Analog Devices Inc. ADSP-21160MKB-80
- Part Number:
- ADSP-21160MKB-80
- Manufacturer:
- Analog Devices Inc.
- Ventron No:
- 3631254-ADSP-21160MKB-80
- Description:
- IC DSP CONTROLLER 32BIT 400 BGA
- Datasheet:
- ADSP-21160MKB-80
Analog Devices Inc. ADSP-21160MKB-80 technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. ADSP-21160MKB-80.
- Contact PlatingLead, Silver, Tin
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case400-BBGA
- Number of Pins400
- Operating Temperature0°C~85°C TC
- PackagingTray
- SeriesSHARC®
- JESD-609 Codee0
- Pbfree Codeno
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)3 (168 Hours)
- Number of Terminations400
- ECCN Code3A991.A.2
- Terminal FinishTin/Lead/Silver (Sn62Pb36Ag2)
- HTS Code8542.31.00.01
- SubcategoryDigital Signal Processors
- TechnologyCMOS
- Terminal PositionBOTTOM
- Terminal FormBALL
- Peak Reflow Temperature (Cel)220
- Supply Voltage2.5V
- Terminal Pitch1.27mm
- Frequency80MHz
- Reflow Temperature-Max (s)20
- Base Part NumberADSP-21160
- Pin Count400
- Operating Supply Voltage2.63V
- Power Supplies2.53.3V
- InterfaceHost Interface, Link Port, Serial Port
- Max Supply Voltage3.47V
- Min Supply Voltage2.37V
- Memory Size4MB
- RAM Size512kB
- Number of Bits32
- Supply Current-Max1410mA
- Bit Size32
- Data Bus Width32b
- Address Bus Width32
- Core ArchitectureSHARC
- Boundary ScanYES
- Low Power ModeYES
- RAM (words)131072
- Voltage - I/O3.30V
- Barrel ShifterYES
- Internal Bus ArchitectureMULTIPLE
- Non-Volatile MemoryExternal
- Voltage - Core2.50V
- Height Seated (Max)2.49mm
- Length27mm
- Radiation HardeningNo
- RoHS StatusNon-RoHS Compliant
- Lead FreeContains Lead
ADSP-21160MKB-80 Overview
This product features a Surface Mount design, making it suitable for a variety of electronic applications. However, please note that this product is currently listed as Obsolete. The HTS Code for this product is 8542.31.00.01, indicating its classification as a CMOS technology device. With a Supply Voltage of 2.5V and a Terminal Pitch of 1.27mm, this product offers stable and efficient performance. It also has a Pin Count of 400 and a Min Supply Voltage of 2.37V, ensuring compatibility with a wide range of systems. Additionally, this product boasts a Bit Size of 32 and a maximum seated height of 2.49mm.
ADSP-21160MKB-80 Features
Supplied in the 400-BBGA package
Operating supply voltage of 2.63V
ADSP-21160MKB-80 Applications
There are a lot of Analog Devices Inc. ADSP-21160MKB-80 DSP applications.
MP3 audio player
Encoding/broadcast
Compression of videos
Biomedical treatment
Sound navigation and ranging systems
Vehicle electronics
Audio synthesis
Airplanes
Dam design
Biometrics
This product features a Surface Mount design, making it suitable for a variety of electronic applications. However, please note that this product is currently listed as Obsolete. The HTS Code for this product is 8542.31.00.01, indicating its classification as a CMOS technology device. With a Supply Voltage of 2.5V and a Terminal Pitch of 1.27mm, this product offers stable and efficient performance. It also has a Pin Count of 400 and a Min Supply Voltage of 2.37V, ensuring compatibility with a wide range of systems. Additionally, this product boasts a Bit Size of 32 and a maximum seated height of 2.49mm.
ADSP-21160MKB-80 Features
Supplied in the 400-BBGA package
Operating supply voltage of 2.63V
ADSP-21160MKB-80 Applications
There are a lot of Analog Devices Inc. ADSP-21160MKB-80 DSP applications.
MP3 audio player
Encoding/broadcast
Compression of videos
Biomedical treatment
Sound navigation and ranging systems
Vehicle electronics
Audio synthesis
Airplanes
Dam design
Biometrics
ADSP-21160MKB-80 More Descriptions
DSP Fixed-Point/Floating-Point 32bit 80MHz 400-Pin BGA Tray / IC DSP CONTROLLER 32BIT 400 BGA
Float Pt Digital Signal Processor -Dsp, 32 Bit, 80Mhz, Bga-400
Digital Signal Processor, 32-Bit Size, 48-Ext Bit, 33MHz, CMOS, PQFP240
The ADSP-21160M DSP is a SHARC processor that is optimized for applications such as telephony, medical imaging, radar/sonar electronics, communications, 3D graphics and imaging. The ADSP-21160M features a Single-Instruction-Multiple-Data (SIMD) architecture. Using two computational units (ALU, Barrel Shifter, MAC, Register files), the ADSP-21160M can have a five fold performance increase versus the ADSP-2106x on a range of DSP algorithms. It is code compatible with ADI's popular first generation ADSP-2106x SHARC DSPs. Like other SHARCs, the ADSP-21160M is a 32-bit processor that is optimized for high performance DSP applications. The ADSP-21160M includes an 80 MHz core for processing both 32-bit fixed-point and (32-bit, 40-bit) floating-point data types, a dual-ported 4 Mbit on-chip SRAM, an integrated I/O processor with multiprocessing support, and multiple internal busses to eliminate I/O bottlenecks. The ADSP-21160M is optimized for multiprocessing topologies; SHARC supports multiprocessing via link ports or an external port. In the diagram below, both cluster and link port multiprocessing is shown. Over the external port up to six 21160Ms may be connected together without any additional support logic. The arbitration for this shared bus is integrated on-chip. Each SHARC in the cluster has access to every SHARC's internal memory. Through the external port connection, optional external memory may be shared as well. The six link ports are another way to gluelessly connect a multiprocessing system. Both, the links and the cluster can be used simultaneously and systems with hundreds of SHARC DSPs can be developed using both peripherals. Maximize Speed, Minimize Size The ADSP-21160M is offered in a 27mm x 27mm 400-ball PBGA (Plastic Ball Grid Array) package 40% smaller than processors in this performance class. More Processing Per Watt In addition to small size and high performance, the 21160M's power dissipation enables new levels of MFLOPS per watt. The ADSP-21160M typical power dissipation is 2 watts, enabling 240 MFLOPS of performance per watt. This allows designers to use multiple processors on a PCI card within the PCI power limit of 25 watts. With eight 21160M DSPs, providing 480 MFLOPS each, a standard PCI card design can obtain 3.84 GFLOPS performance and leave 9 watts for other circuitry. The ADSP-21160M is supported by hundreds of readily available third-party hardware and software products and ADI's powerful VisualDSP development system, allowing for fast and easy development, debug and deployment.
