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Home Products Integrated Circuits (ICs)Specialized ICs~~TMS320C6414TBGLZA7~~

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TMS320C6414TBGLZA7 - Texas Instruments

Name: Texas Instruments TMS320C6414TBGLZA7
Brand: Texas Instruments
SKU: TMS320C6414TBGLZA7
Price: 35.69 USD
Availability: InStock
Rating: 5 (10 reviews)

Manufacturer Part Number: TMS320C6414TBGLZA7

Manufacturer: Texas Instruments

Allelco Part Number: 41D-TMS320C6414TBGLZA7

Warranty: 1 Year Allelco Warranty - Find out more

Stock Status:: 17,030 pcs available, New & Original

Parts Description: FCBGA-532(23x23)

Data sheet: -

Category: Integrated Circuits (ICs) > Specialized ICs

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In stock: 17030

Unit Price: $97.32
Subtotal: $0.00

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Quantity	Unit Price	Ext. Price
1+	$97.32	$97.32
200+	$37.66	$7,532.00
500+	$36.34	$18,170.00
1000+	$35.69	$35,690.00

The above prices does not include taxes and freight rates, which will be calculated on the order pages.

Specifications

TMS320C6414TBGLZA7 Tech Specifications
Texas Instruments - TMS320C6414TBGLZA7 technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments - TMS320C6414TBGLZA7

Product Attribute	Attribute Value
Part Number	TMS320C6414TBGLZA7
Package	FCBGA-532(23x23)
Description	FCBGA-532(23x23)
Stock Condition	Get 17030 pcs available quantity at Allelco
Payment	PayPal / TT / Credit Card / Western Union
Allelco Certifications	ESD / ISO 9001 / ISO 13485 / ISO 28000

Product Attribute	Attribute Value
Manufacturer	Texas Instruments
RoHs Status	-
Warranty	100% Perfect Functions
Transport port	Hong Kong
Shipping by	DHL / FedEx / UPS / TNT / SF Express
RFQ Email	info@allelco.com

Parts Introduction

Manufacturer Part Number

TMS320C6414TBGLZA7

Manufacturer

Texas Instruments

Introduction

The TMS320C6414TBGLZA7 is a high-performance, fixed-point Digital Signal Processor (DSP) from Texas Instruments. It is part of the TMS320C6414T/15T/16T series, designed for a wide range of embedded applications that require advanced signal processing capabilities.

Product Features and Performance

720MHz clock rate for efficient signal processing

03MB of on-chip RAM for data and program storage

Supports a variety of interfaces, including Host Interface, McBSP, PCI, and UTOPIA

Fixed-point architecture for cost-effective and power-efficient signal processing

Operating temperature range of -40°C to 105°C

Product Advantages

High-performance signal processing capabilities

Flexible interface options for seamless integration

Robust operating temperature range for use in diverse environments

Efficient fixed-point architecture for cost-effective solutions

Key Reasons to Choose This Product

Proven performance and reliability from a trusted manufacturer

Comprehensive set of features to meet the needs of a wide range of embedded applications

Competitive pricing and availability for cost-effective solutions

Excellent technical support and resources from Texas Instruments

Quality and Safety Features

Rigorous quality control and testing procedures

Compliance with relevant industry standards and regulations

Thermal management features for reliable operation in demanding environments

Compatibility

Designed to be compatible with other TMS320 series DSPs from Texas Instruments

Can be integrated into a variety of embedded systems and platforms

Application Areas

Suitable for a wide range of embedded applications, such as industrial automation, communications, and medical devices, that require advanced signal processing capabilities.

Product Lifecycle

["The TMS320C6414TBGLZA7 is an active product, currently available from our website's sales team.","There are several equivalent or alternative models available within the TMS320C6414T/15T/16T series, which offer similar performance and features.","For more information on the product lifecycle and available alternatives, please contact our website's sales team."]

