AFS1500-FGG256 Microchip AFS1500-FGG256 Field Programmable Gate Arrays (FPGAs) 119 I/Os 33.8kB 1.0989GHz

Microchip AFS1500-FGG256 Field Programmable Gate Arrays (FPGAs) Overview

The Microchip FPGA Fusion Family is a cutting-edge Field Programmable Gate Array (FPGA) designed to deliver exceptional performance and flexibility for a variety of applications. With 1.5 million gates and a maximum operating frequency of 1.0989GHz, this 256-pin FBGA device is ideal for high-speed processing tasks. Operating at a supply voltage of 1.5V, it features a compact design with a height of just 1.2mm, making it suitable for space-constrained environments. The FPGA is built using advanced 130nm CMOS technology, ensuring energy efficiency and reliability in demanding conditions.

Key Features of Microchip AFS1500-FGG256 Field Programmable Gate Arrays (FPGAs)

• Optimized to 119 I/Os and 33.8kB RAM for Enhanced Functionality, improving robustness in practical applications.
• Optimized to lead-Free and RoHS Compliant for Environmental Safety, improving robustness in practical applications.
• Designed to 1.5 Million Gates for Complex Logic Designs, helping ensure consistent and reliable operation.
• Optimized to operating Supply Voltage of 1.5V with a Range of 1.425V to 1.575V, improving robustness in practical applications.
• Built to maximum Frequency of 1.0989GHz for High-Speed Applications, making integration easier across a wide range of systems.
• Designed to 256-Pin FBGA Package for Compact Integration, helping ensure consistent and reliable operation.
• Engineered to temperature Range from 0°C to 70°C for Versatile Applications, supporting dependable performance in real-world designs.

Microchip AFS1500-FGG256 Field Programmable Gate Arrays (FPGAs) Applications

Storage / Memory / High-Speed I/O

• Commonly applied in nAND bad-block scan accelerator — NAND, ECC, scanning, supporting stable and efficient system performance.
• Commonly applied in data diode one-way transfer hardware gate — unidirectional, safety, policy, supporting stable and efficient system performance.
• Well-suited for high-integrity file logging with write-once protection — WORM, integrity, hashes, helping designers meet typical integration requirements.
• Well-suited for multi-slot SD duplication controller — SD, multi-slot, buffering, helping designers meet typical integration requirements.
• Well-suited for fibre Channel framing prototype datapath — FC, SERDES, framing, helping designers meet typical integration requirements.

Test & Measurement / ATE / Lab Tools

• Well-suited for hardware trigger distribution with sub-ns skew control — triggers, skew, PTP, helping designers meet typical integration requirements.
• Well-suited for vNA IF processing and calibration assist pipeline — IF DSP, calibration, FFT, helping designers meet typical integration requirements.
• Commonly applied in rF switch matrix deterministic sequencing controller — GPIO, relays, timing, supporting stable and efficient system performance.
• Commonly applied in high-speed logic analyzer capture + trigger engine — LVDS, SERDES, deep capture, DDR, supporting stable and efficient system performance.
• Commonly applied in power analyzer multi-phase sampling alignment engine — ADC sync, phase, timestamp, supporting stable and efficient system performance.

Medical / Healthcare Devices

• Often used in dialysis machine sensor I/O and valve timing — ADC, PWM, control, where predictable behavior and reliability are important.
• Well-suited for ventilator sensor capture and valve timing controller — ADC, PWM, safety interlocks, helping designers meet typical integration requirements.
• Commonly applied in radiation therapy MLC leaf timing controller — timing, motors, safety, supporting stable and efficient system performance.
• Often used in ultrasound beamforming front-end accelerator — beamforming, ADC, DDR, where predictable behavior and reliability are important.
• Well-suited for pET coincidence detection time-window engine — timestamp, coincidence, DSP, helping designers meet typical integration requirements.

Security / Crypto / Trusted Hardware

• Well-suited for secure key ladder and session derivation engine — KDF, key ladder, content security, helping designers meet typical integration requirements.
• Well-suited for secure firmware update signature verification accelerator — ECDSA/EdDSA, SHA-2/3, OTA, helping designers meet typical integration requirements.
• Commonly applied in anti-rollback monotonic counter enforcement logic — anti-rollback, eFuse/OTP, secure storage, supporting stable and efficient system performance.
• Often used in fPGAs are used to enforce security at the hardware boundary: inline encryption, trusted boot, tamper response, attestation, and policy enforcement. Their programmability enables evolving cryptography/protocols while keeping secrets and critical checks off general-purpose CPUs, where predictable behavior and reliability are important.
• Well-suited for oT gateway protocol whitelist enforcer — Modbus/IEC/OT, whitelist, rate limit, helping designers meet typical integration requirements.

Automotive ADAS / Sensors / Domain Compute

• Often used in camera link diagnostics and health monitoring engine — I2C, SerDes control, logs, where predictable behavior and reliability are important.
• Commonly applied in active noise cancellation adaptive filter assist — DSP, audio, low latency, supporting stable and efficient system performance.
• Commonly applied in secure boot helper and anti-rollback logic — secure boot, anti-rollback, key storage, supporting stable and efficient system performance.
• Commonly applied in hDMI/MIPI infotainment input switch controller — HDMI/MIPI, EDID, switching, supporting stable and efficient system performance.
• Often used in automotive platforms use FPGAs for sensor aggregation, deterministic time alignment, real-time pre-processing (radar/vision/lidar), and secure gateway functions. They bridge high-speed links and assist domain controllers with predictable latency, where predictable behavior and reliability are important.