STM32F103_ATTEN_PLL_Zig/Src/zig_operate.c

/*
 * zig_operate.c
 *
 *  Created on: 2019. 7. 26.
 *      Author: parkyj
 */
#include "zig_operate.h"
#include "main.h"
#include "pll_4113.h"
#include "ADF4153.h"
#include "PE43711.h"
#include "BDA4601.h"
#include "uart.h"
#include "CRC16.h"
extern void AD5318_Ctrl(uint16_t ShiftTarget) ;
extern etError STH30_CheckCrc(uint8_t *data, uint8_t nbrOfBytes, uint8_t checksum);
extern void ADF4153_Module_Ctrl(PLL_Setting_st pll,uint32_t R0,uint32_t R1,uint32_t R2,uint32_t R3);
extern bool Bluecell_Flash_Read(uint8_t* data);
extern void PE43711_ALL_atten_ctrl(ALL_PE43711_st ATT);
extern void Power_ON_OFF_Ctrl(uint8_t type,uint8_t cmd);
extern uint8_t Bluecell_Flash_Write(uint8_t* data);
uint8_t Prev_data[INDEX_BLUE_EOF + 1];
uint8_t Flash_Save_data[INDEX_BLUE_EOF + 1];


/* * * * * * * #define Struct* * * * * * * */
PLL_Setting_st Pll_1_8GHz_DL = {
	PLL_CLK_GPIO_Port,
	PLL_CLK_Pin,
	PLL_DATA_GPIO_Port,
	PLL_DATA_Pin,
    PLL_EN_1_8G_DL_GPIO_Port,    
    PLL_EN_1_8G_DL_Pin,
};
PLL_Setting_st Pll_1_8GHz_UL = {
    PLL_CLK_GPIO_Port,
    PLL_CLK_Pin,
    PLL_DATA_GPIO_Port,
    PLL_DATA_Pin,
    PLL_EN_1_8G_UL_GPIO_Port,    
    PLL_EN_1_8G_UL_Pin,
};
PLL_Setting_st Pll_2_1GHz_DL = {
    PLL_CLK_GPIO_Port,
    PLL_CLK_Pin,
    PLL_DATA_GPIO_Port,
    PLL_DATA_Pin,
    PLL_EN_2_1G_DL_GPIO_Port,    
    PLL_EN_2_1G_DL_Pin,
};
PLL_Setting_st Pll_2_1GHz_UL = {
    PLL_CLK_GPIO_Port,
    PLL_CLK_Pin,
    PLL_DATA_GPIO_Port,
    PLL_DATA_Pin,
    PLL_EN_2_1G_UL_GPIO_Port,    
    PLL_EN_2_1G_UL_Pin,
};
/* * * * * * * * NOT YET * * * * * * * */
PLL_Setting_st Pll_3_5GHz_DL = {
    ATT_CLK_3_5G_GPIO_Port,
    ATT_EN_3_5G_Pin,
    PLL_DATA_GPIO_Port,
    PLL_DATA_Pin,
    PLL_EN_2_1G_DL_GPIO_Port,    
    PLL_EN_2_1G_DL_Pin,
};
PLL_Setting_st Pll_3_5GHz_UL = {
    PLL_CLK_GPIO_Port,
    PLL_CLK_Pin,
    PLL_DATA_GPIO_Port,
    PLL_DATA_Pin,
    PLL_EN_2_1G_UL_GPIO_Port,    
    PLL_EN_2_1G_UL_Pin,
};
/* * * * * * * * ATTEN * * * * * * * */    
ATTEN_Setting_st Atten_1_8Ghz_DL1 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_1_8G_DL1_GPIO_Port,    
    ATT_EN_1_8G_DL1_Pin,
    PATH_EN_1_8G_DL_GPIO_Port,
    PATH_EN_1_8G_DL_Pin,
};

ATTEN_Setting_st Atten_1_8Ghz_DL2 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_1_8G_DL2_GPIO_Port,    
    ATT_EN_1_8G_DL2_Pin,
    PATH_EN_1_8G_DL_GPIO_Port,
    PATH_EN_1_8G_DL_Pin,    
};
ATTEN_Setting_st Atten_1_8Ghz_UL1 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_1_8G_UL1_GPIO_Port,    
    ATT_EN_1_8G_UL1_Pin,
    PATH_EN_1_8G_UL_GPIO_Port,
    PATH_EN_1_8G_UL_Pin,      
};
ATTEN_Setting_st Atten_1_8Ghz_UL2 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_1_8G_UL2_GPIO_Port,    
    ATT_EN_1_8G_UL2_Pin,
    PATH_EN_1_8G_UL_GPIO_Port,
    PATH_EN_1_8G_UL_Pin,    
};
ATTEN_Setting_st Atten_1_8Ghz_UL3 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_1_8G_UL3_GPIO_Port,    
    ATT_EN_1_8G_UL3_Pin,
    PATH_EN_1_8G_UL_GPIO_Port,
    PATH_EN_1_8G_UL_Pin,    
};
ATTEN_Setting_st Atten_1_8Ghz_UL4 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_1_8G_UL4_GPIO_Port,    
    ATT_EN_1_8G_UL4_Pin,
    PATH_EN_1_8G_UL_GPIO_Port,
    PATH_EN_1_8G_UL_Pin,    
};
ATTEN_Setting_st Atten_2_1Ghz_DL1 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_2_1G_DL1_GPIO_Port,    
    ATT_EN_2_1G_DL1_Pin,
    PATH_EN_2_1G_DL_GPIO_Port,
    PATH_EN_2_1G_DL_Pin,    
};
ATTEN_Setting_st Atten_2_1Ghz_DL2 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_2_1G_DL2_GPIO_Port,    
    ATT_EN_2_1G_DL2_Pin,
    PATH_EN_2_1G_DL_GPIO_Port,
    PATH_EN_2_1G_DL_Pin,    
};

