Datasheet Texas Instruments MSP430G2152 — Datenblatt

HerstellerTexas Instruments
SerieMSP430G2152
Datasheet Texas Instruments MSP430G2152

MSP430G2x52, MSP430G2x12 Mixed-Signal-Mikrocontroller

Datenblätter

MSP430G2x52, MSP430G2x12 Mixed Signal Microcontroller datasheet
PDF, 1.5 Mb, Revision: G, Datei veröffentlicht: May 1, 2013
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Preise

Status

MSP430G2152IN20MSP430G2152IPW14MSP430G2152IPW14RMSP430G2152IPW20MSP430G2152IPW20RMSP430G2152IRSA16RMSP430G2152IRSA16T
Lifecycle StatusActive (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)
Manufacture's Sample AvailabilityYesYesYesYesNoNoNo

Verpackung

MSP430G2152IN20MSP430G2152IPW14MSP430G2152IPW14RMSP430G2152IPW20MSP430G2152IPW20RMSP430G2152IRSA16RMSP430G2152IRSA16T
N1234567
Pin20141420201616
Package TypeNPWPWPWPWRSARSA
Industry STD TermPDIPTSSOPTSSOPTSSOPTSSOPVQFNVQFN
JEDEC CodeR-PDIP-TR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-GS-PQFP-NS-PQFP-N
Package QTY209020007020003000250
CarrierTUBETUBELARGE T&RLARGE T&RLARGE T&RSMALL T&R
Device MarkingM430G2152G2152G2152430G2152430G2152G2152G2152
Width (mm)6.354.44.44.44.444
Length (mm)24.33556.56.544
Thickness (mm)4.571111.9.9
Pitch (mm)2.54.65.65.65.65.65.65
Max Height (mm)5.081.21.21.21.211
Mechanical DataHerunterladenHerunterladenHerunterladenHerunterladenHerunterladenHerunterladenHerunterladen

Parameter

Parameters / ModelsMSP430G2152IN20
MSP430G2152IN20
MSP430G2152IPW14
MSP430G2152IPW14
MSP430G2152IPW14R
MSP430G2152IPW14R
MSP430G2152IPW20
MSP430G2152IPW20
MSP430G2152IPW20R
MSP430G2152IPW20R
MSP430G2152IRSA16R
MSP430G2152IRSA16R
MSP430G2152IRSA16T
MSP430G2152IRSA16T
ADCADC10 - 8chADC10 - 8chADC10 - 8chADC10 - 8chADC10 - 8chADC10 - 8chADC10 - 8ch
AESN/AN/AN/AN/AN/AN/AN/A
Active Power, uA/MHz320320320320320320320
Additional FeaturesWatchdog,Temp Sensor,Brown Out ResetWatchdog,Temp Sensor,Brown Out ResetWatchdog,Temp Sensor,Brown Out ResetWatchdog,Temp Sensor,Brown Out ResetWatchdog,Temp Sensor,Brown Out ResetWatchdog,Temp Sensor,Brown Out ResetWatchdog,Temp Sensor,Brown Out Reset
BSLNoneNoneNoneNoneNoneNoneNone
CPUMSP430MSP430MSP430MSP430MSP430MSP430MSP430
Comparators8888888
Featuredg2g2g2g2g2g2g2
Frequency, MHz16161616161616
GPIO Pins16161616161616
I2C1111111
Max VCC3.63.63.63.63.63.63.6
Min VCC1.81.81.81.81.81.81.8
MultiplierN/AN/AN/AN/AN/AN/AN/A
Non-volatile Memory, KB1111111
Operating Temperature Range, C-40 to 85-40 to 85-40 to 85-40 to 85-40 to 85-40 to 85-40 to 85
Package GroupPDIPTSSOPTSSOPTSSOPTSSOPQFNQFN
Package Size: mm2:W x L, PKGSee datasheet (PDIP)14TSSOP: 32 mm2: 6.4 x 5(TSSOP)14TSSOP: 32 mm2: 6.4 x 5(TSSOP)14TSSOP: 32 mm2: 6.4 x 5(TSSOP)14TSSOP: 32 mm2: 6.4 x 5(TSSOP)16QFN: 16 mm2: 4 x 4(QFN)16QFN: 16 mm2: 4 x 4(QFN)
RAM, KB0.1250.1250.1250.1250.1250.1250.125
RatingCatalogCatalogCatalogCatalogCatalogCatalogCatalog
SPI1111111
Special I/OCapacitive Touch I/OCapacitive Touch I/OCapacitive Touch I/OCapacitive Touch I/OCapacitive Touch I/OCapacitive Touch I/OCapacitive Touch I/O
Standby Power, LPM3-uA0.70.70.70.70.70.70.7
Timers - 16-bit1111111
Wakeup Time, us1.51.51.51.51.51.51.5

Öko-Plan

MSP430G2152IN20MSP430G2152IPW14MSP430G2152IPW14RMSP430G2152IPW20MSP430G2152IPW20RMSP430G2152IRSA16RMSP430G2152IRSA16T
RoHSCompliantCompliantCompliantCompliantCompliantCompliantCompliant
Pb FreeYes

