H11L1300W

Data Rate:	1MHz
Supplier Device Package:	6-DIP
Package / Case:	6-DIP (0.400", 10.16mm)
Mounting Type:	Through Hole
Operating Temperature:	--
Voltage - Supply:	--
Current - DC Forward (If) (Max):	1.6mA
Voltage - Forward (Vf) (Typ):	--
Rise / Fall Time (Typ):	--
Propagation Delay tpLH / tpHL (Max):	--
Series:	--
Current - Output / Channel:	50mA
Output Type:	Open Collector
Input Type:	DC
Common Mode Transient Immunity (Min):	--
Voltage - Isolation:	5300Vrms
Inputs - Side 1/Side 2:	1/0
Number of Channels:	1
Part Status:	Obsolete
Packaging:	Tube

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Introduction

Optoisolators - Logic Outputs, such as the H11L1300W, are usually used in electronic circuits and industial logic systems to protect sensitive components from electrical damage due to overloads or electrostatic discharge. The H11L1300W is a logic output optoisolator that can be used to isolate low voltage, low power signals from a high voltage circuit to provide protection of signals or components.

Application Field

The H11L1300W can be used in a wide range of applications including:* Medical devices such as patient monitors and ventilators* Automation and process control systems* LED lighting fixtures* Computer peripherals* Automobile and aircraft components* Industrial safety systemsIn industrial applications, the device is used to safely transmit low-voltage signals to a higher voltage circuit. It isolates the input signal from the output, protecting the delicate components from potentially dangerous and destructive voltages.

Working Principle

The H11L1300W optoisolator works by using an LED to transmit a low-power electrical signal from the input side of the circuit to the output side. The output side is connected to a transistor that converts the light energy from the LED to an electronic signal. This electronic signal can then be used to control the various components of the circuit.The LED is usually integrated into the isolator and is powered by an external voltage source. This voltage is typically equal to or lower than the voltage at the input side of the circuit. The LED produces light when it is powered, and this light is then transmitted to the transistor on the output side. The transistor then converts the light into a low-power electrical signal, allowing components on the output side of the circuit to be electrically controlled from the input side.

Advantages

The H11L1300W has a number of advantages over other optoisolator circuits. Its low voltage operation allows it to be used in applications where other optoisolators are not suitable. Additionally, the LED and transistor are integrated into the device, meaning that it requires less wiring and is easier to set up. The H11L1300W also offers high-reliability operation, making it suitable for use in critical systems.

Conclusion

The H11L1300W optoisolator - Logic Output is a reliable and versatile device that can be used in a wide range of industrial applications. It uses an LED to transmit a low-power electrical signal from the input side of the circuit to the output side, and its low voltage operation makes it suitable for use in sensitive systems. The H11L1300W’s integrated LED and transistor also make it easier to set up and requires less wiring, contributing to its high-reliability operation.

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