Astable Multivibrator Market Research Report - Global Forecast till 2027

Astable Multivibrator Market Research Report: By Type (Collector-Coupled Astable Multivibrator, Emitter-Coupled Astable Multivibrator), by Application (Oscillator, Morse Code Generators, Pulse Position Modulator, Amateur Radio Equipment, Timers RFID system, FSK generator, Others) and by Region (North America, Europe, Asia-Pacific, Middle East and Africa, Central and South America) - Forecast till 2027

ID: MRFR/SEM/6995-HCR | February, 2021 | Region : Global

Astable Multivibrator: Market Synopsis


The global astable multivibrator market is expected to grow from USD 1.27 Billion in 2018 to USD 2.0 Billion by 2025, at a CAGR of 7% during the forecast period


Astable multivibrators find applications primarily in communication systems as waveform generators. These devices are used to implement a variety of simple two-state systems such as oscillators, timers, and flip-flops. It is most commonly used in relaxation oscillators as they produce a constant square wave output waveform; they are also widely used due to their simplicity, reliability, and ease of construction. Astable multivibrators have an automatic built-in triggering system which switches continuously between its two unstable states: SET and RESET. These devices are made of two amplifying stages that are connected in a positive feedback loop using two resistive-capacitive coupling networks. The elements used for amplification may be junction field-effect transistors, bipolar junction transistors, vacuum tubes, operational amplifiers or any other type of amplifier. They are essentially used in a wide variety of systems where a timed interval or a square wave is required. The output is a continuous square/rectangular wave with the properties depending on values of external resistors and capacitors. These multivibrators keep changing between one stable state to another. This permits them to power themselves and achieve work at a constant rate irrespective of any impact from any external forces or actions. The adoption of astable multivibrator in communication systems is one of the factors driving the growth of this market. Also, these multivibrators incur low cost of production and are easy to design, which is fuelling the growth of this market. However, these multivibrators do not transfer the whole output (o/p) signal to the input (i/p). This is due to resistance in the circuit, the nonexistence of a totally closed loop at the o/p terminals, and the leaning of one transistor/capacitor to absorb energy at a somewhat different rate than the other. Although the amplifier restores the lost energy when it amplifies the signal, the signal will finally be too small in magnitude to be of any use. These factors are negatively impacting the adoption and growth of this market.


Astable multivibrators are the type of multivibrators in which the output continuously oscillates between two permissible states, producing square-wave at their output and are regarded to be free-running in nature. Further, these multivibrators do not require any kind of external triggering, except the DC supply, due to which they fall under the category of relaxation oscillators. The time period of these states depends upon the time constants of the components used. Integrated circuits such as operational amplifiers or logic circuits allow the design of astable circuits to be both very simple and high performing. The operation of these circuits requires very few external passive components including few resistances and capacitors. Moreover, the developments in electronics have encouraged the marketing of specialized astable circuits.


Astable Multivibrator: Market Segmentation


Global astable multivibrator market has been segmented based on type, application, and region.


On the basis of type, the market has been segmented into collector-coupled astable multivibrator and emitter-coupled astable multivibrator.


Based on application, the market has been segmented into oscillator, morse code generators, pulse position modulator, amateur radio equipment, timers, RFID system, FSK generator, and others.


Global astable multivibrator indusry, by region, has been classified into North America, Europe, Asia-Pacific, the Middle East & Africa, and Central and South America.


Astable Multivibrator Market Regional Analysis


Global astable multivibrator market is projected to grow at a significant rate during the forecast period from 2019 to 2025. The geographic analysis for global market has been done for North America, Europe, Asia-Pacific, the Middle East & Africa, and Central and South America.


North America accounts for the largest market share owing to the presence of major key players in this region. North America is also considered to be one of the early adopters of emerging technologies. Asia-Pacific is expected to be the fastest-growing region owing to the growing number of semiconductors and electronics industries. The Middle East and Africa region is also expected to show significant growth during the forecast period.


Astable Multivibrator Market  Astable Multivibrator Market


Source: MRFR Analysis


Astable Multivibrator Market Competitive Analysis


The number of companies active in this market is less. Therefore, the competition between the existing companies is moderate. They compete on the basis of power consumption and a number of components used. These companies are focusing on enhancing their solutions to stay competitive in the market.


