HackRF-Treasure-Chest/Software/portapack-mayhem/hackrf/firmware/common/si5351c.c
2022-09-22 09:26:57 -07:00

292 lines
8.9 KiB
C

/*
* Copyright 2012 Michael Ossmann <mike@ossmann.com>
* Copyright 2012 Jared Boone <jared@sharebrained.com>
*
* This file is part of HackRF.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#include "si5351c.h"
enum pll_sources active_clock_source = PLL_SOURCE_UNINITIALIZED;
/* External clock output default is deactivated as it creates noise */
uint8_t clk3_ctrl = SI5351C_CLK_POWERDOWN | SI5351C_CLK_INT_MODE;
/* write to single register */
void si5351c_write_single(si5351c_driver_t* const drv, uint8_t reg, uint8_t val)
{
const uint8_t data_tx[] = { reg, val };
si5351c_write(drv, data_tx, 2);
}
/* read single register */
uint8_t si5351c_read_single(si5351c_driver_t* const drv, uint8_t reg)
{
const uint8_t data_tx[] = { reg };
uint8_t data_rx[] = { 0x00 };
i2c_bus_transfer(drv->bus, drv->i2c_address, data_tx, 1, data_rx, 1);
return data_rx[0];
}
/*
* Write to one or more contiguous registers. data[0] should be the first
* register number, one or more values follow.
*/
void si5351c_write(si5351c_driver_t* const drv, const uint8_t* const data, const size_t data_count)
{
i2c_bus_transfer(drv->bus, drv->i2c_address, data, data_count, NULL, 0);
}
/* Disable all CLKx outputs. */
void si5351c_disable_all_outputs(si5351c_driver_t* const drv)
{
uint8_t data[] = { 3, 0xFF };
si5351c_write(drv, data, sizeof(data));
}
/* Turn off OEB pin control for all CLKx */
void si5351c_disable_oeb_pin_control(si5351c_driver_t* const drv)
{
uint8_t data[] = { 9, 0xFF };
si5351c_write(drv, data, sizeof(data));
}
/* Power down all CLKx */
void si5351c_power_down_all_clocks(si5351c_driver_t* const drv)
{
uint8_t data[] = { 16
, SI5351C_CLK_POWERDOWN
, SI5351C_CLK_POWERDOWN
, SI5351C_CLK_POWERDOWN
, SI5351C_CLK_POWERDOWN
, SI5351C_CLK_POWERDOWN
, SI5351C_CLK_POWERDOWN
, SI5351C_CLK_POWERDOWN | SI5351C_CLK_INT_MODE
, SI5351C_CLK_POWERDOWN | SI5351C_CLK_INT_MODE
};
si5351c_write(drv, data, sizeof(data));
}
/*
* Register 183: Crystal Internal Load Capacitance
* Reads as 0xE4 on power-up
* Set to 8pF based on crystal specs and HackRF One testing
*/
void si5351c_set_crystal_configuration(si5351c_driver_t* const drv)
{
uint8_t data[] = { 183, 0x80 };
si5351c_write(drv, data, sizeof(data));
}
/*
* Register 187: Fanout Enable
* Turn on XO and MultiSynth fanout only.
*/
void si5351c_enable_xo_and_ms_fanout(si5351c_driver_t* const drv)
{
uint8_t data[] = { 187, 0xD0 };
si5351c_write(drv, data, sizeof(data));
}
/*
* Register 15: PLL Input Source
* CLKIN_DIV=0 (Divide by 1)
* PLLA_SRC=0 (XTAL)
* PLLB_SRC=1 (CLKIN)
*/
void si5351c_configure_pll_sources(si5351c_driver_t* const drv)
{
uint8_t data[] = { 15, 0x08 };
si5351c_write(drv, data, sizeof(data));
}
/* MultiSynth NA (PLLA) and NB (PLLB) */
void si5351c_configure_pll_multisynth(si5351c_driver_t* const drv)
{
/*PLLA: 25MHz XTAL * (0x0e00+512)/128 = 800mhz -> int mode */
uint8_t data[] = { 26, 0x00, 0x01, 0x00, 0x0E, 0x00, 0x00, 0x00, 0x00 };
si5351c_write(drv, data, sizeof(data));
/*PLLB: 10MHz CLKIN * (0x2600+512)/128 = 800mhz */
data[0] = 34;
data[4] = 0x26;
si5351c_write(drv, data, sizeof(data));
}
void si5351c_reset_pll(si5351c_driver_t* const drv)
{
/* reset PLLA and PLLB */
uint8_t data[] = { 177, 0xA0 };
si5351c_write(drv, data, sizeof(data));
}
void si5351c_configure_multisynth(si5351c_driver_t* const drv,
const uint_fast8_t ms_number,
const uint32_t p1, const uint32_t p2, const uint32_t p3,
const uint_fast8_t r_div)
{
/*
* TODO: Check for p3 > 0? 0 has no meaning in fractional mode?
