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TMS320C28346ZFEQ TMS320C28346ZFEQ 38706 Texas Instruments IC DSP FLOATING POINT 256BGA 256-BGA
TMS320DM368ZCEDF TMS320DM368ZCEDF 49279 Texas Instruments IC DGTL MEDIA SOC 338NFBGA 338-LFBGA
ADSP-BF607BBCZ-5 ADSP-BF607BBCZ-5 11403 Analog Devices Inc. IC DSP CTRLR 349CSBGA 349-LFBGA, CSPBGA
TMS320P25PH TMS320P25PH 30434 Texas Instruments DIGITAL SIGNAL PROCESSOR, 16-BIT Bulk
TMS320C6713BZDP225 TMS320C6713BZDP225 6101 Texas Instruments IC FLOATING-POINT DSP 272-BGA 272-BBGA
ADSP-2105BP-55-G ADSP-2105BP-55-G 23010 Rochester Electronics, LLC DIGITAL SIGNAL PROCESSORS Bulk
ADSP-21573BBCZ-4 ADSP-21573BBCZ-4 15501 Analog Devices Inc. 2X SHARC, DDR, BGA PACKAGE 400-LFBGA, CSPBGA
ADSP-21563KSWZ8 ADSP-21563KSWZ8 29147 Analog Devices Inc. 800 MHZ SHARC IN AN LQFP PACKAGE 120-LQFP Exposed Pad
ADSP-21573KBCZ-4 ADSP-21573KBCZ-4 47845 Analog Devices Inc. 2X SHARC, DDR, BGA PACKAGE 400-LFBGA, CSPBGA
ADSP-SC570CSWZ-4 ADSP-SC570CSWZ-4 28246 Analog Devices Inc. ARM, 1X SHARC, LQFP PACKAGE, 450 176-LQFP Exposed Pad
ADSP-21571CSWZ-5 ADSP-21571CSWZ-5 19468 Analog Devices Inc. 500 MHZ 2X SHARC, LQFP PACKAGE 176-LQFP Exposed Pad
TMS320BC53PQA TMS320BC53PQA 13124 Texas Instruments DIGITAL SIGNAL PROCESSOR, 16-BIT Bulk
ADSP-21569BBCZ10 ADSP-21569BBCZ10 16730 Analog Devices Inc. 1000 MHZ SHARC WITH DDR IN A BGA 400-LBGA, CSPBGA
ADSP-2101KS-40 ADSP-2101KS-40 43154 Analog Devices Inc. 16-BIT DIGITAL SIGNAL PROCESSOR 80-BQFP
ADSP-2101BP-66 ADSP-2101BP-66 33641 Analog Devices Inc. 16-BIT DIGITAL SIGNAL PROCESSOR 68-LCC (J-Lead)
ADSP-BF534BBCZ-5A ADSP-BF534BBCZ-5A 35293 Analog Devices Inc. IC DSP CTLR 16BIT 182CSBGA 182-LFBGA, CSPBGA
ADSP-21565BSWZ10 ADSP-21565BSWZ10 12546 Analog Devices Inc. 1000 MHZ SHARC IN AN LQFP PACKAG 120-LQFP Exposed Pad
ADSP-BF524BBCZ-4A ADSP-BF524BBCZ-4A 8659 Analog Devices Inc. IC DSP CTRLR 400MHZ 208CSBGA 208-FBGA, CSPBGA
MC68882FN16A MC68882FN16A 20534 Motorola MATH COPROCESSOR, SUPPORTS MC680 68-LCC (J-Lead)
ADSP-21489BSWZ-3B ADSP-21489BSWZ-3B 6664 Analog Devices Inc. IC CCD SIGNAL PROCESSOR 176LQFP 176-LQFP Exposed Pad

DSP (Digital Signal Processors)

1. What are DSP (Digital Signal Processors)?‌

‌DSP (Digital Signal Processor)‌ is a microprocessor designed for high-speed digital signal processing algorithms. It performs filtering, compression, enhancement, and other operations by processing the digital sequence converted from analog signals in real-time. It is widely used in communications, medicine, consumer electronics, and other fields. Its essence is to process real signals in digital form to extract and convert information.

 

2. What are the ‌Core Hardware Features of DSP (Digital Signal Processors)?‌

‌Harvard Structure

The program and data storage space are independent, supporting parallel execution of instruction reading and data operations, significantly improving throughput efficiency.

 

‌Dedicated Hardware Acceleration Unit

Built-in hardware multiplier (MAC), single-cycle multiplication and addition operations, suitable for intensive calculations such as matrix operations and Fourier transforms.

 

Multi-address generator reduces memory access bottlenecks.

 

‌Pipeline Technology

Instructions are decomposed into multi-stage parallel processing such as instruction fetch, decoding, and execution to achieve efficient pipeline operations.

 

‌Low-latency Response

Fast interrupt processing and hardware I/O support to meet scenarios with high real-time requirements (such as industrial control).

 

3. What are the ‌Typical Application Scenarios of DSP (Digital Signal Processors)?‌

1) ‌Communications‌

Processing fiber dispersion and polarization interference in optical communications to achieve signal recovery and equalization.

 

2) ‌Consumer Electronics‌

Audio Processing: frequency division management, delay correction, and EQ adjustment of car audio (such as DSP amplifier);

Wearable Devices: For example, the ATS3085L chip of Actions Technology equipped with an Honor bracelet realizes health monitoring and low-power operation through MCU+DSP dual-core heterogeneous design.

 

3) ‌Embedded System‌

Combined with SBC (single-board computer) to enhance data processing capabilities, used for complex tasks such as aerospace and industrial control.

 

4) ‌Image and Automation‌

The advantages of floating-point operations and matrix processing are suitable for machine vision, motor control, etc.

 

4. ‌Technology Evolution and Trends of DSP (Digital Signal Processors)‌

‌Heterogeneous Integration‌: Modern DSPs are often combined with MCU/ARM cores (such as TI J6/J7), taking into account general computing and special processing capabilities.

‌Energy Efficiency Optimization‌: Low power consumption design promotes its penetration in the Internet of Things and wearable devices (such as Actions chip power consumption <150μA).

 

5. ‌Summary‌

DSP has become the core device of digital technology with its customized hardware architecture and real-time processing capabilities, covering all scenarios from high-end communication equipment to daily consumer electronics, and continuously promoting the innovation of signal processing technology.

 

6. DSP (Digital Signal Processors) FAQs

1) ‌How to deal with excessive power ripple? ‌

Adding capacitor filtering can effectively suppress power ripple while ensuring that the reference power supply and analog power supply are pure.

 

2) ‌Is the external crystal oscillator active or passive? ‌

It is recommended to use a passive crystal rather than an active crystal oscillator to ensure clock stability.

 

3) ‌Multi-DSP system clock synchronization solution? ‌

Use a dedicated clock chip to unify the clock source to avoid timing confusion.

 

4) ‌A/D conversion accuracy assurance measures? ‌

It is necessary to independently purify the analog power supply and reference power supply to reduce noise interference.