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MSP430F6736IPN

Single-phase Metering SoC with 3 Sigma-Delta ADCs, LCD, Real-Time Clock, 128KB Flash, 8KB RAM 80-LQFP -40 to 85

Manufacturer Texas Instruments
Price Range $6.2600 / $7.1100

Part Details

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Total Inventory

327

Part Number Description Manufacturer Compare
MSP430F6736IPNR Microcontrollers and Processors Single-phase Metering SoC with 3 Sigma-Delta ADCs, LCD, Real-Time Clock, 128KB Flash, 8KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6736IPNR
Part Number Description Manufacturer Compare
MSP430F6721IPN Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 32KB Flash, 2KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6721IPN
MSP430F6723IPNR Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 64KB Flash, 4KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6723IPNR
MSP430F6720IPN Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 16KB Flash, 1KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6720IPN
MSP430F5529IPNR Microcontrollers and Processors 25 MHz MCU with Integrated USB Phy, 128KB Flash, 8KB RAM, 12Bit/14 Channel ADC, 32BIT HW Multiplier 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F5529IPNR
MSP430F6726IPN Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 128KB Flash, 8KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6726IPN
MSP430F6726IPNR Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 128KB Flash, 8KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6726IPNR
MSP430F5529IPN Microcontrollers and Processors 25 MHz MCU with Integrated USB Phy, 128KB Flash, 8KB RAM, 12Bit/14 Channel ADC, 32BIT HW Multiplier 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F5529IPN
MSP430F6736IPNR Microcontrollers and Processors Single-phase Metering SoC with 3 Sigma-Delta ADCs, LCD, Real-Time Clock, 128KB Flash, 8KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6736IPNR
MSP430F6723IPN Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 64KB Flash, 4KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6723IPN
MSP430F6721IPNR Microcontrollers and Processors Single-phase Metering SoC with 2 Sigma-Delta ADCs, LCD, Real-Time Clock, 32KB Flash, 2KB RAM 80-LQFP -40 to 85 Texas Instruments MSP430F6736IPN vs MSP430F6721IPNR

Global Popularity

Popularity in Microcontrollers and Processors

Popularity in Microcontrollers

Popularity by Region

Very High

Medium

Good

Low

  • 1. Australia
    100
  • 2. India
    99
  • 3. HKG
    98
  • 4. United Kingdom
    98
  • 5. Egypt
    98
  • 6. Japan
    96
  • 7. United States of America
    96
  • 8. China
    95
  • 9. Malaysia
    94
  • 10. Sri Lanka
    93

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Texas Instruments $6.2600 Buy Now
  • 2. RS Components $7.1100 Buy Now

Datasheets & Reference Designs

Reference Designs

  • One-Phase Metrology with Enhanced ESD Protection Reference Design
    TIDM-1PHMTR-ESD: This design implements an ANSI/IEC Class 0.2 one-phase energy meter with enhanced ESD protection. The design also features communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F6736A. This reference design can also be used with the MSP430F6736.
  • TIDA-00879 Highly Integrated 4 1/2 Digit Low Power Handheld Digital Multimeter (DMM) Platform Reference Design | TI.com
    TIDA-00879: The TIDA-00879 TI-Design leverages the features, functions, performance, and state-of-the-art low power and power management capabilities of the MSP430F6736 MCU to demonstrate a highly integrated, low cost, and low power Digital Multimeter platform. The solution delivers 4.5 digits or 60K display count resolution, firmware-based True RMS and Real Power measurements, integrated LCD controller/driver subsystem, and over 600 hours of battery life with 3xAAA alkaline batteries, at extremely competitive system level costs.
  • Microcontroller Based Temperature Compensated Real Time Clock Solution
    TIDM-TEMPCOMPENSATED-RTC: This report introduced the methodology to implement an ultra low power real time clock with temperature compensation function in MSP430F6736. This report describes the crystal’s temperature characteristics and posts to use MSP430F6736’s RTC_C module plus software to implement a ultra low power RTC, with automatic temperature compensation feature and second ticks generation function. This report finally builds up reference code which runs in MSP430F6736 and provides test result.
  • TIDM-TEMPCOMPENSATED-RTC Microcontroller Based Temperature Compensated Real Time Clock Solution | TI.com
    TIDM-TEMPCOMPENSATED-RTC: This report introduced the methodology to implement an ultra low power real time clock with temperature compensation function in MSP430F6736. This report describes the crystal’s temperature characteristics and posts to use MSP430F6736’s RTC_C module plus software to implement a ultra low power RTC, with automatic temperature compensation feature and second ticks generation function. This report finally builds up reference code which runs in MSP430F6736 and provides test result.
  • TIDC-EVSE-WIFI Wi-Fi Enabled Level 1 and Level 2 Electric Vehicle Service Equipment Reference Design | TI.com
    TIDC-EVSE-WIFI: The TIDC-EVSE-WIFI verified TI Design details how to implement J1772-compliant level 1 and level 2 electric vehicle service equipment (EVSE) with added Wi-Fi® functionality. The CC3100 network processor enables highly embedded devices like the EVSE to easily connect to an existing wireless network or directly to a device. By integrating this functionality in an EVSE, the design is capable of remote-power monitoring and control of the charging state of the connected electric vehicle.
  • TIDM-1PHMTR-ESD One-Phase Metrology with Enhanced ESD Protection Reference Design | TI.com
    TIDM-1PHMTR-ESD: This design implements an ANSI/IEC Class 0.2 one-phase energy meter with enhanced ESD protection. The design also features communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F6736A. This reference design can also be used with the MSP430F6736.
  • TIDM-SINGLEPHASEMETER Class 0.2 Single-Phase E-meter | TI.com
    TIDM-SINGLEPHASEMETER: This design, featuring the MSP430F6736 device, implements a highly-integrated single-chip electricity metering (e-meter) solution. Hardware and software design files are provided to enable calculation of various parameters for single phase energy measurement, such as RMS current & voltage, active and reactive power and energies, powerfactor and frequency.
  • Class 0.2 Single-Phase E-meter
    TIDM-SINGLEPHASEMETER: This design, featuring the MSP430F6736 device, implements a highly-integrated single-chip electricity metering (e-meter) solution. Hardware and software design files are provided to enable calculation of various parameters for single phase energy measurement, such as RMS current & voltage, active and reactive power and energies, powerfactor and frequency.
  • TIDA-00637 Level 1&2 Electric Vehicle Service Equipment Reference Design | TI.com
    TIDA-00637: This verified TI Design provides the foundation that you need to implement a J1772 compliant Level 1 & 2 electric vehicle service equipment. It showcases safe failure modes using TI’s peripheral drivers along with integrated fault checking. It has a configurable power delivery control and implements self-metering to ensure maximum power delivery to the electric vehicle (EV). It also includes a highly accurate energy meter for $/kWhr based billing models.
  • TIDC-EVSE-NFC NFC Authentication for an EV Charging Station (Pile) Reference Design | TI.com
    TIDC-EVSE-NFC: The TIDC-EVSE-NFC reference design showcases a straightforward integration of TI’s NFC technology with an existing EVSE platform to enable user authentication. The NFC standard comprises many different sub-technologies and working groups, making integration into a specific system difficult. My leveraging the proven reference designs, and certified software in this design, we can ensure that the standards are met, as well as simplify the development process. This design incorporates only basic functionality for an operational system, but the example software included shows how simple it is to integrate NFC into an EVSE design.

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