thermistor Archives - Electronic Guidebook https://electronicguidebook.com/tag/thermistor/ A place to help you with your electronic needs Tue, 20 Sep 2022 23:16:55 +0000 en-US hourly 1 https://wordpress.org/?v=6.5.3 https://electronicguidebook.com/wp-content/uploads/2020/02/cropped-electronicGuidebookLogoTransparent-1-32x32.png thermistor Archives - Electronic Guidebook https://electronicguidebook.com/tag/thermistor/ 32 32 230945861 LDR and Thermistor - the basics and common applications https://electronicguidebook.com/ldr-and-thermistor-the-basics-and-common-applications/?utm_source=rss&utm_medium=rss&utm_campaign=ldr-and-thermistor-the-basics-and-common-applications Tue, 20 Sep 2022 23:16:52 +0000 https://electronicguidebook.com/?p=1265 An LDR  and thermistor belong to the resistor family. A LDR (Light Dependent Resistor), is a variation of a resistor whose resistance is altered with varying levels of light. A Thermistor on the other hand is a type of resistor whose resistance changes with varying levels of temperature.  What is an LDR (Light dependent resistor) […]

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An LDR  and thermistor belong to the resistor family. A LDR (Light Dependent Resistor), is a variation of a resistor whose resistance is altered with varying levels of light. A Thermistor on the other hand is a type of resistor whose resistance changes with varying levels of temperature. 

What is an LDR (Light dependent resistor)

LDR stands for Light Dependent Resistor. This type of resistor has the ability to change its resistance as the ambient light levels change. The amount of current (electrons) that flows through the LDR is determined by its resistance, which is a function of light. 

Resistance of the LDR and light share an inversely proportional relationship. Low levels of light results in a high resistance. High levels of light cause the resistance of the LDR to drop allowing for more current to pass through it.  

LDRs are used in applications to detect light levels as their functionalities allow for it. They are commonly used in street lamps to detect when light levels have dropped during later parts of the day allowing the street lamps to know when to turn on.

What is a Thermistor

Thermistors are a type of resistor whose resistance varies with temperature. Its name is a combination of thermal and resistor. The amount of current flowing through a thermistor is determined by current which in this case is a function of temperature. 

There are different variations of the thermistor. However, the most commonly used thermistor’s resistance shares an inversely proportional relationship with temperature. At low temperatures, its resistance is very high allowing little current to flow through it. At high temperatures its resistance is low allowing for larger amounts of current to flow. 

Due to their unique ability, thermistors are often used as a cheaper alternative for a temperature sensor. They can be found in fire alarms which help detect potential fires. 

LDR and Thermistor circuit symbols

LDR vs Thermistor, which is the right option?

While the LDR and Thermistor are from the same family (resistor), they are different in how they operate. One’s resistance varies with light (LDR), and the other varies with temperature (Thermistor). But, which is the better option? One is not better than the other. Each has its own unique abilities that come in handy for a certain type of application. It all depends on the needs of the application.

Summary of an LDR and Thermistor

LDR (Light Dependent Resistor)Thermistor
Type of resistor whose resistance changes with varying light levelsType of resistor whose resistance changes with varying temperatures
Resistance and light share an inversely proportional relationshipResistance and temperature share and inversely proportional relationship
Used in applications where detecting light is essential, i.e. Street lamps, security alarms, etcUsed in applications where detecting temperature is necessary, i.e. Fire alarms, Heaters, etc

Applications of LDR and Thermistor

LDRThermistor
– Security Alarms
– Street lights
– Light intensity meters
– Smartphones
– Cameras
– Proximity switches
– Kitchen appliances
– Digital thermometers
– Circuit protectors
– Medical applications
– 3D printers
– Smoke/ Fire alarms

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What does a thermistor do in a circuit? https://electronicguidebook.com/what-does-a-thermistor-do-in-a-circuit/?utm_source=rss&utm_medium=rss&utm_campaign=what-does-a-thermistor-do-in-a-circuit Tue, 01 Jun 2021 23:11:38 +0000 https://electronicguidebook.com/?p=903 In the world of electronics there are many different devices that help or entertain us.  Whether it be a calculator to solve equations, or a gaming console to take us away from reality.  Every electronic device contains a circuit which contains vital components that contribute to the overall functionality of that device. A Thermistor is […]

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In the world of electronics there are many different devices that help or entertain us. 

Whether it be a calculator to solve equations, or a gaming console to take us away from reality. 

Every electronic device contains a circuit which contains vital components that contribute to the overall functionality of that device.

A Thermistor is a component which serves a specific purpose in many different circuits.

So, what does a thermistor do in a circuit?

The main purpose of a thermistor is to give a circuit the ability to sense changes in temperature. A thermistor is a component which has the ability to change its resistance as temperature changes.  

