Installation videos
Installing a MACE XCi device on a 2″ pole
Updated: 2014-02-25
There are three MACE XCi devices which are specifically optimised for our three main markets:
FloPro XCi – Wastewater, stormwater and industrial flows.
The FloPro XCi can be used to monitor just about any water quantity and quality sensor. Whether you need to measure flow as well as conductivity, pH and rainfall or utilize a downward looking ultrasonic depth sensor to measure pond levels the FloPro is fully expandable to your needs. Read more…
There are three MACE XCi devices which are specifically optimised for our three main markets:
FloPro XCi – Wastewater, stormwater and industrial flows.
The FloPro XCi can be used to monitor just about any water quantity and quality sensor. Whether you need to measure flow as well as conductivity, pH and rainfall or utilize a downward looking ultrasonic depth sensor to measure pond levels the FloPro is fully expandable to your needs. Furthermore, FloPro is easily interfaced to SCADA/telemetry systems.
AgriFlo XCi – Agricultural water and wastewater flows.
The AgriFlo XCi can be used to monitor just about any agricultural sensor. Use the versatility of AgriFlo XCi to monitor inputs as diverse as: irrigation flows; farm wastewater flows; water quality; dam levels; soil moisture and engine management systems.
HydroMace XCi – Environmental monitor and data logger.
The HydroMace XCi can be used to monitor just about any environmental sensor. Use the versatility of HydroMace XCi to monitor inputs as diverse as: Flumes & weirs, water quality sensors & rainfall gauges, drinking water flows (leak detection) and weather stations.
The HydroMace XCi continues the long heritage established by MACE over 40 years ago for remote data logging and telemetry.
Installing a MACE Solar Panel on a 2″ pole
Updated: 2014-02-25
A solar panel is used to charge the internal battery of a MACE XCi device where mains power is unavailable. Perfect for monitoring in remote locations.
Installing a MACE Doppler ultrasonic insert velocity sensor in a steel pipe
Updated: 2014-02-25
Insertion sensors measure velocity only and require access to the outside wall of the pipe in which the sensor is to be mounted.
True average velocity measurement with MASP Technology
MACE velocity sensors use continuous wave Doppler ultrasound to measure the speed of dirt, bubbles and other particles in the stream flow.
MACE Doppler ultrasonic sensors “see” particles in water like turning on a flashlight in fog.
Installing a MACE Doppler ultrasonic area/velocity sensor in a pipe using a ZX SnapStrap
Updated: 2014-02-25
ZX SnapStrap mounted, combined velocity and depth sensor for use in partially full pipes or open channels.
This sensor is used in open channels or pipes that run partially full. This sensor is used to measure depth (using a capacitive pressure diaphragm) and velocity. Access to the monitoring point is required for installation and maintenance.
True average velocity measurement with MASP Technology.
MACE velocity sensors use continuous wave Read more…
ZX SnapStrap mounted, combined velocity and depth sensor for use in partially full pipes or open channels.
This sensor is used in open channels or pipes that run partially full. This sensor is used to measure depth (using a capacitive pressure diaphragm) and velocity. Access to the monitoring point is required for installation and maintenance.
True average velocity measurement with MASP Technology.
MACE velocity sensors use continuous wave Doppler ultrasound to measure the speed of dirt, bubbles and other particles in the stream flow.
MACE Doppler ultrasonic sensors “see” particles in water like turning on a flashlight in fog.
Installing a MACE Doppler ultrasonic insert velocity sensor in a concrete pipe
Updated: 2014-02-25
Insertion sensors measure velocity only and require access to the outside wall of the pipe in which the sensor is to be mounted.
True average velocity measurement
with MASP Technology
MACE velocity sensors use continuous wave Doppler ultrasound to measure the speed of dirt, bubbles and other particles in the stream flow.
MACE Doppler ultrasonic sensors “see” particles in water like turning on a flashlight in fog.