* And it makes for more jitter in integer mode.
*/
/*
* r is the r divider value encoded:
* 0 means divide by 1
* 1 means divide by 2
* 2 means divide by 4
* ...
* 7 means divide by 128
*/
const uint_fast8_t register_number = 42 + (ms_number * 8);
uint8_t data[] = {
register_number,
(p3 >> 8) & 0xFF,
(p3 >> 0) & 0xFF,
(r_div << 4) | (0 << 2) | ((p1 >> 16) & 0x3),
(p1 >> 8) & 0xFF,
(p1 >> 0) & 0xFF,
(((p3 >> 16) & 0xF) << 4) | (((p2 >> 16) & 0xF) << 0),
(p2 >> 8) & 0xFF,
(p2 >> 0) & 0xFF };
si5351c_write(drv, data, sizeof(data));
}
void si5351c_configure_clock_control(si5351c_driver_t* const drv, const enum pll_sources source)
{
uint8_t pll;
#ifdef RAD1O
(void) source;
/* PLLA on XTAL */
pll = SI5351C_CLK_PLL_SRC_A;
#endif
#if (defined JAWBREAKER || defined HACKRF_ONE)
if (source == PLL_SOURCE_CLKIN) {
/* PLLB on CLKIN */
pll = SI5351C_CLK_PLL_SRC_B;
} else {
/* PLLA on XTAL */
pll = SI5351C_CLK_PLL_SRC_A;
}
#endif
/* Clock to CPU is deactivated as it is not used and creates noise */
/* External clock output is kept in current state */
uint8_t data[] = {16
,SI5351C_CLK_FRAC_MODE | SI5351C_CLK_PLL_SRC(pll) | SI5351C_CLK_SRC(SI5351C_CLK_SRC_MULTISYNTH_SELF) | SI5351C_CLK_IDRV(SI5351C_CLK_IDRV_8MA)
,SI5351C_CLK_INT_MODE | SI5351C_CLK_PLL_SRC(pll) | SI5351C_CLK_SRC(SI5351C_CLK_SRC_MULTISYNTH_0_4) | SI5351C_CLK_IDRV(SI5351C_CLK_IDRV_2MA) | SI5351C_CLK_INV
,SI5351C_CLK_INT_MODE | SI5351C_CLK_PLL_SRC(pll) | SI5351C_CLK_SRC(SI5351C_CLK_SRC_MULTISYNTH_0_4) | SI5351C_CLK_IDRV(SI5351C_CLK_IDRV_2MA)
,clk3_ctrl
,SI5351C_CLK_INT_MODE | SI5351C_CLK_PLL_SRC(pll) | SI5351C_CLK_SRC(SI5351C_CLK_SRC_MULTISYNTH_SELF) | SI5351C_CLK_IDRV(SI5351C_CLK_IDRV_6MA) | SI5351C_CLK_INV
,SI5351C_CLK_INT_MODE | SI5351C_CLK_PLL_SRC(pll) | SI5351C_CLK_SRC(SI5351C_CLK_SRC_MULTISYNTH_SELF) | SI5351C_CLK_IDRV(SI5351C_CLK_IDRV_4MA)
,SI5351C_CLK_POWERDOWN | SI5351C_CLK_INT_MODE /*not connected, but: plla int mode*/
,SI5351C_CLK_POWERDOWN | SI5351C_CLK_INT_MODE /*not connected, but: plla int mode*/
};
si5351c_write(drv, data, sizeof(data));
}
#define SI5351C_CLK_ENABLE(x) (0<<x)
#define SI5351C_CLK_DISABLE(x) (1<<x)
#define SI5351C_REG_OUTPUT_EN (3)
#define SI5351C_REG_CLK3_CTRL (19)
void si5351c_enable_clock_outputs(si5351c_driver_t* const drv)
{
/* Enable CLK outputs 0, 1, 2, 4, 5 only. */
/* 7: Clock to CPU is deactivated as it is not used and creates noise */
