Panasonic MN88472
MN88472
The MN88472 is a DVB-T/DVB-T2/DVB-C demodulator chip manufactured by Panasonic.
I2C Adressing
The chips has 3 I2C addresses, one for each demodulator bank:
8 bit (7 bit) 0x38 (0x1c) - DVB-T2 (T2) 0x30 (0x18) - DVB-T (T1) 0x34 (0x1a) - DVB-C (C1)
Demod Initialization
- Write init reg values for all 3 register banks (T2 T1 and C1) {bank,reg,value}
{T2,0x00,0x66},{T2,0x01,0x00},{T2,0x02,0x01},{T2,0x03,0x03}, {T2,0x04,0x00},{T2,0x05,0x00},{T2,0x06,0x00},{T2,0x07,0x00}, {T2,0x08,0x00},{T2,0x09,0x00},{T2,0x0a,0x00},{T2,0x0b,0x00}, {T2,0x0c,0x00},{T2,0x0d,0x00},{T2,0x0e,0x00},{T2,0x0f,0x00}, {T2,0x10,0x3e},{T2,0x11,0x70},{T2,0x12,0x64},{T2,0x13,0x8f}, {T2,0x14,0x80},{T2,0x15,0x00},{T2,0x16,0x08},{T2,0x17,0xee}, {T2,0x18,0x08},{T2,0x19,0xee},{T2,0x1a,0x43},{T2,0x1b,0x00}, {T2,0x1c,0x74},{T2,0x1d,0xe4},{T2,0x1e,0x26},{T2,0x1f,0x4f}, {T2,0x20,0x72},{T2,0x21,0x22},{T2,0x22,0x22},{T2,0x23,0x01}, {T2,0x24,0x00},{T2,0x25,0x12},{T2,0x26,0x00},{T2,0x27,0x00}, {T2,0x28,0x80},{T2,0x29,0x0c},{T2,0x2a,0xf4},{T2,0x2b,0x03}, {T2,0x2c,0x00},{T2,0x2d,0x20},{T2,0x2e,0x88},{T2,0x2f,0x00}, {T2,0x30,0x80},{T2,0x31,0x80},{T2,0x32,0x00},{T2,0x33,0x00}, {T2,0x34,0x00},{T2,0x35,0x00},{T2,0x36,0x00},{T2,0x37,0x00}, {T2,0x38,0xca},{T2,0x39,0x03},{T2,0x3a,0x02},{T2,0x3b,0x55}, {T2,0x3c,0xd7},{T2,0x3d,0x00},{T2,0x3e,0x00},{T2,0x3f,0x22}, {T2,0x40,0x00},{T2,0x41,0x38},{T2,0x42,0x22},{T2,0x43,0x00}, {T2,0x44,0x38},{T2,0x45,0xd3},{T2,0x46,0x10},{T2,0x47,0xb5}, {T2,0x48,0xa1},{T2,0x49,0x00},{T2,0x4a,0xd3},{T2,0x4b,0x07}, {T2,0x4c,0x64},{T2,0x4d,0x0d},{T2,0x4e,0x00},{T2,0x4f,0x05}, {T2,0x50,0x00},{T2,0x51,0x55},{T2,0x52,0x20},{T2,0x53,0x00}, {T2,0x54,0x24},{T2,0x55,0x64},{T2,0x56,0x44},{T2,0x57,0x33}, {T2,0x58,0x1f},{T2,0x59,0x00},{T2,0x5a,0x5a},{T2,0x5b,0x03}, {T2,0x5c,0xc0},{T2,0x5d,0x00},{T2,0x5e,0x00},{T2,0x5f,0x03}, {T2,0x60,0x00},{T2,0x61,0x00},{T2,0x62,0x11},{T2,0x63,0x40}, {T2,0x64,0x84},{T2,0x65,0x04},{T2,0x66,0x0c},{T2,0x67,0x00}, {T2,0x68,0x08},{T2,0x69,0x00},{T2,0x6a,0x00},{T2,0x6b,0x12}, {T2,0x6c,0x21},{T2,0x6d,0x10},{T2,0x6e,0x01},{T2,0x6f,0x00}, {T2,0x70,0x00},{T2,0x71,0x00},{T2,0x72,0xe8},{T2,0x73,0x48}, {T2,0x74,0x40},{T2,0x75,0x00},{T2,0x76,0x1d},{T2