ATTEN_Setting_st Atten_2_1Ghz_UL1 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_2_1G_UL1_GPIO_Port,    
    ATT_EN_2_1G_UL1_Pin,
    PATH_EN_2_1G_UL_GPIO_Port,
    PATH_EN_2_1G_UL_Pin,    
};
ATTEN_Setting_st Atten_2_1Ghz_UL2 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_2_1G_UL2_GPIO_Port,    
    ATT_EN_2_1G_UL2_Pin,
    PATH_EN_2_1G_UL_GPIO_Port,
    PATH_EN_2_1G_UL_Pin,    
};
ATTEN_Setting_st Atten_2_1Ghz_UL3 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_2_1G_UL3_GPIO_Port,    
    ATT_EN_2_1G_UL3_Pin,
    PATH_EN_2_1G_UL_GPIO_Port,
    PATH_EN_2_1G_UL_Pin,    
};
ATTEN_Setting_st Atten_2_1Ghz_UL4 ={
    ATT_CLK_GPIO_Port,
    ATT_CLK_Pin,
    ATT_DATA_GPIO_Port,
    ATT_DATA_Pin,
    ATT_EN_2_1G_UL4_GPIO_Port,    
    ATT_EN_2_1G_UL4_Pin,
    PATH_EN_2_1G_UL_GPIO_Port,
    PATH_EN_2_1G_UL_Pin,    
};


bool RF_Data_Check(uint8_t* data_buf){
    bool ret = false;
    bool crcret = STH30_CheckCrc(&data_buf[Type], data_buf[Length], data_buf[data_buf[Crcindex]]);
    if(data_buf[Header] == BLUECELL_HEADER){ /*HEADER CHECK*/
        ret= true;
    }
    if(crcret == true){/*CRC CHECK*/
        ret = true;
    }else{
        ret = false;
//        printf("Recv CRC Value : \"%d\"\r\n Create CRC Value : \"%d\"   \r\n",data_buf[data_buf[Crcindex]],STH30_CreateCrc(&data_buf[Type], data_buf[Length]));
    }
//    printf("CRC Result : \"%d\"   \r\n",ret);
    return ret;

}

PLL_Setting_st Pll_3_5_H = {
     PLL_CLK_3_5G_GPIO_Port,
     PLL_CLK_3_5G_Pin,
     PLL_DATA_3_5G_GPIO_Port,
     PLL_DATA_3_5G_Pin,
   PLL_EN_3_5G_H_GPIO_Port,    
   PLL_EN_3_5G_H_Pin,
 };
 PLL_Setting_st Pll_3_5_L = {
     PLL_CLK_3_5G_GPIO_Port,
     PLL_CLK_3_5G_Pin,
     PLL_DATA_3_5G_GPIO_Port,
     PLL_DATA_3_5G_Pin,
       PLL_EN_3_5G_L_GPIO_Port,    
       PLL_EN_3_5G_L_Pin,
 };
void RF_Status_Get(void){
//    printf("\r\nYJ2 : Prev_data[INDEX_DET_1_8G_DL_IN_L ] : %x\r\n",Prev_data[INDEX_DET_1_8G_DL_IN_L]);            
    Prev_data[INDEX_BLUE_HEADER]   = BLUECELL_HEADER;
    Prev_data[INDEX_BLUE_TYPE]     = TYPE_BLUECELL_GET;
    Prev_data[INDEX_BLUE_LENGTH]   = INDEX_BLUE_EOF - 2;
    Prev_data[INDEX_BLUE_CRCINDEX] = INDEX_BLUE_CRC;
    Prev_data[INDEX_BLUE_CRC]      = STH30_CreateCrc(&Prev_data[Type], Prev_data[Length]);
    Prev_data[INDEX_BLUE_EOF] = BLUECELL_TAILER;    
    HAL_UART_Transmit_DMA(&huart1,&Prev_data[INDEX_BLUE_HEADER],INDEX_BLUE_EOF + 1); 
//    printf("\r\nYJ : %x",ADCvalue[0]);
//    printf("\r\n");

}
static uint8_t Ack_Buf[6];
void RF_Status_Ack(void){
//    printf("\r\nYJ2 : Prev_data[INDEX_DET_1_8G_DL_IN_L ] : %x\r\n",Prev_data[INDEX_DET_1_8G_DL_IN_L]);            
    Ack_Buf[INDEX_BLUE_HEADER]       = BLUECELL_HEADER;
    Ack_Buf[INDEX_BLUE_TYPE]         = TYPE_BLUECELL_ACK;
    Ack_Buf[INDEX_BLUE_LENGTH]       = 3;
    Ack_Buf[INDEX_BLUE_CRCINDEX + 0] = INDEX_BLUE_CRCINDEX + 1;
    Ack_Buf[INDEX_BLUE_CRCINDEX + 1] = STH30_CreateCrc(&Ack_Buf[Type], Ack_Buf[Length]);
    Ack_Buf[INDEX_BLUE_CRCINDEX + 2] = BLUECELL_TAILER;
    HAL_UART_Transmit_DMA(&huart1,&Ack_Buf[INDEX_BLUE_HEADER],Ack_Buf[INDEX_BLUE_LENGTH]  + 3); 
//    printf("\r\nYJ : %x",ADCvalue[0]);
//    printf("\r\n");

