Chameleon Card starter kit + book
The starter kit includes one Chameleon Card and three individual sensors
plus 'Out of the Scientist's Garden' book
$105.00 Australian dollar Ex GST
The Chameleon Card is the simplest way to measure a Chameleon sensor. It measures one sensor at a time, but does not store or upload data.
How it works
Single soil moisture sensors are buried in the root zone.
The 2m wire is left above ground.
The farmer touches the wires to the Chameleon Card and holds in the switch.
The Chameleon Card instantly measure the soil moisture and displays the value using a coloured LED:
- Blue - Wet Soil
- Green - Moist soil
- Red - Dry soil
- Flashing yellow - connect the sensor
- Flash red - Replace the battery
The Chameleon Card is powered by a low cost, disposable CR2032 watch battery. The battery should last for 1000 readings before it needs to be replaced.
Chameleon Soil Water Sensor
How the sensor works
The Chameleon Soil Water Sensor mimics the way a plant experiences the amount of water in the soil by measuring how hard the roots have to suck (the tension required) to extract moisture.
It is designed to be accurate in the range that most plants are sensitive to water stress.
Because the Chameleon Sensor measures tension, it does not need to be calibrated to different soil types.
- Blue means the soil is wet (0 to 20 kPa)
- Green means the soil is moist (20 to 50 kPa kPa)
- Red means the soil is dry (greater than 50 kPa)
Rigorous testing of each batch of sensors ensures they will perform within a fixed tolerance range.
For more info see: FAQ: What is the relationship between colour and soil suction?
The Chameleon sensor is fabricated with an inner core of sensing material surrounded by an outer coating of gypsum. At the heart of the sensor is two gold-plated electrodes that measure the resistance across a special medium in the centre of the sensor. This special medium is packed into the sensor in such a way as to calibrate the sensor as it is built.
Gypsum is then cast as an outer casing. The gypsum allows moisture to move through to the sensing material while dissolving a small amount of gypsum into the water, creating a constant electrical conductivity environment, thus buffering the sensor. When salt levels in the soil exceed 4 dS/m will the sensor calibration shifts.
This sensor should not be confused with a gypsum block that measures the resistance across gypsum.