the do
Opencv 3.1 project on GR-PEACH board
Fork of
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by 
the do
GR-PEACH_video/drivers/vdec/include/r_vdec.h
- Committer:
- thedo
- Date:
- 2017-07-04
- Revision:
- 170:54ff26da7eb6
- Parent:
- 166:3a9487d57a5c
File content as of revision 170:54ff26da7eb6:
/*******************************************************************************
* DISCLAIMER
* This software is supplied by Renesas Electronics Corporation and is only
* intended for use with Renesas products. No other uses are authorized. This
* software is owned by Renesas Electronics Corporation and is protected under
* all applicable laws, including copyright laws.
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING
* THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT
* LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE
* AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.
* TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS
* ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE
* FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR
* ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE
* BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
* Renesas reserves the right, without notice, to make changes to this software
* and to discontinue the availability of this software. By using this software,
* you agree to the additional terms and conditions found by accessing the
* following link:
* http://www.renesas.com/disclaimer
* Copyright (C) 2012 - 2015 Renesas Electronics Corporation. All rights reserved.
*******************************************************************************/
/**************************************************************************//**
* @file r_vdec.h
* @version 1.00
* $Rev: 199 $
* $Date:: 2014-05-23 16:33:52 +0900#$
* @brief VDEC driver API definitions
******************************************************************************/
#ifndef R_VDEC_H
#define R_VDEC_H
/******************************************************************************
Includes <System Includes> , "Project Includes"
******************************************************************************/
#include "r_vdec_user.h"
#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */
/******************************************************************************
Macro definitions
******************************************************************************/
/*! The number of chroma filter TAP coefficient values for Y/C separation */
#define VDEC_CHRFIL_TAPCOEF_NUM (9)
/******************************************************************************
Typedef definitions
******************************************************************************/
/*! Error codes of the VDEC driver */
typedef enum {
VDEC_OK = 0, /*!< Normal termination */
VDEC_ERR_CHANNEL, /*!< Invalid channel error */
VDEC_ERR_PARAM, /*!< Parameter error */
VDEC_ERR_NUM /*!< The number of the error codes */
} vdec_error_t;
/*! VDEC channel */
typedef enum {
VDEC_CHANNEL_0 = 0, /*!< Channel 0 */
VDEC_CHANNEL_1, /*!< Channel 1 */
VDEC_CHANNEL_NUM /*!< The number of channels */
} vdec_channel_t;
/*! On/Off */
typedef enum {
VDEC_OFF = 0, /*!< Off */
VDEC_ON = 1 /*!< On */
} vdec_onoff_t;
/*********************** For R_VDEC_Initialize ***********************/
/*! Input pin control */
typedef enum {
VDEC_ADC_VINSEL_VIN1 = 0, /*!< VIN1 input */
VDEC_ADC_VINSEL_VIN2, /*!< VIN2 input */
VDEC_ADC_VINSEL_NUM /*!< The number of input pins */
} vdec_adc_vinsel_t;
/*********************** For R_VDEC_ActivePeriod ***********************/
