CB-450 Data Buoy CB-450 Data Buoy

CB-450 Data Buoy

The CB-450 data buoy is ideally suited for dredge turbidity monitoring, temperature profiling, dissolved oxygen monitoring, limnology research, and weather monitoring on inland lakes.

Features

Versatile Versatile

Versatile

The CB-450 is light enough to be deployed from most small boats, yet it offers adequate power and charging for rigorous instrument sampling and data transmission.

Versatile

The CB-450 is light enough to be deployed from most small boats, yet it offers adequate power and charging for rigorous instrument sampling and data transmission.

Versatile Versatile
Self-Powered Self-Powered

Self-Powered

Three integrated 15-watt solar panels are angled and evenly spaced around the buoy to capture sunlight from any direction and provide adequate battery charging.

Self-Powered

Three integrated 15-watt solar panels are angled and evenly spaced around the buoy to capture sunlight from any direction and provide adequate battery charging.

Self-Powered Self-Powered
Data Well Data Well

Data Well

A 10-inch diameter by 19.5-inch tall data well provides a watertight housing for batteries, data loggers, sensors, and other hardware.

Data Well

A 10-inch diameter by 19.5-inch tall data well provides a watertight housing for batteries, data loggers, sensors, and other hardware.

Data Well Data Well
Connections Connections

Connections

The data well lid provides pass-through connections for sensors, power, venting, and more. When integrated with the optional NexSens X2-CB data logger, the system is truly plug-and-play.

Connections

The data well lid provides pass-through connections for sensors, power, venting, and more. When integrated with the optional NexSens X2-CB data logger, the system is truly plug-and-play.

Connections Connections
Pass-Through Ports Pass-Through Ports

Pass-Through Ports

Three 4-inch pass-through ports allow for sensors to be mounted underwater while securely routing the cable. Instrument deployment pipes and custom sensor mounts attach to 4-inch NPT bottom threads.

Pass-Through Ports

Three 4-inch pass-through ports allow for sensors to be mounted underwater while securely routing the cable. Instrument deployment pipes and custom sensor mounts attach to 4-inch NPT bottom threads.

Pass-Through Ports Pass-Through Ports
Solar Beacon Solar Beacon

Solar Beacon

The optional solar marine light has a one to three nautical mile range and securely mounts to the buoy top plate for maximum visibility.

Solar Beacon

The optional solar marine light has a one to three nautical mile range and securely mounts to the buoy top plate for maximum visibility.

Solar Beacon Solar Beacon
Data Logging Data Logging

Data Logging

The X2-CB data logger replaces the standard pass-through data well lid for turnkey systems. Alternatively, 3rd party data loggers can be integrated by the user inside the data well.

Data Logging

The X2-CB data logger replaces the standard pass-through data well lid for turnkey systems. Alternatively, 3rd party data loggers can be integrated by the user inside the data well.

Data Logging Data Logging
Wireless Communications Wireless Communications

Wireless Communications

Communication options using the X2-CB data logger include Wi-Fi, radio-to-shore, cellular, and Iridium satellite.

Wireless Communications

Communication options using the X2-CB data logger include Wi-Fi, radio-to-shore, cellular, and Iridium satellite.

Wireless Communications Wireless Communications
Built to Last Built to Last

Built to Last

Constructed of cross-linked polyethylene foam with a heavy polymer skin and an indestructible stainless steel frame, the CB-450 is designed for years of service.

Built to Last

Constructed of cross-linked polyethylene foam with a heavy polymer skin and an indestructible stainless steel frame, the CB-450 is designed for years of service.

