Video PLL: Difference between revisions

From NeoGeo Development Wiki
Jump to navigation Jump to search
 
Line 9: Line 9:
{{Sig|DIVO|DIVO}} is generated by LSPC2 from {{Sig|DIVI|DIVI}} (color burst frequency, NTSC 3579545Hz): Not square, DIVO is counter's 10th bit (512 DIVI periods low) and reset at 912 (398 DIVI periods high ?) = 3933Hz also.
{{Sig|DIVO|DIVO}} is generated by LSPC2 from {{Sig|DIVI|DIVI}} (color burst frequency, NTSC 3579545Hz): Not square, DIVO is counter's 10th bit (512 DIVI periods low) and reset at 912 (398 DIVI periods high ?) = 3933Hz also.


DIVO and REF are compared to generate to adjustment voltage for the varicap diode to make sure 24M = DIVI / 910 * 16 * 384 ?
DIVO and REF are compared to generate the adjustment voltage for the varicap diode.


{{Sig|DIVI|DIVI}} also feeds the [[video encoder]].
{{Sig|DIVI|DIVI}} also feeds the [[video encoder]].

Latest revision as of 07:42, 7 November 2016

The video PLL circuit is only present in home consoles, it was added as a way to improve composite video quality by adjusting the main clock frequency with the color burst frequency.

Operation

REF is generated by LSPC2-A2from the 24M main clock: Square, 24167829Hz / 384 / 16 = 3933Hz (16 lines)

DIVO is generated by LSPC2 from DIVI (color burst frequency, NTSC 3579545Hz): Not square, DIVO is counter's 10th bit (512 DIVI periods low) and reset at 912 (398 DIVI periods high ?) = 3933Hz also.

DIVO and REF are compared to generate the adjustment voltage for the varicap diode.

DIVI also feeds the video encoder.


First generation

First generation AES main clock + PLL board, with bodge-on-a-bodge technology.

It was added during the production of first generation AES consoles as a correction board wired to different locations on the main board.

The divider was made using 74LS161 4-bit counters.

Board's reference is PL241S ?


Second generation

Second revision AES schematics page 11.

When SNK made the second generation chipset, the bodge became part of the system with the inclusion of the divider logic in LSPC2-A2.