Datasheet Texas Instruments TMS32C6416EZLZA6E3
Manufacturer | Texas Instruments |
Series | TMS320C6416 |
Part Number | TMS32C6416EZLZA6E3 |
Fixed-Point Digital Signal Processor 532-FCBGA
Datasheets
TMS320C6414, TMS320C6415, TMS320C6416 Fixed-Point Digital Signal Processors datasheet
PDF, 2.1 Mb, Revision: N, File published: May 26, 2005
Extract from the document
Prices
Status
Lifecycle Status | Active (Recommended for new designs) |
Manufacture's Sample Availability | No |
Packaging
Pin | 532 | 532 | 532 |
Package Type | ZLZ | ZLZ | ZLZ |
Industry STD Term | FCBGA | FCBGA | FCBGA |
JEDEC Code | S-PBGA-N | S-PBGA-N | S-PBGA-N |
Package QTY | 60 | 60 | 60 |
Device Marking | TMS320C6416ZLZ | A6E3 | @2003 TI |
Width (mm) | 23 | 23 | 23 |
Length (mm) | 23 | 23 | 23 |
Thickness (mm) | 2.61 | 2.61 | 2.61 |
Pitch (mm) | .8 | .8 | .8 |
Max Height (mm) | 3.25 | 3.25 | 3.25 |
Mechanical Data | Download | Download | Download |
Eco Plan
RoHS | Compliant |
Pb Free | Yes |
Design Kits & Evaluation Modules
- JTAG Emulators/ Analyzers: TMDSEMU560V2STM-U
XDS560v2 System Trace USB Debug Probe
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU560V2STM-UE
XDS560v2 System Trace USB & Ethernet Debug Probe
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: XDS560TRACE
XDS560 Trace Emulator
Lifecycle Status: Obsolete (Manufacturer has discontinued the production of the device) - Evaluation Modules & Boards: TMDSDSK6416
TMS320C6416 DSP Starter Kit (DSK)
Lifecycle Status: Active (Recommended for new designs) - Development Kits: TMDX3260E6416
C6416 Test Evaluation Board (TEB) bundled with CCS & 510PP+ Emulator
Lifecycle Status: Obsolete (Manufacturer has discontinued the production of the device)
Application Notes
- TMS320C6416 Power-On Self Test (Rev. A)PDF, 181 Kb, Revision: A, File published: Feb 6, 2004
The Power-On Self Test (POST) is designed to verify the operation of the TMS320C6416. Six modules are included in this test: Chk6xTest, MemoryEdmaTest, VcpTest, TcpTest, McbspTest, and TimerTest. These modules check the proper operation of the CPU core, internal memory and several on-chip peripherals (EDMA, McBSPs, timers, Viterbi and turbo decoder coprocessors).It is important to note that thi - TMS320C6416 DSP Hardware Designer's Resource Guide (Rev. B)PDF, 147 Kb, Revision: B, File published: Oct 25, 2005
The TMS320C6416 DSP Hardware Designer's Resource Guide is organized by development flow and functional areas to make your design effort as seamless as possible. Topics covered include Getting Started, Board Design, System Testing, and Checklists to aid in your initial design and debug efforts. Each section includes pointers to valuable information including technical documentation, models, symbols - TMS320C6416 Coprocessors and Bit Error RatesPDF, 227 Kb, File published: Nov 7, 2003
The turbo and viterbi coprocessors (TCP/VCP) are programmable peripherals used to decode IS2000/3GPP turbo/viterbi codes. They are integrated into Texas Instruments TMS320C6416 digital signal processor (DSP). Turbo and viterbi decoders lie at the heart of all of the third-generation (3G) wireless standards. Their usage in 3G systems, meets the tough bit-error-rate requirements and low signal-to-no - Using TMS320C6416 Coprocessors: Turbo Coprocessor (TCP) (Rev. B)PDF, 356 Kb, Revision: B, File published: Aug 22, 2006
The turbo coprocessor (TCP) is a programmable peripheral for decoding IS2000/3GPP turbo codes, that are integrated into the Texas Instruments (TIв„ў) TMS320C6416 digital signal processor. The TCP is controlled via memory-mapped control registers and data buffers. Control registers can be accessed directly by the CPU, whereas data buffers are typically accessed using the EDMA controller. This a - A DSP/BIOS AIC23 Codec Device Driver for the TMS320C6416 DSK (Rev. A)PDF, 74 Kb, Revision: A, File published: Jun 1, 2003
- Migrating from TMS320C6416 to TMS320TCI100 (Rev. A)PDF, 69 Kb, Revision: A, File published: Aug 15, 2003
This application report describes issues of interest related to migration from the TMS320C6416 to the TMS320TCI100 device. The objective of this document is to indicate differences between the two devices. Functions that are identical between the two devices are not included. For detailed information on the specific functions of either device, refer to the TMS320C6414, TMS320C6415, TMS320C6416 Fix - Using TMS320C6416 Coprocessors: Viterbi Coprocessor (VCP) (Rev. D)PDF, 304 Kb, Revision: D, File published: Sep 15, 2003
