Thyrist air loidhne an-asgaidh | Semiconductors cumhachd àrd-inbhe
Cuir dheth Thyristor gu sgiobalta
Geata DT46N1400KOC 45A/1200V/2U cuir dheth thyristor luath thyristor Ann an stoc
TZ430N16 gate turn off thyristor fast thyristor In stock
Fast Turn Off Thyristors P0366WC04A P214CH04 P0366WC04B P214CH04 P0366WC04C P214CH04 P0366WC04D P214CH04 98%
New and Original fast turn off Thyristor gto 5STP21F0800
Other Electrical Equipment Scr High Power Thyristor SW30CXC1170 Gate Turn Off Thyristor
KK300A 1600V fast turn off thyristor 300A 1600v for beauty machine
Hot Gate Turn Off Thyristor SW50CXC500 High Current Scr
Electronic Equipments Scr Thyristor Module 500A 1400V W0735RA120 Gate Turn Off Thyristor
Hot ing Gate Turn Off Thyristor W0503RD200 Stud Thyristor
Gate Turn Off Thyristor W1263YH250 High Current Scr
R0830LS12E R0830LS12F R0830LS12F Fast thyritors R0830LS12X -14x fast turn off thyristor 830A 1200V distributed gate thyristor
TD210N18KOF gate turn off thyristor fast thyristor In stock
| Seòrsa | VDRM/VRRM [V] | miT[OF] [A] | tq [sinn] | miTSM [an] | dv/dt [V/sinne] | di/dt [A/sinne] | miDRM/miRRM [mA] | miGT [mA] | VGT [V] | miTha H [mA] | VTM/miTM [V/A] |
|---|---|---|---|---|---|---|---|---|---|---|---|
| PDDN-Y30KKE | 800-1800 | 449 | 16-35 | 4.5 | 500 | 200 | 30 | 40-250 | 0.9-2.5 | 20-400 | 2.65/900 |
| PDDN-Y38KKE | 800-1800 | 806 | 16-35 | 8.5 | 500 | 300 | 40 | 40-250 | 0.9-2.5 | 20-400 | 2.23/1500 |
| PDDN-Y40KKE | 800-1800 | 820 | 12-18 | 8.5 | 500 | 300 | 50 | 40-250 | 0.9-2.5 | 20-400 | 2.42/1500 |
| PDDN-Y45KKE | 800-1800 | 859 | 12-18 | 8.6 | 500 | 300 | 60 | 40-250 | 0.9-2.5 | 20-400 | 2.56/1800 |
| PDDN-Y50KKE | 800-1800 | 1191 | 16-35 | 12 | 500 | 500 | 80 | 40-300 | 0.9-3.0 | 20-500 | 2.14/2000 |
| PDDN-Y60KKE | 800-1800 | 1456 | 16-35 | 16 | 500 | 500 | 120 | 40-300 | 0.9-3.5 | 20-500 | 2.24/3000 |
| PDDN-Y65KKE | 800-1800 | 1720 | 16-35 | 19 | 500 | 500 | 120 | 40-400 | 0.9-4.0 | 20-800 | 2.10/3000 |
| PDDN-Y70KKE | 800-1800 | 1921 | 25-40 | 21 | 500 | 600 | 160 | 40-450 | 0.9-4.5 | 20-1000 | 2.14/4000 |
| PDDN-Y76KKE | 800-1800 | 2807 | 25-40 | 27 | 500 | 600 | 200 | 40-450 | 0.9-4.5 | 20-1000 | 2.00/5000 |
| PDDN-Y70KKG | 1900-2500 | 1780 | 35-70 | 21 | 500 | 600 | 160 | 40-450 | 0.9-4.5 | 20-1000 | 1.95/3000 |
| PDDN-Y76KKG | 1900-2500 | 2472 | 35-70 | 27 | 500 | 600 | 200 | 40-450 | 0.9-4.5 | 20-1000 | 2.05/5000 |
| PDDN-Y89KKG | 1900-2500 | 3416 | 60-80 | 31 | 500 | 600 | 250 | 40-450 | 0.9-4.5 | 20-1000 | 1.80/5000 |
| PDDN-Y100KKG | 1900-3000 | 4771 | 60-90 | 45 | 500 | 600 | 250 | 40-450 | 0.9-4.5 | 20-1000 | 1.40/5000 |
Sealladh farsaing airFast Turn-Off Thyristors
Fast Turn-Off Thyristors, also known as FTO thyristors, are advanced semiconductor devices designed for rapid switching and high-speed control of electric power systems. These thyristors feature exceptionally fast turn-off capabilities, enabling quick interruption of current flow. Their fast switching speed makes them ideal for use in high-frequency applications, power converters, and motor control systems where rapid response times are crucial. FTO thyristors offer superior control over power flow, improved system efficiency, and enhanced system reliability, making them a valuable component in modern power electronics.
Feartan naFast Turn-Off Thyristors
1. Comas tionndaidh luath: Compared with traditional thyristors, fast turn-off thyristors can switch from conducting state to off state in a shorter time. This enables it to respond more quickly to control signals and reduce energy loss during the shutdown process.
2. Àrd-èifeachdas: Due to its fast turn-off capability, fast turn-off thyristors can reduce unnecessary energy loss during switching, thereby improving the overall efficiency of the system.
3. Wide voltage and current range: Fast turn-off thyristors are typically designed for high voltage and high current applications, enabling them to meet the needs of various industrial and commercial applications.
4. Good thermal stability: The fast shutdown thyristor adopts advanced heat dissipation design, which can maintain stable performance in high temperature environments.
5. Easy to control: The quick turn-off of the thyristor can be controlled through a simple trigger circuit, and the trigger signal can be a current or voltage pulse. This makes it easy to integrate into various control systems.