}

void RF_Operate(uint8_t* data_buf){
    uint32_t temp_val = 0;
    uint8_t  ADC_Modify = 0;
    ADF4153_R_N_Reg_st temp_reg;
//    printf("Prev_data[INDEX_ATT_1_8G_DL1]  : %x  data_buf[INDEX_ATT_1_8G_DL1] : %x\r\n",Prev_data[INDEX_ATT_1_8G_DL1],data_buf[INDEX_ATT_1_8G_DL1]);
    if(Prev_data[INDEX_ATT_1_8G_DL1] != data_buf[INDEX_ATT_1_8G_DL1]){
        BDA4601_atten_ctrl(BDA4601_1_8G_DL1,(data_buf[INDEX_ATT_1_8G_DL1]));
        Prev_data[INDEX_ATT_1_8G_DL1] = data_buf[INDEX_ATT_1_8G_DL1];
    }
    if(Prev_data[INDEX_ATT_1_8G_DL2] != data_buf[INDEX_ATT_1_8G_DL2]){
        BDA4601_atten_ctrl(BDA4601_1_8G_DL2,(data_buf[INDEX_ATT_1_8G_DL2]));
        Prev_data[INDEX_ATT_1_8G_DL2] = data_buf[INDEX_ATT_1_8G_DL2];
    }
    if(Prev_data[INDEX_ATT_1_8G_UL1] != data_buf[INDEX_ATT_1_8G_UL1]){
        BDA4601_atten_ctrl(BDA4601_1_8G_UL1,(data_buf[INDEX_ATT_1_8G_UL1]));
        Prev_data[INDEX_ATT_1_8G_UL1] = data_buf[INDEX_ATT_1_8G_UL1];
    }
    if(Prev_data[INDEX_ATT_1_8G_UL2] != data_buf[INDEX_ATT_1_8G_UL2]){
        BDA4601_atten_ctrl(BDA4601_1_8G_UL2,(data_buf[INDEX_ATT_1_8G_UL2]));
        Prev_data[INDEX_ATT_1_8G_UL2] = data_buf[INDEX_ATT_1_8G_UL2];
    }
    if(Prev_data[INDEX_ATT_1_8G_UL3] != data_buf[INDEX_ATT_1_8G_UL3]){
        BDA4601_atten_ctrl(BDA4601_1_8G_UL3,(data_buf[INDEX_ATT_1_8G_UL3]));
        Prev_data[INDEX_ATT_1_8G_UL3] = data_buf[INDEX_ATT_1_8G_UL3];
    }
    if(Prev_data[INDEX_ATT_1_8G_UL4] != data_buf[INDEX_ATT_1_8G_UL4]){
        BDA4601_atten_ctrl(BDA4601_1_8G_UL4,(data_buf[INDEX_ATT_1_8G_UL4]));
        Prev_data[INDEX_ATT_1_8G_UL4] = data_buf[INDEX_ATT_1_8G_UL4];
    }
    if(Prev_data[INDEX_ATT_2_1G_DL1] != data_buf[INDEX_ATT_2_1G_DL1]){
        BDA4601_atten_ctrl(BDA4601_2_1G_DL1,(data_buf[INDEX_ATT_2_1G_DL1]));
        Prev_data[INDEX_ATT_2_1G_DL1] = data_buf[INDEX_ATT_2_1G_DL1];

    }
    if(Prev_data[INDEX_ATT_2_1G_DL2] != data_buf[INDEX_ATT_2_1G_DL2]){
        BDA4601_atten_ctrl(BDA4601_2_1G_DL2,(data_buf[INDEX_ATT_2_1G_DL2]));
        Prev_data[INDEX_ATT_2_1G_DL2] = data_buf[INDEX_ATT_2_1G_DL2];

    }
    if(Prev_data[INDEX_ATT_2_1G_UL1] != data_buf[INDEX_ATT_2_1G_UL1]){
        BDA4601_atten_ctrl(BDA4601_2_1G_UL1,(data_buf[INDEX_ATT_2_1G_UL1]));
        Prev_data[INDEX_ATT_2_1G_UL1] = data_buf[INDEX_ATT_2_1G_UL1];

    }
    if(Prev_data[INDEX_ATT_2_1G_UL2] != data_buf[INDEX_ATT_2_1G_UL2]){
        BDA4601_atten_ctrl(BDA4601_2_1G_UL2,(data_buf[INDEX_ATT_2_1G_UL2]));
        Prev_data[INDEX_ATT_2_1G_UL2] = data_buf[INDEX_ATT_2_1G_UL2];

