MCX18LG0A/MCX18LG0B
Cate-
gory
Byte
Bit
Symbol
Description
Recommended Initial
EEPROM
value (H)
value (H) Address (H)
2 5 0 to 7
04
04
13
2 6 0 to 7
FC
FC
14
Linear matrix quadrant control
2 7 0 to 3 RBQUAD bit 0: 1st, bit 1: 2nd, bit 2: 3rd, bit 3: 4th
—
0: invalid, 1: valid
F
—
2
7
4
CONGAIN
Linear matrix gain
0: invalid, 1: valid
—
1
—
2
7
5
CONHUE
Linear matrix hue
0: invalid, 1: valid
—
1
—
2 7 6 to 7
2 8 0 to 7 RYGAIN
2 9 0 to 7 BYGAIN
2 10 0 to 7 RYHUE
2 11 0 to 7 BYHUE
Dummy
Linear matrix coefficient
Linear matrix coefficient
Linear matrix coefficient
Linear matrix coefficient
—
—
—
Adjustment value 20 4F, 51, 53, 55∗2
Adjustment value 11 50, 52, 54, 56∗2
Adjustment value D0 57, 59, 5B, 5D∗2
Adjustment value F8 58, 5A, 5C, 5E∗2
3 1 0 to 7
00
00
15
3 2 0 to 7
00
00
16
3 3 0 to 7
00
00
17
3 4 0 to 7 SHOFST Sample-and-hold output offset
3D
3D
18
EEPROM error write prevention
3 5 0 to 7 EVRUSR 00h: write enabled,
A0
A0h: write unenabled
89
19
3 6 0 to 7
FF
FF
60
3 7 0 to 7
FF
FF
61
3 8 0 to 7
FF
FF
62
3 9 0 to 7
FF
FF
63
3 10 0 to 7
FF
FF
64
3 11 0 to 7
40
10
65
3 12 0 to 7 YGAIN
Luminance signal gain
00
00
66
3 13 0 to 7
51
51
67
4 1 0 to 7 VREFY
VREFY adjustment
Adjustment value 70
1C
4 2 0 to 7 VREFC
VREFC adjustment
Adjustment value 66
1D
4 3 0 to 7 VSUB
VSUB adjustment
Adjustment value 80
1E
4 4 0 to 7
4 5 0 to 7
4 6 0 to 7
4 7 0 to 7
4 8 0 to 7
4 9 0 to 7
80
80
1F
00
00
60∗1
00
00
61∗1
00
00
62∗1
00
00
63∗1
00
00
64∗1
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