AtmelTouch_Dlg-Dialog_Configurator_AVRTouchQTouch Component_AD
Summary
Th QTouch Component dialog provides controls to configure a touch sensor component on a schematic sheet when creating planar capacitive sensor patterns on your PCB for use with the range of Atmel® QTouch® and QMatrix® sensor controllers.
Access
The dialog is accessed by right-clicking over the placed sensor component then choosing the Configure command from the context menu.
Options/Controls
- Sensor Component Type - this drop-down allows you to switch between the different supported sensor components. The following sections detail the various components available.
Rectangular QTouch button
Use the QTouchButton
component to implement a button (key) sensor. This is a self-capacitance, zero-dimensional sensor with a single channel for connection directly to an Atmel QTouch sensor controller. The resulting sensor pattern on
the PCB is a simple rectangular-shaped electrode.
Options/Controls
- height - the height of the sensor pattern (up to 1000mm).
- width - the width of the sensor pattern (up to 1000mm).
Rectangular QMatrix button
Use the QMatrixButton
component to implement a button (key) sensor. This is a mutual-capacitance, zero-dimensional sensor with a single channel (one X and one Y electrode) for connection directly to an Atmel QMatrix sensor controller.
The resulting sensor pattern on the PCB consists of interlocking fingers of the X and Y electrodes in an overall rectangular shape. The Pattern for the X electrode completely surrounds that for the Y electrode.
Options/Controls
- height - the height of the sensor pattern (up to 1000mm).
- width - the width of the sensor pattern (up to 1000mm).
- front panel thickness - the thickness of the front panel. This value is used to calculate the thickness of the main 'border' of the enveloping X electrode (typically equal to the panel thickness), as well as the 'fingers' of the X electrode and the spacing between X and Y electrodes (typically half of the panel thickness). The front panel thickness can be between 0.1mm and 10mm.
- width of y side of the sensor - the width of the Y electrode. This should be kept as thin as possible, between 0.1mm and 0.5mm.
Small QTouch slider
Use the SmallQTouchSlider
component to implement a small-size slider sensor. This is a self-capacitance, one-dimensional, spatially-interpolated sensor with three channels for connection directly to an Atmel QTouch sensor controller.
The resulting sensor pattern on the PCB is comprised of simple rectangular-shaped electrodes. The pattern consists of two full sized electrodes for channels 0 and 1, with channel 2 divided into two half-sized electrodes at either end.
Options/Controls
- height - the height of the sensor pattern (between 5mm and 15mm).
- width - the width of the sensor pattern (between 21mm and 26mm).
- gap thickness - the clearance, or gap, between neighboring sensor channels (between 0.1mm and 0.5mm).
Medium QTouch slider
Use the MediumQTouchSlider
component to implement a medium-size slider sensor. This is a self-capacitance, one-dimensional, spatially-interpolated sensor with three channels for connection directly to an Atmel QTouch sensor controller.
The resulting sensor pattern on the PCB is comprised of toothed electrodes. The pattern consists of two full sized electrodes for channels 0 and 1, with channel 2 divided into two half-sized electrodes at either end.
Options/Controls
- height - the height of the sensor pattern (between 4mm and 30mm).
- width - the width of the sensor pattern (between 26mm and 60mm).
- gap thickness - the clearance, or gap, between neighboring sensor channels (between 0.1mm and 0.5mm).
Small QMatrix slider
Use the SmallQMatrixSlider
component to implement a small-size slider sensor. This is a mutual-capacitance, one-dimensional, spatially-interpolated sensor with multiple channels for connection directly to an Atmel QMatrix sensor controller.
The resulting sensor pattern on the PCB resembles a 1xn
array of buttons, where n
is the number of channels defined. X and Y electrodes are implemented as interlocking fingers. There is a gap between each successive X electrode.
The Y electrode is continuous (it is common to all channels), with an additional finger in this gap. Isolated regions of the same X electrode are connected using vias and a track placed on the opposite layer of the board.
Options/Controls
- number of channels - the number of channels comprising the sensor pattern (between 3 and 8).
- number of segments between channels - the number of additional segments added between the specified channels, allowing for a longer slider to be produced (between 0 and 10).
- front panel thickness - the thickness of the front panel. This value is used to calculate the thickness of the main 'border' of the X electrode (typically equal to the panel thickness), as well as the 'fingers' of the X electrode and the spacing between X and Y electrodes (typically half of the panel thickness). The front panel thickness can be between 0.1mm and 10mm.
