SNTA1006 Mine Furnace Low Voltage Short Net Dynamic Reactive Compensation Device - Product
Place of Origin : Beijing,China
Delivery Time : Within 45 Days
Product Capacity : 100sets/month
Payment Terms : T/T Or L/C
Product Description
The mine furnace low voltage short net dynamic reactive compensation device consists of the control
system, monitoring system, executive system, protection system and ventilation dust-removal system.
This device is connected to the mine furnace low voltage short net side in parallel. The system harmonic
content varies from the mine furnace types. The mine furnace low voltage dynamic reactive
compensation device allows the direct capacitive reactive compensation without the reactor. In additio
Basic Information
Brand : SNTA
Model : Series
Physical Specification
Other Specification : Parameters Of Device
1, Operating Environments And Conditions
Maximum Temperature: +45℃
Minimum Temperature: -45℃
Elevation: ≤ 2000m
Relative Humidity: 70%
Filth Degree: Ⅲ
Installation Site: Indoor Or Outdoor
2, Control Objective: Power Factor 0.95 ~ 0.99
Grid Connection Side Harmonic Content Conforming To GB/T 14549-93 Quality Of Electric Energy Supply - Harmonics In Public Supply Network
3, Response Time: The Mine Furnace Low Voltage Short Net Dynamic Reactive Compensation Device Response Time Is ≤500ms.
4, Terminal Controller Technical Index:
Basic Parameters:
Power Supply Voltage: AC 220V ±20%
Power Supply Frequency: 50HZ ±5%
Sampling Voltage: AC 100V
Sampling Current: 0-5A
Measurement Precision:
Voltage: ±0.2% Current: ±0.2%
Active Power: ±0.5% Reactive Power: ±0.5%
Power Factor: ±0.5%
Device Features
The Cluster Switch Consisting Of Contactless Switch And AC Contactor Allows The Automatic Switching And Continuous And Frequent Capacitor Bank Switching Without Impairing The Service Life Of Switch And Capacitor;
The Thyristor Flexible Switching Technology Solves The Problems Of Transient Impulse, Switching-on Rush Current, Electric Arc Re-strike And Discharge Required For Secondary Switching-on Of The Capacitor;
After The Contactless Switch Thyristor Switching On The Capacitor, The Running Current Of Capacitor Only Passes The Main Contact Of AC Contactor While The Thyristor Is Not Conducted. In This Way, The AC Contactor Will Not Generate Arc Upon Switching On And The Power Loss Of Thyristor Itself Is Eliminated;
This Device Is Equipped With Series Reactor, Which Can Both Restrain The System Harmonic Current Magnification And Absorb Partial Harmonic Current To Make The System Voltage And Current Waveform Smoother.