Davis Vantage Pro2 Wireless Console/Receiver
The Davis Vantage Pro2 Wireless Console/Receiver is used to view data from a Wireless Vantage Pro2.
- For use in additional locations
- Use with wireless temperature, temperature/humidity, leaf wetness and soil moisture/temperature stations
- Compatible with Vantage Pro2 wireless weather stations
|6312||Vantage Pro2 wireless console/receiver|
- Barometric pressure resolution: 0.01'' Hg; 0.1 mm; 0.1 hPa; 0.1 mb
- Barometric pressure range: 16'' to 32.5'' Hg, 410 to 820 mm, 540 to 1100 hPa, 540 to 1100 mb
- Barometric pressure nominal accuracy: 0.03'' Hg, 0.8 mm Hg, 1.0 hPa, 1.0 mb
- Inside humidity resolution: 1%
- Inside humidity range: 1 to 100%
- Inside humidity nominal accuracy: 3% RH; 4% above 90%
- Outside humidity resolution: 1%
- Outside humidity range: 1 to 100%
- Outside humidity nominal accuracy: 3% RH; 4% above 90%
- Dew point resolution: 1°F; 1°C
- Dew point range: -105° to +130°F; -76° to +54°C
- Dew point nominal accuracy: 3°F; 1.5°C
- Leaf wetness resolution: 1
- Leaf wetness range: 0 to 15
- Leaf wetness nominal accuracy: 0.5
- Soil moisture resolution: 1cb
- Soil moisture range: 0 to 200cb
- Rain rate resolution: 0.01”; 0.2 mm
- Rain rate range: to 96''/hr.; 2438 mm/hr
- Rain rate nominal accuracy: greater of 5% or 0.04”/hr.; 1 mm/hr
- Solar radiation resolution: 1 W/m2
- Solar radiation range: 0 to 1800 W/m2
- Solar radiation nominal accuracy: 5% of full scale
- Inside temperature resolution: 0.1°F; 0.1°C
- Inside temperature range: +32° to +140°F; 0 to +60°C
- Inside temperature nominal accuracy: 1°F; 0.5°C
- Outside temperature resolution: 0.1°F; 0.1°C
- Outside temperature range: -40° to +150°F;-40° to +65°C
- Outside temperature nominal accuracy: 1°F; 0.5°C
- Wind direction resolution: 1°
- Wind direction range: 0 to 360°
- Wind direction nominal accuracy: 3°
- Wind speed resolution: 1 mph; 1 kt; 0.4 m/s; 1 km/h
- Wind speed range: 2 to 180 mph, 2 to 156 kts, 3 to 290 km/h, 1 to 80 m/s
- Wind speed nominal accuracy: greater of2 mph/kts; 1 m/s; 3 km/h or 5%
- Wind chill resolution: 1°F; 1°C
- Wind chill range: -110° to +135°F-79° to +57°C
- Wind chill nominal accuracy: 2°F;1°C
- Box dimensions: 3"H x 10"W x 13"L
- Weight: 2.7lbs
- (1) Console/receiver
In The News
Where and how to monitor water quality is always a challenge, particularly in complex aquatic ecosystems. The new REASON Project from a team at Clarkson University is working to demonstrate the utility of using water quality instrumentation in dams on major rivers in the Great Lakes system.
Clarkson University Professor of Biology Michael Twiss spoke with EM about the new approach their team is taking at the Moses-Saunders Power Dam across the St. Lawrence River and the benefits the development of smart infrastructure such as this might offer.
“The upper St. Lawrence River is defined as that which leaves Lake Ontario and is just upstream from the city of Montreal,” explains Dr. Twiss.Read More
As we hear more and more about algal blooms of different kinds across the United States, teams of scientists are working hard to ensure that they don't become our new normal. One project in Florida is taking a multi-disciplinary approach to the problem—including genetic analysis.
The team's work is part of a full-court press in Florida recently, making a serious push to understand what is triggering more frequent blooms. Jose Lopez, Ph.D. , of Nova Southeastern University , the primary investigator on the genetic analysis portion of the project, spoke to EM about the project and his work on it.
“This is a very good project,” explains Dr. Lopez. “We're excited about it, and it's a lesson in persistence.”
From extreme weather such as Hurricane Harvey to spills and other accidents, the Gulf Coast of Texas is no stranger to dangerous situations. This is where the data provided by the Texas Automated Buoy System ( TABS ) comes into the picture.
Among the nation's most successful and longest-running coastal ocean-observing systems at the state level, the TABS real-time oceanographic buoy system monitors currents, waves, salinity, winds, and other parameters. Dr. Anthony Knap , director of Geochemical Environmental Research Group (GERG) and a Professor of Oceanography at Texas A&;M University, spoke to EM about working with TABS.
“TABS has been running now for 24 years,” explains Dr. Knap.Read More