herunterladen
Product
Folder
Order
Now
Technical
Documents
Tools &
Software
Support &
Community
Reference
Design
An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications,
intellectual property matters and other important disclaimers. PRODUCTION DATA.
MSP430FR2633, MSP430FR2632, MSP430FR2533, MSP430FR2532
SLAS942B –NOVEMBER 2015–REVISED JUNE 2017
MSP430FR263x, MSP430FR253x Capacitive Touch Sensing Mixed-Signal Microcontrollers
1 Device Overview
1
1.1 Features
1
• CapTIvate Technology – Capacitive Touch
– Performance
– Fast Electrode Scanning With Four
Simultaneous Scans
– Support for High-Resolution Sliders With
>1024 Points
– 30-cm Proximity Sensing
– Reliability
– Increased Immunity to Power Line, RF, and
Other Environmental Noise
– Built-in Spread Spectrum, Automatic Tuning,
Noise Filtering, and Debouncing Algorithms
– Enables Reliable Touch Solutions With 10-V
RMS Common-Mode Noise, 4-kV Electrical
Fast Transients, and 15-kV Electrostatic
Discharge, Allowing for IEC‑61000-4-6, IEC-
61000-4-4, and IEC‑61000-4-2 Compliance
– Reduced RF Emissions to Simplify Electrical
Designs
– Support for Metal Touch and Water Rejection
Designs
– Flexibility
– Up to 16 Self-Capacitance and 64 Mutual-
Capacitance Electrodes
– Mix and Match Self- and Mutual-Capacitive
Electrodes in the Same Design
– Supports Multitouch Functionality
– Wide Range of Capacitance Detection, Wide
Electrode Range of 0 to 300 pF
– Low Power
– <0.9 µA/Button in Wake-on-Touch Mode,
Where Capacitive Measurement and Touch
Detection is Done by Hardware State
Machine While CPU is Asleep
– Wake-on-Touch State Machine Allows
Electrode Scanning While CPU is Asleep
– Hardware Acceleration for Environmental
Compensation, Filtering, and Threshold
Detection
– Ease of Use
– CapTIvate Design Center, PC GUI Lets
Engineers Design and Tune Capacitive
Buttons in Real Time Without Having to Write
Code
– CapTIvate Software Library in ROM Provides
Ample FRAM for Customer Application
(1) Minimum supply voltage is restricted by SVS levels (see
V
SVSH-
and V
SVSH+
in PMM, SVS and BOR).
• Embedded Microcontroller
– 16-Bit RISC Architecture
– Clock Supports Frequencies up to 16 MHz
– Wide Supply Voltage Range From 1.8 V to
3.6 V
(1)
• Optimized Ultra-Low-Power Modes
– Active Mode: 126 µA/MHz (Typical)
– Standby
– 1.7 µA/Button Average (Typical) (16 Self-
Capacitance Buttons, 8-Hz Scanning)
– 1.7 µA/Button Average (Typical) (64 Mutual-
Capacitance Buttons, 8-Hz Scanning)
– LPM3.5 Real-Time Clock (RTC) Counter With
32768-Hz Crystal: 730 nA (Typical)
– Shutdown (LPM4.5): 16 nA (Typical)
• Low-Power Ferroelectric RAM (FRAM)
– Up to 15.5KB of Nonvolatile Memory
– Built-In Error Correction Code (ECC)
– Configurable Write Protection
– Unified Memory of Program, Constants, and
Storage
– 10
15
Write Cycle Endurance
– Radiation Resistant and Nonmagnetic
– High FRAM-to-SRAM Ratio, up to 4:1
• Intelligent Digital Peripherals
– Four 16-Bit Timers
– Two Timers With Three Capture/Compare
Registers Each (Timer_A3)
– Two Timers With Two Capture/Compare
Registers Each (Timer_A2)
– One 16-Bit Timer Associated With CapTIvate™
Technology
– One 16-Bit Counter-Only RTC
– 16-Bit Cyclic Redundancy Check (CRC)
• Enhanced Serial Communications
– Two Enhanced Universal Serial Communication
Interfaces (eUSCI_A) Support UART, IrDA, and
SPI
– One eUSCI (eUSCI_B) Supports SPI and I
2
C
• High-Performance Analog
– 8-Channel 10-Bit Analog-to-Digital Converter
(ADC)
– Internal 1.5-V Reference
– Sample-and-Hold 200 ksps
Verzeichnis
- ・ Konfiguration des Pinbelegungsdiagramms on Seite 8 Seite 53 Seite 60 Seite 61 Seite 63
- ・ Abmessungen des Paketumrisses on Seite 7 Seite 93 Seite 95 Seite 96 Seite 101
- ・ Paket-Footprint-Pad-Layout on Seite 79 Seite 102
- ・ Markierungsinformationen on Seite 93 Seite 94
- ・ Blockdiagramm on Seite 4 Seite 79
- ・ Typisches Anwendungsschaltbild on Seite 85
- ・ Technische Daten on Seite 19 Seite 20 Seite 21 Seite 22 Seite 23
- ・ Anwendungsbereich on Seite 2 Seite 76 Seite 77 Seite 78 Seite 79
- ・ Elektrische Spezifikation on Seite 41