Astable Multivibrator: Market Key Players


The key players of astable multivibrator market are ON Semiconductor (US), NXP Semiconductors (Netherlands), TEXAS Instruments (US), Microchip Technology (US), Nexperia (Netherlands), STMicroelectronics (Switzerland), Fairchild Semiconductor (US), Toshiba (Japan), Renesas Electronics Corporation (Japan), and Visionics Sweden HB (Sweden)


Intended Audience



  • Technology Providers

  • Original Equipment Manufacturers

  • Equipment distributors and suppliers

  • Technology standards organizations

  • Technology investors

  • System Integrators

  • Research institutes, organizations, and consulting companies

Table of Contents

1 Executive Summary

2 Scope of the Report

2.1 Market Definition

2.2 Scope of the Study

2.3 Research Objectives

2.4 Markets Structure

3 Research Methodology

4 Market Landscape

4.1 Porter’s Five Forces Analysis

4.1.1 Threat of New Entrants

4.1.2 Bargaining Power of Buyers

4.1.3 Threat of Substitutes

4.1.4 Intensity of Rivalry

4.1.5 Bargaining Power of Suppliers

4.2 Value Chain/Supply Chain of the Global Astable Multivibrator

5 Market Landscape

5.1 Introduction

5.2 Growth Drivers

5.3 Impact Analysis

5.4 Market Restraints

6 Market Trends

6.1 Introduction

6.2 Growth Trends

6.3 Impact Analysis

7 Global Astable Multivibrator, by Type

7.1 Introduction

7.2 Collector-Coupled Astable Multivibrator

7.2.1 Market Estimates & Forecast, 2020–2027

7.3 Emitter-Coupled Astable Multivibrator

7.3.1 Market Estimates & Forecast, 2020–2027

8 Global Astable Multivibrator, by Application

8.1 Introduction

8.2 Oscillator

8.2.1 Market Estimates & Forecast, 2020–2027

8.3 Morse Code Generators

8.3.1 Market Estimates & Forecast, 2020–2027

8.4 Pulse Position Modulator

8.4.1 Market Estimates & Forecast, 2020–2027

8.5 Amateur Radio Equipment

8.5.1 Market Estimates & Forecast, 2020–2027

8.6 Timers

8.6.1 Market Estimates & Forecast, 2020–2027

8.7 RFID system

8.7.1 Market Estimates & Forecast, 2020–2027

8.8 FSK generator

8.8.1 Market Estimates & Forecast, 2020–2027

8.9 Others

8.9.1 Market Estimates & Forecast, 2020–2027

9 Global Astable Multivibrator, by Region

9.1 Introduction

9.2 North America

9.2.1 Market Estimates & Forecast, by Country, 2020–2027

9.2.2 Market Estimates & Forecast, by Type, 2020–2027

9.2.3 Market Estimates & Forecast, by Application, 2020–2027

9.2.4 US

9.2.4.1 Market Estimates & Forecast, by Type, 2020–2027

9.2.4.2 Market Estimates & Forecast, by Application, 2020–2027

9.2.5 Mexico

9.2.5.1 Market Estimates & Forecast, by Type, 2020–2027

9.2.5.2 Market Estimates & Forecast, by Application, 2020–2027

9.2.6 Canada

9.2.6.1 Market Estimates & Forecast, by Type, 2020–2027

9.2.6.2 Market Estimates & Forecast, by Application, 2020–2027

9.3 Europe

9.3.1 Market Estimates & Forecast, by Country, 2020–2027

9.3.2 Market Estimates & Forecast, by Type, 2020–2027

9.3.3 Market Estimates & Forecast, by Application, 2020–2027

9.3.4 Germany

9.3.4.1 Market Estimates & Forecast, by Type, 2020–2027

9.3.4.2 Market Estimates & Forecast, by Application, 2020–2027

9.3.5 France

9.3.5.1 Market Estimates & Forecast, by Type, 2020–2027

9.3.5.2 Market Estimates & Forecast, by Application, 2020–2027

9.3.6 Italy

9.3.6.1 Market Estimates & Forecast, by Type, 2020–2027

