable PMIC For lower-end versions of Cortex-A9 and Cortex-A7 based i.MX application processors
Wireless Communications
KW2x: Kinetis KW2x - 2.4 GHz RF, Analog Mixed Signal, IEEE® 802.15.4, Low Power Microcontrollers (MCUs) Up to 50 MHz Cortex-M4 core with 16-channel-DMA, 512 KB Flash and 64 KB RAM or 256 KB Flash and 32 KB RAM
Advantages
  • Freescale product longevity program offers up to 15-year availability for selected products
  • A spectrum of processors (ColdFire, i.MX and Power Architecture®) in terms of performance and integration
  • Freescale’s Controller Continuum enables development on an 8-bit platform that can then be upgraded to 32-bit platforms as new application needs arise
  • Kinetis K50 family combines integrated measurement engine and high performance Cortex M4™ core up to 100 MHz
  • Dedicated medical peripherals and healthcare connectivity stacks
  • USB, IEEE®802.15.4 and ZigBee® technology solutions for wireless interfaces
  • Pressure sensors packaged specifically for medical applications
  • i.MX MPUs with multimedia acceleration
  • Touch U/I suited for sterile handheld monitors
  • Cost-effective, amplified, small form factor sensors with high sensitivity