Shearwater Research

Shearwater Research is a Canadian manufacturer of dive computers and rebreather electronics for technical diving.

Shearwater Research
IndustryCorporation
Founded2004
Headquarters
Richmond, British Columbia
,
Canada
Key people
Bruce Partridge, founder
Productsdive computers, rebreather electronics
Number of employees
50 (December, 2017)[1]
WebsiteShearwater.com
Footnotes / references
All products meet CE, FCC and IC international standards.

History
Petrel OC/CC Standalone

From the very beginning the company sought to develop products that are simple to use and easy to read underwater.[1][2]

In 2004, Shearwater Research was founded by Bruce Partridge who produced their products in a spare bedroom at his home.[1] As of 2014, Shearwater was producing thousands of dive computers per year in a manufacturing facility with twenty employees.[1]

Shearwater Research began by building controller boards for the Innerspace Systems Corp (ISC) Megalodon rebreathers in 2004.[3] There was a problem with the configuration and by the end of 2005, ISC was no longer offering the Shearwater electronics package.[3] Since that time, the initial issues have been resolved and Shearwater electronics are again available for use on the ISC Megalodons.[4]

Predator OC/CC External

Shearwater decompression computers began with an implementation of the Bühlmann decompression algorithm into their Shearwater GF in the Spring of 2006.[5] It was available in either the partial pressure of oxygen with decompression or control versions.[5][6] In January 2007, the Shearwater GF was the computer used with the JJ-CCR.[7]

Shearwater Perdix in compass mode
A Shearwater Predator dive computer attached to a rebreather. Image shows screen in reverse orientation that allows the diver to decide where they wear the display

With the release of the Predator in 2009, Shearwater moved away from the old LCD display technology to the use of new OLED displays in their computers.[8][9] This was the first color OLED diving computer available in the market with a user replaceable battery.[2] Power was a major limiting factor in the development process to include the OLED technology.[2]

Shearwater received their certification for ISO 9001-2008 in 2010 and all their products are compliant with CE, FCC and IC international standards.[10]

With the Predator, Shearwater also introduced bluetooth to allow easier syncing with their desktop software.[2][8] Their reason for the move to bluetooth was to make a computer that could be used on multiple operating systems.[2] The Predator's two button design has been called "intuitive and easy to use".[11] The top of the line Predator will also allow for up to five breathing gases for the rebreather and up to five bail-out gasses.[9] The user can make gas switches on the computer at any point during the dive.[11]

In 2011, Shearwater announced that they had licensed a technique to monitor carbon dioxide absorbent canister developed by the United States Navy Experimental Diving Unit.[12][13][14] In collaboration with rEvo rebreathers, they were able to show that the thermal canister CO2 monitor would work with Shearwater's Predator dive computer.[15]

Shearwater has continued to develop new ways to calculate decompression in their equipment by releasing an implementation of the Varying Permeability Model (VPM-B/GFS) in 2011.[16] The "GFS" is for Gradient Factor Surfacing and indicates the combination were VPM and GF models are compared and the longer time utilized for the displayed profile.[16]

The Shearwater Petrel has been called the "Predator with improvements".[17] The Petrel was designed to allow a standard AA battery to drive the power it needs for calculations and OLED display with automatic brightness changing.[17][18] The unit is 40% smaller than the Predator.[18] The Petrel includes both the Bühlmann algorithm and their VPM-B/GFS algorithm.[17] The Petrel also extends the profile data storage that was previously available from 200 to approximately 1000 hours.[17]

With the release of the Petrel, Shearwater has also improved the educational materials available to their owners.[18]

In 2013, Shearwater was presented with the International System Safety Society Award for safety in "Scientific Research & Development" at the 31st International System Safety Conference in Boston.[19]

Shearwater's NERD or Near Eye Remote Display is a head-up display that places the divers information in front of their eyes.[20] The Shearwater NERD was released at Dive 2013 in Birmingham, UK.[20]

In 2015, the Perdix wrist mounted dive computer was released. The Perdix is similar to the Petrel but has a 30% longer battery life and a thinner and lower profile.[21] The computer was named after a "grey partridge". (The Founder's surname is Partridge). Unlike the Petrel, the Perdix is only available in a stand-alone configuration and does not have a version that can be connected to a rebreather.