,0x77,0x19}, {T2,0x78,0x1d},{T2,0x79,0x19},{T2,0x7a,0x66},{T2,0x7b,0x8c}, {T2,0x7c,0x9f},{T2,0x7d,0x08},{T2,0x7e,0x00},{T2,0x7f,0x00}, {T2,0x80,0x00},{T2,0x81,0x00},{T2,0x83,0x00},{T2,0x84,0x00}, {T2,0x85,0x00},{T2,0x86,0x00},{T2,0x87,0x00},{T2,0x88,0x00}, {T2,0x89,0x00},{T2,0x8a,0x20},{T2,0x8b,0x49},{T2,0x8c,0x00}, {T2,0xc4,0x00},{T2,0xc5,0x00},{T2,0xc6,0x00},{T2,0xc7,0x87}, {T2,0xc8,0x40},{T2,0xc9,0x30},{T2,0xca,0x06},{T2,0xcb,0x02}, {T2,0xcc,0x00},{T2,0xcd,0x3b},{T2,0xce,0x00},{T2,0xcf,0x00}, {T2,0xd0,0x00},{T2,0xd1,0x00},{T2,0xd2,0x00},{T2,0xd3,0x40}, {T2,0xd4,0x00},{T2,0xd5,0xf0},{T2,0xd6,0x02},{T2,0xd7,0x02}, {T2,0xd8,0x01},{T2,0xd9,0x00},{T2,0xda,0x00},{T2,0xdb,0x00}, {T2,0xdc,0x00},{T2,0xdd,0x00},{T2,0xde,0x00},{T2,0xdf,0x00}, {T2,0xe0,0x00},{T2,0xe1,0x00},{T2,0xe2,0x00},{T2,0xe3,0x00}, {T2,0xe4,0x00},{T2,0xe5,0x00},{T2,0xe6,0x00},{T2,0xe7,0x00}, {T2,0xe9,0x00},{T2,0xea,0x00},{T2,0xeb,0x00},{T2,0xec,0xd3}, {T2,0xed,0x31},{T2,0xee,0x00},{T2,0xef,0x00},{T2,0xf0,0x00}, {T2,0xf1,0x00},{T2,0xf2,0x00},{T2,0xf3,0x00},{T2,0xf4,0x00}, {T2,0xf5,0x00},{T2,0xf6,0x00},{T2,0xf8,0x9f},{T2,0xf9,0xd4}, {T2,0xfa,0x00},{T2,0xfb,0x03},{T2,0xfc,0x00},{T2,0xfd,0x00}, {T2,0xfe,0x00},{T2,0xff,0x02},{T1,0x00,0xba},{T1,0x01,0x13}, {T1,0x02,0x80},{T1,0x03,0xba},{T1,0x04,0x91},{T1,0x05,0x40}, {T1,0x06,0xe7},{T1,0x07,0x26},{T1,0x08,0xff},{T1,0x09,0x1b}, {T1,0x0a,0x09},{T1,0x0b,0x08},{T1,0x0c,0x04},{T1,0x0d,0x2d}, {T1,0x0e,0x09},{T1,0x0f,0x00},{T1,0x10,0x10},{T1,0x11,0x1f}, {T1,0x12,0x08},{T1,0x13,0x00},{T1,0x14,0x00},{T1,0x15,0x03}, {T1,0x16,0x00},{T1,0x17,0x00},{T1,0x18,0x00},{T1,0x19,0xb0}, {T1,0x1a,0x00},{T1,0x1b,0x00},{T1,0x1c,0x00},{T1,0x1d,0xe0}, {T1,0x1e,0x6c},{T1,0x1f,0x33},{T1,0x20,0x4a},{T1,0x21,0x03}, {T1,0x22,0x00},{T1,0x23,0x01},{T1,0x24,0x05},{T1,0x25,0x96}, {T1,0x26,0x43},{T1,0x27,0x00},{T1,0x28,0x01},{T1,0x29,0x15}, {T1,0x2a,0xa2},{T1,0x2b,0xc3},{T1,0x2c,0xf5},{T1,0x2d,0x22}, {T1,0x2e,0x87},{T1,0x2f,0xd3},{T1,0x30,0x00},{T1,0x31,0x55}, {T1,0x32,0x33},{T1,0x33,0x61},{T1,0x34,0x22},{T1,0x35,0x01}, {T1,0x36,0x02},{T1,0x37,0x40},{T1,0x38,0x40},{T1,0x39,0x46}, {T1,0x3a,0x25},{T1,0x3b,0x04},{T1,0x3c,0x00},{T1,0x3d,0x04}, {T1,0x3e,0x00},{T1,0x3f,0x00},{T1,0x40,0x3b