Viterbi Coprocessor (VCP) is a programmable peripheral for decoding of convolutional codes, integrated into Texas Instruments' TMS320C6416 DSP device. The VCP is controlled via memory mapped control registers and data buffers. Control registers can be accessed directly by the CPU, whereas data buffers are typically accessed using the EDMA controller. This application note describes the relationshi - TMS320C6415/6416: Using PCI EEPROM Interface and McBSP2 in a Single SystemPDF, 87 Kb, File published: Mar 1, 2001
Some of the pins that the TMS320C6415 and TMS320C6416 digital signal processors (DSPs) use for their third multichannel buffered serial port (McBSP2) are multiplexed with the pins of the PCI serial EEPROM interface. In many applications, the only use for the PCI EEPROM is for auto-initialization of the PCI configuration space registers. Once PCI is configured, the PCI EEPROM interface can be disab - TMS320C6414/5/6 Power Consumption Summary (Rev. C)PDF, 80 Kb, Revision: C, File published: Jun 30, 2003
This document discusses the power consumption of the Texas Instruments TMS320C6414в„ў, TMS320C6415в„ў, and TMS320C6416в„ў digital signal processors (DSPs). Power consumption on these devices is highly application dependent, so a spreadsheet is provided to model power consumption for a user's application. To get good results from the spreadsheet, realistic usage parameters must be enter - TMS320C6000 EMIF to USB Interfacing Using Cypress EZ-USB SX2 (Rev. A)PDF, 205 Kb, Revision: A, File published: May 20, 2005
This application report describes a glueless interface between a Texas Instruments TMS320C6416 digital signal processor (DSP) reference board and a Cypress CY7C68001 (EZ-USB SX2_™) USB device. The two devices are interfaced through the external memory interface (EMIF) of the C6416 DSP.The document provides a pin connection diagram demonstrating the interface between the two devices. In - Tips for Using the EDMA with the Utopia PortPDF, 250 Kb, File published: Sep 15, 2003
Typically, the EDMA services the UTOPIA interface by writing data to the slave transmit queue (UXQ) and reading data from the slave receive queue (URQ). This document discusses the proper way to configure the EDMA to interface with the UTOPIA port by:Describing the EDMA configuration required to complete a 2D, array synchronized transfer to UTOPIA.Giving three possible soluti - How to Begin Development Today With the TMS320C6414, C6415, and C6416 DSPs (Rev. A)PDF, 136 Kb, Revision: A, File published: Mar 6, 2003
Development can begin now for the TMS320C6414, TMS320C6415, and TMS320C6416 highest-performance digital signal processor (DSP) systems. Because of the compatibility between TMS320C6000? generation devices, existing C6000? software tools and development platforms can be used to develop code for the C6414, C6415, C6416 and other future devices. This capability allows for systems to be up and running - Migrating From TMS320C6416/15/14/11 Rev 1.1 to Rev 2.0PDF, 39 Kb, File published: Oct 19, 2004
This application report describes issues of interest related to migration from the TMS320C6416/15/14/11 Rev 1.1 to the TMS320C6416/15/14/11 Rev 2.0 device. The objective of this document is to indicate differences between the two device families. Functions that are identical between the two devices are not included. For detailed information on the specific functions of either device, refer to the - TMS320C64x Reference DesignPDF, 90 Kb, File published: May 12, 2004
TI provides a reference design with commonly used configurations that allow customers to get maximum performance effortlessly from TMS320C64xв„ў DSP based systems. For extreme high performance, an SDRAM only interface is designed to run at speeds up to 150 MHz. The reference design also includes a USB bridge and other common DSP attach circuitry. The designs are suitable for simple modular dro - TMS320C64x EDMA ArchitecturePDF, 250 Kb, File published: Mar 3, 2004
The enhanced DMA (EDMA) controller of the TMS320C64xв„ў device is a highly efficient data transfer engine. To maximize bandwidth, minimize transfer interference, and fully utilize the resources of the EDMA, it is crucial to understand the architecture of the engine. Transfer requests (TRs) originate from many requestors, including sixty-four programmable EDMA channels, the level 2 (L2) memory - TMS320C64x EDMA Performance DataPDF, 246 Kb, File published: Mar 5, 2004
