Performance Monitoring from PV Powered
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The PV Powered performance monitoring system includes the PVM1010 data monitoring module and user access to inverter performance information on a password protected website at mypvpower.com. The PVM1010 along with the secure internet-based server operated by PVPowered is equivalent to a stand-alone data logging meter and communication interface without the cost and inconvenience of installation and maintenance of a separate metering system. After getting registered you'll enjoy these capabilities and more
• Access to your information from anywhere you can connect to the internet • Reports of power output and energy production trends • View local weather conditions and forecasts • Verification that your system is working at it's full potential • Collection and export of data for service and maintenance planning Click on the demo button to see an example of a real location that shows actual performance information from a PV Powered installation in Bend, Oregon. On this demo site you will be able to choose web pages showing information about system output, current weather conditions, energy graphs and environmental offset calculations and other performance data. This site has multiple inverters so you'll be able to see the power and energy output of each inverter in graphical form and production statistics for the total site. |
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 DEPENDIBLE INVERTER INTEGRATED METERING The PVPowered PVM1010 monitoring module is a UL approved data acquisition and communication interface accessory for your inverter that enables secure access to system performance and status information over a LAN connection. The module determines the amount of power being generated from your PV installation by continuously collecting accurate voltage and current data from the inverter and calculating real-time power production in kWp and accumulated energy output in kWh over various time intervals. CONNECT TO REMOTE MONITORING AND REPORTING SYSTEMS With the PVM1010 installed on the inverter, the user is automatically able to register for basic web-based monitoring at the mypvpower.com portal which is operated by PVPowered. In special situations where internet-based services are not viable there is the ability to gain direct access to inverter information using standard TCP/IP applications such as UDP or MODBUS. A typical configuration for the monitoring system includes the following: • PVPowered inverters with PVM1010's installed • Local Area Network Router connected to each inverter with CAT5 ethernet cable • Connection to the internet where the data is sent to be stored on the PVPowered secure server. • End user access to web pages at mypvpower.com using a Personal Computer • Collection and export of data for service and maintenance planning 
In addition to providing basic data monitoring capabilities the PVM1010 module also enables inverter status reporting that is useful for determination of operational health and trouble conditions at the PV installation. For situations where it is necessary to report production data it is possible to arrange for connection to third-party performance monitoring and reporting services. CONVENIENT WEB-BASED MONITORING FROM PV POWERED With the monitoring capability available on PVPowered's mypvpower.com website the system user can view easy-to-understand summary tables and detailed graphical trends of voltage and power output over hourly, daily, weekly and monthly timeframes. The basic version of the mypvpower web-monitoring service is made available free-of-charge when the user registers with PVPowered to activate the system and provides annual updates of account information. INFORMATIVE DISPLAY OF IMPORTANT PERFORMANCE INFORMATION The main page on mypvpower.com shows a summary of current weather conditions along with a table showing the most recent AC Power reading in kWp and AC energy production in kWh for today and over the system lifetime. With the high-resolution graphical view of power and voltage levels many trend and transient details will be visible to the user so a wide range of FAQ topics and sample graphs of typical system problems is available to help with system diagnostics. Here is an example of the power output graph from the energy page of mypvpower.com. This graph shows how voltage (line graph) from the solar panels and power output (area graph) from the inverter varies over the course of the day. Early in the day the voltage rises as the energy from the sun increases and is converted to voltage and current by the solar panels. As the energy from the solar panels increases the inverter comes on and produces AC power that is measured in kilowatts. In the middle of the day the power output reaches a peak and then declines as the energy from the sun decreases. The area under the power curve represents the amount of energy produced during the day and is reported in kilowatt hours. 
To compare historical trends there is a data export capability included that allows the user to select a date range and export detailed energy production information from the database to check if system performance has changed over time. QUICK ACCESS TO EXPERT SERVICE AND SUPPORT When users have a performance related question about the system it is easy to activate a service request by filling out a short form accessible on mypvpower.com. System administrators have access to inverter operation parameters and status codes that can aid in diagnostics of performance questions. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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