    }
    if(Prev_data[INDEX_ATT_2_1G_UL3] != data_buf[INDEX_ATT_2_1G_UL3]){
        BDA4601_atten_ctrl(BDA4601_2_1G_UL3,(data_buf[INDEX_ATT_2_1G_UL3]));
        Prev_data[INDEX_ATT_2_1G_UL3] = data_buf[INDEX_ATT_2_1G_UL3];
    }
    if(Prev_data[INDEX_ATT_2_1G_UL4] != data_buf[INDEX_ATT_2_1G_UL4]){
        BDA4601_atten_ctrl(BDA4601_2_1G_UL4,(data_buf[INDEX_ATT_2_1G_UL4]));
        Prev_data[INDEX_ATT_2_1G_UL4] = data_buf[INDEX_ATT_2_1G_UL4];
    }
    if(   (Prev_data[INDEX_ATT_3_5G_LOW1] != data_buf[INDEX_ATT_3_5G_LOW1])
        ||(Prev_data[INDEX_ATT_3_5G_HIGH1] != data_buf[INDEX_ATT_3_5G_HIGH1])
        ||(Prev_data[INDEX_ATT_3_5G_COM1] != data_buf[INDEX_ATT_3_5G_COM1])
        ||(Prev_data[INDEX_ATT_3_5G_LOW2] != data_buf[INDEX_ATT_3_5G_LOW2])
        ||(Prev_data[INDEX_ATT_3_5G_HIGH2] != data_buf[INDEX_ATT_3_5G_HIGH2])
        ||(Prev_data[INDEX_ATT_3_5G_COM2] != data_buf[INDEX_ATT_3_5G_COM2])
    ){
        ALL_ATT_3_5G.data0 = Prev_data[INDEX_ATT_3_5G_LOW1]  = data_buf[INDEX_ATT_3_5G_LOW1];
        ALL_ATT_3_5G.data1 = Prev_data[INDEX_ATT_3_5G_HIGH1] = data_buf[INDEX_ATT_3_5G_HIGH1];
        ALL_ATT_3_5G.data2 = Prev_data[INDEX_ATT_3_5G_COM1]  = data_buf[INDEX_ATT_3_5G_COM1];
        ALL_ATT_3_5G.data3 = Prev_data[INDEX_ATT_3_5G_LOW2]  = data_buf[INDEX_ATT_3_5G_LOW2];
        ALL_ATT_3_5G.data4 = Prev_data[INDEX_ATT_3_5G_HIGH2] = data_buf[INDEX_ATT_3_5G_HIGH2];
        ALL_ATT_3_5G.data5 = Prev_data[INDEX_ATT_3_5G_COM2]  = data_buf[INDEX_ATT_3_5G_COM2];
        PE43711_ALL_atten_ctrl(ALL_ATT_3_5G);
    }
    if((Prev_data[INDEX_PLL_1_8G_DL_H] != data_buf[INDEX_PLL_1_8G_DL_H])
        || (Prev_data[INDEX_PLL_1_8G_DL_L] != data_buf[INDEX_PLL_1_8G_DL_L])
    ){
        Prev_data[INDEX_PLL_1_8G_DL_H] = data_buf[INDEX_PLL_1_8G_DL_H];
        Prev_data[INDEX_PLL_1_8G_DL_L] = data_buf[INDEX_PLL_1_8G_DL_L];
//        printf("data_buf[INDEX_PLL_1_8G_DL_H] : %x \r\n",data_buf[INDEX_PLL_1_8G_DL_H]);
//        printf("data_buf[INDEX_PLL_1_8G_DL_L] : %x\r\n",data_buf[INDEX_PLL_1_8G_DL_L]);
        temp_val = (data_buf[INDEX_PLL_1_8G_DL_H] << 8) | (data_buf[INDEX_PLL_1_8G_DL_L]);
        ADF4113_Module_Ctrl(ADF4113_1_8G_DL,0x410,halSynSetFreq(temp_val * 100000),0x9F8092);
        HAL_Delay(1);
        BDA4601_atten_ctrl(BDA4601_1_8G_DL1,(data_buf[INDEX_ATT_1_8G_DL1]));
        BDA4601_atten_ctrl(BDA4601_1_8G_DL2,(data_buf[INDEX_ATT_1_8G_DL2]));
    }
    if((Prev_data[INDEX_PLL_1_8G_UL_H] != data_buf[INDEX_PLL_1_8G_UL_H])
        || (Prev_data[INDEX_PLL_1_8G_UL_L] != data_buf[INDEX_PLL_1_8G_UL_L])){
        temp_val = (data_buf[INDEX_PLL_1_8G_UL_H] << 8) | (data_buf[INDEX_PLL_1_8G_UL_L]);
//        printf("data_buf[INDEX_PLL_1_8G_UL_H] : %x \r\n",data_buf[INDEX_PLL_1_8G_UL_H]);
//        printf("data_buf[INDEX_PLL_1_8G_UL_L] : %x\r\n",data_buf[INDEX_PLL_1_8G_UL_L]);
        Prev_data[INDEX_PLL_1_8G_UL_H] = data_buf[INDEX_PLL_1_8G_UL_H];
        Prev_data[INDEX_PLL_1_8G_UL_L] = data_buf[INDEX_PLL_1_8G_UL_L];
//         ADF4113_Module_Ctrl(ADF4113_1_8G_UL,0x000410,0x038D31,0x9f8092);
         ADF4113_Module_Ctrl(ADF4113_1_8G_UL,0x410,halSynSetFreq(temp_val * 100000),0x9F8092);
        HAL_Delay(1);
        BDA4601_atten_ctrl(BDA4601_1_8G_UL1,(data_buf[INDEX_ATT_1_8G_UL1]));
        BDA4601_atten_ctrl(BDA4601_1_8G_UL2,(data_buf[INDEX_ATT_1_8G_UL2]));
        BDA4601_atten_ctrl(BDA4601_1_8G_UL3,(data_buf[INDEX_ATT_1_8G_UL3]));
        BDA4601_atten_ctrl(BDA4601_1_8G_UL4,(data_buf[INDEX_ATT_1_8G_UL4]));
    }
    if((Prev_data[INDEX_PLL_2_1G_DL_H] != data_buf[INDEX_PLL_2_1G_DL_H])
        || (Prev_data[INDEX_PLL_2_1G_DL_L] != data_buf[INDEX_PLL_2_1G_DL_L])){
        temp_val = ((data_buf[INDEX_PLL_2_1G_DL_H] << 8) | (data_buf[INDEX_PLL_2_1G_DL_L]));
//        printf("data_buf[INDEX_PLL_2_1G_DL_H] : %x \r\n",data_buf[INDEX_PLL_2_1G_DL_H]);
//        printf("data_buf[INDEX_PLL_2_1G_DL_L] : %x\r\n",data_buf[INDEX_PLL_2_1G_DL_L]);
        Prev_data[INDEX_PLL_2_1G_DL_H] = data_buf[INDEX_PLL_2_1G_DL_H];
        Prev_data[INDEX_PLL_2_1G_DL_L] = data_buf[INDEX_PLL_2_1G_DL_L];        
//         ADF4113_Module_Ctrl(ADF4113_2_1G_DL,0x410,0x4DE71,0x9F8092);
        ADF4113_Module_Ctrl(ADF4113_2_1G_DL,0x410,halSynSetFreq(temp_val * 100000),0x9F8092);
      HAL_Delay(1);
      BDA4601_atten_ctrl(BDA4601_2_1G_DL1,(data_buf[INDEX_ATT_2_1G_DL1]));
      BDA4601_atten_ctrl(BDA4601_2_1G_DL2,(data_buf[INDEX_ATT_2_1G_DL2]));
    }
    if((Prev_data[INDEX_PLL_2_1G_UL_H] != data_buf[INDEX_PLL_2_1G_UL_H])
        || (Prev_data[INDEX_PLL_2_1G_UL_L] != data_buf[INDEX_PLL_2_1G_UL_L])){
        Prev_data[INDEX_PLL_2_1G_UL_H] = data_buf[INDEX_PLL_2_1G_UL_H];
        Prev_data[INDEX_PLL_2_1G_UL_L] = data_buf[INDEX_PLL_2_1G_UL_L];    
//        printf("data_buf[INDEX_PLL_2_1G_UL_H] : %x \r\n",data_buf[INDEX_PLL_2_1G_UL_H]);
//        printf("data_buf[INDEX_PLL_2_1G_UL_L] : %x\r\n",data_buf[INDEX_PLL_2_1G_UL_L]);
        temp_val = (data_buf[INDEX_PLL_2_1G_UL_H] << 8) | (data_buf[INDEX_PLL_2_1G_UL_L]);
//        ADF4113_Module_Ctrl(ADF4113_2_1G_UL,0x000410,0x59A31,0x9f8092);
        ADF4113_Module_Ctrl(ADF4113_2_1G_UL,0x410,halSynSetFreq(temp_val * 100000),0x9F8092);
      HAL_Delay(1);
      BDA4601_atten_ctrl(BDA4601_2_1G_UL1,(data_buf[INDEX_ATT_2_1G_UL1]));
      BDA4601_atten_ctrl(BDA4601_2_1G_UL2,(data_buf[INDEX_ATT_2_1G_UL2]));
      BDA4601_atten_ctrl(BDA4601_2_1G_UL3,(data_buf[INDEX_ATT_2_1G_UL3]));      
      BDA4601_atten_ctrl(BDA4601_2_1G_UL4,(data_buf[INDEX_ATT_2_1G_UL4]));      


