Allicdata Part #: | H11D3300-ND |
Manufacturer Part#: |
H11D3300 |
Price: | $ 0.00 |
Product Category: | Isolators |
Manufacturer: | ON Semiconductor |
Short Description: | OPTOISO 5.3KV TRANS W/BASE 6DIP |
More Detail: | Optoisolator Transistor with Base Output 5300Vrms ... |
DataSheet: | H11D3300 Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Packaging: | Tube |
Part Status: | Obsolete |
Number of Channels: | 1 |
Voltage - Isolation: | 5300Vrms |
Current Transfer Ratio (Min): | 20% @ 10mA |
Current Transfer Ratio (Max): | -- |
Turn On / Turn Off Time (Typ): | 5µs, 5µs |
Rise / Fall Time (Typ): | -- |
Input Type: | DC |
Output Type: | Transistor with Base |
Voltage - Output (Max): | 200V |
Current - Output / Channel: | 100mA |
Voltage - Forward (Vf) (Typ): | 1.15V |
Current - DC Forward (If) (Max): | 80mA |
Vce Saturation (Max): | 400mV |
Operating Temperature: | -55°C ~ 100°C |
Mounting Type: | Through Hole |
Package / Case: | 6-DIP (0.300", 7.62mm) |
Supplier Device Package: | 6-DIP |
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Optoisolators, or optocouplers, are critical components for electrical systems. They provide a form of electrical isolation between two circuits, allowing signals to pass between them without allowing power or ground to flow across the barrier. The H11D3300 optoisolator is an example of a Transistor, Photovoltaic Output type optoisolator. In this article, we will discuss the different applications and working principle of the H11D3300 optoisolator.
The H11D3300 optoisolator has three terminals; an LED input, a collector output, and an emitter output. The LED input is connected to the power supply, while the collector and emitter outputs are electrically connected but isolated from the power supply. The optical input is connected to an LED, while the input emitters alternate between their emitting and non-emitting states based on the input signal. The H11D3300 optoisolator consists of a transistor and a photovoltaic cell.
The primary use of the H11D3300 optoisolator is to isolate electrical systems from each other, allowing signals to pass between them without allowing power or ground to flow across the barrier. This is particularly useful when dealing with high voltage or high current signals. The isolator also has the advantage of immune to both AC and DC power sources, which helps in eliminating ground loops.
The other major use of the H11D3300 optoisolator is as signal conditioning. By alternating the input signal between its emitting and non-emitting states, the H11D3300 optoisolator can condition and shape the signal for various types of input. This is especially useful for applying amplifiers, buffers, and other signal-processing techniques. The H11D3300 optoisolator can also be used for switching applications such as logic gate and multiplexer.
The working principle of the H11D3300 optoisolator is based on the phenomenon of photoconductivity. When the input LED is illuminated, the photovoltaic cell conducts electrical current, creating an alternating input signal at the collector and emitter outputs. The current at the collector output can be further used for various purposes such as signal processing and switching applications. The working principle of the H11D3300 optoisolator is used in many other optoisolators, including the popular 4N25 and PS2561.
In summary, the H11D3300 optoisolator is a type of Transistor, Photovoltaic Output type optoisolator. It finds widespread use in electrical isolation and signal conditioning. The working principle of the H11D3300 optoisolator is based on the phenomenon of photoconductivity, allowing it to create an alternating input signal from the input LED. As a result, the H11D3300 optoisolator opens up a vast range of applications, from electrical isolation to signal processing.
The specific data is subject to PDF, and the above content is for reference
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H11D1M | ON Semicondu... | -- | 214 | OPTOISO 4.17KV TRANS W/BA... |
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H11D1VM | ON Semicondu... | 0.77 $ | 1000 | OPTOISO 4.17KV TRANS W/BA... |
H11D1SVM | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 4.17KV TRANS W/BA... |
H11D1TM | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 4.17KV TRANS W/BA... |
H11D2M | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 7.5KV TRANS W/BAS... |
H11D2VM | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 7.5KV TRANS W/BAS... |
H11D2SR2M | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 7.5KV TRANS W/BAS... |
H11D2SR2VM | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 7.5KV TRANS W/BAS... |
H11D3SM | ON Semicondu... | 0.77 $ | 1097 | OPTOISO 4.17KV TRANS W/BA... |
H11D2 | Vishay Semic... | -- | 1627 | OPTOISO 5.3KV TRANS W/BAS... |
H11D3M | ON Semicondu... | -- | 2704 | OPTOISO 4.17KV TRANS W/BA... |
H11D1-X007T | Vishay Semic... | 0.48 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D1-X017T | Vishay Semic... | 0.5 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D1300 | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D2300 | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D1300W | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D13S | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D13SD | ON Semicondu... | -- | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D1S | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D1SD | ON Semicondu... | -- | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D1W | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D2300W | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D23S | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D23SD | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D2S | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D2SD | ON Semicondu... | -- | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D2W | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D3300 | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
H11D3300W | ON Semicondu... | 0.0 $ | 1000 | OPTOISO 5.3KV TRANS W/BAS... |
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