Quantek QT1010: Difference between revisions
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(initial Tuner reg meanings) |
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| OP |
| OP |
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| 0x00 = start tuner with programmed registers, 0x80 = set tuner to programming mode |
| 0x00 = start tuner with programmed registers, 0x80 = set tuner to programming mode |
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|- |
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| 5 |
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| VCOBAND |
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| This controls the frequency operating range of the tuner. Low 4 bits can be 0 or 4, High 4 bits can be 1,3,5,7,9. |
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|- |
|- |
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| 17 |
| 17 |
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* write 0x80 to tuner register 1 |
* write 0x80 to tuner register 1 |
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* write 0x84 to tuner register 13 |
* write 0x84 to tuner register 13 |
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* write 0xB4 to tuner register 14* (or 0xB7 might work better on some older devices) |
* write 0xB4 to tuner register 14* (or 0xB7 might work better on some older devices) |
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* write 0x23 to tuner register 42 |
* write 0x23 to tuner register 42 |
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* write 0xDC to tuner register 44 |
* write 0xDC to tuner register 44 |
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==== set_frequency ==== |
==== set_frequency ==== |
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This method has the frequency argument, called freq and in |
This method has the frequency argument, called freq and in Hz. |
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* call set_parameters with freq and |
* call set_parameters with freq and command equal to tune |
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* if reg35 equal to 0xE0 |
* if reg35 equal to 0xE0 |
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** call set_parameters with freq and |
** call set_parameters with freq and command equal to tune_next |
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* if reg35 equal to 0xFF |
* if reg35 equal to 0xFF |
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** call set_parameters with freq and |
** call set_parameters with freq and command equal to 3 |
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* if reg34 equal to 0xFF |
* if reg34 equal to 0xFF |
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** call set_parameters with freq and |
** call set_parameters with freq and command equal to 1 |
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==== set_parameters ==== |
==== set_parameters ==== |
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arguments freq and |
arguments freq and command |
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* call calculate_parameters with freq and |
* call calculate_parameters with freq and command |
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* write 0x80 to tuner register 1 |
* write 0x80 to tuner register 1 |
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* write 0x3F to tuner register 2 |
* write 0x3F to tuner register 2 |
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* if |
* if command is equal to tune_next |
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** if reg5 is less then 0x74 |
** if reg5 is less then 0x74 |
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*** set reg5_1 to reg_5 plus 0x20 |
*** set reg5_1 to reg_5 plus 0x20 |
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* write 0x7F to tuner register 21 |
* write 0x7F to tuner register 21 |
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* if |
* if command is equal to tune_next |
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** if reg5 is less equalt to 0x74 |
** if reg5 is less equalt to 0x74 |
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*** write reg5 minus 4 into reg5_3 |
*** write reg5 minus 4 into reg5_3 |
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* write 0x00 to tuner register 1 |
* write 0x00 to tuner register 1 |
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==== calculate_parameters ==== |
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Not complete yet* |
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arguments freq (in Hz) and command |
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* if freq is less then 60000000 or greater then 900000000 |
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** return error |
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* if command is equal to tune_next |
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** write g_prev_command to cmd_tmp |
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* else |
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** write command to g_prev_command |
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* write 36125000 to IF |
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* write 1232000000 to X |
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* write 920000000 to Y |
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* write ((freq + X) divided by 4) plus 500000) to Z |
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* write (1000000 * Z) divided by 1000000 to T1 |
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* write (4000000* Z) divided by 1000000 - Y - freq to T2 |
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* write (4000000* Z) divided by 1000000 - Y - freq - IF to T3 |
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* write T3 divided by 4000000 to T4 |
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* write T3 divided by 4 to T5 |
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* write T1 modulus 8000000 divided by 1000000 to T6 |
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* write (((T5 plus 15777216 multiplied by T4) multiplied by 16) plus 500000) divided by 1000000 to T7 |
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* write T4 to freq_slot5 |
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* write T7 truncated to 8 bits to freq_slot7 |
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* write 2 multiplied by (T7 shifted left 8) + 137 to freq_slot8 |
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===Tuner On/Off=== |
===Tuner On/Off=== |
Latest revision as of 11:56, 2 March 2010
The Quantek QT1010 is a wideband tuner chip.
Features
- 48MHz-860MHz frequency range (bands I, II, III, IV).
- 30MHz-60MHz IF output range.