    }
    if((Prev_data[INDEX_PLL_3_5G_LOW_H] != data_buf[INDEX_PLL_3_5G_LOW_H])
        ||(Prev_data[INDEX_PLL_3_5G_LOW_M] != data_buf[INDEX_PLL_3_5G_LOW_M])
        || (Prev_data[INDEX_PLL_3_5G_LOW_L] != data_buf[INDEX_PLL_3_5G_LOW_L])){
        Prev_data[INDEX_PLL_3_5G_LOW_H] = data_buf[INDEX_PLL_3_5G_LOW_H];
        Prev_data[INDEX_PLL_3_5G_LOW_M] = data_buf[INDEX_PLL_3_5G_LOW_M];        
        Prev_data[INDEX_PLL_3_5G_LOW_L] = data_buf[INDEX_PLL_3_5G_LOW_L];
        temp_val = (data_buf[INDEX_PLL_3_5G_LOW_H] << 16) | 
                   (data_buf[INDEX_PLL_3_5G_LOW_M] << 8)  | 
                   (data_buf[INDEX_PLL_3_5G_LOW_L]);
#if 1 // PYJ.2019.08.12_BEGIN -- 
        temp_reg = ADF4153_Freq_Calc(temp_val  * 10000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
#else
        temp_reg = ADF4153_Freq_Calc(3465500000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
#endif // PYJ.2019.08.12_END -- 
        ADF4153_Module_Ctrl(Pll_3_5_L,temp_reg.N_reg,temp_reg.R_reg,0x13c2,0x3);
    }
    if((Prev_data[INDEX_PLL_3_5G_HIGH_H] != data_buf[INDEX_PLL_3_5G_HIGH_H])
        || (Prev_data[INDEX_PLL_3_5G_HIGH_M] != data_buf[INDEX_PLL_3_5G_HIGH_M])
        || (Prev_data[INDEX_PLL_3_5G_HIGH_L] != data_buf[INDEX_PLL_3_5G_HIGH_L])){
        Prev_data[INDEX_PLL_3_5G_HIGH_H] = data_buf[INDEX_PLL_3_5G_HIGH_H];
        Prev_data[INDEX_PLL_3_5G_HIGH_M] = data_buf[INDEX_PLL_3_5G_HIGH_M];
        Prev_data[INDEX_PLL_3_5G_HIGH_L] = data_buf[INDEX_PLL_3_5G_HIGH_L];
        temp_val = (data_buf[INDEX_PLL_3_5G_HIGH_H] << 16) |
                   (data_buf[INDEX_PLL_3_5G_HIGH_M] << 8)  |
                   (data_buf[INDEX_PLL_3_5G_HIGH_L]);
#if 1 // PYJ.2019.08.12_BEGIN -- 
        temp_reg = ADF4153_Freq_Calc(temp_val  * 10000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
#else
        temp_reg = ADF4153_Freq_Calc(3934500000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
#endif // PYJ.2019.08.12_END -- 
        ADF4153_Module_Ctrl(Pll_3_5_H,temp_reg.N_reg,temp_reg.R_reg,0x13c2,0x3);

    }
    if(Prev_data[INDEX_PLL_LD_6_BIT] != data_buf[INDEX_PLL_LD_6_BIT]){

    }
#if 0 // PYJ.2019.07.28_BEGIN -- 
    if(Prev_data[INDEX_DET_1_8G_DL_IN_H] != data_buf[INDEX_DET_1_8G_DL_IN_H]){

    }
    if(Prev_data[INDEX_DET_1_8G_DL_IN_L] != data_buf[INDEX_DET_1_8G_DL_IN_L]){

    }
    if(Prev_data[INDEX_DET_1_8G_DL_OUT_H] != data_buf[INDEX_DET_1_8G_DL_OUT_H]){

    }
    if(Prev_data[INDEX_DET_1_8G_DL_OUT_L] != data_buf[INDEX_DET_1_8G_DL_OUT_L]){

    }
    if(Prev_data[INDEX_DET_1_8G_UL_IN_H] != data_buf[INDEX_DET_1_8G_UL_IN_H]){

    }
    if(Prev_data[INDEX_DET_1_8G_UL_IN_L] != data_buf[INDEX_DET_1_8G_UL_IN_L]){

    }
    if(Prev_data[INDEX_DET_1_8G_UL_OUT_H] != data_buf[INDEX_DET_1_8G_UL_OUT_H]){

    }
    if(Prev_data[INDEX_DET_1_8G_UL_OUT_L] != data_buf[INDEX_DET_1_8G_UL_OUT_L]){

    }
    if(Prev_data[INDEX_DET_2_1G_DL_IN_H] != data_buf[INDEX_DET_2_1G_DL_IN_H]){

    }
    if(Prev_data[INDEX_DET_2_1G_DL_IN_L] != data_buf[INDEX_DET_2_1G_DL_IN_L]){

    }
    if(Prev_data[INDEX_DET_2_1G_DL_OUT_H] != data_buf[INDEX_DET_2_1G_DL_OUT_H]){

    }
    if(Prev_data[INDEX_DET_2_1G_DL_OUT_L] != data_buf[INDEX_DET_2_1G_DL_OUT_L]){

    }
    if(Prev_data[INDEX_DET_2_1G_UL_IN_H] != data_buf[INDEX_DET_2_1G_UL_IN_H]){

    }
    if(Prev_data[INDEX_DET_2_1G_UL_IN_L] != data_buf[INDEX_DET_2_1G_UL_IN_L]){

    }

    if(Prev_data[INDEX_DET_2_1G_UL_OUT_H] != data_buf[INDEX_DET_2_1G_UL_OUT_H]){

    }
    if(Prev_data[INDEX_DET_2_1G_UL_OUT_L] != data_buf[INDEX_DET_2_1G_UL_OUT_L]){

    }
    if(Prev_data[INDEX_DET_3_5G_DL_IN_H] != data_buf[INDEX_DET_3_5G_DL_IN_H]){

    }
    if(Prev_data[INDEX_DET_3_5G_DL_IN_L] != data_buf[INDEX_DET_3_5G_DL_IN_L]){

    }
    if(Prev_data[INDEX_DET_3_5G_DL_OUT_L] != data_buf[INDEX_DET_3_5G_DL_OUT_L]){

