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 2013 Microchip Technology Inc. DS50002221A-page 1

CAP1xxx Evaluation Board User’s Guide

DS50002221A-page 2  2013 Microchip Technology Inc.

1 Overview

This document provides a description of the software and hardware used to demonstrate the features

of the Microchip CAP1xxx Family of RightTouchTM multiple-channel capacitive touch controllers and

LED drivers. Two evaluation boards are covered in this User's Manual. The CAP1188 evaluation board

contains the largest, full-featured version of the CAP11xx family. The other devices in this family are

the CAP1166, CAP1128, CAP1126, CAP1133, and CAP1106. Likewise, the CAP1298 evaluation board

contains the largest, full-featured version of the CAP12xx family. The other devices in this family are

the CAP1296, CAP1293, CAP1208, CAP1206, and CAP1203.

1.1 References

Readers should be familiar with or have access to the datasheet for the device and the schematic for

the evaluation board.

The datasheet is included with the CD provided with the evaluation board, and can also be

downloaded from the Microchip website at http://www.microchip.com/mtouch.

The schematic is included with the CD provided with the evaluation board.

1.2 The RightTouch Evaluation System

The evaluation system has three major parts, as shown in Figure 1.1:

Customer-provided Windows PC

CAP1xxx graphical user interface (GUI) software (based on National Instruments

TM LabVIEWTM

software)

CAP1xxx Evaluation Board - either the CAP1188 or CAP1298 versions (see Figure 1.2)

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Figure 1.1 CAP1xxx Evaluation System

CAP1188 Device Capacitive

Sensors

LED

Drivers

PIC16F1454

CAP11xx

Evaluation

Board

I2C

with CAP1xxx GUI

USB

CAP1298 Device Capacitive

Sensors

LED

Drivers

PIC16F1459

CAP12xx

Evaluation

Board

with CAP1xxx GUI

USB

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1.2.1 Capacitive Sensing Device on the Evaluation Board

The CAP1188 device was chosen for the evaluation board because it has the most sensors and LEDs

in the CAP11xx family.

Note: The CAP1114 and CAP1214 devices, each with 14 sensors and 11 LED drivers, contain

additional features such as slider support which will be highlighted in their own evaluation

board.

The CAP1298 device was chosen for the evaluation board because it is the superset device in the

family, meaning it has the most sensors and features in the CAP12xx family including the signal guard.

The CAP1188, CAP1166, CAP1128, CAP1126, CAP1133, and CAP1106 are similar, with the exception

of the number of capacitive sensor inputs and LED drivers, as shown in Table 1.1.

Figure 1.2 CAP1xxx Evaluation Board Top View

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The CAP1298, CAP1296, CAP1293, CAP1208, CAP1206, and CAP1203 part of the same family and

so have a very similar feature set, with the major exception being of the number of capacitive sensor

inputs and the guard output, as shown in Table 1.2.

1.2.2 Major Components on the Evaluation Board

Figure 1.3 shows the component side of the CAP1188 evaluation board and highlights some of the

important components.

Table 1.1 CAP11xx Device Differentiation

DEVICE NUMBER OF LED DRIVERS NUMBER OF CAPACITIVE

SENSOR INPUTS

CAP1133 3 3

CAP1106 0 6

CAP1126 2 6

CAP1166 6 6

CAP1128 2 8

CAP1188 8 8

Table 1.2 CAP12xx Family Device Differentiation

DEVICE NUMBER OF CAPACITIVE

SENSORS GUARD

CAP1203 3 No

CAP1293 3 Yes

CAP1206 6 No

CAP1296 6 Yes

CAP1208 8 No

CAP1298 8 Yes

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Figure 1.3 Evaluation Board Component Side View

PIC16F1455

USB

5V to 3.3V

Regulator

PIC16F1455

Programming

Header

CAP1188

8-pin

Communication

Header

PIC16F1459

USB

PIC16F1459

Programming

Header

CAP1298

8-pin

Communication

Header

CAP1xxx Evaluation Board User’s Guide

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2 Software and Hardware Installation

To begin using the CAP1xxx evaluation board, you only need to supply power by plugging in the USB

connector. However, in order to further evaluate the features of the CAP device, the CAP1xxx GUI

must be installed on a Windows-based computer with a USB port.

