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Logic - Multivibrators

Image Part Number Description / PDF Quantity Rfq
SN74LS123N

SN74LS123N

Texas Instruments

IC MULTIVIBRATOR 28NS 16DIP

2614
SN74LS221NE4

SN74LS221NE4

Texas Instruments

SN74LS221 DUAL MONOSTABLE MULTIV

0
SN74LS221DRE4

SN74LS221DRE4

Texas Instruments

IC MULTIVIBRATOR 45NS 16SOIC

0
SN74LS221DR

SN74LS221DR

Texas Instruments

IC MULTIVIBRATOR 45NS 16SOIC

4402
CD74HC123MT

CD74HC123MT

Texas Instruments

IC MULTIVIBRATOR 25NS 16SOIC

1302
CD4047BMG4

CD4047BMG4

Texas Instruments

CD4047B CMOS LOW-POWER MONOSTABL

700
SN74LS423NG4

SN74LS423NG4

Texas Instruments

IC MULTIVIBRATOR 28NS 16DIP

0
CD74HC4538PWT

CD74HC4538PWT

Texas Instruments

IC MULTIVIBRATOR 21NS 16TSSOP

410
CD74HCT423MTG4

CD74HCT423MTG4

Texas Instruments

IC MULTIVIBRATOR 25NS 16SOIC

0
CD4098BPW

CD4098BPW

Texas Instruments

IC MULTIVIBRATOR 100NS 16TSSOP

2051
CD4047BNS

CD4047BNS

Texas Instruments

IC MONO/ASTBL MULTIVIBRATR 14SO

7000
SN74LS423N

SN74LS423N

Texas Instruments

IC MULTIVIBRATOR 28NS 16DIP

191
SN74LS422D

SN74LS422D

Texas Instruments

IC MULTIVIBRATOR

2026
SN74LV123ADR

SN74LV123ADR

Texas Instruments

IC MULTIVIBRATOR 13NS 16SOIC

1206
CD74HC4538PW

CD74HC4538PW

Texas Instruments

IC MULTIVIBRATOR 21NS 16TSSOP

239
SN74AHC123AD

SN74AHC123AD

Texas Instruments

IC MULTIVIBRATOR 7.5NS 16SOIC

1517
JM38510/01203BEA

JM38510/01203BEA

Texas Instruments

SN54123 RETRIGGERABLE MONOSTABLE

22
SN74121D

SN74121D

Texas Instruments

IC MULTIVIBRATOR 45NS 14SOIC

517
CD4047BM96

CD4047BM96

Texas Instruments

IC MULTIVIBRATOR 80NS 14SOIC

486
CD4047BM96G4

CD4047BM96G4

Texas Instruments

IC MULTIVIBRATOR 80NS 14SOIC

0

Logic - Multivibrators

1. Overview

Logic multivibrators are specialized integrated circuits (ICs) designed to generate precise digital signal waveforms, including square waves, pulses, and timing sequences. They operate in three fundamental modes: astable (free-running oscillation), monostable (single pulse generation), and bistable (two stable states). These ICs serve as critical components in clock generation, timing control, and signal conditioning systems across modern electronics. Their compact size, reliability, and programmable characteristics make them indispensable in applications ranging from consumer devices to industrial automation.

2. Main Types and Functional Classification

Type Functional Characteristics Application Examples
Astable Multivibrator Generates continuous square waves without external trigger Clock signal generators, LED flashers, tone generators
Monostable Multivibrator Produces single output pulse upon trigger signal Pulse width modulation, timing delays, debouncing circuits
Bistable Multivibrator Maintains two stable states, toggled by input signals Memory elements, flip-flops, frequency dividers

3. Structure and Composition

Typical logic multivibrator ICs feature:

  • CMOS/Bipolar transistor arrays for switching
  • Integrated resistors and capacitors for timing control
  • Multilayer semiconductor substrates (Si/GaAs)
  • Standard packaging: DIP, SOIC, TSSOP (8-16 pins)
  • Internal ESD protection and decoupling circuitry

Advanced designs incorporate programmable registers and temperature-compensated oscillators for precision applications.

4. Key Technical Specifications

Parameter Importance
Frequency Range Determines operational bandwidth (typically 1Hz-100MHz)
Supply Voltage Specifies power requirements (3.3V-15V common)
Power Consumption Crucial for battery-operated devices ( A-nA range)
Duty Cycle Control Adjustability of waveform symmetry
Propagation Delay Timing accuracy metric (ps-ns range)
Temperature Stability Performance consistency across operating temperatures

5. Application Fields

Key industries and equipment:

  • Telecommunications: Network synchronization systems
  • Consumer Electronics: Display timing controllers
  • Industrial Automation: Sensor signal conditioning units
  • Medical Devices: Diagnostic equipment timing circuits
  • Automotive: Engine control unit (ECU) clock systems

6. Leading Manufacturers and Products

Manufacturer Product Series Key Features
Texas Instruments CD4047B Low-power CMOS astable/monostable multivibrator
NXP Semiconductors 74HC123 High-speed retriggerable monostable multivibrator
STMicroelectronics HCF4538 Precision dual monostable multivibrator
ON Semiconductor MC14528 Bistable multivibrator with manual/auto-trigger modes

7. Selection Recommendations

Consider the following factors:

  • Required oscillation mode (astable/monostable/bistable)
  • Frequency precision requirements
  • Package type compatibility (through-hole/SMD)
  • Environmental operating conditions (temperature/humidity)
  • Noise immunity specifications
  • Cost-volume trade-offs

8. Industry Trends

Emerging trends include:

  • Development of femtosecond-level timing precision
  • Integration with phase-locked loop (PLL) systems
  • Adoption of FinFET technology for sub-1V operation
  • Miniaturization to WLCSP packaging (0.5mm pitch)
  • Increased radiation hardness for aerospace applications
  • AI-enabled programmable timing control interfaces
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