Details, datasheet, quote on part number: MSP430F2121IDW
PartMSP430F2121IDW
CategorySemiconductors => Microcontrollers (MCU) => MSP430 ultra-low-power MCUs => MSP430F2x/4x
Part familyMSP430F2121 16-bit Ultra-Low-Power Microcontroller, 4kB Flash, 256B RAM, Comparator
Description16-bit Ultra-Low-Power Microcontroller, 4kB Flash, 256B RAM, Comparator 20-SOIC -40 to 85
CompanyTexas Instruments, Inc.
StatusACTIVE
ROHSY
SampleNo
DatasheetDownload MSP430F2121IDW datasheet
Quote
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PackagesPLASTIC 20-PIN SOWB
Specifications 
ADCSlope
MultiplierN/A
Operating Temperature Range(C)-40 to 105,-40 to 85
Package GroupSOIC,TSSOP,TVSOP,VQFN
Timers - 32-bit0
Timers - 16-bit1
Frequency(MHz)16
Non-volatile Memory (KB)4
RatingCatalog
UART0
Wakeup Time (us)1
AESN/A
Min VCC1.8
FeaturesWatchdog,Brown Out Reset
Max VCC3.6
DMA0
Approx. Price (US$)0.90 | 1ku
Standby Power (LPM3-uA)0.7
GPIO Pins(#)16
SPI0
Special I/ON/A
BSLUART
Active Power (uA/MHz)250
RAM(KB)0.25
I2C0
CPUMSP430
Comparators(#)Yes
  Mecanical Data
Pin nbPackage typeInd stdJEDEC codePackage qtyCarrierDevice markWidth (mm)Length (mm)Thick (mm)Pitch (mm)
20DWSOICR-PDSO-G25TUBEM430F2121 7.512.82.351.27
Application notes
• MSP430 SMBus
This application report describes a software implementation of the system management bus (SMBus) for the MSP430 microcontroller. It includes all master protocols, an interrupt-driven slave, and master usage examples. SMBus is derived from the I2C and is co | Doc
• Migrating from the MSP430F2xx,G2xx Family to the MSP430FR58xx/FR59xx/68xx/69xx (Rev. E)
This application report enables easy migration from MSP430F2xx flash-based MCUs to the MSP430FR58xx/FR59xx/68xx/69xx family of FRAM-based MCUs. For the migration guide to MSP430FR57xx, see Migrating From the MSP430F2xx Family to the MSP430FR57xx Family. It | Doc
• MSP430 Isolated FET Interface
This application report describes how to build an isolated FET interface for the MSP430 Flash Emulation Tool (FET). When developing and debugging line-powered MSP430applications such as motor control, electricity energy meters, power monitoring systems etc | Doc
• HDQ Protocol Implementation with MSP430 | Doc
• FSK Modulation and Demodulation With the Microcontroller MSP430
This application report describes a software program for performing V.23 FSK modem transceiver functions using an MSP430 microcontroller. It makes use of novel filter architecture to perform DSP functions on a processor with only shift and add capabilities | Doc
• MSP430 32-kHz Crystal Oscillators (Rev. D)
Selection of the right crystal, correct load circuit, and proper board layout are important for a stable crystal oscillator. This application report summarizes crystal oscillator function and explains the parameters to select the correct crystal for ultra- | Doc
• Powering the MSP430 from a High Voltage Input using the TPS62122 (Rev. C) | Doc
• Generation and Recognition of DTMF Signals With the Microcontroller MSP430
The first part of the Application Report describes the generation of DTMF signals using the Microcontroller MSP430. Following an explanation of the most important specifications which are involved, the theoretical and mathematical processes will be discuss | Doc
• Advanced Debugging Using the Enhanced Emulation Module (EEM) With CCS v6 (Rev. F) | Doc
• Simple 1.5 V Boost Converter for MSP430
A simple, efficient, low-cost, boost converter to take 1.5 V from a single type-AA alkaline battery to the operating voltage required by the MSP430 family of ultralow-power microcontrollers is described. Expected battery life is up to 1000 hours. | Doc
• Efficient MSP430 Code Synthesis for an FIR Filter
Digital filtering can be easily accomplished on the MSP430 using efficient multiplication. The tool accompanying this document automatically converts FIR filter coefficients to MSP430 assembly code that can be used in any application. Horner’s method and | Doc
• Wave Digital Filtering Using the MSP430
Digital filtering is an integral part of many digital signal processing algorithms. Digital filters are characterized as either recursive [infinite impulse response (IIR)] or non-recursive [finite impulse response (FIR)] filters. IIR filters require a smal | Doc
• MSP Code Protection Features
MSP microcontrollers (MCUs) offer a number of features to help control code accessibility in the device, to add different layers of code access management and protection strategies. These include features that can lock or password protect the JTAG/SBW acce | Doc
• Economic Voltage Measurement With the MSP430 Family
This application report describes voltage and current measurement methods using the MSP430 universal timer/port module. The report explains the two measurement methods (charge and discharge) and shows how to measure voltage and current. The equations for t | Doc
• 1.8V – 5.5V Input, High-Efficiency DCDC Converter Reference Design for MSP430 (Rev. B)
This reference design is presented to help application designers and others who are trying to use the MSP430 in a system with an input voltage in the range of 1.8 V to 5.5 V, and who must increase the application run time by making use of the complete batt | Doc
• Design Considerations When Using the MSP430 Graphics Library
LCDs are a growing commodity in todays market with products as diverse as children's toys to medical devices. Modern LCDs, along with the graphics displayed on them, are growing in complexity. A graphics library can simplify and accelerate development whil | Doc
• Digital Fan Control With Tachometer Using MSP430
Digital Fan Control with Tachometer using MSP430 Application Report | Doc
• Migrating From MSP430F2xx, MSP430G2xx Families to MSP430FR4xx/FR2xx Family (Rev. D)
This application report helps to ease the migration from MSP430F2xx flash-based MCUs to the MSP430FR4xx/FR2xx family of FRAM-based MCUs. It discusses programming, system, hardware, core architecture, and peripheral considerations. The intent is to highligh | Doc
• Spread-Spectrum Clock Source Using an MSP430
While spread-spectrum clocking has long since been used in processor and memory clock trees, there are many other clocked systems, such as power supplies or switch-mode amplifiers, that continue to use a single-frequency clock. This can, in turn, generate | Doc
• Using the TPS3619 with MSP430 Microcontrollers Can Reduce Sys Power Consumption (Rev. A)
The MSP430 series of microcontrollers are ideal in applications where battery life is critical. These microcontollers require only 0.1?A of current in low-power RAM retention mode; In this mode the microcontroller must have power to retain volatile memor | Doc
• Tiny DCDC Converter Reference Design (Rev. A)
This reference design is presented to help application designers and others who are trying to use the MSP430 in a system with an input voltage in the range of 3.6 V to 6 V with the primary design objective to minimize solution size as well as to maintain h | Doc
