/* Copyright (C) 2018 RDA Technologies Limited and/or its affiliates("RDA"). * All rights reserved. * * This software is supplied "AS IS" without any warranties. * RDA assumes no responsibility or liability for the use of the software, * conveys no license or title under any patent, copyright, or mask work * right to the product. RDA reserves the right to make changes in the * software without notification. RDA also make no representation or * warranty that such application will be suitable for the specified use * without further testing or modification. */ #ifndef _RF_RXDLPF_H_ #define _RF_RXDLPF_H_ // Auto generated by dtools(see dtools.txt for its version). // Don't edit it manually! #define REG_RF_RXDLPF_SET_OFFSET (1024) #define REG_RF_RXDLPF_CLR_OFFSET (2048) #define REG_RF_RXDLPF_BASE (0x50037000) typedef volatile struct { uint32_t dlpf_ctrl_reg; // 0x00000000 uint32_t dlpf_dr_reg; // 0x00000004 uint32_t dlpf_afc_pha_offset_reg; // 0x00000008 uint32_t dlpf_kdco_pha_offset_reg; // 0x0000000c uint32_t dlpf_gain_kp_afc_reg; // 0x00000010 uint32_t dlpf_gain_ki_afc_reg; // 0x00000014 uint32_t dlpf_gain_kp_2m_reg; // 0x00000018 uint32_t dlpf_gain_ki_2m_reg; // 0x0000001c uint32_t dlpf_gain_kp_200k_reg; // 0x00000020 uint32_t dlpf_gain_ki_200k_reg; // 0x00000024 uint32_t dlpf_iir0_gain0_reg; // 0x00000028 uint32_t dlpf_iir0_gain1_reg; // 0x0000002c uint32_t dlpf_iir1_gain0_reg; // 0x00000030 uint32_t dlpf_iir1_gain1_reg; // 0x00000034 uint32_t dlpf_iir_gain_msb_reg; // 0x00000038 uint32_t dlpf_diff_sel_reg; // 0x0000003c uint32_t dlpf_afc_diff_thr_lsb_reg; // 0x00000040 uint32_t dlpf_afc_diff_thr_msb_reg; // 0x00000044 uint32_t dlpf_afc_cnt_thr_reg; // 0x00000048 uint32_t dlpf_lock_2m_diff_thr_lsb_reg; // 0x0000004c uint32_t dlpf_lock_2m_diff_thr_msb_reg; // 0x00000050 uint32_t dlpf_lock_2m_cnt_thr_reg; // 0x00000054 uint32_t dlpf_lock_200k_diff_thr_lsb_reg; // 0x00000058 uint32_t dlpf_lock_200k_diff_thr_msb_reg; // 0x0000005c uint32_t dlpf_lock_200k_cnt_thr_reg; // 0x00000060 uint32_t dlpf_timer0_cnt_lsb_reg; // 0x00000064 uint32_t dlpf_timer0_cnt_msb_reg; // 0x00000068 uint32_t dlpf_timer1_cnt_lsb_reg; // 0x0000006c uint32_t dlpf_timer1_cnt_msb_reg; // 0x00000070 uint32_t dlpf_timer2_cnt_lsb_reg; // 0x00000074 uint32_t dlpf_timer2_cnt_msb_reg; // 0x00000078 uint32_t dlpf_capture_reg; // 0x0000007c uint32_t dlpf_status0_reg; // 0x00000080 uint32_t dlpf_status1_reg; // 0x00000084 uint32_t dlpf_afc_code_status; // 0x00000088 uint32_t dlpf_kdco_code_status; // 0x0000008c uint32_t dlpf_tdc_code_reg; // 0x00000090 uint32_t dlpf_sum0_l_reg; // 0x00000094 uint32_t dlpf_sum0_m_reg; // 0x00000098 uint32_t dlpf_sum0_h_reg; // 0x0000009c uint32_t dlpf_iir0_data_lsb_reg; // 0x000000a0 uint32_t dlpf_iir0_data_msb_reg; // 0x000000a4 uint32_t dlpf_iir1_data_lsb_reg; // 0x000000a8 uint32_t