Closer look at a thermistor

Let’s take a closer at the thermistor which will help you better understand what it actually does in a circuit.

The thermistor is essentially a resistor which has the ability to change its resistance.

This change in resistance is caused by an external change in ambient temperature. Think of it as a thermometer whose temperature is related to its resistance.

What this means is that a change in ambient temperature will cause a change in resistance. 

The word thermistor is a combination of the words ‘thermal’ and ‘resistor’. 

They are constructed using metal oxides which can be encapsulated into a bead, disk, or cylindrical form.

Below is the common circuit symbol of a thermistor;

Working principle of a thermistor

If we opened up a thermistor we would find a semiconducting material.

A semiconducting material is chosen as they have a greater resistance than conducting materials, while having a lower resistance than insulating materials. 

Choosing the right materials is crucial as this directly affects the relationship between temperature and resistance (this can be viewed better by the graph curve of Resistance vs. Temperature)

They contain metal oxide semiconductors, binders and stabilizers pressed into wafers which are then cut into a particular form depending on their packaging they will be used in. 

So, a change in ambient temperature causes a change in resistance within the semiconductor material. The key is that the initial resistance of the thermistor is known.

There are two types of thermistors, each having different working principles. However, their purpose stays the same which is to alter their resistance to changes in temperature. 

The first is known as a Positive Temperature Coefficient (PTC) thermistor. 

The resistance of a PTC thermistor increases as temperature increases and decreases as temperature decreases. 

The relationship between resistance and temperature in a PTC thermistor is directly proportional.

Negative Temperature Coefficient (NTC) thermistors have reverse functionality. 

Their resistance decreases with an increase in temperature and increase with a decrease in temperature.

 The relationship between resistance and temperature in a NTC thermistor is inversely proportional. 

Main purpose of a thermistor in a circuit

Just like how we have five senses (sight, smell, hearing, touch and taste) that help us interpret and navigate the physical world, a thermistor gives a circuit the ability to sense the physical world as well. 

It does this by allowing it to sense changes in temperature by varying its resistance. 

Because of this the thermistor is used in many applications where temperature sensing is a crucial component of the system. 

Below are some common household devices that you will be familiar with that will use a thermistor as part of their circuit;

  • Fire alarms 
  • Ovens
  • Refrigerators 
  • Heaters

Other applications of a thermistor in a circuit

While their main purpose in a circuit is to sense temperature, the working principle of a thermistor enables it to be used for other applications too.

Inrush current limiting

In every electrical and electronic circuit you have a Steady-state current which is the nominal safe value of current seen by the circuit. 

However, there are times when the current exceeds this steady-state value which can damage components of the circuit. 

This current is known as Inrush current. 

Inrush current is the maximum draw of current and occurs when the circuit is switched ‘ON’. It can last for a few cycles of the input waveform. 

A thermistor can be used in a circuit to protect it from inrush currents. 

When the circuit is off and no current is flowing, the thermistor has a high resistance. When the circuit is switched ‘ON’ the thermistor opposes the inrush current due to its high resistance. 

As the flow of current warms the thermistor, its resistance drops thus allowing the current to flow at a much steadier rate. 

Over-current protection

Thermistors can be used in circuits to protect components from Overcurrents.

Similar to inrush currents, overcurrent is an excess in current not nominal to the steady-state value which can be caused by overloading the circuit, a short circuit, a ground fault, or an arc fault. 

A motor is a component that can be regularly subject to overcurrents. 

If the motor is overloaded or its rotation has locked, an overcurrent scenario can occur causing high currents to flow through the motor.

High currents cause high temperatures which can place a thermal stress on the internal coils and windings of the motor. 

PTC thermistors are used to reduce this thermal stress. 

The overcurrents cause the thermistor to heat up which then increases its resistance thereby reducing and limiting the high currents.  

Is a thermistor the same as a thermocouple?

A Thermocouple is a device whose main purpose is the same as a thermistor, which is to measure temperature. 

However, while they both measure temperature, they go about doing it two different ways. 

A thermistor does so by varying its resistance according to temperature. 

On the other hand, the thermocouple varies its output voltage based on the connection of two dissimilar metals. 

Is a thermistor better than a thermocouple?

If both do the same thing, which is better? 

Each of them have their own advantages in different scenarios and choosing between a thermistor and thermocouple in a circuit comes down to the needs of the application. 

Below is a table of some important characteristics of both the temperature sensing devices which will help you decide which is best suited for your application. 

ThermocoupleThermistor
Accuracy HighLow
Temperature range (°C)-50 to 250-200 to 1250
Average response time (seconds)0.12 – 10 0.2 – 10
Characteristic curve Non-linear for negative temperature coefficients Linear
Cost ExpensiveCheap

In general, thermistors are chosen when ruggedness, reliability and stability are of importance. This makes them great for applications and environments where conditions are extreme and electronic noise is present.

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