• PV Grid-Tied  Inverter CP100, 100kw, Power Inverter System 1
  • PV Grid-Tied  Inverter CP100, 100kw, Power Inverter System 2
  • PV Grid-Tied  Inverter CP100, 100kw, Power Inverter System 3
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PV Grid-Tied  Inverter CP100, 100kw, Power Inverter

PV Grid-Tied Inverter CP100, 100kw, Power Inverter

Ref Price:
$6,000.00 - 6,500.00 / pc get latest price
Loading Port:
Shekou
Payment Terms:
TT or LC
Min Order Qty:
20 pc
Supply Capability:
10000 pc/month

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PV grid-tied  inverter CP100, 100kw, power inverter

Specifications

Low voltage ride through
Active power continuous adjustment (0-100%)
Reactive power adjustable, PF range 0.9lagging aa 0.9lead


  • Low voltage ride through

  • Active power continuous adjustment (0-100%)

  • Reactive power adjustable, PF range 0.9lagging – 0.9leading

  • Maximum conversion efficiency of 98.6%

  • Multi-language touch panel monitoring interface

  • Rigorous grid environment adaptable

  • Auxiliary electrical heating (optional)

  • High altitude application adaptable<6000m (power derating over 3000m)

  • Certificates and approvals including CE,CGC solar,BDEW etc.

PV Grid-Tied  Inverter CP100, 100kw, Power Inverter


PV Grid-Tied  Inverter CP100, 100kw, Power Inverter


Input Data (DC)

Max. DC voltage

1000V

Full-load MPP-Voltage range

450V-820V

Nominal DC voltage

500V

Max. input current

250A

Number of MPP trackers

1

Max. number of parallel strings

2


Nominal AC output power

100KVA

Nominal AC output voltage

400V

AC output voltage range

360V-440V

Nominal AC output frequency

50Hz/60Hz

AC output frequency range

45Hz-55Hz/55Hz-65Hz

Max.output current

160A

PF (cosφ)

0.9lagging – 0.9leading

THDI

<3%(@pac,r)< span="">

Efficiency

Max. conversion efficiency

97.5%

Euro-eta

96.5%

MPPT efficiency

99.9%

Protection

DC disconnection device

yes

AC disconnection device

yes

DC Over-voltage protection

Arrester type

AC Over-voltage protection

Arrester type

Grid monitoring/Regulation

yes/yes

PV Isolation detection

yes

eneral Data

Dimension (W/H/D)

1100/1890/850 mm

Weight

1000kg

Operating temperature range

-20°C … +50°C

Humidity

15% - 95%

Protection level

IP20

Noise emission

65dB(A)@1m

Altitude

3000m

Standby power consumption

<100w< p="">

Cooling concept

Forced Air Cooling

Topology

Industrial Frequency Transformer

Display

LCD Touch Panel

Communication interface

RS 485/ Ethernet

Certificate & Approval

Approval

CE/CQC/TUV/BDEW



FAQ

 

1. Have any design tool and how to use it?

Shine Design is the system design software just for inverters, It can conduct installers to figure out panel numbers for a system, panel numbers for each string, and which inverter model is suitable for the system. Moreover, it can print a design report after input all necessary parameters, can calculate DC/AC wire wastage, annual generation, etc.

 

2. Does the inverter have monitoring solutions for residential system?

For small rating system, we have wired two monitoring solution (ShineNet via RS232 or RS485). (a) Local wireless monitoring solution (ShineVision via RF module communication) (b) Global wireless monitoring solution (WIFI module via WIFI network)

 

3. Do you have free solution for monitoring?

ShineNet is an inverter monitoring software run in Windows XP, Windows Vista, Windows 7 operating system. It can monitor inverter via RS232 (or RS232 convert to USB cable) and RS485 wire connection. Customers can purchase the cable locally to get the inverter monitored, it is simple.