• AES128 – A C Implementation for Encryption and Decryption (Rev. A)
This application report describes the AES algorithm and the use of a suggested C implementation for AES encryption and decryption with MSP430.Note: This document may be subject to the export control policies of the local government. | Doc
• Interfacing TMS320C5000 DSP to MSP430 Mixed Signal Microcontroller (Rev. A)
The TMS320C5000™ family of digital signal processors (DSPs) features Host Port Interface Controllers (HPI) and Direct Memory Access Controllers (DMAC) for efficient data movement without any CPU involvement. The HPI enables the DSP to interface to host p | Doc
• MSP430 LFXT1 Oscillator Accuracy
This report details the factors that influence achievable accuracy of the low frequency oscillator, specifically for real-time clock (RTC) applications. The intent of this application report is to provide an understanding of MSP430-specific factors influen | Doc
• Interfacing the 3-V MSP430 to 5-V Circuits
The interfacing of the 3-V MSP430x1xx and MSP430x4xx microcontroller families to circuits with a supply of 5 V or higher is shown. Input, output and I/O interfaces are given and explained. Worse-case design equations are provided, where necessary. Some sim | Doc
• Programming a Flash-Based MSP430 Using the JTAG Interface (Rev. H)
This application report has been superseded by the document shown below. Information previously contained in this application report can be found by clicking on the following links.- MSP430 Programming Via the JTAG Interface User's Guide Download MSP430 P | Doc
• Mixing C and Assembler with the MSP430
This application note describes how C and assembler code can be used together within an MSP430 application. The combination of C and assembler benefits the designer by providing the power of a high-level language as well as the speed, efficiency, and low-l | Doc
• Efficient Multiplication and Division Using MSP430 | Doc
• ESD Diode Current Specification
This document explains the maximum ESD diode current specified for GPIO on MSP microcontrollers. Sometimes signals on specific pins exceed the supply of the MSP MCU. In such a case, the device can handle this overvoltage condition through the ESD diodes, b | Doc
• Implementing An Ultralow-Power Keypad Interface with MSP430
Often in applications with keypads, the condition can occur where a key can be held or stuck down, causing excess current consmption and reducing the battery life of a battery-operated product. This application report shows a solution. The keypad interfa | Doc
• Choosing an Ultra Low-Power MCU
This application report describes how to compare ultralow-power MCUs. It discusses the key differences between popular low-power MCUs and how to interpret features and specifications and apply them to application requirements. | Doc
• Migrating from the USCI Module to the eUSCI Module (Rev. A)
The purpose of this application report is to enable easy migration for designs based on the USCI_A and USCI_B modules to the eUSCI_A and the eUSCI_B modules. The document highlights the new features in the eUSCI module and the main differences between the | Doc
• Interfacing the MSP430 and TLC549/1549 A/D Converters
This application report describes how to interface an MSP430 mixed-signal microcontroller with the TLC549 and TLV1549 3-volt A/D converters. This report is written for the MSP430x11x(1) family, but can be adapted to any MSP430 derivative. | Doc
• Boost DC/DC with Ultra-Low Shutdown Current (Rev. A)
This reference design is presented to help application designers and others who are trying to use the MSP430 in a system that requires a very low input voltage range while also maintaining high efficiency. Battery life is extended as well as a result of th | Doc
• Current Transformer Phase Shift Compensation and Calibration
This application report demonstrates a digital technique to compensate and calibrate the phase shift of a current (or voltage) transformer used in electric power of energy measurement. Traditional analog compensation is replaced by a digital finite impulse | Doc
• MSP430 Family Mixed-Signal Microcontroller Application Reports
MSP430 Metering Application Report | Doc
• Migrating from the MSP430F2xx Family to the MSP430FR57xx Family (Rev. A)
This application report enables easy migration from MSP430F2xx Flash-based MCUs to the MSP430FR57xx family FRAM-based MCU. It covers programming, system, and peripheral considerations when migrating firmware. The purpose is to highlight differences between | Doc
• Li-Ion Battery Charger solution using the MSP430 | Doc
• MSP430 Software Coding Techniques (Rev. A)
This application report covers software techniques and topics of interest to all MSP430 programmers. The first part of the document discusses the MSP430 standard interrupt-based code flow model, recommended for the vast majority of applications. The next p | Doc
• MSP430 Capacitive Single-Touch Sensor Design Guide
This application report discusses the design of RC-type capacitive single-touch sensors using the MSP430 microcontroller. The MSP430 has some unique features that make it suitable for interfacing with capacitive-touch sensors. The RC-type method does not n | Doc
• MSP430 Flash Memory Characteristics (Rev. A)
Flash memory is a widely used, reliable, and flexible nonvolatile memory to store software code and data in a microcontroller. Failing to handle the flash according to data-sheet specifications may result in unreliable operation of the application. This ap | Doc
• Understanding MSP430 Flash Data Retention
The MSP430 family of microcontrollers, as part of its broad portfolio, offers both read-only memory (ROM)-based and flash-based devices. Understanding the MSP430 flash is extremely important for efficient, robust, and reliable system design. Data retention | Doc
• CRC Implementation with MSP430
Cyclic Redundancy Code (CRC) is commonly used to determine the correctness of a data transmission or storage. This application note presents a solution to compute 16-bit and 32-bit CRCs on the ultra low-power TI MSP430 microcontroller for the bitwise algor | Doc
• Random Number Generation Using the MSP430
Many applications require the generation of random numbers. These random numbers are useful for applications such as communication protocols, cryptography, and device individualization.Generating random numbers often requires the use of expensive dedicated | Doc
Evaluation Kits
MSP-FET430P120: MSP430F12X/F11X2/F12X2 Flash Emulation Tool
MSP-TS430DW28: MSP-TS430DW28 - 28-pin Target Development Board for MSP430F1x and MSP430F2x MCUs
MSP-FET430U28: 28-pin Target Development Board and MSP-FET USB Programmer Bundle for MSP430F1x and MSP430F2x MCUs
MSP-TS430PW28: MSP-TS430PW28 - 28-pin Target Development Board for MSP430F1x and MSP430F2x MCUs

