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This DC power supply enables water electrolysis by converting AC grid/renewable energy into stabilized DC for hydrogen production. For example, 9V/20KA systems require ±0.5% voltage tolerance to optimize efficiency. Over 75% of green hydrogen projects use this technology, with wind-to-hydrogen rectifiers adjusting 20kA outputs within 50ms during wind fluctuations. Despite harmonic distortion issues, these systems underpin hydrogen economy scaling.
SF6, offering triple air’s insulation strength, powers high-voltage applications like 345kV+ GIS switchgear (200+ kg for arc quenching) and 7nm semiconductor etching (~0.3L gas/300mm wafer). Though its GWP is 23,900× CO₂-equivalent, no alternatives match its compactness for offshore converters or precision in 3D NAND manufacturing. Industry faces a reliability-versus-sustainability dilemma.
*Photovoltaic, wind power, wave power, biomass power(green power) are connected to the power sourcerectifier and the electrolyzer to electrolyze hydrogen production
*Electrolytic hydrogen production by power source rectifer connected to conventional power grid and integrated with electrolyzer
*Inverter system between hydrogen energy storage and power grid
Tetrafluoron, a compressible inert gas lacking color, odor, and flammability, enables material processing including silicon, SiO₂, Si₃N₄, PSG, and tungsten film etching. Its industrial uses span electronic component cleansing, photovoltaic cell fabrication, and precision laser applications. It also plays critical roles in gas-phase insulation, cryogenic refrigeration, space rocket attitude control, and printed circuit board detergent processes.
In the electrolytic synthesis of sulfur hexafluoride, technicians directly add sulfur to a fluorine electrolytic cell, where it reacts to form a KHF₂-HF-S mixture. Subsequent purification steps yield high-purity SF₆. When electrolytically melting this mixture, the fluorine produced immediately reacts with the sulfur in the electrolyte and generates SF6. After adding the sulfur, the electrolytic voltage of the electrolytic cell does not increase, nor does it cause current loss.. When electrolytically melting this mixture, the fluorine produced immediately reacts with the sulfur in the electrolyte and generates SF6. After adding the sulfur, the electrolytic voltage of the electrolytic cell does not increase, nor does it cause current loss.
Perfect inspection process and strict quality management measures to ensure excellent quality delivery
h the sulfur in the electrolyte and generates SF6. After adding the sulfur, the electrolytic voltage of the electrolytic cell does not increase, nor does it cause current loss.
| Characteristic Types | Parameter Items | Technical Requirements |
Power Types | Power types | High-frequency Power Supply |
| Model and specifications | TDFB-13V6000A | |
| Cooling mode | Air-cooled | |
| Switch tube type | IGBT | |
Input Characteristics | Rated Input Voltage | Three-phase, AC380V±10% ,50~60HZ |
| Rated Input Power | 83KVA | |
| Rated Input Current | AC 126A | |
| Input Power Factor | COSΦ≥0.95 | |
Output Characteristics | Output Voltage | DC 0~13V |
| Output Current | DC 0~6000A | |
| Stabilized Current Precision | ≤1%(Rated Current) | |
| According to accuracy | 10A,0.01V | |
| Rated output efficiency | ≥94% | |
Environmental Conditions | Installation site | Indoor installations |
| Altitude | ≤1500 meters | |
| Ambient temperature | -20℃~40℃ | |
| Relative humidity | ≤90% | |
Control Mode | Operating Mode | PLC, ADDA, Ethernet, RS485 and RS232 |
Protection Characteristics | With over voltage, over current, overload, short circuit, overheating and other abnormal self-protection function | |
| Application | Model | Output |
| Fluoride electrolysis, SF4,SF6 | TBSB-9000A/12V | 12Vdc/9000A |
| TBSB-10000A/12V | 12Vdc/10000A | |
| TBSB-6000A/15V | 15Vdc/6000A | |
| TBFBZ-13000A/9.5V | 9.5Vdc/13000A | |
| TBFBZ-13000A/10V | 10Vdc/13000A | |
| TBFBZ-15000A/10V | 10Vdc/15000A | |
| TBFBZ-18000A/11V | 11Vdc/18000A | |
| TBSB-20000A/9V | 9Vdc/20000A | |
| TBSB-10000A/15V | 15Vdc/10000A | |
| TBSB-12000A/15V | 15Vdc/12000A | |
| TBSB-24000A/15V | 15Vdc/24000A | |
| TDSB-2000A/70V | 70Vdc/2000A | |
| TDSB-2000A/90V | 90Vdc/2000A | |
| TDSB-3000A/65V | 65Vdc/3000A | |
| TDSB-1800A/80V | 80Vdc/1800A | |
| TDSB-2000A/100V | 100Vdc/2000A | |
| TDSB-6000A/50V | 50Vdc/6000A | |
| KES-7000A/150V | 150Vdc/7000A | |
| TBSB-12000A/20V | 20Vdc/12KA | |
| TBSB-13KA10V | 10Vdc/13KA | |
| TBSB-20KA10V | 10Vdc/20KA |
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Output voltage: DC 0~20V;Output current: DC 0~1200A;Cooling method: Air cooling
Output mode: High speed positive and negative pulse;Cooling method: Water cooling
Cooling method: Water cooling
Power supply type:High-frequency power supply