    }
    if(Prev_data[INDEX_DET_3_5G_DL_OUT_H] != data_buf[INDEX_DET_3_5G_DL_OUT_H]){

    }
    if(Prev_data[INDEX_DET_3_5G_UL_IN_H] != data_buf[INDEX_DET_3_5G_UL_IN_H]){

    }
    if(Prev_data[INDEX_DET_3_5G_UL_IN_L] != data_buf[INDEX_DET_3_5G_UL_IN_L]){

    }

    if(Prev_data[INDEX_DET_3_5G_UL_OUT_H] != data_buf[INDEX_DET_3_5G_UL_OUT_H]){

    }
    if(Prev_data[INDEX_DET_3_5G_UL_OUT_L] != data_buf[INDEX_DET_3_5G_UL_OUT_L]){

    }
    if(Prev_data[INDEX_RFU_TEMP_H] != data_buf[INDEX_RFU_TEMP_H]){

    }
    if(Prev_data[INDEX_RFU_TEMP_L] != data_buf[INDEX_RFU_TEMP_L]){

    }
    if(Prev_data[INDEX__28V_DET_H] != data_buf[INDEX__28V_DET_H]){

    }
    if(Prev_data[INDEX__28V_DET_L] != data_buf[INDEX__28V_DET_L]){

    }
#endif // PYJ.2019.07.28_END -- 
    if(Prev_data[INDEX_ALARM_AC] != data_buf[INDEX_ALARM_AC]){

    }
    if(Prev_data[INDEX_ALARM_DC] != data_buf[INDEX_ALARM_DC]){

    }
    if(Prev_data[INDEX_PATH_EN_1_8G_DL] != data_buf[INDEX_PATH_EN_1_8G_DL]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_1_8G_DL,data_buf[INDEX_PATH_EN_1_8G_DL]);
        Prev_data[INDEX_PATH_EN_1_8G_DL] = data_buf[INDEX_PATH_EN_1_8G_DL];
    }
    if(Prev_data[INDEX_PATH_EN_1_8G_UL] != data_buf[INDEX_PATH_EN_1_8G_UL]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_1_8G_UL,data_buf[INDEX_PATH_EN_1_8G_UL]);
        Prev_data[INDEX_PATH_EN_1_8G_UL] = data_buf[INDEX_PATH_EN_1_8G_UL];

    }

    if(Prev_data[INDEX_PATH_EN_2_1G_DL] != data_buf[INDEX_PATH_EN_2_1G_DL]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_2_1G_DL,data_buf[INDEX_PATH_EN_2_1G_DL]);
        Prev_data[INDEX_PATH_EN_2_1G_DL] = data_buf[INDEX_PATH_EN_2_1G_DL];
    }
    if(Prev_data[INDEX_PATH_EN_2_1G_UL] != data_buf[INDEX_PATH_EN_2_1G_UL]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_2_1G_UL,data_buf[INDEX_PATH_EN_2_1G_UL]);
        Prev_data[INDEX_PATH_EN_2_1G_UL] = data_buf[INDEX_PATH_EN_2_1G_UL];

    }
    if(Prev_data[INDEX_PATH_EN_3_5G_L] != data_buf[INDEX_PATH_EN_3_5G_L]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_3_5G_L,data_buf[INDEX_PATH_EN_3_5G_L]);
        Prev_data[INDEX_PATH_EN_3_5G_L] = data_buf[INDEX_PATH_EN_3_5G_L];

    }
    if(Prev_data[INDEX_PATH_EN_3_5G_H] != data_buf[INDEX_PATH_EN_3_5G_H]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_3_5G_H,data_buf[INDEX_PATH_EN_3_5G_H]);
        Prev_data[INDEX_PATH_EN_3_5G_H] = data_buf[INDEX_PATH_EN_3_5G_H];
    

    }
    if(Prev_data[INDEX_PATH_EN_3_5G_DL] != data_buf[INDEX_PATH_EN_3_5G_DL]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_3_5G_DL,data_buf[INDEX_PATH_EN_3_5G_DL]);
        Prev_data[INDEX_PATH_EN_3_5G_DL] = data_buf[INDEX_PATH_EN_3_5G_DL];
        ADC_Modify = 1;

    }
    if(Prev_data[INDEX_PATH_EN_3_5G_UL] != data_buf[INDEX_PATH_EN_3_5G_UL]){
        Power_ON_OFF_Ctrl(INDEX_PATH_EN_3_5G_UL,data_buf[INDEX_PATH_EN_3_5G_UL]);
        Prev_data[INDEX_PATH_EN_3_5G_UL] = data_buf[INDEX_PATH_EN_3_5G_UL];
        ADC_Modify = 1;
    }
    if(Prev_data[INDEX_PLL_ON_OFF_3_5G_H] != data_buf[INDEX_PLL_ON_OFF_3_5G_H]){
        Power_ON_OFF_Ctrl(INDEX_PLL_ON_OFF_3_5G_H,data_buf[INDEX_PLL_ON_OFF_3_5G_H]);
        Prev_data[INDEX_PLL_ON_OFF_3_5G_H] = data_buf[INDEX_PLL_ON_OFF_3_5G_H];
        HAL_Delay(1);
//        printf("POWER : %d \r\n",Prev_data[INDEX_PLL_ON_OFF_3_5G_H]);
        if(data_buf[INDEX_PLL_ON_OFF_3_5G_H]){
//            printf("PLL CTRL START !! \r\n");
#if 1 // PYJ.2019.08.12_BEGIN -- 
//            temp_val = (Prev_data[INDEX_PLL_3_5G_LOW_H] << 16) |
//                       (Prev_data[INDEX_PLL_3_5G_LOW_M] << 8) | 
//                       (Prev_data[INDEX_PLL_3_5G_LOW_L]);
            temp_val = (Prev_data[INDEX_PLL_3_5G_HIGH_H] << 16) | 
                       (Prev_data[INDEX_PLL_3_5G_HIGH_M] << 8)  | 
                       (Prev_data[INDEX_PLL_3_5G_HIGH_L]);