2.1 GUI Software Installation

Begin by inserting the CD provided with the evaluation board into the computer. Run the Setup.exe

program located in the root directory of the CD. This steps through the CAP1xxx GUI installation, which

takes less than a minute. Figure 2.1 shows the initial installation screen, which displays briefly as the

setup program loads.

Figure 2.1 Software Installation Step 1

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Click Next in the Destination Directory window, shown in Figure 2.2. For proper operation, the files

must be installed in the default locations. The default location for the software files is C:\Program

Files\Microchip\Microchip CAP1xxx GUI and for the LabVIEWTM software is C:\Program Files\National

Instruments.

In order to use the LabVIEWTM software, the license agreement must be accepted (see Figure 2.3).

Figure 2.2 Software Installation Step 2

Figure 2.3 Software Installation Step 3

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Follow the on-screen instructions to complete the installation. During installation, shortcuts will be

created on the Windows Start Menu and on the desktop. When installation is complete, the program

will automatically run and begin looking for the PIC16F145x USB to I2C bridge. (see Figure 2.4).

Figure 2.4 RightTouch Evaluation Software Start-up Screen

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2.2 USB Bridge Installation

To complete the installation, connect the USB mini connector to the EVB and the standard USB

connector to any available USB port on the PC. If the USB Bridge driver has not previously been

installed on the selected USB port, the “Find New Hardware” wizard will pop up on the PC’s screen.

Follow the on-screen instructions to complete the installation process. See Figure 2.5 through

Figure 2.8 for a step by step view of the installation.

Once installation of the USB Bridge is complete, the GUI software will begin communications with the

device on the EVB.

Figure 2.5 USB Bridge Driver Installation Step 1

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Figure 2.6 USB Bridge Driver Installation Step 2

Figure 2.7 USB Bridge Driver Installation Step 3

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Figure 2.8 USB Bridge Driver Installation Step 4

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3 Quick Start Window

The Quick Start Window provides the same information as the Advanced Window, but reduces the

number of options for a more manageable initial user experience. For more information on what

options are provided on the Quick Start Window and how to use them, refer to the CAP1xxx Quick

Start Guide provided with the CAP1xxx CD.

4 Advanced Tab

4.1 Default Conditions

Communications begin as soon as the CAP1xxx GUI software detects the presence of the CAP1xxx

evaluation board. The GUI then reconfigures the CAP1xxx evaluation board with predetermined values

specific to the evaluation board's hardware. Figure 4.1 shows the default GUI for the CAP1188

evaluation board.

Figure 4.1 Default State of RightTouch GUI with the CAP1188 Evaluation Board

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evaluation board. Figure 4.3 shows the Device Information Control Panel for the CAP1188 evaluation

board.. This control panel also shows the values from reading the Product ID Register (FDh) and

Revision Register (FFh) on the device.

Clicking the Datasheet button opens a browser window that will display a PDF file of the datasheet of

the connected device.

4.4 Save/Load Tab

The Save/Load tab, located in the lower left corner of the Advanced Tab and shown in Figure 4.4,

allows the user to save all the settings that have been configured for the device to allow quick re-

configuration at any time.

Figure 4.3 Device Information Control Panel

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To save device configuration settings:

Using the GUI, configure the CAP1xxx as desired.

Select the Save/Load tab.

Type in a path, or click the folder icon to browse to your desired save location.

Click the 'SAVE' switch to store the configuration.

Notes:

1. The file should be named with the extension '.txt' or similar plain-text file format. The data is saved

in two columns separated by tabs. The first column is the register's address, and the second

column is the register's value.

2. If a file with the same name already exists, the file will be overwritten and old data will be lost.

3. When a file is loaded, the Auto Clear INT button is disabled. Click it to re-enable auto-clearing of

interrupts (see Section 4.5.2, "Auto Clear INT").

Once a file is saved, it can be recalled at any time by selecting the file in the data path window and

clicking the “LOAD” switch. The file can also be linked to a QuickLoad button (see Section 4.5.5,

"QuickLoad Buttons").

Figure 4.4 Save/Load Tab

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The evaluation board GUI comes with several sample configuration files which vary the settings for

different functions.

4.5 Communications Status and Control Panel

Along the right side of the GUI is the control panel shown in Figure 4.5. This is the Communications

Status and Control Panel, which controls and displays the status of the communications between the

GUI software and the evaluation board and includes buttons for loading configurations. This control

panel is always displayed.

