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Texas Instruments MSP50C614 manual AC0 . . . AC31, Accumulator Block Pointers, AP0 . . . AP3

Models: MSP50C614

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Computation Unit

When writing an accumulator-referenced instruction, therefore, the working accumulator address is stored in one of AP0 to AP3. The C614 instruction set provides a two-bit field for all accumulator referenced instructions. The two-bit field serves as a reference to the accumulator pointer which, in turn, stores the address of the actual 16-bit accumulator. Some MOV instructions store the contents of the APn directly to memory or load from memory to the APn register. Other instructions can add or load 5-bit constants to the current APn register contents. A full description of the C614 instruction set is given in Chapter 4, Instructions.

Figure 2±5. Overview of the Arithmetic Logic Unit

Accumulator Block:

32, 16-bit registers

AC(0) . . . AC(31)

 

 

 

Accumulator Block Pointers:

4, 5-bit registers

AP(0) . . . AP(3)

The accumulator block pointers may assume values in one of two forms:

1) DIRECT REFERENCE:

0

. . . 31

 

 

 

 

 

 

 

AC Register #

2) INDIRECT REFERENCE:

0

. . . 15

points to:

0

. . . 15

 

0

. . . 15 OFFSET

points to:

16

. . . 31

 

15 . . . 31 OFFSET

points to:

0

. . . 15

± AP registers are served by a 5-bit processor for sequencing addresses or repetitive operations.

± Selection between the 4 AP's is made in the 2-bit An field in all accumulator-referenced instructions

2.2.2.3String Operations

The AP registers are served by a 5-bit processor that provides efficient sequencing of accumulator addresses. The design automates repetitive operations like long data strings or repeated operations on a list of data.

When operating on a multiword data string, the address is copied from the AP register to fetch the least significant word of the string. This copy is then consecutively incremented to fetch the next n words of the string. At the completion of the consecutive operations, the actual address stored in the AP register is left unchanged; its value still points to the least significant location. The AP register, therefore, is loaded and ready for the next repeatable operation.

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Texas Instruments MSP50C614 AC0 . . . AC31, Accumulator Block Pointers, AP0 . . . AP3, AC Register #, Points to Offset
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MSP50C614 specifications

The Texas Instruments MSP50C614 is a microcontroller that belongs to the MSP430 family, renowned for its low power consumption and versatile functionality. Primarily designed for embedded applications, this microcontroller is favored in various industries, including consumer electronics, industrial automation, and healthcare devices.

One of the standout features of the MSP50C614 is its ultra-low power technology, which enables it to operate in various power modes. This makes it ideal for battery-powered applications, where energy efficiency is crucial. The MSP430 architecture allows for a flexible power management system, ensuring that energy is conserved while providing robust performance.

The MSP50C614 is equipped with a 16-bit RISC CPU that delivers high performance while maintaining low power usage. With a maximum clock frequency of 16 MHz, it can execute most instructions in a single cycle, resulting in swift operation and responsive performance. This microcontroller also comes with a generous flash memory capacity, allowing developers to store large amounts of code and data conveniently.

In terms of peripherals, the MSP50C614 is highly versatile. It features a range of digital and analog input/output options, including multiple timers, GPIO ports, and various communication interfaces like UART, SPI, and I2C. This extensive set of peripherals allows for seamless integration with other components and simplifies the design of complex systems.

The integrated 12-bit Analog-to-Digital Converter (ADC) stands out as a valuable characteristic of the MSP50C614. This feature enables the microcontroller to convert physical analog signals into digital data, making it particularly useful for sensing applications and real-time monitoring.

Another noteworthy technology employed in the MSP50C614 is its support for low-voltage operations. With a broad supply voltage range, this microcontroller can function efficiently in diverse environments and is suitable for low-power applications, enhancing its practicality.

Moreover, Texas Instruments provides software support in the form of Code Composer Studio and various libraries that make it easier for developers to program and utilize the MSP50C614 effectively.

In summary, the Texas Instruments MSP50C614 microcontroller is a powerful, low-power solution equipped with the features and technologies necessary for efficient operation in a wide array of applications. Its blend of performance, flexibility, and energy efficiency makes it a popular choice among engineers and designers looking to create innovative, sustainable designs in the rapidly evolving tech landscape.