The MeshCore Trace Path tool is one of many useful diagnostic features built into the MeshCore client. Similar to how the traceroute utility provides insight into TCP/IP networks, MeshCore Trace Path gives you visibility into how packets travel through the mesh network—whether you’re checking a single station or tracing a full multi-hop route across multiple repeaters. With MeshCore trace path, you can measure performance, confirm connectivity, and identify weak spots long before they affect reliability. Once you learn how to use it effectively, it becomes your go-to tool for understanding how your network really behaves in the field.
Two Ways to Use MeshCore Trace Path: Manual and Map
Inside the MeshCore client app, you’ll select Tools from the main menu. There are two trace path options: Trace Path – Manual and Trace Path – Using Map. Both perform the same test but differ in how you create the path and how the results are displayed.
- Manual mode: You build your route by selecting nodes from a list. MeshCore converts your selections into a comma-separated list of hexadecimal repeater identifiers that define the packet’s journey.
- Map mode: You build the path visually by clicking on nodes on the map in the order you want the packet to travel. To use map mode, you must either manually input a position or enable GPS in the client app.
Either way, the goal is the same—to see how a packet moves across your mesh and where it succeeds or fails along the way.
MeshCore Trace Path – Manual: Building Your Route by Hand
In Trace Path – Manual, tap the “+” icon in the lower-right corner to start building a path. Each node you click adds that repeater’s two-character hexadecimal ID to a list.
A simple outbound path might look like:
1A,34,56,F2
That sequence tells MeshCore to send the packet from node 1A, then 34, 56, and finally F2, but that won’t work as a trace unless you can hear F2 directly. If you cannot hear F2 directly, then you’ll need to make this a round-trip path by appending a way for the packet to get back to you:
1A,34,56,F2,56,34,1A
This tells the system exactly how the return packet should travel—effectively creating a complete “out-and-back” route. Alternately, if you can reach multiple repeaters, you have more options for the return path and this is where you can get creative and have a lot of fun exploring the mesh. You’re not limited to an out-and-back path. You can do a circular or linear path as long as it is complete and your companion is in range of the last repeater in the list.
If you only select a single node, you’re performing the MeshCore equivalent of a TCP/IP ping test. It’s the same MeshCore Trace Path tool, just used for a one-hop check. MeshCore sends a small test packet to that node and waits for a reply, giving you a fast confirmation that the link is healthy by reporting SNR and round-trip response time.
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Trace Path Using Map: Building Routes Visually
Trace Path – Using Map is the more intuitive option for visual thinkers. In this mode, you simply click on nodes displayed on the map in the order you want your route to follow. MeshCore will overlay a number on the map corresponding to the node’s placement in the list.
Similar to how we did it manually, you’ll need to ensure that your packets have a return path. After you’ve built your route, start the trace and watch how packets move. The results will show which nodes responded, how long each hop took, and where delays or drops occurred.
Map mode is especially helpful when testing new repeater placements or visualizing how terrain and node spacing affect coverage.
Interpreting MeshCore Trace Path Results
After running a trace, you’ll see hop-by-hop results in the form of an SNR display next to the link with the overall propagation delay shown at the bottom.
Here’s how to read it:
- Long delays indicate possible range or signal issues.
- Missing responses usually mean a node is offline, mis-configured, or just out of range.
- No response? If you didn’t reverse the list, packets may go out but never find their way back.
- Consistent timing patterns help identify your most stable routes.
Running multiple traces over time helps you build an understanding of how your network changes under different conditions — temperature, interference, or even battery levels, or noise generated by your solar charging circuit.
Why the MeshCore Trace Path Tool Matters
The 915 MHz ISM band that MeshCore operates in is license-free and perfect for low-power networking. But it’s also unpredictable: At this frequency, buildings, trees, and even high humidity can affect your signal path.
The MeshCore trace path tool turns that uncertainty into clarity. It lets you test, experiment, and optimize without guesswork. By visualizing how your mesh actually routes data, you can:
- Validate that packets are following expected routes.
- Detect asymmetric or one-way links early.
- Measure latency across multiple hops.
- Optimize repeater placement for coverage and efficiency.
It’s the kind of insight that transforms a working network into a dependable one.
Pro Tips for Better Trace Path Results
- Keep your paths short. Fewer hops reduce latency and improve reliability.
- Run tests at different times. Noise and RF conditions change throughout the day.
- Use current firmware. Mixed versions can yield confusing or incomplete results.
- Take notes. Documenting trace results helps track performance trends over time.
- Stay within ISM rules. MeshCore operates under FCC Part 15, so keep power levels and antenna gain within limits.
Wrapping Up
Once you start using MeshCore trace path regularly, you’ll see your network in a completely new way.
A one-node test gives you quick confirmation that a link is alive, while multi-hop traces reveal how your entire mesh behaves as a system. Over time, those insights make you a far more effective builder, tester, and troubleshooter of MeshCore infrastructure.
Whether you’re running a small test bed or a wide-area deployment, MeshCore Trace Path is your window into the health and structure of the mesh—and one of the most valuable tools in the MeshCore ecosystem. In an upcoming post, I’ll explain how to effectively utilize the Antenna Coverage and and Line of Sight Tools.
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