# either 2 digit hexa values (like A3)

# or 4 digit hexa values (like A32B) (effectively same as A3)

# or 0..255 decimal values (if numberformat=10 given)

# can be used.

# The 4 digit hexa values are dumped by the firmware

# so the result of VE learning can be saved. The

# LSB is not particularly impartant, but provides some

# info on which loadsites did learning happen



j[0]=667F 667F 6736 697F 6E7F 717F 717F 737F

j[1]=677F 6859 6B7F 6F7F 757F 797F 7A7F 797F

j[2]=687F 6C7F 717F 787F 837F 887F 867F 827F

j[3]=6F7F 717C 797F 847F 917F 987F 987F 927F

j[4]=7B7F 7F7F 847F 8D7F 9B7F A47F A87F A17F

j[5]=827F 837F 8C7F 937F A87F B37F B958 B37F

j[6]=867F 8B7F 937F 9C7F AF7F B87F BF7D BE7F

j[7]=877F 8CB0 967F A07F B07F BA7F C57F C27F



# NA

k[0]=14 1E 28 32 3C 4B 5A 69

r[0]=05 0A 0F 14 1E 28 32 40

# 41 42 43 44 45 46 # malac



l[0]=45 38 38 36 34 34 34 34

l[1]=38 38 38 38 36 36 36 36

l[2]=38 38 38 38 38 38 38 38

l[3]=38 38 38 38 38 38 38 38

l[4]=38 38 41 47 4F 4F 4F 4F

l[5]=45 45 4F 59 59 59 59 59

l[6]=6A 6A 6A 6A 6A 6A 6A 6A

l[7]=6A 6A 6A 6A 6A 6A 6A 6A

# Fero said that max l=0x5c (NA) is too rich. So he set it for 0x6A (even more rich :-)



n[0]=3C 3C 50 77 A0 B4 B4 B4

n[1]=3C 3C 50 78 A0 B1 B2 B1

n[2]=3C 3C 50 77 99 AA AB A9

n[3]=3C 3C 50 76 95 A1 A2 A1

n[4]=3C 3C 50 75 8D 99 9B 9A

n[5]=3C 3C 50 6F 83 8E 8F 8F

n[6]=3C 3C 50 67 7A 81 83 84

n[7]=3C 3C 50 5F 6F 78 78 78



h[0]=80 40 20 01 00 00 00 00

h[1]=00 00 00 00 00 00 00 00

h[2]=06 05 06 05 00 00 00 00

b[0]=28 30 38 40 48 50 58 60

t[0]=20 40 17 80 A0 C0 E0 FF