Standard parameters on the AP-7000
- Optical DO
- Specific EC
- Absolute EC
The AP-7000 features 6 Auxiliary sockets to allow you to add further sensors to the probe. The sockets are completely unrestricted so you can fit the probe with any combination of our ion selective or optical sensors
The AP-7000 can be used with a variety of cable lengths via the AquaConn Connectors. Cables available in 3, 10, 20 and 30m lengths as standard.
There are various options in terms of logging:
The GPS Aquameter is always required with any Aquaprobe. It is used for taking spot measurements, logging data manually and for calibrating the probes sensors. Its built in GPS receiver allows it to capture the location of every dataset you record. The GPS Aquameter also features a barometric pressure sensor for auto compensation for changes in air pressure during the deployment.
The AquaLogger is designed to work with the AP-7000. It uses standard C cell batteries to power the system and has a large memory allowing the capture of up to 15,000 datasets. The Aqualogger also features a barometric pressure sensor for auto compensation for changes in air pressure during the deployment.
The BlackBox data converter
The Blackbox is a data converter that transforms our probes output into either SDI-12 or Modbus RS485. This allows you to connect the Aquaprobe to third party logging devices, telemetry systems or existing monitoring networks. SDI-12 is our recommended protocol. It allows the Aquaprobe to effectively go to sleep between readings to reduce power consumption and on the probe waking a clean cycle is initiated prior to taking any readings.
AP-7000 Mechanical Specification
Some of the AP-7000’s features
Cleans every sensor installed
The central cleaning arm of the AP-7000 consists of a rotating set of brushes that clean all of the connected sensors, including the EC sensor located on the side of the optical DO probe. The main brush, that resides in the home position, cleans each of the sensors multiple times before moving on to the next. When it returns to the home position it also cleans itself by scraping the brush against the sharp edges of the home position. Cleaning the sensors regularly in this way can increase the deployment duration substantially, even in demanding environments.
Inevitably human interaction will be required for calibration and a more thorough clean, even the brushes will become fouled eventually. So with this in mind we have ensured that the maintenance of the cleaning system is extremely quick, simple and cost effective.