9.3.6.2 Market Estimates & Forecast, by Application, 2020–2027

9.3.7 Spain

9.3.7.1 Market Estimates & Forecast, by Type, 2020–2027

9.3.7.2 Market Estimates & Forecast, by Application, 2020–2027

9.3.8 UK

9.3.8.1 Market Estimates & Forecast, by Type, 2020–2027

9.3.8.2 Market Estimates & Forecast, by Application, 2020–2027

9.3.9 Rest of Europe

9.3.9.1 Market Estimates & Forecast, by Type, 2020–2027

9.3.9.2 Market Estimates & Forecast, by Application, 2020–2027

9.4 Asia-Pacific

9.4.1 Market Estimates & Forecast, by Country, 2020–2027

9.4.2 Market Estimates & Forecast, by Type, 2020–2027

9.4.3 Market Estimates & Forecast, by Application, 2020–2027

9.4.4 China

9.4.4.1 Market Estimates & Forecast, by Type, 2020–2027

9.4.4.2 Market Estimates & Forecast, by Application, 2020–2027

9.4.5 India

9.4.5.1 Market Estimates & Forecast, by Type, 2020–2027

9.4.5.2 Market Estimates & Forecast, by Application, 2020–2027

9.4.6 Japan

9.4.6.1 Market Estimates & Forecast, by Type, 2020–2027

9.4.6.2 Market Estimates & Forecast, by Application, 2020–2027

9.4.7 South Korea

9.4.7.1 Market Estimates & Forecast, by Type, 2020–2027

9.4.7.2 Market Estimates & Forecast, by Application, 2020–2027

9.4.8 Taiwan

9.4.8.1 Market Estimates & Forecast, by Type, 2020–2027

9.4.8.2 Market Estimates & Forecast, by Application, 2020–2027

9.4.9 Rest of Asia-Pacific

9.4.9.1 Market Estimates & Forecast, by Type, 2020–2027

9.4.9.2 Market Estimates & Forecast, by Application, 2020–2027

9.5 Middle East & Africa

9.5.1 Market Estimates & Forecast, by Country, 2020–2027

9.5.2 Market Estimates & Forecast, by Type, 2020–2027

9.5.3 Market Estimates & Forecast, by Application, 2020–2027

9.5.4 UAE

9.5.4.1 Market Estimates & Forecast, by Type, 2020–2027

9.5.4.2 Market Estimates & Forecast, by Application, 2020–2027

9.5.5 Saudi Arabia

9.5.5.1 Market Estimates & Forecast, by Type, 2020–2027

9.5.5.2 Market Estimates & Forecast, by Application, 2020–2027

9.5.6 South Africa

9.5.6.1 Market Estimates & Forecast, by Type, 2020–2027

9.5.6.2 Market Estimates & Forecast, by Application, 2020–2027

9.5.7 Rest of Middle East & Africa

9.5.7.1 Market Estimates & Forecast, by Type, 2020–2027

9.5.7.2 Market Estimates & Forecast, by Application, 2020–2027

9.6 Central and South America

9.6.1 Market Estimates & Forecast, by Country, 2020–2027

9.6.2 Market Estimates & Forecast, by Type, 2020–2027

9.6.3 Market Estimates & Forecast, by Application, 2020–2027

9.6.4 Brazil

9.6.4.1 Market Estimates & Forecast, by Type, 2020–2027

9.6.4.2 Market Estimates & Forecast, by Application, 2020–2027

9.6.5 Argentina

9.6.5.1 Market Estimates & Forecast, by Type, 2020–2027

9.6.5.2 Market Estimates & Forecast, by Application, 2020–2027

9.6.6 Columbia

9.6.6.1 Market Estimates & Forecast, by Type, 2020–2027

9.6.6.2 Market Estimates & Forecast, by Application, 2020–2027

9.6.7 Rest of Central and South America

9.6.7.1 Market Estimates & Forecast, by Type, 2020–2027

9.6.7.2 Market Estimates & Forecast, by Application, 2020–2027

10 Competitive Landscape

11 Company Profiles

11.1 ON Semiconductor

11.1.1 Company Overview

11.1.2 End User/Business Segment Overview

11.1.3 Financial Updates

11.1.4 Key Developments

11.1.5 SWOT Analysis

11.1.6 Key Strategies

11.2 NXP Semiconductors

11.2.1 Company Overview

11.2.2 End User/Business Segment Overview