/*! Active image period parameter */
typedef struct {
uint16_t srcleft; /*!< Left end of input video signal capturing area */
uint16_t srctop; /*!< Top end of input video signal capturing area */
uint16_t srcheight; /*!< Height of input video signal capturing area */
uint16_t srcwidth; /*!< Width of input video signal capturing area */
} vdec_active_period_t;
/*********************** For R_VDEC_SyncSeparation ***********************/
/*! LPF cutoff frequency before vertical sync separation */
typedef enum {
VDEC_LPF_VSYNC_NONE = 0, /*!< None */
VDEC_LPF_VSYNC_0_94, /*!< 0.94 MHz */
VDEC_LPF_VSYNC_0_67, /*!< 0.67 MHz */
VDEC_LPF_VSYNC_0_54, /*!< 0.54 MHz */
VDEC_LPF_VSYNC_0_47, /*!< 0.47 MHz */
VDEC_LPF_VSYNC_0_34, /*!< 0.34 MHz */
VDEC_LPF_VSYNC_0_27, /*!< 0.27 MHz */
VDEC_LPF_VSYNC_0_23, /*!< 0.23 MHz */
VDEC_LPF_VSYNC_NUM
} vdec_lpfvsync_t;
/*! LPF cutoff frequency before horizontal sync separation */
typedef enum {
VDEC_LPF_HSYNC_NONE = 0, /*!< None */
VDEC_LPF_HSYNC_2_15, /*!< 2.15 MHz */
VDEC_LPF_HSYNC_1_88, /*!< 1.88 MHz */
VDEC_LPF_HSYNC_1_34, /*!< 1.34 MHz */
VDEC_LPF_HSYNC_1_07, /*!< 1.07 MHz */
VDEC_LPF_HSYNC_0_94, /*!< 0.94 MHz */
VDEC_LPF_HSYNC_0_67, /*!< 0.67 MHz */
VDEC_LPF_HSYNC_0_54, /*!< 0.54 MHz */
VDEC_LPF_HSYNC_NUM
} vdec_lpfhsync_t;
/*! Noise reduction LPF parameter */
typedef struct {
vdec_lpfvsync_t lpfvsync; /*!< LPF cutoff frequency before vertical sync separation */
vdec_lpfhsync_t lpfhsync; /*!< LPF cutoff frequency before horizontal sync separation */
} vdec_noise_rd_lpf_t;
/*! Reference level operation speed control for composite sync separation (for Hsync signal) */
typedef enum {
VDEC_VELOCITY_SHIFT_1 = 0, /*!< x1 */
VDEC_VELOCITY_SHIFT_2, /*!< x2 */
VDEC_VELOCITY_SHIFT_4, /*!< x4 */
VDEC_VELOCITY_SHIFT_8, /*!< x8 */
VDEC_VELOCITY_SHIFT_16, /*!< x16 */
VDEC_VELOCITY_SHIFT_32, /*!< x32 */
VDEC_VELOCITY_SHIFT_64, /*!< x64 */
VDEC_VELOCITY_SHIFT_128, /*!< x128 */
VDEC_VELOCITY_SHIFT_256, /*!< x256 */
VDEC_VELOCITY_SHIFT_NUM
} vdec_velocityshift_h_t;
/*! Auto-slice level setting for composite sync separation circuit */
typedef enum {
VDEC_SLICE_MODE_MANULAL = 0, /*!< Manual setting */
VDEC_SLICE_MODE_AUTO_25, /*!< 25% of sync depth (Auto) */
VDEC_SLICE_MODE_AUTO_50, /*!< 50% of sync depth (Auto) */
VDEC_SLICE_MODE_AUTO_75, /*!< 75% of sync depth (Auto) */
VDEC_SLICE_MODE_NUM
} vdec_slicermode_t;
/*! Clipping level */
typedef enum {
VDEC_CLIP_LV_512 = 0, /*!< 512 */
VDEC_CLIP_LV_546, /*!< 546 */
VDEC_CLIP_LV_580, /*!< 580 */
VDEC_CLIP_LV_614, /*!< 614 */
VDEC_CLIP_LV_648, /*!< 648 */
VDEC_CLIP_LV_682, /*!< 682 */
VDEC_CLIP_LV_716, /*!< 716 */
VDEC_CLIP_LV_750, /*!< 750 */
VDEC_CLIP_LV_785, /*!< 785 */
VDEC_CLIP_LV_819, /*!< 819 */
VDEC_CLIP_LV_853, /*!< 853 */
VDEC_CLIP_LV_887, /*!< 887 */
VDEC_CLIP_LV_921, /*!< 921 */
VDEC_CLIP_LV_955, /*!< 955 */
VDEC_CLIP_LV_989, /*!< 989 */
VDEC_CLIP_LV_1023, /*!< 1023 */
VDEC_CLIP_LV_NUM
} vdec_ssclipsel_t;
/*! Sync slicer */
typedef struct {
vdec_velocityshift_h_t velocityshift_h; /*!< Reference level operation speed control for
composite sync separation (for Hsync signal) */
vdec_slicermode_t slicermode_h; /*!< Auto-slice level setting for composite sync separation circuit
(for Hsync signal) */
vdec_slicermode_t slicermode_v; /*!< Auto-slice level setting for composite sync separation circuit
(for Vsync signal) */
uint16_t syncmaxduty_h; /*!< Max ratio of horizontal cycle
to horizontal sync signal pulse width */
uint16_t syncminduty_h; /*!< Min ratio of horizontal cycle
to horizontal sync signal pulse width */
