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Thyristors
A thyristor is a solid-state semiconductor device with four layers of alternating N and P-type material. They act exclusively as bistable switches, conducting when their gate receives a current trigger, and continue to conduct while they are forward biased (that is, while the voltage across the device is not reversed). A three-lead thyristor is designed to control the larger current of its two leads by combining that current with the smaller current or voltage of its other lead - known as its control lead. In contrast, a two-lead thyristor is designed to 'switch on' if the potential difference between its leads is sufficiently large - a value representing its breakdown voltage. Some sources define silicon-controlled rectifiers and thyristors as synonymous. Other sources define thyristors as a larger set of devices with at least four layers of alternating N and P-type material. The first thyristor devices were released commercially in 1956. Because thyristors can control a relatively large amount of power and voltage with a small device, they find wide application in control of electric power, ranging from light dimmers and electric motor speed control to high-voltage direct current power transmission. Thyristors may be used in power-switching circuits, relay-replacement circuits, inverter circuits, oscillator circuits, level-detector circuits, chopper circuits, light-dimming circuits, low-cost timer circuits, logic circuits, speed-control circuits, phase-control circuits, etc. Originally thyristors relied only on current reversal to turn them off, making them difficult to apply for direct current; newer device types can be turned on and off through the control gate signal. A thyristor is not a proportional device like a transistor. In other words, a thyristor can only be fully on or off, while a transistor can lie in between on and off states. This makes a thyristor unsuitable as an analog amplifier, but useful as a switch.
Transistor > Thyristors > FET Transistors > MOSFET
型号 | DS | 厂牌 | 批号 | 数量 | 地区 | 采购 |
---|---|---|---|---|---|---|
SI4850EY-T1-E3 | Vishay | 200711+ | 740 | 中国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 91 | 美国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2010+ | 8649 | 中国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 33 | 美国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 201538+ | 688 | 中国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 3 | 美国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2022+ | 2500 | 美国 | 要求报价 | |
SI4850EYT1E3 | Vishay | - | 1276 | 德国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2022+ | 2750 | 日本 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 2599 | 中国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2007+ | 1791 | 以色列 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 2505 | 台湾 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2022+ | 2500 | 韩国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2018+ | 2203 | 瑞典 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 67 | 美国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2019+ | 600000 | 中国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2012+ | 5189 | 英国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 201413 | 641 | 丹麦 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 201816+ | 748 | 香港 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 2000 | 英国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2018+ | 748 | 新加坡 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2007+ | 35 | 中国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 49 | 美国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | - | 3000 | 美国 | 要求报价 | |
SI4850EY-T1-E3 | Vishay | 2024+ | 4500 | 日本 | 要求报价 |