},{T1,0x41,0x20}, {T1,0x42,0x00},{T1,0x43,0x3f},{T1,0x44,0x1f},{T1,0x45,0x05}, {T1,0x46,0x00},{T1,0x47,0x00},{T1,0x48,0x05},{T1,0x49,0xf0}, {T1,0x4a,0x00},{T1,0x4b,0x00},{T1,0x4c,0x1f},{T1,0x4d,0x0f}, {T1,0x4e,0x39},{T1,0x4f,0x03},{T1,0x50,0xf8},{T1,0x51,0xf4}, {T1,0x52,0x08},{T1,0x53,0xf8},{T1,0x54,0xea},{T1,0x55,0xf0}, {T1,0x56,0x04},{T1,0x57,0x20},{T1,0x58,0x12},{T1,0x59,0x12}, {T1,0x5a,0x02},{T1,0x5b,0x20},{T1,0x5c,0x1a},{T1,0x5d,0x08}, {T1,0x5e,0xad},{T1,0x5f,0x33},{T1,0x60,0x95},{T1,0x61,0x8f}, {T1,0x62,0x80},{T1,0x63,0x00},{T1,0x64,0x76},{T1,0x65,0x54}, {T1,0x66,0x87},{T1,0x67,0x65},{T1,0x68,0x66},{T1,0x69,0x54}, {T1,0x6a,0x4a},{T1,0x6b,0x86},{T1,0x6c,0x13},{T1,0x6d,0x31}, {T1,0x6e,0x2d},{T1,0x6f,0x07},{T1,0x70,0x00},{T1,0x71,0x40}, {T1,0x72,0x00},{T1,0x73,0x00},{T1,0x74,0x00},{T1,0x75,0x10}, {T1,0x76,0x0c},{T1,0x77,0x0c},{T1,0x78,0x59},{T1,0x79,0x00}, {T1,0x7a,0x00},{T1,0x7b,0x00},{T1,0x7c,0x00},{T1,0x7d,0x05}, {T1,0x88,0x1e},{T1,0x89,0x49},{T1,0x8a,0x31},{T1,0x8b,0x1a}, {T1,0x8c,0x2c},{T1,0x8d,0x3f},{T1,0x8e,0x7f},{T1,0x8f,0x07}, {T1,0xa5,0x00},{T1,0xa6,0x00},{T1,0xa9,0x00},{T1,0xaa,0x00}, {T1,0xab,0x00},{T1,0xae,0x00},{T1,0xaf,0x00},{T1,0xb0,0x0a}, {T1,0xb1,0x7a},{T1,0xb2,0x40},{T1,0xb3,0x5c},{T1,0xb4,0xf6}, {T1,0xb5,0x31},{T1,0xb6,0xc0},{T1,0xb7,0xff},{T1,0xb8,0x88}, {T1,0xb9,0xff},{T1,0xba,0xaa},{T1,0xbb,0x00},{T1,0xbc,0x08}, {T1,0xbd,0x03},{T1,0xbe,0x00},{T1,0xbf,0x00},{T1,0xc0,0xbf}, {T1,0xc1,0x00},{T1,0xc2,0x00},{T1,0xc3,0xff},{T1,0xc4,0x20}, {T1,0xc5,0x80},{T1,0xc6,0xff},{T1,0xc7,0xff},{T1,0xc8,0xff}, {T1,0xc9,0xe0},{T1,0xca,0x80},{T1,0xcb,0x00},{T1,0xcc,0x00}, {T1,0xcd,0x01},{T1,0xce,0x00},{T1,0xcf,0x54},{T1,0xd0,0x23}, {T1,0xd1,0x47},{T1,0xd2,0x01},{T1,0xd3,0x00},{T1,0xd4,0x09}, {T1,0xd5,0x47},{T1,0xd6,0x46},{T1,0xd7,0x00},{T1,0xd8,0x00}, {T1,0xd9,0xe1},{T1,0xda,0x03},{T1,0xdb,0x08},{T1,0xdc,0xb8}, {T1,0xdd,0x08},{T1,0xde,0x0c},{T1,0xdf,0x90},{T1,0xe6,0x00}, {T1,0xe7,0x00},{T1,0xe8,0x00},{T1,0xec,0x00},{T1,0xed,0x00}, {T1,0xee,0x00},{T2,0xfb,0x03},{T1,0xf0,0x00},{T1,0xf1,0x00}, {T1,0xf2,0x00},{T1,0xf3,0x00},{T1,0xf4,0x00},{T1,0xf5,0x01}, {T1,0xf7,0x00},{T1,0xf8,0x00},{T1,0xf9,0x07},{T1,0xfa,0xff}, {T1,0xfb,0x00},{T1,0xfc,0x00},{T1,0xfd