Renesas / GR-PEACH_video

Video library for GR-PEACH

Dependents:   Trace_Program2 GR-PEACH_Camera_in_barcode GR-PEACH_LCD_sample GR-PEACH_LCD_4_3inch_sample ... more

Video library for GR-PEACH.

Hello World!

Import programGR-PEACH_Camera_in

Camera in sample for GR-PEACH. This sample works on GR-LYCHEE besides GR-PEACH.

Last commit 28 Dec 2018 by Renesas

API

Import library
GR-PEACH_video - DisplayBase Class Reference

Data Structures

struct lcd_config_t
LCD configuration. More...
struct rect_t
The relative position within the graphics display area. More...
struct video_ext_in_config_t
Digital Video Input configuration. More...

Public Types

enum video_input_channel_t { VIDEO_INPUT_CHANNEL_0 = 0, VIDEO_INPUT_CHANNEL_1 }

Video input channel select.

More...
enum graphics_layer_t { GRAPHICS_LAYER_0 = 0, GRAPHICS_LAYER_1 , GRAPHICS_LAYER_2 , GRAPHICS_LAYER_3 }

Graphics layer select.

More...
enum graphics_error_t {
GRAPHICS_OK = 0, GRAPHICS_VDC5_ERR = -1, GRAPHICS_FORMA_ERR = -2, GRAPHICS_LAYER_ERR = -3,
GRAPHICS_CHANNLE_ERR = -4, GRAPHICS_VIDEO_NTSC_SIZE_ERR = -5, GRAPHICS_VIDEO_PAL_SIZE_ERR = -6, GRAPHICS_PARAM_RANGE_ERR = -7
}

Error codes.

More...
enum graphics_format_t { GRAPHICS_FORMAT_YCBCR422 = 0, GRAPHICS_FORMAT_RGB565 , GRAPHICS_FORMAT_RGB888 , GRAPHICS_FORMAT_ARGB8888 }

Graphics layer read format selects.

More...
enum video_format_t { VIDEO_FORMAT_YCBCR422 = 0, VIDEO_FORMAT_RGB565 , VIDEO_FORMAT_RGB888 }

Video writing format selects.

More...
enum wr_rd_swa_t {
WR_RD_WRSWA_NON = 0, WR_RD_WRSWA_8BIT , WR_RD_WRSWA_16BIT , WR_RD_WRSWA_16_8BIT ,
WR_RD_WRSWA_32BIT , WR_RD_WRSWA_32_8BIT , WR_RD_WRSWA_32_16BIT , WR_RD_WRSWA_32_16_8BIT
}

Frame buffer swap setting.

More...
enum lcd_tcon_pin_t { LCD_TCON_PIN_NON = -1, LCD_TCON_PIN_0 , LCD_TCON_PIN_1 , LCD_TCON_PIN_2 }

LCD tcon output pin selects.

More...
enum lcd_outformat_t { LCD_OUTFORMAT_RGB888 = 0, LCD_OUTFORMAT_RGB666 , LCD_OUTFORMAT_RGB565 }

LCD output format selects.

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enum edge_t { EDGE_RISING = 0, EDGE_FALLING = 1 }

Edge of a signal.

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enum lcd_type_t { LCD_TYPE_LVDS = 0, LCD_TYPE_PARALLEL_RGB }

LCD type.

More...
enum sig_pol_t { SIG_POL_NOT_INVERTED = 0, SIG_POL_INVERTED }

Polarity of a signal.

More...
enum int_type_t {
INT_TYPE_S0_VI_VSYNC = 0, INT_TYPE_S0_LO_VSYNC , INT_TYPE_S0_VSYNCERR , INT_TYPE_VLINE ,
INT_TYPE_S0_VFIELD , INT_TYPE_IV1_VBUFERR , INT_TYPE_IV3_VBUFERR , INT_TYPE_IV5_VBUFERR ,
INT_TYPE_IV6_VBUFERR , INT_TYPE_S0_WLINE , INT_TYPE_S1_VI_VSYNC , INT_TYPE_S1_LO_VSYNC ,
INT_TYPE_S1_VSYNCERR , INT_TYPE_S1_VFIELD , INT_TYPE_IV2_VBUFERR , INT_TYPE_IV4_VBUFERR ,
INT_TYPE_S1_WLINE , INT_TYPE_OIR_VI_VSYNC , INT_TYPE_OIR_LO_VSYNC , INT_TYPE_OIR_VLINE ,
INT_TYPE_OIR_VFIELD , INT_TYPE_IV7_VBUFERR , INT_TYPE_IV8_VBUFERR , INT_TYPE_NUM
}

Interrupt type.