- height - the height of the sensor pattern (between 5mm and 50mm).
- width - the width of the sensor pattern (between 24mm and 200mm).
- width of y side of the sensor - the width of the Y electrode. This should be kept as thin as possible, between 0.1mm and 0.5mm.
Medium QMatrix slider
Use the MediumQMatrixSlider
component to implement a two-layer medium-size slider sensor. This is a mutual-capacitance, one-dimensional, spatially-interpolated sensor with multiple channels for connection directly to an Atmel QMatrix
sensor controller. The resulting sensor pattern on the PCB is composed of n
slanting X electrodes, where n
is the number of channels defined. There is a gap between each successive X electrode. The Y electrode is continuous
(it is common to all channels) and consists of a number of horizontal 'fingers'. The Y electrode is located on the Top Layer, with the X electrodes located behind on the Bottom Layer.
Each X electrode segment is 4mm in height. For a slider that is greater in height, additional segments are essentially stacked in an alternating zigzag fashion. An additional Y electrode finger is added for each level of segments in this stack. For the default configuration where the height of the slider is 12mm, the stack incorporates three segments for each X electrode. The common Y electrode has three fingers.
Options/Controls
- number of X channels - the number of segments comprising the sensor pattern.
- number of segments between channels - the number of additional segments added between the specified channels, allowing for a longer slider to be produced.
- height - the height of the sensor pattern (between 4mm and 48mm).
- width - the width of the sensor pattern (between 20mm and 150mm).
- gap thickness - the clearance, or gap, between neighboring sensor channels/segments (between 0.1mm and 0.5mm).
- width of y side of the sensor - the width of the Y electrode. This should be kept as thin as possible, between 0.1mm and 0.5mm.
Small QTouch wheel
Use the SmallQTouchWheel
component to implement a small-size wheel sensor. This is a self-capacitance, one-dimensional, spatially-interpolated sensor with three channels for connection directly to an Atmel QTouch sensor controller. The
resulting sensor pattern on the PCB is comprised of simple wedge-shaped electrodes.
Options/Controls
- diameter - the diameter of the sensor pattern (between 12mm and 20mm).
Medium QTouch wheel
Use the MediumQTouchWheel
component to implement a medium-size wheel sensor. This is a self-capacitance, one-dimensional, spatially-interpolated sensor with three channels for connection directly to an Atmel QTouch sensor controller.
The resulting sensor pattern on the PCB is comprised of toothed electrodes.
Options/Controls
- outer diameter - the outer diameter for the sensor pattern (between 20mm and 60mm).
- inner diameter - the inner diameter for the sensor pattern (6mm or more).
- gap thickness - the clearance or gap between neighboring sensor 'teeth' (between 0.1mm and 0.5mm).
Medium resistively interpolated QTouch wheel
Use the MediumResQTouchWheel
component to implement a medium-size wheel sensor. This is a self-capacitance, one-dimensional, resistively-interpolated sensor with three channels for connection directly to an Atmel QTouch sensor controller.
The resulting sensor pattern on the PCB is comprised of wedge-shaped electrodes.
When configuring the sensor, you can choose how many electrode 'spacer segments' are used equally between channels. The default configuration uses three segments, resulting in 12 wedge-shaped X electrodes in the pattern. Remember that only three of
these electrodes are connected back to the sensor controller. For this default configuration, the three channels connected to the sensor controller are associated with pins 1
, 5
and 9
of the component.
Options/Controls
- number of segments between the channels - the number of electrode 'spacer' segments added between the sensor's three channels.
- outer diameter - the outer diameter for the sensor pattern (between 20mm and 60mm).
- inner diameter - the inner diameter for the sensor pattern (between 5mm and 9mm).
- gap thickness - the clearance, or gap, between neighboring electrode segments (between 0.1mm and 0.5mm).
Small QMatrix wheel
Use the SmallQMatrixWheel
component to implement a small-size wheel sensor. This is a mutual-capacitance, one-dimensional, spatially-interpolated sensor with multiple channels for connection directly to an Atmel QMatrix sensor controller.
The resulting sensor pattern on the PCB resembles a 1xn
circular array of buttons, where n
is the number of channels defined. X and Y electrodes are implemented as interlocking fingers with tapering of the X-electrode
fingers. There is a gap between each successive X electrode. The Y electrode is continuous (it is common to all channels), with an additional finger in this gap. Isolated regions of the same X electrode are connected using vias and a track placed
on the opposite layer of the board.
