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ABB HIEE4010513P102 High-Voltage Engineered Induction Motor
ABB HIEE4010513P102 High-Voltage Engineered Induction Motor
Manufacturer: ABB
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Product No.: HIEE4010513P102
Condition:in Stock
Product Type: High-Voltage Engineered Induction Motor
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Product Origin: Switzerland
Payment:T/T, Western Union
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Weight: 875g
Shipping port: Shanghai/Yiwu/Shenzhen
Warranty: 12 months
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Product Overview
The HIEE4010513P102 is a specialized high-voltage engineering component designed for the monitoring, control, and signal interfacing of large-scale industrial induction motors. Part of ABB’s custom-engineered drive solutions, this module facilitates the precision required to manage motors ranging from 250 kW to 8,000 kW. Whether deployed in power generation, steel production, or petrochemical plants, the HIEE4010513P102 provides the critical data link between high-voltage motor hardware and the central control system. It supports a wide range of configurable signal types, ensuring that variables such as winding temperature, vibration, and current loads are captured with ±0.1% accuracy to maintain stable, long-term operation under continuous load.
Technical Specifications
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Model Designation: HIEE4010513P102
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Application Scope: High-voltage induction motor control (3 kV to 10 kV systems)
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Input Density: 8 or 16 Channels (Configurable)
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Signal Compatibility: DC Voltage (0-10 VDC) or Current (0/4-20 mA)
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Data Fidelity: 12 to 16-bit resolution
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Measurement Accuracy: ±0.1% of full scale or better
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Electrical Isolation: Robust channel-to-channel and channel-to-earth protection
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Thermal Operating Limits: Designed for heavy-duty industrial ambient conditions
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Physical Dimensions: 477 mm x 22.5 mm x 261 mm
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Net Weight: 0.875 kg
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Origin: Swiss/Swedish precision manufacturing
Precision Motor Supervision & Efficiency
The HIEE4010513P102 is essential for "Condition-Based Maintenance" in high-output environments. By providing high-resolution (up to 16-bit) feedback from the motor’s internal sensors, the module allows engineers to optimize energy consumption and detect early signs of mechanical fatigue. This is particularly vital in applications utilizing forced ventilation or water cooling, where the module monitors flow and temperature to prevent overheating in 2-pole to 12-pole motor configurations. Its robust isolation barriers ensure that high-voltage transients from the motor's primary power stage do not propagate to the sensitive low-voltage control logic, safeguarding the entire DCS or PLC architecture.
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