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The 74HC244 is a versatile 8-bit buffer and line driver, offering 3-state outputs that can be configured in two ways: either as two 4-bit buffers or as a single 8-bit buffer. This flexibility makes it useful for a variety of tasks. One of the device's strengths is its ability to handle a wide range of input voltages while consuming very little power. It’s designed to work efficiently in different setups where low current consumption is needed.
The 74HC244 has two output enable pins, labeled 1OE and 2OE, which control four outputs each. When either of these pins receives a HIGH signal, the corresponding outputs switch to a high-impedance state, effectively turning off those outputs. This feature is especially useful when you need to manage multiple circuits without interference. Additionally, the device has clamp diodes on the inputs, allowing you to use current-limiting resistors to handle voltages that go beyond the operating limit (VCC) of the chip. This gives the 74HC244 added protection and makes it more robust in various conditions.
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[TABLE OF 74HC244 Pinout]
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The 74HC244 is manufactured using lead-free materials. This makes the component safer for both the environment and the people handling it, ensuring compliance with regulations that limit the use of harmful substances in electronics. If you're looking for components that align with modern environmental standards, this is an advantage.
With an extremely low input current of 1.0 µA, the 74HC244 is designed to minimize power consumption. This feature is especially useful in systems where conserving energy is a priority, such as battery-powered devices or low-power applications. You can depend on this IC to help keep your overall system power requirements low.
The device operates across a broad supply voltage range, from 2V to 6V. This flexibility allows you to use the 74HC244 in a wide variety of circuits and systems without needing specific or complex power supplies. It simplifies integration, whether you are working with low or medium voltage systems.
The 74HC244 consumes a maximum of just 80 µA, which is quite low even under full load. This is beneficial in reducing the overall power demand of your system. In applications where power efficiency matters, such as portable electronics, the 74HC244 helps to extend operational time and reduce heat generation.
The device provides a robust output drive of ±6 mA at 5V. This means that it can drive higher loads effectively, making it suitable for applications that require controlling other devices or components. Whether you are powering other chips, LEDs, or relays, this feature ensures stable performance.
The inputs on the 74HC244 are designed to operate at CMOS logic levels. This makes it compatible with other CMOS-based systems and devices, ensuring seamless communication and reducing the need for additional interfacing components.
With its octal bus interface, the 74HC244 can handle data from multiple sources. It is an ideal choice for bus-oriented systems, providing a streamlined way to move and manage data between different components in your design, making it efficient for use in data communication networks or larger electronic systems.
The device offers strong noise immunity, which means it is resistant to electrical noise that could otherwise disrupt or degrade its performance. If your system is located in a noisy electrical environment, this feature ensures the 74HC244 will continue to function reliably.
The 74HC244 is capable of driving up to 15 LSTTL loads, which makes it a good choice for systems that need to control multiple devices. This feature ensures that the IC can handle the additional demand placed on it without sacrificing performance or reliability.
With an operating temperature range from -40°C to +125°C, the 74HC244 is built to withstand extreme environmental conditions. Whether you're working in hot industrial environments or cold outdoor systems, you can rely on this device to function properly without temperature-related performance issues.
The non-inverting 3-state outputs allow the 74HC244 to control whether the outputs are actively driving a signal or are in a high-impedance state. This feature is important in systems where multiple devices share a common bus or connection, preventing signal conflicts and making it easier to control various outputs.
Technical specifications, features, parameters, and comparable components for Nexperia USA Inc. 74HC244D,653.
[TABLE OF Specifications]
[TABLE OF 74HC244 Alternatives]
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The 74HC244 is commonly used in motor drivers where it helps control the signals sent to the motor. Its ability to handle multiple outputs and manage signals efficiently makes it an important component in motor control circuits. Whether you’re working on small hobbyist projects or industrial machines, this IC provides the reliability you need for smooth motor operation.
In LED displays, the 74HC244 is responsible for managing the data and control signals required for the display to function correctly. It ensures that the display receives the right signals at the right time, contributing to clearer and more stable visual output. This makes it a good option for applications such as digital signage, scoreboards, or any system that uses LED arrays for visual information.
Servers and telecom infrastructure require efficient handling of data transmission and signal management, both of which the 74HC244 can support. Its ability to interface with different logic levels and manage bus systems allows it to play a role in ensuring reliable communication between components in large-scale systems. If you're involved in designing networked systems, this IC helps ensure smooth data flow and reduces the risk of signal degradation.
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Nexperia, based in Nijmegen, Netherlands, is a leading semiconductor manufacturer known for its reliable and efficient products. With manufacturing facilities in both Hamburg, Germany, and Greater Manchester, England, Nexperia ensures that it can meet the global demand for its products. The company originally started as a part of Philips Semiconductors before transitioning to NXP Semiconductors, and eventually becoming its own entity.
Nexperia specializes in a wide range of semiconductor products, including diodes, bipolar transistors, MOSFETs, ESD protection devices, TVS diodes, and various logic devices.
The three components listed on the right share similar specifications with Nexperia USA Inc. 74HC244D,653.
[TABLE OF Parts with Similar Specs]
The 74HC244 operates using CMOS logic levels, while the 74ACT244 uses TTL logic levels. This means the high and low levels for their inputs and outputs are defined differently. Additionally, they have different operating voltage ranges. The 74HC244 works within a range of 2V to 6V, whereas the 74ACT244 operates between 4.5V and 5.5V. The 74ACT244 also has a stronger output drive capability.
The 74HC244 is a three-state buffer and line driver. It doesn’t have a download function or perform complex tasks on its own. Its main job is to act as a buffer driver, which helps boost your signal’s load capacity, making it more reliable for transmitting data across systems.
Yes, the 74HC244 can work perfectly in a 3.3V system. As a CMOS device, its power supply voltage range is between 2V and 6V, making it fully compatible with systems operating at 3.3V.