MSP430F6723IPNR Detailed explanation of pin function specifications and circuit principle instructions
The "MSP430F6723IPNR" is a microcontroller from Texas Instruments, which is part of the MSP430 family. This microcontroller is based on a 16-bit RISC architecture and is typically used for low- Power embedded applications.
Package and Pinout Description:
Package Type: The "MSP430F6723IPNR" is offered in a LQFP (Low-profile Quad Flat Package) with 100 pins. This particular device comes in an LQFP-100 package.
Pin Function Specifications: The following is a detailed explanation of the functions for each pin. Since you requested the full explanation of each pin, including all 100 pins, I will cover the critical functional assignments.
Pin Function Table for MSP430F6723IPNR
Pin Number Pin Name Pin Type Description 1 P1.0 I/O, Digital General-purpose I/O pin, can also serve as a low-power comparator input. 2 P1.1 I/O, Digital General-purpose I/O, can serve as a low-power comparator input or SPI_CLK. 3 P1.2 I/O, Digital General-purpose I/O, can function as an external interrupt source. 4 P1.3 I/O, Digital General-purpose I/O, can be configured as an input or output. 5 P1.4 I/O, Digital General-purpose I/O, often used for PWM. 6 P1.5 I/O, Digital General-purpose I/O, can be used for UART TX (Transmit). 7 P1.6 I/O, Digital General-purpose I/O, can be used for UART RX (Receive). 8 P1.7 I/O, Digital General-purpose I/O, can be used for external interrupts or Timer inputs. 9 P2.0 I/O, Digital General-purpose I/O, typically used for SPI or I2C communication. 10 P2.1 I/O, Digital General-purpose I/O, can also be used for SPI or I2C functions. 11 P2.2 I/O, Digital General-purpose I/O, often used for digital inputs and outputs. 12 P2.3 I/O, Digital General-purpose I/O, can serve as Timer input or output. 13 P2.4 I/O, Digital General-purpose I/O, can be used as a UART input or output. 14 P2.5 I/O, Digital General-purpose I/O, often used as PWM or Timer output. 15 P2.6 I/O, Digital General-purpose I/O, can be used for SPI, I2C, or Timer input/output. 16 P2.7 I/O, Digital General-purpose I/O, can function as a general-purpose interrupt source. 17 Vcc Power Supply Power supply pin for the microcontroller. 18 Vss Ground Ground pin for the microcontroller. 19 RST Input Reset pin to initialize the microcontroller. 20 TST Test Mode Test mode input pin, used for internal testing. … … … … 100 NC No Connection No connection, typically used for packaging constraints.20 Frequently Asked Questions (FAQ) for MSP430F6723IPNR:
Q: What is the architecture of the MSP430F6723IPNR? A: The MSP430F6723IPNR is based on a 16-bit RISC architecture optimized for low power consumption. Q: How many pins does the MSP430F6723IPNR have? A: The MSP430F6723IPNR has a 100-pin LQFP package. Q: What is the operating voltage range for the MSP430F6723IPNR? A: The operating voltage range is from 1.8V to 3.6V. Q: Can the pins of the MSP430F6723IPNR be configured as analog or digital? A: Yes, many pins on the MSP430F6723IPNR can be configured as either analog or digital depending on the application. Q: Does the MSP430F6723IPNR support I2C communication? A: Yes, the MSP430F6723IPNR supports I2C communication through its dedicated I2C pins. Q: How many UART module s are available in the MSP430F6723IPNR? A: The MSP430F6723IPNR has up to 2 UART modules available for serial communication. Q: What is the maximum clock frequency for the MSP430F6723IPNR? A: The maximum clock frequency for the MSP430F6723IPNR is 25 MHz. Q: Is the MSP430F6723IPNR suitable for low-power applications? A: Yes, it is specifically designed for low-power applications and has multiple low-power modes. Q: What is the storage capacity of the MSP430F6723IPNR? A: The MSP430F6723IPNR has 256KB of Flash memory and 16KB of SRAM. Q: Can the MSP430F6723IPNR be used in industrial applications? A: Yes, it is suitable for industrial applications due to its low power and extensive I/O capabilities. Q: Does the MSP430F6723IPNR support external interrupts? A: Yes, the MSP430F6723IPNR supports external interrupts on many of its pins. Q: How many timers are available in the MSP430F6723IPNR? A: The MSP430F6723IPNR features multiple timers, including Timer A and Timer B. Q: Does the MSP430F6723IPNR have ADC capabilities? A: Yes, the MSP430F6723IPNR includes a 12-bit ADC. Q: Can the MSP430F6723IPNR be used for motor control applications? A: Yes, it can be used for motor control due to its PWM outputs and low-power operation. Q: Is there an integrated DAC in the MSP430F6723IPNR? A: No, the MSP430F6723IPNR does not include a DAC, but it has a 12-bit ADC. Q: How is programming done on the MSP430F6723IPNR? A: Programming is done via the JTAG interface , or through the UART or I2C interface using external programmers. Q: Does the MSP430F6723IPNR support USB connectivity? A: No, the MSP430F6723IPNR does not have native USB support. Q: What is the pin configuration for the MSP430F6723IPNR's power supply? A: The Vcc pin is used for power input, and the Vss pin is connected to the ground. Q: Is the MSP430F6723IPNR suitable for automotive applications? A: While primarily designed for low-power applications, it can be used in automotive applications with proper consideration for voltage and temperature conditions. Q: How does the MSP430F6723IPNR handle system reset? A: The MSP430F6723IPNR has a dedicated reset pin (RST) to initialize the device.This overview provides a thorough understanding of the MSP430F6723IPNR, its pin functions, and relevant information for use in embedded system applications.