,0x30},{T1,0xfe,0x00}, {T1,0xff,0x02},{C1,0x00,0xb0},{C1,0x01,0x00},{C1,0x02,0x11}, {C1,0x03,0x18},{C1,0x04,0x04},{C1,0x05,0xe0},{C1,0x06,0x5f}, {C1,0x07,0x27},{C1,0x08,0x30},{C1,0x09,0xff},{C1,0x0a,0xc0}, {C1,0x0b,0xaa},{C1,0x0c,0xbb},{C1,0x0d,0xee},{C1,0x0e,0xaa}, {C1,0x0f,0xaa},{C1,0x10,0x0d},{C1,0x11,0xab},{C1,0x12,0x0b}, {C1,0x13,0x3c},{C1,0x14,0x18},{C1,0x15,0xd9},{C1,0x16,0x51}, {C1,0x17,0xec},{C1,0x18,0x00},{C1,0x19,0xbe},{C1,0x1a,0xd6}, {C1,0x1b,0x1c},{C1,0x1c,0x0b},{C1,0x1d,0x3c},{C1,0x1e,0x29}, {C1,0x1f,0x00},{C1,0x20,0x00},{C1,0x21,0x00},{C1,0x22,0xa0}, {C1,0x23,0x94},{C1,0x24,0xaf},{C1,0x25,0x01},{C1,0x26,0x00}, {C1,0x27,0x00},{C1,0x28,0x00},{C1,0x29,0x00},{C1,0x2a,0x00}, {C1,0x2b,0x00},{C1,0x2c,0x00},{C1,0x2d,0x00},{C1,0x2e,0x00}, {C1,0x2f,0x0c},{C1,0x30,0x3b},{C1,0x31,0x41},{C1,0x32,0x0c}, {C1,0x33,0x02},{C1,0x34,0xb1},{C1,0x35,0xed},{C1,0x36,0x60}, {C1,0x37,0xcc},{C1,0x38,0x6c},{C1,0x39,0x7d},{C1,0x3a,0xb1}, {C1,0x3b,0xed},{C1,0x3c,0x69},{C1,0x3d,0xb3},{C1,0x3e,0xed}, {C1,0x3f,0x40},{C1,0x40,0xdb},{C1,0x41,0xda},{C1,0x42,0x79}, {C1,0x43,0x87},{C1,0x44,0xbc},{C1,0x45,0x3f},{C1,0x46,0xb7}, {C1,0x47,0x5e},{C1,0x48,0x1c},{C1,0x49,0xb7},{C1,0x4a,0x56}, {C1,0x4b,0xb7},{C1,0x4c,0x56},{C1,0x4d,0xb7},{C1,0x4e,0x56}, {C1,0x4f,0x63},{C1,0x50,0xd5},{C1,0x51,0x74},{C1,0x52,0x95}, {C1,0x53,0x5f},{C1,0x54,0xc0},{C1,0x55,0x73},{C1,0x56,0x28}, {C1,0x57,0xc4},{C1,0x58,0x69},{C1,0x59,0x55},{C1,0x5a,0x55}, {C1,0x5b,0x40},{C1,0x5c,0x60},{C1,0x5d,0xfd},{C1,0x5e,0x00}, {C1,0x5f,0x00},{C1,0x60,0x30},{C1,0x61,0x29},{C1,0x62,0x13}, {C1,0x63,0xf0},{C1,0x64,0x00},{C1,0x65,0x96},{C1,0x66,0x72}, {C1,0x67,0x1b},{C1,0x68,0x2d},{C1,0x69,0x97},{C1,0x6a,0x4b}, {C1,0x6b,0xde},{C1,0x6c,0x88},{C1,0x6d,0x00},{C1,0x6e,0x00}, {C1,0x6f,0x00},{C1,0x70,0xab},{C1,0x71,0x2b},{C1,0x72,0x10}, {C1,0x73,0xf4},{C1,0x74,0x47},{C1,0x75,0x57},{C1,0x76,0x40}, {C1,0x77,0xaa},{C1,0x78,0xaa},{C1,0x79,0x01},{C1,0x7a,0x00}, {C1,0x7b,0x07},{C1,0x7c,0x50},{C1,0x80,0x00},{C1,0x81,0x88}, {C1,0x82,0x00},{C1,0xf0,0x00},{C1,0xf1,0x5e},{C1,0xf2,0xec}, {C1,0xf3,0x00},{C1,0xf4,0x5e},{C1,0xf5,0xec},{C1,0xf6,0x05}, {T2,0xfb,0x03},{C1,0xfc,0x00},{C1,0xfd,0x00},{C1,0xfe,0x00}, {C1,0xff,0x02},
