Medical Solutions
ADI's Healthcare site has moved to www.analog.com/healthcare
ADI offers the industry's broadest portfolio of high performance signal processing solutions for medical applications. Our analog, mixed-signal, embedded processing and MEMS technologies are delivering better resolution in imaging systems; more sophisticated and more portable patient monitoring designs; and more accurate and reliable home monitoring equipment. From analysis to x-ray, from hospital to home, ADI is an experienced supplier of design solutions to medical OEMs around the world.
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ADI in Medical: New / Featured Products: Solution Bulletins and Product Guides: |
Example Applications:
Analog Dialogue
- A Practical Guide to High-Speed Printed-Circuit-Board Layout
- Capacitance Sensors for Human Interfaces to Electronic Equipment
(Analog Dialogue, Vol. 40, October, 2006) - Digital Isolation Offers Compact, Low-Cost Solutions to Challenging Design Problems
(Analog Dialogue, Vol. 40, December 2006) - Low-Power, Low-Voltage IC Choices for ECG System Requirements
(Analog Dialogue, Vol. 29, No. 3, 1995) - The AD9271 - A Revolutionary Solution for Portable Ultrasound
(Analog Dialogue, Vol. 41, July 2007)
Application Notes
Overview
Technical Articles
- A Practical Guide to High-Speed Printed-Circuit-Board Layout
- Biopotential Electrode Sensing in ECG, EMG, and EEG Monitors
- Capacitance Sensors for Human Interfaces to Electronic Equipment
(Analog Dialogue, Vol. 40, October, 2006) - Complete Analog Front End (AFE) for Advanced Ultrasound Equipment
- Digital Isolation Offers Compact, Low-Cost Solutions to Challenging Design Problems
(Analog Dialogue, Vol. 40, December 2006) - Digital X-Ray Technology Improves Patient Experience and Physician Diagnostics
- ECG Detects T-Wave Alternans and Late Potential Waveforms
- Flow Cytometry Blood Analysis Systems
- Healthcare at Home (Part II)
A major trend in medicine is to move treatments and monitoring out of the hospital or even the doctor's office and either attach them to the patient or enable it to be done in the home. What can device designers do to aid this effort and what technologies would help to enable it.
(EDN, February 25, 2008) - High Performance Electrocardiogram (ECG) Signal Conditioning
- ICs for Low Power, Low Cost ECG Holter Monitors Support Standard Medical Wireless Bands
- IEC 60601-1-Compliant Digital Isolators with iCoupler Technology
- Impedance Measurement Blood Analysis Systems
- Impedance Measurement Monitors Blood Coagulation
Analog Dialogue, August 2008 - Integrated Analog Front End (AFE) Contains Eight Ultrasound Receive Channels in a Single IC
- Low Cost, Low Power, High Performance AED
- Low Power Continuous Wave (CW) Doppler for Portable Ultrasound Systems
- Low Power, Low Cost, Wireless ECG Holter Monitor
- Low-Power, Low-Voltage IC Choices for ECG System Requirements
(Analog Dialogue, Vol. 29, No. 3, 1995) - New Components Offer Fexibility in Ultrasound System Design
Ultrasound applications require increasing number of channels, range, sensitivity, and low-noise performance; new ICs offer architectural choices for these tradeoffs.
(Planet Analog, Jan 13, 2009) - Oscillometric Blood Pressure Measurement
- Patient Respiration Measurement Using a 3-Axis Accelerometer
- Piezoresistive Sensing ICs in Portable Infusion Pumps
- Power Distribution for High Performance Medical Imaging Systems
- Processors for Ultrasound Improve Image Quality
Ultrasound equipment is best known for letting expectant mothers follow development of their babies. But many other ultrasound applications go beyond the classical OBGYN experience.
(Medical Design, March 1, 2009) - Programmable Medical Infusion Pumps Offer High Reliability and Performance
- Reduce Noise and Power Levels with Precision Data Acquisition Solution
- Semiconductors: The Heart of Next-Generation Medical Devices
Highly integrated chips are paving the way for smaller, more portable equipment.
(Design News, May 18, 2009) - The AD9271 - A Revolutionary Solution for Portable Ultrasound
(Analog Dialogue, Vol. 41, July 2007) - Understanding Noise Optimization in Sensor Signal-Conditioning Circuits
Planet Analog, a 6-part technical article series- Part 1a: The Basics of Noise in the Signal Chain
- Part 1b: The Various Types of Noise: White (Broadband); Pink (1/f); Popcorn (Burst); Shot; Schottky; and Resistor Noise
- Part 2a: Op Amp Selection and Passive Component Selection
- Part 2b: Bandwidth Selection and Review
- Part 3a: Circuit Noise Analysis and Optimization
- Part 3b: Circuit Noise Analysis and Optimization
- Part 1a: The Basics of Noise in the Signal Chain
- Using a Thermopile Sensor in IR Digital Thermometers
Webinars & Videos
- Webinar: Cleaning Up Signals in a Dirty World: Filtering Considerations for Data Converters
- Webinar: Design and Develop Innovative and Robust Touch Sensor Interfaces Using Capacitive-to-Digital Converters
- Webinar: Enabling the Next Generation of Medical Instrumentation
- Webinar: Noise Optimization in Signal Conditioning Circuits, Part III
- Webinar: Options and Solutions for Sensor Signal Conditioning
- Webinar: Simplify and Reduce Active Filter Design Time
- Webinar: Solving Medical Equipment Signal Path Design Challenges: The Analog Rx
- Webinar: Understanding and Optimizing Sampled Data Systems (Part II)