TMS320F28044_10 Datasheet, PDF(23/115 Page) Texas Instruments

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TMS320F28044_10 Datasheet, PDF (23/115 Pages) Texas Instruments – Digital Signal Processor

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TMS320F28044

www.ti.com

SPRS357C â AUGUST 2006 â REVISED JANUARY 2010

3.2 Brief Descriptions

3.2.1 C28x CPU

The C28xâ¢ DSP generation is the newest member of the TMS320C2000â¢ DSP platform. The C28x is a

very efficient C/C++ engine, hence enabling users to develop not only their system control software in a

high-level language, but also enables math algorithms to be developed using C/C++. The C28x is as

efficient in DSP math tasks as it is in system control tasks that typically are handled by microcontroller

devices. This efficiency removes the need for a second processor in many systems. The 32 x 32-bit MAC

capabilities of the C28x and its 64-bit processing capabilities, enable the C28x to efficiently handle higher

numerical resolution problems that would otherwise demand a more expensive floating-point processor

solution. Add to this the fast interrupt response with automatic context save of critical registers, resulting in

a device that is capable of servicing many asynchronous events with minimal latency. The C28x has an

8-level-deep protected pipeline with pipelined memory accesses. This pipelining enables the C28x to

execute at high speeds without resorting to expensive high-speed memories. Special branch-look-ahead

hardware minimizes the latency for conditional discontinuities. Special store conditional operations further

improve performance.

3.2.2 Memory Bus (Harvard Bus Architecture)

As with many DSP type devices, multiple busses are used to move data between the memories and

peripherals and the CPU. The C28x memory bus architecture contains a program read bus, data read bus

and data write bus. The program read bus consists of 22 address lines and 32 data lines. The data read

and write busses consist of 32 address lines and 32 data lines each. The 32-bit-wide data busses enable

single cycle 32-bit operations. The multiple bus architecture, commonly termed "Harvard Bus", enables the

C28x to fetch an instruction, read a data value and write a data value in a single cycle. All peripherals and

memories attached to the memory bus will prioritize memory accesses. Generally, the priority of memory

bus accesses can be summarized as follows:

Highest:

Data Writes

Program Writes

(Simultaneous data and program writes cannot occur on the

memory bus.)

(Simultaneous data and program writes cannot occur on the

memory bus.)

Lowest:

Data Reads

Program Reads

Fetches

(Simultaneous program reads and fetches cannot occur on the

memory bus.)

(Simultaneous program reads and fetches cannot occur on the

memory bus.)

3.2.3 Peripheral Bus

To enable migration of peripherals between various Texas Instruments (TI) DSP family of devices, the

F28044 device adopts a peripheral bus standard for peripheral interconnect. The peripheral bus bridge

multiplexes the various busses that make up the processor Memory Bus into a single bus consisting of 16

address lines and 16 or 32 data lines and associated control signals. Two versions of the peripheral bus

are supported on the F28044. One version only supports 16-bit accesses (called peripheral frame 2). The

other version supports both 16-bit and 32-bit accesses (called peripheral frame 1).

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Functional Overview

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