- Prepare DVB-T bank for firmware upload
- Write 0x20 to register 0xf0 in T1 bank
- Write 0x03 to register 0xf5 in T1 bank (this most likely set the mcu to reset state)
- Load firmware for demod
- Write all firmware bytes to register 0xf6 to fill the mcu memory
- Start demod firmware
- Write 0x00 to register 0xf5 in T1 bank
- Check parity
- Read register 0xf8 in T1 bank, if byte 5 (0x10) is set the parity check failed.
Demod mcu
You can check if the firmware is running by reading register 0xf5.
- If bit 0 is 0 it is running
- If bit 0 is 1 it is not running
You can control the cpu by writing to the 0xf5 register:
- write 0x03 to stop the cpu
- write 0x00 to start the cpu
Demod probe
- Read register 0xFF in T2 bank
The answer should be 0x02.
TS mode
How to set chip ts mode.
Parallel TS with fixed clock
- Write 0x00 to register 0x08 in T2 bank
- Write 0xE1 to register 0xD9 in T1 bank
Parallel TS with variable clock
- Write 0x00 to register 0x08 in T2 bank
- Write 0xE3 to register 0xD9 in T1 bank
Serial TS with variable clock
- Write 0x1D to register 0x08 in T2 bank
- Write 0xE3 to register 0xD9 in T1 bank
Lock
DVB-T2
- Read register 0x92 in T2 bank.
- If the low nibble in the result is >12 there is a lock
DVB-T
- Read register 0x7F in T1 bank.
- If the low nibble in the result is >8 there is a lock
DVB-C
- Read register 0x84 in C1 bank.
- If the low nibble in the result is >7 there is a lock
When lock is detected it means what the demod has: Signal, Carrier, Viterbi, Sync and Lock.
Lock 88473
DVB-C
- Read register 0x85 in C1 bank
- If bit 6 is not set then read register 0x89 in C1 bank
- If bit 1 is set then we have lock.
DVB-T
- Read register 0x62 in T1 bank.
- If bit 5 and 7 is set then
- If the low nibble in the result is >8 there is a lock
- If the low nibble in the result is >2 there is a signal
DVB-T2
- Read register 0x8B in T2 bank.
- If bit 6 is set then
- If the low nibble in the result is >12 there is a lock
Setting Digital TV standard
Select the value representing the standard you want from the list.
DVB-T 2 DVB-T2 3 DVB-C 4
- Write the value to register 0x03 in T2 bank
Setting demod bandwidth
Select the value representing the bandwidth you want from the list.