More...
enum graphics_video_col_sys_t {
COL_SYS_NTSC_358 = 0, COL_SYS_NTSC_443 = 1, COL_SYS_PAL_443 = 2, COL_SYS_PAL_M = 3,
COL_SYS_PAL_N = 4, COL_SYS_SECAM = 5, COL_SYS_NTSC_443_60 = 6, COL_SYS_PAL_60 = 7
}

Video color system.

More...
enum video_input_sel_t { INPUT_SEL_VDEC = 0, INPUT_SEL_EXT = 1 }

External Input select.

More...
enum video_extin_format_t {
VIDEO_EXTIN_FORMAT_RGB888 = 0, VIDEO_EXTIN_FORMAT_RGB666 , VIDEO_EXTIN_FORMAT_RGB565 , VIDEO_EXTIN_FORMAT_BT656 ,
VIDEO_EXTIN_FORMAT_BT601 , VIDEO_EXTIN_FORMAT_YCBCR422 , VIDEO_EXTIN_FORMAT_YCBCR444
}

External input format select.

More...
enum onoff_t { OFF = 0, ON = 1 }

On/off.

More...
enum extin_input_line_t { EXTIN_LINE_525 = 0, EXTIN_LINE_625 = 1 }

Number of lines for BT.656 external input.

More...
enum extin_h_pos_t { EXTIN_H_POS_CBYCRY = 0, EXTIN_H_POS_YCRYCB , EXTIN_H_POS_CRYCBY , EXTIN_H_POS_YCBYCR }

Y/Cb/Y/Cr data string start timing.

More...

Public Member Functions

DisplayBase (void)
Constructor method of display base object.
graphics_error_t Graphics_init ( lcd_config_t *lcd_config)
Graphics initialization processing
If not using display, set NULL in parameter.
graphics_error_t Graphics_Video_init ( video_input_sel_t video_input_sel, video_ext_in_config_t *video_ext_in_config)
Graphics Video initialization processing
If setting INPUT_SEL_VDEC in video_input_sel parameter, set NULL in video_ext_in_config parameter.
graphics_error_t Graphics_Lcd_Port_Init (PinName *pin, unsigned int pin_count)
LCD output port initialization processing.
graphics_error_t Graphics_Lvds_Port_Init (PinName *pin, unsigned int pin_count)
LVDS output port initialization processing.
graphics_error_t Graphics_Dvinput_Port_Init (PinName *pin, unsigned int pin_count)
Digital video input port initialization processing.
graphics_error_t Graphics_Irq_Handler_Set ( int_type_t Graphics_Irq_Handler_Set, unsigned short num, void(*callback)( int_type_t ))
Interrupt callback setup This function performs the following processing:

  • Enables the interrupt when the pointer to the corresponding interrupt callback function is specified.

graphics_error_t Graphics_Start ( graphics_layer_t layer_id)
Start the graphics surface read process.
graphics_error_t Graphics_Stop ( graphics_layer_t layer_id)
Stop the graphics surface read process.
graphics_error_t Video_Start ( video_input_channel_t video_input_channel)
Start the video surface write process.
graphics_error_t Video_Stop ( video_input_channel_t video_input_channel)
Stop the video surface write process.
graphics_error_t Graphics_Read_Setting ( graphics_layer_t layer_id, void *framebuff, unsigned int fb_stride, graphics_format_t gr_format, wr_rd_swa_t wr_rd_swa, rect_t *gr_rect)
Graphics surface read process setting.
graphics_error_t Graphics_Read_Change ( graphics_layer_t layer_id, void *framebuff)
Graphics surface read buffer change process.
graphics_error_t Video_Write_Setting ( video_input_channel_t video_input_channel, graphics_video_col_sys_t col_sys, void *framebuff, unsigned int fb_stride, video_format_t video_format, wr_rd_swa_t wr_rd_swa, unsigned short video_write_buff_vw, unsigned short video_write_buff_hw)
Video surface write process setting.
graphics_error_t Video_Write_Change ( video_input_channel_t video_input_channel, void *framebuff, uint32_t fb_stride)
Video surface write buffer change process.

