ADSP-BF531WBBCZ-4A AD [Analog Devices], ADSP-BF531WBBCZ-4A Datasheet - Page 4

ADSP-BF531WBBCZ-4A

Manufacturer Part Number

ADSP-BF531WBBCZ-4A

Description

Blackfin Embedded Processor

Manufacturer

AD [Analog Devices]

Datasheet

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ADSP-BF531/ADSP-BF532

GENERAL DESCRIPTION

The ADSP-BF531/ADSP-BF532 processors are members of the

Blackfin family of products, incorporating the Analog Devices/

Intel Micro Signal Architecture (MSA). Blackfin processors

combine a dual-MAC state-of-the-art signal processing engine,

the advantages of a clean, orthogonal RISC-like microprocessor

instruction set, and single instruction, multiple data (SIMD)

multimedia capabilities into a single instruction set architecture.

The Blackfin processors are completely code and pin compati-

ble, differing only with respect to their performance and on-

chip memory. Specific performance and memory configura-

tions are shown in

Table 1. Processor Comparison

By integrating a rich set of industry-leading system peripherals

and memory, Blackfin processors are the platform of choice for

next generation applications that require RISC-like program-

mability, multimedia support, and leading-edge signal

processing in one integrated package.

PORTABLE LOW POWER ARCHITECTURE

Blackfin processors provide world-class power management

and performance. Blackfin processors are designed in a low

power and low voltage design methodology and feature

dynamic power management—the ability to vary both the volt-

age and frequency of operation to significantly lower overall

power consumption. Varying the voltage and frequency can

result in a substantial reduction in power consumption, com-

pared with just varying the frequency of operation. This

translates into longer battery life for portable appliances.

SYSTEM INTEGRATION

The ADSP-BF531/ADSP-BF532 processors are highly inte-

grated system-on-a-chip solutions for the next generation of

digital communication and consumer multimedia applications.

By combining industry-standard interfaces with a high perfor-

mance signal processing core, users can develop cost-effective

solutions quickly without the need for costly external compo-

nents. The system peripherals include a UART port, an SPI port,

two serial ports (SPORTs), four general-purpose timers (three

with PWM capability), a real-time clock, a watchdog timer, and

a parallel peripheral interface.

Maximum Performance 400 MHz 800 MMACs 400 MHz 800 MMACs

Instruction

SRAM/Cache

Instruction SRAM

Data

SRAM/Cache

Scratchpad

Table

ADSP-BF531

16K bytes

4K bytes

16K bytes

ADSP-BF532

16K bytes

32K bytes

4K bytes

Rev. D | Page 4 of 60 | August 2006

ADSP-BF531/ADSP-BF532 PROCESSOR

PERIPHERALS

The ADSP-BF531/ADSP-BF532 processor contains a rich set of

peripherals connected to the core via several high bandwidth

buses, providing flexibility in system configuration as well as

excellent overall system performance (see the functional block

diagram in

als include functions such as UART, timers with PWM (pulse-

width modulation) and pulse measurement capability, general-

purpose flag I/O pins, a real-time clock, and a watchdog timer.

This set of functions satisfies a wide variety of typical system

support needs and is augmented by the system expansion capa-

bilities of the part. In addition to these general-purpose

peripherals, the ADSP-BF531/ADSP-BF532 processor contains

high speed serial and parallel ports for interfacing to a variety of

audio, video, and modem codec functions; an interrupt control-

ler for flexible management of interrupts from the on-chip

peripherals or external sources; and power management control

functions to tailor the performance and power characteristics of

the processor and system to many application scenarios.

All of the peripherals, except for general-purpose I/O, real-time

clock, and timers, are supported by a flexible DMA structure.

There is also a separate memory DMA channel dedicated to

data transfers between the processor’s various memory spaces,

including external SDRAM and asynchronous memory. Multi-

ple on-chip buses running at up to 133 MHz provide enough

bandwidth to keep the processor core running along with activ-

ity on all of the on-chip and external peripherals.

The ADSP-BF531/ADSP-BF532 processor includes an on-chip

voltage regulator in support of the ADSP-BF531/ADSP-BF532

processor dynamic power management capability. The voltage

regulator provides a range of core voltage levels from a single

2.25 V to 3.6 V input. The voltage regulator can be bypassed at

the user’s discretion.

BLACKFIN PROCESSOR CORE

As shown in

contains two 16-bit multipliers, two 40-bit accumulators, two

40-bit ALUs, four video ALUs, and a 40-bit shifter. The compu-

tation units process 8-bit, 16-bit, or 32-bit data from the

The compute register file contains eight 32-bit registers. When

performing compute operations on 16-bit operand data, the

operands for compute operations come from the multiported

Each MAC can perform a 16-bit by 16-bit multiply in each

cycle, accumulating the results into the 40-bit accumulators.

Signed and unsigned formats, rounding, and saturation are

supported.

The ALUs perform a traditional set of arithmetic and logical

operations on 16-bit or 32-bit data. In addition, many special

instructions are included to accelerate various signal processing

tasks. These include bit operations such as field extract and

Figure 1 on Page

Figure 2 on Page

1). The general-purpose peripher-

6, the Blackfin processor core

ADSP-BF531WBBCZ-4A AD [Analog Devices], ADSP-BF531WBBCZ-4A Datasheet - Page 4

ADSP-BF531WBBCZ-4A

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