vdec_ssclipsel_t ssclipsel; /*!< Clipping level */
uint16_t csyncslice_h; /*!< Slice level for composite sync signal separation
(for Hsync signal) */
uint16_t syncmaxduty_v; /*!< Max ratio of horizontal cycle
to vertical sync signal pulse width */
uint16_t syncminduty_v; /*!< Min ratio of horizontal cycle
to horizontal sync signal pulse width */
vdec_onoff_t vsyncdelay; /*!< Delays the separated vertical sync signal
for 1/4 horizontal cycle */
uint16_t vsyncslice; /*!< Threshold for vertical sync separation */
uint16_t csyncslice_v; /*!< Slice level for composite sync signal separation
(for Vsync signal) */
} vdec_sync_slicer_t;
/*! Horizontal AFC VBI period operating mode */
typedef enum {
VDEC_HAFCMD_FIX_PHST = 0, /*!< Loop gain is fixed and phase comparison is stopped
during VBI period */
VDEC_HAFCMD_FIX_LGRD, /*!< Loop gain is fixed and loop gain is reduced during VBI period */
VDEC_HAFCMD_AUTO_PHST, /*!< Loop gain is automatically controlled and
phase comparison is stopped during VBI period */
VDEC_HAFCMD_AUTO_LGRD, /*!< Loop gain is automatically controlled and loop gain is reduced
during VBI period */
VDEC_HAFCMD_NUM
} vdec_hafcmode_t;
/*! Phase comparator feedback adjust for low sync signal lock stability */
typedef enum {
VDEC_PHDET_DIV_1_1 = 0, /*!< 1/1 */
VDEC_PHDET_DIV_1_2, /*!< 1/2 */
VDEC_PHDET_DIV_1_4, /*!< 1/4 */
VDEC_PHDET_DIV_1_8, /*!< 1/8 */
VDEC_PHDET_DIV_1_16, /*!< 1/16 */
VDEC_PHDET_DIV_1_32, /*!< 1/32 */
VDEC_PHDET_DIV_NUM
} vdec_phdet_div_t;
/*! Horizontal AFC parameter */
typedef struct {
uint16_t hafcgain; /*!< Horizontal AFC loop gain */
uint16_t hafctyp; /*!< Horizontal AFC center oscillation frequency */
uint16_t hafcstart; /*!< Start line of horizontal AFC normal operation
(VBI process end line) */
vdec_onoff_t nox2hosc; /*!< Disable of horizontal AFC double speed detection */
uint16_t hafcmax; /*!< Maximum oscillation frequency of horizontal AFC */
uint16_t hafcend; /*!< End line of horizontal AFC normal operation
(VBI process start line) */
vdec_hafcmode_t hafcmode; /*!< Horizontal AFC VBI period operating mode */
uint16_t hafcmin; /*!< Min oscillation frequency of horizontal AFC */
vdec_onoff_t phdet_fix; /*!< Forcible or LOWGAIN control */
vdec_phdet_div_t phdet_div; /*!< Phase comparator feedback adjust for low sync signal lock stability */
} vdec_horizontal_afc_t;
/*! Vertical countdown center oscillation frequency */
typedef enum {
VDEC_VCD_FRQ_AUTO = 0, /*!< Auto-detection */
VDEC_VCD_FRQ_50HZ, /*!< 50.00 Hz */
VDEC_VCD_FRQ_59_94HZ, /*!< 59.94 Hz */
VDEC_VCD_FRQ_60HZ, /*!< 60.00 Hz */
VDEC_VCD_FRQ_NUM
} vdec_vcddefault_t;
/*! Vertical count-down parameter */
typedef struct {
vdec_onoff_t novcd50_; /*!< Vertical countdown 50-Hz oscillation mode */
vdec_onoff_t novcd60_; /*!< Vertical countdown 60-Hz (59.94-Hz) oscillation mode */
vdec_vcddefault_t vcddefault; /*!< Vertical countdown center oscillation frequency */
uint16_t vcdwindow; /*!< Vertical countdown sync area */
uint16_t vcdoffset; /*!< Vertical countdown minimum oscillation frequency */
} vdec_vcount_down_t;
/*! AGC/PGA parameter */
typedef struct {
vdec_onoff_t agcmode; /*!< A/D converter AGC ON/OFF control & PGA switch */
vdec_onoff_t doreduce; /*!< Manual control of sync signal amplitude detection during VBI period */
vdec_onoff_t noreduce_; /*!< Control of sync signal amplitude detection during VBI period */
uint16_t agcresponse; /*!< AGC response speed */
uint16_t agclevel; /*!< Sync signal reference amplitude */
uint16_t agcprecis; /*!< AGC gain adjustment accuracy */
uint16_t pga_gain; /*!< PGA gain */