6. Àrd earbsachd: The fast shutdown thyristor undergoes strict production process and quality control to ensure its high reliability, suitable for various harsh working environments.
7. Application diversity: Fast turn-off thyristors are widely used in fields such as motor control, tionndadh cumhachd, uninterruptible power supply (UPS), electric vehicles, wind power generation, and solar power generation, especially in situations that require fast response and efficient energy conversion.
Iarrtas deFast Turn-Off Thyristors
1. Motair smachd: In the motor drive system, fast and precise control of the motor can be achieved by quickly turning off the thyristor. Especially in applications that require quick starting, stopping, or reversing of motors, fast turning off thyristors can provide excellent performance.
(Motair smachd)
2. Uninterruptible Power Supply (UPS): The UPS system requires the ability to quickly respond to fluctuations in the power grid and provide stable power to critical loads when necessary. Fast Turn-off thyristors are used in UPS to achieve efficient energy conversion and fast response.
(Uninterruptible Power Supply)
3. Tionndadh cumhachd: In power conversion applications, such as inverters and frequency converters, quickly turning off thyristors can achieve efficient DC to AC conversion, and can quickly respond to load changes, maintaining stable output voltage and current.
(Tionndadh cumhachd)
4. Electric vehicles: Fast Turn-off thyristors are often used in the battery management system and motor controller of electric vehicles. They allow for fast charging and discharging, while providing efficient energy conversion and battery protection.
(Electric vehicles)
5. Renewable energy: In solar and wind power generation systems, fast Turn-off thyristors are used to achieve maximum power point tracking (MPPT) and grid connection control. They can quickly respond to changes in light and wind speed, ensuring that the system operates at maximum efficiency.
(Renewable energy)
6. Power grid management: Fast Turn-off thyristors are used in power grid management systems for applications such as reactive power compensation, sìoladh cumhachd gnìomhach, and load balancing. They can quickly respond to changes in the power grid status, maintain the stability and efficiency of the power grid.
(Gineadh cumhachd ùr)
7. Automation gnìomhachais: In the field of industrial automation, fast shutdown thyristors are used in various automation equipment and production lines to achieve efficient motor control, energy conversion, and process control.
(Automation gnìomhachais)
Pròifil companaidh
Luoyang Datang Energy Tech Co.Ltd(reic@pddn.com) 'S e aon de na prìomh iomairtean ann an cumhachd eileagtronaigeach teicneòlas agus cumhachd bathar, a tha gu tur an sàs ann a bhith a’ leasachadh inverters grèine, cruth-atharraichean, riaghladairean bholtaids, cabinets sgaoilidh, luchd-turuis, modalan, diodes, luchd-teasachaidh, agus innealan dealanach eile no semiconductors. Bidh sinn dealasach a thaobh a bhith a’ toirt seachad luchd-cleachdaidh le càileachd àrd, toraidhean èifeachdach agus seirbheis mothachail.
Gabhaidh e ri pàigheadh tro chairt creideas, T/T, Aonadh an Iar, agus Paypal. Cuiridh PDDN am bathar gu luchd-ceannach thall thairis tro FedEx, DHL, ri taobh na mara, no le adhair. Ma tha thu ag iarraidh innealan dealanach àrd-inbhe no toraidhean semiconductor, feuch an cuir thu fios thugainn; bidh sinn an seo gus do chuideachadh.
Pàigheadhmmodhan-obrach
L/C, T/T, Aonadh an Iar, Paypal, Cairt-creideis msaa.
Luingearachd
Ri muir, le adhair, le luaths, mar iarrtas luchd-ceannach.
Cumhachan stòraidh
1) Bùth ann an àrainneachd thioram aig teòthachd an t-seòmair.
2) Seachain taiseachd agus teòthachd àrd.
3) Cleachd sa bhad às deidh dhut am baga pacaidh a-staigh fhosgladh.
Ceistean Cumanta
Q1:
What is FastTurn-off Thyristors?
Tha ath: Fast Turn-off Thyristors is a special type of semiconductor power electronic device. They have the ability to quickly Turn-off, and can switch from the on state to the off state in a short period of time, thereby achieving rapid control of current.
Q2:
What are the main advantages of FastTurn-off Thyristors?
Tha ath: The main advantages of Re: Fast Turn-off Thyristors include fast Turn-off capability, strì an aghaidh bholtaids àrd, high current capacity, and low losses. These characteristics make them widely used in power electronic systems that require fast response and precise control, such as high-frequency inverter power supplies, smachd motair, etc.
Q3:
How does FastTurn-off Thyristors work?
Tha ath: The working principle of Re: Fast Turn-off Thyristors is based on the characteristics of semiconductor materials and electronic control. When appropriate triggering signals are applied, they can quickly transition from a cut-off state to a conduction state. When it is necessary to Turn-off, they can quickly return to the cut-off state by changing the control signal or using external circuits.
Q4:
How to choose and apply FastTurn-off Thyristors correctly?
Tha ath: When selecting and applying Fast Turn-off Thyristors, it is necessary to consider its rated voltage, sruth inbhe, Turn-off time, triggering method, agus crìochan eile. A bharrachd air, it is necessary to select suitable models and specifications based on specific application scenarios and requirements, and follow relevant circuit design, installation, and maintenance specifications.
Q5:
How to ensure the safety and reliability of FastTurn-off Thyristors?
Tha ath: To ensure the safety and reliability of Fast Turn-off Thyristors, it is necessary to first ensure that they operate within the specified rated voltage and current range. A bharrachd air, attention should also be paid to its heat dissipation conditions to avoid overheating. During use, regular inspections and maintenance should be carried out to promptly identify and address potential faults and issues. Aig an aon àm, it is also very important to follow the relevant safety operation and maintenance regulations.