Did you know that in 1877 the first phonograph was created by Thomas Edison? It would spark further technological advances that would lead to CD players. Phonographs are an example of how sensors on the needle detect movement, converting it to a signal and sound.
Nearly 150 years later and phonographs are a distant memory. Since then, technology has allowed for Bluetooth devices, wireless headphones, and more.
Electronic sensors are a large component of this growing market. Yet, they have several other critical uses you may not even realize.
Here’s an overview of electronic sensors. We will discuss how they are used in different markets and what to expect for future innovation. Keep reading for more information!
What Are Electronic Sensors?
Electronic sensors are modes of measuring physical parameters. For example, they can measure light or sound and transmit that into a signal. From there, the signal is more closely analyzed via an electronic system.
An easy way to see some electronic sensors' usage is through a temperature gauge. An electronic temperature sensor can detect changes outside a pre-set normal.
It will notify the electrical system. If the temperature reads too high or low, the heater or air conditioner automatically turns on.
However, there are many other types of electronic sensors used to monitor things like:
- And more
As you can imagine, electronic sensors are also used in various industries. These stem from healthcare to automotive.
You will find electronic sensors located in everyday electronic products. Or, you can find them in complex aerospace engineering projects. They are an integral part of society and help automate many tasks and functions.
Why Are Electronic Sensors Important?
Electronic sensors eliminate many tedious tasks that are prone to human error. For example, hospitals' automatic sensors on telemetry units detect small changes in heart rate rhythms.
These are used to diagnose conditions like arrhythmias. In return, you could have a person in a room continuously palpate various pulses for similar results.
Sensors offer more in-depth, continuous, and crucial feedback that dictates many autonomous functions in life. Another example is semiconductors used in cars. These chips are widely used in the automotive industry for various electronic functions, such as:
- Touchscreen displays
- Heated seats
- Air conditioning
- Automatic airbag deployment
- Seatbelt tensioners
- Cylinder-deactivation systems
- Blind-spot monitoring
- And more
While some features are nice to have, others are crucial to passenger safety and reduce the chances of motor vehicle crashes. Blind-spot monitoring is newer technology derived from electronic sensors. While many individuals learn to drive a car without blind-spot monitoring, research shows it reduces injuries caused by collisions by nearly 23%.
The Growing Demand for Electronic Sensors
Nearly every market and field has a demand for electronic sensors. Some of the areas that are experiencing high growth rates are:
- Smartphones and devices
- Wearable technology
- Automotive safety
- Aircraft sensors
In the airline industry, sensors help keep passengers safe, ensure smoother flights, and improve the aerospace market. In fact, aircraft sensors have an expected growth rate of nearly 12.05% between 2019 and 2027.
In the aviation sector, Micro-Electro-Mechanical-Systems (MEMS) improve the performance of applications. MEMS helps with:
- Flight control
- Compressor and turbine performance
- Reducing drag
- Aerodynamic performance
The future of sensors in the aviation industry is cordless features. One of the pitfalls of wiring sensors is noise, weight, and cable routing expertise. Innovative electronic sensors offer wireless features that reduce fuel costs and improve safety.
Electronic sensors are not solely used for personal or commercial use. They are also critical for industrial and manufacturing plants in the form of robotics and automated processes. They also keep workers safe by detecting changes in pressure, temperature, toxicity, and more.
OSHA sets several parameters for airborne concentrations in the workplace. Sensors are often used to detect these airborne particles and monitor exposure levels. In return, this can reduce the amount of exposure and prevent diseases or illnesses.
How Are Electronic Sensors Made?
Sensors have various circuits, wiring, and contact pins that all interconnect for accurate monitoring. Pins are essential since they primarily help with input and output measures.
These are also known as connector pins and are an essential step in how electronic sensors are made. Let's dive back into the automotive industry and see how they play an integral part. There are dozens of sensors in your vehicle, including things like:
- Engine oil
- Coolant temperature
- Tire pressure
Connector pins are the primary modes of input that detects changes in water, oil levels, pressure, and more. It helps vehicles run more efficiently and safely on the road. Connectors, printed circuit boards, and high-quality pins will help automotive manufacturers develop better automobiles.
The Importance of Innovative Electronic Sensors
Not even three decades ago, many individuals were using simple flip phones. Touch screen displays and ultra-fast wifi were unheard of. During this period, electronic sensors have allowed for upgraded technology, including fingerprint scanning, facial recognition, and more.
They help keep your house temperature comfortable and ensure safety when flying overseas. Electronic sensors are critical for technological innovation.
If you need help developing your electronic sensors, contact Bead Electronics today. We have helped several businesses like yours develop connector pins to help spur innovation.
Why Bead Connector Pins Are Essential
Bead Electronics’ custom connector pins are quality products used for automobiles, medical technology, aerospace engineering, HVAC-R, lighting, and communication. They help with power, signal, and electro-mechanical applications. Some benefits of choosing Bead connector pins are their customization and expanding market.
You can design a connector pin for your exact needs. Whether it is a tried and true solution or if you want to be a part of the innovative electronic sensor market, Bead pins can fit your needs.