VMODTFT_RM Datasheet, PDF(3/5 Page) List of Unclassifed Manufacturers – VmodTFT™ Reference Manuall

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VMODTFT_RM Datasheet, PDF (3/5 Pages) List of Unclassifed Manufacturers – VmodTFT™ Reference Manuall

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VmodTFT Reference Manual

layers form plates X and Y. Each plate has

electrodes on opposite sides and a constant

resistance.

Figure 3 AC Characteristics

1/tclk

tdes

tdeh

tds

tdh

Description

LCD clock

frequency

DE setup before

falling CLK

DE hold before

falling CLK

Data setup before

falling CLK

Data hold before

falling CLK

Min Max Unit

7 12 MHz

10

ns

10

ns

10

ns

10

ns

Table 3 LCD Power-Up/Reset Timing

Backlight Control

The LED-EN (TFT_BKLT_O) pin provides

analog or digital control over the backlight

intensity. Jumper JP1 toggles between analog

and digital control.

In analog mode, the backlight intensity is set

by the voltage divider formed by R7 and R10.

Valid values are 0.7V (dimmest) to 1.4V

(brightest).

In digital mode, the FPGA can drive this pin

with a PWM signal of 100Hz-50kHz.

Touchscreen

The four-wire resistive touchscreen is on top of

the LCD. It consists of two conductive

transparent layers, one on top of the other,

separated by a layer of air. These conductive

Figure 4 Touchscreen Plates X and Y

When the screen is touched with sufficient

force, the two plates make contact and form

resistive dividers. By properly biasing the panel

and measuring the voltage on the electrodes,

the coordinates of the touch can be

determined.

For example, tying Y+ and Y- to a power

supply, the voltage on either X+ or X- changes

linearly to the Y coordinate of the touch.

Similarly, supplying power to the X plate and

measuring the voltage on the Y electrode

determines the X coordinate.

Touch Controller

The VmodTFT uses an AD7873 touch

controller to provide an interface for the analog

touchscreen to the FPGA. The controller

supplies current to the touchscreen and

measures the voltage drop using an internal

12-bit analog-to-digital converter. The digitized

voltage values are read back by the FPGA so

the touch coordinates can be determined.

Theoretically, a digitized voltage drop of 000h

(0V) corresponds to a touch very close to the

electrode tied to ground. Likewise, a voltage

drop of FFFh (VCC) corresponds to a touch

very close to the electrode tied to the power

supply. However, the actual values measured

for the VmodTFT are shown in Table 4.

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