M69030 Asiliant Technologies, M69030 Datasheet - Page 112
M69030
Manufacturer Part Number
M69030
Description
Manufacturer
Asiliant Technologies
Datasheet
1.M69030.pdf
(387 pages)
Specifications of M69030
Operating Temperature (min)
0C
Operating Temperature Classification
Commercial
Operating Temperature (max)
70C
Rad Hardened
No
Lead Free Status / Rohs Status
Supplier Unconfirmed
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9-10
5
4
`efmp
Vertical Total Bit 9
Line Compare Bit 8
69030 Databook
The vertical total is a 10-bit or 12-bit value that specifies the total number of scanlines. This
includes the scanlines both inside and outside of the active display area.
In standard VGA modes, where bit 0 of the I/O Control Register (XR09) is set to 0, the
vertical total is specified with a 10-bit value. The 8 least significant bits of the vertical total
are supplied by bits 7-0 of the Vertical Total Register (CR06), and the most and second-
most significant bits are supplied by bit 5 and bit 0 of this register (CR07), respectively.
In extended modes, where bit 0 of the I/O Control Register (XR09) is set to 1, the vertical
total is specified with a 12-bit value. The 8 least significant bits of the vertical total are
supplied by bits 7-0 of the Vertical Total Register (CR06), and the 4 most significant bits are
supplied by 3-0 bits of the Extended Vertical Total Register (CR30). In extended modes,
neither bit 5 nor bit 0 of this register are used.
This 10-bit or 12-bit value should be programmed to be equal to the total number of
scanlines minus 2.
This bit provides the second most significant bit of a 10-bit value that specifies the scanline
at which the memory address counter restarts at the value of 0. Bit 6 of the Maximum
Scanline Register (CR09) supplies the most significant bit, and bits 7-0 of the Line Compare
Register (CR18) supply the 8 least significant bits.
Normally, this 10-bit value is set to specify a scanline after the last scanline of the active
display area. When this 10-bit value is set to specify a scanline within the active display
area, it causes that scanline and all subsequent scanlines in the active display area to
display video data starting at the very first byte of the frame buffer. The result is what
appears to be a screen split into a top and bottom part, with the image in the top part being
repeated in the bottom part.
When used in cooperation with the Start Address High Register (CR0C) and the Start
Address Low Register (CR0D), it is possible to create a split display, as described earlier,
but with the top and bottom parts displaying different data. The top part will display
whatever data exists in the frame buffer starting at the address specified in the two start
address registers (CR0C and CR0D), while the bottom part will display whatever data
exists in the frame buffer starting at the first byte of the frame buffer.
CRT Controller Registers
Revision 1.3 11/24/99
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