Frequently Asked Questions(FAQ)

How does the TMS320C6414TBGLZA7 compare to other devices in the TMS320C6414T/15T/16T series when considering core clock speed and memory configuration for high-throughput signal processing applications?: The TMS320C6414TBGLZA7 operates at a maximum core clock rate of 720MHz, which is higher than the 600MHz offered by the TMS320C6415T variant but lower than the 800MHz of the TMS320C6416T. It provides 1.03MB of on-chip RAM, a configuration shared with the C6415T, while the C6416T offers 1.5MB. This makes the C6414T suitable for applications requiring substantial local memory without exceeding power or pin-count constraints, balancing performance and resource density effectively.

What are the key differences between the TMS320C6414TBGLZA7 and the TMS320C6748 in terms of architecture and use case suitability for real-time digital signal processing in embedded systems?: The TMS320C6414TBGLZA7 is a fixed-point DSP based on the TMS320C6000 family, optimized for deterministic, high-throughput computation with a 720MHz clock and 1.03MB internal RAM. In contrast, the TMS320C6748 combines a C67x floating-point unit with an ARM9 core, enabling mixed-precision workloads. While the C6748 supports floating-point operations natively, the C6414T delivers superior integer performance and lower power consumption in purely fixed-point scenarios, making it more appropriate where cost, predictability, and power efficiency outweigh floating-point capability.

Can the TMS320C6414TBGLZA7 be used in industrial automation systems requiring extended temperature operation, and what design considerations apply?: Yes, the TMS320C6414TBGLZA7 is rated for operation from -40°C to 105°C, making it compatible with most industrial environments. However, thermal management must account for the 532-FCBGA package’s limited exposed pad options and the core voltage of 1.20V, which increases sensitivity to IR drop under load. PCB layout should prioritize low-impedance power delivery, especially near the core supply pins, and consider thermal vias beneath the package to maintain junction temperatures within safe limits during sustained 720MHz operation.

What external memory interface capabilities does the TMS320C6414TBGLZA7 support, and how does this impact system design complexity when implementing large code or data buffers?: The TMS320C6414TBGLZA7 supports external memory interfaces including PCI, UTOPIA, and a configurable EMIF (External Memory Interface), allowing connection to SDRAM, DDR, or parallel Flash devices. With only 1.03MB of internal RAM, applications processing large datasets—such as video frames or radar signals—must rely heavily on external memory. This increases bus contention risk and requires careful arbitration logic, potentially necessitating DMA controllers and memory-mapped I/O strategies to maintain real-time performance.

How does the power consumption profile of the TMS320C6414TBGLZA7 influence board-level power budgeting in telecom infrastructure deployments?: At 720MHz and 1.20V core voltage, the TMS320C6414TBGLZA7 typically consumes between 1.8W and 2.2W under full load, depending on peripheral activity. Combined with 3.3V I/O power and support circuits, total power may exceed 3.5W. In multi-board telecom racks, this contributes significantly to heat dissipation requirements and power supply headroom. Designers must factor in derating due to ambient temperature and ensure adequate airflow or heatsinking, particularly given the non-exposed-package design that limits passive cooling.

What are the implications of the TMS320C6414TBGLZA7’s RoHS non-compliance status for global product certification and supply chain logistics?: The TMS320C6414TBGLZA7 is marked RoHS non-compliant due to the presence of lead in the solder ball composition, which affects compliance in regions like the European Union under Directive 2011/65/EU. Projects targeting EU markets must either source alternative compliant variants (if available) or apply for exemptions. This also impacts documentation such as EC declarations of conformity and may require additional testing or supplier certifications, increasing time-to-market and compliance overhead.

How does the TMS320C6414TBGLZA7 handle interrupt latency in real-time control loops, and what architectural features contribute to its deterministic response?: The TMS320C6414TBGLZA7 achieves low interrupt latency through hardware-assisted vectoring and a tightly coupled cache-coherent architecture. Interrupt response times are typically under 10 cycles for edge-triggered events, thanks to the C64x core’s dual-issue pipeline and fast context switching. This determinism is critical in motor control or communication protocol stacks where jitter below microsecond thresholds is required. Proper interrupt nesting and priority assignment further enhance reliability in multitasking environments.

