Thyristors Online | Semiconductors mai inganci mai ƙarfi
Sarrafa Mataki na Thyristor
SCR Thyristor Module R500CH28 2800V Phase Control Thyristor
5STP 28L4200 ABB Phase Control Thyristor PCT Silicon Wafer Material Hitachi Energy
N0910LC260-U9900 Phase Control Thyristors Westcode Power Controller Scr 100% New Original N0910LC260-U9900 In Stock
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5STP06D2800 Hitachi Energy ABB Phase Control Thyristor Semiconductors Product
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Semiconductor Makamashi Na Asali 5SGR20H2501 SCR Thyristor TRIAC Matsayin Sarrafa Mataki na 6500V Aikace-aikacen Inverter Rectifiers
High-quality capsule thyristor KP300A1600V concave phase controlled thyristor
Kayan Aikin Lantarki Mai Kula da Mataki na Thyristor Scr Babban Mitar Thyristor R3370ZC10E Na Westco
N900CH26 Phase Control Thyristors Westcode In Stock Power Controller Scr
| Nau'in | VDRM/VRRM [V] | IT[NA] [A] | ITSM [da] | dv/dt [V/mu] | da/dt [A/mu] | IDRM/IRRM [mA] | IGT [mA] | VGT [V] | IH [mA] | VTM/ITM [V/A] |
|---|---|---|---|---|---|---|---|---|---|---|
| PDDN-Y24KPE | 1400-1600 | 340 | 4.1 | 300 | 100 | 16 | 30-200 | 0.8-2.0 | 20-150 | 2.06/750 |
| PDDN-Y30KPE | 1200-1600 | 727 | 8.7 | 300 | 100 | 30 | 35-250 | 0.8-2.5 | 20-200 | 1.78/1500 |
| PDDN-Y38KPE | 1200-1600 | 1224 | 14.7 | 300 | 100 | 40 | 35-300 | 0.8-2.5 | 20-250 | 1.4/1700 |
| PDDN-Y50KPE | 1200-1800 | 1625 | 19.5 | 300 | 150 | 80 | 40-300 | 0.8-3.0 | 20-300 | 1.5/2500 |
| PDDN-Y65KPE | 1200-1800 | 2418 | 29 | 300 | 200 | 120 | 40-300 | 0.8-3.0 | 20-300 | 1.35/3200 |
| PDDN-Y76KPE | 1200-1800 | 3075 | 37 | 300 | 250 | 200 | 40-300 | 0.8-3.0 | 20-300 | 1.43/3000 |
| PDDN-Y24KPC | 800-1200 | 416 | 5 | 300 | 100 | 16 | 30-200 | 0.8-2.0 | 20-150 | 1.65/900 |
| PDDN-Y30KPC | 800-1200 | 668 | 8 | 300 | 100 | 30 | 35-250 | 0.8-2.5 | 20-200 | 1.72/1200 |
| PDDN-Y38KPC | 800-1200 | 1129 | 13.5 | 300 | 100 | 40 | 35-250 | 0.8-2.5 | 20-250 | 1.43/1800 |
| PDDN-Y50KPC | 800-1200 | 1853 | 22.2 | 300 | 200 | 80 | 40-300 | 0.8-3.0 | 20-300 | 1.34/3000 |
| PDDN-Y65KPC | 800-1200 | 2754 | 33 | 300 | 250 | 120 | 40-300 | 0.8-3.0 | 20-300 | 1.3/5000 |
| PDDN-Y76KPC | 400-1000 | 4148 | 49.8 | 300 | 250 | 200 | 40-300 | 0.8-3.0 | 20-300 | 1.17/5000 |
| PDDN-Y50KPJ | 3100-4200 | 1011 | 12 | 800 | 150 | 80 | 40-300 | 0.8-3.0 | 20-300 | 2.21/1500 |
| PDDN-Y65KPJ | 3100-4200 | 1611 | 19.3 | 800 | 150 | 120 | 40-300 | 0.8-3.0 | 20-300 | 2.22/3000 |
| PDDN-Y76KPJ | 3100-4200 | 2205 | 26.5 | 800 | 250 | 200 | 40-300 | 0.8-3.0 | 20-300 | 2.11/3000 |
| PDDN-Y89KPJ | 3100-4200 | 3211 | 38.5 | 800 | 250 | 250 | 40-300 | 0.8-3.0 | 20-300 | 1.90/5000 |
| PDDN-Y50KPH | 1900-3000 | 1293 | 15.5 | 500 | 150 | 80 | 40-300 | 0.8-3.0 | 20-300 | 1.97/2400 |
| PDDN-Y65KPH | 1900-3000 | 2092 | 25 | 500 | 200 | 120 | 40-300 | 0.8-3.0 | 20-300 | 1.60/3200 |
| PDDN-Y76KPH | 1900-3000 | 3013 | 36.2 | 500 | 250 | 200 | 40-300 | 0.8-3.0 | 20-300 | 1.75/5000 |
| PDDN-Y89KPH | 1900-3000 | 3835 | 46 | 500 | 250 | 250 | 40-300 | 0.8-3.0 | 20-300 | 1.54/5000 |
| PDDN-Y100KPH | 1900-3000 | 4755 | 57 | 500 | 250 | 200 | 40-450 | 0.9-3.5 | 20-1000 | 1.36/5000 |
| PDDN-Y50KPM | 4300-5500 | 975 | 11.7 | 800 | 150 | 120 | 40-300 | 0.8-3.0 | 20-250 | 2.44/1500 |
| PDDN-Y65KPM | 4300-5500 | 1471 | 17.7 | 800 | 200 | 120 | 40-300 | 0.8-3.0 | 20-250 | 3.04/3000 |
| PDDN-Y76KPM | 4300-5500 | 2049 | 24.6 | 800 | 250 | 120 | 40-300 | 0.8-3.0 | 20-250 | 2.56/3000 |
| PDDN-Y50KPR | 5600-6500 | 872 | 10.5 | 800 | 100 | 200 | 40-300 | 0.8-3.0 | 20-250 | 2.3/1000 |
| PDDN-Y65KPR | 5600-6500 | 1648 | 19.8 | 800 | 150 | 200 | 40-300 | 0.8-3.0 | 20-250 | 1.89/1500 |
| PDDN-Y76KPR | 5600-6500 | 2434 | 29.2 | 800 | 200 | 250 | 40-300 | 0.8-3.0 | 20-250 | 1.65/1600 |
| PDDN-Y24KPA | 200-600 | 477 | 6 | 300 | 100 | 16 | 35-200 | 0.8-2.0 | 20-150 | 1.44/1000 |
| PDDN-Y30KPA | 200-600 | 945 | 11.3 | 300 | 100 | 20 | 35-250 | 0.8-2.5 | 20-200 | 1.25/1500 |
| PDDN-Y38KPH | 1900-3000 | 897 | 10.8 | 500 | 100 | 40 | 35-300 | 0.8-2.5 | 20-250 | 2.18/1800 |
Overview of Phase Control Thyristors
A phase control transistor is a particular type of semiconductor device that can control the conduction and turn off of current by controlling the phase. This type of device is widely used in power systems and automation control fields, such as motor control, switching power supplies, reactive power compensation, da dai sauransu. Phase control transistors can operate in high-speed switching states, achieving high-precision power control, and have characteristics such as high reliability, low power consumption, and long lifespan. Therefore, it has been widely applied in many vital applications, such as reactive power compensation and active filtering in power systems. Bugu da kari, with the continuous development of power electronics technology, the application fields of phase control transistors are also constantly expanding, providing strong support for the intelligence and efficiency of modern industry and power systems.