 

Features, Applications

No External Programming Voltage Needed Programmable Code Protection by Security Fuse Bootstrap Loader in Flash Devices Family Members Include: + 256B Flash Memory 128B RAM + 256B Flash Memory 128B RAM + 256B Flash Memory 256B RAM + 256B Flash Memory 256B RAM Available a 20-Pin Plastic Small-Outline Wide Body (SOWB) Package, 20-Pin Plastic Small-Outline Thin (TSSOP) Package, 20-Pin TVSOP and 24-Pin QFN For Complete Module Descriptions, Refer to the MSP430x2xx Family User's Guide

description

The Texas Instruments MSP430 family of ultralow power microcontrollers consist of several devices featuring different sets of peripherals targeted for various applications. The architecture, combined with five low power modes is optimized to achieve extended battery life in portable measurement applications. The device features a powerful 16-bit RISC CPU, 16-bit registers, and constant generators that attribute to maximum code efficiency. The digitally controlled oscillator (DCO) allows wake-up from low-power modes to active mode in less than 1s. The MSP430x21x1 series is an ultralow-power mixed signal microcontroller with a built-in 16-bit timer, versatile analog comparator and sixteen I/O pins. Typical applications include sensor systems that capture analog signals, convert them to digital values, and then process the data for display or for transmission to a host system. Stand alone RF sensor front end is another area of application. The analog comparator provides slope A/D conversion capability.