Interface

See the Pinout page for more details

drivers/vdc5/src/r_vdc5_interrupt.c

Committer:
dkato
Date:
2015-06-26
Revision:
0:853f5b7408a7

File content as of revision 0:853f5b7408a7:

/*******************************************************************************
* 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_vdc5_interrupt.c
* @version      1.00
* $Rev: 199 $
* $Date:: 2014-05-23 16:33:52 +0900#$
* @brief        VDC5 driver interrupt related processing
******************************************************************************/

/******************************************************************************
Includes   <System Includes> , "Project Includes"
******************************************************************************/
#include    "r_vdc5.h"
#include    "r_vdc5_user.h"
#include    "r_vdc5_register.h"


/******************************************************************************
Macro definitions
******************************************************************************/
#define     UNUSED_PARAM(param)             (void)(param)

#define VDC5_INT_BIT_S0_VI_VSYNC    ((uint32_t)0x00000001u)
#define VDC5_INT_BIT_S0_LO_VSYNC    ((uint32_t)0x00000010u)
#define VDC5_INT_BIT_S0_VSYNCERR    ((uint32_t)0x00000100u)
#define VDC5_INT_BIT_VLINE          ((uint32_t)0x00001000u)
#define VDC5_INT_BIT_S0_VFIELD      ((uint32_t)0x00010000u)
#define VDC5_INT_BIT_IV1_VBUFERR    ((uint32_t)0x00100000u)
#define VDC5_INT_BIT_IV3_VBUFERR    ((uint32_t)0x01000000u)
#define VDC5_INT_BIT_IV5_VBUFERR    ((uint32_t)0x10000000u)
#define VDC5_INT_BIT_IV6_VBUFERR    ((uint32_t)0x00000001u)
#define VDC5_INT_BIT_S0_WLINE       ((uint32_t)0x00000010u)
#define VDC5_INT_BIT_S1_VI_VSYNC    ((uint32_t)0x00000100u)
#define VDC5_INT_BIT_S1_LO_VSYNC    ((uint32_t)0x00001000u)
#define VDC5_INT_BIT_S1_VSYNCERR    ((uint32_t)0x00010000u)
#define VDC5_INT_BIT_S1_VFIELD      ((uint32_t)0x00100000u)
#define VDC5_INT_BIT_IV2_VBUFERR    ((uint32_t)0x01000000u)
#define VDC5_INT_BIT_IV4_VBUFERR    ((uint32_t)0x10000000u)
#define VDC5_INT_BIT_S1_WLINE       ((uint32_t)0x00000001u)
#define VDC5_INT_BIT_OIR_VI_VSYNC   ((uint32_t)0x00000010u)
#define VDC5_INT_BIT_OIR_LO_VSYNC   ((uint32_t)0x00000100u)
#define VDC5_INT_BIT_OIR_VLINE      ((uint32_t)0x00001000u)
#define VDC5_INT_BIT_OIR_VFIELD     ((uint32_t)0x00010000u)
#define VDC5_INT_BIT_IV7_VBUFERR    ((uint32_t)0x00100000u)
#define VDC5_INT_BIT_IV8_VBUFERR    ((uint32_t)0x01000000u)

#define VDC5_GR_UPDATE_P_VEN_BIT    ((uint32_t)0x00000010u)
#define VDC5_SCL0_UPDATE_VEN_A_BIT  ((uint32_t)0x00000001u)

/* Valid bit range */
#define VDC5_INT_RANGE_0X000007FF   (0x000007FFu)

/******************************************************************************
Typedef definitions
******************************************************************************/

/******************************************************************************
Private global variables and functions
******************************************************************************/
static void VDC5_Ch0_s0_vi_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s0_lo_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s0_vsyncerr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_vline_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s0_vfield_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv1_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv3_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv5_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv6_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s0_wline_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s1_vi_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s1_lo_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s1_vsyncerr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s1_vfield_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv2_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv4_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_s1_wline_ISR(const uint32_t int_sense);
static void VDC5_Ch0_oir_vi_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch0_oir_lo_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch0_oir_vline_ISR(const uint32_t int_sense);
static void VDC5_Ch0_oir_vfield_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv7_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch0_iv8_vbuferr_ISR(const uint32_t int_sense);

static void VDC5_Ch1_s0_vi_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s0_lo_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s0_vsyncerr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_vline_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s0_vfield_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv1_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv3_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv5_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv6_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s0_wline_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s1_vi_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s1_lo_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s1_vsyncerr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s1_vfield_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv2_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv4_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_s1_wline_ISR(const uint32_t int_sense);
static void VDC5_Ch1_oir_vi_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch1_oir_lo_vsync_ISR(const uint32_t int_sense);
static void VDC5_Ch1_oir_vline_ISR(const uint32_t int_sense);
static void VDC5_Ch1_oir_vfield_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv7_vbuferr_ISR(const uint32_t int_sense);
static void VDC5_Ch1_iv8_vbuferr_ISR(const uint32_t int_sense);

