Datasheet
Table Of Contents
- Summary
- Dedicated Audio Components
- Table of Contents
- Revision History
- General Description
- SHARC Family Core Architecture
- SIMD Computational Engine
- Independent, Parallel Computation Units
- Data Register File
- Context Switch
- Universal Registers
- Timer
- Single-Cycle Fetch of Instruction and Four Operands
- Instruction Cache
- Data Address Generators with Zero-Overhead Hardware Circular Buffer Support
- Flexible Instruction Set
- On-Chip Memory
- On-Chip Memory Bandwidth
- ROM-Based Security
- Family Peripheral Architecture
- I/O Processor Features
- System Design
- Development Tools
- Additional Information
- Related Signal Chains
- SHARC Family Core Architecture
- Pin Function Descriptions
- Specifications
- Operating Conditions
- Electrical Characteristics
- Package Information
- ESD Caution
- Maximum Power Dissipation
- Absolute Maximum Ratings
- Timing Specifications
- Core Clock Requirements
- Power-Up Sequencing
- Clock Input
- Clock Signals
- Reset
- Interrupts
- Core Timer
- Timer PWM_OUT Cycle Timing
- Timer WDTH_CAP Timing
- DAI Pin to Pin Direct Routing
- Precision Clock Generator (Direct Pin Routing)
- Flags
- Memory Read—Parallel Port
- Memory Write—Parallel Port
- Serial Ports
- Input Data Port (IDP)
- Parallel Data Acquisition Port (PDAP)
- Pulse-Width Modulation Generators
- Sample Rate Converter—Serial Input Port
- Sample Rate Converter—Serial Output Port
- S/PDIF Transmitter
- S/PDIF Receiver
- SPI Interface—Master
- SPI Interface—Slave
- JTAG Test Access Port and Emulation
- Output Drive Currents
- Test Conditions
- Capacitive Loading
- Thermal Characteristics
- 144-Lead LQFP_EP Pin Configurations
- 136-Ball BGA Pin Configurations
- Package Dimensions
- Automotive Products
- Ordering Guide
Rev. J | Page 10 of 60 | July 2013
ADSP-21362/ADSP-21363/ADSP-21364/ADSP-21365/ADSP-21366
VisualDSP++. For more information visit www.analog.com and
search on “Blackfin software modules” or “SHARC software
modules”.
Designing an Emulator-Compatible DSP Board (Target)
For embedded system test and debug, Analog Devices provides
a family of emulators. On each JTAG DSP, Analog Devices sup-
plies an IEEE 1149.1 JTAG Test Access Port (TAP). In-circuit
emulation is facilitated by use of this JTAG interface. The emu-
lator accesses the processor’s internal features via the
processor’s TAP, allowing the developer to load code, set break-
points, and view variables, memory, and registers. The
processor must be halted to send data and commands, but once
an operation is completed by the emulator, the DSP system is set
to run at full speed with no impact on system timing. The emu-
lators require the target board to include a header that supports
connection of the DSP’s JTAG port to the emulator.
For details on target board design issues including mechanical
layout, single processor connections, signal buffering, signal ter-
mination, and emulator pod logic, see the Engineer-to-Engineer
Note “Analog Devices JTAG Emulation Technical Reference”
(EE-68) 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
processor’s architecture and functionality. For detailed informa-
tion on the ADSP-2136x family core architecture and
instruction set, refer to the ADSP-2136x SHARC Processor
Hardware Reference and the ADSP-2136x SHARC Processor
Programming Reference.
RELATED SIGNAL CHAINS
A signal chain is a series of signal-conditioning electronic com-
ponents that receive input (data acquired from sampling either
real-time phenomena or from stored data) in tandem, with the
output of one portion of the chain supplying input to the next.
Signal chains are often used in signal processing applications to
gather and process data or to apply system controls based on
analysis of real-time phenomena. For more information about
this term and related topics, see the “signal chain” entry in the
Glossary of EE Terms on the Analog Devices website.
Analog Devices eases signal processing system development by
providing signal processing components that are designed to
work together well. A tool for viewing relationships between
specific applications and related components is available on the
www.analog.com website.
The Circuits from the Lab
TM
site
(http://www.analog.com/signalchains) provides:
• Graphical circuit block diagram presentation of signal
chains for a variety of circuit types and applications
• Drill down links for components in each chain to selection
guides and application information
• Reference designs applying best practice design techniques