User's Manual
Table Of Contents
- Device Overview
- Charging and Battery
- Getting Started
- Sensor Flight Mode
- Keeping the Sensor Lens Clean
- Requirements
- Disclaimers
- Responsible Use
- Care and Maintenance
- Changes and Modifications
- Batteries
- Charging
- Prolonged Heat Exposure
- Choking Hazard
- Radio Frequency Radiation Exposure
- Regulatory Information
- Disposal and Recycling
- Disclaimers
- Support
© 2020 Zen-Me Labs Ltd. Zen-Me is patented and trademark of Zen-Me Labs Ltd.
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Battery life varies by use, wireless coverage, conguration, and many other factors; actual results will vary.
WARNING
BATTERY T YPE
Rechargeable, built-in Lithium-Polymer (LiPo) battery
BATTERY LIFE
Up to 6 months per charge
Maximizing Battery Life
Some simple tips to extend the life of your sensor battery:
• Use your sensor within the optimal temperature range. The best temperature is around 21°C.
• Avoid exposing the sensor to direct sunlight if possible.
• Some use cases are less data-intensive and have lower power requirements. Select a use case that optimizes sensor workload and
battery life.
(This is simplied illustration on the eect on intensity vs. battery consumption. The relative consumption is also aected by the
frequency of reading data from the sensor, and radio interference on the usage environment).
Battery life and the rate of power consumption are aected by a number of factors:
NOTICE
Battery Life
STYLE OF USE
Depending on how the sensor is used, it
has more or fewer features enabled. The
more features activated, the greater the
power demand.
INTENSITY OF MEASUREMENT
The frequency settings selected for data
acquisition and transmission inuence the
rate of power usage (see table below).
WIRELESS ENVIRONMENT
High levels of wireless trac or having
numerous devices share the same
space will increase the sensor’s power
consumption.