The enhanced DMA (EDMA) controller of the TMS320C64xв„ў device is a highly efficient data transfer engine, capable of maintaining transfers at up to 2.4 GB/sec at a 600 MHz CPU clock frequency. This document details measured bandwidth achieved under various operating conditions. For more information on ideal transfer bandwidth and scheduling transfers, please consult TMS320C64x EDMA Architectu - TMS320C64x DSP Peripheral Component Interconnect (PCI) PerformancePDF, 318 Kb, File published: Oct 31, 2003
This application report describes the number of cycles required to perform a given peripheral component interconnect (PCI) data transfer based on a variety of permutations of burst length, CPU speed, EMIF speed, etc.The PCI bus, created by Intel in 1992, enables fast accesses between PCI adapters, system memory and external memory. To insure throughput near or at the processor?s native bus sp - Migrating from TMS320C6416/15/14 to TMS320C6416T/15T/14T (Rev. B)PDF, 84 Kb, Revision: B, File published: Feb 22, 2008
This application report describes issues of interest related to migration from the TMS320C6416/15/14 to the TMS320C6416T/15T/14T device. The objective of this document is to indicate differences between the two device families. Functions that are identical between the two devices are not included. For detailed information on the specific functions of either device, see the TMS320C6414, TMS320C6 - Cache Usage in High-Performance DSP Applications with the TMS320C64xPDF, 129 Kb, File published: Dec 13, 2001
The TMS320C64xв„ў, the newest member of the TMS320C6000в„ў (C6000в„ў) family, is used in high-performance DSP applications. The C64xв„ў processes information at a rate of 4800 MIPs, while operating at a clock rate of 600 MHz. Processing data at these extremely high rates requires fast memory that is directly connected to the CPU (Central Processing Unit). However, a bandwidth dilem - TMS320C6000 HPI to PCI Interfacing Using the PLX PCI9050 (Rev. C)PDF, 248 Kb, Revision: C, File published: Apr 17, 2002
This application report describes an interface between the Texas Instruments TMS320C6000в„ў DSP host port and the PLX Technology PCI9050 (PCI9052), the PCI interface chip. The PCI9052 is functionally the same as the PCI9050. The only difference between these two devices is that the PCI9052 is somewhat faster than the PCI9050.This application report includes a diagram showing connections be - TMS320C6000 Enhanced DMA: Example Applications (Rev. A)PDF, 1.4 Mb, Revision: A, File published: Oct 24, 2001
The enhanced direct memory access (EDMA) controller is the backbone of the two-level cache architecture for the TMS320C6000? DSPs. The EDMA performs:o cache servicingo host-port servicingo user-programmable data transfers Through proper configuration, EDMA channels can be set up to operate continuously without requiring CPU intervention or reprogramming. This allows the CPU to use its - Use and Handling of Semiconductor Packages With ENIG Pad FinishesPDF, 129 Kb, File published: Aug 31, 2004
- TMS320C6000 Host Port to the i80960 Microprocessors Interface (Rev. A)PDF, 272 Kb, Revision: A, File published: Aug 31, 2001
This application report describes the interface between the Texas Instruments (TI) TMS320C6000в„ў digital signal processor (DSP) host port and the Intel 80960 microprocessor. The document includes schematics showing connections between the two devices, PAL equations, and verification that timing requirements are met for each device (tables and timing diagrams). - TMS320C6000 Host Port to MPC860 Interface (Rev. A)PDF, 311 Kb, Revision: A, File published: Jun 21, 2001
This application report describes an interface between the Motorola MPC860 microprocessor and the host port interface (HPI) of a Texas Instruments TMS320C6000в„ў (C6000в„ў) digital signal processor (DSP) device. This document includes a schematic showing connections between the two devices, PAL equations, and verification that timing requirements are met for each device (tables and timing - TMS320C6000 Host Port to MC68360 Interface (Rev. A)PDF, 261 Kb, Revision: A, File published: Sep 30, 2001
