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10AS016C3U19I2SG

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10AS016C3U19I2SG

10AS016C3U19I2SG

$771.38
  • Description:IC SOC CORTEX-A9 1.5GHZ 484UBGA
  • Series:Arria 10 SX

SKU:3644e8d39bdb Category: Brand:

  
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Product Detailed Parameters

  • Description:IC SOC CORTEX-A9 1.5GHZ 484UBGA
  • Series:Arria 10 SX
  • Mfr:Altera
  • Package:Tray
  • Architecture:MCU, FPGA
  • Core Processor:Dual ARM® Cortex®-A9 MPCore™ with CoreSight™
  • Flash Size:-
  • RAM Size:256KB
  • Peripherals:DMA, POR, WDT
  • Connectivity:EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTG
  • Speed:1.5GHz
  • Primary Attributes:FPGA - 160K Logic Elements
  • Operating Temperature:-40°C ~ 100°C (TJ)
  • Grade:-
  • Qualification:-
  • Package / Case:484-BFBGA
  • Supplier Device Package:484-UBGA (19x19)

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10AS016C3U19I2SG

How to buy
Online and offline orders are supported. If the item is available for online purchase, you can place it in the cart; for wholesale pricing, please contact our product manager for a quote.
Payment Method
Payment methods: T/T, WeChat Pay, credit cards, Google Pay, Apple Pay . Buyer covers shipping, fees, duties, and taxes; contact our product manager if you need a contract/procurement process.
Delivery time
In-stock items usually ship within 24 hours. Otherwise, shipment is arranged 1 to 2 days after the items arrive at our warehouse. Timing depends on destination and shipping method.
Freight calculation
Freight cost depends on destination, package size, and weight . We offer shipping options via DHL, FedEx, UPS, and TNT , and can ship using your freight account upon request.
Mode of Transportation
We ship via DHL, FedEx, UPS, and TNT. If you prefer a specific logistics provider, we can ship using your designated carrier.
Return and Refund
Returns are accepted within 60 days of invoice with RMA approval. Items must be resalable; original invoice and test report are required. No returns for customer errors.

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Buying Guide
Summary

Altera 10AS016C3U19I2SG is used in System On Chip (SoC) category where integration and verification need to stay predictable. Key specs include Description (IC SOC CORTEX-A9 1.5GHZ 484UBGA), Series (Arria 10 SX), Packaging (Tray), Temperature (-40°C ~ 100°C (TJ)), and Package/case (484-BFBGA).

Selection Notes
  • For 10AS016C3U19I2SG, validate the operating temperature range (-40°C ~ 100°C (TJ)) for your environment and margin.
  • Verify Primary Attributes (FPGA - 160K Logic Elements) matches your requirements and the datasheet test conditions.
  • Ensure the package/case (484-BFBGA) and land pattern match your PCB layout before procurement.
  • Check Architecture (MCU, FPGA) against the datasheet conditions and your system-level constraints.
Alternates & Substitutions
  • For System On Chip (SoC), treat alternates as an integration task and validate the assumptions that matter on the assembled system.
  • Begin with the constraints that are hardest to change later: package/case 484-BFBGA, supplier package 484-UBGA (19x19), packaging Tray.
  • Confirm compliance/qualification needs (for example RoHS/REACH or grade) before approving a second source for production.
  • Always compare the datasheet test conditions behind key specs (load, frequency, temperature) to avoid swapping in a part that was characterized differently.
FAQ

What should I verify before using 10AS016C3U19I2SG in production?
Confirm footprint/pinout, min/max ratings, operating temperature, and the datasheet test conditions behind key specifications.

Can you confirm the Speed for 10AS016C3U19I2SG?
1.5GHz

Can you confirm the Architecture for 10AS016C3U19I2SG?
MCU, FPGA

What is the Connectivity of 10AS016C3U19I2SG?
EBI/EMI, Ethernet, I2C, etc.

Application Scenarios

In production System On Chip (SoC) builds, parts like Altera 10AS016C3U19I2SG are shortlisted for predictable behavior, clear documentation, and stable supply. In practice, well-matched compute devices reduce software complexity by providing the right hardware acceleration and I/O integration. In practice, they execute firmware or algorithms and coordinate peripherals, communications, and security features that define product capabilities. In IoT deployments, low power and secure boot support long-life outdoor operation. In automotive and transportation, they manage gateways and subsystem controllers that must survive thermal cycling and support safety diagnostics. Within IoT devices, secure boot and low-power modes enable years-long deployments in outdoor enclosures exposed to humidity and temperature swings. In medical devices, deterministic processing and audit logging support regulated workflows and long-term maintainability.

Compatibility Advice
  • In qualification work, verify clocking and startup behavior so the system does not enter undefined states during cold start and power cycling. This keeps integration from depending on typical-only conditions.
  • With the final enclosure and cabling, validate power-domain assumptions and decoupling near the pins so brownouts and erratic behavior do not appear at temperature corners. This keeps acceptance criteria measurable and repeatable.
Project Fit
  • A strong fit when you can test and document Altera 10AS016C3U19I2SG for System On Chip (SoC) integration with production-like fixtures, when you can control power sequencing and decoupling so brownouts and erratic resets are avoided. That said, not ideal when integrating Altera 10AS016C3U19I2SG for System On Chip (SoC), debug and programming access is not practical, increasing field recovery risk, because it becomes difficult to prove margin across production variance.
10AS016C3U19I2SG10AS016C3U19I2SG
$771.38
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