Marine Electronics

Advice that You can Trust

Based on years of experience in Marine Electronics.

Enhance your boat’s systems reliability with simple, solid engineering principles. Drawing on years of experience maintaining and sailing expedition-support and fishing vessels in the challenging waters of Antarctica, the sub-Antarctic islands and New Zealand, I bring practical expertise to keep your marine electronics performing at their best.

How I can Help You

I can mentor you to manage your own marine electronics projects.

Need help with marine electronics? I provide expert guidance on navigation, sonar, radar, entertainment systems, engine wiring, alternators, and autopilots. Whether planning a project or DIY, I’ll help you choose the right gear, create specs, and avoid costly mistakes for a professional result.

Learn from Articles and Tutorials

Articles suitable for absolute beginner to expert.

Discover easy-to-follow tutorials and guides for marine electronics. From installation to troubleshooting, learn how to handle navigation, sonar, radar, and entertainment systems with confidence. Perfect for DIYers and professionals alike, our resources help you get the most from your marine technology.

Latest Articles

Marine Radio basics

In this article, we’ll break down the fundamentals of marine VHF radio, how it works, and why it’s so important for sailors of all levels. Let’s dive into understanding VHF marine radio basics!

The Basics of Boat Electronics

For the uninitiated, the dashboard of a modern sailing yacht or small fishing boat can look incredibly complicated. Let's continue learning the basics of boat electronics together.

Networking Marine Instruments: – 08 | Power Management and Network Reliability

A reliable power supply and robust network design are the foundations of a dependable marine electronics system. This article guides you to achieving a reliable electronics setup.

Networking Marine Instruments: – 07 | Integrating Analogue Sensors

Your shiny new plotter and sailing instruments are ready for installation, but those tarnished old analogue engine gauges don't fit with your vision of a glass cockpit.

Latest Industry News

Orca integration with Raymarine Lighthouse

Following on the heels of Raymarine's announcement that Orca routes can now be shared with their Axiom series of plotters Orca have also made a press release.

LightHouse 4 Update for Axiom Chartplotters

Raymarine have released a software update for the Axiom series of chartplotters.

About TweedsMarine

Established in 2016, TweedsMarine is your trusted partner for marine electronics advice in Nelson, New Zealand. Founded by Christopher Harris, a marine electronics engineer with over 40 years of experience in telecommunications and the marine industry. TweedsMarine initially operated from Christchurch before relocating to Nelson in 2019. Followed by a hiatus during which Christopher honed his expertise at Endeavour Electronics Limited, based in Port Nelson, TweedsMarine was relaunched in June 2025 as an online hub dedicated to the marine electronics sector.

FAQ

Frequently Asked Questions

I get asked a lot of questions. The most common will be listed here.

How does antenna height affect marine VHF radio range?

VHF radio waves travel mostly line-of-sight. The higher the antenna, the farther the radio horizon and communication range. Raising antenna height significantly increases effective range.

What is Digital Selective Calling (DSC)?

DSC is a digital communication protocol integrated into many marine VHF radios that allows automated distress alerts with position data, routine calls, and safety messages. It enhances safety by enabling quick, precise emergency signalling.

How do I ensure reliable power and network operation on my boat?

Use a clean, stable power supply with proper voltage (9-16 VDC for NMEA 2000).
Use marine-grade wiring sized for load and length.
Protect circuits with fuses or breakers near the battery.
Avoid sharing circuits with high-draw devices.
Consider power conditioning devices like isolated DC/DC converters.
Use dielectric grease on connectors to prevent corrosion.
Inspect and maintain cables and connections regularly.
Label and document your network layout and power circuits.

What are NMEA 0183 and NMEA 2000, and how do they differ?

NMEA 0183 is an older serial communication standard using ASCII text messages sent over twisted pairs, typically one talker to multiple listeners, with data rates around 4800 baud (or 38400 baud for AIS). It is simple, cost-effective, but limited in data rate and wiring complexity.

NMEA 2000 (N2k) is a modern CAN bus-based network allowing multiple devices to communicate simultaneously on a single backbone cable with T-connectors. It supports higher data rates, plug-and-play installation, and more complex data sharing.

Can I bridge NMEA 0183 and NMEA 2000 networks?

Yes. Converter or gateway devices allow communication between NMEA 0183 and NMEA 2000 devices. These can be unidirectional or bidirectional and require proper installation and configuration to avoid data loops and network overload.

What are EPIRBs, PLBs, and AIS SARTs?

EPIRB: Emergency Position Indicating Radio Beacon for vessel distress signaling via satellite.

PLB: Personal Locator Beacon for individual use.

AIS SART: Search and Rescue Transponder that transmits location to nearby AIS-equipped vessels, useful for man overboard situations.