} vdec_agc_t;
/*! Peak luminance value to operate peak limiter */
typedef enum {
VDEC_PEAKLV_LIM_OFF =0, /*!< Limiter OFF */
VDEC_PEAKLV_1008, /*!< 1008 LSB */
VDEC_PEAKLV_992, /*!< 992 LSB */
VDEC_PEAKLV_960, /*!< 960 LSB */
VDEC_PEAKLV_NUM
} vdec_peaklevel_t;
/*! Maximum compression rate of peak limiter */
typedef enum {
VDEC_PEAKRATIO_50 = 0, /*!< Compressed up to 50% */
VDEC_PEAKRATIO_25, /*!< Compressed up to 25% */
VDEC_PEAKRATIO_12_5, /*!< Compressed up to 12.5% */
VDEC_PEAKRATIO_0, /*!< Compressed up to 0% */
VDEC_PEAKRATIO_NUM
} vdec_peakratio_t;
/*! Peak limiter control parameter */
typedef struct {
vdec_peaklevel_t peaklevel; /*!< Peak luminance value limited by peak limiter (video signal level) */
uint16_t peakattack; /*!< Response speed with peak limiter gain decreased */
uint16_t peakrelease; /*!< Response speed with peak limiter gain increased */
vdec_peakratio_t peakratio; /*!< Maximum compression rate of peak limiter */
uint16_t maxpeaksamples; /*!< Allowable number of overflowing pixels */
} vdec_peak_limiter_t;
/*! Sync separation parameter */
typedef struct {
vdec_noise_rd_lpf_t * noise_rd_lpf; /*!< Noise reduction LPF parameter */
vdec_sync_slicer_t * sync_slicer; /*!< Auto level control sync slicer parameter */
vdec_horizontal_afc_t * horizontal_afc; /*!< Horizontal AFC parameter */
vdec_vcount_down_t * vcount_down; /*!< Vertical count-down parameter */
vdec_agc_t * agc; /*!< AGC/PGA parameter */
vdec_peak_limiter_t * peak_limiter; /*!< Peak limiter control parameter */
} vdec_sync_separation_t;
/*********************** For R_VDEC_YcSeparation ***********************/
/*! Over-range control parameter */
typedef struct {
uint16_t radj_o_level0; /*!< A/D over-threshold level (between levels 0 and 1) */
uint16_t radj_u_level0; /*!< A/D under-threshold level (between levels 2 and 3) */
uint16_t radj_o_level1; /*!< A/D over-threshold level (between levels 1 and 2) */
uint16_t radj_u_level1; /*!< A/D under-threshold level (between levels 1 and 2) */
uint16_t radj_o_level2; /*!< A/D over-threshold level (between levels 2 and 3) */
uint16_t radj_u_level2; /*!< A/D under-threshold level (between levels 0 and 1) */
vdec_onoff_t ucmp_sw; /*!< Over-range detection enable */
vdec_onoff_t dcmp_sw; /*!< Under-range detection enable */
vdec_onoff_t hwide_sw; /*!< Horizontal enlargement of over/under-range level */
} vdec_over_range_t;
/*! Latter-stage BPF select */
typedef enum {
VDEC_LSTG_BPFSEL_BYPASS = 0, /*!< Bypass */
VDEC_LSTG_BPFSEL_17TAP = 1 /*!< 17 TAP */
} vdec_lstg_bpfsel_t;
/*! Former-stage BPF select */
typedef enum {
VDEC_FSTG_BPFSEL_17TAP = 0, /*!< 17 TAP */
VDEC_FSTG_BPFSEL_9TAP = 1 /*!< 9 TAP */
} vdec_fstg_bpfsel_t;
/*! Horizontal filter and horizontal/vertical filter bandwidth switch signal */
typedef enum {
VDEC_HFIL_TAP_SEL_17TAP = 0, /*!< 17 TAP */
VDEC_HFIL_TAP_SEL_9TAP = 1 /*!< 9 TAP */
} vdec_hfil_tap_sel_t;
/*! Mixing ratio of signals after passing filters */
typedef enum {
VDEC_FILMIX_RATIO_0 = 0, /*!< 0% */
VDEC_FILMIX_RATIO_12_5, /*!< 12.5% */
VDEC_FILMIX_RATIO_25, /*!< 25% */
VDEC_FILMIX_RATIO_37_5, /*!< 37.5% */
VDEC_FILMIX_RATIO_50, /*!< 50% */
VDEC_FILMIX_RATIO_62_5, /*!< 62.5% */
VDEC_FILMIX_RATIO_75, /*!< 75% */
VDEC_FILMIX_RATIO_87_5, /*!< 87.5% */
VDEC_FILMIX_RATIO_100, /*!< 100% */
VDEC_FILMIX_RATIO_NUM
} vdec_filmix_ratio_t;
/*! Two-dimensional cascade/TAKE-OFF filter mode select */
typedef enum {
VDEC_2DFIL_MDSEL_BYPASS = 0, /*!< Bypass */
VDEC_2DFIL_MDSEL_CASCADE, /*!< Cascade filter */
VDEC_2DFIL_MDSEL_TAKEOFF, /*!< TAKE-OFF filter */
