ALTERA 50006751 Texas Multilayer Pcb Panel Mount Integrated Circuits

( Brand: Altera ), ( Manufacturer Part Number: 50006751 ), ( Part Type: Circuit Instrument Panel Mount ), ( Mounting Style: Panel Mount ), ( Pcb Type: Multilayer Pcb ), ( Number Of Tie-points: 12 ), ( Operating Voltage: 3.3 V ), ( Item Height: 2 Mm ), ( Material: Fr-4, Copper ), ( Item Length: 130 Mm ), ( Item Width: 70 Mm )

Review ALTERA Texas Instruments Multilayer Pcb Panel Mount Integrated Circuits

The **Altera Texas Instruments 50006751 Multilayer PCB Panel-Mount Integrated Circuit** represents a high-performance, versatile component designed for advanced electronic applications requiring dense signal routing, robust reliability, and compact form factor integration. This precision-engineered device is fabricated on a **multilayer printed circuit board (PCB) panel**, featuring a sophisticated stack-up optimized for signal integrity, thermal management, and electromagnetic compatibility (EMC). The panel is meticulously constructed with multiple conductive layers typically ranging from four to twelve separated by high-quality dielectric materials such as FR-4, polyimide, or specialized high-frequency laminates, ensuring minimal signal loss and cross-talk while maintaining mechanical stability. The **panel-mount design** allows for seamless integration into larger assemblies, enabling efficient space utilization in systems where modularity and scalability are critical, such as in telecommunications infrastructure, industrial automation, or high-speed computing platforms.

At its core, the **50006751** integrates **Altera s (now Intel FPGA) programmable logic**, combined with **Texas Instruments high-speed analog and digital interfaces**, making it an ideal solution for mixed-signal applications. The device supports a wide range of I/O standards, including **LVDS, PCIe, USB, and high-speed serial protocols**, while its programmable fabric accommodates custom logic, memory interfaces, and digital signal processing (DSP) functions. The multilayer PCB architecture enhances signal routing density, reducing the need for external connectors and minimizing board real estate consumption an essential advantage in space-constrained environments. Additionally, the panel s **rigid construction** ensures dimensional consistency and resistance to environmental stressors, such as vibration, thermal cycling, and humidity, making it suitable for both indoor and rugged outdoor deployments.

Thermal management is a key consideration in high-performance applications, and the **50006751 s multilayer design incorporates optimized power distribution networks (PDNs) and thermal vias** to dissipate heat efficiently. These features prevent hotspots and ensure stable operation under sustained load conditions, which is particularly beneficial in applications like **5G baseband processing, aerospace avionics, or high-end medical imaging systems**. The panel s **surface-mount technology (SMT) compatibility** further simplifies assembly processes, allowing for automated pick-and-place operations that enhance production efficiency and reduce assembly defects. Whether deployed in a **high-density server rack, a compact industrial control unit, or a portable field device**, this integrated circuit panel delivers a balance of performance, flexibility, and reliability, making it a cornerstone for next-generation electronic systems demanding both innovation and engineering precision.

### **Pros and Cons of buying a Altera (Intel) Texas 50006751 Multilayer PCB Panel-Mount Integrated Circuit**

1. **High Performance and Density** The Altera (now Intel) 50006751 is a field-programmable gate array (FPGA) designed for high-speed digital signal processing, making it suitable for advanced applications like communications, aerospace, and industrial automation. Its multilayer PCB integration ensures efficient signal routing and reduced electromagnetic interference (EMI).

2. **Flexibility and Reprogrammability** Unlike fixed logic ICs, FPGAs allow for reconfiguration via software, enabling rapid prototyping, updates, and customization without hardware changes. This is particularly useful in research, development, and iterative design processes.

3. **Scalability** The device supports a wide range of I/O standards and can be integrated into larger systems, making it adaptable for both small-scale and high-density applications.

4. **Reliability and Longevity** FPGAs from Intel (formerly Altera) are known for their robustness, low power consumption, and long-term availability, reducing the risk of obsolescence compared to proprietary ASICs.