Q:Can a solar inverter be used in mobile applications?
Yes, a solar inverter can be used in mobile applications. Portable solar inverters are designed specifically for mobile use and are commonly used in recreational vehicles, boats, camping, and other off-grid applications. These inverters convert the direct current (DC) generated by solar panels into alternating current (AC) to power mobile devices and appliances.
Q:Can a solar inverter be connected to a smart home or monitoring system?
Yes, a solar inverter can be connected to a smart home or monitoring system. This allows for seamless integration and monitoring of the solar system's performance and energy production. This connection enables homeowners to track their energy usage, receive real-time updates on energy generation, and even remotely control and optimize the solar system's settings.
Q:Can a solar inverter be used in regions with high temperature extremes?
Yes, solar inverters can be used in regions with high temperature extremes. However, it is important to choose inverters that are specifically designed to handle such conditions, as excessive heat can affect their performance and lifespan. These inverters should have features like advanced thermal management systems, wide temperature operating ranges, and robust cooling mechanisms to ensure optimal functioning and durability even in extreme temperatures.
Q:How does a solar inverter handle frequency fluctuations in the grid?
A solar inverter handles frequency fluctuations in the grid by continuously monitoring the frequency of the grid and adjusting its own output accordingly. If the grid frequency increases, the inverter reduces its output to maintain stability. Conversely, if the grid frequency decreases, the inverter increases its output to help stabilize the grid. This way, the solar inverter actively contributes to maintaining a stable frequency in the grid.
Q:What are the key factors affecting the installation process of a solar inverter?
The key factors affecting the installation process of a solar inverter include the site location and orientation, electrical wiring and connections, proper grounding, adequate ventilation and cooling, and compliance with local regulations and safety standards. Additionally, the choice of mounting structure, the proximity to the solar panels, and the availability of a reliable power supply are also important factors to consider during the installation process.
Q:What is the role of an anti-islanding feature in a solar inverter?
The role of an anti-islanding feature in a solar inverter is to ensure the safety of utility workers and prevent damage to the electrical grid. It detects when there is a power outage or grid disturbance and immediately shuts off the solar inverter to prevent it from continuing to generate electricity. This feature is crucial as it prevents the solar system from operating independently and feeding power back into the grid, which can be dangerous for utility workers trying to repair the power outage.
Q:Can a solar inverter be used with different types of mounting systems?
Yes, a solar inverter can be used with different types of mounting systems. The compatibility of the inverter with different mounting systems depends on factors such as the voltage and power requirements, as well as the communication protocols. However, most modern solar inverters are designed to be versatile and can be used with various types of mounting systems, including roof-mounted, ground-mounted, and pole-mounted systems.
Q:What is the role of frequency support in a solar inverter?
The role of frequency support in a solar inverter is to maintain a stable and consistent frequency of the electricity being generated by the solar panels. This is important because the frequency of the electricity needs to match the frequency of the grid in order to ensure smooth and reliable power transmission. The solar inverter constantly monitors the frequency of the grid and adjusts the output of the solar panels to match it, helping to stabilize the overall grid frequency and maintain the integrity of the electrical system.
Q:How does a solar inverter handle voltage and frequency variations caused by switching operations?
A solar inverter handles voltage and frequency variations caused by switching operations through the use of advanced control algorithms and circuitry. It continuously monitors the input voltage and frequency from the solar panels and adjusts its own output voltage and frequency accordingly. This ensures that the power generated by the solar panels is efficiently converted into usable AC power that matches the grid requirements. The inverter's voltage and frequency control mechanisms help maintain a stable and consistent power supply, even in the presence of switching operations or fluctuations in the solar panel output.
Q:Can a solar inverter be used in a solar-powered street lighting system?
Yes, a solar inverter can be used in a solar-powered street lighting system. The solar inverter is responsible for converting the direct current (DC) generated by the solar panels into alternating current (AC) that is required to power the street lights. It ensures that the energy produced by the solar panels is efficiently utilized in the lighting system.

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