/* 3: External clock output is deactivated by default */
// uint8_t data[] = { 3, ~((1 << 0) | (1 << 1) | (1 << 2) | (1 << 4) | (1 << 5))};
uint8_t data[] = { SI5351C_REG_OUTPUT_EN,
SI5351C_CLK_ENABLE(0) |
SI5351C_CLK_ENABLE(1) |
SI5351C_CLK_ENABLE(2) |
SI5351C_CLK_DISABLE(3) |
SI5351C_CLK_ENABLE(4) |
SI5351C_CLK_ENABLE(5) |
SI5351C_CLK_DISABLE(6) |
SI5351C_CLK_DISABLE(7)
};
si5351c_write(drv, data, sizeof(data));
}
void si5351c_set_int_mode(si5351c_driver_t* const drv, const uint_fast8_t ms_number, const uint_fast8_t on){
uint8_t data[] = {16, 0};
if(ms_number < 8){
data[0] = 16 + ms_number;
data[1] = si5351c_read_single(drv, data[0]);
if(on)
data[1] |= SI5351C_CLK_INT_MODE;
else
data[1] &= ~(SI5351C_CLK_INT_MODE);
si5351c_write(drv, data, 2);
}
}
void si5351c_set_clock_source(si5351c_driver_t* const drv, const enum pll_sources source)
{
if( source != active_clock_source ) {
si5351c_configure_clock_control(drv, source);
active_clock_source = source;
}
}
bool si5351c_clkin_signal_valid(si5351c_driver_t* const drv) {
return (si5351c_read_single(drv, 0) & SI5351C_LOS) == 0;
}
void si5351c_clkout_enable(si5351c_driver_t* const drv, uint8_t enable)
{
/* Set optput in output enable register */
uint8_t output_enable = si5351c_read_single(drv, 3);
output_enable = output_enable & !SI5351C_CLK_DISABLE(3);
if(enable)
output_enable = output_enable | SI5351C_CLK_ENABLE(3);
else
output_enable = output_enable | SI5351C_CLK_DISABLE(3);
uint8_t oe_data[] = {SI5351C_REG_OUTPUT_EN, output_enable};
si5351c_write(drv, oe_data, 2);
/* Configure clock to 10MHz (TODO customisable?) */
si5351c_configure_multisynth(drv, 3, 80*128-512, 0, 1, 0);
/* Set power up/doen in CLK3 control register*/
uint8_t pll;
#ifdef RAD1O
/* PLLA on XTAL */
pll = SI5351C_CLK_PLL_SRC_A;
#endif
#if (defined JAWBREAKER || defined HACKRF_ONE)
if (active_clock_source == PLL_SOURCE_CLKIN) {
/* PLLB on CLKIN */
pll = SI5351C_CLK_PLL_SRC_B;
} else {
/* PLLA on XTAL */
pll = SI5351C_CLK_PLL_SRC_A;
}
#endif
if(enable)
clk3_ctrl = SI5351C_CLK_INT_MODE | SI5351C_CLK_PLL_SRC(pll) | SI5351C_CLK_SRC(SI5351C_CLK_SRC_MULTISYNTH_SELF) | SI5351C_CLK_IDRV(SI5351C_CLK_IDRV_8MA);
else
clk3_ctrl = SI5351C_CLK_POWERDOWN | SI5351C_CLK_INT_MODE;
uint8_t clk3_data[] = {SI5351C_REG_CLK3_CTRL, clk3_ctrl};
si5351c_write(drv, clk3_data, 2);
}