ADSP-21266SKSTZ-2D Analog Devices Inc, ADSP-21266SKSTZ-2D Datasheet - Page 10

ADSP-21266SKSTZ-2D

Manufacturer Part Number

ADSP-21266SKSTZ-2D

Description

IC,DSP,32-BIT,CMOS,QFP,144PIN,PLASTIC

Manufacturer

Analog Devices Inc

Series

SHARC®r

Type

Fixed/Floating Pointr

Datasheets

1.ADSP-21266SKSTZ-1D.pdf (44 pages)

2.ADSP-21266SKSTZ-2D.pdf (44 pages)

Specifications of ADSP-21266SKSTZ-2D

Interface

DAI, SPI

Clock Rate

200MHz

Non-volatile Memory

ROM (512 kB)

On-chip Ram

256kB

Voltage - I/o

3.30V

Voltage - Core

1.20V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

144-LQFP

Device Core Size

32b

Architecture

Super Harvard

Format

Floating Point

Clock Freq (max)

200MHz

Mips

200

Device Input Clock Speed

200MHz

Ram Size

256KB

Program Memory Size

512KB

Operating Supply Voltage (typ)

1.2/3.3V

Operating Supply Voltage (min)

1.14/3.13V

Operating Supply Voltage (max)

1.26/3.47V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

144

Package Type

LQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

ADSP-21266SKSTZ-2D

Manufacturer:

Analog Devices Inc

Quantity:

10 000

Current page: 10 of 44
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ADSP-21266

The VisualDSP++ IDDE lets programmers define and manage

DSP software development. Its dialog boxes and property pages

let programmers configure and manage all of the SHARC devel-

opment tools, including the color syntax highlighting in the

VisualDSP++ editor. This capability permits programmers to:

The VisualDSP++ Kernel (VDK) incorporates scheduling and

resource management tailored specifically to address the mem-

ory and timing constraints of DSP programming. These

capabilities enable engineers to develop code more effectively,

eliminating the need to start from the very beginning when

developing new application code. The VDK features include

threads, critical and unscheduled regions, semaphores, events,

and device flags. The VDK also supports priority-based, pre-

emptive, cooperative, and time-sliced scheduling approaches. In

addition, the VDK was designed to be scalable. If the application

does not use a specific feature, the support code for that feature

is excluded from the target system.

Because the VDK is a library, a developer can decide whether to

use it or not. The VDK is integrated into the VisualDSP++

development environment, but can also be used via standard

command line tools. When the VDK is used, the development

environment assists the developer with many error-prone tasks

and assists in managing system resources, automating the gen-

eration of various VDK-based objects, and visualizing the

system state when debugging an application that uses the VDK.

VisualDSP++ Component Software Engineering (VCSE) is

Analog Devices’ technology for creating, using, and reusing

software components (independent modules of substantial

functionality) to quickly and reliably assemble software applica-

tions. It also is used for downloading components from the

Web, dropping them into the application, and publishing com-

ponent archives from within VisualDSP++. VCSE supports

component implementation in C/C++ or assembly language.

Use the expert linker to visually manipulate the placement of

code and data on the embedded system. View memory utiliza-

tion in a color-coded graphical form, easily move code and data

to different areas of the DSP or external memory with a drag of

the mouse, and examine run-time stack and heap usage. The

expert linker is fully compatible with existing linker definition

file (LDF), allowing the developer to move between the graphi-

cal and textual environments.

In addition to the software and hardware development tools

available from Analog Devices, third parties provide a wide

range of tools supporting the SHARC processor family. Hard-

ware tools include SHARC processor PC plug-in cards. Third

party software tools include DSP libraries, real-time operating

systems, and block diagram design tools.

EVALUATION KIT

Analog Devices offers a range of EZ-KIT Lite

forms to use as a cost-effective method to learn more about

developing or prototyping applications with Analog Devices

• Control how the development tools process inputs and

• Maintain a one-to-one correspondence with the tools’

generate outputs

command line switches

®†

evaluation plat-

Rev. C | Page 10 of 44 | October 2007

processors, platforms, and software tools. Each EZ-KIT Lite

includes an evaluation board along with an evaluation suite of

the VisualDSP++ development and debugging environment

with the C/C++ compiler, assembler, and linker. Also included

are sample application programs, power supply, and a USB

cable. All evaluation versions of the software tools are limited

for use only with the EZ-KIT Lite product.

The USB controller on the EZ-KIT Lite board connects the

board to the USB port of the user’s PC, enabling the

VisualDSP++ evaluation suite to emulate the on-board proces-

sor in-circuit. This permits the customer to download, execute,

and debug programs for the EZ-KIT Lite system. It also allows

in-circuit programming of the on-board flash device to store

user-specific boot code, enabling the board to run as a standal-

one unit, without being connected to the PC.

With a full version of VisualDSP++ installed (sold separately),

engineers can develop software for the EZ-KIT Lite or any cus-

tom-defined system. Connecting one of Analog Devices JTAG

emulators to the EZ-KIT Lite board enables high speed, nonin-

trusive emulation.

DESIGNING AN EMULATOR-COMPATIBLE DSP

BOARD (TARGET)

The Analog Devices family of emulators are tools that every

DSP developer needs to test and debug hardware and software

systems. Analog Devices has supplied an IEEE 1149.1 JTAG test

access port (TAP) on each JTAG DSP. Nonintrusive in-circuit

emulation is assured by the use of the processor’s JTAG inter-

face—the emulator does not affect target system loading or

timing. The emulator uses the TAP to access the internal fea-

tures of the DSP, allowing the developer to load code, set

breakpoints, observe variables, observe memory, and examine

registers. The DSP must be halted to send data and commands,

but once an operation has been completed by the emulator, the

DSP system is set running at full speed with no impact on sys-

tem timing.

To use these emulators, the target board must include a header

that connects the DSP’s JTAG port to the emulator.

For details on target board design issues including mechanical

layout, single processor connections, multiprocessor scan

chains, signal buffering, signal termination, and emulator pod

logic, see the EE-68: Analog Devices JTAG Emulation Technical

Reference on the Analog Devices website (www.analog.com)—

use site search on “EE-68.” This document is updated regularly

to keep pace with improvements to emulator support.

ADDITIONAL INFORMATION

This data sheet provides a general overview of the ADSP-21266

architecture and functionality. For detailed information on the

ADSP-2126x family core architecture and instruction set, refer

to the ADSP-2126x SHARC DSP Core Manual and the

ADSP-21160 SHARC DSP Instruction Set Reference.

†

EZ-KIT Lite is a registered trademark of Analog Devices, Inc.

ADSP-21266SKSTZ-2D Analog Devices Inc, ADSP-21266SKSTZ-2D Datasheet - Page 10

ADSP-21266SKSTZ-2D

Specifications of ADSP-21266SKSTZ-2D

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