11.2.3 Financial Updates

11.2.4 Key Developments

11.2.5 SWOT Analysis

11.2.6 Key Strategies

11.3 TEXAS Instruments

11.3.1 Company Overview

11.3.2 End User/Business Segment Overview

11.3.3 Financial Updates

11.3.4 Key Developments

11.3.5 SWOT Analysis

11.3.6 Key Strategies

11.4 Microchip Technology

11.4.1 Company Overview

11.4.2 End User/Business Segment Overview

11.4.3 Financial Updates

11.4.4 Key Developments

11.4.5 SWOT Analysis

11.4.6 Key Strategies

11.5 Nexperia

11.5.1 Company Overview

11.5.2 End User/Business Segment Overview

11.5.3 Financial Updates

11.5.4 Key Developments

11.5.5 SWOT Analysis

11.5.6 Key Strategies

11.6 STMicroelectronics

11.6.1 Company Overview

11.6.2 End User/Business Segment Overview

11.6.3 Financial Updates

11.6.4 Key Developments

11.6.5 SWOT Analysis

11.6.6 Key Strategies

11.7 Fairchild Semiconductor

11.7.1 Company Overview

11.7.2 End User/Business Segment Overview

11.7.3 Financial Updates

11.7.4 Key Developments

11.7.5 SWOT Analysis

11.7.6 Key Strategies

11.8 Toshiba

11.8.1 Company Overview

11.8.2 End User/Business Segment Overview

11.8.3 Financial Updates

11.8.4 Key Developments

11.8.5 SWOT Analysis

11.8.6 Key Strategies

11.9 Renesas Electronics Corporation

11.9.1 Company Overview

11.9.2 End User/Business Segment Overview

11.9.3 Financial Updates

11.9.4 Key Developments

11.9.5 SWOT Analysis

11.9.6 Key Strategies

11.10 Visionics Sweden HB

11.10.1 Company Overview

11.10.2 End User/Business Segment Overview

11.10.3 Financial Updates

11.10.4 Key Developments

11.10.5 SWOT Analysis

11.10.6 Key Strategies

12 Conclusion

LIST OF TABLES

Table 1 Global Astable Multivibrator, by Type, 2020–2027

Table 2 Global Astable Multivibrator, by Application, 2020–2027

Table 3 Global Astable Multivibrator, by Region, 2020–2027

Table 4 North America: Astable Multivibrator, by Country, 2020–2027

Table 5 North America: Astable Multivibrator, by Type, 2020–2027

Table 6 North America: Astable Multivibrator, by Application, 2020–2027

Table 7 US: Astable Multivibrator, by Type, 2020–2027

Table 8 US: Astable Multivibrator, by Application, 2020–2027

Table 9 Canada: Astable Multivibrator, by Type, 2020–2027

Table 10 Canada: Astable Multivibrator, by Application, 2020–2027

Table 11 Mexico: Astable Multivibrator, by Type, 2020–2027

Table 12 Mexico: Astable Multivibrator, by Application, 2020–2027

Table 13 Europe: Astable Multivibrator, by Country, 2020–2027

Table 14 Europe: Astable Multivibrator, by Type, 2020–2027

Table 15 Europe: Astable Multivibrator, by Application, 2020–2027

Table 16 Germany: Astable Multivibrator, by Type, 2020–2027

Table 17 Germany: Astable Multivibrator, by Application, 2020–2027

Table 18 France: Astable Multivibrator, by Type, 2020–2027

Table 19 France: Astable Multivibrator, by Application, 2020–2027

Table 20 Italy: Astable Multivibrator, by Type, 2020–2027

Table 21 Italy: Astable Multivibrator, by Application, 2020–2027

Table 22 Spain: Astable Multivibrator, by Type, 2020–2027

Table 23 Spain: Astable Multivibrator, by Application, 2020–2027

Table 24 UK: Astable Multivibrator, by Type, 2020–2027

Table 25 UK: Astable Multivibrator, by Application, 2020–2027

Table 26 Rest of Europe: Astable Multivibrator, by Type, 2020–2027

