Texas Instruments SN74AHC1G00DBVRE4
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- SN74AHC1G00DBVRE4
- Texas Instruments
- IC GATE NAND 1CH 2-INP SOT23-5
- Logic - Gates and Inverters
- SN74AHC1G00DBVRE4 Datasheet
- SC-74A, SOT-753
- Tape & Reel (TR)
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What is SN74AHC1G00DBVRE4
Texas Instruments Part Number SN74AHC1G00DBVRE4(Logic - Gates and Inverters), developed and manufactured by Texas Instruments, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
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SN74AHC1G00DBVRE4 Specifications
- Part NumberSN74AHC1G00DBVRE4
- CategoryLogic - Gates and Inverters
- ManufacturerTexas Instruments
- DescriptionIC GATE NAND 1CH 2-INP SOT23-5
- PackageTape & Reel (TR)
- Series74AHC
- Features-
- Voltage - Supply2V ~ 5.5V
- Operating Temperature-40°C ~ 125°C
- Mounting TypeSurface Mount
- Package / CaseSC-74A, SOT-753
- Supplier Device PackageSOT-23-5
- Number of Circuits1
- Number of Inputs2
- Current - Output High, Low8mA, 8mA
- Current - Quiescent (Max)1 µA
- Logic TypeNAND Gate
- Max Propagation Delay @ V, Max CL7.5ns @ 5V, 50pF
- Logic Level - Low0.5V ~ 1.65V
- Logic Level - High1.5V ~ 3.85V
Application of SN74AHC1G00DBVRE4
SN74AHC1G00DBVRE4 Datasheet
SN74AHC1G00DBVRE4 Datasheet , Tape & Reel (TR),74AHC,2V ~ 5.5V,-40°C ~ 125°C,Surface Mount,SC-74A, SOT-753,SOT-23-5,1,2,8mA, 8mA,1 µA,NAND Gate,7.5ns @ 5V, 50pF,0.5V ~ 1.65V,1.5V ~ 3.85V
SN74AHC1G00DBVRE4 Classification
Logic - Gates and Inverters
FAQ about Logic - Gates and Inverters
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1. Which logic gate is used as an inverter?
NAND gate can be used as an inverter. In digital logic, NAND gate can realize the logic negation function, which is equivalent to an inverter or NOT gate.
The working principle of the NAND gate is to perform an AND operation on two input signals and then take the negation. When both input signals are 0, the output is 1; otherwise, the output is 0. This characteristic enables the NAND gate to achieve signal inversion, that is, when the input is high, the output is low, and when the input is low, the output is high.
In addition to the NAND gate, the inverter can also be implemented through other logic gates, such as the NOR gate, which can also be used as an inverter. The NOR gate performs an OR operation on an input signal and a signal that is always 1 and then takes the negation, which can also achieve the signal inversion function. -
2. What is the use of the logic gate?
The main function of the logic gate is to control the switching and logical operation of the signal. The logic gate receives the input signal and controls the state of the output signal according to the logical state of the input signal (such as high level or low level), thereby realizing basic logical operation functions such as AND, OR, NOT, etc.
Specifically, the working principle of the logic gate is based on the structure and characteristics of the transistor. The transistor has three main parts: source, drain and gate. The gate adjusts the current flow between the source and drain by controlling the voltage, thereby realizing the switching function. When the gate voltage reaches a certain threshold, a conductive channel is formed between the source and the drain, and the current can pass; otherwise, the current is blocked.
Logic gates have a variety of applications in digital circuits, including but not limited to:
Remove noise coupled into the circuit, improve system reliability.
Speed up the turn-on and turn-off of transistors, reduce turn-on and turn-off losses.
Reduce transistor DI/DT, protect transistors and suppress EMI interference.
Protect the gate, prevent gate breakdown under abnormal high voltage conditions.
Increase drive capability, and drive transistors under smaller signals. -
3. Can NAND gates be used as inverters?
NAND gates can be used as inverters. NAND gates, especially Schmitt-triggered NAND gates, are often used in full-bridge inverter circuits to ensure that the switch between the two channels is clear and not affected by any type of stray transients or low-signal interference.
In the inverter, the role of the NAND gate is to drive the MOSFET or IGBT through logic control to achieve DC to AC conversion. For example, in the Arduino-based full-bridge sine wave inverter design, the Arduino is programmed to generate SPWM outputs in the appropriate format from the pins, process these signals through the NAND gate, and finally drive the relevant MOSFETs of the full-bridge driver network to achieve the inverter function.
The advantages of using NAND gates include fast switching response and high reliability. In addition, Schmitt-triggered NAND gates can enhance anti-interference capabilities and ensure stable operation of the inverter. However, there are also challenges to consider when designing inverters, such as switching losses and thermal management.
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