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10AS016C3U19E2SG

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10AS016C3U19E2SG

10AS016C3U19E2SG

$661.53
  • Description:IC SOC CORTEX-A9 1.5GHZ 484UBGA
  • Series:Arria 10 SX

SKU:f69f5680a58d 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:0°C ~ 100°C (TJ)
  • Grade:-
  • Qualification:-
  • Package / Case:484-BFBGA
  • Supplier Device Package:484-UBGA (19x19)

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10AS016C3U19E2SG

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 10AS016C3U19E2SG is sourced in System On Chip (SoC) category when teams want clear constraints and a repeatable validation path. Key specs include Description (IC SOC CORTEX-A9 1.5GHZ 484UBGA), Series (Arria 10 SX), Packaging (Tray), Temperature (0°C ~ 100°C (TJ)), and Package/case (484-BFBGA).

Selection Notes
  • For 10AS016C3U19E2SG, validate the operating temperature range (0°C ~ 100°C (TJ)) for your environment and margin.
  • Check Primary Attributes (FPGA - 160K Logic Elements) against the datasheet conditions and your system-level constraints.
  • Ensure the package/case (484-BFBGA) and land pattern match your PCB layout before procurement.
  • Make sure Architecture (MCU, FPGA) aligns with your design targets and verification plan.
Alternates & Substitutions
  • For System On Chip (SoC) substitutions, lock footprint/pinout and operating envelope first, then verify the critical performance conditions on your hardware.
  • Verify the alternate can be tested with your existing fixtures and acceptance criteria so production verification stays repeatable.
  • Lock the mechanical constraints first (package/case 484-BFBGA, supplier package 484-UBGA (19x19), packaging Tray) before comparing performance specs.
  • If you are qualifying a second source, align documentation/traceability requirements early to avoid surprises in procurement.
FAQ

What details help you quote 10AS016C3U19E2SG quickly?
Provide the part number (10AS016C3U19E2SG), quantity, required lead time, and any packaging or documentation requirements.

Who is the manufacturer of 10AS016C3U19E2SG?
Altera

Which Connectivity is listed for 10AS016C3U19E2SG?
EBI/EMI, Ethernet, I2C, etc.

What Speed does 10AS016C3U19E2SG have?
1.5GHz

Application Scenarios

Altera 10AS016C3U19E2SG is listed under the System On Chip (SoC) category and is commonly used when correctness, reliability, and qualification repeatability matter. In real deployments, they commonly sit at the center of sensor fusion, protocol processing, or deterministic control loops where latency and reliability matter. In real deployments, well-matched compute devices reduce software complexity by providing the right hardware acceleration and I/O integration. In building automation, local compute keeps systems functional even when cloud connectivity is intermittent. Across consumer products, compute and peripheral integration reduces BOM and speeds product iterations while maintaining stable user experience. Within smart factories, they run real-time control and protocol stacks in cabinets with dust and vibration, where remote diagnostics and OTA updates reduce downtime.

Compatibility Advice
  • To reduce integration risk, confirm boot strapping, reset sequencing, and programming access so bring-up and recovery are deterministic across builds. This reduces the chance that substitutions push hidden limits.
  • Before committing to volume builds, validate that alternate parts preserve boot modes, memory interfaces, and critical timing assumptions rather than only pinout. This helps field behavior stay predictable across lots.
Project Fit
  • Good fit when you can verify Altera 10AS016C3U19E2SG for System On Chip (SoC) integration across temperature and supply corners, and you can provision programming and debug access so production test and field recovery are practical.
  • Poor fit when boot and recovery behavior depends on sequencing or strapping that cannot be controlled across builds, because integration risk stays high when key margins cannot be measured.
10AS016C3U19E2SG10AS016C3U19E2SG
$661.53
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