Show 12

MultiLogger Datalogger Client

In stock

MultiLogger® is a Windows application designed to manage the automatic data acquisition systems (ADAS), this includes automating programming if necessary and automating data collection. The systems may be connected directly to the PC running MultiLogger® or connected using numerous types of communication equipment including short-haul modems, phone modems, radios, fiber-optic or Ethernet interfaces. Virtually all communication devices currently on the market are supported. It supports ADAS gear from Campbell Scientific as well as other manufactures. Support for Campbell Scientific gear includes complete program automation based on user selected options such as scan interval, channel configurations, data storage option and alarm action. Channel configuration options include support for instruments directly connected to the wiring panels and those connected using multiplexers (units from numerous manufacturers supported). Each channel may be configured for gage type | make | model, including conversion factors, units conversion and alarm limits. Temperature devices may be read as well. Supported Campbell Measurement and Control Modules (MCU’s) include the CR500/510, CR10/10X, CR7/21, CR23X, CR2xx, CR800 and CR1000. Seismic recorders are also supported, including automating data collection and database import from several different Kinemetrics recorders.

MLWeb3

In stock

MLWeb 3rd Gen offers an improved experience to MLWeb 2021 and earlier with intuitive user interface, improved charting and plotting engine, and several performance enhancements.

MultiMux Multiplexer

In stock

Over-Voltage Protection (OVP) on all instrument channels
The MultiMux is available in 2 versions, one that provides 16 channel by 4-wire switching (or 32 channel by 2-wire switching), a second that provides 16 channel by 6-wire switching (or 48 channel by 2-wire switching). Both products include integrated OVP on all channels thereby providing increased system reliability in areas prone to lightning or other transients. The channel switching mode is controlled by an easily accessible board mounted switch.
Low contact resistance relays provide compatibility with a wide range of instruments, including vibrating wire, resistance strain gage, thermocouples, linear potentiometers and 4-20mA, among others. Two control inputs provide for activating the MultiMux and then advancing through the channels. Logic levels for either the enable or clocking input can utilize 5V to 12V logic input, with a maximum input of 16V. The control inputs are compatible with a wide variety of control modules including those manufactured by Campbell Scientific, Sutron and Datataker. Contact Canary Systems® for MCU support from other manufacturers.

MiniMux Multiplexer

In stock

The MiniMux is designed to expand the number of instruments that can be read by a compatible Automatic Data Acquisition System (ADAS). It supports two switching modes, 16 channel by 4-wire switching, or 32 channel by 2-wire switching. An easily accessible board mounted switch configures the switching mode. Low contact resistance relays provide compatibility with a wide range of instruments, including vibrating wire, resistance strain gage, thermocouples, linear potentiometers and 4-20mA, among others. Two control inputs provide for activating the MiniMux and then advancing through the channels. The control inputs are compatible with a wide variety of control modules including those manufactured by Campbell Scientific, Sutron and Datataker. Contact Canary Systems for MCU support from other manufacturers.

MLRemote

In stock

The Canary Systems® MLRemote® is a low-power, point-to-multipoint, programmable wireless datalogging system designed for demanding environments. The system was purpose designed for the mining, geotechnical, structural and environmental markets where the monitoring assets consist of numerous types of instruments, distributed over a large area, and are difficult to access. Use of proprietary communication “push” technology allows for ultra-long battery life, between 3-5 years for the standard alkaline batteries, up to 10-years when using Lithium cells. The unit can easily be placed in a variety of remote locations for long-term monitoring applications. With fewer components, MLRemote systems are less of a target on sites where theft is a concern compared to the larger, more visible, and expensive alternatives. The high performance spread spectrum radio is available in 900MHz or 2.4GHz frequencies, and a range of up to 100km (60 miles) is possible with use of gain antennas and excellent topography. Range of up to 15km (9 miles) is easily achievable using the standard antenna and most topography.

MicroMux Multiplexer

In stock

The MicroMux is designed to expand the number of instruments that can be read by a compatible Automatic Data Acquisition System (ADAS). It supports two switching modes, 4 channel by 4-wire switching, or 8 channel by 2-wire switching. An internal switch configures the switching mode. Low contact resistance relays provide compatibility with a wide range of instruments, including vibrating wire, resistance strain gage, thermocouples, linear potentiometers and 4-20mA, among others. Two control inputs provide for activating the MicroMux and then advancing through the channels. Logic levels for either the enable or clocking input can utilize 5V to 12V logic input, with a maximum input of 16V. The control inputs are compatible with a wide variety of control modules including those manufactured by Campbell Scientific, Sutron and Datataker.

MLMux5 Multiplexer

In stock

The Canary Systems® MLMux5 multiplexer is designed to expand the number of instruments that can be read by a compatible Automatic Data Acquisition System (ADAS). It supports two switching modes, 5-channel by 4-wire switching, or 10-channel by 2-wire switching. A switch on the face of the module configures the switching mode. The use of low contact resistance relays means almost universal instrument support, a high degree of lightning protection on the control lines, and virtually infinite channel isolation. The MLMux5 is compatible with a wide range of instruments, including vibrating wire, resistance strain gage, thermocouples, linear potentiometers, and 4-20 mA, among others.

MLTDR-W-50S

In stock

The MLTDR-W-50 is a datalogger designed to automate monitoring of up to 8 coaxial cables embedded in a slope or borehole for deformation monitoring. It contains a control module, TDR interface and, optionally, an 8 channel coaxial cable multiplexer. It is equipped with an interface to read Vibrating Wire gages. These gages are typically used to monitor pore pressures along the length of the installed TDR cable. The datalogger provides connection for 2 Vibrating Wire gages, a Canary Systems® MicroMux or MiniMux multiplexer may also be installed to expand the measurement capability to 5 or 17 instruments. A 50AHr lead-acid battery provides power, and is recharged either through a 40W solar panel or an AC power connection. Communications are possible via a wireless or wired network interface. For wireless networks, a high performance ultra wide band log periodic antenna is supplied, including a lightning surge protector. An SGX 5150 is used for the Wi-Fi network interface.

ML-DAQ

In stock

The Canary Systems® MLDAQ is a powerful, rugged and reliable wireless data acquisition station for general purpose use. The MLDAQ supports measurements from a wide range of available sensors, including vibrating wire, load cells, micro-electro-mechanical (MEMs) sensors, flowmeters, linear potentiometers, thermocouples, thermistors, SDI-12 sensors, 4-20mA sensors, weather instruments such as wind sets, rain gages, temperature and humidity.  

Canary develops a web-based software platform that aggregates geotechnical/geomechanical data from numerous sources into a single platform that provides analytics and other tools including automated alarming and reporting. Canary also develops and sells electronic hardware consist of Dataloggers, Data acquisition systems & Multiplexers for a variety of applications related to weather, water, energy, gas flux and turbulence, infrastructure, and soil.