VDEC_2DFIL_MDSEL_NUM
} vdec_2dfil_mdsel_t;
/*! Two-dimensional cascade filter select */
typedef enum {
VDEC_2D_FIL_SEL_BYPASS = 0, /*!< Bypass */
VDEC_2D_FIL_SEL_17TAP = 1 /*!< 17 TAP */
} vdec_2d_fil_sel_t;
/*! Y/C separation control parameter */
typedef struct {
uint16_t k15; /*!< Two-dimensional Y/C separation filter select coefficient, K15 */
uint16_t k13; /*!< Two-dimensional Y/C separation filter select coefficient, K13 */
uint16_t k11; /*!< Two-dimensional Y/C separation filter select coefficient, K11 */
uint16_t k16; /*!< Two-dimensional Y/C separation filter select coefficient, K16 */
uint16_t k14; /*!< Two-dimensional Y/C separation filter select coefficient, K14 */
uint16_t k12; /*!< Two-dimensional Y/C separation filter select coefficient, K12 */
uint16_t k22a; /*!< Two-dimensional Y/C separation filter select coefficient, K22A */
uint16_t k21a; /*!< Two-dimensional Y/C separation filter select coefficient, K21A */
uint16_t k22b; /*!< Two-dimensional Y/C separation filter select coefficient, K22B */
uint16_t k21b; /*!< Two-dimensional Y/C separation filter select coefficient, K21B */
uint16_t k23b; /*!< Two-dimensional Y/C separation filter select coefficient, K23B */
uint16_t k23a; /*!< Two-dimensional Y/C separation filter select coefficient, K23A */
uint16_t k24; /*!< Two-dimensional Y/C separation filter select coefficient, K24 */
vdec_lstg_bpfsel_t hbpf_narrow; /*!< Latter-stage horizontal BPF select */
vdec_lstg_bpfsel_t hvbpf_narrow; /*!< Latter-stage horizontal/vertical BPF select */
vdec_fstg_bpfsel_t hbpf1_9tap_on; /*!< Former-stage horizontal BPF select */
vdec_fstg_bpfsel_t hvbpf1_9tap_on; /*!< Former-stage horizontal/vertical BPF select */
vdec_hfil_tap_sel_t hfil_tap_sel; /*!< Horizontal filter and horizontal/vertical filter
bandwidth switch signal */
vdec_onoff_t det2_on; /*!< Two-dimensional filter mixing select */
vdec_filmix_ratio_t hsel_mix_y; /*!< Mixing ratio of signal after passing horizontal filter
to signal after passing former-stage horizontal filter */
vdec_filmix_ratio_t vsel_mix_y; /*!< Mixing ratio of signal after passing vertical filter
to signal after passing former-stage horizontal/vertical filter */
vdec_filmix_ratio_t hvsel_mix_y; /*!< Mixing ratio of signal after passing horizontal/vertical filter
to signal after passing former-stage horizontal/vertical filter */
uint16_t v_y_level; /*!< Vertical luminance detection level for correlation detection filter */
vdec_filmix_ratio_t det2_mix_c; /*!< Mixing ratio of C signal after passing horizontal/vertical adaptive filter
to signal after passing correlation detection filter */
vdec_filmix_ratio_t det2_mix_y; /*!< Mixing ratio of C signal for Y generation after passing
horizontal/vertical adaptive filter to signal
after passing correlation detection filter */
vdec_2dfil_mdsel_t fil2_mode_2d; /*!< Two-dimensional cascade/TAKE-OFF filter mode select */
vdec_2d_fil_sel_t fil2_narrow_2d; /*!< Two-dimensional cascade filter select */
} vdec_yc_sep_ctrl_t;
/*! Chroma filter TAP coefficient for Y/C separation */
typedef struct {
uint16_t fil2_2d_f[VDEC_CHRFIL_TAPCOEF_NUM]; /*!< Chroma filter TAP coefficient 0 to 8 */
} vdec_chrfil_tap_t;
/*! Y/C separation parameter */
typedef struct {
vdec_over_range_t * over_range; /*!< Over-range control parameter */
vdec_yc_sep_ctrl_t * yc_sep_ctrl; /*!< Y/C separation control parameter */
const vdec_chrfil_tap_t * fil2_2d_wa; /*!< Two-dimensional cascade broadband (3.58/4.43/SECAM-DR)/TAKE-OFF
filter TAP coefficient */
const vdec_chrfil_tap_t * fil2_2d_wb; /*!< Two-dimensional cascade broadband (SECAM-DB) filter
