Features

• Reactive power aging simulation of reactors, saving energy consumption due to aging

• Independent rotary transformer and communication control, realistic simulation of working conditions

• 3 floors and 4 workstations with suitable height for ergonomic design

• Independent storage body with independent ambient temperature control, temperature uniformity ± 3 ℃

• The temperature change rate of the storage body is high, with a maximum of 4 ℃/min

• Quick changeover interface, structurally foolproof and misconnected

• High precision adjustment of aging coolant temperature, water pressure, and flow rate

• Independent product with independent CAN communication interface, simulating real working conditions

• Independent voltage and current sampling, independent dynamic display

• Intelligent buffering blowing and returning water

• Return water and inlet filtration, convenient for later maintenance

• Intelligent airtight detection, circuit leakage and damage inspection

• Improve EHS safety function design for leakage, overload, and door opening protection

• Partition malfunction alarm, partition water and power outage

• Power on device self check, convenient for fault maintenance

• Support dynamic curve editing for aging conditions such as ambient temperature, water temperature, and load conditions

• Support repeated power on/off impact tests during the aging process

• Support DBC import and protocol parsing editing

• Support custom format editing of CAN protocol messages

• Real time curve display of aging conditions with dynamic refresh

• Location code, product code, one-to-one corresponding data traceability

• Multi level permission function design, convenient for user management

Principle Block Diagram

Selection Information

Specifications