Xilinx XA6SLX16-3CSG324I is a part of the Xilinx Spartan-6 Field Programmable Gate Array (FPGA) family. It is one of the FPGAs that are designed for automotive applications. Also, it is usable in other applications, including industrial and consumer electronics manufacturing.
In this article, you will find out more about why the Xilinx XA6SLX16-3CSG324I Integrated Circuit (IC) is easily integrated into some low-cost and high-volume automotive applications.
Technical Specifications of the Xilinx XA6SLX16-3CSG324I IC
The technical specifications or datasheet of a Field Programmable Gate Array (FPGA) is not always easy to understand, especially by newbies. In this section, you will learn more about the technical features that make Xilinx XA6SLX16-3CSG324I one of the best FPGAs to use for your next project.
The frequency of the clocking feature of an Integrated Circuit (IC) is one of the core timing requirements for a Field Programmable Gate Array (FPGA). By default, the clocking feature is designed to bolster the operations of the circuit. To this end, the feature has to do with the timeframe expected of the application circuit to provide to the electronic device to bolster its functionality.
Xilinx XA6SLX16-3CSG324I has a maximum clocking frequency of 667 MHz. As such, it bolsters the timing relationship between the transitions of one or multiple input signals.
The logic devices that are likely to be included to increase the functionality of the electronic device are:
The operating free-air temperature is another important feature of the Xilinx XA6SLX16-3CSG324I Integrated Circuit (IC). There are two (2) major types of temperature grades, and these are:
- Military: Typically used for Field Programmable Gate Arrays (FPGAs) below 54 degrees.
- Commercial: The temperature rating here is not above 74 degrees.
However, the Xilinx XA6SLX16-3CSG324I FPGA has an operating temperature of -40˚C (minimum) and 100˚C (maximum). As an industrial-grade IC, Xilinx XA6SLX16-3CSG324I is to be primarily used in the manufacturing of electronic devices for industrial uses only. This also includes devices that are used in the production of automotive for industrial use.
The terminal of the Xilinx XA6SLX16-3CSG324I FPGA is designed with tin, silver, and copper; making a perfect finish for the IC. This way, the engineers wouldn’t have difficulties in holding the important parts together.
Still, on the terminal, it is made of a ball array type of terminal form. This is generally classified as Low-Profile Fine-Pitch Ball Grid Array (LPFBGA).
The location of the terminal is at the bottom and it has a terminal pitch of 0.8 millimeters.
How to Choose the Xilinx XA6SLX16-3CSG324I FPGA
If you are looking to choose the Xilinx XA6SLX16-3CSG324I, the best strategy is to work with a reliable Printed Circuit Board (PCB) designer.
Considering the technicalities that come with it, you don’t want to mix things up. Here are some of the important factors to consider, as they will point you in the right direction in choosing a Xilinx XA6SLX16-3CSG324I FPGA:
Generally, the Xilinx XA6SLX16-3CSG324I is manufactured with CMOS technology. However, you want to make sure that the supplier is providing one with the same type of technology.
With the CMOS technology, the Integrated Circuit (IC) will have better functionality. One of the hallmark features of the CMOS is the savings on both component cost and spaces on the circuit board. This is common when dealing with one that comes with the integrated diode.
Note also that the CMOS technology is categorized based on Field Programmable Gate Array (FPGA) family. There are several types of them out there, including:
- Advanced BiCMOS Technology
- Advanced CMOS Logic
- Advanced BiCMOS Technology/Enhanced Transceiver Logic (ABTE/ETL)
- Advanced Very Low-Voltage CMOS Logic (AVC)
- Advanced Low-Voltage BiCMOS (ALB)
2. Part Status
The part status or production (lifecycle) status is also another important factor to consider. The Xilinx XA6SLX16-3CSG324I has an active production status, meaning that it is still in production. Therefore, sourcing it shouldn’t be a problem.
The cost of the Xilinx XA6SLX16-3CSG324I may vary by vendor or supplier. You may want to make several checks online to get different quotations. Then, compare the quotes to see the one that fits into your budget.
4. Condition of the FPGA
It is also important to consider the condition of the Xilinx XA6SLX16-3CSG324I. Since it is still in production, you have several options to choose from. You can go for one of the following:
- Original sealed
The number of inputs in the Field Programmable Gate Array (FPGA) can help the engineer and indeed the customer make more customization options. For the Xilinx XA6SLX16-3CSG324I, there are a total of 232 Input and Output (I.O) pins.
RayPCB: The Best Xilinx XA6SLX16-3CSG324I Supplier
The Xilinx XA6SLX16-3CSG324I is available for you to buy from RayPCB. As one of the leading Printed Circuit Board (PCB) suppliers, we offer the best Xilinx XA6SLX16-3CSG324I, while providing quality service.
Here are a couple of reasons why you should outsource your next Xilinx XA6SLX16-3CSG324I design to us:
1. Quality Control
We take pride in ensuring the smooth working performance of our client’s Printed Circuit Board (PCB) projects. Our quality control measures include:
- Printed Circuit Board (PCB) AIO Test
- Printed Circuit Board Assembly (PCBA) quality control
- FCT Test
- Printed Circuit Board (PCB) BGA X-Ray Inspection
2. Component Sourcing
You don’t need to do any other thing than to get our quote for your Xilinx XA6SLX16-3CSG324I project and allow us to handle the rest.
In addition, we help you source the best components to be mounted atop the circuit.
3. Surface Mount Services
As the Xilinx XA6SLX16-3CSG324I is powered by Surface Mount Technology (SMT); we are delighted to offer our help. As professionals in this field, we offer Surface Mount Technology (SMT) services. We also have the equipment to carry out these services, including offering SMT Stencil services.
The Xilinx XA6SLX16-3CSG324I Field Programmable Gate Array (FPGA) is your pathway to customizing and fine-tuning your next electronic project. As an automotive Integrated Circuit, it will come in handy in improving the schematics of your electronic devices, enhancing their functions, and making the user experience awesome.