This application report describes an interface between the Motorola MC68360 quad integrated communication controller (QUICC) and the host port interface (HPI) of a TMS320C6000в„ў (C6000в„ў) digital signal processor (DSP) device. This includes a schematic showing connections between the two devices and verification that timing requirements are met for each device (tables and timing diagrams - Interfacing theTMS320C6000 EMIFto a PCI Bus Using the AMCC S5933 PCI Controller (Rev. A)PDF, 309 Kb, Revision: A, File published: Sep 30, 2001
This application report describes the architecture and capabilities of the AMCC S5933 PCI controller and how it can be interfaced to the TMS320C6201 digital signal processor (DSP). The DSP's host port interface (HPI) can be a PCI target, and its external memory interface (EMIF) can be used to support PCI bus mastering. Details on the signals and logic required to implement both PCI slave and maste - TMS320C6000 System Clock Circuit Example (Rev. A)PDF, 129 Kb, Revision: A, File published: Aug 15, 2001
This document describes how to provide the Texas Instruments TMS320C6000в„ў DSP with a system clock. All of the clocks internal to the C6000в„ў are generated from a single source through the CLKIN pin. This source clock for the device is an external signal that, depending on the clock mode, either drives the on-chip Phase-Locked Loop (PLL) circuit, which multiplies the source clock in freq - TMS320C6000 McBSP: I2S InterfacePDF, 93 Kb, File published: Sep 8, 1999
This document describes how to use the multichannel buffered serial port (McBSP) in the Texas Instruments (TI)(TM) TMS320C6000 digital signal processors (DSP) to interface with devices that conform to the Inter-IC Sound (I2S) specification. I2S is a protocol for transmitting two channels of digital audio data over a single serial connection.The flexible McBSP in the TMS320C6000 supports the I - General Guide to Implement Logarithmic and Exponential Operations on Fixed-PointPDF, 50 Kb, File published: Jan 31, 2000
Modern audio and video compression algorithms usually take the advantage of logarithmic characteristics of human ears and eyes. This approach greatly reduces the redundancy in signals being processed. However, it poses a requirement on fixed-point DSPs to handle these logarithmic and exponential operations.This application report provides a general guide to implement these operations on fixed- - TMS320C6000 McBSP: AC'97 Codec Interface (TLV320AIC27) (Rev. A)PDF, 289 Kb, Revision: A, File published: Jul 10, 2001
This document describes how to use the multichannel buffered serial ports (McBSPs) in the Texas Instruments TMS320C6000в„ў digital signal processor (DSP) as a digital controller for an audio codec 1997 device.The McBSP is connected to a stereo audio codec 1997 device. This application report uses the TLV320AIC27 audio codec (AIC27) as an example. The audio codec 1997 (AC'97) standard spec - Circular Buffering on TMS320C6000 (Rev. A)PDF, 172 Kb, Revision: A, File published: Sep 12, 2000
This application report explains how circular buffering is implemented on the TMS320C6000? devices. Circular buffering helps to implement finite impulse response (FIR) filters efficiently. Filters require delay lines or buffers of past (and current) samples. Circular addressing simplifies the manipulation of pointers in accessing the data samples.This application report addresses the following - Using a TMS320C6000 McBSP for Data Packing (Rev. A)PDF, 257 Kb, Revision: A, File published: Oct 31, 2001
This application report describes how to use the multichannel buffered serial port (McBSP) in the Texas Instruments TMS320C6000в„ў digital signal processor (DSP) for data packing. Data packing involves moving either multiple successive 8-bit elements to/from the McBSP as a single 16/24/32-bit element or multiple successive 16-bit words to/from the McBSP as a single 32-bit word.The McBSP - TMS320C6000 McBSP Initialization (Rev. C)PDF, 232 Kb, Revision: C, File published: Mar 8, 2004
The TMS320C6000? multichannel buffered serial port (McBSP) can operate in a variety of modes, as per application requirements. For proper operation, the serial port must be initialized in a specific order. This document describes the initialization steps necessary when either the (E)DMA or the CPU is used to service the McBSP data. Typically, the (E)DMA is used to perform read/write transfers from - TMS320C6000 Board Design for JTAG (Rev. C)PDF, 89 Kb, Revision: C, File published: Apr 2, 2002