TAP coefficient */
const vdec_chrfil_tap_t * fil2_2d_na; /*!< Two-dimensional cascade narrowband (3.58/4.43/SECAM-DR) filter
TAP coefficient */
const vdec_chrfil_tap_t * fil2_2d_nb; /*!< Two-dimensional cascade narrowband (SECAMDB) filter
TAP coefficient */
} vdec_yc_separation_t;
/*********************** For R_VDEC_ChromaDecoding ***********************/
/*! Color system */
typedef enum {
VDEC_COL_SYS_NTSC = 0, /*!< NTSC */
VDEC_COL_SYS_PAL, /*!< PAL */
VDEC_COL_SYS_SECAM, /*!< SECAM */
VDEC_COL_SYS_NON, /*!< Not specified/undetectable */
VDEC_COL_SYS_NUM /*!< The number of color system settings */
} vdec_color_sys_t;
/*! Averaging processing for pre-demodulated line */
typedef enum {
VDEC_DEMOD_MD_NO = 0, /*!< No processing */
VDEC_DEMOD_MD_PAL = 2 /*!< For PAL */
} vdec_demodmode_t;
/*! Color system detection parameter */
typedef struct {
vdec_color_sys_t defaultsys; /*!< Default color system */
vdec_onoff_t nontsc358_; /*!< NTSC-M detection control */
vdec_onoff_t nontsc443_; /*!< NTSC-4.43 detection control */
vdec_onoff_t nopalm_; /*!< PAL-M detection control */
vdec_onoff_t nopaln_; /*!< PAL-N detection control */
vdec_onoff_t nopal443_; /*!< PAL-B, G, H, I, D detection control */
vdec_onoff_t nosecam_; /*!< SECAM detection control */
uint16_t lumadelay; /*!< Luminance signal delay adjustment */
vdec_onoff_t chromalpf; /*!< LPF for demodulated chroma */
vdec_demodmode_t demodmode; /*!< Averaging processing for pre-demodulated line */
} vdec_chrmdec_ctrl_t;
/*! Burst lock PLL lock range */
typedef enum {
VDEC_LOCK_RANGE_400HZ = 0, /*!< +-400 Hz */
VDEC_LOCK_RANGE_800HZ, /*!< +-800 Hz */
VDEC_LOCK_RANGE_1200HZ, /*!< +-1200 Hz */
VDEC_LOCK_RANGE_1600HZ, /*!< +-1600 Hz */
VDEC_LOCK_RANGE_NUM
} vdec_lockrange_t;
/*! BCO parameter */
typedef struct {
vdec_lockrange_t lockrange; /*!< Burst lock PLL lock range */
uint16_t loopgain; /*!< Burst lock PLL loop gain */
uint16_t locklimit; /*!< Level for burst lock PLL to re-search free-run frequency */
uint16_t bgpcheck; /*!< burst gate pulse position check */
uint16_t bgpwidth; /*!< burst gate pulse width */
uint16_t bgpstart; /*!< burst gate pulse start position */
} vdec_burst_lock_t;
/*! ACC operating mode */
typedef enum {
VDEC_ACC_MD_AUTO = 0, /*!< Auto gain */
VDEC_ACC_MD_MANUAL = 1 /*!< Manual gain */
} vdec_accmode_t;
/*! Maximum ACC gain */
typedef enum {
VDEC_ACC_MAX_GAIN_6 = 0, /*!< 6 times */
VDEC_ACC_MAX_GAIN_8, /*!< 8 times */
VDEC_ACC_MAX_GAIN_12, /*!< 12 times */
VDEC_ACC_MAX_GAIN_16, /*!< 16 times */
VDEC_ACC_MAX_GAIN_NUM
} vdec_accmaxgain_t;
/*! Chroma manual gain (sub) */
typedef enum {
VDEC_CHRM_SB_GAIN_1 = 0, /*!< 1 time */
VDEC_CHRM_SB_GAIN_2, /*!< 2 times */
VDEC_CHRM_SB_GAIN_4, /*!< 4 times */
VDEC_CHRM_SB_GAIN_8, /*!< 8 times */
VDEC_CHRM_SB_GAIN_NUM
} vdec_chrm_subgain_t;
/*! ACC and color killer parameter */
typedef struct {
vdec_accmode_t accmode; /*!< ACC operating mode */
vdec_accmaxgain_t accmaxgain; /*!< Maximum ACC Gain */
uint16_t acclevel; /*!< ACC reference color burst amplitude */
vdec_chrm_subgain_t chromasubgain; /*!< Chroma manual gain (sub) */
uint16_t chromamaingain; /*!< Chroma manual gain (main) */
uint16_t accresponse; /*!< ACC response speed */
uint16_t accprecis; /*!< ACC gain adjustment accuracy */
vdec_onoff_t killermode; /*!< Forced color killer mode ON/OFF */
uint16_t killerlevel; /*!< Color killer operation start point */
uint16_t killeroffset; /*!< Color killer offset */
} vdec_acc_t;
/*! TINT correction/R-Y axis correction parameter (only valid for NTSC/PAL) */
