The SD-PMU can reduce setup costs, operational complexity, and maintenance expenses by performing the functions of three devices: a low-voltage disconnect monitor, a DC-DC converter, and a DC distribution panel.
Reduced Network Complexity
Rather than installing three enclosures and connecting them through cables, installation now simply involves connecting the batteries and an Ethernet connection to the SD-PMU. This results in significantly reduced network complexity, smaller footprint, and greater network resilience.
Overcoming Challenges of Battery-Powered Deployments
Whether enabling free Wi-Fi for buses, or maintaining surveillance on maritime deployments, you need to rely on battery power. Any battery-powered deployments will face a number of challenges, including voltage fluctuation, inability to troubleshoot, or battery drainage.
Voltage Regulation and Boost
The SD-PMU can take power from sources with low or fluctuating voltage and turn them into a reliable streams of 52V power.
Remote Voltage Monitoring
The SD-PMU records battery voltage information and sends it over the IoT Cloud for remote monitoring.
Low Voltage Disconnect
If the battery cannot deliver sufficient voltage, then the SD-PMU will automatically shut off access to the battery after a predefined delay.
Topology In-Vehicle Deployment
Connect the SD-PMU to your car battery to deliver reliable 52V power. Connect the LAN port to your router in order to remotely monitor battery output via the IoT Cloud.
With the SD-PMU, you could determine which port receives power first upon boot up. This is useful for deployments where the operation of the second device is dependent on that of the first. Use the IoT Cloud to remotely determine the boot up sequence.
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