MEDICAL

Application Resources

ManufacturerProduct TypeAN TitleURL
HONEYWELLSensorsInteractive Medical Devices Selector Guide  Click here
NXP ProcessorNXP Solutions for Electrocardiograph and Heart Rate Monitor ApplicationsClick here
NXP MCUHeart Rate Monitor and Electrocardiograph Fundamentals Click here
NXP  Connecting Low-Cost External Electrodes to MED-EKG Click here
TEXAS INSTRUMENTSMCUEKG-Based Heart-Rate Monitor Implementation on the LaunchPad Using MSP430G2452 (Rev. A)Click here
TEXAS INSTRUMENTSDSPECG Implementation on the TMS320C5515 DSP Medical Development KitClick here
TEXAS INSTRUMENTSADCAnalog Front-End Design for ECG Systems Using Delta-Sigma ADCs (Rev. A)Click here
TEXAS INSTRUMENTSMCUHeart-Rate and EKG Monitor Using the MSP430FG439 (Rev. A)Click here
TEXAS INSTRUMENTSAFEImproving Common-Mode Rejection Using the Right-Leg Drive Amplifier Click here
TEXAS INSTRUMENTSAFEThermal Noise Analysis in ECG ApplicationsClick here
TEXAS INSTRUMENTSAFERespiration Rate Measurement Using Impedance Pneumography    Click here
TEXAS INSTRUMENTSTouch Screen ControllerHow to Use TI's 4-Wire TSC to Control an 8-Wire Resistive Touch ScreenClick here
TEXAS INSTRUMENTSTouch Screen ControllerOperation Schemes of Touch Screen Controllers Click here
TEXAS INSTRUMENTSTouch Screen ControllerWhat Designers Should Know About Data Converter Drift   Click here
TEXAS INSTRUMENTS MCUUsing power solutions to extend battery life in MSP430 applicationsClick here
TEXAS INSTRUMENTS MCUMSP430 32-kHz Crystal Oscillators (Rev. B)Click here
TEXAS INSTRUMENTS MCUGrayscale and Dot-Corrected LED Display Using TLC5941 (Rev. A)Click here
TEXAS INSTRUMENTS MCUDriving Large LCDs with LCD Peripheral of the MSP430Click here
NXP MCUBlood Pressure Monitor Using Flexis QE128 App Note (pdf) Click here
NXP MCULow-Power Design Enabled by MC9S08QE128 and MCF51QE128 Flexis MicrocontrollersClick here
MICROCHIP MCUAN1267 - nanoWatt & nanoWatt XLP(TM) Technologies: An Introduction to Microchip's Low Power devicesClick here
MICROCHIP MCUAN1095 - AN1095, Emulating Data EEPROM for PIC18 and PIC24 MCUs and dsPIC DSCsClick here
MICROCHIP MCUAN1044 - Data Encryption Routines for PIC24 and dsPIC DevicesClick here
ANALOG DEVICES AmplifierLow-Power, Low-Voltage IC Choices for ECG System Requirements Click here
TEXAS INSTRUMENTSAFEThermal Noise Analysis in ECG ApplicationsClick here
TEXAS INSTRUMENTSAFEThermal Noise Analysis in ECG ApplicationsClick here
TEXAS INSTRUMENTS ProcessorPulse Oximeter Implementation on the TMS320C5515 DSP Medical Development KitClick here
TEXAS INSTRUMENTS AmplifierImproving Common-Mode Rejection Using the Right-Leg Drive Amplifier Click here
TEXAS INSTRUMENTS AFERespiration Rate Measurement Using Impedance Pneumography  Click here
TEXAS INSTRUMENTS ProcessorOMAP35x to AM37x Hardware Migration GuideClick here
TEXAS INSTRUMENTS ProcessorOMAP35x to AM35x Hardware Migration Guide  Click here
ANALOG DEVICEDSPEE-349: ADSP-2146x Board Design Guidelines for DDR2 Memory Click here
ANALOG DEVICEDSPUsing the On-Chip Thermal Diode on Analog Devices ProcessorsClick here
ANALOG DEVICEDSPEE-286: Interfacing SDRAM Memories to SHARC Processors (Rev 5, 11/2010) Click here
TEXAS INSTRUMENTSDSPUsing the TMS320C6748/C6746/C6742 Bootloader (Rev. E)Click here
TEXAS INSTRUMENTSDSPTMS320C6457 Power Consumption Application Report (Rev. A)Click here
TEXAS INSTRUMENTSDSPTMS320C6457/TMS320TCI6484/TMS320TCI6487/88 DDR2 Implementation Guidelines (Rev. D)Click here
TEXAS INSTRUMENTSDSPTMS320C6000 EMIF-to-External SDRAM Interface (Rev. E)Click here
NXP Imaging Processori.MX51 Power-Up SequenceClick here
