LPJG0926HENL: A70-112-331N126 Alternative for Raspberry Pi 4

★ Introduction: Why Ethernet Connector Choice Matters for Raspberry Pi 4

The Raspberry Pi 4 Model B represents a major leap forward compared to previous generations. With a faster CPU, true Gigabit Ethernet, and expanded use cases ranging from industrial gateways to edge computing and media servers, network performance has become a critical design factor rather than an afterthought.

While many developers focus on software optimization, the Ethernet connector and integrated magnetics (MagJack) play a decisive role in signal integrity, PoE reliability, EMI compliance, and long-term stability. For engineers looking to replace or source an alternative to A70-112-331N126, LINK-PP’s LPJG0926HENL has emerged as a proven and cost-effective solution.

This article provides a deep technical breakdown of LPJG0926HENL as an alternative MagJack for Raspberry Pi 4 applications, covering electrical performance, mechanical compatibility, PoE considerations, PCB footprint guidelines, and installation best practices.

What You Will Learn from This Guide

By reading this article, you will be able to:

• Understand why LPJG0926HENL is commonly used as an alternative to A70-112-331N126
• Verify compatibility with Raspberry Pi 4 Ethernet requirements
• Compare electrical, mechanical, and PoE-related characteristics
• Avoid common PCB footprint and soldering mistakes
• Make informed sourcing decisions for production-scale projects

★ Understanding Raspberry Pi 4 Ethernet Requirements

The Raspberry Pi 4 Model B features a true Gigabit Ethernet interface (1000BASE-T), no longer limited by the USB 2.0 bottleneck found in earlier models. This improvement introduces stricter requirements for the Ethernet connector and magnetics, including:

• Stable 100/1000 Mbps auto-negotiation
• Low insertion loss and controlled impedance
• Proper common-mode noise suppression
• Compatibility with PoE HAT designs
• Reliable LED status indication for debugging

Any RJ45 MagJack used on a Raspberry Pi 4–based design must meet these baseline expectations to avoid packet loss, EMI issues, or intermittent link failures.

★ Overview of LPJG0926HENL

LPJG0926HENL is a 1×1 single-port RJ45 connector with integrated magnetics, designed for Gigabit Ethernet applications. It is widely deployed in single-board computers (SBCs), embedded controllers, and industrial networking devices.

Key Highlights

• Supports 100/1000BASE-T Ethernet
• Integrated magnetics for signal isolation
• PoE / PoE+ capable design
• Through-Hole Technology (THT) mounting
• Dual LED indicators (Green / Yellow)
• Compact footprint suitable for SBC layouts

These features align closely with the functional profile of A70-112-331N126, making LPJG0926HENL a strong drop-in or near-drop-in replacement candidate.

★ LPJG0926HENL vs. A70-112-331N126: Functional Comparison

From a system-level perspective, both connectors serve the same purpose. Engineers typically choose LPJG0926HENL for cost efficiency, supply stability, and wide adoption in Raspberry Pi–style designs.

★ Electrical Performance and Signal Integrity

For Gigabit Ethernet, magnetics quality is essential. LPJG0926HENL integrates:

• Isolation transformers compliant with IEEE 802.3 requirements
• Balanced differential pairs for reduced crosstalk
• Optimized return loss and insertion loss performance

These characteristics help ensure:

• Stable Gigabit throughput
• Reduced EMI emissions
• Improved compatibility with long cable runs

In real-world Raspberry Pi 4 deployments, LPJG0926HENL supports smooth data transfer for streaming, file servers, and network-attached applications without link instability.

★ PoE and Power Delivery Considerations

Many Raspberry Pi 4 projects rely on Power over Ethernet (PoE) to simplify cabling and deployment, especially in industrial or ceiling-mounted installations.