Figure 4.5 Communications Status and Control Panel

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4.5.5 QuickLoad Buttons

The QuickLoad buttons, on the Panel shown in Figure 4.5, allow the user to quickly load configuration

files (see Section 4.4, "Save/Load Tab").

There are five QuickLoad buttons available. Each button is linked to a “.txt” file in your installation

directory that has the filename listed above the button. To link the button to a different file, type the

filename (without the extension) in the box above the button, then click off the field. Figure 4.7 shows

new names for the first two buttons. To load the file, click the button or press the shortcut key listed

next to the button.

The 'Buttons' QuickLoad option will set up the CAP1xxx evaluation board for each sensor to behave

as normal touch buttons. Due to the thin front cover of the evaluation boards, this means the gain is

set to the lowest option, and the sensitivity option is greatly reduced from the maximum.

The 'Proximity' QuickLoad option will set up the CAP1xxx evaluation board for all of the sensors to

detect the proximity of a hand approaching. The gain and sensitivity, in this case, are set very high.

Using this configuration, you can see how the size of the sensors will affect the possible range of

proximity detection.

4.5.6 Defaults Button

The Defaults button, toward the bottom of the red highlighted panel shown in Figure 4.5, loads the

default register settings on the device as described in the datasheet.

The keyboard shortcut is F6.

Figure 4.7 QuickLoad Buttons

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4.5.7 COM Indicator

The COM indicator, toward the bottom of the Panel shown in Figure 4.5, indicates the status of

communications over the I2C. During normal operation, the COM indicator is dark. If I2C

communications fail, the COM indicator turns red.

4.5.8 I2C Address

I2C Address, at the bottom of the red highlighted panel shown in Figure 4.5, indicates the 2C address

of the device.

4.6 Delta Counts Tab

The Delta Counts tab on the Main window and in the Quick Start window shown in Figure 4.8, displays

the delta counts of the capacitive sensor channels. The Delta Count Register address for each sensor

input is listed below the sensor number.

When the Display Value switch is set to Delta, the number cell below each indicator bar displays the

least significant byte of that channel’s current delta count. When the Display Value switch is set to Max,

Figure 4.8 Delta Counts Tab

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the number cell below each indicator bar displays the max delta count for the channel (when the Max

Enable switch is up). The outline on the top of each indicator bar shows the threshold of the sensor

channel. As a sensor pad is being approached and touched, a black bar displays the actual delta

count.

The Max Enable switch, when set in the upper position, turns on display of thin blue bars that indicate

the maximum delta count for each channel. These bars display the maximum delta count until the Max

Enable switch is set to the lower, “Clear” position.

Settings that control the threshold values are covered in Section 4.9, "Sensitivity Control Panel".

All numbers (except register addresses) on this tab are displayed in decimal format.

4.7 Base Counts Tab

The Base Counts tab on the Main window, shown in Figure 4.9, displays Base, Delta, Current Count,

Calibration Factor, and Capacitance in a register format and includes a Sensitivity control. This tab can

be used to check the sensors' calibration values.

Figure 4.9 Base Counts Tab

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The formats of values on this control panel can be changed to Hexadecimal, Octal, Binary or SI

Notation by clicking the tap in the front of each data cell (see Section 4.2.1, "Numbering Systems

Views").

The Sensitivity Control section affects the Sensitivity Control Register (1Fh). The Base Shift controls

the scaling and data presentation of the Base Count registers. The higher the value of these bits, the

larger the range and the lower the resolution of the data presented. It should not be necessary to

modify this number.

The Sensitivity drop-down list allows update of the sensitivity multiplier, which controls sensitivity of a

touch detection. This value can also be updated using the Sensitivity bar in the Sensitivity Control

Panel (see Figure 4.11, "Sensitivity Control Panel").

4.8 Register Data Tab

The Register Data tab in the Advanced window shown in Figure 4.10, displays a list of all registers

and allows the user to directly write to any register of the device.

The All Raw Device Registers display shows a scrollable list of registers and their current values. It is

important to note that not all addresses are physical memory locations on the device; these registers

will read “0”. Likewise, some registers shown that are undocumented in the datasheet may have data.

Figure 4.10 Raw Data Tab

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Editing these registers can cause unexpected results. If a mistake is made while making a manual edit

in this window, it may be necessary to revert to the defaults or a stored configuration.