TEXAS INSTRUMENTSImaging ProcessorRecommended Power Solutions for TMS320x2810/1/2 DSPsClick here
TEXAS INSTRUMENTSImaging ProcessorOMAP3530 Power Consumption SummaryClick here
TEXAS INSTRUMENTS Imaging ProcessorBooting and Flashing via the DaVinci TMS320DM644x Serial InterfaceClick here
TEXAS INSTRUMENTS Imaging ProcessorCreating a TMS320DM6446 Audio Encode Example Using XDC Tools Click here
ANALOG DEVICES DSPPower Mode Transition Times of Blackfin® ProcessorsClick here
NXP DSPPorting and Optimizing DSP56800 Applications to DSP56800EClick here
NXP DSPSoftware Compatibility Considerations for HCS12, HC16 and 56800/E DevicesClick here
NXP DSPSynchronizing the On-Chip Analog-to-Digital Converter on 56F80x DevicesClick here
NXP DSPProgramming On-Chip Flash Memories of 56F80x Devices Using the JTAG/OnCE InterfaceClick here
NXP DSPDSP56800 Hardware Interface TechniquesClick here
NXP DSPUsing Program Memory As Data MemoryClick here
NXP MCU/MPUi.MX51 Power-Up SequenceClick here
TEXAS INSTRUMENTSADCConnecting ADS8410/13 With Long CableClick here
TEXAS INSTRUMENTSADCInterfacing the ADS8401/ADS8411 to TMS320C6713 DSPClick here
TEXAS INSTRUMENTSADCHigh Speed Data ConversionClick here
TEXAS INSTRUMENTSADCUsing ADS8411 in a Multiplexed Analog Input ApplicationClick here
TEXAS INSTRUMENTSAmpSingle-Supply Operation of operational AmplifiersClick here
TEXAS INSTRUMENTSAmpCompensate Transimpedance Amplifiers IntuitivelyClick here
TEXAS INSTRUMENTSAmpDigitally Programmable, Time-Continuous Active FilterClick here
TEXAS INSTRUMENTSAmpFully differential amplifiers applications: Line termination, driving high-speed ADCs, and differential transmission linesClick here
TEXAS INSTRUMENTSDSPTMS320C6455/C6454 Power Consumption SummaryClick here
TEXAS INSTRUMENTSDSPTMS320C6455 Design Guide and Comparisons to TMS320TC6416TClick here
TEXAS INSTRUMENTSDSPTMS320C645x DSP 64-Bit Timer User’s GuideClick here
TEXAS INSTRUMENTSDSPTMS320C6472 5-V Input Power Design, Integrated FET DC/DC Converters and Controllers (8x C6472)Click here
TEXAS INSTRUMENTSDSPTMS320C6472/TMS320TCI6486 Hardware Design GuideClick here
TEXAS INSTRUMENTSDSPTMS320C6472/TMS320TCI6486 DSP Shared-Memory ControllerClick here
TEXAS INSTRUMENTSDSPTMS320C6472/TMS320TCI6486 DSP Power/Sleep ControllerClick here
TEXAS INSTRUMENTSDSPHow to Approach Inter-Core Communication on TMS320C6474Click here
TEXAS INSTRUMENTSDSPTMS320C6474 DDR2 Implementation GuidelinesClick here
TEXAS INSTRUMENTSDSPHardware Design Guidelines for TMS320F28xx and TMS320F28xxx DSCsClick here
TEXAS INSTRUMENTSDSPRecommended Power Solutions for TMS320x2810/1/2 DSPsClick here
TEXAS INSTRUMENTSMCU/MPUOMAP3530 Power Consumption SummaryClick here
ManufacturerProduct TypeWhite Paper TitleURL
ALPHAWire & CableStop the Noise: Importance of being properly shielded  Click here
ALTERAFPGAsMedical Imaging Implementation Using FPGAs whitepaper  Click here
ALTERAFPGAsIncrease Bandwidth in Medical & Industrial Applications With FPGA Co-Processors whitepaper  Click here
ANALOG DEVICESICsMicropower ICs take the heartburn out of heart rate monitor designs  Click here
TDK-LAMBDAPower SuppliesWhat To Look For In A Medical Power Supply  Click here
TDK-LAMBDAPower SuppliesSwitchmode power supplies meet EMC demands and more  Click here
TEXAS INSTRUMENTSEmbeddedMulticore processors bring innovation to medical imaging  Click here
TEXAS INSTRUMENTSMCUThe ultra-low-power USB revolution Click here
TEXAS INSTRUMENTSMCULow-Power FRAM Microcontrollers and Their ApplicationsClick here
TEXAS INSTRUMENTSMCUThe ultra-low-power USB revolution Click here
TEXAS INSTRUMENTSMCULow-Power FRAM Microcontrollers and Their ApplicationsClick here