//            temp_reg = ADF4153_Freq_Calc(temp_val  * 10000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
            temp_reg = ADF4153_Freq_Calc(temp_val  * 10000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);

#else
            temp_reg = ADF4153_Freq_Calc(3934500000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
#endif // PYJ.2019.08.12_END -- 
            ADF4153_Module_Ctrl(Pll_3_5_H,temp_reg.N_reg,temp_reg.R_reg,0x13c2,0x3);
            PE43711_ALL_atten_ctrl(ALL_ATT_3_5G);
        }
    }
    if(Prev_data[INDEX_PLL_ON_OFF_3_5G_L] != data_buf[INDEX_PLL_ON_OFF_3_5G_L]){
        Power_ON_OFF_Ctrl(INDEX_PLL_ON_OFF_3_5G_L,data_buf[INDEX_PLL_ON_OFF_3_5G_L]);
        Prev_data[INDEX_PLL_ON_OFF_3_5G_L] = data_buf[INDEX_PLL_ON_OFF_3_5G_L];
        HAL_Delay(1);
//        printf("POWER : %d \r\n",Prev_data[INDEX_PLL_ON_OFF_3_5G_L]);        
        if(data_buf[INDEX_PLL_ON_OFF_3_5G_L]){
//            printf("PLL CTRL START !! \r\n");
#if 1 // PYJ.2019.08.12_BEGIN -- 
//            temp_val = (Prev_data[INDEX_PLL_3_5G_HIGH_H] << 16) | 
//                       (Prev_data[INDEX_PLL_3_5G_HIGH_M] << 8)  | 
//                       (Prev_data[INDEX_PLL_3_5G_HIGH_L]);
            temp_val = (Prev_data[INDEX_PLL_3_5G_LOW_H] << 16) |
                       (Prev_data[INDEX_PLL_3_5G_LOW_M] << 8) | 
                       (Prev_data[INDEX_PLL_3_5G_LOW_L]);
//            temp_reg = ADF4153_Freq_Calc(temp_val  * 10000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
            temp_reg = ADF4153_Freq_Calc(temp_val  * 10000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);
#else
          temp_reg = ADF4153_Freq_Calc(3465500000,ADF4153_40MHzREFIN,ADF4153_2RCOUNTER,ADF4153_CHANNEL_SPACING);            
#endif // PYJ.2019.08.12_END -- 
            ADF4153_Module_Ctrl(Pll_3_5_L,temp_reg.N_reg,temp_reg.R_reg,0x13c2,0x3);
            PE43711_ALL_atten_ctrl(ALL_ATT_3_5G);
        }
    }

    if(Prev_data[INDEX_T_SYNC_DL] != data_buf[INDEX_T_SYNC_DL]){
        Prev_data[INDEX_T_SYNC_DL] = data_buf[INDEX_T_SYNC_DL];
        Power_ON_OFF_Ctrl(INDEX_T_SYNC_DL,data_buf[INDEX_T_SYNC_DL]);
    }
    if(Prev_data[INDEX__T_SYNC_DL] != data_buf[INDEX__T_SYNC_DL]){
        Prev_data[INDEX__T_SYNC_DL] = data_buf[INDEX__T_SYNC_DL];
        Power_ON_OFF_Ctrl(INDEX__T_SYNC_DL,data_buf[INDEX__T_SYNC_DL]);
    }
    if(Prev_data[INDEX_T_SYNC_UL] != data_buf[INDEX_T_SYNC_UL]){
        Prev_data[INDEX_T_SYNC_UL] = data_buf[INDEX_T_SYNC_UL];
        Power_ON_OFF_Ctrl(INDEX_T_SYNC_UL,data_buf[INDEX_T_SYNC_UL]);
    }
    if(Prev_data[INDEX__T_SYNC_UL] != data_buf[INDEX__T_SYNC_UL]){
        Prev_data[INDEX__T_SYNC_UL] = data_buf[INDEX__T_SYNC_UL];
        Power_ON_OFF_Ctrl(INDEX__T_SYNC_UL,data_buf[INDEX__T_SYNC_UL]);
    }


    if((Prev_data[INDEX_DAC_VCtrl_A_H] != data_buf[INDEX_DAC_VCtrl_A_H])
        ||(Prev_data[INDEX_DAC_VCtrl_A_L] != data_buf[INDEX_DAC_VCtrl_A_L])){
        ADC_Modify = 1;
        Prev_data[INDEX_DAC_VCtrl_A_H] = data_buf[INDEX_DAC_VCtrl_A_H];
        Prev_data[INDEX_DAC_VCtrl_A_L] = data_buf[INDEX_DAC_VCtrl_A_L];
    }
    if((Prev_data[INDEX_DAC_VCtrl_B_H] != data_buf[INDEX_DAC_VCtrl_B_H])
        ||(Prev_data[INDEX_DAC_VCtrl_B_L] != data_buf[INDEX_DAC_VCtrl_B_L])){
        ADC_Modify = 1;
        
        Prev_data[INDEX_DAC_VCtrl_B_H] = data_buf[INDEX_DAC_VCtrl_B_H];
        Prev_data[INDEX_DAC_VCtrl_B_L] = data_buf[INDEX_DAC_VCtrl_B_L];        
    }    
    if((Prev_data[INDEX_DAC_VCtrl_C_H] != data_buf[INDEX_DAC_VCtrl_C_H])
        ||(Prev_data[INDEX_DAC_VCtrl_C_L] != data_buf[INDEX_DAC_VCtrl_C_L])){
        ADC_Modify = 1;
//        printf("Prev_data[INDEX_DAC_VCtrl_C_H] : %x \r\n",Prev_data[INDEX_DAC_VCtrl_C_H]);
//        printf("Prev_data[INDEX_DAC_VCtrl_C_L] : %x \r\n",Prev_data[INDEX_DAC_VCtrl_C_L]);

