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- Transmits signals in radio and/or acoustic mode
- Allows you to work in dynamic conductivity environments (estuaries containing haloclines and/or mixtures of salt and freshwater). Allows you to work in deep freshwater bodies.
Eliminates the need for two tag and receiver systems.
.
- Operates in a "static" mode that alternates regularly between acoustic and radio transmission modes
- Minimizes costs.
- The
latest in crystal stabilized microprocessor based coded tags
- Allows unique digital coding scheme. Allows more stable timing of transmit-bursts (the burst rate of non-crystal controlled, i.e., non-microprocessor based, tags tends to vary significantly with variations in ambient temperature).
- Digital
coding scheme
- A single tag
allows both the manual tracking and automatic datalogging of animals.
Allows the tracking of over one hundred individuals on a single frequency.
Allows the transmission of sensor data as well as unique ID.
- Flexible transmit-burst repetition rate
- Allows users to dictate desired rate. Allows the extension of tag longevity (by slowing it down).
Increases the ease of manual tracking (by speeding it up).
- High
reliability
- Allows you to
maximize confidence in study results.
- Standard
or enhanced longevity
- Shorter codes
allow you to extend operation longevity.
- Variable
sizes
- Allows you to match the telemetry capability with the biology of the species of interest. Allows you to increase longevity when size is less of an issue.
- Oral
or surgical internal implantation or external mounting
- Allows you to match the telemetry capability with the biology of the species of interest.
- All tags are encased in a biologically inert material
- Protects the electronics, ensures long life and minimizes negative impacts on the tagged individual
.
- System
compatibility
- Works with the
most sophisticated and widely used biotelemetry receiver available
today, Lotek's SRX 400. Works with Lotek's wireless
hydrophone system .
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