Float Pt Digital Signal Processor -Dsp, 32 Bit, 80Mhz, Bga-400
Digital Signal Processor, 32-Bit Size, 48-Ext Bit, 33MHz, CMOS, PQFP240
The ADSP-21160M DSP is a SHARC processor that is optimized for applications such as telephony, medical imaging, radar/sonar electronics, communications, 3D graphics and imaging. The ADSP-21160M features a Single-Instruction-Multiple-Data (SIMD) architecture. Using two computational units (ALU, Barrel Shifter, MAC, Register files), the ADSP-21160M can have a five fold performance increase versus the ADSP-2106x on a range of DSP algorithms. It is code compatible with ADI's popular first generation ADSP-2106x SHARC DSPs. Like other SHARCs, the ADSP-21160M is a 32-bit processor that is optimized for high performance DSP applications. The ADSP-21160M includes an 80 MHz core for processing both 32-bit fixed-point and (32-bit, 40-bit) floating-point data types, a dual-ported 4 Mbit on-chip SRAM, an integrated I/O processor with multiprocessing support, and multiple internal busses to eliminate I/O bottlenecks. The ADSP-21160M is optimized for multiprocessing topologies; SHARC supports multiprocessing via link ports or an external port. In the diagram below, both cluster and link port multiprocessing is shown. Over the external port up to six 21160Ms may be connected together without any additional support logic. The arbitration for this shared bus is integrated on-chip. Each SHARC in the cluster has access to every SHARC's internal memory. Through the external port connection, optional external memory may be shared as well. The six link ports are another way to gluelessly connect a multiprocessing system. Both, the links and the cluster can be used simultaneously and systems with hundreds of SHARC DSPs can be developed using both peripherals. Maximize Speed, Minimize Size The ADSP-21160M is offered in a 27mm x 27mm 400-ball PBGA (Plastic Ball Grid Array) package 40% smaller than processors in this performance class. More Processing Per Watt In addition to small size and high performance, the 21160M's power dissipation enables new levels of MFLOPS per watt. The ADSP-21160M typical power dissipation is 2 watts, enabling 240 MFLOPS of performance per watt. This allows designers to use multiple processors on a PCI card within the PCI power limit of 25 watts. With eight 21160M DSPs, providing 480 MFLOPS each, a standard PCI card design can obtain 3.84 GFLOPS performance and leave 9 watts for other circuitry. The ADSP-21160M is supported by hundreds of readily available third-party hardware and software products and ADI's powerful VisualDSP development system, allowing for fast and easy development, debug and deployment.
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
06 November 2023
An Introduction to the LM339AN Quad Voltage Comparator
Ⅰ. What is a comparator?Ⅱ. Overview of LM339AN comparatorⅢ. LM339AN symbol, footprint and pin configurationⅣ. What are the features of LM339AN comparator?Ⅴ. Technical parameters of LM339AN comparatorⅥ. Applications... -
07 November 2023
TLP250 MOSFET IGBT Driver: Manufacturer, Footprint and Applications
Ⅰ. Overview of TLP250Ⅱ. Manufacturer of TLP250Ⅲ. TLP250 symbol, footprint and pin configurationⅣ. What are the features of TLP250?Ⅴ. Technical parameters of TLP250Ⅵ. How to use TLP250 isolated... -
07 November 2023
LM2596 Voltage Regulator: Equivalents, Features, Structure and Applications
Ⅰ. What is a voltage regulator?Ⅱ. Overview of LM2596 voltage regulatorⅢ. Features of LM2596 voltage regulatorⅣ. Pin configuration of LM2596 voltage regulatorⅤ. Structure of LM2596 voltage regulatorⅥ. LM2596... -
08 November 2023
What is MOC3021 Optocoupler Triac Driver?
Ⅰ. What is an optocoupler?Ⅱ. Overview of MOC3021 optocouplerⅢ. Pin configuration of MOC3021 optocouplerⅣ. Features of MOC3021 optocouplerⅤ. Technical parameters of MOC3021 optocouplerⅥ. Working principle of MOC3021 optocouplerⅦ....
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.