AVAILABLE OPTIONS PACKAGED DEVICES TA PLASTIC 20-PIN SOWB (DW) MSP430F2121IDW MSP430F2131IDW PLASTIC 20-PIN TSSOP (PW) MSP430F2121IPW MSP430F2131IPW PLASTIC 20-PIN TVSOP (DGV) MSP430F2121IDGV MSP430F2131IDGV PLASTIC 24-PIN QFN (RGE) MSP430F2121IRGE MSP430F2131IRGE

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

PRODUCT PREVIEW information concerns products in the formative or design phase of development. Characteristic data and other specifications are design goals. Texas Instruments reserves the right to change or discontinue these products without notice.

- Active Mode: at 1 MHz, V - Standby Mode: A - Off Mode (RAM Retention): 0.1 A Ultrafast Wake-Up From Standby Mode in less than s 16-Bit RISC Architecture, 65 ns Instruction Cycle Time Basic Clock Module Configurations: - Internal Frequencies - 32-kHz Crystal - High-Frequency Crystal 16MHz - Resonator - External Clock Source 16-Bit Timer_A With Three Capture/Compare Registers On-Chip Comparator for Analog Signal Compare Function or Slope A/D Conversion

DW, PW, or DGV PACKAGE (TOP VIEW) TEST VCC P2.5/CA5 VSS XOUT/P2.7/CA7 XIN/P2.6/CA6 RST/NMI P1.6/TA1/TDI/TCLK P1.5/TA0/TMS VCC TEST 1 P2.5/CA5 RGE PACKAGE (TOP VIEW) P1.6/TA1/TDI/TCLK P2.4/TA2/CA1

Note: NC pins not internally connected Power Pad connection to VSS recommended

VCC XIN XOUT ACLK SMCLK 8kB Flash 4kB Flash 2KB Flash 1KB Flash 256B RAM 256B RAM 128B RAM 128B RAM Brownout Protection I/O Port P1 8 I/Os with Interrupt Capability I/O Port P2 8 I/Os with Interrupt Capability VSS RST/NMI P1.x & JTAG XIN XOUT P2.x & XIN/XOUT

Note: See port schematics section for detailed I/O information

TERMINAL NAME XIN/P2.6/CA6 XOUT/P2.7/CA7 RST/NMI TEST VCC VSS DW, PW, or DGV NO. RGE NO. NA I/O I DESCRIPTION General-purpose digital I/O pin/Timer_A, clock signal TACLK input General-purpose digital I/O pin/Timer_A, capture: CCI0A input, compare: Out0 output/BSL transmit General-purpose digital I/O pin/Timer_A, capture: CCI1A input, compare: Out1 output General-purpose digital I/O pin/Timer_A, capture: CCI2A input, compare: Out2 output General-purpose digital I/O pin/SMCLK signal output/test clock, input terminal for device programming and test General-purpose digital I/O pin/Timer_A, compare: Out0 output/test mode select, input terminal for device programming and test General-purpose digital I/O pin/Timer_A, compare: Out1 output/test data input or test clock input during programming and test

General-purpose digital I/O pin/ACLK output/comparator_A+, CA2 input General-purpose digital I/O pin/Timer_A, INCLK/comparator_A+, CA3 input clock signal at

General-purpose digital I/O pin/Timer_A, capture: CCI0B input/ comparator_A+, output/comparator_A+, CA4 input/BSL receive General-purpose digital I/O pin/Timer_A, compare: Out1 output/ comparator_A+, CA0 input General-purpose digital I/O pin/Timer_A, compare: Out2 output/ comparator_A+, CA1 input General-purpose digital I/O pin/ comparator_A+, CA5 input Input terminal of crystal oscillator/general-purpose digital I/O pin/ comparator_A+, CA6 input Output terminal of crystal oscillator/general-purpose digital I/O pin/ comparator_A+, CA7 input Reset or nonmaskable interrupt input Selects test mode for JTAG pins on Port1. The device protection fuse is connected to TEST. Supply voltage Ground reference QFN package pad connection to VSS recommended.

NOTE: XOUT/P2.7/CA7 is used as an input, excess current will flow until P2SEL.7 is cleared. This is due to the oscillator output

General-purpose digital I/O pin/Timer_A, compare: Out2 output/test data output terminal or test data input during programming and test


 

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