TEXAS INSTRUMENTSProcessorAn Overview of TI's Digital Video Software Development Kit  Click here
TEXAS INSTRUMENTSProcessorDesign Considerations When Choosing an OS for ARM Based MPU's Click here
TEXAS INSTRUMENTS ProcessorIntroduction to Graphics Software Development for OMAP 2/3 - White Paper Click here
TEXAS INSTRUMENTS ProcessorProgramming Details of Codec Engine for DaVinci Technology Whitepaper Click here
TEXAS INSTRUMENTS ProcessorReaping the Benefits of SoC Processors for Video Applications White PaperClick here
TEXAS INSTRUMENTS ProcessorARM The Cortex-A8 Microprocessor - White Paper Click here
TEXAS INSTRUMENTS ProcessorAn overview of TI's Multicore Software Development Kit Click here
TEXAS INSTRUMENTS DSPTI's new C66x Fixed- and Floating-Point DSP Core Conquers the 'Need for Speed'Click here
TEXAS INSTRUMENTS DSPTMS320C6472 Six Core DSP: Ideal for High Performance ApplicationsClick here
TEXAS INSTRUMENTS DSPThe future of medical imagingClick here
TEXAS INSTRUMENTS DSPSee the difference:DSPs in medical imagingClick here
TEXAS INSTRUMENTSImaging ProcessorDesign Considerations When Choosing an OS for ARM Based MPU's Click here
TEXAS INSTRUMENTSImaging ProcessorIntroduction to Graphics Software Development for OMAP 2/3 - White Paper Click here
OSCINTLLight PipeEndoscope Illumination and Light Pipes with FRED White PaperClick here
XILINXFPGAUsing Xilinx FPGAs to Solve Endoscope System Architecture ChallengesClick here
Versatile PowerLight SourceA Laser Light Source For EndoscopyClick here
TEXAS INSTRUMENTS The future of medical imaging Click here
ALTERAFPGAFPGA Co-Processing Solutions for High-Performance Signal Processing ApplicationsClick here
ALTERAFPGAMedical Imaging Implementation Using FPGAsClick here
TEXAS INSTRUMENTSDSPMulticore processors bring innovation to medical imagingClick here
TEXAS INSTRUMENTSDSPSee the difference: DSPs in medical imagingClick here
TEXAS INSTRUMENTSDSPHD Video Encoding with DSP and FPGA PartitioningClick here
TEXAS INSTRUMENTSDSPEmbedded processors for medical imagingClick here
TEXAS INSTRUMENTSDSPLow power consumption and a competitive price tag make the six-core TMS320C6472 ideal for high-performance applicationsClick here
TEXAS INSTRUMENTSDSPEnabling Greener Embedded Control Systems with Floating-Point DSCsClick here
TEXAS INSTRUMENTSMPUIntroduction to Graphics Software Development for OMAP™ 2/3Click here
TEXAS INSTRUMENTSMPUSmartReflex™ Power and Performance Management Technologies: reduced power consumption, optimized performanceClick here
ManufacturerProduct TypeTraining TitlePart NumberURL
KEYSIGHT TECHNOLOGIES Analyzer8 Hints for Better Spectrum AnalysisClick here
ALPHA Wire & CableMedical Devices Wire and Cable PortfolioClick here
Broadcom Drivers, Optocouplers, EncodersBroadcom Technology Solutions for MRI/CAT Scan SystemsClick here
AVXVariousAVX Block Diagrams for Medical Applications Click here
BELDENWire & CableHealthcare Solutions Click here
IRVariousIR Product Solutions for Medical Applications Click here
KEITHLEY INSTRUMENTSTest InstrumentsAchieving Fast Pulse Measurements for Today's High Power Devices Click here
LUMEXLEDsDesigning for the Medical IndustryClick here
TDK-LAMBDA PowerTDK-Lambda's EFE300M digital power supplies meet latest medical approvals  Click here
TEXAS INSTRUMENTS EmbeddedMedical Applications GuideClick here
ANALOG DEVICES MCUUsing Integrated Precision Analog Microcontrollers to Simplify Data Acquisition System DesignADuC702x  Click here
NXP MCUHow to Create a Heart Rate Monitor and One-Lead EKGClick here
NXP MCUHealth Care Devices for the Elderly using NXP Technology Click here