Designing a TMS320C6000в„ў DSP board to utilize all of the functionality of the JTAG scan path is a simple process, but a few considerations must be taken into account. The default state of the emulation signals determines whether the JTAG port is used for emulation or for boundary scan. It is therefore necessary to provide flexibility in the design to accommodate those modes that are desired. - TMS320C6000 McBSP Interface to an ST-BUS Device (Rev. B)PDF, 87 Kb, Revision: B, File published: Jun 4, 2002
This document describes how the multichannel buffered serial ports (McBSPs) in the Texas Instruments TMS320C6000в„ў digital signal processor (DSP) are used to communicate to a single-rate Serial Telecom (ST)-BUS-compliant device.The McBSP receives the framing signal, clock, and data from the ST-BUSв„ў device and processes them to generate internal frame syncs and clocks for correct data - TMS320C6000 EMIF to External Asynchronous SRAM Interface (Rev. A)PDF, 118 Kb, Revision: A, File published: Aug 31, 2001
Interfacing external asynchronous static RAM (ASRAM) to the Texas Instruments (TIв„ў) TMS320C6000 series of digital signal processors (DSPs) is simple compared to previous generations of TI DSPs, thanks to the advanced external memory interface (EMIF). The EMIF provides a glueless interface to a variety of external memory devices.This document describes:EMIF control registers and ASR - TMS320C6000 EMIF to External Flash Memory (Rev. A)PDF, 471 Kb, Revision: A, File published: Feb 13, 2002
Interfacing external flash memory to the Texas Instruments TMS320C6000в„ў digital signal processor (DSP) is simple compared to previous generations of TI DSPs. The TMS320C6000 advanced external memory interface (EMIF) provides a glueless interface to a variety of external memory devices.This document describes the following:EMIF control registers and asynchronous interface signals< - TMS320C6000 C Compiler: C Implementation of IntrinsicsPDF, 154 Kb, File published: Dec 7, 1999
The first optimization step that you can perform on C source code for the TMS320C62xx is to use intrinsic operators. Intrinsics are used like functions and produce assembly language statements that would otherwise be inexpressible in C. The problem is that once you have performed the first optimization step, your C source code is no longer ANSI C compatible. The code proposed within this appli - TMS320C6000 McBSP: Interface to SPI ROM (Rev. C)PDF, 99 Kb, Revision: C, File published: Jun 30, 2001
The TMS320C6000? (C6000?) Multichannel Buffered Serial Port (McBSP) is designed to interface to a device that supports synchronous Serial Peripheral Interface (SPI). This document describes the hardware interface between the McBSP and a SPI ROM. The McBSP operates as the master in a user-specified clock stop (CLKSTP) mode in order to communicate with the SPI ROM. The McBSP initialization and contr - TMS320C6000 McBSP: IOM-2 Interface (Rev. A)PDF, 284 Kb, Revision: A, File published: May 21, 2001
This document describes how the multi-channel buffered serial port (McBSP) in the Texas Instruments (TI) TMS320C6000? (C6000?) digital signal processor (DSP) family is used to communicate to an ISDN Oriented Modular Interface Revision 2 (IOM-2) bus-compliant device. This document also describes the usage of McBSP registers and sample code to perform the above function. - TMS320C6000 Board Design: Considerations for Debug (Rev. C)PDF, 96 Kb, Revision: C, File published: Apr 21, 2004
- TMS320C6000 EMIF-to-External SDRAM Interface (Rev. E)PDF, 833 Kb, Revision: E, File published: Sep 4, 2007
Interfacing external SDRAM to the Texas Instruments TMS320C6000™ digital signal processor (DSP) is simple, compared to previous generations of TI DSPs, because of the advanced external memory interface (EMIF). The EMIF is a glueless interface to a variety of external memory devices.This application report describes the EMIF’s control registers and SDRAM signals along with SDRAM function - TMS320C6000 Tools: Vector Table and Boot ROM Creation (Rev. D)PDF, 185 Kb, Revision: D, File published: Apr 26, 2004