- NTSC, PAL, SECAM broadcast formats.
- DVB-C, DVB-T, ATSC and ISDB-T support.
External Links
QT1010 Product page at qantek-inc.com
Tuner registers
Indexed from 0.
Index | Name | Description |
---|---|---|
1 | OP | 0x00 = start tuner with programmed registers, 0x80 = set tuner to programming mode |
5 | VCOBAND | This controls the frequency operating range of the tuner. Low 4 bits can be 0 or 4, High 4 bits can be 1,3,5,7,9. |
17 | LNA | 0xF0 = disable LNA hardware power, used for sleep(), 0xF9 and 0xFD used to enable hardware with LNA on/off |
Description of how to program the chip
Tuner context
The tuner has a global context for some variables. They can be used anytime in the init and set methods.
- reg31
- reg32
- reg34
- reg34_1
- reg34_2
- reg34_3
- reg34_4
- reg34_5
- reg34_6
- reg34_7
- reg34_8
- reg37
- reg38
Tuner Init
This method has no arguments.
- write 0x80 to tuner register 1
- write 0x84 to tuner register 13
- write 0xB4 to tuner register 14* (or 0xB7 might work better on some older devices)
- write 0x23 to tuner register 42
- write 0xDC to tuner register 44
- write 0x40 to tuner register 37
- write 0x00 to tuner register 30
- write 0x81 to tuner register 30
- loop 30 times
- read tuner register 37 into reg37
- if reg37 bit 8 is set
- break out of loop
- read tuner register 37 into reg37
- write 0x00 to tuner register 30
- write 0x23 to tuner register 42
- write 0x70 to tuner register 43
- write 0x08 to tuner register 38
- write 0x00 to tuner register 30
- write 0x82 to tuner register 30
- loop 30 times
- read tuner register 38 into reg38
- if reg38 bit 5 is set
- break out of loop
- read tuner register 38 into reg38
- write 0x00 to tuner register 30
- write 0x14 to tuner register 5
- write 0x44 to tuner register 6
- write 0x28 to tuner register 7
- write 0x0B to tuner register 8
- write 0xFD to tuner register 17* (this can be 0x0D in some cases)
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x0D to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- write 0x40 to tuner register 6
- write 0xF0 to tuner register 22
- write 0x38 to tuner register 2
- write 0x19 to tuner register 3
- write 0x20 to tuner register 31
- write 0xE0 to tuner register 32
- write 0x00 to tuner register 30
- write 0x84 to tuner register 30
- loop 30 times
- read tuner register 31 into reg31
- if register 31 bit 7 is set
- break out of loop
- read tuner register 31 into reg31
- read tuner register 32 into reg32
- write 0x00 to tuner register 30
- write 0x3F to tuner register 2
- write 0x53 to tuner register 33
- read tuner register 33 into reg33
- write 0xFD to tuner register 17* (this can be 0x0D in some cases)
- write 0x34 to tuner register 5
- write 0x44 to tuner register 6
- write 0x31 to tuner register 7
- write 0x08 to tuner register 8
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_1
- write 0x32 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_2
- write 0x33 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_3
- write 0x34 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_4
- write 0x35 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_5
- write 0x36 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_6
- write 0x37 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_7
- write 0x38 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34_8
- write 0x39 to tuner register 7
- write 0xD0 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0xD0 to tuner register 30
- read tuner register 34 into reg34
Tuner set frequency
The frequency set method has one sub-method and one subsub-method.
set_frequency
This method has the frequency argument, called freq and in Hz.