typedef struct {
uint16_t tintsub; /*!< Fine adjustment of R-Y demodulation axis */
uint16_t tintmain; /*!< Hue adjustment level */
} vdec_tint_ry_t;
/*! Chroma decoding parameter */
typedef struct {
vdec_chrmdec_ctrl_t * chrmdec_ctrl; /*!< Color system detection parameter */
vdec_burst_lock_t * burst_lock; /*!< BCO parameter */
vdec_acc_t * acc; /*!< ACC and color killer parameter */
vdec_tint_ry_t * tint_ry; /*!< TINT correction/R-Y axis correction parameter */
} vdec_chroma_decoding_t;
/*********************** For R_VDEC_DigitalClamp ***********************/
/*! Clamp level setting mode */
typedef enum {
VDEC_DCPMODE_MANUAL = 0, /*!< Manual clamp level setting */
VDEC_DCPMODE_AUTO = 1 /*!< Auto clamp level setting */
} vdec_dcpmode_t;
/*! Pedestal clamp parameter */
typedef struct {
vdec_dcpmode_t dcpmode_y; /*!< Clamp level setting mode (Y signal) */
uint16_t blanklevel_y; /*!< Clamp offset level (Y signal) */
uint16_t dcppos_y; /*!< Digital clamp pulse horizontal start position (Y signal) */
} vdec_pedestal_clamp_t;
/*! Center clamp parameter */
typedef struct {
vdec_dcpmode_t dcpmode_c; /*!< Clamp level setting mode (Cb/Cr signal) */
uint16_t blanklevel_cb; /*!< Clamp offset level (Cb signal) */
uint16_t blanklevel_cr; /*!< Clamp offset level (Cr signal) */
uint16_t dcppos_c; /*!< Digital clamp pulse horizontal start position (Cb/Cr signal) */
} vdec_center_clamp_t;
/*! Video signal for autocorrelation function */
typedef enum {
VDEC_ACFINPUT_Y = 0, /*!< Y signal */
VDEC_ACFINPUT_CB, /*!< Cb signal */
VDEC_ACFINPUT_CR, /*!< Cr signal */
VDEC_ACFINPUT_NUM
} vdec_acfinput_t;
/*! Noise detection parameter */
typedef struct {
vdec_acfinput_t acfinput; /*!< Video signal for autocorrelation function */
uint16_t acflagtime; /*!< Delay time for autocorrelation function calculation */
uint16_t acffilter; /*!< Smoothing parameter of autocorrelation function data */
} vdec_noise_det_t;
/*! Digital clamp parameter */
typedef struct {
vdec_onoff_t dcpcheck; /*!< Digital clamp pulse position check */
uint16_t dcpresponse; /*!< Digital clamp response speed */
uint16_t dcpstart; /*!< Digital clamp start line */
uint16_t dcpend; /*!< Digital clamp end line */
uint16_t dcpwidth; /*!< Digital clamp pulse width */
vdec_pedestal_clamp_t * pedestal_clamp; /*!< Pedestal clamp parameter */
vdec_center_clamp_t * center_clamp; /*!< Center clamp parameter */
vdec_noise_det_t * noise_det; /*!< Noise detection parameter */
} vdec_degital_clamp_t;
/*********************** For R_VDEC_Output ***********************/
/*! Output adjustment parameter */
typedef struct {
uint16_t y_gain2; /*!< Y signal gain coefficient */
uint16_t cb_gain2; /*!< Cb signal gain coefficient */
uint16_t cr_gain2; /*!< Cr signal gain coefficient */
} vdec_output_t;
/*********************** For R_VDEC_Query ***********************/
/*! Answer */
typedef enum {
VDEC_NO = 0, /*!< No */
VDEC_YES = 1 /*!< Yes */
} vdec_answer_t;
/*! Lock state */
typedef enum {
VDEC_UNLOCK = 0, /*!< Unlocked */
VDEC_LOCK = 1 /*!< Locked */
} vdec_lock_t;
/*! Speed detection result */
typedef enum {
VDEC_FHMD_NORMAL = 0, /*!< Normal speed */
VDEC_FHMD_MULTIPLIED = 1 /*!< Multiplied speed */
} vdec_fhmode_t;
/*! Vertical countdown oscillation mode */
typedef enum {
VDEC_FVMD_50HZ = 0, /*!< 50 Hz */
VDEC_FVMD_60HZ = 1 /*!< 60 Hz */
} vdec_fvmode_t;
/*! Color sub-carrier frequency detection result */
typedef enum {
VDEC_FSCMD_3_58 = 0, /*!< 3.58 MHz */
VDEC_FSCMD_4_43 = 1 /*!< 4.43 MHz */
} vdec_fscmode_t;
/*! Sync separation parameters (for query) */
typedef struct {
