无法从文档中提取型号,请重试

Update your browser

Your browser (Internet Explorer) is out of date.

Update your browser for more security, comfort and the best experience for this site.

首页 > 元器件选型 > 微控制器和处理器 > 微控制器

MSP430F6638IPZR

加入BOM

MSP430F6638IPZR
已加入BOM:

Texas Instruments

20 MHz MCU with 256KB Flash, 16KB SRAM, 12-bit ADC, 12-bit DAC, comparator, DMA, 160 seg LCD, USB 100-LQFP -40 to 85

市场均价:
¥67.0456
市场总库存:
1,000
生命周期状态: Active
技术详情
价格 & 库存
替代料

CAD 模型信息

模型信息提供方: Samacsys
  • Part Symbol
  • Footprint
  • 3D Model
可下载的格式
Altium Eagle OrCad PADS KiCad
下载 CAD 档案

从 Samacsys 下载 CAD 模型,即表示您同意我们的条款和隐私政策

参考设计

(8)
TIDM-TWOPHASEMETER-I2040 Low-Cost Single/Dual-Phase Isolated Electricity Measurement Reference Design | TI.com
TIDM-TWOPHASEMETER-I2040: The design implements a low-cost single- or dual-phase electricity measurement solution. The design separates a small metrology MCU from the host MCU, providing both protection from the AC mains and also isolation of the energy measurement function from corruption by other software. The small, low-cost metrology MCU achieves IEC/ANSI Class 1 accuracy and calculates active and reactive power and energy. This design is implemented using Current Transformer sensors for single and dual-phase measurement. It can also be easily modified for single-phase measurement with shunt resistor sensors.
TIDM-BPM Ultra Low Power Blood Pressure And Heart Rate Monitor Reference Design | TI.com
TIDM-BPM: This reference design is a demonstration for detecting blood pressure and heart rate. It works in low-power mode(LPM3) and only displays the date and time in most time. User can measure blood pressure by pressing 'measure' button and also can look at historical blood pressure by pressing 'memory' button. The measured records will be stored in EEPROM after measurement complete. The max record number is set as 80.
Low-Cost Two-Phase Electric Meter
TIDM-TWOPHASEMETER-I2040: The design implements a low-cost two-phase electric meter system. This two-chip solution has a metrology processor for calculating metrology parameters and an additional host MCU that has the capability to drive the on-board LCD, add-on communication modules, and USB devices. Isolated communication between the metrology and host MCU is supported by on-board isolators.
Single-Phase E-meter for Single-Chip Metrology, Using an AFE
TIDM-SINGLEPHASEMETER-AFE: This design implements a highly-integrated electricity metering (e-meter) solution. An MSP430F6638 device handles the e-meter application layer, while an MSP430AFE253 is also used as an analog front end to handle the metrology. 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.
Ultra Low Power Blood Pressure And Heart Rate Monitor Reference Design
TIDM-BPM: This reference design is a demonstration for detecting blood pressure and heart rate. It works in low-power mode(LPM3) and only displays the date and time in most time. User can measure blood pressure by pressing 'measure' button and also can look at historical blood pressure by pressing 'memory' button. The measured records will be stored in EEPROM after measurement complete. The max record number is set as 80.
Flow Meter host MCU board with segment LCD and prepayment or dual RF option
TIDM-FLOWMETER-DUALRF: Flow meters are becoming smarter and come with more and more communication options like low power RF or advanced options like prepayment. In addition, flow meter designs require ultra low power and in many cases in conjunction with a segment LCD driver. Typically for mid-end flow meter, the design can consist of one main HOST MCU carrying the metrology, application and communication software. The proposed design allows very quick implementation of a pre-payment function for flow meter application or any other ultra-low power application requiring segment LCD as well. The software enables a ready to be used solution to talk to a pre-payment interface: the SW communicates to the prepayment module and displays the unique corresponding ID onto the segment LCD display. The SW runs on the ultra-low power microntroller featuring a 160 segment LCD driver and can be ported to any other MSP430 microntroller of the family. Alternatively when prepayment is not required, communication on the board can be replaced with any TI sub 1GHz and/or 2.4GHz radios. The design is fully compatible with the TI RF plug-in evaluation modules and can support up to two radios talking to the MCU using SPI interface. This makes this design very suitable for water, gas meters, data collectors and applications which need segment based LCD and radio communication interfaces.
TIDM-METROLOGY-HOST Single-Phase Electric Meter with Isolated Energy Measurement | TI.com
TIDM-METROLOGY-HOST: Electric meter developers often prefer to separate the energy measurement function from the host processor functions such as ANSI/IEC data tables, DLMS/COSEM, tariff management, and communications. This design demonstrates a method for keeping these meter functions separated by using an individual metrology processor and host processor. The firmware supplied with the design manages all of the required functions and synchronization between the processors. The design also demonstrates how to isolate communications between the two processors to achieve the necessary safety requirements. Finally, this design demonstrates a method for meter calibration using the USB interface on an MSP430 MCU. Engineers will be able to more quickly develop smart meters with isolated metrology functions by reusing this reference design.
Single-Phase Electric Meter with Isolated Energy Measurement
TIDM-METROLOGY-HOST: Electric meter developers often prefer to separate the energy measurement function from the host processor functions such as ANSI/IEC data tables, DLMS/COSEM, tariff management, and communications. This design demonstrates a method for keeping these meter functions separated by using an individual metrology processor and host processor. The firmware supplied with the design manages all of the required functions and synchronization between the processors. The design also demonstrates how to isolate communications between the two processors to achieve the necessary safety requirements. Finally, this design demonstrates a method for meter calibration using the USB interface on an MSP430 MCU. Engineers will be able to more quickly develop smart meters with isolated metrology functions by reusing this reference design.
显示更多价格 & 库存吗?

市场价格分析

没有可用的数据

价格走势

库存走势

显示更多替代料吗?

所在列表

列表名称 列表创建时间 纳入型号时间
暂无相关列表
新建BOM