The Single Byte Register Access control allows direct write to any register within the device.

The formats of address and data on this control panel are hexadecimal by default, with the option to

change to Decimal, Octal, Binary or SI Notation (see Section 4.2.1, "Numbering Systems Views").

4.9 Sensitivity Control Panel

The Sensitivity Control Panel provides controls for capacitive sensor input sensitivity and on-demand

calibration, as shown in Figure 4.11.

The Sensitivity bar affects the Sensitivity Control Register (1Fh), which controls the amount of

capacitance change required to affect the sensor's signal.. Clicking the bar changes the setting. The

value selected is also reflected in the Sensitivity cell on the Base Counts Tab.

Occasionally it is desirable to force recalibration of the sensor inputs. Clicking the Calibration Activate

switch will recalibrate the sensor inputs.

Note: This is equivalent to writing 0xFF to the Calibration Activate register (26h).

Figure 4.11 Sensitivity Control Panel

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4.10 Thresholds Control Panel

The Thresholds Control Panel, shown in Figure 4.12, contains 4 tabs which are described below.

4.10.1 Active Tab

The Active tab of the Advanced window's Thresholds section, shown in Figure 4.12, contains the

sensor input thresholds (registers 30h - 37h) that define the delta count level at which touches are

reported when the device is in the Fully Active state.

To quickly set all Active tab sensor input thresholds to the same value, ensure the 'Sensor 1 Updates

All' switch is in the up position, enter the desired value into the Sensor 1 data cell, and then click out

of the cell. To individually set Active tab sensor input thresholds, click the 'Sensor 1 Updates All' switch

so it’s in the down position and displays the label “Individual Sensor Updates”.

4.10.2 Standby Tab

The Standby tab of the Advanced window's Thresholds section shown in Figure 4.13, contains sensor

input controls for the Standby power state.

Figure 4.12 Thresholds Control Panel - Active Tab Displayed

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The Standby Threshold defines the delta count threshold level for all sensor inputs when the device is

in the Standby state. There is also a Standby Sensitivity bar that affects the Standby Sensitivity

Figure 4.13 Thresholds Control Panel - Standby Tab Displayed

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4.10.3 Noise Tab

The Noise tab of the Main window's Thresholds section shown in Figure 4.14, contains the threshold

used to detect noise. The Sensor Noise Thresholds are a percentage of the Sensor Thresholds on the

Active tab.

Figure 4.14 Thresholds Control Panel - Noise Tab Displayed

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4.11 Recalibration Configuration Control Panel

On the Advanced window below the Thresholds section is the Recalibration Configuration section

shown in Figure 4.15.

The 'Calibration #samples / time' drop-down menu allows selection of the update time and number of

samples related to the recalibration routine. Negative delta count allows selection of the number of

consecutive negative delta counts necessary to trigger a digital recalibration. Both of these controls

affect the Recalibration Configuration Register (2Fh).

Figure 4.15 Recalibration Configuration Control Panel

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4.12 Status and Control Panel

The Status and Control section of the Main window shown in Figure 4.16, displays the current Sensor

Status register value and the General Status register. It also provides control and display of the device

interrupt, power states, and advanced configuration options.

When the sensor's signal exceeds the threshold, the Sensor Status section will change the

corresponding square button to a dark square. Depending on configuration settings, indicators in the

General Status section may turn blue (or a lighter color, depending on the PC settings) when the

criteria for the indicator is met.

If the Auto Clear INT button on the Panel (see Section 4.5, "Communications Status and Control

Panel") is enabled (dark gray), the INT indicator, General Status section, and the Sensor Status section

are continuously cleared. This allows the user to see only the current state of the device.. If the Auto

Clear INT button is disabled (light gray), the user must manually clear interrupts by clicking the INT

indicator or the Auto Clear INT button. This allows for a more realistic demonstration of the behavior

of the device's registers between host reads and writes of the INT bit.

Figure 4.16 Status and Control Panel

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4.12.1 Power States

Please refer to the device datasheet for details regarding the different power states. The software

switches work as follows:

The Standby switch toggles between the Standby and Fully Active states.

The Deep Sleep switch puts the device into the Deep Sleep state. To exit Deep Sleep, click

anywhere on the GUI to display the message shown in Figure 4.17. There is also a timeout that

will display the message shown in Figure 4.18.