Texas Instruments TMS320C6000в„ў digital signal processors (DSPs) provide a variety of boot configurations that determine which actions are performed after device reset, to prepare for initialization. The boot process is determined by latching the boot configuration settings at reset.The boot process performed by the DSP is to either load code from an external read-only memory (ROM) space - Using the TMS320C6000 McBSP as a High Speed Communication Port (Rev. A)PDF, 296 Kb, Revision: A, File published: Aug 31, 2001
This document describes how to use the mulit-channel buffered serial ports (McBSP) in the Texas Instruments (TI) TMS320C6000в„ў digital signal processor (DSP) as a high-speed data communication port.One McBSP of one C6000в„ў DSP device can be connected to a McBSP on another C6000 DSP device to serve as a high-speed data communication port. Typically, McBSPs of similar device numbers a - TMS320C6000 McBSP to Voice Band Audio Processor (VBAP) Interface (Rev. A)PDF, 240 Kb, Revision: A, File published: Jul 23, 2001
This document describes how to interface the multichannel buffered serial port (McBSP) in the TMS320C6000? digital signal processor (DSP) to a voice band audio processor (VBAP). The VBAP under discussion is the TI TLV320AC56, 3V, 2.048 MHz audio processor which is a m-law companding device. The interface is also applicable to TI?s TLV320AC57, an A-law companding audio processor.The highly - TMS320C6000 u-Law and a-Law Companding with Software or the McBSPPDF, 150 Kb, File published: Feb 2, 2000
This document describes how to perform data companding with the TMS320C6000(tm)digital signal processors(DSP). Companding refers to the compression and expansion of transfer data before and after transmission, respectively.The multichannel buffered serial port (McBSP) in the TMS320C6000 supports two companding formats: mu-Law and A-Law. Both companding formats are specified in the CCITT G.711 - TMS320C6000 McBSP as a TDM Highway (Rev. A)PDF, 313 Kb, Revision: A, File published: Sep 11, 2000
This document describes how the multichannel buffered serial ports (McBSP) in the TMS320C6000в„ў digital signal processors (DSP) are used to communicate on a time-division multiplexed (TDM) data highway.TDM provides multiple devices a time slot to perform data transfer. Thus, multiple users operate various channels; however, each user has a set of channel(s) assigned for transmission and re - Using IBIS Models for Timing Analysis (Rev. A)PDF, 301 Kb, Revision: A, File published: Apr 15, 2003
Today?s high-speed interfaces require strict timings and accurate system design. To achieve the necessary timings for a given system, input/output buffer information specification (IBIS) models must be used. These models accurately represent the device drivers under various process conditions. Board characteristics, such as impedance, loading, length, number of nodes, etc., affect how the device d - TMS320C6000 EDMA IO Scheduling and PerformancePDF, 269 Kb, File published: Mar 5, 2004
The enhanced DMA (EDMA) is a highly efficient and parallel data transfer engine. To make the best use of its resources, it is necessary to understand the architecture and schedule transfers intelligently. This document details how to summarize, analyze, and schedule system traffic to produce efficient designs. An example audio/video system is presented and analyzed in full. Finally, EDMA performan - TMS320C64x to TMS320C64x+ CPU Migration Guide (Rev. A)PDF, 310 Kb, Revision: A, File published: Oct 20, 2005
This document describes migration from the Texas Instruments TMS320C64xв„ў digital signal processor (DSP) to the TMS320C64x+в„ў DSP. The objective of this document is to indicate differences between the two cores and to briefly describe new features. Functionality in the devices that is identical is not included. For detailed information about either device, see the TMS320C64x/C64x+ DSP
Model Line
Series: TMS320C6416 (21)
- TMS32C6416CGLZW5E0 TMS32C6416CGLZW6E3 TMS32C6416DGLZ5E0 TMS32C6416DGLZ6E3 TMS32C6416DGLZA5E0 TMS32C6416DGLZK5E0 TMS32C6416DGLZK6E3 TMS32C6416ECLZ5E0 TMS32C6416ECLZ6E3 TMS32C6416ECLZ7E3 TMS32C6416ECLZA5E0 TMS32C6416ECLZA6E3 TMS32C6416EGLZ5E0 TMS32C6416EGLZ6E3 TMS32C6416EGLZ7E3 TMS32C6416EGLZA5E0 TMS32C6416EGLZA6E3 TMS32C6416EZLZ5E0 TMS32C6416EZLZ6E3 TMS32C6416EZLZ7E3 TMS32C6416EZLZA6E3
Manufacturer's Classification
- Semiconductors > Processors > Digital Signal Processors > C6000 DSP > Other C6000 DSP