BCS North - Phase 1: Arelion's submarine link in the Baltic Sea
BCS North - Phase 1 is a submarine cable system connecting Finland and Sweden across the Baltic Sea. It spans 513 kilometers and was recorded as ready for service in 1998 according to GeoCables data. Owned by Arelion, the cable is listed as currently in service and forms part of a broader family system that includes
BCS North - Phase 2.
What makes this cable notable is the density of alternative systems in its landing locations, particularly
Helsinki and
Hanko, which host connections to numerous other cables. Despite its established presence, several technical details about BCS North - Phase 1, such as its design capacity, fiber pair count, supplier, and specific technology, remain undisclosed in publicly available sources.
Quick facts
| Name | BCS North - Phase 1 |
| Length | 513 km |
| Ready for Service (RFS) | 1998 (GeoCables database) |
| Owner | Arelion |
| Status | In service |
| Design Capacity | Not disclosed |
| Fiber Pairs | Not disclosed |
| Supplier | Not disclosed |
| Technology | Not disclosed |
| Landing Points | Hanko, Haradsholm, Helsinki, Mariehamn (Finland); Stavsnas (Sweden) |
🗺 Show BCS North - Phase 1 on the interactive cable map
Route
BCS North - Phase 1 connects five landing points, four in Finland (Hanko, Haradsholm, Helsinki, Mariehamn) and one in Sweden (Stavsnas). These locations are strategically positioned along the Baltic Sea, a region known for its dense submarine cable infrastructure. Hanko and Helsinki, in particular, are hubs for numerous other systems, including
C-Lion1,
Eastern Light Sweden-Finland I and II, and Finland-Estonia connections.
The corridor between Finland and Sweden is a significant link for telecommunications in the Nordic region, providing connectivity between two technologically advanced nations. The cable's landing points suggest it was designed to integrate seamlessly into the broader Baltic Sea network.
Why it was built and what it carries
BCS North - Phase 1 was likely built to enhance connectivity between Finland and Sweden, two countries with strong economic and technological ties. The cable may serve as a key route for internet traffic, enterprise communications, and data center interconnections in the region. However, the specific traffic it carries and its role within Arelion's broader network are not publicly detailed.
Given the presence of numerous alternative cables at its landing points, BCS North - Phase 1 is part of a highly redundant corridor. This redundancy is essential for maintaining reliable connectivity in the event of cable outages or maintenance activities.
History: what can be established
GeoCables records the cable's ready-for-service date as 1998. If industry sources suggest a different year, this discrepancy could arise from delays in documentation, phased activation of segments, or updates to the cable's operational status post-installation. Without corroborating data, the 1998 date remains the most reliable reference.
The cable's operational history, including any upgrades or repairs, is not publicly documented. Its continued listing as "in service" suggests it remains functional and integrated into Arelion's network.
Capacity and technology
Public sources do not disclose the design capacity, fiber pair count, supplier, or specific technology of BCS North - Phase 1. Without operator documentation, attributing these details would be speculative. It is likely that the cable has undergone upgrades since its initial deployment, as is standard practice for submarine systems to meet evolving bandwidth demands.
Latency: the physics
The theoretical one-way light propagation latency over BCS North - Phase 1's 513 km wet segment is approximately 2.5 milliseconds, with a round-trip time (RTT) floor of 5.0 milliseconds. Real-world latency measurements, however, are higher due to additional factors such as terrestrial routing, terminal equipment, and network congestion.
GeoCables' live remote probes provide some insight into end-to-end latency, but these measurements reflect the full internet path rather than the cable itself. For example, the minimum measured RTT between Stavsnas and Helsinki is reported as 1.6 milliseconds, which is below the theoretical floor and therefore a measurement artifact. The average RTT for this route is 34.5 milliseconds, indicating significant contributions from external network factors. Similarly, other routes, such as Minsk to Helsinki (average RTT 51.9 ms), include latency from terrestrial segments and intermediate routing.
Redundancy: what happens if it breaks
If BCS North - Phase 1 were to experience an outage, the Baltic Sea region's dense cable network offers numerous alternatives. At Hanko, other systems like C-Lion1 and Eastern Light Sweden-Finland I and II could potentially reroute traffic. Helsinki, a major hub, hosts connections to over seven other cables, including
Baltic Sea Submarine Cable and Finland-Estonia systems. Stavsnas connects to
Sweden-Estonia (EE-S 1), providing additional redundancy.
Repair logistics for submarine cables typically involve deploying specialized cable ships equipped with remotely operated vehicles (ROVs) to locate and fix faults. Repairs can take weeks depending on weather conditions, the nature of the damage, and the availability of repair vessels.
Bottom line
- BCS North - Phase 1 is a 513 km submarine cable linking Finland and Sweden across the Baltic Sea.
- Owned by Arelion, the cable has been in service since 1998, according to GeoCables data.
- Technical details such as design capacity, fiber pairs, supplier, and technology are not publicly disclosed.
- Theoretical latency over the wet segment is approximately 5.0 ms RTT, but real-world measurements are higher due to additional network factors.
- Redundancy is strong in this corridor, with numerous alternative cables at key landing points.
- Publicly available information about the cable's upgrades, operational history, and traffic profile is scarce.