4.12.2 Configuration and Configuration 2

The Configuration section of 'Status and Control' allows the user to enable and disable bits in the

Configuration Register (20h). The Configuration 2 section allows the user to enable and disable bits in

the Configuration 2 Register (44h). These registers control the general global functionality of the

device. Refer to the datasheet for details.

Figure 4.17 Deep Sleep Message

Figure 4.18 Deep Sleep Timeout Message

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Controls in the Multiple Touch section affect the Multiple Touch Configuration Register (2Ah). Multiple

touch settings determine how simultaneous touches to multiple buttons .are handled. Remember to

check the 'Multiple Block Enable' box to enable this feature. In the actual device, the 'enable' bit must

also be set in the register to enable the feature.

Controls in the Repeat Rate Enable section affect the Repeat Rate Enable Register (28h). When

checked, the repeat rate defined in the Sensor Configuration section is enabled for the button.

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The 'Standby Channel' column determines which sensors are scanned in Standby mode. For the

CAP12xx devices, this also determines which sensors will be scanned using the Combo Gain settings

when in Combo mode.

The 'Signal Guard Enable' column is only available on CAP129x devices and determines which

sensors will have the signal guard enabled during their scan.

Figure 5.2 All Sensor Settings

Produktspecifikationer

Varumärke:	Microchip
Kategori:	Inte kategoriserad
Modell:	CAP1133
Färg på produkten:	Zwart
Vikt:	2210 g
Bredd:	150 mm
Djup:	160 mm
Höjd:	86 mm
Ljudnivå:	- dB
Förpackningens vikt:	2510 g
Förpackningens bredd:	194 mm
Djuppackning:	310 mm
Förpackningshöjd:	120 mm
Typ av förpackning:	Doos
Nuvarande:	6 - 12 A
Certifiering:	CCC, CE, TUV-SUD, RCM, EAC, cTUVus, FCC, BSMI, KC, CB
Avsedd för:	PC
Antal fans:	1 ventilator(en)
Strömspänningsskydd:	Over power, Over voltage, Overheating, Short circuit, Under voltage
80 PLUS certifiering:	80 PLUS Gold
Medeltid mellan fel (MTBF):	100000 uur
Totala tillgångar:	650 W
Effektfaktor:	0.9
Typ av kylning:	Actief
Effektivitet:	90 procent
(Ytter) huvudpaketets höjd:	220 mm
(Ytter) huvudförpackningens bredd:	325 mm
(Ytre) huvudpaketets längd:	620 mm
Kvantitet per (yttre) huvudkartong:	5 stuk(s)
Produkter per pall:	16 stuk(s)
AC-ingångsspänning:	100 - 240 V
AC-ingångsfrekvens:	50 - 60 Hz
Drifttemperatur (TT):	0 - 45 °C
Ventilator diameter:	120 mm
ATX-strömkontakt (24-stift):	Ja
Anslutning för diskettstation:	Ja
Moderkortsformfaktorer som stöds:	ATX
Moderkorts strömkontakt:	20+4 pin ATX
Perifera (Molex) strömkontakter (4-stift):	6
Strömförsörjningsformfaktor (PSU):	ATX
Lagerteknik:	LDB
Power Factor Correction (PFC) typ:	Actief
Kombinerad effekt (+3,3V):	100 W
Kombinerad effekt (+12V):	649.2 W
Kombinerad effekt (+5V):	100 W
Max aktuell utgång (+3,3V):	15 A
Max strömutgång (+12V):	54.1 A
Max aktuell utgång (+5V):	15 A
Max strömutgång (-12V):	0.3 A
Max strömutgång (+5Vsb):	2.5 A
Kombinerad effekt (-12V):	3.6 W
Kombinerad effekt (+5Vsb):	12.5 W
Antal SATA-strömkontakter:	8
Strömkontakt för diskettenhet:	1
ATX version:	2.31
Håll tid:	14 ms
PCI Express-strömkontakter (6+2-stift):	4
CPU-strömkontakt (4+4-stift):	Ja
SATA-strömkabelns längd:	760 mm
Längd på moderkortets strömkabel:	610 mm
PCI Express strömkabellängd:	720 mm
CPU-strömkabelns längd:	650 mm
Fördröjningsområde Effekt Bra signal:	100 - 500 ms
Längd perifer strömkabel (Molex):	640,760 mm