dlpf_iir1_data_msb_reg; // 0x000000ac uint32_t dlpf_ctrl_bit_reg; // 0x000000b0 uint32_t gro_phase_tdc_cal; // 0x000000b4 uint32_t __184[210]; // 0x000000b8 uint32_t dlpf_ctrl_reg_set; // 0x00000400 uint32_t __1028[43]; // 0x00000404 uint32_t dlpf_ctrl_bit_reg_set; // 0x000004b0 uint32_t __1204[211]; // 0x000004b4 uint32_t dlpf_ctrl_reg_clr; // 0x00000800 uint32_t __2052[43]; // 0x00000804 uint32_t dlpf_ctrl_bit_reg_clr; // 0x000008b0 } HWP_RF_RXDLPF_T; #define hwp_rfRxdlpf ((HWP_RF_RXDLPF_T *)REG_ACCESS_ADDRESS(REG_RF_RXDLPF_BASE)) // dlpf_ctrl_reg typedef union { uint32_t v; struct { uint32_t __0_0 : 1; // [0] uint32_t dlpf_en : 1; // [1] uint32_t dlpf_lock_mode : 1; // [2] uint32_t dlpf_clk_inv0_reg : 1; // [3] uint32_t dlpf_clk_inv1_reg : 1; // [4] uint32_t dlpf_notch_bypass : 1; // [5] uint32_t dlpf_mdll_num : 3; // [8:6] uint32_t pha_dout_clk_inv : 1; // [9] uint32_t tdc_dout_clk_inv : 1; // [10] uint32_t pha_err_clk_inv : 1; // [11] uint32_t tdc_cal_clk_inv : 1; // [12] uint32_t notch_en_sel_status2 : 1; // [13] uint32_t sdm_bypass : 1; // [14] uint32_t notch_en_sel_status3 : 1; // [15] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_CTRL_REG_T; // dlpf_dr_reg typedef union { uint32_t v; struct { uint32_t dlpf_dr_value : 14; // [13:0] uint32_t dlpf_dr_mode : 1; // [14] uint32_t __31_15 : 17; // [31:15] } b; } REG_RF_RXDLPF_DLPF_DR_REG_T; // dlpf_afc_pha_offset_reg typedef union { uint32_t v; struct { uint32_t dlpf_afc_pha_offset : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_AFC_PHA_OFFSET_REG_T; // dlpf_kdco_pha_offset_reg typedef union { uint32_t v; struct { uint32_t dlpf_kdco_pha_offset : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_KDCO_PHA_OFFSET_REG_T; // dlpf_gain_kp_afc_reg typedef union { uint32_t v; struct { uint32_t dlpf_gain_kp_afc : 13; // [12:0] uint32_t __31_13 : 19; // [31:13] } b; } REG_RF_RXDLPF_DLPF_GAIN_KP_AFC_REG_T; // dlpf_gain_ki_afc_reg typedef union { uint32_t v; struct { uint32_t dlpf_gain_ki_afc : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_GAIN_KI_AFC_REG_T; // dlpf_gain_kp_2m_reg typedef union { uint32_t v; struct { uint32_t dlpf_gain_kp_2m : 13; // [12:0] uint32_t __31_13 : 19; // [31:13] } b; } REG_RF_RXDLPF_DLPF_GAIN_KP_2M_REG_T; // dlpf_gain_ki_2m_reg typedef union { uint32_t v; struct { uint32_t dlpf_gain_ki_2m : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_GAIN_KI_2M_REG_T; // dlpf_gain_kp_200k_reg typedef union { uint32_t v; struct { uint32_t dlpf_gain_kp_200k : 13; // [12:0] uint32_t __31_13 : 19; // [31:13] } b; } REG_RF_RXDLPF_DLPF_GAIN_KP_200K_REG_T; // dlpf_gain_ki_200k_reg typedef union { uint32_t v; struct { uint32_t dlpf_gain_ki_200k : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_GAIN_KI_200K_REG_T; // dlpf_iir0_gain0_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir0_gain0 : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR0_GAIN0_REG_T; // dlpf_iir0_gain1_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir0_gain1 : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR0_GAIN1_REG_T; // dlpf_iir1_gain0_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir1_gain0 : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR1_GAIN0_REG_T; // dlpf_iir1_gain1_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir1_gain1 : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR1_GAIN1_REG_T; // dlpf_iir_gain_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir0_gain0_msb : 1; // [0] uint32_t dlpf_iir0_gain1_msb : 1; // [1] uint32_t dlpf_iir1_gain0_msb : 1; // [2] uint32_t dlpf_iir1_gain1_msb : 1; // [3] uint32_t __31_4 : 28; // [31:4] } b; } REG_RF_RXDLPF_DLPF_IIR_GAIN_MSB_REG_T; // dlpf_diff_sel_reg typedef union { uint32_t v; struct { uint32_t dlpf_diff_sel : 3; // [2:0] uint32_t __31_3 : 29; // [31:3] } b; } REG_RF_RXDLPF_DLPF_DIFF_SEL_REG_T; // dlpf_afc_diff_thr_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_afc_diff_thr_lsb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_AFC_DIFF_THR_LSB_REG_T; // dlpf_afc_diff_thr_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_afc_diff_thr_msb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_AFC_DIFF_THR_MSB_REG_T; // dlpf_afc_cnt_thr_reg typedef union { uint32_t v; struct { uint32_t dlpf_afc_cnt_thr : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_AFC_CNT_THR_REG_T; // dlpf_lock_2m_diff_thr_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_lock_2m_diff_thr_lsb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_LOCK_2M_DIFF_THR_LSB_REG_T; // dlpf_lock_2m_diff_thr_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_lock_2m_diff_thr_msb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_LOCK_2M_DIFF_THR_MSB_REG_T; // dlpf_lock_2m_cnt_thr_reg typedef union { uint32_t v; struct { uint32_t dlpf_lock_2m_cnt_thr : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_LOCK_2M_CNT_THR_REG_T; // dlpf_lock_200k_diff_thr_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_lock_200k_diff_thr_lsb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_LOCK_200K_DIFF_THR_LSB_REG_T; // dlpf_lock_200k_diff_thr_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_lock_200k_diff_thr_msb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_LOCK_200K_DIFF_THR_MSB_REG_T; // dlpf_lock_200k_cnt_thr_reg typedef union { uint32_t v; struct { uint32_t dlpf_lock_200k_cnt_thr : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_LOCK_200K_CNT_THR_REG_T; // dlpf_timer0_cnt_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_timer0_cnt_lsb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TIMER0_CNT_LSB_REG_T; // dlpf_timer0_cnt_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_timer0_cnt_msb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TIMER0_CNT_MSB_REG_T; // dlpf_timer1_cnt_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_timer1_cnt_lsb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TIMER1_CNT_LSB_REG_T; // dlpf_timer1_cnt_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_timer1_cnt_msb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TIMER1_CNT_MSB_REG_T; // dlpf_timer2_cnt_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_timer2_cnt_lsb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TIMER2_CNT_LSB_REG_T; // dlpf_timer2_cnt_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_timer2_cnt_msb : 16; // [15:0] uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TIMER2_CNT_MSB_REG_T; // dlpf_capture_reg typedef union { uint32_t v; struct { uint32_t dlpf_capture_en : 1; // [0] uint32_t __31_1 : 31; // [31:1] } b; } REG_RF_RXDLPF_DLPF_CAPTURE_REG_T; // dlpf_status0_reg typedef union { uint32_t v; struct { uint32_t dlpf_det_status : 2; // [1:0], read only uint32_t dlpf_afc_code : 11; // [12:2], read only uint32_t __31_13 : 19; // [31:13] } b; } REG_RF_RXDLPF_DLPF_STATUS0_REG_T; // dlpf_status1_reg typedef union { uint32_t v; struct { uint32_t dlpf_kdco_code : 14; // [13:0], read only uint32_t __31_14 : 18; // [31:14] } b; } REG_RF_RXDLPF_DLPF_STATUS1_REG_T; // dlpf_afc_code_status typedef union { uint32_t v; struct { uint32_t dlpf_afc_code_reg : 11; // [10:0], read only uint32_t __31_11 : 21; // [31:11] } b; } REG_RF_RXDLPF_DLPF_AFC_CODE_STATUS_T; // dlpf_kdco_code_status typedef union { uint32_t v; struct { uint32_t dlpf_kdco_code_reg : 14; // [13:0], read only uint32_t __31_14 : 18; // [31:14] } b; } REG_RF_RXDLPF_DLPF_KDCO_CODE_STATUS_T; // dlpf_tdc_code_reg typedef union { uint32_t v; struct { uint32_t dlpf_tdc_code : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_TDC_CODE_REG_T; // dlpf_sum0_l_reg typedef union { uint32_t v; struct { uint32_t dlpf_sum0_l : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_SUM0_L_REG_T; // dlpf_sum0_m_reg typedef union { uint32_t v; struct { uint32_t dlpf_sum0_m : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_SUM0_M_REG_T; // dlpf_sum0_h_reg typedef union { uint32_t v; struct { uint32_t dlpf_sum0_h : 7; // [6:0], read only uint32_t __31_7 : 25; // [31:7] } b; } REG_RF_RXDLPF_DLPF_SUM0_H_REG_T; // dlpf_iir0_data_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir0_data_lsb : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR0_DATA_LSB_REG_T; // dlpf_iir0_data_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir0_data_msb : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR0_DATA_MSB_REG_T; // dlpf_iir1_data_lsb_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir1_data_lsb : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR1_DATA_LSB_REG_T; // dlpf_iir1_data_msb_reg typedef union { uint32_t v; struct { uint32_t