In 2016, the Perdix AI was released. The Perdix AI built on the success of the Perdix by adding air integration features. The Perdix AI is designed to function in conjunction with Pelagic Pressure Systems wireless gas pressure transmitters. The Perdix AI allows for 2 cylinder pressures to be reported simultaneously.

In 2017, Shearwater launched the NERD 2. A successor to the original NERD heads-up dive computer, the NERD 2 eliminated the brain box from the NERD system, incorporating all of the electronics into the eyepiece. The NERD 2 contains a rechargeable lithium ion battery, heads-up compass, and dual air integration capability. Unlike the original NERD, the NERD 2 is available in a stand-alone model, making it practical for open circuit diving for the first time.

The newest dive computer released by Shearwater is the Teric which was launched in May 2018. The Teric is Shearwater's first dive computer in a watch format.

Safety outreach

In 2010, Shearwater was one of the founding manufacturers for the Rebreather Education and Safety Association.[22] Shearwater's Bruce Partridge served as Secretary for the founding board of the organization.[22]

Partridge also presented at the Rebreather Forum 3 meeting held in 2012.[23] He presented on the use of information technology with focus on human factors in equipment design.[24]

Shearwater is also a sponsor for the diving research efforts of the Rubicon Foundation.[25]

In 2016 Shearwater funded a rebreather sorb absorption research study by Harvey and colleagues.[26]

Exploration support

A Shearwater Predator was used to calculate decompression on a 2010 expedition that lead to the identification of HMS Snaefell that went down on July 5, 1941.[27]

Lance Robb utilized an ISC Megalodon rebreather with a Shearwater Predator in a 2010 expedition to explore Osprey Reef at a depth of 156 m (512 ft).[28]

Shearwater also supported research by the University of Connecticut and Ocean Opportunity to explore the Tongue of the Ocean. This project, funded by the National Geographic Society/ Waitt Grants Program to explore the mesophotic zone between 200 ft (60 m) and 500 ft (150 m) carried The Explorers Club flag number 172.[29] The Shearwater electronics were utilized to record the diver profiles.[30][31]

Awards
  • EUROTEK.2014 Innovation Award,[32] for manufacturing "an advanced or technical diving product or service that has enabled you to further your diving or made your diving safer"

