0-30 kV DC Power Supply
0-30 kV DC Power Supply (Positive Polarity)
Overview
The 0-30 kV DC Power Supply (Positive Polarity) is particularly suitable for applications requiring controlled, high voltage DC output at low currents.
– Voltage Range: 0-30 kV DC
– Adjustable Sensitivity: 1 kV
– Current Range: 0-0.5 mA
– Polarity Positive
– Advanced Protection: Overcurrent and overvoltage protection
– Cooling: Fan cooling for optimal performance
Product Info
The 0-30 kV DC Power Supply (Positive Polarity) is a specialized power source designed to provide a 0-30 kV DC output with a current range of 0-0.5 mA. With its reliable and stable voltage output, this power supply is ideal for low-current, high-voltage applications requiring precise control. Whether for research, testing, or specific industrial uses, this model is an essential tool for applications that demand a positive DC voltage up to 30 kV.
Documents
Technical Information Documents
Product Specifications
Specification | Value |
Model | 0-30 kV DC Power Supply (Positive Polarity) |
Voltage Range | 0-30 kV DC |
Current Range | 0-0.5 mA |
Polarity | Positive |
Cooling | Fan-Cooled |
Safety Protections | Overcurrent, Overvoltage |
Control Interface | [Specify Digital/Analog] |
Key Features
Voltage Range: 0-30 kV DC
Current Range: 0-0.5 mA
Rated Power: N/A (Low Power Output, Ideal for Precise Applications)
Polarity: Positive
Compact and Efficient Design: Small form factor with energy-efficient power conversion
Precision Control: Ideal for applications requiring stable, low-current, high-voltage output
Advanced Protection: Includes overcurrent and overvoltage protections for enhanced reliability
Cooling: Fan-cooled for optimal performance
Applications
Electrospinning: An ideal choice for electrospinning setups, especially for generating nanofibers where precise control over voltage and current is necessary for consistent fiber deposition.
Electrostatic Precipitation: Used in air and liquid filtration systems, the high-voltage output helps to capture particulate matter and pollutants by creating an electrostatic field.
Scientific Research and Development: Employed in various laboratory environments, including research in material science, nanotechnology, and electrochemistry, where a controlled positive DC voltage is crucial.
Surface Coating and Treatment: Used in applications such as electroplating, electrochemical processes, and surface treatments, where high-voltage DC is required to modify surface properties of materials.
High-Voltage Testing: Essential for testing insulation materials, components, and devices in industries such as automotive, aerospace, and electronics, ensuring their safety and performance under high-voltage conditions.