5MHz 3 6MHz 2 7MHz 1 8MHz 0
- Write the value to register 0x04 in T2 bank
Configure demod for signal reception
- Write 0x00 to register 0xFF in T2 bank
- Write 0x66 to register 0x00 in T2 bank
- Write 0x00 to register 0x01 in T2 bank
- Write 0x02 to register 0x02 in T2 bank
- Set the Digital TV Standard
- Set the demod bandwidth
And depending on the selected standard / bandwidth configuration write one of the following configuration to the demod:
DVB-C
{T2,0x10,0x3f}, {T2,0x11,0x50}, {T2,0x12,0x2c}, {T2,0x13,0x8f}, {T2,0x14,0x80}, {T2,0x15,0x00}, {T2,0x16,0x08}, {T2,0x17,0xee}, {T2,0x18,0x08}, {T2,0x19,0xee}, {T1,0x46,0x00}, {T1,0xae,0x00}, {T1,0xb0,0x0b}, {T1,0xb4,0x00}, {T1,0xcd,0x17}, {T1,0xd4,0x09}, {T1,0xd6,0x48},
DVB-T
Begin with a per MHz setup.
6MHz
{T2,0x10,0x2c}, {T2,0x11,0x94}, {T2,0x12,0xdb}, {T2,0x13,0xbf}, {T2,0x14,0x55}, {T2,0x15,0x55}, {T2,0x16,0x15}, {T2,0x17,0x6b}, {T2,0x18,0x15}, {T2,0x19,0x6b}, {T1,0x46,0x00},
7MHz
{T2,0x10,0x39}, {T2,0x11,0x11}, {T2,0x12,0xbc}, {T2,0x13,0xa4}, {T2,0x14,0x00}, {T2,0x15,0x00}, {T2,0x16,0x0f}, {T2,0x17,0x2c}, {T2,0x18,0x0f}, {T2,0x19,0x2c}, {T1,0x46,0x10},
8MHz
{T2,0x10,0x39}, {T2,0x11,0x11}, {T2,0x12,0xbc}, {T2,0x13,0x8f}, {T2,0x14,0x80}, {T2,0x15,0x00}, {T2,0x16,0x08}, {T2,0x17,0xee}, {T2,0x18,0x08}, {T2,0x19,0xee}, {T1,0x46,0x00},
And end with a common configuration.
{T1,0xae,0x00}, {T1,0xb0,0x0a}, {T1,0xb4,0x00}, {T1,0xcd,0x1f}, {T1,0xd4,0x0a}, {T1,0xd6,0x48},
DVB-T2
Begin with a per MHz setup.
1.7MHz
{T2,0x10,0x17}, {T2,0x11,0xba}, {T2,0x12,0x11}, {T2,0x13,0xf4}, {T2,0x14,0x6f}, {T2,0x15,0x64}, {T2,0x16,0x1c}, {T2,0x17,0x00}, {T2,0x18,0x1c}, {T2,0x19,0x00},
5MHz
{T2,0x10,0x3e}, {T2,0x11,0x70}, {T2,0x12,0x64}, {T2,0x13,0xe5}, {T2,0x14,0x99}, {T2,0x15,0x9a}, {T2,0x16,0x1b}, {T2,0x17,0xa9}, {T2,0x18,0x1b}, {T2,0x19,0xa9},
6MHz
{T2,0x10,0x2c}, {T2,0x11,0x94}, {T2,0x12,0xdb}, {T2,0x13,0xbf}, {T2,0x14,0x55}, {T2,0x15,0x55}, {T2,0x16,0x15}, {T2,0x17,0x6b}, {T2,0x18,0x15}, {T2,0x19,0x6b},
7MHz
{T2,0x10,0x39}, {T2,0x11,0x11}, {T2,0x12,0xbc}, {T2,0x13,0xa4}, {T2,0x14,0x00}, {T2,0x15,0x00}, {T2,0x16,0x0f}, {T2,0x17,0x2c}, {T2,0x18,0x0f}, {T2,0x19,0x2c},
8MHz
{T2,0x10,0x39}, {T2,0x11,0x11}, {T2,0x12,0xbc}, {T2,0x13,0x8f}, {T2,0x14,0x80}, {T2,0x15,0x00}, {T2,0x16,0x08}, {T2,0x17,0xee}, {T2,0x18,0x08}, {T2,0x19,0xee},
And end with a common configuration.