References
  1. Carter, Chris (2014-03-01). "Shearwater Research scuba leaders". CBC Television. Retrieved 2014-03-01.
  2. Tourish, Jeff. "Shearwater Predator CCR Computer". Advanced Diver Magazine. Retrieved 2013-04-08.
  3. Micjan, Ron (2005-12-23). "Building my very own Megalodon". TMIShop.com. Retrieved 2013-04-08.
  4. Barbet, Michel (June 2011). "Eight Days at Innerspace Systems Corporation" (PDF). OnPlonge.com. Retrieved 2013-04-08.
  5. Bowen, Curt. "Shearwater GF". Advanced Diver Magazine. No. 24.
  6. Shearwater GF Computer (PDF). Shearwater instruction manual. Retrieved 2013-04-08.
  7. Petersen, Jan (October 2009). "The birth of the JJ-CCR". JJ-CCR.com. Retrieved 2013-04-08.
  8. Sullivan, Chris (2011-03-07). "Recreational Diving with a Shearwater Predator". Retrieved 2013-04-08.
  9. Rawlings, John (2010-08-07). "OLED Shearwater Predator Dive Computer Review". AtlasOmega Media. Retrieved 2013-04-08.
  10. "Shearwater Research: Technology for Demanding Technical Divers". Shearwater Research. Retrieved 2013-04-08.
  11. Ehrenberg, Megan (2013-03-11). "The Shearwater Predator Technical Dive Computer". John Chatterton's Website. Retrieved 2013-04-25.
  12. Tang, Calvin (2011-07-16). "Shearwater Research to Develop Scrubber Sensor". AtlasOmega Media. Retrieved 2013-04-08.
  13. US 6618687 "Temperature-based estimation of remaining absorptive capacity of a gas absorber"
  14. Warkander, DE (2007). "Development of a scrubber gauge for closed-circuit diving". Undersea and Hyperbaric Medicine. Retrieved 2013-04-08.
  15. Editor (2011-11-28). "rEvo CO2 monitor" (PDF). X-Ray Mag. Vol. 45. Retrieved 2013-04-08.CS1 maint: extra text: authors list (link)
  16. Salama, Asser (2011). "VPM-B Variations: /E, /GFS and /U". Tech Diving Mag. Vol. 5. Retrieved 2013-04-08.
  17. "Computer Shearwater Petrel". DIVER Magazine. March 2013. Retrieved 2013-04-08.
  18. Bowen, Curt. "Shearwater Petrel Dive Computer". Advanced Diver Magazine. Retrieved 2013-04-08.
  19. "31st International System Safety Conference". International System Safety Society. Retrieved 2013-04-08.
  20. Hoover, Pierce. "Shearwater Research Goes NERD". Underwater Journal. Retrieved 2014-03-01.
  21. "Perdix - Shearwater Research". Retrieved 2016-07-13.
  22. Editor (2011). "New rebreather association established" (PDF). X-Ray Mag. Vol. 42. Retrieved 2013-04-08.CS1 maint: extra text: authors list (link)
  23. Menduno, Michael (2012). "A view from Rebreather Forum 3: Improving Rebreather Safety" (PDF). X-Ray Mag. Vol. 49. Retrieved 2013-04-08.
  24. Partridge, Bruce (20 May 2012). "And Don't Get It Wet… Information Technology". Rebreather Forum 3. Retrieved 2013-04-16.
  25. "Sponsors". Rubicon Foundation. Retrieved 2013-04-08.
  26. David Harvey; Neal W Pollock; Nicholas Gant; Jason Hart; Peter Mesley; Simon Mitchell (2016). "The duration of two carbon dioxide absorbents in a closed-circuit rebreather diving system". Diving and Hyperbaric Medicine. 45 (2): 92–97).
  27. Brian Matthewman, Brian. "2010 North East Wreck Week: Silent Running Mixed Gas Dive Team". Advanced Diver Magazine. Retrieved 2013-04-08.
  28. Isaacs, Ross. "Osprey Reef: Close to the edge". Advanced Diver Magazine. Retrieved 2013-04-08.
  29. "Andros expedition documents reef to 130m using mixed-gas rebreathers". Mesophotic.org. Retrieved 2013-04-08.
  30. Lombardi, Michael; Godfrey, J (2011). "In-Water Strategies for Scientific Diver-Based Examinations of the Vertical Mesophotic Coral Ecosystem (vMCE) from 50 to 150 meters". In Pollock NW (ed.). Diving for Science 2011. Proceedings of the American Academy of Underwater Sciences 30th Symposium. Dauphin Island, AL. Retrieved 2013-04-08.
  31. Lombardi, Michael (2011). "A Visual Profile of the Vertical Mesophotic Coral Ecosystem of the Tongue of the Ocean (TOTO), Andros, Bahamas to 100 meters". In Pollock NW (ed.). Diving for Science 2011. Proceedings of the American Academy of Underwater Sciences 30th Symposium. Dauphin Island, AL. Retrieved 2013-04-08.
  32. "Archived copy". Archived from the original on 2015-08-20. Retrieved 2015-05-13.CS1 maint: archived copy as title (link)
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