Parameters | |
---|---|
Series | SHARC® |
Moisture Sensitivity Level (MSL) | 3 (168 Hours) |
Package / Case | 240-BFQFP Exposed Pad |
Interface | Host Interface, Link Port, Serial Port |
Mfr | Analog Devices Inc. |
Mounting Type | Surface Mount |
Operating Temperature | -40°C ~ 100°C (TC) |
Type | Floating Point |
Supplier Device Package | 240-MQFP-EP (32x32) |
Non-Volatile Memory | External |
Voltage - I/O | 3.30V |
Voltage - Core | 3.30V |
Clock Rate | 40MHz |
On-Chip RAM | 256kB |
Package | Tray |
Product Status | Obsolete |
Base Product Number | ADSP-21062 |
Other Names | ADSP21062LCSZ160 |
Standard Package | 1 |
ECCN | 3A991A2 |
HTSUS | 8542.31.0001 |
The ADSP-21062LCSZ-160 is a SHARC series digital signal processor (DSP) manufactured by Analog Devices. The processor is known for its high speed and low power consumption, making it particularly suitable for applications that require complex mathematical operations and signal processing. The ADSP-21062LCSZ-160 has a 40MHz SISD SHARC core capable of delivering peak performance of up to 120 MFLOPS. It supports compatibility with all SHARC processor code and is capable of performing IEEE standard 32-bit floating-point, 40-bit floating-point, and 32-bit fixed-point operations. In addition, the DSP comes with 2Mb of dual-port SRAM on chip and glue-free connectivity for scalable DSP multiprocessing.
ADSP-21062LCSZ-160 Features
- 40MHz SISD SHARC core with 25ns instruction rate
- 120 MFLOPS of peak performance
- Support IEEE standard floating-point and fixed-point arithmetic
- 2Mb of dual-port SRAM on chip, providing ample cache space
- No glue connection function, easy to achieve DSP multi-processing
- Six link ports, supporting point-to-point connections and array multiprocessing
- Two synchronous serial ports, with independent transmit and receive functions
- 10-channel DMA controller to improve data transmission efficiency
- Main processor interface for easy collaboration with other processors
ADSP-21062LCSZ-160 Applications
The ADSP-21062LCSZ-160 DSP is suitable for a variety of high-performance signal processing applications, including but not limited to:
1. High fidelity audio processing: such as audio codec, sound processing, etc
2. Communication system: such as modem, signal modulation and demodulation
3. Industrial control: such as motor control, sensor data processing, etc
4. Medical equipment: such as ultrasonic imaging, medical signal analysis, etc
5. Military and avionics: such as radar signal processing, navigation systems, etc