/*! List of the callback function pointers */
static void (*vdc5_int_callback[VDC5_CHANNEL_NUM][VDC5_INT_TYPE_NUM])(vdc5_int_type_t int_type);


/**************************************************************************//**
 * @brief       Interrupt service routine acquisition processing
 *
 *              Description:<br>
 *              This function returns the function pointer to the specified interrupt service routine.
 * @param[in]   ch                              : Channel
 * @param[in]   type                            : VDC5 interrupt type
 * @retval      VDC5 Interrupt service routine
 *****************************************************************************/
void (*R_VDC5_GetISR (const vdc5_channel_t ch, const vdc5_int_type_t type))(const uint32_t int_sense)
{
    static void (* const isr_table[VDC5_CHANNEL_NUM][VDC5_INT_TYPE_NUM])(const uint32_t int_sense) = {
        {
            &VDC5_Ch0_s0_vi_vsync_ISR,
            &VDC5_Ch0_s0_lo_vsync_ISR,
            &VDC5_Ch0_s0_vsyncerr_ISR,
            &VDC5_Ch0_vline_ISR,
            &VDC5_Ch0_s0_vfield_ISR,
            &VDC5_Ch0_iv1_vbuferr_ISR,
            &VDC5_Ch0_iv3_vbuferr_ISR,
            &VDC5_Ch0_iv5_vbuferr_ISR,
            &VDC5_Ch0_iv6_vbuferr_ISR,
            &VDC5_Ch0_s0_wline_ISR,
            &VDC5_Ch0_s1_vi_vsync_ISR,
            &VDC5_Ch0_s1_lo_vsync_ISR,
            &VDC5_Ch0_s1_vsyncerr_ISR,
            &VDC5_Ch0_s1_vfield_ISR,
            &VDC5_Ch0_iv2_vbuferr_ISR,
            &VDC5_Ch0_iv4_vbuferr_ISR,
            &VDC5_Ch0_s1_wline_ISR,
            &VDC5_Ch0_oir_vi_vsync_ISR,
            &VDC5_Ch0_oir_lo_vsync_ISR,
            &VDC5_Ch0_oir_vline_ISR,
            &VDC5_Ch0_oir_vfield_ISR,
            &VDC5_Ch0_iv7_vbuferr_ISR,
            &VDC5_Ch0_iv8_vbuferr_ISR
        },
        {
            &VDC5_Ch1_s0_vi_vsync_ISR,
            &VDC5_Ch1_s0_lo_vsync_ISR,
            &VDC5_Ch1_s0_vsyncerr_ISR,
            &VDC5_Ch1_vline_ISR,
            &VDC5_Ch1_s0_vfield_ISR,
            &VDC5_Ch1_iv1_vbuferr_ISR,
            &VDC5_Ch1_iv3_vbuferr_ISR,
            &VDC5_Ch1_iv5_vbuferr_ISR,
            &VDC5_Ch1_iv6_vbuferr_ISR,
            &VDC5_Ch1_s0_wline_ISR,
            &VDC5_Ch1_s1_vi_vsync_ISR,
            &VDC5_Ch1_s1_lo_vsync_ISR,
            &VDC5_Ch1_s1_vsyncerr_ISR,
            &VDC5_Ch1_s1_vfield_ISR,
            &VDC5_Ch1_iv2_vbuferr_ISR,
            &VDC5_Ch1_iv4_vbuferr_ISR,
            &VDC5_Ch1_s1_wline_ISR,
            &VDC5_Ch1_oir_vi_vsync_ISR,
            &VDC5_Ch1_oir_lo_vsync_ISR,
            &VDC5_Ch1_oir_vline_ISR,
            &VDC5_Ch1_oir_vfield_ISR,
            &VDC5_Ch1_iv7_vbuferr_ISR,
            &VDC5_Ch1_iv8_vbuferr_ISR
        }
    };
    void (* isr_function)(const uint32_t int_sense);

    isr_function = isr_table[ch][type];