Anwendungshinweise

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    The Digital Addressable Lighting Interface (DALI) was defined in IEC 60929 and has been updated in IEC 62386. One of the main reasons for this update was the inclusion of the LED device type.This application uses the existing TPS62260LED-338 EVM and a level translation board to implement a DALI LED device type control gear. The microcontroller found on the TPS62260LED-338 EVM is the MSP430F2131.
  • Multiple Time Bases on a Single MSP430 Timer Module (Rev. A)
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    The timer modules on MSP430™ ultra-low power microcontrollers often base several different outputs off of a single time base – a single timer period. This is especially true for the typical implementation of pulse width modulation (PWM) signals on the MSP430 devices, where one capture compare register (TxCCR0) sets the period, and the rest (TxCCRx) simply set different duty cycles. However, in som
  • Capacitive Touch Sensing, MSP430 Button Gate Time Optimization and Tuning Guide
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    MSP430в„ў microcontroller based capacitive touch buttons can offer increased performance when properly optimized and tuned for their specific application. Performance benefits that result from button optimization can include, but are not limited to, decreased power consumption, improved response time, and the ability to grow a design to include more buttons. This application report provides th
  • Capacitive Touch Sensing, MSP430 Slider and Wheel Tuning Guide
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  • Capacitive Touch Hardware Design Guide (Rev. A)
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    Capacitive touch detection is sometimes considered more art than science. This often results in multiple design iterations before the optimum performance is achieved. There are, however, good design practices for circuit layout and principles of materials that need to be understood to keep the number of iterations to a minimum. This design guide describes a process for creating and designing capac
  • 1-uA Capacitive Grip Detection Based on MSP430 Microcontrollers (Rev. B)
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  • Spread-Spectrum Clock Source Using an MSP430
    PDF, 228 Kb, Datei veröffentlicht: May 31, 2006
    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 significant EMI and can make meeting governmental regulations for EMI challenging. These regulations typically set a limit on peak energy within
  • MSP430 Isolated FET Interface
    PDF, 1.2 Mb, Datei veröffentlicht: Oct 10, 2003
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    PDF, 63 Kb, Datei veröffentlicht: Jan 30, 2001
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    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 the calculations are also given. Further sections show additional applications such as the measurement of two voltage inputs, bridge arrangem
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    PDF, 233 Kb, Datei veröffentlicht: Oct 1, 1997
    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 discussed with which sinusoidal waveforms can be derived from square-wave signals, by making use of appropriate analog filters. Tested examples of soft
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    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.
  • Choosing an Ultra Low-Power MCU
    PDF, 306 Kb, Datei veröffentlicht: Jun 30, 2004
    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.
  • MSP430 LFXT1 Oscillator Accuracy
    PDF, 184 Kb, Datei veröffentlicht: Nov 15, 2004
    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 influencing real-world achievable RTC accuracy using the LFXT1 oscillator with a standard 32.768 kHz watch crystal and present measurement data support
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  • FSK Modulation and Demodulation With the Microcontroller MSP430
    PDF, 110 Kb, Datei veröffentlicht: Dec 14, 1998
    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.
  • Wave Digital Filtering Using the MSP430
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    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 smaller order for the same set of specifications compared to FIR filters, while FIR filters provide a linear phase property. However, IIR filters, i
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    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-level control of assembler.
  • Random Number Generation Using the MSP430
    PDF, 39 Kb, Datei veröffentlicht: Oct 13, 2006
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  • Interfacing the MSP430 and TLC549/1549 A/D Converters
    PDF, 44 Kb, Datei veröffentlicht: Nov 16, 2000
    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.
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    PDF, 82 Kb, Revision: A, Datei veröffentlicht: Oct 13, 2000
    The TMS320C5000в„ў 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 processors (typically microcontrollers) bidirectionally with minimal or no external interface logic. This application report presents a hardw
  • MSP430 Capacitive Single-Touch Sensor Design Guide
    PDF, 770 Kb, Datei veröffentlicht: Jan 16, 2008
    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 need special peripherals and can be implemented with all devices in the MSP430 product family. This method is also inherently low power and can
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  • MSP430 Software Coding Techniques (Rev. A)
    PDF, 62 Kb, Revision: A, Datei veröffentlicht: Jul 17, 2006
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    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 Programming Via the JTAG Interface (PDF) Download
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    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 high efficiency and long battery life.
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    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 is one of the key aspects to flash reliability. In this application report, data retention for the MSP430 flash is discussed in detail and the
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    PDF, 134 Kb, Datei veröffentlicht: Feb 20, 2002
    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 interface in this report, based on the MSP430, draws .1uA while waiting for a key press, is completely interrupt driven requring no polling, and consum
  • Interfacing the 3-V MSP430 to 5-V Circuits
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    Digital Fan Control with Tachometer using MSP430 Application Report
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    PDF, 426 Kb, Revision: D, Datei veröffentlicht: Jul 18, 2017
    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-low-power operation of an MSP430в„ў MCU. In addition, hints and examples for correct board layout are given. The document also contains detailed i
  • AES128 – A C Implementation for Encryption and Decryption (Rev. A)
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  • Using the TPS3619 with MSP430 Microcontrollers Can Reduce Sys Power Consumption (Rev. A)
    PDF, 37 Kb, Revision: A, Datei veröffentlicht: May 19, 2003
    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 memory. In some systems with charge pumps, the TPS3619 can be used to shut down the charge pump, saving system power consumption.
  • Advanced Debugging Using the Enhanced Emulation Module (EEM) With CCS v6 (Rev. F)
    PDF, 837 Kb, Revision: F, Datei veröffentlicht: Sep 6, 2016
  • Powering the MSP430 from a High Voltage Input using the TPS62122 (Rev. C)
    PDF, 330 Kb, Revision: C, Datei veröffentlicht: Jan 12, 2012

Modellreihe

Herstellerklassifikation

  • Semiconductors> Microcontrollers (MCU)> MSP430 ultra-low-power MCUs> MSP430G2x/i2x