The Characteristics ofPhase Control Thyristors
1. Fast switching speed: The phase-controlled thyristor adopts advanced triggering technology, which can achieve fast switching at high speeds.
2. Babban abin dogaro: The structural design of phase-controlled thyristors gives them higher reliability and the ability to operate stably under harsh environmental conditions.
3. Energy conservation and environmental protection: Phase-controlled thyristors have the characteristics of low loss and high efficiency, which can reduce energy consumption and meet the requirements of energy conservation and environmental protection.
4. Wide application range: Phase-controlled thyristors can be applied in various situations that require high voltage and high current control and switching, such as motor control, power conversion, new energy generation, and other fields.
5. Easy to integrate: Phase-controlled thyristors can be combined with other electronic components to achieve system optimization and control..
Application ofPhase Control Thyristors
1. Sarrafa motoci: Phase-controlled thyristors are widely used in the field of motor control, such as AC motors, DC motors, da dai sauransu. By controlling the switching state of the phase-controlled thyristor, the speed and direction of the engine can be controlled.
(Sarrafa motoci)
2. Power conversion: Phase-controlled thyristors have efficient power conversion capabilities and can be used as core components of uninterruptible power supplies, inverters, frequency converters, and other equipment. Through the switching operation of phase-controlled thyristors, the conversion between DC and AC can be achieved.
(Power conversion)
3. New energy generation: Phase-controlled thyristors are also widely used in the field of new energy generation, such as solar inverters, wind power generation control systems, da dai sauransu. By controlling the switching state of the phase-controlled thyristor, functions such as maximum power tracking and grid connection control can be achieved.
(New energy generation)
4. Power grid regulation: Phase-controlled thyristors can be used for power grid regulation and control, such as reactive power compensation, active power filtering, da dai sauransu. By controlling the conduction and turn-off of phase-controlled thyristors, it is possible to regulate the voltage and current of the power grid.
(Power grid regulation)
5. Industrial automation: Phase-controlled thyristors are also widely used in the field of industrial automation, such as assembly line motor control, elevator control systems, da dai sauransu. By controlling the switching status of phase-controlled thyristors, precise control and efficient operation of automated equipment can be achieved.
(Industrial automation)
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FAQ
Q1:
What is Phase Control Thyristors?
Re: Phase Control Thyristors, also known as thyristors, are semiconductor power electronic devices that can adjust the voltage and current of input AC power by controlling their conduction angle.
Q2:
What are the characteristics of Phase Control Thyristors?
Re: Phase Control Thyristors have the characteristics of high voltage resistance, high current, low conduction impedance, and fast response and are widely used in various power control and regulation systems, such as dimmers, speed regulators, samar da wutar lantarki mara katsewa, da dai sauransu.
Q3:
What is the working principle of Phase Control Thyristors?
Re: Phase Control Thyristors is to control its conduction angle by controlling the voltage of its gate, thereby adjusting the voltage and current of the input AC power. When the gate voltage is zero, the thyristor is in the cut-off state. When the gate voltage reaches a specific value, the thyristor begins to conduct, and the magnitude of its conduction angle depends on the amplitude and width of the gate voltage.
Q4:
How do you choose the appropriate Phase Control Thyristors?
Re: Choosing the appropriate Phase Control Thyristors requires consideration of its rated voltage, rated current, reverse peak voltage, forward voltage drop, trigger sensitivity, and other parameters. At the same time, it is necessary to choose suitable models and specifications according to the actual application needs.
Q5:
How do you use and maintain Phase Control Thyristors correctly?
Re: When using Phase Control Thyristors, ensure that their operating voltage and current do not exceed their rated values and maintain appropriate heat dissipation conditions. At the same time, its appearance and performance should be regularly inspected, and any abnormalities and problems should be detected and dealt with in a timely manner to ensure its regular operation and extend its service life.