What are the recommended decoupling strategies for the TMS320C6414TBGLZA7’s 1.20V core and 3.30V I/O supplies to minimize noise coupling and ensure stable operation at 720MHz?: For the 1.20V core supply, use at least six 0201-size 1µF ceramic capacitors placed within 2mm of the VDD pins, paired with 0.1µF and 10nF values for high-frequency filtering. The 3.30V I/O rail should have similar placement density but may tolerate slightly larger packages. Power planes should be partitioned to isolate analog and digital sections, and ground stitching vias should surround high-speed signal paths to reduce loop inductance and EMI susceptibility.

In what scenarios would the TMS320C6414TBGLZA7 be preferred over FPGA-based solutions despite the latter’s flexibility?: The TMS320C6414TBGLZA7 is advantageous in applications requiring ultra-low-latency fixed-point arithmetic with predictable timing, such as baseband processing in wireless infrastructure or audio effects chains. Unlike FPGAs, it offers deterministic execution, simplified software development using TI’s Code Composer Studio, and lower per-unit cost at volume. FPGAs become preferable only when custom logic, dynamic reconfiguration, or mixed-signal integration beyond DSP capabilities are essential, adding system complexity and verification burden.

How does the 532-FCBGA package of the TMS320C6414TBGLZA7 affect PCB routing density and thermal performance compared to QFP or LGA alternatives?: The 532-BFBGA (23×23) package enables extremely high pin density, supporting all necessary interfaces without external headers, ideal for compact designs. However, it lacks a thermal pad, limiting heat dissipation compared to exposed-package alternatives. Routing must avoid vias under the package to prevent mechanical stress, and layer stackup should include solid ground and power planes adjacent to signal layers. Thermal performance can be improved via careful via farming around the perimeter rather than central concentration.

What development tools and ecosystem support exist for the TMS320C6414TBGLZA7, and how do they facilitate rapid prototyping and debugging in production environments?: Texas Instruments provides comprehensive support through Code Composer Studio (CCS), Real-Time Operating Systems (TI-RTOS), and optimized libraries for FFT, filtering, and communication protocols. Hardware debuggers like XDS100v3 connect via JTAG to access real-time memory views and trace execution. For production, boundary scan (JTAG) and in-circuit emulation features allow functional validation without removing components, streamlining manufacturing test integration and reducing debug cycle time.

How does the TMS320C6414TBGLZA7 manage data movement between internal memory and peripherals like McBSP or PCIe, and what bottlenecks might arise at 720MHz?: Data transfers occur through EDMA (Enhanced Direct Memory Access) channels, which offload CPU cycles by moving blocks of data autonomously between memory and peripherals. At 720MHz, bandwidth demands on the internal crossbar can saturate if multiple high-speed streams (e.g., dual-channel ADC + PCI traffic) compete for access. Designers must allocate EDMA channels strategically and monitor bus utilization metrics to avoid stalls, possibly introducing buffering or prioritization schemes at the application level.

What are the key trade-offs when selecting the TMS320C6414TBGLZA7 versus newer generations of C6000 DSPs like the C66x in terms of instruction set compatibility and legacy software reuse?: The TMS320C6414TBGLZA7 uses the C64x+ instruction set, which maintains binary compatibility with earlier C64x cores but lacks the VLIW extensions and advanced SIMD features of the C66x family. Migrating code from C64x to C66x may require recompilation and optimization for multiple execution packets, though source-level compatibility is preserved. For projects leveraging existing C64x libraries or requiring long-term maintenance, the C6414T offers stability and proven deployment history despite lower peak performance per MHz.

