MSP430F1232IPWR
Part Number: MSP430F1232IPWR
Manufacturer: Texas Instruments
Description: IC MCU 16BIT 8KB FLASH 28TSSOP
Shipped from: Shenzhen/HK Warehouse
Stock Available: Check with us
ICRFQ.com - Electronic Components Distributor in China Since 2003
Part Number: MSP430F1232IPWR
Manufacturer: Texas Instruments
Description: IC MCU 16BIT 8KB FLASH 28TSSOP
Shipped from: Shenzhen/HK Warehouse
Stock Available: Check with us
Datasheet | MSP430F1232IPWR datasheet |
---|---|
Category | Integrated Circuits (ICs) |
Family | Embedded – Microcontrollers |
Manufacturer | Texas Instruments |
Series | MSP430x1xx |
Packaging | Cut Tape (CT) |
Part Status | Active |
Core Processor | MSP430 |
Core Size | 16-Bit |
Speed | 8MHz |
Connectivity | SPI, UART/USART |
Peripherals | Brown-out Detect/Reset, POR, PWM, WDT |
Number of I/O | 22 |
Program Memory Size | 8KB (8K x 8 + 256B) |
Program Memory Type | FLASH |
EEPROM Size | – |
RAM Size | 256 x 8 |
Voltage – Supply (Vcc/Vdd) | 1.8 V ~ 3.6 V |
Data Converters | A/D 8x10b |
Oscillator Type | Internal |
Operating Temperature | -40°C ~ 85°C (TA) |
Package / Case | 28-TSSOP (0.173″, 4.40mm Width) |
Supplier Device Package | 28-TSSOP |
Are you looking for a microcontroller with outstanding performance and flexibility that consumes very little power? Go no further than Texas Instruments’ MSP430F1232IPWR; it has all you need. This microcontroller is built for low power consumption and efficient performance thanks to its strong 16-bit RISC Processor and different clock module configurations. It also features a wide range of options. In addition, it has an inbuilt 16-bit timer and 10-bit A/D converter with an integrated reference and data transfer controller (DTC), making it perfect for various applications, such as the detection of glass breakage and stand-alone RF sensors. This microcontroller is designed to function with quick response times and extended battery life. It has a wake-up time of less than six seconds and five power-saving modes.
The MSP430 family of ultralow-power microcontrollers from Texas Instruments comprises multiple separate devices, each of which features a unique collection of peripherals designed with specific uses in mind. When combined with the five low-power modes, the architecture has been fine-tuned to produce an increased battery life when used in portable measurement applications.
The digitally controlled oscillator (DCO) makes it possible to wake up from low-power modes to active mode in a time that is less than six microseconds. The MSP430F1232IPWR is a mixed signal microcontroller with a 16-bit timer that consumes little power. A digital-to-analog converter that can handle 10 bits of data and has a built-in reference and IO for sending (DTC), and either fourteen or twenty-two input/output pins, depending on which series you choose. Additionally, these microcontrollers are available in both 8-bit and 16-bit versions. In addition, the series of microcontrollers known as MSP430x12x2 come pre-assembled with an in-built communication capability capable of supporting synchronous (SPI) protocols and asynchronous (UART), respectively. Glass-break detection using signal analysis is just one example of a system solution might benefit greatly from the capabilities of 16-bit RISC paired with digital signal processing. Another area where this technology can be used is in stand-alone RF sensors.
The MSP430 central processing unit (CPU) utilizes a 16-bit RISC architecture that is extremely unobtrusive to the application. Aside from the instructions that control the execution of the program, every action is carried out as a register operation in conjunction with seven different addressing modes for the source operand and four different addressing modes for the destination operand. The central processing unit (CPU) includes 16 registers, each contributing to faster instruction execution. One cycle of the CPU clock equals the amount of time needed to execute a register-to-register operation. The program counter, the stack pointer, the status register, and the constant generator are each handled by one of the registers, starting with R0 and progressing through R3. The registers that are still available are general-purpose registers. The central processing unit (CPU) is connected to the system’s peripherals through the use of data, address, and control buses; these buses allow for all instructions to be executed.
The microprocessor functions within a supply voltage range of 1.8 V to 3.6 V, which is considered a low supply voltage range. Because of this, the device can function effectively while utilizing relatively modest power supplies.
In general, the operation of the microcontroller is meant to have a low power consumption, a fast response time, and flexibility for a variety of diverse applications.
To summarize, the MSP430F1232IPWR microcontroller offered by Texas Instruments is an outstanding option for a diverse and effective central processing unit (CPU). This device is designed to suit the requirements of various applications thanks to its broad working temperature range, rapid clock speed, high-resolution ADC, and 16-bit processing architecture. Because of its low power consumption and many modes that save power, it is an excellent option for battery-powered devices or those that need to be operational for an extended period of time. The MSP430F1232IPWR provides adequate storage for most applications thanks to its 8KB of flash program memory. Contact ICRFQ, your leading electronic component distributor in China, for expert guidance in sourcing high-quality electronic components.
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