Toshiba TLP511U, TLP511E PLL Circuit, Video Signal Format Conversion, Gamma Correction Circuit

6-1-1. PLL Circuit

The PLL circuit develops the clock signal synchronized with the horizontal sync signal, using the horizontal sync signal entered.

For RGB signals, a highly stable CXA3106 (QX028) is used. For video signal, a highly traceable TLC2932 (QX029) is used.

6-1-2. Video Signal Format Conversion

The LCD panel used for the unit requires a non-interlace signal of 65 Hz dot clock entered. Accordingly, all the RGB signals are converted into XGA 60 Hz format (Dot clock = 65 MHz). In the same way, the video signal (interlace signal) is converted into a non-interlace signal with 64 MHz dot clock in keeping the vertical sync signal frequency. These processes are carried out by the newly developed ICs T-FORC (QX207, QX407 and QX607) and memories (QX202, QX203, QX205, QX206, QX402, QX403, QX405, QX406, QX602, QX603, QX605 and QX606).

Furthermore, as the clock of XGA signal reaches approx. 80 MHz (max.), all signal processes are carried out in parallel for even and odd pixels grouped. The video signal entered is converted into the digital video signals for two systems by the A/D converters (QX204, QX401 and QX601).

The signals divided into two systems are processed in parallel in stages after the digital circuit. In case of the process carried out in parallel as described above, if the characteristics between two systems differ, the vertical stripes will appear on the screen. In order to reduce this vertical stripes, the signal system used is exchanged for every one line and one field by the EXCHANGE PLD (QX207, QX407 and QX607). The signals exchanged are returned to the original order just before reaching the LCD panel.

6-1-3. Screen Size Enlargement and Reduction

The pixel number of the LCD panel used for the unit is 1024 x 768 pixels. As for a signal entered, various kinds of signals are used ranging from 640 x 480 pixels of VGA signal to 1280 x 1024 pixels of SXGA signal. In this unit, these signals are displayed on the whole screen by enlarging/reducing the signals. The enlargement/ reduction process are also carried out by the ICs T-FORC (QX207, QX407 and QX607) and memories (QX202, QX203, QX205, QX206, QX402, QX403, QX405, QX406, QX602, QX603, QX605 and QX606).

6-1-4. Gamma Correction Circuit

The gamma correction is carried out in the digital circuit. So the digital circuit develops the signal corrected in gamma.

The gamma correction circuit is built in the T-FORC (QX207, QX407 and QX607) and the gamma correction characteristics are set by the microprocessor using a bus.

6-1-5. Panel Driving Timing Signal Generation

The driving for LCD panel requires various kinds of timing signals. These timing signals are generated in the digital circuit and especially generated by the timing generation PLD (QX009).

6-1-6. ON-SCREEN Character Generation

The ON-SCREEN character timing signal is generated and superimposed inside the digital circuit. So the signal composed of the ON-SCREEN character is developed from the digital circuit.

6-1-7. Signal Format Measurement

The RGB signals consist of various kinds of signal formats, and the timing signal, enlargement ratio and etc. must be switched corresponding to each signal format.

For this purpose, the signal format identification is carried out by measuring the HD signal frequency entered and the line number per 1 frame. This circuit is built in the SYG (QX004) and the processed result is read by the microprocessor through the bus line.