The Age of the IoT ── Have you ever had problems detecting the movement of things?
～ Why are Hall Effect Switch ICs perfect for solving such problems? ～
Now that we have entered the age of the IoT, the importance of accurately detecting the position and status of things is greater than ever. The problem is with what kind of technology the mechanism for that should be mounted. For instance, smart homes must know whether windows and doors are opened or closed. Therefore, the electronic mechanism for detecting these conditions must be very small, use very little power and cannot break down over long periods of time.
What kind of technology should a mechanism of this kind be? The answer, utilizing Hall Effect Switch ICs.
The limits of physical switches and optical sensors
Detecting the movement of things such as home windows and doors and then converting them to electrical signals traditionally has been done with mechanical switches.
However, in order for a physical switch to detect the opening and closing movement of a window or door, the construction becomes complicated because the switch requires a pressing movement or a sliding movement. Furthermore, if dust accumulates around the moving section or the unit becomes exposed to moisture, then it can easily fail and there is no assurance that it will be stable for long periods of time.
So, what about non-contact switches made by combining light-emitting diodes with optical sensors? This mechanism would make the physical construction simple and facilitate design. However, there is the concern that ambient light and grime could reduce the sensitivity of the sensors. In this case, It is also difficult to reduce power consumption.
Hall Effect Switch IC as an option
Hall Effect Switch IC’s are a technology that can solve all of the technological problems described above. The Hall Effect Switch IC is an IC that uses semiconductor sensors to convert magnetic strength into electrical signals. There are three types of magnetic detection: Unipolar detection, omnipolar detection, and alternate detection. Hall Effect Switch ICs that use these methods have the characteristics described below.
(1) Unipolar detection/omnipolar detection
Unipolar detection/omnipolar detection Hall Effect Switch ICs are switch type ICs that detect the proximity of magnets and output signals. When the magnets move away, they return to their original states. Unipolar detection units react to either the N or S poles, and omnipolar detection units react to both.
These types of Hall Effect Switch ICs can be used together with magnets as non-contact switches. Therefore, they are widely used to detect the opened or closed state of flip phones and laptop computers.
For example, a small magnet can be placed on the screen side of a mobile phone, and a Hall Effect Switch IC on the keypad side. When the user closes the phone, the Hall Effect Switch IC detects the proximity of the magnet, it then outputs a signal, and puts the cell phone into sleep mode.
(2) Alternate detection
Alternate detection Hall Effect Switch ICs detect when the N and S poles alternate. Also known as bipolar detection.
For instance, a circular magnet is rotated, and an alternate detection Hall Effect Switch IC is placed near it. This allows measurement of the rotational speed of the circular magnet. This type of Hall Effect Switch IC is used to control the rotational speed of motors and fans.
A wide variety of Hall Effect Switch ICs
Making the wishes of engineers into something tangible
As the descriptions above show, the concept behind Hall Effect Switch ICs are very simple. They can be applied to many different magnetic sensing transistions and functions.
Therefore, ABLIC provides many different types of Hall Effect Switch ICs to meet the needs of engineering challenges. Today, we are expanding the range of our Hall Effect Switch ICs for applications in the IoT world, such as Hall Effect Switch ICs of low-voltage type, high breakdown voltage type, high-speed operation, and high-temperature operation type.
The Hall Effect Switch ICs from ABLIC also have the common features of being compact, low power, highly accurate, and high in quality. With respect to power consumption, they rate among the lowest in the industry. Package mounting density is among the best in the industry. We have many different models available centering on our non-leaded SNT-4A (4-pin, 1.6 x 1.2 x 0.5 mm) that simplifies visual inspections. Our general-purpose SOT-23-3 and SOT-23-3S units and our TO-92S insertion package.
Oftentimes, IoT devices are required to be durable, energy efficient and space saving. It can be said that the Hall Effect Switch ICs from ABLIC are perfect for use in such IoT devices.
ABLIC provides a variety of technological support services for Hall Effect Switch ICs including our High-precision Magnetic Simulation Service. This service allows an inexperienced person dealing with magnetism, magnets and Hall Effect Switch ICs to make highly accurate magnetic designs.
Hall Effect Switch IC applications depend on a user’s imagination!
With the start of this age of the IoT, a wide range of applications and services are being developed that use various types of sensing devices. These are not limited to smart homes, but also include home appliances, toys, and wearable products. As one type of sensing device, Hall Effect Switch ICs are very convenient for detecting the physical movement of things and their applications can be extended widely, depending on a users imagination.
As we have mentioned, a simple example would be to use Hall Effect Switch ICs to detect the opened and closed states of doors, windows, appliances or anything that could control two states and linking that information with a cloud service or smartphone for remote monitoring via a home security service. It should also be easy to make a system that allows motors in toys to be controlled remotely by smartphones.
In order to further expand the possibilities of Hall Effect Switch ICs, ABLIC has developed and started to supply the new Hall Effect Switch IC, the S-5718. In our next column, we will be describing the S-5718 innovative functions and range of possible applications.
- S-5718 Series
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- Vol.1 Do you know what it is? It is the secret to dramatically extending the battery life of wearable devices! (May 15, 2017)
- Vol.2 Self-current consumption of 260 nA achieved ── Ultra-High Efficiency Switching Regulator, Impact of S-85S1A (June 8, 2017)
- Vol.3 Innovation brought about by the collaborative creation with end users ── Ultrahigh-Efficiency Step-down Switching Regulator with a Supply Voltage Divided Output S-85S1P (June 27, 2017)
- Vol.4 The Age of the IoT ── Have you ever had problems detecting the movement of things? ～ Why are Hall Effect Switch ICs perfect for solving such problems? ～ (Dec. 07, 2017)
- Vol.5 The Transformation in IoT Devices brought about by Innovations in Hall Effect Switch ICs ── What is the impact of the S-5718, which can distinguish three states in one device? (Dec. 19, 2017)