| No. | parte # | Fabricante | Descripción | Hoja de Datos |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
Low capacitance small signal Schottky diodes • Low leakage current losses • Negligible switching losses • Low forward and reverse recovery times • Extremely fast switching • Surface mount device • Low capacitance diode • ECOPACK2 compliant Applications • General Rectification • Reverse polarity |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
4A Triacs Three quadrants Triac 600 to 800 V VDRM/VRRM Applications General purpose AC inductive loads Motor control circuits Small home appliances Description Based on ST’s Snubberless / logic level technology providing high commutation performances |
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STMicroelectronics |
SMALL SIGNAL SCHOTTKY DIODE 0.1 20 µA Typ. Max. Unit V V DYNAMIC CHARACTERISTICS Symbol C Tj = 25°C Test Conditions VR = 1V f = 1MHz Min. Typ. 2 Max. Unit pF * Pulse test: tp ≤ 300µs δ < 2%. August 1999 Ed: 1A 1/4 TMMBAT 41 Figure 1. Forward current versus forward voltage |
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Desde 2024. D4U Semiconductor.
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