


Why Choose Us?
Professional Platform
B2B & B2C purchasingDelivery at full speed
1-2 days deliveryWide variety
Original manufacturers365 days guarantee
Responsible qualityTech Specifications
XC17S200APD8C Description
XC17S200APD8C Description
The XC17S200APD8C is an OTP (One-Time Programmable) serial configuration PROM manufactured by AMD, designed for storing configuration data for FPGAs. With a 2Mb memory size, it operates within a 3V to 3.6V supply range and is rated for commercial temperature ranges (0°C to 70°C). Housed in an 8-pin DIP (Dual In-line Package), this through-hole-mount device is ideal for legacy or rugged applications where reliability is critical. Although marked as obsolete, it remains relevant for systems requiring stable, non-volatile configuration storage without field reprogramming.
XC17S200APD8C Features
- OTP Memory: Ensures data integrity with one-time programming, eliminating accidental corruption.
- Wide Voltage Support: Operates at 3.3V ±10%, compatible with common FPGA power rails.
- Industrial-Grade Packaging: 8-DIP through-hole design suits high-reliability or harsh environments.
- Non-Volatile Storage: Retains configuration data indefinitely, critical for FPGA boot-up sequences.
- REACH Unaffected: Compliant with environmental regulations, ensuring long-term usability in compliant designs.
- Low Sensitivity to Moisture: MSL Not Applicable simplifies handling and storage.
XC17S200APD8C Applications
- FPGA Configuration: Primary use for loading bitstreams into AMD/Xilinx FPGAs during power-up.
- Legacy Systems: Maintains functionality in older industrial or military hardware where updates are rare.
- Embedded Systems: Ideal for fixed-function devices requiring deterministic startup behavior.
- High-Noise Environments: Through-hole mounting and OTP reliability mitigate risks in electrically noisy applications (e.g., motor control, power electronics).
Conclusion of XC17S200APD8C
The XC17S200APD8C offers a robust, no-compromise solution for fixed-configuration FPGA systems. Its OTP architecture, wide voltage tolerance, and through-hole durability make it a pragmatic choice for legacy upgrades or environments demanding long-term stability. While newer alternatives exist, this device remains a reliable option for designs prioritizing data permanence and simplicity over reprogrammability. Engineers should evaluate its obsolete status against project lifecycle needs but can leverage its proven performance in critical applications.



.png)













.png?x-oss-process=image/format,webp/resize,h_32)










