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EC-V-H264-8B-30-1080-MXC-LL

Manufacturer No:

Manufacturer:

System-On-Chip (SOC) Technologies Inc.

Description:

IC MOD ARTIX-7 A200T 256KB 32MB

Datasheet:

Datasheet

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EC-V-H264-8B-30-1080-MXC-LL Specifications

Type

Parameter
Operating Temperature

0°C ~ 85°C
Size / Dimension

2.700" L x 2.000" W (68.00mm x 51.00mm)
Connector Type

SO-DIMM-204
RAM Size

256KB
Flash Size

32MB
Speed

-
Co-Processor

-
Core Processor

Artix-7 A200T
Module/Board Type

FPGA Core
Packaging

Bulk
Product Status

Discontinued at Digi-Key
Series

H.264-HD Encoder

EC-V-H264-8B-30-1080-MXC-LL Documents & Media

Documents & Media :

2213580 Drawing
Environmental Information :

2213580-2.igs
Additional Resources:

2213580 Material 14/Nov/2016

The EC-V-H264-8B-30-1080-MXC-LL integrated circuit chips have several advantages and application scenarios:Advantages: 1. High-quality video encoding: These chips provide efficient and high-quality video encoding using the H.264 compression standard. This ensures that the encoded video has a good balance between quality and file size. 2. Low latency: The chips are designed to minimize latency, making them suitable for applications that require real-time video encoding and streaming. 3. Low power consumption: These chips are optimized for low power consumption, making them suitable for battery-powered devices or applications where power efficiency is crucial. 4. High resolution support: The chips support up to 1080p resolution, allowing for encoding of high-definition video content. 5. Integration and ease of use: These chips are integrated circuits, which means they can be easily integrated into various devices or systems. They often come with software development kits (SDKs) and application programming interfaces (APIs) that simplify their usage.Application scenarios: 1. Video surveillance: The chips can be used in IP cameras or video surveillance systems to encode and stream high-quality video footage with low latency. 2. Video conferencing: These chips can be used in video conferencing systems to encode and transmit real-time video streams with high quality and low latency. 3. Live streaming: The chips can be used in devices or platforms that require live video streaming, such as live gaming, sports broadcasting, or social media streaming applications. 4. Drones and robotics: These chips can be used in drones or robotic systems to encode and transmit video feeds in real-time, enabling remote monitoring or control. 5. Medical imaging: The chips can be used in medical imaging devices to encode and transmit high-resolution video streams for diagnostic or telemedicine purposes.Overall, the EC-V-H264-8B-30-1080-MXC-LL integrated circuit chips offer efficient and high-quality video encoding with low latency and power consumption, making them suitable for various applications requiring real-time video processing and streaming.

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EC-V-H264-8B-30-1080-MXC-LL

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