#ifdef  R_VDC5_CHECK_PARAMETERS
    /* Channel and interrupt type */
    if ((ch >= VDC5_CHANNEL_NUM) || (type >= VDC5_INT_TYPE_NUM)) {
        isr_function = 0;
    }
#endif  /* R_VDC5_CHECK_PARAMETERS */

    return isr_function;
}   /* End of function R_VDC5_GetISR() */

/**************************************************************************//**
 * @brief       Disables all VDC5 interrupts
 * @param[in]   ch                      : Channel
 * @retval      None
 *****************************************************************************/
void VDC5_Int_Disable (const vdc5_channel_t ch)
{
    const vdc5_regaddr_system_ctrl_t  * system_ctrl;
    int32_t                             int_type;

    system_ctrl = &vdc5_regaddr_system_ctrl[ch];

    for (int_type = 0; int_type < VDC5_INT_TYPE_NUM; int_type++) {
        vdc5_int_callback[ch][int_type] = 0;
    }
    /* Interrupt output off */
    *(system_ctrl->syscnt_int4) = 0u;
    *(system_ctrl->syscnt_int5) = 0u;
    *(system_ctrl->syscnt_int6) = 0u;

}   /* End of function VDC5_Int_Disable() */

/**************************************************************************//**
 * @brief       Enables/disables the specified VDC5 interrupt
 * @param[in]   ch                      : Channel
 * @param[in]   param                   : Interrupt callback setup parameter
 * @retval      None
 *****************************************************************************/
void VDC5_Int_SetInterrupt (const vdc5_channel_t ch, const vdc5_int_t * const param)
{
    volatile uint32_t     * int_clhd_reg;
    volatile uint32_t     * int_onoff_reg;
    volatile uint32_t     * linenum_reg;
    volatile uint16_t     * linenum16_reg;
    volatile uint32_t     * linenum_update_reg;
    uint32_t                mask_bit;
    uint32_t                reg_data;
    static const uint32_t   interrupt_bit_table[VDC5_INT_TYPE_NUM] = {
        VDC5_INT_BIT_S0_VI_VSYNC,
        VDC5_INT_BIT_S0_LO_VSYNC,
        VDC5_INT_BIT_S0_VSYNCERR,
        VDC5_INT_BIT_VLINE,
        VDC5_INT_BIT_S0_VFIELD,
        VDC5_INT_BIT_IV1_VBUFERR,
        VDC5_INT_BIT_IV3_VBUFERR,
        VDC5_INT_BIT_IV5_VBUFERR,
        VDC5_INT_BIT_IV6_VBUFERR,
        VDC5_INT_BIT_S0_WLINE,
        VDC5_INT_BIT_S1_VI_VSYNC,
        VDC5_INT_BIT_S1_LO_VSYNC,
        VDC5_INT_BIT_S1_VSYNCERR,
        VDC5_INT_BIT_S1_VFIELD,
        VDC5_INT_BIT_IV2_VBUFERR,
        VDC5_INT_BIT_IV4_VBUFERR,
        VDC5_INT_BIT_S1_WLINE,
        VDC5_INT_BIT_OIR_VI_VSYNC,
        VDC5_INT_BIT_OIR_LO_VSYNC,
        VDC5_INT_BIT_OIR_VLINE,
        VDC5_INT_BIT_OIR_VFIELD,
        VDC5_INT_BIT_IV7_VBUFERR,
        VDC5_INT_BIT_IV8_VBUFERR
    };

    if (param->type < VDC5_INT_TYPE_IV6_VBUFERR) {
        /* INT0: VDC5_INT_TYPE_S0_VI_VSYNC ~ INT7: VDC5_INT_TYPE_IV5_VBUFERR */
        int_clhd_reg  = vdc5_regaddr_system_ctrl[ch].syscnt_int1;
        int_onoff_reg = vdc5_regaddr_system_ctrl[ch].syscnt_int4;
    } else if (param->type < VDC5_INT_TYPE_S1_WLINE) {
        /* INT8: VDC5_INT_TYPE_IV6_VBUFERR ~ INT15: VDC5_INT_TYPE_IV4_VBUFERR */
        int_clhd_reg  = vdc5_regaddr_system_ctrl[ch].syscnt_int2;
        int_onoff_reg = vdc5_regaddr_system_ctrl[ch].syscnt_int5;
    } else {
        /* INT16: VDC5_INT_TYPE_S1_WLINE ~ INT22: VDC5_INT_TYPE_IV8_VBUFERR */
        int_clhd_reg  = vdc5_regaddr_system_ctrl[ch].syscnt_int3;
        int_onoff_reg = vdc5_regaddr_system_ctrl[ch].syscnt_int6;
    }
    mask_bit = interrupt_bit_table[param->type];

