The MeteoPV Distributed Solar Resource Monitoring Platform is ideal for integrators who need reliable photovoltaic (PV) resource data for use in PV system analysis and performance assessment. The MeteoPV is the only purpose-built PV resource data platform on the market, with the flexibility to easily integrate with your existing PV monitoring systems. Moreover, you can use the MeteoPV as a secondary weather station on large solar farms.
The flexible MeteoPV is built for PV monitoring, and it scales to the purpose, size, and complexity of your performance data requirements by combining virtually any combination of industry-standard pyranometers, reference cells, back-of-module temperature sensors, and compact all-weather sensors into a single access point.
To make your deployment more efficient and eliminate errors, the MeteoPV features an onboard, browser-based, user interface. The easy-to-understand interface verifies both proper sensor operation and SCADA communication for you. You can also run a PDF installation report that contains site data, sensor metadata, and configuration data to simplify your sensor documentation and traceability.
In addition to providing you with access to help files for configuration and troubleshooting tips via the user interface, the MeteoPV also acts as a data logger by storing your historical data. More than three months’ worth of one-minute and ten-minute average, max, min, and standard deviation data per sensor can be stored—with multiple options for viewing and saving your key PV resource data.Leia mais
The MeteoPV communicates with smart pyranometers, reference cells, back-of-module temperature sensors, and compact weather sensors, making it a flexible and easy-to-use POA sunstation solution. The Modbus RTU protocol over RS-485 is used to interface with the sensors, while Modbus TCP/IP protocol is used to communicate with the local SCADA system or other data collection platform. A Modbus map is built into the MeteoPV, providing aggregation of sensor readings and valuable metadata from one source.
With its small footprint and DIN-rail mounting, the MeteoPV is ready for integration with existing combiner boxes or other control panels. Power-over-Ethernet compatibility is a convenient method for supplying power without needing additional power supplies.
Installation and commissioning are straightforward without the headache of navigating, configuring, and addressing multiple sensor interfaces or generic gateway devices.
The MeteoPV hosts an intuitive onboard user interface accessed by a web browser. The browser-based interface simplifies the initial communication configuration and long-term sensor management. Simply connect, select your sensors, and start measuring.
|CPU||ARM Cortex M4 (running at 144 MHz)|
|Operating Voltage||9 to 30 Vdc|
|Operating Temperature Range||-40° to +70°C|
|Power Consumption @ 12 Vdc||~30 mA (not including sensors)|
|Isolated Sensor Power||12 Vdc, 800 mA|
|Isolated POE||802.3af compliant|
|EMC Immunity||IEC 61000-4-2 Class 4|
|USB Micro B||2.0 full-speed 12 Mbps (for computer connection)|
|SCADA Interface Port||RJ45 jack 10/100Base-TX, full and half duplex Auto-MDIX, magnetic isolation, and TVS surge protection|
|SCADA Interface Protocol||Modbus TCP/IP|
|Sensor Interface Port||Half-duplex RS-485|
|Sensor Interface Protocol||Modbus RTU over RS-485|
|Internal Memory||3 months' storage of 1- and 10-minute average, maximum, minimum, and standard deviation data (worst case scenario with 9 sensors connected)|
The MeteoPV is compatible with the following sensors:
Number of FAQs related to MeteoPV: 1
The MeteoPV operating system can be downloaded from the web or locally from a file.