Neuron Hour Meter enables you to digitize hour counting on use of equipment. The sensor comes with 40 cm wires and connects to 4-30VDC to measure elapsed time. The sensor stores elapsed time internally and will work even if out of range of a gateway. When within reach of a gateway the elapsed time will be sent to Neuron Cloud. All measurements are easily accessible from web, app. Due to IP67 encapsulation the sensor can be used in humid areas.
General Description
The Neuron Hour Meter counts elapsed time when connected to 4-30VDC. This makes it suited for hour counting on for example vehicles and machinery for maintenance purposes.
Continuous measurement and instant alarm. Duplex communication enables adjustment of parameters such as measuring frequency. Alarm levels are easy to set in the app and alerts can be received as push notification, emails or SMS. QR-code on the sensor ensures easy and accurate registration in the app.
Principle of Operation
The Neuron Hour Meter stores the elapsed time internally and do not need to be in range of a gateway at all time. When within reach of a gateway the elapsed time is transmitted to Neuron Cloud. The sensor measures every 10th second and transmits every second minute.
Features
Long life battery – up to 10 years lifetime
Continuous measurement and instant alarm
Adjustment of parameters such as measurement frequency on request
Define your own alarm levels in the Neuron app
Receive alerts as push notifications, emails or SMS
Easily connect the sensor to the system with the QR- code on the sensor. Ensures immediate and accurate registration in the app on your phone/PC/tablet
The sensor transmits data to your nearby Neuron Gateway which then again communicates with the Neuron Cloud
Typical Applications
Monitor use and up-time of equipment
Leasing
Maintenance
Essentials
Measuring Range:
Elapsed time when applied 4-30VDC
Measuring Frequency:
Every 10 sec
Report Frequency:
Every 2 min
Expected Operating Time*:
Up to 10 years
*Depends on measurement frequency, amount of critical data transmissions
and ambient temperature