ADSP-SC592
1 GHz SHARC+® DSP w/ Integrated Arm® Cortex®-A5
Show More
Not the part you were looking for?
Ask a Question
Submit your question below and we will return the best answer from ADI’s knowledge database:
Other places you can find help
Support
Analog Devices Support Portal is a one-stop shop to answer all your ADI questions.
Visit the ADI Support PageFeatures
- 1 GHz (max) Core clock frequency
- 640KB on-chip Level 1 (L1) SRAM memory (with parity) increases low latency performance
- 32-bit, 40-bit & 64-bit floating point support
- 32-bit fixed point
- Byte, short-word, word, long-word addressed
- 1 GHz Arm Cortex-A5 (with Neon/FPU)
- 32 kByte/32 kByte L1 Instr./Data Cache
- 256 kByte L2 Cache
- 2048 KB on-chip Level 2 (L2) SRAM with ECC protection - eliminates need for external memory in many use cases
- Level 3 (L3) interface optimized for low system power, providing 16-bit interface to DDR3 (supporting 1.35 V capable DDR3L devices)
- 1.35V support for DDR3L
- Enhanced FIR/IIR offload engines running at Core clock frequency for added processing power
- Security Crypto Engines with OTP
Innovative Digital Audio Interface (DAI) includes:
- 8x Full SPORT interfaces w/TDM & I2S modes
- 2x S/PDIF Rx/Tx, 8 ASRC pairs
- 8x Precision Clock Generators
- 2x 4-channel PDM Mic Inputs
- 40 Buffers
- 2x Quad SPI, 1x Octal SPI
- MLB 3-pin / 6-pin
- 6x I2C,3x UARTs
- 2x Link Ports
- 16x General Purpose Timer, 1x General Purpose Counter
- 3x Watchdog Timers
- ePPI
- USB 2.0 HS OTG Controller
- 10/100 EMAC
- 10/100/1000 EMAC w/AVB and 1588
- 2x CAN FD
- 8-ch 12bit Housekeeping ADC
- 135 GPIO pins, 40 DAI pins
- Thermal Sensor
- 17mm x 17mm (0.8mm pitch) 400-ball FCBGA
- Security and Protection
- Crypto hardware accelerators
- Fast secure boot with IP protection
- Enhanced FIR and IIR accelerators running up to 1 GHz
- AEC-Q100 qualified for automotive applications
Reaching speeds of up to 1 GHz, the ADSP-SC59x processors are members of the SHARC® family of products. The ADSP-SC59x processor is a dual-SHARC+® core DSP that doubles the audio performance of its single-SHARC+ core ADSP-2156x predecessor and adds an integrated Arm Cortex-A5 core, also running at up to 1 GHz. The A5 processor, with FPU and Neon® DSP extensions, handles additional real-time processing tasks and manages peripherals used to interface to time-critical data in audio applications. These interfaces include Gigabit Ethernet, USB High-Speed, CAN FD, and a rich variety of other connectivity options for a flexible and simplified system design.
The ADSP-SC59x SHARC processors are members of the SIMD SHARC family of digital signal processors (DSPs) that feature Analog Devices, Inc., Super Harvard Architecture. These 32-bit/40-bit/64-bit floating-point processors are optimized for high performance audio/floating-point applications with large on-chip static random-access memory (SRAM), multiple internal buses that eliminate input/output (I/O) bottlenecks, and innovative digital audio interfaces (DAI). New additions to the SHARC+ core include cache enhancements and branch prediction, while maintaining instruction set compatibility to previous SHARC products.
By integrating a rich set of industry-leading system peripherals and memory (see Table 1 in the data sheet), the SHARC+ processor is the platform of choice for applications that require programmability similar to reduced instruction set computing (RISC), multimedia support, and leading edge signal processing in one integrated package. These applications span a wide array of markets, including automotive, professional audio, and industrial-based applications that require high floating-point performance.
