Texas Instruments
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CD4093BNSR
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CD4093BNSR

Product Overview

  • Category: Integrated Circuit (IC)
  • Use: Logic Gate
  • Characteristics: Quad 2-Input NAND Schmitt Trigger
  • Package: SOIC-14
  • Essence: The CD4093BNSR is a CMOS-based integrated circuit that contains four independent 2-input NAND gates with Schmitt trigger inputs.
  • Packaging/Quantity: The CD4093BNSR is typically sold in reels of 2500 units.

Specifications

  • Supply Voltage Range: 3V to 18V
  • Input Voltage Range: 0V to VDD
  • Output Voltage Range: 0V to VDD
  • Maximum Quiescent Supply Current: 1μA at 5V
  • Maximum Propagation Delay Time: 60ns at 5V, 10pF load

Detailed Pin Configuration

The CD4093BNSR has a total of 14 pins, which are assigned as follows:

  1. Pin 1: Input A, Gate 1
  2. Pin 2: Input B, Gate 1
  3. Pin 3: Output Y, Gate 1
  4. Pin 4: Ground (GND)
  5. Pin 5: Input A, Gate 2
  6. Pin 6: Input B, Gate 2
  7. Pin 7: Output Y, Gate 2
  8. Pin 8: VDD (Positive Power Supply)
  9. Pin 9: Output Y, Gate 3
  10. Pin 10: Input B, Gate 3
  11. Pin 11: Input A, Gate 3
  12. Pin 12: Output Y, Gate 4
  13. Pin 13: Input B, Gate 4
  14. Pin 14: Input A, Gate 4

Functional Features

  • Schmitt Trigger Inputs: The CD4093BNSR incorporates Schmitt trigger inputs, which provide hysteresis and improve noise immunity.
  • Wide Supply Voltage Range: It can operate within a wide supply voltage range of 3V to 18V, making it suitable for various applications.
  • High-Speed Operation: With a maximum propagation delay time of 60ns at 5V, the CD4093BNSR offers fast switching performance.

Advantages and Disadvantages

Advantages

  • Schmitt trigger inputs enhance noise immunity.
  • Can be used in a wide range of supply voltage conditions.
  • Compact package size allows for space-efficient designs.

Disadvantages

  • Limited number of gates (four) compared to other ICs with higher gate counts.
  • Propagation delay may not be suitable for high-speed applications.

Working Principles

The CD4093BNSR operates based on CMOS technology. Each NAND gate within the IC has two inputs and one output. The Schmitt trigger inputs ensure that the output transitions occur at different voltage levels for rising and falling input signals, providing noise immunity and preventing false triggering.

Detailed Application Field Plans

The CD4093BNSR is commonly used in various digital logic applications, including but not limited to: - Oscillators - Timers - Counters - Flip-flops - Logic level conversion circuits

Detailed and Complete Alternative Models

Some alternative models to the CD4093BNSR include: - CD4011BNSR: Quad 2-Input NAND Gate - CD4073BNSR: Triple 3-Input AND Gate - CD4081BNSR: Quad 2-Input AND Gate - CD4069UBNSR: Hex Inverter

These alternative models offer similar functionality and can be used as substitutes depending on the specific requirements of the application.

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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de CD4093BNSR en soluciones técnicas

Sure! Here are 10 common questions and answers related to the application of CD4093BNSR in technical solutions:

  1. Q: What is CD4093BNSR? A: CD4093BNSR is a quad 2-input NAND Schmitt trigger integrated circuit (IC) that can be used for various digital logic applications.

  2. Q: What is the operating voltage range of CD4093BNSR? A: The operating voltage range of CD4093BNSR is typically between 3V and 18V.

  3. Q: Can CD4093BNSR be used as a level shifter? A: Yes, CD4093BNSR can be used as a level shifter by connecting its inputs to a lower voltage domain and its outputs to a higher voltage domain.

  4. Q: How many Schmitt trigger gates are there in CD4093BNSR? A: CD4093BNSR consists of four independent Schmitt trigger gates.

  5. Q: What is the maximum frequency at which CD4093BNSR can operate? A: CD4093BNSR can operate at frequencies up to several megahertz, depending on the specific application and conditions.

  6. Q: Can CD4093BNSR be used for debouncing mechanical switches? A: Yes, CD4093BNSR's Schmitt trigger inputs make it suitable for debouncing mechanical switches and removing noise or glitches.

  7. Q: Is CD4093BNSR capable of driving LEDs directly? A: Yes, CD4093BNSR can drive LEDs directly by connecting the output of the gate to the LED through a current-limiting resistor.

  8. Q: Can CD4093BNSR be used in oscillator circuits? A: Yes, CD4093BNSR can be used to build simple oscillator circuits by connecting the output of one gate to the input of another in a feedback loop.

  9. Q: What is the power consumption of CD4093BNSR? A: The power consumption of CD4093BNSR is relatively low, typically in the range of a few milliwatts.

  10. Q: Can CD4093BNSR be used in battery-powered applications? A: Yes, CD4093BNSR's low power consumption and wide operating voltage range make it suitable for battery-powered applications where power efficiency is important.

Please note that these answers are general and may vary depending on specific circuit designs and requirements.