Table 27 Rest of Europe: Astable Multivibrator, by Application, 2020–2027

Table 28 Asia-Pacific: Astable Multivibrator, by Country, 2020–2027

Table 29 Asia-Pacific: Astable Multivibrator, by Type, 2020–2027

Table 30 Asia-Pacific: Astable Multivibrator, by Application, 2020–2027

Table 31 China: Astable Multivibrator, by Type, 2020–2027

Table 32 China: Astable Multivibrator, by Application, 2020–2027

Table 33 Japan: Astable Multivibrator, by Type, 2020–2027

Table 34 Japan: Astable Multivibrator, by Application, 2020–2027

Table 35 India: Astable Multivibrator, by Type, 2020–2027

Table 36 India: Astable Multivibrator, by Application, 2020–2027

Table 37 South Korea: Astable Multivibrator, by Type, 2020–2027

Table 38 South Korea: Astable Multivibrator, by Application, 2020–2027

Table 39 Taiwan: Astable Multivibrator, by Type, 2020–2027

Table 40 Taiwan: Astable Multivibrator, by Application, 2020–2027

Table 41 Rest of Asia-Pacific: Astable Multivibrator, by Type, 2020–2027

Table 42 Rest of Asia-Pacific: Astable Multivibrator, by Application, 2020–2027

Table 43 Middle East and Africa: Astable Multivibrator, by Country, 2020–2027

Table 44 Middle East and Africa: Astable Multivibrator, by Type, 2020–2027

Table 45 Middle East and Africa: Astable Multivibrator, by Application, 2020–2027

Table 46 UAE: Astable Multivibrator, by Type, 2020–2027

Table 47 UAE: Astable Multivibrator, by Application, 2020–2027

Table 48 Saudi Arabia: Astable Multivibrator, by Type, 2020–2027

Table 49 Saudi Arabia: Astable Multivibrator, by Application, 2020–2027

Table 50 South Africa: Astable Multivibrator, by Type, 2020–2027

Table 51 South Africa: Astable Multivibrator, by Application, 2020–2027

Table 52 Rest of Middle East and Africa: Astable Multivibrator, by Type, 2020–2027

Table 53 Rest of Middle East and Africa: Astable Multivibrator, by Application, 2020–2027

Table 54 Central and South America: Astable Multivibrator, by Country, 2020–2027

Table 55 Central and South America: Astable Multivibrator, by Type, 2020–2027

Table 56 Central and South America: Astable Multivibrator, by Application, 2020–2027

Table 57 Brazil: Astable Multivibrator, by Type, 2020–2027

Table 58 Brazil: Astable Multivibrator, by Application, 2020–2027

Table 59 Argentina: Astable Multivibrator, by Type, 2020–2027

Table 60 Argentina: Astable Multivibrator, by Application, 2020–2027

Table 61 Columbia: Astable Multivibrator, by Type, 2020–2027

Table 62 Columbia: Astable Multivibrator, by Application, 2020–2027

Table 63 Rest of Central and South America: Astable Multivibrator, by Type, 2020–2027

Table 64 Rest of Central and South America: Astable Multivibrator, by Application, 2020–2027

LIST OF FIGURES

FIGURE 1 Global Astable Multivibrator Segmentation

FIGURE 2 Forecast Methodology

FIGURE 3 Porter’s Five Forces Analysis of the Global Astable Multivibrator

FIGURE 4 Value Chain of the Global Astable Multivibrator

FIGURE 5 Share of the Global Astable Multivibrator in 2020, by Country (in %)

FIGURE 6 Global Astable Multivibrator, 2020–2027

FIGURE 7 Global Astable Multivibrator Size, by Type, 2020

FIGURE 8 Share of the Global Astable Multivibrator, by Type, 2020–2027

FIGURE 9 Global Astable Multivibrator Size, by Application, 2020

FIGURE 10 Share of the Global Astable Multivibrator, by Application, 2020–2027

Astable Multivibrator Market