dlpf_iir1_data_msb : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_DLPF_IIR1_DATA_MSB_REG_T; // dlpf_ctrl_bit_reg typedef union { uint32_t v; struct { uint32_t iir0_bypass : 1; // [0] uint32_t iir1_bypass : 1; // [1] uint32_t afc_bypass : 1; // [2] uint32_t 2m_lock_bypass : 1; // [3] uint32_t kdco_agc_mode : 1; // [4] uint32_t kdco_polar_sel : 1; // [5] uint32_t sel_clk_out1_inv : 1; // [6] uint32_t sel_clk_out2_inv : 1; // [7] uint32_t capture_data_sel_tdc : 1; // [8] uint32_t __31_9 : 23; // [31:9] } b; } REG_RF_RXDLPF_DLPF_CTRL_BIT_REG_T; // gro_phase_tdc_cal typedef union { uint32_t v; struct { uint32_t phase_tdc_cal : 16; // [15:0], read only uint32_t __31_16 : 16; // [31:16] } b; } REG_RF_RXDLPF_GRO_PHASE_TDC_CAL_T; // dlpf_ctrl_reg #define RF_RXDLPF_DLPF_EN (1 << 1) #define RF_RXDLPF_DLPF_LOCK_MODE (1 << 2) #define RF_RXDLPF_DLPF_CLK_INV0_REG (1 << 3) #define RF_RXDLPF_DLPF_CLK_INV1_REG (1 << 4) #define RF_RXDLPF_DLPF_NOTCH_BYPASS (1 << 5) #define RF_RXDLPF_DLPF_MDLL_NUM(n) (((n)&0x7) << 6) #define RF_RXDLPF_PHA_DOUT_CLK_INV (1 << 9) #define RF_RXDLPF_TDC_DOUT_CLK_INV (1 << 10) #define RF_RXDLPF_PHA_ERR_CLK_INV (1 << 11) #define RF_RXDLPF_TDC_CAL_CLK_INV (1 << 12) #define RF_RXDLPF_NOTCH_EN_SEL_STATUS2 (1 << 13) #define RF_RXDLPF_SDM_BYPASS (1 << 14) #define RF_RXDLPF_NOTCH_EN_SEL_STATUS3 (1 << 15) // dlpf_dr_reg #define RF_RXDLPF_DLPF_DR_VALUE(n) (((n)&0x3fff) << 0) #define RF_RXDLPF_DLPF_DR_MODE (1 << 14) // dlpf_afc_pha_offset_reg #define RF_RXDLPF_DLPF_AFC_PHA_OFFSET(n) (((n)&0xffff) << 0) // dlpf_kdco_pha_offset_reg #define RF_RXDLPF_DLPF_KDCO_PHA_OFFSET(n) (((n)&0xffff) << 0) // dlpf_gain_kp_afc_reg #define RF_RXDLPF_DLPF_GAIN_KP_AFC(n) (((n)&0x1fff) << 0) // dlpf_gain_ki_afc_reg #define RF_RXDLPF_DLPF_GAIN_KI_AFC(n) (((n)&0xffff) << 0) // dlpf_gain_kp_2m_reg #define RF_RXDLPF_DLPF_GAIN_KP_2M(n) (((n)&0x1fff) << 0) // dlpf_gain_ki_2m_reg #define RF_RXDLPF_DLPF_GAIN_KI_2M(n) (((n)&0xffff) << 0) // dlpf_gain_kp_200k_reg #define RF_RXDLPF_DLPF_GAIN_KP_200K(n) (((n)&0x1fff) << 0) // dlpf_gain_ki_200k_reg #define RF_RXDLPF_DLPF_GAIN_KI_200K(n) (((n)&0xffff) << 0) // dlpf_iir0_gain0_reg #define RF_RXDLPF_DLPF_IIR0_GAIN0(n) (((n)&0xffff) << 0) // dlpf_iir0_gain1_reg #define RF_RXDLPF_DLPF_IIR0_GAIN1(n) (((n)&0xffff) << 0) // dlpf_iir1_gain0_reg #define RF_RXDLPF_DLPF_IIR1_GAIN0(n) (((n)&0xffff) << 0) // dlpf_iir1_gain1_reg #define RF_RXDLPF_DLPF_IIR1_GAIN1(n) (((n)&0xffff) << 0) // dlpf_iir_gain_msb_reg #define RF_RXDLPF_DLPF_IIR0_GAIN0_MSB (1 << 0) #define RF_RXDLPF_DLPF_IIR0_GAIN1_MSB (1 << 1) #define RF_RXDLPF_DLPF_IIR1_GAIN0_MSB (1 << 2) #define RF_RXDLPF_DLPF_IIR1_GAIN1_MSB (1 << 3) // dlpf_diff_sel_reg #define RF_RXDLPF_DLPF_DIFF_SEL(n) (((n)&0x7) << 0) // dlpf_afc_diff_thr_lsb_reg #define RF_RXDLPF_DLPF_AFC_DIFF_THR_LSB(n) (((n)&0xffff) << 0) // dlpf_afc_diff_thr_msb_reg #define RF_RXDLPF_DLPF_AFC_DIFF_THR_MSB(n) (((n)&0xffff) << 0) // dlpf_afc_cnt_thr_reg #define RF_RXDLPF_DLPF_AFC_CNT_THR(n) (((n)&0xffff) << 0) // dlpf_lock_2m_diff_thr_lsb_reg #define RF_RXDLPF_DLPF_LOCK_2M_DIFF_THR_LSB(n) (((n)&0xffff) << 0) // dlpf_lock_2m_diff_thr_msb_reg #define RF_RXDLPF_DLPF_LOCK_2M_DIFF_THR_MSB(n) (((n)&0xffff) << 0) // dlpf_lock_2m_cnt_thr_reg #define RF_RXDLPF_DLPF_LOCK_2M_CNT_THR(n) (((n)&0xffff) << 0) // dlpf_lock_200k_diff_thr_lsb_reg #define RF_RXDLPF_DLPF_LOCK_200K_DIFF_THR_LSB(n) (((n)&0xffff) << 0) // dlpf_lock_200k_diff_thr_msb_reg #define RF_RXDLPF_DLPF_LOCK_200K_DIFF_THR_MSB(n) (((n)&0xffff) << 0) // dlpf_lock_200k_cnt_thr_reg #define RF_RXDLPF_DLPF_LOCK_200K_CNT_THR(n) (((n)&0xffff) << 0) // dlpf_timer0_cnt_lsb_reg #define RF_RXDLPF_DLPF_TIMER0_CNT_LSB(n) (((n)&0xffff) << 0) // dlpf_timer0_cnt_msb_reg #define RF_RXDLPF_DLPF_TIMER0_CNT_MSB(n) (((n)&0xffff) << 0) // dlpf_timer1_cnt_lsb_reg #define RF_RXDLPF_DLPF_TIMER1_CNT_LSB(n) (((n)&0xffff) << 0) // dlpf_timer1_cnt_msb_reg #define RF_RXDLPF_DLPF_TIMER1_CNT_MSB(n) (((n)&0xffff) << 0) // dlpf_timer2_cnt_lsb_reg #define RF_RXDLPF_DLPF_TIMER2_CNT_LSB(n) (((n)&0xffff) << 0) // dlpf_timer2_cnt_msb_reg #define RF_RXDLPF_DLPF_TIMER2_CNT_MSB(n) (((n)&0xffff) << 0) // dlpf_capture_reg #define RF_RXDLPF_DLPF_CAPTURE_EN (1 << 0) // dlpf_status0_reg #define RF_RXDLPF_DLPF_DET_STATUS(n) (((n)&0x3) << 0) #define RF_RXDLPF_DLPF_AFC_CODE(n) (((n)&0x7ff) << 2) // dlpf_status1_reg #define RF_RXDLPF_DLPF_KDCO_CODE(n) (((n)&0x3fff) << 0) // dlpf_afc_code_status #define RF_RXDLPF_DLPF_AFC_CODE_REG(n) (((n)&0x7ff) << 0) // dlpf_kdco_code_status #define RF_RXDLPF_DLPF_KDCO_CODE_REG(n) (((n)&0x3fff) << 0) // dlpf_tdc_code_reg #define RF_RXDLPF_DLPF_TDC_CODE(n) (((n)&0xffff) << 0) // dlpf_sum0_l_reg #define RF_RXDLPF_DLPF_SUM0_L(n) (((n)&0xffff) << 0) // dlpf_sum0_m_reg #define RF_RXDLPF_DLPF_SUM0_M(n) (((n)&0xffff) << 0) // dlpf_sum0_h_reg #define RF_RXDLPF_DLPF_SUM0_H(n) (((n)&0x7f) << 0) // dlpf_iir0_data_lsb_reg #define RF_RXDLPF_DLPF_IIR0_DATA_LSB(n) (((n)&0xffff) << 0) // dlpf_iir0_data_msb_reg #define RF_RXDLPF_DLPF_IIR0_DATA_MSB(n) (((n)&0xffff) << 0) // dlpf_iir1_data_lsb_reg #define RF_RXDLPF_DLPF_IIR1_DATA_LSB(n) (((n)&0xffff) << 0) // dlpf_iir1_data_msb_reg #define RF_RXDLPF_DLPF_IIR1_DATA_MSB(n) (((n)&0xffff) << 0) // dlpf_ctrl_bit_reg #define RF_RXDLPF_IIR0_BYPASS (1 << 0) #define RF_RXDLPF_IIR1_BYPASS (1 << 1) #define RF_RXDLPF_AFC_BYPASS (1 << 2) #define RF_RXDLPF_2M_LOCK_BYPASS (1 << 3) #define RF_RXDLPF_KDCO_AGC_MODE (1 << 4) #define RF_RXDLPF_KDCO_POLAR_SEL (1 << 5) #define RF_RXDLPF_SEL_CLK_OUT1_INV (1 << 6) #define RF_RXDLPF_SEL_CLK_OUT2_INV (1 << 7) #define RF_RXDLPF_CAPTURE_DATA_SEL_TDC (1 << 8) // gro_phase_tdc_cal #define RF_RXDLPF_PHASE_TDC_CAL(n) (((n)&0xffff) << 0) #endif // _RF_RXDLPF_H_