Allicdata Part #: | H11F3SVM-ND |
Manufacturer Part#: |
H11F3SVM |
Price: | $ 2.58 |
Product Category: | Isolators |
Manufacturer: | ON Semiconductor |
Short Description: | OPTOISOLTR 7.5KV PHOTO FET 6-SMD |
More Detail: | Optoisolator MOSFET Output 7500Vpk 1 Channel 6-SMD |
DataSheet: | H11F3SVM Datasheet/PDF |
Quantity: | 971 |
1 +: | $ 2.34990 |
10 +: | $ 2.08404 |
100 +: | $ 1.34442 |
500 +: | $ 1.07554 |
1000 +: | $ 0.92429 |
Output Type: | MOSFET |
Supplier Device Package: | 6-SMD |
Package / Case: | 6-SMD, Gull Wing |
Mounting Type: | Surface Mount |
Operating Temperature: | -40°C ~ 100°C |
Vce Saturation (Max): | -- |
Current - DC Forward (If) (Max): | 60mA |
Voltage - Forward (Vf) (Typ): | 1.3V |
Current - Output / Channel: | -- |
Voltage - Output (Max): | 15V |
Series: | -- |
Input Type: | DC |
Rise / Fall Time (Typ): | -- |
Turn On / Turn Off Time (Typ): | 45µs, 45µs (Max) |
Current Transfer Ratio (Max): | -- |
Current Transfer Ratio (Min): | -- |
Voltage - Isolation: | 7500Vpk |
Number of Channels: | 1 |
Part Status: | Active |
Packaging: | Tube |
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Optoisolators are a type of electronic technology used to provide electrical isolation from one circuit to another. An optoisolator consists of a light-emitting device placed in a low-impedance optical path and directed towards a photodetector. The light hits the photodetector, activating it and providing a path for current, thus providing a physical break between two different circuits.Transistor optoisolators are opto devices which use a transistor to activate the photodetector and provide a current path between two different circuits. The transistor helps to ensure that the current path is maintained even if the device is subjected to high voltage transients or other electrical disturbances. Transistor optoisolators can also be used to isolate various types of input signals from the output circuit, such as temperature and pressure signals.Photovoltaic optoisolators are opto devices which use a photovoltaic cell to activate the photodetector and complete the current path between two different circuits. Photovoltaic cells work by converting light energy into electrical energy, and when used as part of an optoisolator, this conversion of energy provides the breakdown voltage necessary for electrical isolation. In some cases, photovoltaic optoisolators can also be used to provide a voltage gain to the signal passing through the optoisolator.The working principle of an optoisolator is relatively simple. When the light-emitting device is illuminated, the optoisolator breaks down the electrical breakdown voltage, allowing current to pass through the isolation barrier and into the other circuit. This flow of current activates the photodetector, providing a path for current which can be used to control the output of the other circuit. The optoisolator then remains in this state until the light is no longer present, at which point the current path is cut off, isolating the two circuits from one another once again.The primary application for optoisolators is in providing galvanic isolation between two circuits, such as between a computer and its peripherals. Optoisolators offer a wide range of advantages over other galvanic isolation technologies, including high reliability, low power consumption, and the ability to provide a wide range of electrical isolation.Optoisolators can also be used in a variety of other applications, such as isolating analog and digital signals from one another, providing noise suppression, and even providing high-frequency voltage damping. In recent years, optoisolators have become increasingly popular in the field of H11F3SVM, which is a type of vehicular motion control technology. In an H11F3SVM system, an optoisolator is used to isolate the control module from the vehicle\'s CAN bus network, providing high levels of electrical isolation and thereby reducing noise and interference on the CAN bus.In conclusion, optoisolators play an important role in a wide range of applications across multiple industries. Their ability to provide electrical isolation while allowing current to flow through the circuit make them highly effective for many applications. Further, optoisolators provide reliability, low power consumption, and the ability to dampen high-frequency signals, making them a viable solution for a multitude of applications. The use of optoisolators in vehicular motion control technologies such as H11F3SVM is also becoming increasingly common, as the need for highly reliable and efficient motion control systems continues to grow.
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Part Number | Manufacturer | Price | Quantity | Description |
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H11F3SM | ON Semicondu... | 2.56 $ | 995 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F3SR2VM | ON Semicondu... | 1.04 $ | 1000 | OPTOISOLTR 7.5KV PHOTO FE... |
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H11F3SVM | ON Semicondu... | 2.58 $ | 971 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F2M | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F1TVM | ON Semicondu... | 2.56 $ | 1000 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F3SR2M | ON Semicondu... | 1.03 $ | 1000 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F1 | ON Semicondu... | -- | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F2 | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F3 | ON Semicondu... | -- | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F1300 | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F1300W | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F13S | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F13SD | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F1S | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F1SD | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F1W | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F2300 | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F2300W | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F23S | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F23SD | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F2S | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F2SD | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F2W | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F3300 | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F3300W | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F33S | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F33SD | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F3S | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F3SD | ON Semicondu... | -- | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F3W | ON Semicondu... | 0.0 $ | 1000 | OPTOISOLTR 5.3KV PHOTO FE... |
H11F1M | ON Semicondu... | -- | 5704 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F1SR2M | ON Semicondu... | -- | 1000 | OPTOISOLTR 7.5KV PHOTO FE... |
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H11F1SM | ON Semicondu... | 2.54 $ | 1617 | OPTOISOLTR 7.5KV PHOTO FE... |
H11F3M | ON Semicondu... | -- | 1364 | OPTOISOLTR 7.5KV PHOTO FE... |
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