Pulse OximetryMedical Solutions from Texas Instruments |
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Pulse OximetryMedical Solutions from Texas Instruments |
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Design ConsiderationsOverviewTI's TMS320VC5505 evaluation module together with TI's pulse oximeter analog front-end module make up the new C5505 PO or SpO2 Medical Development Kit (MDK) which provides developers access to a development tool set that offers a complete signal chain solution along with software to save months of development time and for portable patient monitoring applications that demand battery efficiency. Pulse oximeters measure arterial blood oxygen saturation by sensing absorption properties of deoxygenated and oxygenated hemoglobin using various wavelengths of light. A basic meter is comprised of a sensing probe attached to a patient's earlobe, toe, finger, or other body locations, and data acquisition system for the calculation and display of oxygen saturation level, heart rate, and blood flow. Low-End Portable Pulse OximeterFor low-end designs, TI's family of highly integrated MSP430 Ultra-Low-Power microcontrollers (MCUs) reduces the number of external components needed in the design. Since elements of the signal chain, power management and display driver are integrated into the MCU. Signal Acquisition Challenges: An inverting resistor-feedback configuration is commonly used with the gain amplifier in the signal chain. However, large feedback resistor values may drive extreme output swings with small changes in light intensity due to the sensitivity level of the circuit. Some designs may benefit from driving the output swing down to or below ground. Dual supply Auto-zero trans-impedance amplifiers allow the output swing to ground and single supply devices swing very close to ground. A pull-down resistor tied to -5V allows the output to swing slightly below ground, minimize errors as the output gets very close to 0V. TI offers a family of transimpedance amplifiers that provide extremely high precision, excellent long-term stability, and very low 1/f noise. Mid-Range and High-End Portable Pulse OximetersFor mid and high-end implementations, higher performance processors and higher precision analog components with low supply current could be required. TI's low power DSP technology can eliminate signal distortion caused by other light sources or motion occurring while readings are taken, extracting only the signal of interest. DSP technology allows accurate readings of very low level signals through sophisticated algorithms. This additional processing capability is very useful in pulse oximeters measuring the absorption of additional wavelengths to detect the saturation of other species of hemoglobin. Signal Acquisition Challenges: TI's precision switched integrator transimpedance amplifiers do not have the thermal noise of feedback resistors and do not suffer from stability problems commonly found in transimpedance amps using large feedback resistor. Using one photodiode with two integrator transimpedance amplifiers eliminates dark current and ambient light errors, since errors common to both can be subtracted. Additionally, these amplifiers allow for synchronized sampling at an integer multiple of the AC line frequency, providing extremely high noise rejection. Transimpedance gain can be easily changed by manipulating on-chip settings. Also, TI's high precision ADCs offer small packaging, excellent AC/DC performance, and single-chip solution for measuring photodiodes. In general, Pulse Oximeters require ultra-low power consumption, and low noise power rails; in order to support extended battery life and precision measurements. TI's buck-boost converters provide support for Li-ion battery technologies, and 96% efficiency. For additional low noise power rails, high PSRR LDOs are also available. Requirements for wall-plug and USB-port charging can be addressed with the TI's linear lithium low single-cell charger family. Innovative next-generation gas gauge solutions are offered with "Impedance Track" to automatically learn/detect battery characteristics, extending both battery life and system run time. Application NotesMost useful technical documents for Pulse Oximetry
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| Description | Part # | Company |
| CC1110EM 315MHz Reference Design | CC1110EM315_REFDES | Texas Instruments |
| CC1110EM 433MHz Reference Design | CC1110EM433_REFDES | Texas Instruments |
| CC1110EM 868 and 915MHz Reference Design | CC1110EM868-915_REFDES | Texas Instruments |
| CC1150EM 315-433MHz Reference Design | CC1150EM433_REFDES | Texas Instruments |
| CC1150EM 868-915Mhz Reference Design | CC1150EM868_REFDES | Texas Instruments |
| CC2500 Reference Design (62 mil layer spacing) | CC2500_REFDES_062 | Texas Instruments |
| CC2500EM Reference Design | CC2500EM_REFDES | Texas Instruments |
| CC2511 USB Nano Dongle Reference Design | CC2511NANO_REFDES | Texas Instruments |
| CC2511 USB-Dongle Reference Design | CC2511USB_REFDES | Texas Instruments |
| CC2520EM Reference Design | CC2520EM_REFDES | Texas Instruments |
Most useful technical documents for Pulse Oximetry 
| Name | Part # | Company | Software/Tool Type |
| MSP430FG43X Flash Emulation Tool | MSP-FET430P430 | Texas Instruments | Development Boards/EVMs |
| Pulse Oximeter (PO or SpO2) Analog Front End Module for the C5505 PO or SpO2 Medical Development Kit | TMDXMDKPO8328 | Texas Instruments | Daughter Cards |
| TMS320VC5505 DSP Evaluation Module | TMDXEVM5505 | Texas Instruments | Development Boards/EVMs |
Most useful technical documents for Pulse Oximetry
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