High Power Low-temperature Plasma Experimental Power Supply (CTP-2000K/A)
Product Detail
Photo of High Power Low-temperature Plasma Experimental Power Supply
Product Features
- Used for arc discharge, dielectric barrier discharge, and glow discharge tests in various atmospheres environments, including high pressure, atmospheric pressure and low pressure.
- Generate various Dielectric Barrier Discharge (DBD) devices to produce long-term and stable streamer discharge or glow discharge.
- Includes interfaces for input power measurement, high-voltage output voltage and current detection.
- Generate various gas reactors, gas-liquid reactors or gas-solid reactors.
Types of Plasma Power Supply Products
Product Name |
Low-pressure Low-temperature Plasma Experimental Power Supply |
Modulated Pulse Low-temperature Plasma Experimental Power Supply |
Differential Output Low-temperature Plasma Experimental Power Supply |
High Power Low-temperature Plasma Experimental Supply |
|
Model |
CTP-2000K |
CTP-2000K/L |
CTP-2000K/P |
CTP-2000K/S |
CTP-2000K/A |
Output voltage (KV) |
0~30 |
0~3 |
0~30 |
0~60 |
0~20 |
*Center frequency(fo) (KHz) |
1~100 (Selectable) |
1~100 (Selectable) |
1~100 (Selectable) |
1~100 (Selectable) |
1~100 (Selectable) |
**DBD |
Within 8mm |
Generally discharged under low pressure, not necessarily for DBD structure |
Within 12mm |
10-20mm |
- |
Frequency Range |
Medium-frequency |
Low-frequency |
Medium-frequency |
Medium-frequency |
- |
***Frequency (KHz) |
0.5 Fo~2 Fo (Adjustable) |
0.5 Fo~2 Fo (Adjustable) |
0.5 Fo~2 Fo (Adjustable) |
0.5 Fo~2 Fo (Adjustable) |
0.5 Fo~2 Fo (Adjustable) |
Fundamental Wave |
Sine wave |
Sine wave |
Modulated Pulse |
Sine wave |
- |
Output Signals |
Single high-voltage output. One connected to high voltage, one connected to ground. |
Single high-voltage output. One connected to high voltage, one connected to ground. |
Single high-voltage output. One connected to high voltage, one connected to ground. |
Dual/Two high-voltage outputs, equal amplitude, opposite phase of 180 degrees. |
- |
Power (W) |
500 |
500 |
500 |
500 |
0~1000 |
Unit Dimensions W×D×H (mm) |
250×250×360 (H) |
250×250×360 (H) |
250×250×360 (H) |
250×250×380 (H) |
250×500×370 (H) |
Weight (kg) |
8 |
8 |
9 |
12 |
25 |
Equipment Composition |
1.Main machine 2.Voltage Regulator |
1.Main machine 2.Voltage Regulator |
1.Main machine 2.Digital Pulse Modulator Panel 3.Voltage Regulator |
1.Main machine 2.Voltage Regulator |
1.Main machine 2.Voltage Regulator |
*~10KHz calibrated using our 50mm Diameter DBD reactor. Charges may apply for customizations.
**DBD-50 only works with Models: CTP-2000K, CTP-2000K/P and CTP-2000K/L. For CTP-2000K/S, this model will require a customized DBD reactor.
**The Center frequency of 1-40 KHz has adjustable frequency range of 0.5 Fo~2 Fo; 40-70 KHz has adjustable frequency range of 0.5 Fo~1.3 Fo; Above 75 KHz has adjustable range of 0.5 Fo~1.2 Fo.
Voltage Details: Single-phase 220V with allowable range of ±10%. We recommend using a power transformer to step-up from 110 to 220V. If plugging the main unit and voltage regulator together, we recommended getting 2000W.
Options:
Applications
1. Surface modification treatment of organic and inorganic materials
- Enhance compatibility of different polymer surfaces
- Enhance suitability of biological surfaces
- Clad nanomaterials
2. Preparation of organic or inorganic nanoparticles
3. Cleaning and sterilization
Application Examples:
(a)
(b)
(c)
(d)
(e)
Photo of Plasma Discharge
(a) DBD Strong Discharge (b) DBD Medium Intensity Discharge (c) DBD Weak Discharge
(d) Vacuum Argon Discharge (e) Vacuum Air Discharge
Disclaimer: ACS Material LLC believes that the information in this Technical Data Sheet is accurate and represents the best and most current information available to us. ACS Material makes no representations or warranties either express or implied, regarding the suitability of the material for any purpose or the accuracy of the information contained within this document. Accordingly, ACS Material will not be responsible for damages resulting from use of or reliance upon this information.