Arris HT3543H-D-E210-2-AS Series Quad‐Density Full Spectrum Multiplexing Transmitter
Condition: New
Product Overview: The ARRIS HT3543H‑D‑E210‑2‑AS Series Quad‑Density Full‑Spectrum Multiplexing Transmitter appears to be a specialized forward-path RF transmitter module, likely deployed in headend or node platforms to inject multiple QAM channels across the full available downstream frequency range. While specific publicly available documentation for this exact part number is scarce, it aligns closely with ARRIS's family of high-density forward path transmitters (e.g., HT3541H series) used in cable MSO systems for delivering multiplexed adapters to the plant.
Features:
Quad‑density QAM multiplexing: supports up to full-spectrum channel loading in high QAM density format
Full downstream band coverage: delivers consistent RF power and flatness across the entire channel plan
Compact modular form‑factor: designed to fit ARRIS headend/node chassis (e.g., forward card slots)
Operator‑grade performance: optimized for high linearity, low distortion, and minimal insertion loss
Condition: New
Product Overview: The ARRIS HT3543H‑D‑E210‑2‑AS Series Quad‑Density Full‑Spectrum Multiplexing Transmitter appears to be a specialized forward-path RF transmitter module, likely deployed in headend or node platforms to inject multiple QAM channels across the full available downstream frequency range. While specific publicly available documentation for this exact part number is scarce, it aligns closely with ARRIS's family of high-density forward path transmitters (e.g., HT3541H series) used in cable MSO systems for delivering multiplexed adapters to the plant.
Features:
Quad‑density QAM multiplexing: supports up to full-spectrum channel loading in high QAM density format
Full downstream band coverage: delivers consistent RF power and flatness across the entire channel plan
Compact modular form‑factor: designed to fit ARRIS headend/node chassis (e.g., forward card slots)
Operator‑grade performance: optimized for high linearity, low distortion, and minimal insertion loss
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