LPJG0926HENL is designed to support PoE and PoE+ applications when paired with an appropriate PoE controller and power circuitry. Key design notes include:

• Ensure correct center-tap routing on the magnetics
• Follow IEEE 802.3af/at power budget guidelines
• Use adequate PCB copper thickness for power paths
• Consider thermal dissipation in enclosed housings

When implemented correctly, LPJG0926HENL enables stable power delivery and data transmission over a single Ethernet cable.

★ LED Indicators: Practical Diagnostics for Developers

LPJG0926HENL includes two integrated LEDs:

• Left LED (Green) – Link status
• Right LED (Yellow) – Activity or speed indication

These LEDs are especially valuable during:

• Initial board bring-up
• Network debugging
• Field diagnostics

For Raspberry Pi–based devices deployed in remote or industrial environments, visual status feedback significantly reduces troubleshooting time.

★ Mechanical Design and PCB Footprint Guidelines

Although LPJG0926HENL is often used as an alternative to A70-112-331N126, engineers should never assume identical footprints without verification.

Critical Checks Before Replacement

1. Pinout mapping

Confirm Ethernet pairs, LED pins, and shield grounding pins.

2. Pad spacing and hole diameter

Verify THT hole size tolerance for wave or selective soldering.

3. Shield tabs and grounding
Ensure proper chassis grounding to maintain EMI performance.

4. Connector orientation
Most designs use tab-down orientation, but confirm mechanical drawings.

Failing to validate these parameters may result in assembly issues or EMI non-compliance.

★ Installation and Soldering Best Practices (THT)

LPJG0926HENL uses Through-Hole Technology, which offers strong mechanical retention—ideal for Ethernet cables frequently being plugged and unplugged.

Recommended Practices

• Use reinforced pads for shield pins
• Maintain consistent solder fillets for signal pins
• Avoid excessive solder that may wick into the connector
• Clean flux residue to prevent corrosion
• Inspect solder joints for voids or cold joints

Proper soldering ensures long-term reliability, especially in vibration-prone environments.

★ Typical Applications Beyond Raspberry Pi 4

While frequently associated with Raspberry Pi boards, LPJG0926HENL is also used in:

• Industrial Ethernet controllers
• Networked sensors and IoT gateways
• Embedded Linux SBCs
• Smart home hubs
• Edge computing devices

This wide adoption further confirms its maturity and reliability as a Gigabit Ethernet MagJack.

★ Why Engineers Choose LPJG0926HENL

From both a technical and commercial standpoint, LPJG0926HENL offers several advantages:

• Proven compatibility with SBC Ethernet designs
• Competitive pricing for volume production
• Stable supply chain and shorter lead times
• Clear documentation and footprint availability
• Strong field performance in PoE environments

These factors make it a practical alternative for engineers seeking flexibility without sacrificing performance.

★ Frequently Asked Questions (FAQs)

Q1:Can LPJG0926HENL directly replace A70-112-331N126 on a Raspberry Pi 4 PCB?

In many designs, yes. However, engineers should always confirm pinout and mechanical drawings before finalizing the PCB.

Q2:Does LPJG0926HENL support PoE+?

Yes, when used with a compliant PoE power circuit and proper PCB layout.

Q3:Are the LED functions configurable?

LED behavior depends on the Ethernet PHY and system design. The connector supports standard link/activity signaling.

Q4:Is LPJG0926HENL suitable for industrial environments?

Yes. Its THT mounting and integrated shield provide mechanical robustness and EMI protection.

★ Conclusion: A Smart Alternative for Modern Ethernet Designs

As Raspberry Pi 4 continues to power more advanced and demanding applications, choosing the right Ethernet MagJack becomes increasingly important. LPJG0926HENL offers a well-balanced combination of Gigabit performance, PoE capability, mechanical robustness, and cost efficiency, making it a strong alternative to A70-112-331N126.

For engineers designing Raspberry Pi–based systems or compatible SBCs, LPJG0926HENL represents a reliable, production-ready choice that aligns with both technical and commercial requirements.