vdec_lock_t fhlock; /*!< Horizontal AFC lock detection result */
vdec_answer_t isnoisy; /*!< Detection result of low S/N signal by sync separation */
vdec_fhmode_t fhmode; /*!< Speed detection result */
vdec_answer_t nosignal_; /*!< No-signal detection result */
vdec_lock_t fvlock; /*!< Vertical countdown lock detection result */
vdec_fvmode_t fvmode; /*!< Vertical countdown oscillation mode */
vdec_answer_t interlaced; /*!< Interlace detection result */
uint16_t fvcount; /*!< Vertical cycle measurement result */
uint32_t fhcount; /*!< Horizontal AFC oscillation cycle */
vdec_answer_t isreduced; /*!< Sync amplitude detection result during VBI period */
uint16_t syncdepth; /*!< Sync pulse amplitude detection result */
} vdec_q_sync_sep_t;
/*! AGC parameters (for query) */
typedef struct {
uint16_t highsamples; /*!< Number of pixels which have larger luminance value than peak luminance
limited by peak limiter */
uint16_t peaksamples; /*!< Number of overflowing pixels */
uint16_t agcconverge; /*!< AGC convergence detection result */
uint16_t agcgain; /*!< Current AGC gain value */
} vdec_q_agc_t;
/*! Chroma decoding parameters (for query) */
typedef struct {
vdec_color_sys_t colorsys; /*!< Color system detection result */
vdec_fscmode_t fscmode; /*!< Color sub-carrier frequency detection result */
vdec_lock_t fsclock; /*!< Burst lock PLL lock state detection result */
vdec_answer_t noburst_; /*!< Color burst detection result */
vdec_chrm_subgain_t accsubgain; /*!< Current ACC gain value (sub) */
uint16_t accmaingain;/*!< Current ACC gain value (main) */
vdec_answer_t issecam; /*!< SECAM detection result */
vdec_answer_t ispal; /*!< PAL detection result */
vdec_answer_t isntsc; /*!< NTSC detection result */
uint16_t locklevel; /*!< Low S/N signal detection result by burst lock PLL */
} vdec_q_chroma_dec_t;
/*! Digital clamp parameters (for query) */
typedef struct {
uint16_t clamplevel_cb; /*!< Digital clamp subtraction value (Cb signal) */
uint16_t clamplevel_y; /*!< Digital clamp subtraction value (Y signal) */
uint16_t clamplevel_cr; /*!< Digital clamp subtraction value (Cr signal) */
uint16_t acfstrength; /*!< Noise autocorrelation strength at digital clamp pulse position */
} vdec_q_digital_clamp_t;
/******************************************************************************
Functions Prototypes
******************************************************************************/
vdec_error_t R_VDEC_Initialize(
const vdec_channel_t ch,
const vdec_adc_vinsel_t vinsel,
void (* const init_func)(uint32_t),
const uint32_t user_num);
vdec_error_t R_VDEC_Terminate(const vdec_channel_t ch, void (* const quit_func)(uint32_t), const uint32_t user_num);
vdec_error_t R_VDEC_ActivePeriod(const vdec_channel_t ch, const vdec_active_period_t * const param);
vdec_error_t R_VDEC_SyncSeparation(const vdec_channel_t ch, const vdec_sync_separation_t * const param);
vdec_error_t R_VDEC_YcSeparation(const vdec_channel_t ch, const vdec_yc_separation_t * const param);
vdec_error_t R_VDEC_ChromaDecoding(const vdec_channel_t ch, const vdec_chroma_decoding_t * const param);
vdec_error_t R_VDEC_DigitalClamp(const vdec_channel_t ch, const vdec_degital_clamp_t * const param);
vdec_error_t R_VDEC_Output(const vdec_channel_t ch, const vdec_output_t * const param);
vdec_error_t R_VDEC_Query(
const vdec_channel_t ch,
vdec_q_sync_sep_t * const q_sync_sep,
vdec_q_agc_t * const q_agc,
vdec_q_chroma_dec_t * const q_chroma_dec,
vdec_q_digital_clamp_t * const q_digital_clamp);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* R_VDEC_H */