M7350/kernel/include/linux/iio/frequency/ad9523.h
2024-09-09 08:57:42 +00:00

196 lines
5.3 KiB
C

/*
* AD9523 SPI Low Jitter Clock Generator
*
* Copyright 2012 Analog Devices Inc.
*
* Licensed under the GPL-2.
*/
#ifndef IIO_FREQUENCY_AD9523_H_
#define IIO_FREQUENCY_AD9523_H_
enum outp_drv_mode {
TRISTATE,
LVPECL_8mA,
LVDS_4mA,
LVDS_7mA,
HSTL0_16mA,
HSTL1_8mA,
CMOS_CONF1,
CMOS_CONF2,
CMOS_CONF3,
CMOS_CONF4,
CMOS_CONF5,
CMOS_CONF6,
CMOS_CONF7,
CMOS_CONF8,
CMOS_CONF9
};
enum ref_sel_mode {
NONEREVERTIVE_STAY_ON_REFB,
REVERT_TO_REFA,
SELECT_REFA,
SELECT_REFB,
EXT_REF_SEL
};
/**
* struct ad9523_channel_spec - Output channel configuration
*
* @channel_num: Output channel number.
* @divider_output_invert_en: Invert the polarity of the output clock.
* @sync_ignore_en: Ignore chip-level SYNC signal.
* @low_power_mode_en: Reduce power used in the differential output modes.
* @use_alt_clock_src: Channel divider uses alternative clk source.
* @output_dis: Disables, powers down the entire channel.
* @driver_mode: Output driver mode (logic level family).
* @divider_phase: Divider initial phase after a SYNC. Range 0..63
LSB = 1/2 of a period of the divider input clock.
* @channel_divider: 10-bit channel divider.
* @extended_name: Optional descriptive channel name.
*/
struct ad9523_channel_spec {
unsigned channel_num;
bool divider_output_invert_en;
bool sync_ignore_en;
bool low_power_mode_en;
/* CH0..CH3 VCXO, CH4..CH9 VCO2 */
bool use_alt_clock_src;
bool output_dis;
enum outp_drv_mode driver_mode;
unsigned char divider_phase;
unsigned short channel_divider;
char extended_name[16];
};
enum pll1_rzero_resistor {
RZERO_883_OHM,
RZERO_677_OHM,
RZERO_341_OHM,
RZERO_135_OHM,
RZERO_10_OHM,
RZERO_USE_EXT_RES = 8,
};
enum rpole2_resistor {
RPOLE2_900_OHM,
RPOLE2_450_OHM,
RPOLE2_300_OHM,
RPOLE2_225_OHM,
};
enum rzero_resistor {
RZERO_3250_OHM,
RZERO_2750_OHM,
RZERO_2250_OHM,
RZERO_2100_OHM,
RZERO_3000_OHM,
RZERO_2500_OHM,
RZERO_2000_OHM,
RZERO_1850_OHM,
};
enum cpole1_capacitor {
CPOLE1_0_PF,
CPOLE1_8_PF,
CPOLE1_16_PF,
CPOLE1_24_PF,
_CPOLE1_24_PF, /* place holder */
CPOLE1_32_PF,
CPOLE1_40_PF,
CPOLE1_48_PF,
};
/**
* struct ad9523_platform_data - platform specific information
*
* @vcxo_freq: External VCXO frequency in Hz
* @refa_diff_rcv_en: REFA differential/single-ended input selection.
* @refb_diff_rcv_en: REFB differential/single-ended input selection.
* @zd_in_diff_en: Zero Delay differential/single-ended input selection.
* @osc_in_diff_en: OSC differential/ single-ended input selection.
* @refa_cmos_neg_inp_en: REFA single-ended neg./pos. input enable.
* @refb_cmos_neg_inp_en: REFB single-ended neg./pos. input enable.
* @zd_in_cmos_neg_inp_en: Zero Delay single-ended neg./pos. input enable.
* @osc_in_cmos_neg_inp_en: OSC single-ended neg./pos. input enable.
* @refa_r_div: PLL1 10-bit REFA R divider.
* @refb_r_div: PLL1 10-bit REFB R divider.
* @pll1_feedback_div: PLL1 10-bit Feedback N divider.
* @pll1_charge_pump_current_nA: Magnitude of PLL1 charge pump current (nA).
* @zero_delay_mode_internal_en: Internal, external Zero Delay mode selection.
* @osc_in_feedback_en: PLL1 feedback path, local feedback from
* the OSC_IN receiver or zero delay mode
* @pll1_loop_filter_rzero: PLL1 Loop Filter Zero Resistor selection.
* @ref_mode: Reference selection mode.
* @pll2_charge_pump_current_nA: Magnitude of PLL2 charge pump current (nA).
* @pll2_ndiv_a_cnt: PLL2 Feedback N-divider, A Counter, range 0..4.
* @pll2_ndiv_b_cnt: PLL2 Feedback N-divider, B Counter, range 0..63.
* @pll2_freq_doubler_en: PLL2 frequency doubler enable.
* @pll2_r2_div: PLL2 R2 divider, range 0..31.
* @pll2_vco_diff_m1: VCO1 divider, range 3..5.
* @pll2_vco_diff_m2: VCO2 divider, range 3..5.
* @rpole2: PLL2 loop filter Rpole resistor value.
* @rzero: PLL2 loop filter Rzero resistor value.
* @cpole1: PLL2 loop filter Cpole capacitor value.
* @rzero_bypass_en: PLL2 loop filter Rzero bypass enable.
* @num_channels: Array size of struct ad9523_channel_spec.
* @channels: Pointer to channel array.
* @name: Optional alternative iio device name.
*/
struct ad9523_platform_data {
unsigned long vcxo_freq;
/* Differential/ Single-Ended Input Configuration */
bool refa_diff_rcv_en;
bool refb_diff_rcv_en;
bool zd_in_diff_en;
bool osc_in_diff_en;
/*
* Valid if differential input disabled
* if false defaults to pos input
*/
bool refa_cmos_neg_inp_en;
bool refb_cmos_neg_inp_en;
bool zd_in_cmos_neg_inp_en;
bool osc_in_cmos_neg_inp_en;
/* PLL1 Setting */
unsigned short refa_r_div;
unsigned short refb_r_div;
unsigned short pll1_feedback_div;
unsigned short pll1_charge_pump_current_nA;
bool zero_delay_mode_internal_en;
bool osc_in_feedback_en;
enum pll1_rzero_resistor pll1_loop_filter_rzero;
/* Reference */
enum ref_sel_mode ref_mode;
/* PLL2 Setting */
unsigned int pll2_charge_pump_current_nA;
unsigned char pll2_ndiv_a_cnt;
unsigned char pll2_ndiv_b_cnt;
bool pll2_freq_doubler_en;
unsigned char pll2_r2_div;
unsigned char pll2_vco_diff_m1; /* 3..5 */
unsigned char pll2_vco_diff_m2; /* 3..5 */
/* Loop Filter PLL2 */
enum rpole2_resistor rpole2;
enum rzero_resistor rzero;
enum cpole1_capacitor cpole1;
bool rzero_bypass_en;
/* Output Channel Configuration */
int num_channels;
struct ad9523_channel_spec *channels;
char name[SPI_NAME_SIZE];
};
#endif /* IIO_FREQUENCY_AD9523_H_ */