{T1,0x46,0x00}, {T1,0xae,0x00}, {T1,0xb0,0x0a}, {T1,0xb4,0xf6}, {T1,0xcd,0x01}, {T1,0xd4,0x09}, {T1,0xd6,0x46},
{T2,0x30,0x80}, {T2,0x32,0x00}, {T2,0xf8,0x9f},
Statistics
Signal strength
- Read register 0x8E (upper agc reg) in T2 bank
- Read register 0x8F (lower agc reg) in T2 bank
- Return both values ored together
Firmware version
- Read register 0xF1 in T bank
- The returned value is the firmware version
PER
- Read register 0xE1 in T bank (upper)
- Read register 0xE2 in T bank (lower)
- Or both values as error
- Read register 0xE3 in T bank (upper)
- Read register 0xE4 in T bank (lower)
- Or both values as per_len
- Return error * 100 / per_len
CNR (Carrier Noise Ratio)
DVB-T
- Read register 0x9C in T bank (upper)
- Read register 0x9D in T bank (lower)
- Or both values as value
- if value is 0 then cnr is 0
- calculate 10log of 65536 divided by value and then add 200 as result
- if result is less then 0 cnr is 0
- take result divided by 100 as cnr
DVB-T2
- Read register 0xBD in T2 bank (upper)
- Read register 0xBE in T2 bank (lower)
- Or both registers as value
- If value is 0 cnr is 0
- Read register 0xBC in T2 bank as flag
- If bit 2 in flag is set (MISO)
- calculate 10log of 16384 divided by value and then subtract 600 as result
- if result is less then 0 cnr is 0
- If bit 2 in flag is not set (SISO)
- calculate 10log of 65536 divided by value and then add 200 as result
- if result is less then 0 cnr is 0
- take result divided by 100 as cnr
DVB-C
- Read register 0xA1 in C bank (upper)
- Read register 0xA2 in C bank (lower)
- Or both registers as carrier
- Read register 0xA3 in C bank (upper)
- Read register 0xA4 in C bank (lower)
- Or both registers as noise
- if noise is 0 cnr is 0
- calculate 10log of signal multiplied by 8 and divided by noise as result
- if result is less then 0 cnr is 0
- take result divided by 100 as cnr
BER (Bit Error Rate)
DVB-T/C
- Read register 0x78 in T bank as value
- And value with 0xDF
- Write register 0x78 in T bank from value
- Read register 0x7D in T bank as value
- And value with 0xF0 and then or with 0x5
- Write register 0x7D in T bank from value
- Read register 0x9F in T bank (upper)
- Read register 0xA0 in T bank (middle)
- Read register 0xA1 in T bank (lower)
- Or together as error
- Read register 0xA2 in T bank (upper)
- Read register 0xA3 in T bank (lower)
- Or together as value
- Take value and multiply with 8 and 203 as sum
- Take sum divided by error as ber
DVB-T2
- Read register 0x8A in T2 bank as value
- Or value with 0x20 then and with 0xef as value
- Write register 0x8A in T2 bank from value
- Read register 0xC0 in T2 bank (upper)
- Read register 0xC1 in T2 bank (middle)
- Read register 0xC2 in T2 bank (lower)
- Or together as error
- Read register 0x8B in T2 bank as berlen
- Write register 0xC5 in T2 bank with 0x3
- If berlen bit 0 is set (fec_type)
- Bit 2 to 4 in berlen forms an index into the following table, take value as fec_type_m
- 32400, 38880, 43200, 48600, 51840, 54000
- Take berlen low nibble shifted up 1 time multiplied with fec_type_m as sum
- If berlen bit 0 is not set (fec_type)
- Bit 2 to 4 in berlen forms an index into the following table, take value as fec_type_m
- 28800, 38880, 43200, 47520, 50400, 53280
- Take berlen low nibble shifted up 1 time multiplied with fec_type_m as sum
- Take sum divided by error as ber
DVB-T Signal Properties
TPS length indicator
- Read register 0x88 in T bank
- Bit 0 to 6 forms a length value
Hierarchy
- Read register 0x89 in T bank
- Bit 0 to 2 forms an index to the following table