Options/Controls
- number of channels connected to the MCU - the number of channels comprising the sensor pattern, which are connected back to the sensor controller (between 4 and 8).
- number of segments between the channels - the number of electrode 'spacer' segments added between the sensor's specified channels (between 0 and 10).
- panel thickness - the thickness of the front panel. This value is used to calculate the thickness of the main 'border' of the X electrode (typically equal to the panel thickness), as well as the spacing between X and Y electrodes (typically half of the panel thickness). The front panel thickness can be between 0.1mm and 10mm.
- outer diameter - the diameter for the sensor pattern (between 15mm and 21mm).
- width of the y side of the sensor - the width of the Y electrode. This should be kept as thin as possible, between 0.1mm and 0.5mm.
A medium-sized, resistively interpolated QMatrix wheel
Use the MediumResQMatrixWheel
component to implement a two-layer medium-size wheel sensor. This is a mutual-capacitance, one-dimensional, resistively-interpolated sensor with multiple channels for connection directly to an Atmel QMatrix
sensor controller. The resulting sensor pattern on the PCB is composed of n
curved-tooth X electrodes, where n
is the number of channels defined. There is a gap between each successive X electrode. The Y electrode is continuous
(it is common to all channels) and consists of a number of 'rings'. The Y electrode is located on the Top Layer, with the X electrodes located behind on the Bottom Layer.
Each X electrode segment is radially 4mm in height. For a wheel that is greater in diameter, additional segments are essentially stacked, radially outward, in an alternating curved-tooth fashion. An additional Y electrode 'ring' is added for each level of segments in this stack. For the default configuration, where the inner diameter is 7.5mm and outer diameter is 30mm, the stack incorporates three segments for each X electrode. The common Y electrode has three rings accordingly.
When configuring the sensor, you can choose how many electrode 'spacer segments' are used, equally, between channels. The default configuration four channels and uses three spacer segments, resulting in 16 curved-tooth X electrodes in the pattern. For
this default configuration, the four channels connected to the sensor controller are associated with pins 1
, 5
, 9
and 13
of the component.
Options/Controls
- number of channels connected to the MCU - the number of channels comprising the sensor pattern, which are connected back to the sensor controller (between 4 and 8).
- number of segments between the channels - the number of electrode 'spacer' segments added between the sensor's specified channels (between 0 and 10).
- outer diameter - the outer diameter for the sensor pattern (between 10mm and 100mm).
- inner diameter - the inner diameter for the sensor pattern.
- gap thickness - the clearance, or gap, between neighboring electrode segments.
- width of the y side of the sensor - the width of the Y electrode. This should be kept as thin as possible, between 0.1mm and 0.5mm.
A medium/large QMatrix wheel
Use the MediumLargeQMatrixWheel
component to implement a two-layer medium-size wheel sensor. This is a mutual-capacitance, one-dimensional, spatially-interpolated sensor with multiple channels for connection directly to an Atmel QMatrix
sensor controller. The resulting sensor pattern on the PCB is composed of n
curved-tooth X electrodes, where n
is the number of channels defined. There is a gap between each successive X electrode. The Y electrode is continuous
(it is common to all channels) and consists of a number of 'rings'. The Y electrode is located on the Top Layer, with the X electrodes located behind on the Bottom Layer.
Each X electrode segment is radially 4mm in height. For a wheel that is greater in diameter, additional segments are essentially stacked, radially outward, in an alternating curved-tooth fashion. An additional Y electrode 'ring' is added for each level of segments in this stack. For the default configuration where the inner diameter is 16mm and outer diameter is 40mm, the stack incorporates three segments for each X electrode. The common Y electrode has three rings accordingly.
Options/Controls
- number of channels connected to the MCU - the number of channels comprising the sensor pattern, which are connected back to the sensor controller (between 4 and 8).
- number of segments between the channels - the number of electrode 'spacer' segments added between the sensor's specified channels (between 0 and 10).
- outer diameter - the outer diameter for the sensor pattern (between 20mm and 500mm).
- inner diameter - the inner diameter for the sensor pattern (5mm or more, and less than 8mm smaller than the outer diameter).
- gap thickness - the clearance, or gap, between neighboring electrode 'teeth' (between 0.1mm and 0.5mm).
- width of the y side of the sensor - the width of the Y electrode. This should be kept as thin as possible, between 0.1mm and 0.5mm.