Programmable DC electronic loads can simulate a wide range of load situations to help test the performance of power supplies under different load conditions. In power supply design, the load situation directly affects the voltage, current, and power output of the power supply.
With programmable DC electronic loads, the performance of the power supply can be tested under different load conditions, including light, full, and peak loads. This provides a more complete picture of the power supply's performance and optimizes the power supply design.
The high-precision programmable DC electronic load is an advanced test equipment that is mainly used to accurately measure and simulate the output parameters of the DC power supply, such as voltage, current, and power.
CIRK5000 series voltage range 120V, 600V, 1000V three specifications, other grades can be customized. Its wide operating range and extremely fast dynamic frequency effectively increase the testing capability and application range. The whole series of products have strong overload capacity, and the instantaneous overpower load can reach more than 2 times of the rated power, which can effectively reduce the test cost.
CIRK5000 has a variety of communication control interfaces, such as LAN, RS232, CAN, GPIB (optional) and analog interfaces.
CIRK5000 series high-power programmable DC electronic load product features
The power range covers 1-500kW to meet the needs of various industries.
The voltage range is 120V, 600V, 1000V, and other grades can be customized.
Complete protection functions, over-current, over-voltage, over-temperature, over-power and reverse polarity warning protection; All-round MOS protection to avoid bombing.
Multiple loads are cascaded for easy power expansion at any time.
Distributed design, power expansion, maintenance is very convenient.
High power density saves valuable space.
There are four test modes: constant current (CC), constant voltage (CV), constant resistance (CR) and constant power (CP).
The load and unload voltages are programmable, and the test and measurement reduce accidents.
Pure hardware constant resistance, constant power design, stable and reliable.
The following are the characteristics of high-precision programmable DC electronic loads:
1.High-precision measurements: High-precision programmable DC electronic loads are capable of high-precision (typically 0.).05%) measure the voltage, current and power of the DC power supply to ensure the accuracy of the test results.
2.Programmability: Users can control the working mode of electronic loads through programming, simulating various load conditions, such as constant current, constant voltage, constant power and dynamic load. This allows users to freely set the load parameters according to the test requirements, improving the flexibility and efficiency of the test.
3.Multiple operation modes: The high-precision programmable DC electronic load supports a variety of operation modes, such as constant current, constant voltage, constant power, etc., to meet the different test needs of users.
4.Fast dynamic response speed: The high-precision programmable DC electronic load adopts advanced circuit design and control algorithm, which has a fast dynamic response speed, which can simulate various transient load changes and improve the reliability of the test.
5.High integration: The high-precision programmable DC electronic load integrates a variety of test functions in one, and is compact in size, easy to carry and move for testing.
6.Friendly man-machine interface: The high-precision programmable DC electronic load is equipped with an easy-to-operate man-machine interface, through which the user can easily control the working status and parameter settings of the load, making the testing process more convenient.
7.Data storage and analysis: The high-precision programmable DC electronic load supports data storage and export functions, which is convenient for users to further analyze and process the test data.
8.Perfect protection function: high-precision programmable DC electronic load has built-in over-voltage and over-current protection functions, which can effectively prevent damage to the power supply and electronic load during the test.