AK4186 Datasheet, PDF(7/33 Page) Asahi Kasei Microsystems – Low Power Touch Screen Controller with I2C Interface

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AK4186 Datasheet, PDF (7/33 Pages) Asahi Kasei Microsystems – Low Power Touch Screen Controller with I2C Interface

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[AK4186]

â Function Overview

OPERATION OVERVIEW

The AK4186 consists of the following blocks:

â 1.6V Successive Approximation Resister (SAR) A/D converter

â 4-wire or 5-wire resistive touch screen controller interface

â Single or Continuous A/D conversion

â Internal Clock for SAR A/D Converter

â I2CTM I/F

â A/D Converter for Touch Screen

The AK4186 integrates a 12bit successive approximation resistor (SAR) A/D converter for position measurement,

temperature, and auxiliary input. The architecture is based on capacitive redistribution algorithm, and an internal

capacitor array functions as the sample/hold (S/H) circuit.

The SAR A/D converter output is a straight binary format as shown below:

Input Voltage

Output Code

(ÎVREF-1.5LSB)~ ÎVREF

FFFH

(ÎVREF-2.5LSB) ~ (ÎVREF-1.5LSB)

FFEH

---------

0.5LSB ~ 1.5LSB

001H

0 ~ 0.5LSB

000H

ÎVREF: (VREF+) â (VREF-)

Table 1. Output Code

The fOSC clock of an internal oscillator is used for A/D conversion. The full scale (ÎVREF) of the A/D converter

depends on the input mode. Position and pen pressure are measured in differential mode, and then IN is measured in

single-ended mode. The AK4186 is controlled by 8bit serial command. A/D conversion result is 12bit data output on

the SDA pin.

â Analog Inputs

The analog input channel is automatically selected in sequential measurement mode. When position detection (X-axis

and Y-axis) and pen pressure are selected as analog inputs in differential mode, the full scale (ÎVREF) is the voltage

difference between the non-inverting terminal and the inverting terminal of the measured axis (e.g. X-axis

measurement: (XP) â (XN)). Analog input to A/D converters (ÎAIN) is the voltage difference between the non-

inverting terminal of the non-measured axis and the inverting terminal of the measured axis. At single-ended mode, the

full scale of A/D converter (ÎVREF) is the voltage difference between the VDD and the VSS. The analog input of A/D

converter (ÎAIN) is the voltage difference between the selected channel (IN) and the VSS.

If the source of analog input is high impedance, longer tracking time is required. Then A/D conversion should be started.

Channel Selection

AIN Measure

X-axis Measure

Y-axis Measure

Z1 Measure (Pressure)

Z2 Measure (Pressure)

Status of Driver Switch

ADC input (ÎAIN) Reference Voltage (ÎVREF)

X-Driver Y-Driver

AIN+

AIN-

VREF+

VREF-

OFF

GND

VREF

GND

OFF

XN-ON

YP-ON

XN-ON

YP-ON

Table 2. Measurement Mode (4-wire)

Ref. Mode

SER

DFR

MS1068-E-04

-7-

2011/03

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