Applications
- Automotive:
- audio amplifier, head unit, ANC/RNC, rear seat entertainment, digital cockpit, ADAS
- Consumer & Professional Audio:
- speakers, sound bars, AVRs, conferencing systems, mixing consoles, microphone arrays, headphones
Ask a Question
Submit your question below and we will return the best answer from ADI’s knowledge database:
Other places you can find help
Support
Analog Devices Support Portal is a one-stop shop to answer all your ADI questions.
Visit the ADI Support Page{{modalTitle}}
{{modalDescription}}
{{dropdownTitle}}
- {{defaultSelectedText}} {{#each projectNames}}
- {{name}} {{/each}} {{#if newProjectText}}
- {{newProjectText}} {{/if}}
{{newProjectTitle}}
{{projectNameErrorText}}
ADSP-SC592
Documentation
Filters
1 Applied
Data Sheet
2
Application Note
12
Processor Manual
2
Informational
1
HTML
Integrated Circuit Anomaly
1
Documentation
Data Sheet 1
Application Note 12
Processor Manual 2
Integrated Circuit Anomaly 1
Informational 1
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
---|---|---|---|
ADSP-SC592BBPZ10 | 400-Ball BGA_ED (17mm x 17mm x 1.649mm) |
|
|
ADSP-SC592KBPZ10 | 400-Ball BGA_ED (17mm x 17mm x 1.649mm) |
|
- ADSP-SC592BBPZ10
- Pin/Package Drawing
- 400-Ball BGA_ED (17mm x 17mm x 1.649mm)
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
- ADSP-SC592KBPZ10
- Pin/Package Drawing
- 400-Ball BGA_ED (17mm x 17mm x 1.649mm)
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
Software & Part Ecosystem
Middleware
Software Development Tools
CrossCore® Embedded Studio
CCES is a world-class integrated development environment (IDE) for the ADI Blackfin®, SHARC® and Arm® processor families.
CrossCore® Utilities
CrossCore Utilities is a collection of utilities for use with Analog Devices processors, in conjunction with CrossCore Embedded Studio, IAR or Keil development tools.
SigmaStudio®+
Looking for Evaluation Software? You can find it here
Evaluation Kits 1
EV-SC594-SOM
System-on-Module (SOM) Board to Evaluate the ADSP-SC594/2 and ADSP-21594 SHARC+® Audio Processors
Product Detail
The EV-SC594-SOM enables evaluation and rapid prototyping of designs featuring the ADSP-SC59x Family (ADSP-SC592/ADSP-SC594) of SHARC audio processors. It provides an easy-to-use plug-n-play reference design with expansion capabilities to interface to custom hardware ahead of the release of the processor itself. When the EV-SC594-SOM board is plugged into the EV-SOMCRR-EZKIT or EV-SOMCRR-EZLITE carrier board, the resulting EZ-KIT® evaluation system can be used for fast and easy evaluation of the processor core and system peripherals/interfaces.
The EV-SC594-SOM enables rapid prototyping for a wide range of applications, including immersive 3D sound and personal audio zones (PAZ), automotive active and road noise cancellation (ANC/RNC), voice-based user-interfaces and in-car communications (ICC), engine sound synthesis (ESS) and electric vehicle warning sound systems (EVWSS/AVAS). Additional applications include professional audio and soundbars / home AVRs (with 3D Object and Multi-Channel Audio) and enhanced conferencing systems. ADI offers several software modules (e.g., AEC/NR, microphone beamforming, pitch shifting, harmonic generators, wave players etc.), as well as complete software solutions that can be licensed, where users can develop/evaluate their audio and voice processing applications. ADI also offers 3rd party surround sound solutions that can be licensed on ADI’s SHARC processor families. Please visit ADI’s Software Solutions page for more information.
The EV-SC594-SOM module utilizes the CrossCore® Embedded Studio (CCES) development tools to enable developers to achieve faster time to market. The development environment aids advanced application code development and debug, such as:
- Create, compile, assemble, and link application programs written in C++, C, and assembly
- Load, run, step, halt, and set breakpoints in application programs
- Read and write data and program memory
- Read and write core and peripheral registers
Resources