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The plant canopy analyzer is designed to analyse leaf area index (LAI) and similar structures. The device has a large storage capacity and an integrated design that makes it easy to carry around. Accurate measurements can be made without disturbing the canopy. The plant canopy analyzer is widely used in agricultural production and agricultural research to measure light interception in plant canopies for canopy light resource surveys, and to study the relationship between crop growth and development, yield quality, and light energy use.
Model | PCA-I |
---|---|
Measuring Range | 0-2700μmol ㎡/s |
Resolution | 1μmol ㎡/s |
Response Time | 10 μs |
Auto-collecting Interval | 1-99 minutes |
Auto-collecting Times | 1-99 times |
Store Capacity | 2GB (SD card) |
Meter Length | 75cm |
Probe Length | 50cm |
Working Environment | 0°C-60°C; 100% HM |
Qty of Sensors | 25 (Standard equipped) |
Power Supply | 2 x AA batteries |
Shipping Size(W×D×H)(mm) | 830x230x180 |
G.W. (kg) | 5 |
PCA-I plant canopy analyzer is widely used in agricultural production and research fields. Its convenient portability, simple operation and rich functions provide an effective tool for plant ecological research.
The plant canopy analyzer can accurately measure and record photosynthetically active radiation (PAR) values in the 400nm-700nm band, providing important light energy information for plant growth.
The measurement range is 0-2700μmol㎡/s, which can meet the measurement needs under different plant growth environments.
No cumbersome sample processing is required; the plant canopy analyzer is placed on top of the plant for measurement and and easy and efficient operation.
Integrated LCD, operation buttons, SD card plug and measurement probe, easy to operate.
Compact size, easy to carry.
Large capacity storage, easy data management, and the ability to easily record and store a large amount of measurement data.
With automatic shutdown and restart function after a long time of non-use, prolonging the battery life.
Provides manual and automatic measurement modes to meet different experimental needs.
The plant canopy analyzer is designed to analyse leaf area index (LAI) and similar structures. The device has a large storage capacity and an integrated design that makes it easy to carry around. Accurate measurements can be made without disturbing the canopy. The plant canopy analyzer is widely used in agricultural production and agricultural research to measure light interception in plant canopies for canopy light resource surveys, and to study the relationship between crop growth and development, yield quality, and light energy use.
Model | PCA-I |
---|---|
Measuring Range | 0-2700μmol ㎡/s |
Resolution | 1μmol ㎡/s |
Response Time | 10 μs |
Auto-collecting Interval | 1-99 minutes |
Auto-collecting Times | 1-99 times |
Store Capacity | 2GB (SD card) |
Meter Length | 75cm |
Probe Length | 50cm |
Working Environment | 0°C-60°C; 100% HM |
Qty of Sensors | 25 (Standard equipped) |
Power Supply | 2 x AA batteries |
Shipping Size(W×D×H)(mm) | 830x230x180 |
G.W. (kg) | 5 |
PCA-I plant canopy analyzer is widely used in agricultural production and research fields. Its convenient portability, simple operation and rich functions provide an effective tool for plant ecological research.
The plant canopy analyzer can accurately measure and record photosynthetically active radiation (PAR) values in the 400nm-700nm band, providing important light energy information for plant growth.
The measurement range is 0-2700μmol㎡/s, which can meet the measurement needs under different plant growth environments.
No cumbersome sample processing is required; the plant canopy analyzer is placed on top of the plant for measurement and and easy and efficient operation.
Integrated LCD, operation buttons, SD card plug and measurement probe, easy to operate.
Compact size, easy to carry.
Large capacity storage, easy data management, and the ability to easily record and store a large amount of measurement data.
With automatic shutdown and restart function after a long time of non-use, prolonging the battery life.
Provides manual and automatic measurement modes to meet different experimental needs.