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Texas Instruments MSP430x1xx manual ADC12IV, ADC12 Interrupt Vector Register, ADC12IVx Bits

Models: MSP430x1xx

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ADC12 Registers

ADC12IV, ADC12 Interrupt Vector Register

15

14

13

12

11

10

9

8

0

0

0

0

0

0

0

0

r0

r0

r0

r0

r0

r0

r0

r0

7

6

5

4

3

2

1

0

0

0

ADC12IVx

0

r0r0r−(0)r−(0)r−(0)r−(0)r−(0)r0

ADC12IVx Bits

ADC12 interrupt vector value

 

 

15-0

 

 

 

 

 

 

 

 

 

 

 

 

 

ADC12IV

 

 

Interrupt

 

 

Contents

Interrupt Source

Interrupt Flag

Priority

 

 

 

 

 

 

 

 

000h

No interrupt pending

 

 

 

002h

ADC12MEMx overflow

Highest

 

 

004h

Conversion time overflow

 

 

 

006h

ADC12MEM0 interrupt flag

ADC12IFG0

 

 

 

008h

ADC12MEM1 interrupt flag

ADC12IFG1

 

 

 

00Ah

ADC12MEM2 interrupt flag

ADC12IFG2

 

 

 

00Ch

ADC12MEM3 interrupt flag

ADC12IFG3

 

 

 

00Eh

ADC12MEM4 interrupt flag

ADC12IFG4

 

 

 

010h

ADC12MEM5 interrupt flag

ADC12IFG5

 

 

 

012h

ADC12MEM6 interrupt flag

ADC12IFG6

 

 

 

014h

ADC12MEM7 interrupt flag

ADC12IFG7

 

 

 

016h

ADC12MEM8 interrupt flag

ADC12IFG8

 

 

 

018h

ADC12MEM9 interrupt flag

ADC12IFG9

 

 

 

01Ah

ADC12MEM10 interrupt flag

ADC12IFG10

 

 

 

01Ch

ADC12MEM11 interrupt flag

ADC12IFG11

 

 

 

01Eh

ADC12MEM12 interrupt flag

ADC12IFG12

 

 

 

020h

ADC12MEM13 interrupt flag

ADC12IFG13

 

 

 

022h

ADC12MEM14 interrupt flag

ADC12IFG14

 

 

 

024h

ADC12MEM15 interrupt flag

ADC12IFG15

Lowest

ADC12 17-27

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Texas Instruments MSP430x1xx manual ADC12IV, ADC12 Interrupt Vector Register, ADC12IVx Bits
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MSP430x1xx specifications

The Texas Instruments MSP430x1xx series is a family of ultra-low-power microcontrollers that are highly regarded in the embedded systems community for their versatility and performance. Designed for applications ranging from portable instrumentation to low-power industrial devices, the MSP430x1xx combines flexibility and efficiency with advanced features tailored for energy-sensitive applications.

One of the standout characteristics of the MSP430x1xx is its ultra-low-power operation. This series offers several low-power modes that can significantly extend battery life in portable devices. The microcontroller can be in active mode, low-power mode, or even in a deep sleep state, allowing developers to optimize power consumption based on the application's requirements. In fact, some configurations can operate at just a few microamps, making it ideal for battery-operated devices.

Another key feature is the 16-bit RISC architecture that provides powerful processing capabilities while maintaining a low power profile. The MSP430x1xx series supports a maximum clock speed of 16 MHz, allowing for efficient task execution while consuming minimal energy. This architecture ensures that programs run smoothly while the microcontroller remains energy efficient.

The MSP430x1xx is equipped with various integrated peripherals, including analog-to-digital converters (ADCs), timers, and communication interfaces like UART, SPI, and I2C. The inclusion of a powerful ADC enables the microcontroller to handle sensor readings with high accuracy, making it suitable for applications like environmental monitoring and medical devices. The integrated timers provide essential functionality for real-time applications, allowing for event-driven programming and precise timing control.

Memory options in the MSP430x1xx series are also robust, with configurations offering flash memory sizes from 1 KB to 64 KB. This flexibility allows developers to choose the optimal memory size for their specific applications, accommodating a wide range of requirements.

Additionally, the MSP430x1xx microcontrollers are designed with a wide operating voltage range, typically from 1.8V to 3.6V, making them compatible with various power sources and further enhancing their usability in diverse applications.

In summary, the Texas Instruments MSP430x1xx series of microcontrollers is an excellent choice for developers seeking low-power, high-performance solutions for embedded applications. With an efficient architecture, a rich set of peripherals, and flexible memory options, these microcontrollers are positioned to meet the growing demands of modern electronic designs, particularly in battery-powered and energy-sensitive applications.