0, No heirarchy 1, alpha=1 2, alpha=2 3, alpha=4 4, Unknown (not defined) 5, Unknown (not defined) 6, Unknown (not defined) 7, Unknown (not defined)
Constellation
- Read register 0x89 in T bank
- Bit 3 and 4 forms an index to the following table
0, QPSK 1, 16QAM 2, 64QAM 3, Unknown (not defined)
FFT Mode
- Read register 0x8B in T bank
- Bit 0 and 1 forms an index to the following table
0, 2k 1, 8k 2, 4k 3, Unknown (not defined)
Guard Interval
- Read register 0x8B in T bank
- Bit 2 and 3 forms an index to the following table
0, 1/32 1, 1/16 2, 1/8 3, 1/4
FEC High Priority Code Rate
- Read register 0x8A in T bank
- Bit 3 and 5 forms an index to the following table
0, 1/2 1, 2/3 2, 3/4 3, 5/6 4, 7/8 5, Unknown (not defined)
FEC Low Priority Code Rate
- Read register 0x8A in T bank
- Bit 0 to 2 forms an index to the following table
0, 1/2 1, 2/3 2, 3/4 3, 5/6 4, 7/8 5, Unknown (not defined)
Cell ID
- Read register 0x90 (upper) in T bank
- Read register 0x91 (lower) in T bank
- Return both values ored together
DVB-T Signal Properties MN88473
TPS length indicator
- Read register 0x6C in T bank
- Bit 0 to 5 forms a length value
Hierarchy
- Read register 0x6D in T bank
- Bit 0 to 2 forms an index to the following table
0, No heirarchy 1, alpha=1 2, alpha=2 3, alpha=4 4, Unknown (not defined) 5, Unknown (not defined) 6, Unknown (not defined) 7, Unknown (not defined)
Constellation
- Read register 0x6D in T bank
- Bit 3 and 4 forms an index to the following table
0, QPSK 1, 16QAM 2, 64QAM 3, Unknown (not defined)
FFT Mode
- Read register 0x6F in T bank
- Bit 0 and 1 forms an index to the following table
0, 2k 1, 8k 2, 4k 3, Unknown (not defined)
Guard Interval
- Read register 0x6F in T bank
- Bit 2 and 3 forms an index to the following table
0, 1/32 1, 1/16 2, 1/8 3, 1/4
DVB-T2 Signal Properties
Error Free
- Read register 0xC3 in T2 bank as value
- Invert only bit 0 in value and return the result of the inversion
Guard Interval
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC8 in T2 bank
- Bit 4 to 6 forms an index to the following table
0, 1/32 1, 1/16 2, 1/8 3, 1/4 4, 1/128 5, 19/128 6, 19/256 7, Unknown (not defined)
Selected PLP
- Read register 0x32 in T2 bank
- Return result
Type
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC6 in T2 bank
- Bit 0 to 7 forms an index to the following table
0, TS 1, GS 2, TS and GS *, Unknown (not defined)
Bandwidth Ext
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC7 in T2 bank
- Return the value of bit 7
FFT Mode
- Read register 0x93 in T2 bank
- Bit 0 to 2 forms an index to the following table
0, 1k 1, 2k 2, 4k 3, 8k 4, 16k 5, 32k
S1
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC7 in T2 bank
- Bit 4 to 6 forms a value s1
S2
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC7 in T2 bank
- Bit 0 to 3 forms a value s2
PAPR
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC8 in T2 bank
- Bit 0 to 4 forms an index to the following table
0, No PAPR 1, ACE-PAPR 2, TR-PAPR 3, ACE and PAPR *, Unknown (not defined)
L1 Modulation
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC9 in T2 bank
- Bit 4 to 7 forms an index to the following table
0, BPSK 1, QPSK 2, 16QAM 3, 64QAM *, Unknown (not defined)
L1 Code Rate
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC9 in T2 bank
- Bit 2 and 3 forms an index to the following table
0, 1/2 1, 3/5 2, 2/3 3, 3/4
L1 Fec Type
- Write 0x0 to register 0xC4 in T2 bank
- Write 0x0 to register 0xC5 in T2 bank
- Read register 0xC9 in T2 bank
- Bit 0 and 1 forms a value as fec_type