Allicdata Part #: | 425-1301-5-ND |
Manufacturer Part#: |
S2S3RY |
Price: | $ 0.78 |
Product Category: | Isolators |
Manufacturer: | Sharp Microelectronics |
Short Description: | OPTOISOLATOR 3.75KV TRIAC 4SMD |
More Detail: | Optoisolator Triac Output 3750Vrms 1 Channel 4-SMD |
DataSheet: | S2S3RY Datasheet/PDF |
Quantity: | 483 |
1 +: | $ 0.70560 |
10 +: | $ 0.57141 |
25 +: | $ 0.43949 |
100 +: | $ 0.39551 |
250 +: | $ 0.35154 |
Current - On State (It (RMS)) (Max): | 50mA |
Approvals: | CSA, UR, VDE |
Supplier Device Package: | 4-SMD |
Package / Case: | 4-SMD |
Mounting Type: | Surface Mount |
Operating Temperature: | -30°C ~ 100°C |
Current - DC Forward (If) (Max): | 50mA |
Voltage - Forward (Vf) (Typ): | 1.2V |
Turn On Time: | 100µs (Max) |
Current - Hold (Ih): | 3.5mA |
Series: | -- |
Current - LED Trigger (Ift) (Max): | 7mA |
Static dV/dt (Min): | 100V/µs |
Voltage - Off State: | 600V |
Voltage - Isolation: | 3750Vrms |
Number of Channels: | 1 |
Zero Crossing Circuit: | No |
Output Type: | Triac |
Part Status: | Obsolete |
Packaging: | Tube |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Optoisolators - Triac, SCR Output, often referred to as S2S3RY, are a technolgyologically advanced form of electronic electrical circuit, combining optical isolation with semiconductor output. As with other isolation products, S2S3RYs offer a number of advantages while also providing very rigorous performance characteristics for a wide variety of applications.
The main advantages of an S2S3RY are its electrical insulation, its stability, and its extremely reliable output voltage. Electrical insulation between the input and output signals enables a high degree of noise resistance and safety within a system. The stablity of the device ensures that the output will remain consistent, even under varying conditions. As mentioned previously, an S2S3RY has an extremely reliable output voltage. This is due to its capability to control the output down to the microvolt level. All of these attributes make the S2S3RY stand out as an optimized choice for a range of applications, though it is primarily used in mission-critical applications where reliability is paramount.
The physical design of an S2S3RY has two sections. The optical isolation section, or the top portion, incorporates an LED that is optically isolated from the photosensor in the bottom portion. This LED and photosensor pair makes up the interface for the input signal, and it can detect the smallest of changes in the input signal while providing the highest levels of stability. The bottom part of the device, also known as the output circuit, consists of either a triac or silicon controlled rectifier (SCR) depending on the desired output.
While LEDs and photosensors are employed throughout all optoisolators, the S2S3RY has a unique design thanks to diode clamping circuitry and a voltage breakdown protection which, when configured, produce a remarkably consistent output. This consistency and overall flexibility helps organisms stay in a safe balance and enhances system reliability.
Another feature of the S2S3RY is its very high input impedance, which allows it to be paired with a wide range of load components and offer many uses in power control and signal transmission applications. It is because of this versatility that the S2S3RY is so widely used in the automotive, medical, industrial, and aerospace industries.
The S2S3RY was designed to work with sensitive switches as well as relay systems and is often seen in applications where precision control is necessary. Its many features make it an excellent choice for applications that require accurate response and uninterrupted performance. These include phase angle controllers, solid state relays, stepper motors, and servo controllers, among others.
The working principle of an S2S3RY is, in short, to detect an input signal across its LED/photosensor pair and translate that into an output signal that triggers a switch. The LED provides the energy necessary for the photosensor to generate a voltage, and when the input signal changes, it triggers a new voltage which triggers a switch, thus producing an output.
In conclusion, the use of S2S3RY optoisolators provides some of the most reliable and precise performance for a range of applications. It offers high insulation, stability, and a consistent, reliable output voltage. Its high input impedance allows it to be paired with most load components, making it a popular choice in the automotive, medical, industrial, and aerospace industries. Finally, its working principle is based off of the detection of its LED/photosensor pair, allowing it to detect minimal changes in input signals and provide an accurate response in the form of an output.
The specific data is subject to PDF, and the above content is for reference
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