NXP  Medical Device Communications: USB and Zigbee®Click here
TEXAS INSTRUMENTSAFEGetting Started With the ADS1298ECGFE-PDKADS1298Click here
TEXAS INSTRUMENTSAFEComplete Analog Front End for ECG/EEG ADS1298Click here
TEXAS INSTRUMENTSMCUPortable Medical- Smaller, Smarter, MSP430 MSP430 Click here
TEXAS INSTRUMENTSMCUMSP430 in Utility Metering Applications MSP430 Click here
ANALOG DEVICESAccelerometerLow g iMEMS® AccelerometersClick here
ANALOG DEVICES MCUUsing Integrated Precision Analog Microcontrollers to Simplify Data Acquisition System DesignADuC702x  Click here
NXP  Medical Device Communications: USB and Zigbee®Click here
NXP SEMICONDUCTOR AccelerometerLow-g Accelerometers Part 1 – Basic Knowledge of AccelerometersClick here
NXP AccelerometerLow-g Accelerometers Part 2 – Accelerometer Products and ApplicationsClick here
NXP MCUHealth Care Devices for the Elderly using NXP Technology Click here
TEXAS INSTRUMENTSMCUPortable Medical- Smaller, Smarter, MSP430 MSP430 Click here
TEXAS INSTRUMENTSMCUMSP430 in Utility Metering Applications MSP430 Click here
ANALOG DEVICEProcessorBlackfin Processor Core Architecture Part 1Click here
ANALOG DEVICEProcessorBlackfin Processor Core Architecture Part 2Click here
ANALOG DEVICEProcessorBlackfin Processor Core Architecture Part 3Click here
ANALOG DEVICEAmplifierHigh Speed Operational AmplifierClick here
NXPProcessori.MX31: Multimedia Application Processorsi.MX31Click here
NXPProcessorIntroducing i.MX233 Application Processorsi.MX233Click here
NXPProcessorIntroduction to i.MX27 Multimedia Applications Processorsi.MX27Click here
NXPProcessori.MX51 Multimedia Applications Processorsi.MX51 Click here
NXPProcessorAn Introduction to very low power 16-bit Digital Signal ControllersClick here
NXP MCUHow to Create a Heart Rate Monitor and One-Lead EKGClick here
NXP MCUHealth Care Devices for the Elderly using NXP Technology Click here
NXP  Medical Device Communications: USB and Zigbee®Click here
TEXAS INSTRUMENTSAFEGetting Started With the ADS1298ECGFE-PDKADS1298Click here
TEXAS INSTRUMENTSAFEComplete Analog Front End for ECG/EEG ADS1298Click here
TEXAS INSTRUMENTS AFEMedical Development Kit - Pulse Oximeter Analog Front End Module DemoClick here
ALTERAFPGACyclone III FPGA Overview Part1Cyclone IIIClick here
ALTERAFPGACyclone III FPGA Overview Part2Cyclone IIIClick here
ALTERAFPGAStratix FPGA OverviewStratixClick here
ALTERAFPGACyclone II FPGA OverviewCyclone IIClick here
LATTICE SEMICONDUCTORFPGAPower Saving Design Techniques with Low Cost FPGAsClick here
TEXAS INSTRUMENTSImaging ProcessorOverview of the TMS320DM355 IP Network Camera...TMS320DM355Click here
NXPImaging Processori.MX31: Multimedia Application Processorsi.MX31Click here
ANALOG DEVICEProcessorBlackfin Processor Core Architecture Part 1Click here
ANALOG DEVICEProcessorBlackfin Processor Core Architecture Part 2Click here
ANALOG DEVICEProcessorBlackfin Processor Core Architecture Part 3Click here
NXPProcessorIntroduction to i.MX27 Multimedia Applications Processorsi.MX27Click here
NXPProcessori.MX51 Multimedia Applications Processorsi.MX51 Click here
ANALOG DEVICEAmplifierHigh Speed Operational AmplifierClick here
ALTERAFPGACyclone III FPGA Overview Part1Cyclone IIIClick here
ALTERAFPGACyclone III FPGA Overview Part2Cyclone IIIClick here
TEXAS INSTRUMENTSProcessorIntro to Power Estimation Tool for AM35x Sitara and OMAP35xOMAP35xClick here
TEXAS INSTRUMENTSProcessorIntroduction to Codec EngineClick here
TEXAS INSTRUMENTSDSPDifferences and enhancements from C6455 to the new C6474C6455Click here
TEXAS INSTRUMENTSProcessorAchieving 720p encode/decode performance on OMAP3OMAP3Click here