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If you’re familiar with the way smartphones and other devices with touch screens work, then you’re already familiar with capacitive touch sensors. These sensors do more than just allow touch screens to distinguish fingers from other objects. Many sensors use capacitive sensing, sensors for measuring proximity, displacement, force, humidity, and fluid level. With the number of HMI devices that are projected to come into demand in the near future, engineers need tools to design and simulate these sensors directly on PCBs. Altium Designer contains all the features you need for capacitive touch sensor PCB design and much more.
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The only PCB design package with a comprehensive tool set for capacitive touch PCB design sensors and much more.
The age of IoT is here, and new devices are coming online for interfacing with the environment and with humans. These devices require sensor arrays to gather data, as well as processing capabilities to process, store, and transmit this data to the cloud. One type of sensor with broad functionality is capacitive sensors, which convert a change in capacitance and the resulting current due to charging or discharging to a digital signal.
When it comes to capacitive touch PCB design, your PCB design and layout play a critical role in determining the sensor performance of the device. The right layout for your sensor can maximize the responsivity of the sensor and lower parasitic capacitance, which helps maximize the signal-to-noise ratio with these devices. With the right design tools, you can easily integrate capacitive touch sensors into your next PCB.
Designing a capacitive touch sensor on your Printed Circuit Board requires determining whether you will take advantage of changes in self capacitance or mutual capacitance in the sensing element. The touch sensor can be easily controlled with an MCU. A self capacitive sensor only requires one input (Rx) pin be used to sense the signal from the touch sensor, while a mutual capacitive sensor uses a Tx and Rx pin in order to receive the signal from the sensor.
Unless you are using a commercially available capacitive touch sensor, you will need to print the conductors for your sensor directly on your board. You will then need to couple your conductors to a continuous ground plane that runs beneath each conductor. With a mutual capacitive touch sensor, you will need to send a stream of bits from the Tx pin to one conductor, and the other conductor is left floating while connected to the Rx pin. With a self capacitive touch sensor, you only need to worry about connecting the Rx pin to your conductor.
The right CAD tools in your PCB design software will allow you to complete two important tasks in capacitive touch sensor design. First, you can accurately size and layout the conductors you need for your sensor. Second, you can access a 3D model for the dielectric cover for your touch sensor and place it directly on your sensor.
These are just a few examples of the conductor arrays you can create with the CAD tools in Altium Designer
A capacitive touch sensor can be used for a number of applications. In addition to sensor direct contact between a human finger and a dielectric, a capacitive touch sensor can be configured to sense proximity without making direct contact with the sensor. These sensors can also be designed to measure the precise position of a finger on a sensor. With some additional calculations in the MCU, this same array can be configured to detect motion across the sensor. If avoiding interference from water is an important consideration, you’ll be better off using a mutual capacitive touch sensor.
Just like a sensor that measures direct static contact with a human finger, PCB design software for capacitive touch sensors need accurate CAD tools that do not limit your conductor layout to a specific geometry. With the right component libraries, you can easily add models for your supporting electronics to your Printed Circuit Board and design a complete capacitive touch sensing solution.
Accessing components in unified component libraries
Touch sensors are deceptively simple elements, but designing them takes the right CAD and layout tools. Your CAD tools need to allow you to define copper pours in any geometry you can imagine, and you’ll need a layer stack manager in order to place your ground and power planes at the right locations in your layer stack. With Altium Designer, you’ll have access to all of these design features and much more in a single design environment.
Altium Designer contains the important tools you need for capacitive touch sensor PCB design, as well as many other tools that help you integrate these sensors with other components. This design software includes a complete design hierarchy that standardizes your design data and helps you move to production seamlessly, and all within a single design environment. No other design software offers this level of integration.
Other design platforms lack the functionality you need to design custom capacitive touch sensors directly on a PCB. Instead, you’ll be limited to the functionality offered by commercially available sensors, and other programs may not include models for these components. Instead, you need to work with the only integrated design software that includes support for a massive number of components and integrates all your important design tools into a single program.
When you choose Altium Designer, you’ll always have access to the resources you need to design successfully. From the AltiumLive forum to podcasts and a massive knowledge base, you’ll have plenty of resources to help you reach design success. It’s time to make the switch to the best PCB design platform on the market. It’s time to try Altium Designer.