74HC2GU04GW,125

Basic Information Overview

Category: Integrated Circuit (IC)
Use: Logic Gate Inverter
Characteristics: High-speed operation, low power consumption
Package: SOT753
Essence: Dual unbuffered inverter
Packaging/Quantity: Tape and Reel, 3000 pieces per reel

Specifications

Supply Voltage Range: 2.0V to 6.0V
Input Voltage Range: 0V to VCC
Output Voltage Range: 0V to VCC
Maximum Operating Frequency: 133 MHz
Propagation Delay Time: 9 ns (typical)
Input Capacitance: 3.5 pF (typical)
Output Current: ±4 mA

Detailed Pin Configuration

The 74HC2GU04GW,125 has a total of 6 pins: 1. GND (Ground) 2. A (Input A) 3. Y (Output Y) 4. GND (Ground) 5. B (Input B) 6. Y (Output Y)

Functional Features

Dual unbuffered inverter with Schmitt-trigger inputs
Provides high noise immunity and hysteresis
Converts input logic levels to inverted output logic levels
Suitable for interfacing between different logic families

Advantages

High-speed operation allows for efficient signal processing
Low power consumption reduces energy requirements
Schmitt-trigger inputs provide noise immunity and stable output transitions
Wide supply voltage range enables compatibility with various systems

Disadvantages

Limited output current may restrict use in certain applications
Propagation delay time may affect timing-sensitive circuits
Sensitive to electrostatic discharge (ESD), requiring proper handling precautions

Working Principles

The 74HC2GU04GW,125 is a dual unbuffered inverter that utilizes Schmitt-trigger inputs. When an input signal is applied, the inverter converts the logic level to its inverted form at the output. The Schmitt-trigger inputs provide hysteresis, ensuring stable output transitions even in the presence of noise or signal fluctuations.

Detailed Application Field Plans

The 74HC2GU04GW,125 can be used in various applications, including: 1. Digital signal processing systems 2. Microcontroller and microprocessor interfacing 3. Communication systems 4. Industrial automation 5. Consumer electronics

Detailed and Complete Alternative Models

Some alternative models that offer similar functionality to the 74HC2GU04GW,125 include: - SN74LVC2G04DBVR (Texas Instruments) - MC74VHC1GU04DTT1G (ON Semiconductor) - NC7SZ04P5X (Fairchild Semiconductor)

Note: These alternative models may have different specifications and pin configurations. It is important to refer to their respective datasheets for detailed information.

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Listen Sie 10 häufige Fragen und Antworten im Zusammenhang mit der Anwendung von 74HC2GU04GW,125 in technischen Lösungen auf

Sure! Here are 10 common questions and answers related to the application of 74HC2GU04GW,125:

Q: What is the function of the 74HC2GU04GW,125? A: The 74HC2GU04GW,125 is a dual unbuffered inverter gate that can be used for signal inversion or logic level conversion.
Q: What is the operating voltage range of the 74HC2GU04GW,125? A: The operating voltage range is typically between 2V and 6V.
Q: Can the 74HC2GU04GW,125 be used with both CMOS and TTL logic levels? A: Yes, the 74HC2GU04GW,125 is compatible with both CMOS and TTL logic levels.
Q: What is the maximum output current of the 74HC2GU04GW,125? A: The maximum output current is typically around 4mA.
Q: Can the 74HC2GU04GW,125 be used as a level shifter? A: Yes, the 74HC2GU04GW,125 can be used as a level shifter to convert signals between different voltage levels.
Q: Is the 74HC2GU04GW,125 suitable for high-speed applications? A: Yes, the 74HC2GU04GW,125 is designed for high-speed operation and can handle frequencies up to several hundred megahertz.
Q: Does the 74HC2GU04GW,125 have built-in protection against electrostatic discharge (ESD)? A: Yes, the 74HC2GU04GW,125 has ESD protection on all inputs and outputs.
Q: Can the 74HC2GU04GW,125 be used in automotive applications? A: Yes, the 74HC2GU04GW,125 is qualified for automotive applications and meets the necessary standards.
Q: What is the power supply current consumption of the 74HC2GU04GW,125? A: The power supply current consumption is typically very low, around a few microamps.
Q: Are there any specific layout considerations when using the 74HC2GU04GW,125? A: It is recommended to follow proper PCB layout guidelines to minimize noise and ensure signal integrity, such as keeping traces short and avoiding ground loops.

Please note that these answers are general and may vary depending on the specific datasheet and application requirements.