    /* Interrupt callback function pointer */
    vdc5_int_callback[ch][param->type] = param->callback;

    if (param->callback != 0) {
        /* ON */
        if ((*int_onoff_reg & mask_bit) == 0u) {
            /* OFF to ON */
            *int_onoff_reg |= mask_bit;
            reg_data        = *int_onoff_reg;
            *int_clhd_reg   = reg_data;
        }

        if (param->type == VDC5_INT_TYPE_VLINE) {
            /* Specified line signal for panel output in graphics 3 */
            linenum_reg         = vdc5_regaddr_img_synthesizer[ch][VDC5_GR_TYPE_GR3].gr_clut;
            linenum_update_reg  = vdc5_regaddr_img_synthesizer[ch][VDC5_GR_TYPE_GR3].gr_update;
            *linenum_reg        &= (uint32_t)~VDC5_INT_RANGE_0X000007FF;
            *linenum_reg        |= (uint32_t)param->line_num;
            *linenum_update_reg |= VDC5_GR_UPDATE_P_VEN_BIT;
        } else if (param->type == VDC5_INT_TYPE_S0_WLINE) {
            /* Write specification line signal input to scaling-down control block in scaler 0 */
            linenum16_reg       = vdc5_regaddr_scaler[ch][VDC5_SC_TYPE_SC0].scl0_int;
            linenum_update_reg  = vdc5_regaddr_scaler[ch][VDC5_SC_TYPE_SC0].scl0_update;
            *linenum16_reg       = param->line_num;
            *linenum_update_reg |= VDC5_SCL0_UPDATE_VEN_A_BIT;
        } else if (param->type == VDC5_INT_TYPE_S1_WLINE) {
            /* Write specification line signal input to scaling-down control block in scaler 1 */
            linenum16_reg       = vdc5_regaddr_scaler[ch][VDC5_SC_TYPE_SC1].scl0_int;
            linenum_update_reg  = vdc5_regaddr_scaler[ch][VDC5_SC_TYPE_SC1].scl0_update;
            *linenum16_reg       = param->line_num;
            *linenum_update_reg |= VDC5_SCL0_UPDATE_VEN_A_BIT;
        } else if (param->type == VDC5_INT_TYPE_OIR_VLINE) {
            /* Specified line signal for panel output in output image generator */
            linenum_reg         = vdc5_regaddr_img_synthesizer[ch][VDC5_GR_TYPE_OIR].gr_clut;
            linenum_update_reg  = vdc5_regaddr_img_synthesizer[ch][VDC5_GR_TYPE_OIR].gr_update;
            *linenum_reg        &= (uint32_t)~VDC5_INT_RANGE_0X000007FF;
            *linenum_reg        |= (uint32_t)param->line_num;
            *linenum_update_reg |= VDC5_GR_UPDATE_P_VEN_BIT;
        } else {
            /* Do nothing */
        }
    } else {
        /* OFF */
        *int_onoff_reg &= (uint32_t)~mask_bit;
        reg_data        = *int_onoff_reg;
        *int_clhd_reg   = reg_data;
    }

