IPDCL1000 SERIES BATTERY SIMULATOR

Series:

DC regulated power supply

Product Inquiry

Details

The IPDCL1000 series battery simulator adopts a single/three-phase PFC feedback design, pure digital PWM rectification technology, and uses four-quadrant SVPWM technology for AC-DC bidirectional transformation. Energy flows bidirectionally, with a power factor of 0.99 or higher and 100% energy feedback, resulting in minimal grid pollution. It features multiple operating modes, simulating battery charging and discharging characteristics and replacing power batteries in various testing scenarios. It meets the national standard GB/T 14549-1993 for power quality and public power grid harmonic requirements; it offers high output accuracy, fast dynamic response speed, and 100% energy feedback to the grid. It is widely used in the early R&D, later type testing, reliability testing, and production line product factory testing of products in fields such as new energy vehicle motors, electric control testing, power battery pack charging and discharging testing, and other power electronics testing. It meets the requirements for power supply use in testing items in GB/T18488.1-2015, GB/T18488.2-2015, and GB/T29307-2012.

Product Applications

Onboard charging/DC-DC/EMC electronic and electrical testing laboratory/Aerospace, military electronics/Electric vehicle whole vehicle testing/Electric vehicle motor, electric control, battery testing/Motor, compressor, etc.

Product Features

◆ Single/three-phase P.F.C feedback design. The system adopts a two-stage architecture of AC-DC and DC-DC bidirectional transformation, effectively smoothing fluctuations in the mains voltage during sudden changes, thereby improving the overall output dynamic response time and providing complete electrical isolation;

◆ AC-DC bidirectional transformation uses four-quadrant SVPWM technology, allowing for bidirectional energy flow, a power factor of 0.99 or higher, and minimal grid harmonic pollution. 100% energy feedback minimizes grid current pollution and achieves a high input power factor: >0.99, harmonics <3% during rated operation;

◆ Intelligent monitoring function, user-friendly human-machine interface, controllable via CAN bus or PC remote control;

◆ Fast dynamic response speed: 10%～90% load rise/fall time <5ms; ±90% load switching time <10ms;

◆ Multiple cooperation modes:

◆ Battery simulation mode: Simulates the charging and discharging characteristics of various batteries. Users can select different battery types, series and parallel numbers of cells, and SOC indicators to comprehensively simulate the battery's output characteristics, including the change in battery internal resistance during discharge;

◆ DC power supply mode: Features constant voltage, constant current, and constant power output modes, with automatic cross-switching to maintain a balance between control and protection, ensuring high-precision, low-ripple DC power supply output and fast voltage and current dynamic response speed;

◆ DC load mode: Features constant voltage, constant resistance, constant current, and constant power functions;

◆ Features local and remote operation functions, with remote control software and external communication functions. Communication interfaces: RS485/CAN/LAN;

◆ Power input and output interfaces with electrical safety protection functions;

◆ Remote operation provides standard host software, with open protocols and support for third-party command control;

◆ Multiple units of the same model can be paralleled to increase output capacity, facilitating capacity upgrades;

Host Computer Software

COOKIES

Our website uses cookies and similar technologies to personalize the advertising shown to you and to help you get the best experience on our website. For more information, see our Privacy & Cookie Policy

COOKIES

required

These cookies are necessary for basic functions such as payment. Standard cookies cannot be turned off and do not store any of your information.

analyze

These cookies collect information, such as how many people are using our site or which pages are popular, to help us improve the customer experience. Turning these cookies off will mean we can't collect information to improve your experience.

Feature

These cookies enable the website to provide enhanced functionality and personalization. They may be set by us or by third-party providers whose services we have added to our pages. If you do not allow these cookies, some or all of these services may not function properly.

advertise

These cookies help us understand what you are interested in so that we can show you relevant advertising on other websites. Turning these cookies off will mean we are unable to show you any personalized advertising.