Canadian weather radar network
The Canadian weather radar network consists of 31 weather radars spanning Canada's most populated regions. Their primary purpose is the early detection of precipitation, its motion and the threat it poses to life and property.
Each had until 2018 a range of in radius around the site to detect reflectivity, 3 angles with a range of, for detecting velocity pattern, and an extra long range at low elevation angle of but strongly folded for latter same purpose.
The renewal of the network, from 2018 to 2023, with new S-Band radars brings these numbers respectively to for reflectivity and for full Doppler coverage. Furthermore, the new radars are dual-polarized which means precipitation type can be estimated directly.
History
Research in weather radars in Canada began at the end of the Second World War with "Project Stormy Weather". After the war, J.S. Marshall continued at McGill University the work with the "Stormy Weather Group". The Canadian network was thus gradually formed and by 1997, there were 19 weather radars of two kinds across the country: 18 five centimeter wavelength radars and 1 ten centimeter wavelength at McGill, all of the radars detected reflectivity and are equipped with Doppler capabilities.Environment Canada received approval in 1998 to upgrade the network to Doppler standard and to add 12 more radars with the operational characteristics coming from King City weather radar station, the research radar of Environment Canada. However, McGill radar, while being part of the network, is owned by McGill University. It is a research as well as an operational radar and is modified independently. The Jimmy Lake and Lac Castor stations are owned and operated by the Department of Defense, these are also part of the network.
In February 2017, the Minister of Environment and Climate Change, Catherine McKenna, announced the signature of a $83‑million contract with Selex ES to buy 20 new radars with the most modern technology available to update the network. The first radar was installed in Radisson, SK in the fall of 2017. The second radar was installed in the summer of 2018 at Blainville in the Montreal region to replace the aging McGill radar. 2018 will also see replacement radars at Foxwarren MB, Timmins ON, and Spirit River AB with the rest being replaced sequentially by 2023. An additional radar will be installed in the Lower Athabasca region in Alberta and the contract also contains options to replace all radars in the Canadian Weather Radar Network, by March 31, 2023
Characteristics before 2018
- McGill radar :
- * 9 metre diameter antenna.
- * Uses a klystron to produce a wavelength signal of 10 cm.
- * Doppler since 1993 and dual polarization was added in 1999.
- King City weather radar station
- * This research radar is essentially a WSR-98A upgraded with dual polarization capability in 2004.
- The rest of the network:
- * The existing radars have antennas from two manufacturers: Enterprise Electronics Corporation and Raytheon.
- * some of the existing radars have antennas produced by Andrew Canada. With a diameter almost double the old ones; resolutions improved by the same amount.
- * Use 5.6 cm wavelength emitting magnetrons.
- * Process received reflectivity and Doppler data with Sigmet Radar Data Systems, now a part of Vaisala Oyj.
- * Each radar in the network will thus be called a WSR-98E, WSR-98R or WSR-98A for Weather Surveillance Radar - 1998 and the first letter of the manufacturer of the Pedestal/Antenna.
- * Antennas of 3.6 metres in diameter for the ungraded radars and 6.1 m for the new ones.
- * Pulse length and pulse repetition frequency adjustable. Pulse length 0.8,1.6 and 2.0s. Pulse repetition frequency 250 Hz and Dual PRF 1190/1200 Hz.
Scanning strategy
- Conventional cycle: 24 elevation angles scanned in 5 minutes to obtain a tri-dimensional view of the atmosphere within 256 km of the radar in reflectivity.
- Doppler cycle: 4 angles scanned in reflectivity and velocities, the first three in a range of 128 km and the last within 256 km. This cycle is used to locate possible small scale rotation and shear in the wind pattern as well as the large scale circulation. The velocity data also help to filter artifacts in the reflectivity such as ground echos.
Modernization project
Environment and Climate Change Canada received the funding from the Treasury Board in 2011 to undergo a major modernization project called 'WES Renewal' to upgrade to dual polarization all Canadian Radars in two separate five year plans. Complete network stabilization and systemic problems resolution were also part of this major effort by Environment and Climate Change Canada. The first five years concentrated on the upgrading and stabilizing the existing radars. Then all Canadian weather radars will be replaced with a dual polarization S-band radar between 2017 and 2023. A new radar, owned and operated by ECCC, has been installed in Blainville to replace the use of the McGill radar. As well, a new radar will be installed in the Lower Athabasca area..The new radar chosen is the Selex METEOR 1700S which is fully Doppler and dual polarized:
- Transmitter type: Klystron
- Frequency : 2.7 - 2.9 GHz
- Pulse repetition frequency : 250 – 2000 Hz
- Pulse length : 0.4 µs... 4.5 µs
- Peak power: 750 kW
- Doppler range: 240 km
- Reflectivity normal range: 300 km
- maximum range: 600 km
- Velocity resolution : ± 146 m/s
- Antenna diameter: 8.5 m
- Beamwidth : < 1°
- Rotation: 6 min−1
- Dual polarization will permit to better differentiate the type of precipitation, biological and non-biological targets such as birds, insects, chaff, and tornado debris signature.