}   /* End of function VDC5_Int_Disable() */

/**************************************************************************//**
 * @brief       VDC5 S0_VI_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s0_vi_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_VI_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_VI_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_VI_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_VI_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_VI_VSYNC](VDC5_INT_TYPE_S0_VI_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s0_vi_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_LO_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s0_lo_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_LO_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_LO_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_LO_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_LO_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_LO_VSYNC](VDC5_INT_TYPE_S0_LO_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s0_lo_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_VSYNCERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s0_vsyncerr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_VSYNCERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_VSYNCERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_VSYNCERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_VSYNCERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_VSYNCERR](VDC5_INT_TYPE_S0_VSYNCERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s0_vsyncerr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 VLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_vline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_VLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_VLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_VLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_VLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_VLINE](VDC5_INT_TYPE_VLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_vline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_VFIELD interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s0_vfield_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_VFIELD) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_VFIELD) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_VFIELD;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_VFIELD] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_VFIELD](VDC5_INT_TYPE_S0_VFIELD);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s0_vfield_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV1_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv1_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV1_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV1_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV1_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV1_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV1_VBUFERR](VDC5_INT_TYPE_IV1_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv1_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV3_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv3_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV3_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV3_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV3_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV3_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV3_VBUFERR](VDC5_INT_TYPE_IV3_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv3_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV5_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv5_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV5_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV5_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV5_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV5_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV5_VBUFERR](VDC5_INT_TYPE_IV5_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv5_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV6_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv6_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV6_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV6_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV6_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV6_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV6_VBUFERR](VDC5_INT_TYPE_IV6_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv6_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_WLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s0_wline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_WLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_WLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_WLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_WLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S0_WLINE](VDC5_INT_TYPE_S0_WLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s0_wline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_VI_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s1_vi_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_VI_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_VI_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_VI_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_VI_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_VI_VSYNC](VDC5_INT_TYPE_S1_VI_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s1_vi_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_LO_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s1_lo_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_LO_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_LO_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_LO_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_LO_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_LO_VSYNC](VDC5_INT_TYPE_S1_LO_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s1_lo_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_VSYNCERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s1_vsyncerr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_VSYNCERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_VSYNCERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_VSYNCERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_VSYNCERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_VSYNCERR](VDC5_INT_TYPE_S1_VSYNCERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s1_vsyncerr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_VFIELD interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s1_vfield_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_VFIELD) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_VFIELD) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_VFIELD;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_VFIELD] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_VFIELD](VDC5_INT_TYPE_S1_VFIELD);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s1_vfield_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV2_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv2_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV2_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV2_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV2_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV2_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV2_VBUFERR](VDC5_INT_TYPE_IV2_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv2_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV4_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv4_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV4_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV4_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV4_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV4_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV4_VBUFERR](VDC5_INT_TYPE_IV4_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv4_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_WLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_s1_wline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_WLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_WLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_WLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_WLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_S1_WLINE](VDC5_INT_TYPE_S1_WLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_s1_wline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_VI_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_oir_vi_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_VI_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_VI_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_VI_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_VI_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_VI_VSYNC](VDC5_INT_TYPE_OIR_VI_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_oir_vi_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_LO_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_oir_lo_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_LO_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_LO_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_LO_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_LO_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_LO_VSYNC](VDC5_INT_TYPE_OIR_LO_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_oir_lo_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_VLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_oir_vline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_VLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_VLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_VLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_VLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_VLINE](VDC5_INT_TYPE_OIR_VLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_oir_vline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_VFIELD interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_oir_vfield_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_VFIELD) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_VFIELD) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_VFIELD;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_VFIELD] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_OIR_VFIELD](VDC5_INT_TYPE_OIR_VFIELD);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_oir_vfield_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV7_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv7_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV7_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV7_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV7_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV7_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV7_VBUFERR](VDC5_INT_TYPE_IV7_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv7_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV8_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch0_iv8_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_0].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV8_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV8_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV8_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV8_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_0][VDC5_INT_TYPE_IV8_VBUFERR](VDC5_INT_TYPE_IV8_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch0_iv8_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_VI_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s0_vi_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_VI_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_VI_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_VI_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_VI_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_VI_VSYNC](VDC5_INT_TYPE_S0_VI_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s0_vi_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_LO_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s0_lo_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_LO_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_LO_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_LO_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_LO_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_LO_VSYNC](VDC5_INT_TYPE_S0_LO_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s0_lo_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_VSYNCERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s0_vsyncerr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_VSYNCERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_VSYNCERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_VSYNCERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_VSYNCERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_VSYNCERR](VDC5_INT_TYPE_S0_VSYNCERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s0_vsyncerr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 VLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_vline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_VLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_VLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_VLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_VLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_VLINE](VDC5_INT_TYPE_VLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_vline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_VFIELD interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s0_vfield_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_VFIELD) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_VFIELD) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_VFIELD;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_VFIELD] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_VFIELD](VDC5_INT_TYPE_S0_VFIELD);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s0_vfield_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV1_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv1_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV1_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV1_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV1_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV1_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV1_VBUFERR](VDC5_INT_TYPE_IV1_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv1_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV3_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv3_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV3_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV3_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV3_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV3_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV3_VBUFERR](VDC5_INT_TYPE_IV3_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv3_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV5_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv5_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int1;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int4;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV5_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV5_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV5_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV5_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV5_VBUFERR](VDC5_INT_TYPE_IV5_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv5_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV6_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv6_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV6_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV6_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV6_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV6_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV6_VBUFERR](VDC5_INT_TYPE_IV6_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv6_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S0_WLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s0_wline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S0_WLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S0_WLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S0_WLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_WLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S0_WLINE](VDC5_INT_TYPE_S0_WLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s0_wline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_VI_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s1_vi_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_VI_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_VI_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_VI_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_VI_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_VI_VSYNC](VDC5_INT_TYPE_S1_VI_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s1_vi_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_LO_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s1_lo_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_LO_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_LO_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_LO_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_LO_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_LO_VSYNC](VDC5_INT_TYPE_S1_LO_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s1_lo_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_VSYNCERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s1_vsyncerr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_VSYNCERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_VSYNCERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_VSYNCERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_VSYNCERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_VSYNCERR](VDC5_INT_TYPE_S1_VSYNCERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s1_vsyncerr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_VFIELD interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s1_vfield_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_VFIELD) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_VFIELD) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_VFIELD;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_VFIELD] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_VFIELD](VDC5_INT_TYPE_S1_VFIELD);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s1_vfield_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV2_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv2_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV2_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV2_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV2_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV2_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV2_VBUFERR](VDC5_INT_TYPE_IV2_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv2_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV4_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv4_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int2;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int5;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV4_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV4_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV4_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV4_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV4_VBUFERR](VDC5_INT_TYPE_IV4_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv4_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 S1_WLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_s1_wline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_S1_WLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_S1_WLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_S1_WLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_WLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_S1_WLINE](VDC5_INT_TYPE_S1_WLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_s1_wline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_VI_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_oir_vi_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_VI_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_VI_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_VI_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_VI_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_VI_VSYNC](VDC5_INT_TYPE_OIR_VI_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_oir_vi_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_LO_VSYNC interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_oir_lo_vsync_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_LO_VSYNC) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_LO_VSYNC) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_LO_VSYNC;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_LO_VSYNC] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_LO_VSYNC](VDC5_INT_TYPE_OIR_LO_VSYNC);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_oir_lo_vsync_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_VLINE interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_oir_vline_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_VLINE) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_VLINE) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_VLINE;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_VLINE] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_VLINE](VDC5_INT_TYPE_OIR_VLINE);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_oir_vline_ISR() */

