74LVC1G80GW-Q100,1
Basic Information Overview
- Category: Integrated Circuit (IC)
- Use: Logic Gate
- Characteristics: Low-voltage CMOS single positive-edge-triggered D-type flip-flop
- Package: SOT753 (SC-70)
- Essence: Flip-flop circuit for storing and transferring digital data
- Packaging/Quantity: Tape and Reel, 3000 pieces per reel
Specifications
- Supply Voltage Range: 1.65V to 5.5V
- High-Level Input Voltage: 0.7 x VCC
- Low-Level Input Voltage: 0.3 x VCC
- High-Level Output Voltage: 0.9 x VCC
- Low-Level Output Voltage: 0.1 x VCC
- Maximum Operating Frequency: 400 MHz
- Propagation Delay: 4.2 ns (typical)
Detailed Pin Configuration
The 74LVC1G80GW-Q100,1 has the following pin configuration:
____
CLR | |
D | |
CLK | |
Q | |
GND | |
VCC |____|
Functional Features
- Positive-edge-triggered D-type flip-flop with clear input
- Single data input (D) and clock input (CLK)
- Clear input (CLR) resets the flip-flop to a known state
- Output (Q) reflects the value of the input data at the last clock edge
Advantages and Disadvantages
Advantages: - Low-voltage operation allows for compatibility with various systems - Small package size enables space-saving designs - High operating frequency supports fast data transfer
Disadvantages: - Limited number of flip-flops in a single package - Not suitable for high-power applications
Working Principles
The 74LVC1G80GW-Q100,1 is a positive-edge-triggered D-type flip-flop. It stores and transfers digital data based on the clock signal. When the clock input (CLK) transitions from low to high, the value of the data input (D) is captured and stored in the flip-flop. The output (Q) reflects the stored value at the last clock edge. The clear input (CLR) can be used to reset the flip-flop to a known state.
Detailed Application Field Plans
The 74LVC1G80GW-Q100,1 is commonly used in various digital systems and applications, including: - Microcontrollers - Communication devices - Consumer electronics - Industrial automation - Automotive electronics
Detailed and Complete Alternative Models
Some alternative models that serve similar functions to the 74LVC1G80GW-Q100,1 include: - SN74LVC1G80DBVR - MC74VHC1G80DTT1G - TC7SET80FU
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技術ソリューションにおける 74LVC1G80GW-Q100,1 の適用に関連する 10 件の一般的な質問と回答をリストします。
Sure! Here are 10 common questions and answers related to the application of 74LVC1G80GW-Q100,1 in technical solutions:
Q1: What is the 74LVC1G80GW-Q100,1? A1: The 74LVC1G80GW-Q100,1 is a single positive-edge triggered D-type flip-flop with reset. It is a logic IC used for storing and transferring digital data.
Q2: What is the operating voltage range of the 74LVC1G80GW-Q100,1? A2: The operating voltage range of the 74LVC1G80GW-Q100,1 is from 1.65V to 5.5V.
Q3: What is the maximum clock frequency supported by the 74LVC1G80GW-Q100,1? A3: The maximum clock frequency supported by the 74LVC1G80GW-Q100,1 is 100 MHz.
Q4: How many inputs and outputs does the 74LVC1G80GW-Q100,1 have? A4: The 74LVC1G80GW-Q100,1 has one data input (D), one clock input (CLK), one reset input (R), and one output (Q).
Q5: Can the 74LVC1G80GW-Q100,1 be used in battery-powered applications? A5: Yes, the 74LVC1G80GW-Q100,1 can be used in battery-powered applications as it operates within a wide voltage range, including low voltages.
Q6: What is the power consumption of the 74LVC1G80GW-Q100,1? A6: The power consumption of the 74LVC1G80GW-Q100,1 is typically very low, making it suitable for power-sensitive applications.
Q7: Can the 74LVC1G80GW-Q100,1 be cascaded to create larger flip-flop configurations? A7: Yes, multiple 74LVC1G80GW-Q100,1 flip-flops can be cascaded together to create larger flip-flop configurations as needed.
Q8: Does the 74LVC1G80GW-Q100,1 have any built-in protection features? A8: Yes, the 74LVC1G80GW-Q100,1 has built-in protection against electrostatic discharge (ESD) and excessive current.
Q9: What is the package type of the 74LVC1G80GW-Q100,1? A9: The 74LVC1G80GW-Q100,1 is available in a small SOT353 package.
Q10: What are some typical applications of the 74LVC1G80GW-Q100,1? A10: The 74LVC1G80GW-Q100,1 can be used in various applications such as data storage, signal synchronization, clock division, and general-purpose digital logic circuits.
Please note that the answers provided here are general and may vary depending on specific design requirements and application scenarios.