        Prev_data[INDEX_DAC_VCtrl_C_H] = data_buf[INDEX_DAC_VCtrl_C_H];
        Prev_data[INDEX_DAC_VCtrl_C_L] = data_buf[INDEX_DAC_VCtrl_C_L];        
    }
    if((Prev_data[INDEX_DAC_VCtrl_D_H] != data_buf[INDEX_DAC_VCtrl_D_H])
        ||(Prev_data[INDEX_DAC_VCtrl_D_L] != data_buf[INDEX_DAC_VCtrl_D_L])){
        ADC_Modify = 1;
        Prev_data[INDEX_DAC_VCtrl_D_H] = data_buf[INDEX_DAC_VCtrl_D_H];
        Prev_data[INDEX_DAC_VCtrl_D_L] = data_buf[INDEX_DAC_VCtrl_D_L];
    }
    if((Prev_data[INDEX_DAC_VCtrl_E_H] != data_buf[INDEX_DAC_VCtrl_E_H])
        ||(Prev_data[INDEX_DAC_VCtrl_E_L] != data_buf[INDEX_DAC_VCtrl_E_L])){
        ADC_Modify = 1;

        Prev_data[INDEX_DAC_VCtrl_E_H] = data_buf[INDEX_DAC_VCtrl_E_H];
        Prev_data[INDEX_DAC_VCtrl_E_L] = data_buf[INDEX_DAC_VCtrl_E_L];        
    }
    if((Prev_data[INDEX_DAC_VCtrl_F_H] != data_buf[INDEX_DAC_VCtrl_F_H])
        ||(Prev_data[INDEX_DAC_VCtrl_F_L] != data_buf[INDEX_DAC_VCtrl_F_L])){
        ADC_Modify = 1;
        Prev_data[INDEX_DAC_VCtrl_F_H] = data_buf[INDEX_DAC_VCtrl_F_H];
        Prev_data[INDEX_DAC_VCtrl_F_L] = data_buf[INDEX_DAC_VCtrl_F_L];        
    }
    if((Prev_data[INDEX_DAC_VCtrl_G_H] != data_buf[INDEX_DAC_VCtrl_G_H])
        ||(Prev_data[INDEX_DAC_VCtrl_G_L] != data_buf[INDEX_DAC_VCtrl_G_L])){
        ADC_Modify = 1;
        Prev_data[INDEX_DAC_VCtrl_G_H] = data_buf[INDEX_DAC_VCtrl_G_H];
        Prev_data[INDEX_DAC_VCtrl_G_L] = data_buf[INDEX_DAC_VCtrl_G_L];        
    }    
    if((Prev_data[INDEX_DAC_VCtrl_H_H] != data_buf[INDEX_DAC_VCtrl_H_H])
        ||(Prev_data[INDEX_DAC_VCtrl_H_L] != data_buf[INDEX_DAC_VCtrl_H_L])){
        ADC_Modify = 1;
        Prev_data[INDEX_DAC_VCtrl_H_H] = data_buf[INDEX_DAC_VCtrl_H_H];
        Prev_data[INDEX_DAC_VCtrl_H_L] = data_buf[INDEX_DAC_VCtrl_H_L];        
    }
    if(ADC_Modify){
//        AD5318_Ctrl(0xF000);
//        HAL_Delay(1);
//        AD5318_Ctrl(0x800C);
//        AD5318_Ctrl(0x2FFF );
//        AD5318_Ctrl(0xA000);
//        printf("DAC CTRL START \r\n");
//        AD5318_Ctrl(0x800C);
//        AD5318_Ctrl(0xA000);
//        printf("DAC Change\r\n");
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_A_H] << 8 | Prev_data[INDEX_DAC_VCtrl_A_L]));    
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_B_H] << 8 | Prev_data[INDEX_DAC_VCtrl_B_L]));    
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_C_H] << 8 | Prev_data[INDEX_DAC_VCtrl_C_L]));
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_D_H] << 8 | Prev_data[INDEX_DAC_VCtrl_D_L]));
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_E_H] << 8 | Prev_data[INDEX_DAC_VCtrl_E_L]));    
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_F_H] << 8 | Prev_data[INDEX_DAC_VCtrl_F_L]));
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_G_H] << 8 | Prev_data[INDEX_DAC_VCtrl_G_L]));
        AD5318_Ctrl((Prev_data[INDEX_DAC_VCtrl_H_H] << 8 | Prev_data[INDEX_DAC_VCtrl_H_L]));
    }
    
}

uint8_t temp_crc = 0;
bool RF_Ctrl_Main(uint8_t* data_buf){
    bool ret = false;
    Bluecell_Prot_t type = data_buf[Type];
    ret = RF_Data_Check(&data_buf[Header]); /* ERROR CHECK */
    if(ret == false){
        HAL_UART_Transmit(&huart1,&data_buf[INDEX_BLUE_HEADER],data_buf[INDEX_BLUE_LENGTH] + 2 + 1,3000); 
        return ret;
    }
    
    switch(type){
    case TYPE_BLUECELL_RESET:
        for(uint8_t i =0 ; i < data_buf[Length] + 6; i++)
            printf("%02x ",data_buf[i]);
        printf("Reset Start \r\n");
        NVIC_SystemReset();
        break;
    case TYPE_BLUECELL_SET:
#if 0 // PYJ.2019.07.31_BEGIN -- 
    printf("TYPE_BLUECELL_SET : ");
    for(uint8_t i =0 ; i < INDEX_BLUE_EOF + 1; i++)
        printf("%02x ",data_buf[i]);
#endif // PYJ.2019.07.31_END -- 
        RF_Operate(&data_buf[Header]);
        RF_Status_Ack();

//        ADF4153_Freq_Calc(3465500000,40000000,2,5000);
//        ADF4153_Freq_Calc(3993450000,40000000,2,5000);
//        halSynSetFreq(1995000000);
//        halSynSetFreq(1600000000);
//        halSynSetFreq(1455000000);        
        break;
    case TYPE_BLUECELL_GET:
#if 0 // PYJ.2019.08.01_BEGIN -- 
        printf("\r\nTYPE_BLUECELL_GET : \r\n");
#endif // PYJ.2019.08.01_END -- 
        RF_Status_Get();
        break;
    case TYPE_BLUECELL_SAVE:
//        printf("\r\nFLASH Write\r\n");
        Bluecell_Flash_Write(&Prev_data[INDEX_BLUE_HEADER]);
        RF_Status_Ack();

        break;
        default:
#ifdef DEBUG_PRINT // PYJ.2019.07.27_BEGIN --         
            printf("Function : %s   LINE : %d    type : %d \r\n",__func__,__LINE__,type);
#endif
            break;
    }
    return ret;
}