• Power Solar Inverter EZLogger On-Grid Monitoring Device System 1
  • Power Solar Inverter EZLogger On-Grid Monitoring Device System 2
  • Power Solar Inverter EZLogger On-Grid Monitoring Device System 3
Power Solar Inverter EZLogger On-Grid Monitoring Device

Power Solar Inverter EZLogger On-Grid Monitoring Device

Ref Price:
get latest price
Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
10 unit
Supply Capability:
100 unit/month

Add to My Favorites

Follow us:


OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

Monitoring Device EzLogger

 

EzLogger can effectively improve the stability and reliability of commercial power station systems with its powerful monitoring, data storage and diagnostic processing. EzLogger features easy operation and powerful functions, deeply favored by our customers. Each EzLogger can support up to 20 inverters in connection while EzExplorer software can monitor 16 EzLoggers at the same time, satisfying large-scale monitoring requirements. It supports long-distance connection with inverters, which is especially convenient for commercial power station management. Its long-term data preservation is suitable for system analyzing and optimization.

CommunicationInverter communicationRS485
PC communication10/100 Mbit Ethernet
ModemGSM (optional)
Data interfaceRJ45 (RS485+Ethernet), RS232, USB2.0
Maximum Number SupportedRS485/Ethernet/Wireless(EzBee)20 units
Maximum Communication DistanceRS485[m]800
Ethernet[m]100
Wireless(EzBee)[m]100
Power SupplyPower supplyExternal adapter
Input voltage [V]

100V~240V AC;50/60Hz

Power consumption [W]<5< td="">
Environmental Conditions in OperationAmbient temperature-20~60℃
Relative humidity(non-condensing)5%~95%
MemoryInternal128MB in a ring buffer configuration
ExternalMini SD card 512MB (1G /2G optional)
General DataDimensions (WxHxD) [mm]150/100/43.5
Weight [kg]0.5
Mounting locationIndoor
Installation optionsWall mounting
Status displayLED indicator
Warranty [years]5
Certificates and approvalsCE

 

Q: How do you connect a solar inverter to a data monitoring system?
To connect a solar inverter to a data monitoring system, you need to follow a few steps. First, ensure that your inverter is compatible with the data monitoring system you intend to use. Then, connect the inverter to your local network using an Ethernet cable or wireless connection. Next, access the inverter's settings through a web interface or mobile app and enable data monitoring. Finally, input the necessary information, such as IP addresses or log-in credentials, into the data monitoring system to establish the connection between the inverter and the monitoring platform.
Q: What is the purpose of a solar inverter?
The purpose of a solar inverter is to convert the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity that can be used to power household appliances and be fed back into the electrical grid.
Q: How does a solar inverter handle voltage drops in the electrical wiring?
A solar inverter handles voltage drops in the electrical wiring by continuously monitoring the voltage and adjusting its output accordingly. It boosts the voltage if it detects a drop, ensuring that the desired voltage levels are maintained for efficient power transmission and utilization.
Q: How long does it take to install a solar inverter?
The time it takes to install a solar inverter can vary depending on various factors such as the complexity of the installation, the size of the system, and the experience of the installer. On average, it typically takes a few hours to a full day to complete the installation process.
Q: Three-phase photovoltaic inverter grid, the use of phase-locked loop is what?
In addition to the function of converting DC current into alternating current, the inverter also has the maximum output tracking function (MPPT), overvoltage protection, short circuit protection, island protection, overheat protection, overload protection and DC grounding
Q: What are the potential risks of over-discharging a battery connected to a solar inverter?
The potential risks of over-discharging a battery connected to a solar inverter include reduced battery lifespan, decreased battery performance, and potential damage to the battery cells. Over-discharging can lead to deep cycling, causing the battery to degrade faster and lose its capacity to hold a charge effectively. This can result in shorter backup power duration during periods of low solar generation. Additionally, excessive discharge can cause irreversible damage to the battery cells, leading to reduced overall battery performance and potential safety hazards.
Q: What is the role of a solar inverter in protecting the electrical grid?
The role of a solar inverter in protecting the electrical grid is to ensure the safe and efficient integration of solar power into the grid. It converts the direct current (DC) produced by solar panels into alternating current (AC) that is compatible with the grid. Additionally, solar inverters monitor and regulate the flow of electricity, providing grid stability by managing voltage and frequency fluctuations. They also incorporate safety mechanisms to disconnect from the grid in case of emergencies or grid disturbances, protecting both the solar system and the overall electrical grid.
Q: How do you calculate the maximum power point voltage for a solar inverter?
To calculate the maximum power point voltage for a solar inverter, you need to determine the voltage at which the solar panels generate the maximum power output. This is done by varying the load resistance and measuring the corresponding power output. The maximum power point voltage is the voltage at which the power output is highest.
Q: How does a solar inverter affect the overall system reliability?
A solar inverter plays a crucial role in enhancing the overall system reliability of a solar power system. It converts the direct current (DC) generated by solar panels into alternating current (AC) that can be used to power household appliances and feed excess energy into the grid. By efficiently managing and controlling the flow of electricity, a reliable solar inverter ensures smooth operation of the entire system, preventing power fluctuations, voltage surges, and other electrical issues. Additionally, advanced features like anti-islanding protection and monitoring capabilities enable early detection and prevention of potential faults, further enhancing the system's reliability and performance.
Q: Can a solar inverter be used with solar-powered irrigation systems?
Yes, a solar inverter can be used with solar-powered irrigation systems. A solar inverter is used to convert the direct current (DC) electricity produced by solar panels into alternating current (AC) electricity that can be used to power various devices, including irrigation systems. By using a solar inverter, the solar energy generated by the panels can be efficiently utilized to power the irrigation system, making it a sustainable and environmentally friendly solution.

Send your message to us

This is not what you are looking for? Post Buying Request

Similar products

Hot products


Hot Searches

Related keywords