ON Semiconductor NL17SZ02DFT2G
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- NL17SZ02DFT2G
- ON Semiconductor
- IC GATE NOR 1CH 2-INP SC88A
- Logic - Gates and Inverters
- NL17SZ02DFT2G Datasheet
- 5-TSSOP, SC-70-5, SOT-353
- Cut Tape (CT)
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What is NL17SZ02DFT2G
ON Semiconductor Part Number NL17SZ02DFT2G(Logic - Gates and Inverters), developed and manufactured by ON Semiconductor, 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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NL17SZ02DFT2G Specifications
- Part NumberNL17SZ02DFT2G
- CategoryLogic - Gates and Inverters
- ManufacturerON Semiconductor
- DescriptionIC GATE NOR 1CH 2-INP SC88A
- PackageCut Tape (CT)
- Series17SZ
- Features-
- Voltage - Supply1.65V ~ 5.5V
- Operating Temperature-55°C ~ 125°C
- Mounting TypeSurface Mount
- Package / Case5-TSSOP, SC-70-5, SOT-353
- Supplier Device PackageSC-88A (SC-70-5/SOT-353)
- Number of Circuits1
- Number of Inputs2
- Current - Output High, Low32mA, 32mA
- Current - Quiescent (Max)1 µA
- Logic TypeNOR Gate
- Max Propagation Delay @ V, Max CL4.3ns @ 5V, 50pF
- Logic Level - Low-
- Logic Level - High-
Application of NL17SZ02DFT2G
NL17SZ02DFT2G Datasheet
NL17SZ02DFT2G Datasheet , Cut Tape (CT),17SZ,1.65V ~ 5.5V,-55°C ~ 125°C,Surface Mount,5-TSSOP, SC-70-5, SOT-353,SC-88A (SC-70-5/SOT-353),1,2,32mA, 32mA,1 µA,NOR Gate,4.3ns @ 5V, 50pF
NL17SZ02DFT2G Classification
Logic - Gates and Inverters
FAQ about Logic - Gates and Inverters
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1. What is an inverter IC?
An inverter IC is a core component used to control and manage the various electronic components inside the inverter. The inverter IC is responsible for receiving input signals, processing data, generating control signals, and driving other components of the inverter.
The main functions of the inverter IC include:
Signal processing: Receive signals from sensors and process them to determine the operating status and requirements of the inverter.
Control strategy implementation: Based on the processing results, implement corresponding control strategies, such as PWM (pulse width modulation) control, to adjust the output voltage and frequency.
Protection function: Implement overcurrent, overvoltage, undervoltage and other protection functions to ensure the safe operation of the inverter.
Application scenarios of different types of inverter ICs include:
Motor drive inverter: Such as BridgeSwitch™-2 IC, used for BLDC motors, improve power output and efficiency, and introduce predictive maintenance functions.
Automotive traction inverter: Use ICs produced by ABLIC, suitable for converting DC power from batteries to AC power to drive traction motors.
Energy storage inverter: The core components are power semiconductors (such as IGBTs and MOSFETs), which are responsible for converting DC power into AC power and supporting efficient energy conversion. -
2. How many gates are there in ICs?
There are usually one or more gates in an IC, and the specific number depends on the type and design of the IC. For example, MOS tubes and transistors are common components in ICs, and they usually have one or more gates.
In a chip, a transistor is one of the most basic components. A transistor has three poles: source, drain and gate. The gate is located on the insulating layer between the source and the drain, and controls the conduction and cutoff of the channel by changing the gate voltage.
In addition, there is a special type of transistor in the flash memory chip, called a floating gate transistor, which has two gates: the control gate and the floating gate. The floating gate is located between the control gate and the channel, wrapped by an insulating layer, and can store charge, thereby realizing data storage. -
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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