- call set_parameters with freq and command equal to tune
- if reg35 equal to 0xE0
- call set_parameters with freq and command equal to tune_next
- if reg35 equal to 0xFF
- call set_parameters with freq and command equal to 3
- if reg34 equal to 0xFF
- call set_parameters with freq and command equal to 1
set_parameters
arguments freq and command
- call calculate_parameters with freq and command
- write 0x80 to tuner register 1
- write 0x3F to tuner register 2
- if command is equal to tune_next
- if reg5 is less then 0x74
- set reg5_1 to reg_5 plus 0x20
- if reg5 is less then 0x74
- write reg5_1 to tuner register 5
- write 0x44 to tuner register 6
- write freq_slot2 to tuner register 7
- write freq_slot1 to tuner register 8
- write freq_slot4 to tuner register 9
- write freq_slot5 to tuner register 10
- write freq_slot6 to tuner register 11
- write 0xE1 to tuner register 12
- write freq_slot7 to tuner register 26
- write 0x00 to tuner register 27
- write freq_slot8 to tuner register 28
- write 0xFD to tuner register 17*
- write 0x91 to tuner register 18*
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- write 0x80 to tuner register 1
- if reg5_1 is equal to 0x34
- if freq_slot12 is larger equal to 0xF0
- if freq_slot12 is less equal to 0xFA
- write freq_slot12 minus 0x20 into freq_slot12
- else
- write 0xDA into freq_slot12
- if freq_slot12 is less equal to 0xFA
- else
- write 0xD0 into freq_slot12
- write freq_slot12 into tmp_var1
- if freq_slot12 is larger equal to 0xF0
- else
- write 0xD0 into tmp_var1
- write tmp_var1 to tuner register 34
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 30
- loop 30 times
- read tuner register 34
- if register 34 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- read tuner register 34 into reg34
- if reg34 is less equal to 0xFE
- write reg34 plus 1 to tuner register 34
- read tuner register 5 into reg5
- read tuner register 34 into reg34
- write 0xD0 to tuner register 35
- write 0x00 to tuner register 30
- write 0xE0 to tuner register 30
- loop 30 times
- read tuner register 35
- if register 35 bit 6 is set
- break out of loop
- read tuner register 35 into reg35
- write 0x00 to tuner register 30
- write 0xD0 to tuner register 36
- write 0x00 to tuner register 30
- write 0xF0 to tuner register 30
- loop 30 times
- read tuner register 36
- if register 36 bit 6 is set
- break out of loop
- write 0x00 to tuner register 30
- write 0x7F to tuner register 20
- write 0x7F to tuner register 21
- if command is equal to tune_next
- if reg5 is less equalt to 0x74
- write reg5 minus 4 into reg5_3
- if reg5 is less equalt to 0x74
- write reg5_3 to tuner register 5
- write 0x00 to tuner register 6
- write 0x1F to tuner register 21
- write 0xFF to tuner register 22
- write 0xFF to tuner register 24
- if reg31 is greater equal to 0x50
- write 0x50 into reg31
- if reg32 is greater equal to 0x12
- write 0x12 into reg32
- write reg31 plus freq_slot10 to tuner register 31
- write reg32 plus freq_slot11 to tuner register 32
- write reg33 to tuner register 33
- write reg37 to tuner register 37
- write reg38 to tuner register 38
- write 0x96 to tuner register 0
- write 0x00 to tuner register 2
- write 0x00 to tuner register 1
calculate_parameters
Not complete yet*
arguments freq (in Hz) and command
- if freq is less then 60000000 or greater then 900000000
- return error
- if command is equal to tune_next
- write g_prev_command to cmd_tmp
- else
- write command to g_prev_command
- write 36125000 to IF
- write 1232000000 to X
- write 920000000 to Y
- write ((freq + X) divided by 4) plus 500000) to Z
- write (1000000 * Z) divided by 1000000 to T1
- write (4000000* Z) divided by 1000000 - Y - freq to T2
- write (4000000* Z) divided by 1000000 - Y - freq - IF to T3
- write T3 divided by 4000000 to T4
- write T3 divided by 4 to T5
- write T1 modulus 8000000 divided by 1000000 to T6
- write (((T5 plus 15777216 multiplied by T4) multiplied by 16) plus 500000) divided by 1000000 to T7
- write T4 to freq_slot5
- write T7 truncated to 8 bits to freq_slot7
- write 2 multiplied by (T7 shifted left 8) + 137 to freq_slot8
Tuner On/Off
This method has 1 argument, curr set to either 0 or 1
set_tuner_off
- write 0x80 to tuner register 1
- if curr is 1
- read tuner register 17 into tmp
- write tmp logical and 0xF0 into tmp
- write tmp to tuner register 17
- write 0x7F to tuner register 2
- read tuner register 5 into tmp
- write tmp logical or 0xF into tmp
- write tmp to tuner register 5
- write 0xFF to tuner register 6
- write 0x00 to tuner register 1
set_tuner_on
- write 0x80 to tuner register 1
- write 0x00 to tuner register 2
- read tuner register 5 into tmp
- write tmp logical and 0xF0 into tmp
- write tmp to tuner register 5
- write 0x00 to tuner register 6
- write 0x00 to tuner register 1