BCM82328B1KFSBG Guide: The Workhorse Dual 40G/Octal 10G Retimer PHY

In the complex architecture of high-speed data center switches, the path between the main switch ASIC (like a Trident or Tomahawk) and the front-panel ports is critical. Signals degrade over long PCB traces, picking up noise and jitter. This is where the Broadcom BCM82328B1KFSBG steps in.

As a 28nm Dual 40GbE / Octal 10GbE Retimer, this chip is the unsung hero that ensures your 40G QSFP+ and 10G SFP+ ports run error-free. While the industry buzzes about 400G and 800G, the BCM82328 remains a vital component for maintaining and building mature, reliable 10G/40G networking infrastructure.

This guide explores the technical specifications, architecture, and sourcing considerations for the BCM82328B1KFSBG.

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Table of Contents

• 1. Decoding the Silicon: BCM82328B1KFSBG Specs
  • Key Specifications Matrix
  • Understanding the "B1" Revision & Package
  • Price Analysis & Stock Availability
• 2. Architecture: XLAUI to XLPPI Bridge
  • Signal Integrity: Why Retimers Matter
• 3. Configuration Modes: 40GbE vs. 10GbE
  • Dual 40G Mode (QSFP+)
  • Octal 10G Mode (SFP+)
• 4. Comparison: BCM82328 vs. BCM82332
• 5. Conclusion

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1. Decoding the Silicon: BCM82328B1KFSBG Specs

The BCM82328 is designed using 28nm CMOS technology, offering a balance of performance and power efficiency that defined the mature 40G era.

Key Specifications Matrix

Feature	Specification	Impact
Port Configuration	Dual 40GbE or Octal 10GbE	Flexible usage for QSFP+ or SFP+ breakout.
Modulation	NRZ (Non-Return-to-Zero)	Standard signaling for 10G/40G legacy links.
Host Interface	XLAUI / RXAUI	Connects seamlessly to Switch ASICs.
Line Interface	XLPPI / SFI	Drives the optics directly with high drive strength.
Process Node	28nm CMOS	Low power consumption (<1W per 10G equivalent).
Package	19x19mm BGA	"KFSBG" indicates RoHS Compliant / Green.

Understanding the "B1" Revision & Package

• B1 Revision: In semiconductors, silicon revisions (A0, B0, B1) matter. "B1" typically indicates a mature stepping with fixed errata, ensuring higher stability than initial "A" versions. It is the preferred revision for long-term maintenance.
• KFSBG:
  • K: Commercial Temperature range (0°C to 70°C).
  • FS: Fine-pitch BGA package.
  • BG: "Green" (RoHS/Halogen-free).

Price Analysis & Stock Availability

As a legacy 40G component, the BCM82328 is critical for repairing older line cards or building cost-effective edge switches.

Procurement Tip: Sourcing older Broadcom silicon requires verified channels. [Check Stock for BCM82328B1KFSBG at Aichiplink] to view inventory from trusted distributors.

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2. Architecture: XLAUI to XLPPI Bridge

The primary job of the BCM82328 is to bridge the gap between the System Side (ASIC) and the Line Side (Optics).

Signal Integrity: Why Retimers Matter

On a large 48-port switch, the electrical traces from the central ASIC to the ports on the edge can be long (10-20 inches).

• Without Retimer: High-speed 10G/40G signals (NRZ) attenuate and collect jitter over copper traces, leading to bit errors (BER).
• With BCM82328: The chip sits close to the optical cages. It receives the noisy signal, recovers the clock (CDR - Clock Data Recovery), cleans the data (Equalization), and re-transmits a pristine signal to the optical module. This allows designers to use longer PCB traces and cheaper board materials.

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3. Configuration Modes: 40GbE vs. 10GbE

The BCM82328 is highly versatile, supporting mixed-mode operations via firmware configuration (MDIO).

Dual 40G Mode (QSFP+)

In this mode, the chip handles two full 40GbE ports.

• It takes 4 lanes of 10G XLAUI from the host and drives 4 lanes of 10G XLPPI to the QSFP+ module.
• Application: Ideal for Top-of-Rack (ToR) switches aggregating server traffic.

Octal 10G Mode (SFP+)

In this mode, the chip drives eight independent 10GbE ports.

• It uses SFI signaling to drive SFP+ modules directly.
• Application: Perfect for high-density 10G line cards where port density is key.

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4. Comparison: BCM82328 vs. BCM82332

Engineers often confuse these two similar-looking Broadcom PHYs. It is crucial to choose the right one.

Feature	BCM82328 (This Chip)	BCM82332
Primary Focus	40G / 10G Retimer	100G Gearbox & Retimer
Max Capability	2x 40GbE Ports	1x 100GbE Port (Gearbox)
Gearbox Function	No (Retimer mostly)	Yes (10:4 Gearbox for 100G)
Typical Use	QSFP+ / SFP+ Switches	QSFP28 100G Line Cards
Signaling	10G NRZ Lanes	10G & 25G NRZ Lanes

Verdict:

• If you are designing for QSFP+ (40G), use the BCM82328.
• If you need to convert 10 lanes of 10G (CAUI-10) into 4 lanes of 25G (CAUI-4) for QSFP28 (100G), you need the BCM82332.

5. Conclusion

The Broadcom BCM82328B1KFSBG is a cornerstone of the 10G and 40G Ethernet ecosystem. Its reliability as a retimer makes it indispensable for ensuring data integrity in enterprise switches and routers. While not a 400G powerhouse, it remains a critical part for maintaining the vast installed base of NRZ infrastructure.

Sourcing Legacy Broadcom PHYs Keep your network hardware running. Visit Aichiplink.com to search for BCM82328B1KFSBG and other essential networking ICs.

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Written by Jack Elliott from AIChipLink.

 

AIChipLink, one of the fastest-growing global independent electronic   components distributors in the world, offers millions of products from thousands of manufacturers, and many of our in-stock parts is available to ship same day.

 

We mainly source and distribute integrated circuit (IC) products of brands such as Broadcom, Microchip, Texas Instruments, Infineon, NXP, Analog Devices, Qualcomm, Intel, etc., which are widely used in communication & network, telecom, industrial control, new energy and automotive electronics. 

 

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