Allicdata Part #: | H11G13S-ND |
Manufacturer Part#: |
H11G13S |
Price: | $ 0.00 |
Product Category: | Isolators |
Manufacturer: | ON Semiconductor |
Short Description: | OPTOISO 5.3KV DARL W/BASE 6SMD |
More Detail: | Optoisolator Darlington with Base Output 5300Vrms ... |
DataSheet: | H11G13S Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Specifications
Output Type: | Darlington with Base |
Supplier Device Package: | 6-SMD |
Package / Case: | 6-SMD, Gull Wing |
Mounting Type: | Surface Mount |
Operating Temperature: | -55°C ~ 100°C |
Vce Saturation (Max): | 1V |
Current - DC Forward (If) (Max): | 60mA |
Voltage - Forward (Vf) (Typ): | 1.3V |
Current - Output / Channel: | -- |
Voltage - Output (Max): | 100V |
Series: | -- |
Input Type: | DC |
Rise / Fall Time (Typ): | -- |
Turn On / Turn Off Time (Typ): | 5µs, 100µs |
Current Transfer Ratio (Max): | -- |
Current Transfer Ratio (Min): | 1000% @ 10mA |
Voltage - Isolation: | 5300Vrms |
Number of Channels: | 1 |
Part Status: | Obsolete |
Packaging: | Tube |
Description
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Optoisolators are electronic devices that are used to provide a measure of electrical insulation between two otherwise connected circuits. The most commonly used type of optoisolator is called a transistor photovoltaic output (H11G13S). This type of optoisolator is composed of two parts: an optically activated transistor and a photodiode. When a voltage is applied to the optically activated transistor, the resulting current flow through the photodiode generates a voltage that is sufficient to activate or hold a logic circuit, microcontroller input, or other output device.
The basic principle of operation of an H11G13S optoisolator lies in the fact that it is an isolator; that is, it completely separates the input and output circuits from one another. This is accomplished by the optically activated transistor. This transistor is typically a silicon NPN transistor that is activated by the light generated by the photodiode. When the light is detected by the transistor, it causes a current flow across the photodiode, thus activating the transistor. This action causes a voltage increase at the output, allowing the logic or control circuit to be activated.
Optoisolators are often used to interface electronic control and communication systems with other electronic control systems and devices. For example, an H11G13S optoisolator may be used to control the position of a motor or to trigger a light sensing circuit. In addition, these devices are often used in industrial applications, such as for controlling large motors or process control inputs. Additionally, optoisolators are useful for providing electrical isolation in safety systems such as door controller systems, fire alarm systems, and security systems.
The main advantage of using optoisolators is their ability to provide complete electrically isolated output. By doing so, the optoisolator is able to maintain a safe level of current flow between the input and output circuits. In addition, the insulation prevents any sparks or heat buildup when large interest currents are flowing between the two circuits. This greatly reduces the possibility of electrical shock and damaging the circuits deployed in the system. For these reasons, optoisolators are often the preferred component in many safety and industrial applications.
Optoisolators come in many different forms and sizes. The most popular types in use today are the transistor photovoltaic output (H11G13S), the optocouplers (OC line), and the opto-MOS (OM line) devices. Each type of optoisolator has its own set of features and advantages. The H11G13S optoisolator, for example, is well suited for applications that require high-speed switching and reliable operation in extreme temperatures or environments. On the other hand, optocouplers are typically used in industrial control systems and are capable of driving large loads.
The main disadvantage of optoisolators is their relatively high cost. This is primarily due to the fabrication process and materials required to produce the devices. Optoisolators can be easily damaged if subjected to extreme temperatures or high voltage environments. This can increase the total cost of the system significantly. Therefore, it is important to choose an optoisolator that meets the specific requirements of the system in order to avoid costly repair or replace.
The basic principle of operation of an H11G13S optoisolator lies in the fact that it is an isolator; that is, it completely separates the input and output circuits from one another. This is accomplished by the optically activated transistor. This transistor is typically a silicon NPN transistor that is activated by the light generated by the photodiode. When the light is detected by the transistor, it causes a current flow across the photodiode, thus activating the transistor. This action causes a voltage increase at the output, allowing the logic or control circuit to be activated.
Optoisolators are often used to interface electronic control and communication systems with other electronic control systems and devices. For example, an H11G13S optoisolator may be used to control the position of a motor or to trigger a light sensing circuit. In addition, these devices are often used in industrial applications, such as for controlling large motors or process control inputs. Additionally, optoisolators are useful for providing electrical isolation in safety systems such as door controller systems, fire alarm systems, and security systems.
The main advantage of using optoisolators is their ability to provide complete electrically isolated output. By doing so, the optoisolator is able to maintain a safe level of current flow between the input and output circuits. In addition, the insulation prevents any sparks or heat buildup when large interest currents are flowing between the two circuits. This greatly reduces the possibility of electrical shock and damaging the circuits deployed in the system. For these reasons, optoisolators are often the preferred component in many safety and industrial applications.
Optoisolators come in many different forms and sizes. The most popular types in use today are the transistor photovoltaic output (H11G13S), the optocouplers (OC line), and the opto-MOS (OM line) devices. Each type of optoisolator has its own set of features and advantages. The H11G13S optoisolator, for example, is well suited for applications that require high-speed switching and reliable operation in extreme temperatures or environments. On the other hand, optocouplers are typically used in industrial control systems and are capable of driving large loads.
The main disadvantage of optoisolators is their relatively high cost. This is primarily due to the fabrication process and materials required to produce the devices. Optoisolators can be easily damaged if subjected to extreme temperatures or high voltage environments. This can increase the total cost of the system significantly. Therefore, it is important to choose an optoisolator that meets the specific requirements of the system in order to avoid costly repair or replace.
The specific data is subject to PDF, and the above content is for reference
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