Built to Last Built to Last

Tech Specs

Hull Outer Diameter: 34.0” (86.4cm)
Hull Height: 20.0” (50.8cm)
Data Well Inner Diameter: 10.3” (26.2cm)
Data Well Height: 19.5" (49.5cm)
Pass-Through Hole Diameter: 4.0" (10.2cm)
Tower Height: 20.0” (50.80cm)
Solar Panels: 3x 15-watts
Weight: 130 lb (59kg)
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Net Buoyancy: 450 lb (204kg)
Hull Material: Cross-linked polyethylene foam with polyurea coating & stainless steel deck
Hardware Material: 316 stainless steel
Mooring Attachments: 3x 3/4” eyenuts

Tech specs image Tech specs image

Q&A

How can I ensure buoy stability?
Buoy stability is dependent on a number of factors including instruments attached, mooring design, water currents, and regional weather conditions. It is recommended to examine the buoy upon deployment, adding ballast weight and adjusting the mooring as needed. Given that each deployment is unique, be sure to communicate with NexSens application engineers for optimal stability.
Under what conditions would I need to remove the CB-450 data buoy?
Freezing and periodic maintenance are the two most common reasons to remove a buoy from the water. A large number of buoy deployments are seasonal, so customers will commonly remove the buoy in the fall and redeploy in the spring. For year-round buoy deployments, NexSens recommends pulling the buoy at least once for cleaning and maintenance inspection. The potential for large storms and river debris flows are also good reasons to pull a buoy in order to prevent any ensuing damage. NexSens recommends integrating a GPS in situations where debris loads or other circumstances have the potential to move the buoy, like in a river or coastal setting.
How do I know if I need an anti-rotation collar on the instrument cage?
An anti-rotation collar is not necessary if the buoy is deployed on two point mooring and no instruments are attached to cage. Anti-rotation collars are recommended for single point moorings or when instruments are attached to the cage. This provides an added strength member and prevents the potential for cable tangling.

Get Started

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Case Studies

Sturdy Little Buoy, Tremendous Predictive Power Sturdy Little Buoy, Tremendous Predictive Power

Sturdy Little Buoy, Tremendous Predictive Power

Two solitary data buoys floating off the storm-tossed Lake Superior shore near Munising and Granite Island were sudden stars in 2017. That October, they captured the largest waves ever measured on the Great Lakes—each 28.8-foot high—during a storm that claimed the lives of two people swept off rocks. This attention-getting event shows how buoy data help managers and the public comprehend the otherwise unimaginable force of a wild Lake Superior storm that caused six figures in damage along the coast. However, these beacons provide critical wave data throughout the field season, even when the waves aren’t quite so formidable. Challenge: Eye-popping weather, punishing conditions Sensor-based wave measurements in the Great Lakes only go back to 1979 when NOAA first began them. Before then, managers aided lake freighters in the Great Lakes with wave heights based on human observations.

Protecting Ohio River Wildlife Protecting Ohio River Wildlife

Protecting Ohio River Wildlife

A complex series of locks and dams up and down the Ohio River enable interstate commerce, travel, and recreation. But maintaining a usable pathway for watercraft comes at a cost. The inevitable byproducts of disrupting the river’s natural systems are a threat to local wildlife. To combat this, the US Army Corps of Engineers (USACE) uses complex monitoring and response technology designed to minimize the negative impacts of dredging on the river ecosystem. Business as usual and ‘Do Not Disturb’? Steven Foster, a limnologist with the USACE Water Quality Team, focuses in part on river mussel welfare in his work at the Robert C. Byrd Lock and Dam in Gallipolis Ferry, West Virginia. River dredging can smother mussel beds, so Foster and the team of engineers monitor the beds to ensure their safety.

Submerged Sensors of Sebago Lake Submerged Sensors of Sebago Lake

Submerged Sensors of Sebago Lake

Sebago Lake is the second largest lake in Maine—one of the only lakes in the nation with clean enough water for use by a drinking water facility without filtration requirements. Residents of the Greater Portland area are the beneficiaries, and they are invested in maintaining their lake's health. A joint project between the Portland Water District (PWD) and Saint Joseph’s College of Maine (SJC) assisted by the NexSens team submerged around 145 pounds of new, high-tech equipment in Sebago Lake in 2018. Challenge: Committed to Keeping Crystal Clear The waters of Sebago Lake have always been very clear, but this monitoring project is a proactive attempt to prevent problems that experts predict changes in climate might cause.