- The radial velocity range will be extended to, from, permitting an improved lead time in weather warnings issuance and a better overlap of radar coverage with other nearby radars.
List of radars
| Site | Location | Province | Coordinates | ID/call sign | Band | Type | Callsign meaning | Notes |
| Aldergrove | Vancouver | British Columbia | C | 98E | - | |||
| Bethune | Regina | Saskatchewan | S | Selex 1700S | Bethune | New radar commissioned in August 2019 replacing 98A A temporary mobile X-band radar was deployed during the upgrade. | ||
| Blainville | Blainville | Québec | S | Selex 1700S | BlainVille | New radar commissioned at the end of September 2018, replacing McGill radar. | ||
| Britt | Georgian Bay | Ontario | C | 98A | Britt | |||
| Carvel | Edmonton | Alberta | C | 98E | ||||
| Chipman | Central New Brunswick | New Brunswick | S | Selex 1700S | New Brunswick Chipman | New radar commissioned in September2019 replacing 98E | ||
| Dryden | Western Ontario | Ontario | C | 98E | Dryden | scheduled for replacement in 2020 | ||
| Exeter | Southwestern Ontario | Ontario | S | Selex 1700S | Exeter | New radar commissioned in November 2019 replacing 98A | ||
| Foxwarren | Eastern Saskatchewan/Western Manitoba | Manitoba | S | Selex 1700S | Foxwarren | Radar commissioned in September 2018, replacing CXFW, a C-band radar. A temporary mobile X-band radar was deployed during the upgrade until October 31, 2018. | ||
| Franktown | Eastern Ontario | Ontario | C | 98A | Franktown | - | ||
| Gore | Central Hants County | Nova Scotia | C | 98A | Gore | - | ||
| Holyrood | Eastern Newfoundland | Newfoundland and Labrador | C | 98R | scheduled for replacement in 2020 | |||
| Jimmy Lake | NW Saskatchewan/NE Alberta | Saskatchewan | C | 98E | - | |||
| King City | Southern Ontario | Ontario | C | 98A | King City Radar | - | ||
| Lac Castor | Saguenay River | Quebec | C | 98E | - | |||
| Landrienne | Amos | Quebec | S | Selex 1700S | Landrienne Amos | Radar commissioned in October 2019, replacing the previous 98R CXLA C-band radar. | ||
| Marble Mountain | Western Newfoundland | Newfoundland and Labrador | C | 98A | Marble Mountain | - | ||
| Marion Bridge | Southeastern Cape Breton County | Nova Scotia | S | Selex 1700S | Marion Bridge | Radar commissioned in October 2019, replacing the previous CXMB C-band radar. | ||
| Montreal River | Sault Ste Marie | Ontario | S | Selex 1700S | Montreal River | Radar commissioned in November 2019, replacing the previous 98E WGJ C-band radar. | ||
| Mount Sicker | Victoria | British Columbia | C | 98A | Mount Sicker | Suffered major hardware failure in November 2017, to be decommissioned on December 6, 2018. S-band replacement to be installed in 2021. | ||
| Mount Silver Star | Vernon | British Columbia | C | 98A | Silver Star | - | ||
| Prince George | Northern B.C. | British Columbia | C | 98R | Prince George | - | ||
| Radisson | Saskatoon | Saskatchewan | S | Selex 1700S | Radisson | Radar commissioned in February 2018, replacing CXRA, a C-band radar. | ||
| Schuler | Medicine Hat | Alberta | C | 98E | Burstall | This RADAR was originally planned to be located at Burstall, Saskatchewan. Scheduled for replacement in 2020. | ||
| Smooth Rock Falls | Smooth Rock Falls | Ontario | S | Selex 1700S | Smooth Rock Falls | Initially known as Timmins CXTI, then Northeast Ontario. Finally Smooth Rock Falls with the dual polarization upgrade Commissioned in 2018/10. | ||
| Spirit River | Grande Prairie | Alberta | S | Selex 1700S | Spirit River | This radar was replaced in 2018 and commissioned in Feb 2019 replacing CWWW a C-band radar that had been in operation since 2001/10 | ||
| Strathmore | Calgary | Alberta | S | Selex 1700S | Strathmore | Radar commissioned in November 2019, replacing the previous 98A C-band radar. A temporary mobile X-band radar was deployed during the upgrade. | ||
| Superior West | Lasseter Lake | Ontario | C | 98E | Nipigon | |||
| Val d'Irène | Lower St. Lawrence | Quebec | C | 98A | Amqui | scheduled for replacement in 2020 | ||
| Villeroy | Southwest of Quebec City | Quebec | C | 98R | Villeroy | scheduled for replacement in 2020 | ||
| Woodlands | Winnipeg | Manitoba | C | 98A | Woodlands | scheduled for replacement in 2020 |
Related article
- NEXRAD, the weather radar network in United States