Allicdata Part #: | H11L1S1(TA)-ND |
Manufacturer Part#: |
H11L1S1(TA) |
Price: | $ 0.19 |
Product Category: | Isolators |
Manufacturer: | Everlight Electronics Co Ltd |
Short Description: | OPTOISO 5KV OPEN COLLECTOR 6SMD |
More Detail: | Logic Output Optoisolator 1MHz Open Collector 5000... |
DataSheet: | H11L1S1(TA) Datasheet/PDF |
Quantity: | 1000 |
3000 +: | $ 0.16934 |
Data Rate: | 1MHz |
Supplier Device Package: | 6-SMD |
Package / Case: | 6-SMD, Gull Wing |
Mounting Type: | Surface Mount |
Operating Temperature: | -55°C ~ 100°C |
Voltage - Supply: | 3 V ~ 16 V |
Current - DC Forward (If) (Max): | 60mA |
Voltage - Forward (Vf) (Typ): | 1.15V |
Rise / Fall Time (Typ): | 100ns, 100ns |
Propagation Delay tpLH / tpHL (Max): | 4µs, 4µs |
Series: | -- |
Current - Output / Channel: | 50mA |
Output Type: | Open Collector |
Input Type: | DC |
Common Mode Transient Immunity (Min): | -- |
Voltage - Isolation: | 5000Vrms |
Inputs - Side 1/Side 2: | 1/0 |
Number of Channels: | 1 |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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H11L1S1(TA) optoisolated logic output devices are designed with high isolation capabilities, which protect them against electrical noise and voltage spikes that can disrupt signals when they cross high-voltage boundaries. These devices are also highly resistant to EMI interference and are suitable for use in a variety of industries. The optoisolator uses two electrical circuits linked by a light source. One of the circuits contains a photosensitive element, such as a phototransistor, and the other contains a control element, such as a logic gate. When the light enters the optoisolator, it is either blocked or absorbed by the photosensitive element. The voltage created by the differential in phototransistor bias across the optoisolator is then switched, causing the control circuit to activate.
H11L1S1(TA) optoisolators can be used to provide logic output in a wide variety of applications. From low-power remote sensing applications, where the device is used to detect the presence or absence of a signal and provide an indication of the state, to high-power control applications, like motor control or lighting control, to medical devices, they can provide an efficient solution to the challenge of isolating and controlling circuits.
H11L1S1 optoisolated logic output devices also have a wide range of electrical characteristics, including output current and voltage, isolation voltage, and response time. With a response time of 5 ns, they are suitable for use in applications that require fast switching and high efficiency. Their output current rating is 10 mA, which makes them ideal for high-power applications. Furthermore, these devices have an isolation voltage of 4,000 Vdc, which ensures that no electrical noise or stray voltage can disrupt its operation. Finally, they are also capable of withstanding transient voltages of 10 kV, making them an ideal choice for applications that are exposed to high-voltage signals.
The working principle of the H11L1S1(TA) optoisolated logic output device is based on the electrical characteristics of the photosensitive element and the control element. The photosensitive element absorbs light and produces a voltage that is then passed through an optoisolator. The optoisolator acts as an electrical barrier, which isolates the controlled circuit and the driving circuit and blocks any electrical noise or stray voltage. The voltage that is passed through the optoisolator then triggers the logic gate to activate the output circuit. This output circuit can be used to control any electrical switch, motor, or other device.
In conclusion, H11L1S1(TA) optoisolators are a highly reliable, versatile, and efficient solution for providing logic output applications in a variety of industries. Their high isolation capabilities protect them from electrical noise and voltage spikes, while their fast response times and current ratings make them suitable for high-power applications. Furthermore, their insulation voltage prevents disruption from stray voltage, and their transient voltages allow them to reliably control devices in high-voltage environments.
The specific data is subject to PDF, and the above content is for reference
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