/**************************************************************************//**
 * @brief       VDC5 OIR_VFIELD interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_oir_vfield_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_OIR_VFIELD) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_OIR_VFIELD) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_OIR_VFIELD;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_VFIELD] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_OIR_VFIELD](VDC5_INT_TYPE_OIR_VFIELD);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_oir_vfield_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV7_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv7_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV7_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV7_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV7_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV7_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV7_VBUFERR](VDC5_INT_TYPE_IV7_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv7_vbuferr_ISR() */

/**************************************************************************//**
 * @brief       VDC5 IV8_VBUFERR interrupt service routine
 * @param[in]   int_sense
 * @retval      None
 *****************************************************************************/
static void VDC5_Ch1_iv8_vbuferr_ISR (const uint32_t int_sense)
{
    uint32_t            IntState;
    volatile uint32_t * int_clhd_reg;
    volatile uint32_t * int_onoff_reg;

    UNUSED_PARAM(int_sense);

    int_clhd_reg  = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int3;
    int_onoff_reg = vdc5_regaddr_system_ctrl[VDC5_CHANNEL_1].syscnt_int6;
    IntState      = *int_onoff_reg;

    if (((IntState & VDC5_INT_BIT_IV8_VBUFERR) != 0u) && ((*int_clhd_reg & VDC5_INT_BIT_IV8_VBUFERR) != 0u)) {
        /* Clear */
        *int_clhd_reg = IntState & ~VDC5_INT_BIT_IV8_VBUFERR;

        if (vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV8_VBUFERR] != 0) {
            vdc5_int_callback[VDC5_CHANNEL_1][VDC5_INT_TYPE_IV8_VBUFERR](VDC5_INT_TYPE_IV8_VBUFERR);
        }
        /* Set */
        *int_clhd_reg = IntState;
    }
}   /* End of function VDC5_Ch1_iv8_vbuferr_ISR() */