Allicdata Part #: | MC10H103FNG-ND |
Manufacturer Part#: |
MC10H103FNG |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | ON Semiconductor |
Short Description: | IC GATE OR 4CH 2-INP 20PLCC |
More Detail: | OR Gate IC 4 Channel 1 of 4 OR/NOR Output 20-PLCC ... |
DataSheet: | MC10H103FNG Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Current - Output High, Low: | 50mA, 50mA |
Base Part Number: | 10H103 |
Package / Case: | 20-LCC (J-Lead) |
Supplier Device Package: | 20-PLCC (9x9) |
Mounting Type: | Surface Mount |
Operating Temperature: | 0°C ~ 75°C |
Max Propagation Delay @ V, Max CL: | 1.3ns @ -5.2V, - |
Logic Level - High: | -1.13V |
Logic Level - Low: | -1.48V |
Series: | 10H |
Voltage - Supply: | -4.94 V ~ -5.46 V |
Features: | 1 of 4 OR/NOR Output |
Number of Inputs: | 2 |
Number of Circuits: | 4 |
Logic Type: | OR Gate |
Part Status: | Obsolete |
Packaging: | Tube |
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MC10H103FNG is a dual 4-input NAND logic gate, which is designed using the InP HBT process technology. It is a popular motor control and automation device used in a variety of applications. The MC10H103FNG has two independent complementary open-drain outputs, and each output is equal when the two output signals are both high or low. As a result, the device is able to provide higher performance than conventional logic gates with circuit complexity on the order of magnitude of an MCU.The MC10H103FNG is used in applications where input signals need to be translated into logic states. It is commonly used in motor controllers and other automation systems to coordinate the movement of motors, making it an ideal choice for applications with high-density, multiple-input requirements.The junction field-effect transistor (JFET) is also known as a field-effect transistor switch (FET switch), and it is used as the core technology found in the MC10H103FNG. It works on the principle of a voltage-controlled current source; the current flow between the drain and source is dependent on a gate-to-source voltage, which is controlled externally. When the gate voltage is increased, the current between the source and drain increases as well. By controlling the gate voltage, the amount of current flowing between the source and drain can be regulated and used to control the output states of the logic circuit. When the required gate voltage is provided, the currents flowing between the source and drain will determine the logic state of the output.The MC10H103FNG is used in many types of applications such as motor controllers, automated machinery, load cell controllers, navigation systems, security systems, and much more. As a result, it is able to provide several design advantages such as improved throughput, reduced circuit complexity, and improved power efficiency. The added benefits of using this device make it the preferred choice for multiple-input logic designs. The device is composed of two 8-bit NAND gates and two bi-directional shifters. The NAND gate performs a logic operation between the two inputs and produces an output based on the logic operation performed. The bi-directional shifter is a device that is used to shift the input information from one register to another in either a parallel or serial direction. The circuit can be arranged in such a way that the two 8-bit NAND gates are connected in series or in parallel with the two bi-directional shifters. The NAND gates control the operation of the shifter and the bi-directional shifters are used to shift the data between the registers. The MC10H103FNG uses an open-drain output scheme in order to reduce the amount of current required for the logic operation. This output scheme allows for multiple signals to be transmitted and received in the same vein, which reduces the overhead associated with the data transferring circuits. By utilizing this output scheme, the MC10H103FNG is able to generate an abundant amount of output signals in a smaller footprint, reducing the total number of transistors needed, as well as the power consumption.Overall, the MC10H103FNG is a powerful and versatile logic device capable of carrying out complex control tasks with minimal effort and cost. Its reduced complexity and improved power efficiency make it a suitable choice for multiple-input logic circuits. It is a popular choice in robotic and automated applications, and its use will only continue to grow in the future.
The specific data is subject to PDF, and the above content is for reference
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