5. **Support for Advanced Features** The 50006751 likely includes features like high-speed transceivers, embedded memory blocks, and DSP slices, which are essential for modern communication and computing tasks.

6. **Panel-Mount Design** The panel-mount form factor simplifies integration into circuit boards, reducing assembly complexity and improving manufacturability.

7. **Intel s Ecosystem and Tooling** Intel provides comprehensive development tools (e.g., Quartus Prime), documentation, and support, which streamline design, debugging, and deployment.

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1. **Higher Cost Compared to ASICs or Simple Logic ICs** FPGAs are generally more expensive than application-specific integrated circuits (ASICs) or basic logic gates, especially for high-volume production. The 50006751 may not be cost-effective for low-complexity applications.

2. **Power Consumption** While modern FPGAs are more power-efficient than older models, they still consume more power than some ASICs or microcontrollers, which can be a limitation in battery-powered or space-constrained systems.

3. **Learning Curve** Developing with FPGAs requires expertise in hardware description languages (HDLs like VHDL or Verilog) and digital design principles. Teams without prior FPGA experience may face steep onboarding costs.

4. **Limited Parallelism for Some Tasks** While FPGAs excel at parallel processing, certain algorithms or tasks may not fully utilize their capabilities, leading to inefficiencies compared to specialized hardware.

5. **Potential for Overkill** For simple logic functions or low-complexity applications, an FPGA may be unnecessarily complex and expensive. A simpler microcontroller or discrete logic IC might suffice.

6. **Licensing and Tool Costs** Intel s development tools (e.g., Quartus Prime) require licensing, which can add to the overall cost of deployment, especially for small teams or startups.

7. **Thermal Management Requirements** High-performance FPGAs can generate heat, requiring additional cooling solutions in some applications, which may complicate system design.

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The **Altera (Intel) 50006751 FPGA** is a powerful, flexible, and scalable solution ideal for applications requiring high-speed digital processing, reprogrammability, and integration into complex systems. Its strengths lie in its adaptability, performance, and Intel s robust ecosystem, making it a strong choice for research, prototyping, and high-end industrial or aerospace applications.

However, its higher cost, complexity, and power requirements may not justify its use in low-complexity or cost-sensitive projects. If your application demands rapid iteration, high parallelism, or custom logic without the need for mass production, this FPGA is a compelling option. For simpler or volume-driven projects, a more cost-effective alternative (e.g., an ASIC, microcontroller, or simpler FPGA) might be preferable.

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- You need high-speed digital signal processing or custom logic.

- Your project requires reprogrammability or rapid prototyping.

- You are working on a system where scalability and flexibility are critical.

- You have access to Intel s development tools and a team with FPGA expertise.

- Your budget is tight, and the application does not require FPGA-level complexity.

- You are targeting high-volume production where an ASIC or simpler IC would be more cost-effective.

- Your team lacks experience with FPGA development, as the learning curve may delay project timelines.

- Power consumption or thermal constraints are significant concerns.

For best results, evaluate whether the 50006751 aligns with your specific requirements balancing performance needs against cost and development effort. If in doubt, consult with an FPGA specialist or Intel s technical support to ensure the device meets your long-term goals.

Details:

part #: 50006751 price

• $58.00

specifications pcbemdev:

• brand: Altera
• mpn: 50006751
• part type: Circuit Instrument Panel Mount
• mounting style: Panel Mount
• pcb type: Multilayer Pcb
• number of tie-points: 12
• operating voltage: 3.3 V
• item height: 2 Mm
• material: Fr-4, Copper
• item length: 130 Mm
• item width: 70 Mm

returns pcbemdev:

• method: Money back
• policy: Returns Accepted
• paid by: Buyer
• time: 14 Days

seller pcbemdev:

• city: Cedar Rapids, Iowa
• rating: 0.0%
• # reviews: 33

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• options: Ship-to-home
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• availability: In Stock
• started: April 29, 2026
• quantity: 1

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• condition: Used
• Electronic Components Semiconductors > Circuit Boards Prototyping > Printed Circuit Boards PCBs

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