Update on Secondary Nodes Subsystem

Friday, March 02, 2012
Model of RSN Secondary Node

Forgings Ready for Machining

Secondary Node titanium forgings ready for machining. Photo by Larry Nielson, Applied Physics Laboratory, University of Washington.

Forgings Ready for Machining

Machined Housing

Secondary Node titanium pressure housing after machining.  Photo by Larry Nielson, Applied Physics Laboratory, University of Washington.

Machined Housing

A successful Critical Design Review (CDR) for the RSN Secondary Nodes subsystem took place at the University of Washington's Applied Physics Laboratory on November 21, 2011. The 30 participants in this CDR included representatives from NSF, the Consortium for Ocean Leadership, other OOI Implementing Organizations, RSN Project Management and Science, and, of course, the engineers involved with work on this subsystem. Several out-of-town participants joined via WebEx.

Bridge Between Instruments and Primary Infrastructure

The Secondary Nodes serve as the bridge between the RSN instruments and the Primary Infrastructure. Comprised of low- and medium-power junction boxes and low-voltage nodes, these components convert the 1 Gb/s bandwidth and 375dc voltage from the Primary Nodes to the native interfaces needed by the scientific instruments. Each Junction Box provides up to eight instrument ports that can be configured for 12, 24 or 48V and 10/100BASE-T, RS232 or RS485 data links. Nodes can be daisy-chained, thereby creating extensive expansion capabilities. Some instruments will be directly connected to the Node's seafloor frame; others will be attached to the Node using connectors that can be mated underwater at depths of up to 3000m using an ROV.

Working Prototype Demonstrated

RSN successfully passed the CDR, according to Mike Harrington, the APL senior engineer leading the work on the secondary nodes. The Technical Data Package-- including mechanical models, drawings, printed circuit board schematics, software design, material choices, and heat and pressure analysis--was presented to and reviewed by the attendees during the day-long review. A working prototype system was demonstrated at the RSN Laboratory in Ben Hall on the UW Seattle campus.

Installation and Maintenance Using UNOLS Vessels

This subsystem is designed to be installed and maintained using UNOLS Global Class vessels such as the R/V Thompson and an ROV. The Secondary Node's seafloor frame footprint measures 4' by 8' (see photo at top of this story). Successful deployment testing of a full-size frame from the deck of the R/V Thompson took place during the VISIONS '11 cruise in August 2011.

Next Steps

Next up for the Secondary Nodes is the Test Readiness Review (TRR), when the first article (the first completed unit) will be checked and readiness for formal testing will be assessed. Harrington expects the TRR to take place in Spring 2012. Test procedures are being finalized and machining of titanium for the secondary node pressure housings is under way (see photos).

Grade 5 titanium was chosen after conducting a review of all the possible material choices; its durability and strength are expected to last for 25 years. The forgings purchased for the secondary-node pressure housings will be trepanned, which means the cores will be removed, and those cores will then be reclaimed for other RSN pressure housings, thus reducing the overall cost to the program for titanium.