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Solar Array Simulator

Solar Array Simulator

Solar array simulator is a high performance DC power supply with fast change of IV curve. It can simulate the IV output characteristics of various solar panels under different environments (temperature, light, shadow decay, aging). It can be applied for the tests of solar micro-inverter, power optimizer, sail power array and so on.solar array simulator has low ripple, low noise and fast MPPT, supports multi-channel synchronous control and high voltage topology.

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Applications:

Micro-inverters

Power Optimizer

Home Energy Storage

MPPT shutdown module

Standards:

EN50530, IEC 61853, and IEC 61215.

Technical Parameters

ParameterSpecification
ModelQ1006
Rated Power6 kW
Working ModePWM
Input Phase1Ø2W
Input Voltage220V ±10%
Input Frequency50Hz ±10%
Output Voltage0–300V
Output Current0–20A
Ripple Voltage (RMS)0.2% FS
Ripple Current (RMS)0.3% FS
Linear Regulation±0.1% FS
Voltage ResolutionV0<1000V: 0.1V; V0≥1000V: 1V
Current ResolutionOutput dependent, minimum 0.001A
Power Resolution<10kW: 1W; ≥10kW: 0.1kW
Display ParametersVoltage, Current, Power, Temperature
Voltage Setting Range0–100% Rated Voltage
Current Setting Range0–100% Rated Current
Power Setting Range0–100% Rated Power
Setting AccuracyVoltage ±0.8% FS; Current ±1% FS; Power ±1% FS
Measurement AccuracyVoltage/Current/Power: 0.5% FS + 5dgt
I-V Curve Data PointsUp to 4096 points
Storage Capacity9 groups of I-V curve data
Current Loop SpeedUp to 500 kHz
MPPT Response SupportUp to 250 Hz
Protection FunctionsOver voltage, over current, over temperature, short circuit
Cooling MethodForced air cooling
Operating Environment0–40°C, 20–80%RH (non-condensing)
CertificationCE
WeightApprox. 50 kg
Dimensions (W×H×D)483×265×600 mm

Advantage:

1、High-power and scalable

Test up to 2000 V and 30 kW in a single unit, or scale with multiple units to 600 kW for high-capacity string inverter testing in large commercial PV systems.

2、Autoranging output

Automatically adjusts the output to match load requirements to deliver full power over voltage and current combinations up to 2000 V or 60 A.

3、DC power supply mode

Delivers up to 30 kW of autoranging DC power with precise voltage / current control and advanced features like output sequencing, data logging, and waveform generation.

4、Automated testing

Designed to streamline the process of verifying compliance with industry standards, like EN50530, IEC 61853, and IEC 61215.

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Measurement accuracy:

Voltage: 0.5%FS+5dgt

Current: 0.5%FS+5dgt

Wattage: 0.5%FS+5dgt

SAS model: through the user settings can simulate different solar panel I-V output curve, see specific functional PC software instruction for specific functions

Storage number: A total of 9 groups, each group can be memory voltage and current values, and is fast and convenient to calling

Remote model: combination PC can make the power simulation of single or up to 1000 I-V output curve, see specific functional PC software instruction for specific functions

I-LIM set: o-max current (more than the current setting power protection to stop the output)

V-LIM set: o-max voltage (more than the voltage setting power protection to stop the output)

Protection: over voltage, over current, over temperature, short circuit

Cooling: fan forced cooling

Environment: 0-40°C, 20-80%RH (non-condensing)

Certification: CE

Weight (kg): 50 (specific kind prevail)

Dimension: WxHxD (mm) 483x265x600 (specific kind prevail)

High response speed:

Photovoltaic simulator has a current loop speed of up to 500kHz and supports 250Hz MPPT speed.Its IV curve consists of up to 4096 data points which closely matches the real output of the photovoltaic array. The real output of the photovoltaicpanel strictly follows its IV curve.When the MPPT tracking frequency increases, if the response speed of the simulator (power supply) is too slow, it will not be able to track the IVcurve, and the reliability of the test results is under doubt. Under the condition of high MPPT tracking frequency of the solar array simulator series PV simulator,the output still accurately conforms to the preset IV curve.

Low noise of output current:

The high fundamental frequency noise of the PV simulator affects theMPPT and current sampling precision of the inverter.

5 PV modes

Solar Array Simulator series has 5 built-in PV modes. You can operate it on the front panel. With the built-in IV curves models of multiple regulations, four-pointmethod, table tracing point method, fixed mode or list programming, it can simulate the output of solar array IV curve, big screen graphical display,and real-time view of MPPT status of micro-inverter, power optimizer and other DUTs. In addition, you can import model files via a USB. Whenmultiple channels operations are required, you can use PV software, very convenient.

FAQ

(1) What is the purpose of a Solar Array Simulator?

A Solar Array Simulator is used to replace real photovoltaic panels during laboratory testing by reproducing their electrical output characteristics. It allows engineers to evaluate PV inverters, micro-inverters, power optimizers, and MPPT controllers under controlled and repeatable conditions.

(2) What photovoltaic devices can be tested with this simulator?

The Solar Array Simulator is mainly used for testing micro-inverters, power optimizers, string inverters, energy storage systems, and other photovoltaic power conversion devices. It helps verify efficiency, MPPT performance, dynamic response, and system reliability.

(3) How does the Solar Array Simulator simulate different solar conditions?

The system can reproduce different photovoltaic I-V curves by changing simulation parameters related to irradiation, temperature, shading, and aging effects. Users can load existing models or configure PV characteristics through the control software.

(4) What advantages does a Solar Array Simulator have compared with outdoor PV testing?

Compared with outdoor testing, the simulator provides stable and repeatable test conditions without being affected by weather, sunlight fluctuation, or installation limitations. It improves testing efficiency and allows precise comparison between different photovoltaic devices.

(5) How do I choose the right Solar Array Simulator for photovoltaic testing?

Selection should consider the tested device type, required voltage and power range, MPPT response requirements, number of test channels, and applicable standards. For inverter, micro-inverter, and power optimizer testing, the suitable model should match the electrical characteristics of the target PV system. Contact our technical team for professional selection guidance based on your testing requirements.


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