How does the Moisture Sensitivity Level (MSL) rating of 4 for the TMS320C6414TBGLZA7 impact handling procedures during assembly and storage in humid environments?: An MSL of 4 indicates the device must be baked before reflow if stored beyond 72 hours above 30°C/60% RH. Assembly facilities must implement controlled humidity cabinets and track floor-life exposure. Failure to adhere risks popcorning during soldering, which can crack the 532-FCBGA substrate and compromise electrical integrity. Documentation must include bake schedules and desiccant usage logs to meet IPC/JEDEC standards and ensure yield stability in mass production.

Can the TMS320C6414TBGLZA7 run legacy C6000 DSP/BIOS applications unchanged, and what compatibility challenges might arise with modern toolchains?: Yes, the TMS320C6414TBGLZA7 runs DSP/BIOS 5.x applications natively, as it shares the same ISA and memory map. However, newer versions of CCS no longer bundle DSP/BIOS by default, requiring manual license acquisition and configuration. Additionally, deprecated APIs related to task scheduling or profiling may need updates for thread safety or alignment with TI-RTOS paradigms, though functional equivalence is maintained across generations.

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Customer Reviews

Evaluation: 10 Articles

Nath***rooks

Jun 11, 2026

Installed this power component in a converter board. Output remained stable under different load conditions and thermal performance was better than expected.
Dani***alkerTech

Jun 1, 2026

Product works, but setup took more effort than expected. Once configured the MCU ran reliably, although documentation support felt older compared with newer platforms. Fine for maintenance projects.
Yuki***aka88

May 26, 2026

信号通信プロジェクトでこのRS-485トランシーバーを使用しました。設置は簡単で、長距離ケーブルでも通信は安定していました。消費電力も、以前使用していたものより低くなっています。
Stev***aker

May 20, 2026

Solid diode for power rectification. Works well in switching circuits.
Bran***Lewis

May 11, 2026

Compact FPGA with good performance. Suitable for basic signal processing tasks.
Oliv***arris

May 7, 2026

Reliable I/O expander. Works well in embedded control applications.
Jess***Jones

Apr 17, 2026

It offers good value for the price, and the specifications match the description. I’ve been using it for two days with no issues, and I’ll definitely buy it again if I need it in the future.
Mich***Smith

Apr 17, 2026

Shipping was on time, the component pins are neatly aligned, and I tested 10 of them with a multimeter—all readings were within the specified range. Highly recommended.
Aman***arris

Apr 3, 2026

It was great—the entire process, from placing the order to receiving the package, went very smoothly. The components were consistent, the price was fair, and I had a very pleasant shopping experience.
Mike***nch

Apr 3, 2026

Better than expected! The resistance and capacitance readings were spot-on, and it passed the test on the first try. The service was reliable, and the packaging was thoughtful—I highly recommend it.

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Delivery Time

In-stock items can be shipped within 24 hours. Some parts will be arranged for delivery within 1-2 days from the date all items arrive at our warehouse. And Allelco ships order once a day at about 17:00, except Sunday. Once the goods are shipped, the estimated delivery time depends on the shipping methods and Delivery destination. The table below shows are the logistic time for some common countries.

Delivery Cost

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Delivery Method

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Common Countries Logistic Time Reference
Region	Country	Logistic Time(Day)
America	United States	5
America	Brazil	7
Europe	Germany	5
	United Kingdom	4
	Italy	5
Oceania	Australia	6
Oceania	New Zealand	5
Asia	India	4
Asia	Japan	4
Middle East	Israel	6

DHL & FedEx Shipment Charges Reference
Shipment charges(KG)	Reference DHL(USD$)
0.00kg-1.00kg	USD$30.00 - USD$60.00
1.00kg-2.00kg	USD$40.00 - USD$80.00
2.00kg-3.00kg	USD$50.00 - USD$100.00

Note:: The above table is for reference only. There may have some data bias for the uncontrollable factors.
Contact us if you have any questions.

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