ATAVRTS2080A Atmel, ATAVRTS2080A Datasheet - Page 112

ATAVRTS2080A

Manufacturer Part Number

ATAVRTS2080A

Description

KIT QTOUCH W/SW ATMEGA88

Manufacturer

Atmel

Series

QTouch™r

Datasheets

1.ATAVRQTOUCHX.pdf (178 pages)

2.ATAVRTS2080B.pdf (378 pages)

Specifications of ATAVRTS2080A

Sensor Type

Touch, Capacitive

Sensing Range

1 Rotor, 1 Slider, and 2 Buttons/Keys

Interface

Application Programming Interface (API)

Voltage - Supply

1.8 V ~ 5.5 V

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

ATmega88

Tool Type

Development Kit

Cpu Core

AVR 8 / 32

Data Bus Width

8 bit

Core Architecture

AVR

Silicon Manufacturer

Atmel

Silicon Core Number

ATmega88, ATmega88A

Silicon Family Name

AVR

Kit Contents

Board, CD

Development Tool Type

Hardware / Software - Eval/Demo Board

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Sensitivity

Lead Free Status / Rohs Status

Details

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6.3.7.2.2

When the External Discharge arrangement is used, a logic-level (DIS) pin is connected to an

external resistor (Rdis) that can be used to control the discharge of the Capacitors. A typical

value for Rdis is 100 kOhm. This value of Rdis will give a discharge current of approximately

1.1V/(100 kOhm) = 11 microAmp. The case C shows this arrangement. The Resistive drive

option on the X and Yk lines can be optionally enabled or disabled with this arrangement. When

the Resistive drive is option is not enabled, it is recommended to use 1kOhm resistors on X and

Yk Lines external to the UC3L device.

6.3.7.2.3

When the SMP Discharge mode arrangement is used, a logic-level (SMP) pin is connected to the

capacitors through external high value resistors for the discharge of the capacitors. The case D

shows this arrangement. The Resistive drive option on the X and Yk lines can be optionally

enabled or disabled with this arrangement. When the Resistive drive is option is not enabled, it is

recommended to use 1kOhm resistors on X and Yk Lines external to the UC3L device.

6.3.7.2.4

The VDIV pin provides an option to make ACREFN a small positive voltage if required. The VDIV

pin is driven when the analog comparators are in use, and this signal can be used along with a

voltage divider arrangement to create a small positive offset on the ACREFN pin. The VDIVEN

option can be used optionally with any of the QMatrix modes discussed in the previous sections.

Typical values for Ra and Rb are Ra=16500 ohm and Rb = 50 ohm. Assuming a 3.3V I/O supply,

this will shift the comparator threshold by 3.3V*(Rb/(Ra+Rb)) which is 10 mV. The VDIVEN pin

option usage in the Internal Discharge mode scenario is shown in case E.

6.3.7.2.5

In order to prevent interference from the 50 or 60 Hz mains line the CAT can optionally trigger

QMatrix acquisition on the external SYNC input signal. The SYNC signal should be derived from

the mains line and the acquisition will trigger on a falling edge of this signal. The SYNC pin

option can be used with any of the QMatrix modes discussed in the previous sections. The

SYNC pin usage in the Internal Discharge mode scenario is shown in case F.

For QMatrix method SMP, DIS, VDIV and SYNC pin options discussed in this Section, Refer to

Section

112

6.3.15.2.13.

SMP Discharge Mode

VDIVEN Voltage Divider Enable option

External Discharge mode

SYNC pin option

8207J-AT42-02/11

ATAVRTS2080A Atmel, ATAVRTS2080A Datasheet - Page 112

ATAVRTS2080A

Specifications of ATAVRTS2080A

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