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#define SIO_C 2 | |
#define SIO_D 4 | |
#define SIO_CLKDELAY 100 | |
void setup (void) | |
{ | |
Serial.begin(9600); | |
if(InitOV7670()) | |
Serial.println("Init OV7670 : OK"); | |
else | |
Serial.println("Init OV7670 : NG...."); | |
} | |
void loop( void) | |
{ | |
Serial.println("Writing test :"); | |
byte data = 0x84; | |
Serial.println(data); | |
if(WriteOV7670(0x12, data)) | |
Serial.println("Writing : OK"); | |
else | |
Serial.println("Writing : NG..."); | |
/*--------------------------*/ | |
Serial.println("\n Reading test :"); | |
char rdata = 0x20; | |
char ip = 0x43; | |
if(ReadOV7670(0x0A, &rdata, ip)) | |
{ | |
Serial.println("Reading : OK "); | |
} | |
else | |
Serial.println("Reading : NG..."); | |
Serial.println(rdata, HEX); | |
if(rdata == 0x76) | |
Serial.println("youpi"); | |
/*-----------------------------*/ | |
int temp = 3600; | |
delay(temp*1000); | |
} | |
void InitSCCB(void) | |
{ | |
pinMode(SIO_C, OUTPUT); | |
pinMode(SIO_D, OUTPUT); | |
digitalWrite(SIO_C, HIGH); | |
digitalWrite(SIO_D, HIGH); | |
Serial.println("InitSCCB - Port Direction and set high."); | |
} | |
void StartSCCB(void) | |
{ | |
Serial.println("Starting SCCB..."); | |
/*put HIGH in order to avoid propagating unknown bus state.*/ | |
digitalWrite(SIO_D, HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_D, LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, LOW); | |
Serial.println("Starting SCCB : done."); | |
} | |
void StopSCCB(void) | |
{ | |
Serial.println("Stoping SCCB..."); | |
digitalWrite(SIO_D,LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C,HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_D,HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
Serial.println("Stoping SCCB : done."); | |
} | |
char WriteSCCB( byte m_data) | |
{ | |
unsigned char j, tem; | |
for(j=0;j<8;j++) | |
{ | |
/*write the MSB not written yet :*/ | |
if((m_data<<j)&0x80) | |
{ | |
digitalWrite(SIO_D, HIGH); | |
} | |
else | |
{ | |
digitalWrite(SIO_D, LOW); | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
} | |
/*eight bits have been send, let's deal with the ninth Don't-care one*/ | |
/*we put the SIO_D pin at low in order to avoid propagating any unknown state.*/ | |
/*why input ? because it enables a high impedance, I suppose...?*/ | |
pinMode(SIO_D, INPUT); | |
digitalWrite(SIO_D, LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
/*there is something to read to check the transmission :*/ | |
if(digitalRead(SIO_D)==HIGH) | |
{ | |
Serial.println("SCCB Write NG"); | |
tem = 0; | |
} | |
else | |
{ | |
tem = 1; | |
Serial.println("SCCB Write : OK."); | |
} | |
digitalWrite(SIO_C, LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
/*let's clean that up :*/ | |
pinMode(SIO_D, OUTPUT); | |
return tem; | |
} | |
char ReadSCCB( char* m_data) | |
{ | |
unsigned char j, tem = 1; | |
/*we have to return tem but there is no way to assert that something/nothing happend apparently ?...*/ | |
/*Let's make things readable :*/ | |
//pinMode(SIO_D, INPUT); | |
digitalWrite(SIO_D, LOW); | |
/*Hi-Z*//*TEST*/ | |
for(j=0;j<8;j++) | |
{ | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, HIGH); | |
/*let's read in the middle of the SIO_C cycle :*/ | |
/*read the MSB not read yet :*/ | |
if(digitalRead(SIO_D) != LOW) | |
{ | |
*m_data = 0x01 | (*m_data << 1); | |
} | |
else | |
{ | |
*m_data = 0xFE & (*m_data << 1) ; | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
} | |
/*eight bits have been read, let's deal with the ninth Don't-care one*/ | |
/*the master is responsible for driver SIO_D at logical 1 during the NA bit.*/ | |
pinMode(SIO_D, OUTPUT); | |
digitalWrite(SIO_D, HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
digitalWrite(SIO_C, HIGH); | |
delayMicroseconds(SIO_CLKDELAY); | |
/*there is something/nothing to read to check the transmission ???*/ | |
digitalWrite(SIO_C, LOW); | |
delayMicroseconds(SIO_CLKDELAY); | |
/*let's clean that up : reset as usual as if we had written...*/ | |
pinMode(SIO_D, OUTPUT); | |
digitalWrite(SIO_D, LOW); | |
return tem; | |
} | |
int WriteOV7670(char regID, char regData) | |
{ | |
StartSCCB(); | |
/*let's indicate that we want to write :*/ | |
if(WriteSCCB(0x42) == 0) | |
{ | |
Serial.println("Problem : 3phase Write Error 0x42 phase 1."); | |
StopSCCB(); | |
return(0); | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
/*phase 2 : sub address*/ | |
if(WriteSCCB(regID) == 0) | |
{ | |
Serial.println("Problem : 3phase Write Error phase 2."); | |
StopSCCB(); | |
return(0); | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
/*phase 3 : data writing*/ | |
if(WriteSCCB(regData) == 0) | |
{ | |
Serial.println("Problem : 3phase Write Error phase 3."); | |
StopSCCB(); | |
return(0); | |
} | |
/*exiting*/ | |
StopSCCB(); | |
return(1); | |
} | |
int ReadOV7670(char regID, char* regData, char ip) | |
{ | |
StartSCCB(); | |
/*2-phase write transmission cycle */ | |
/*---------------------------------*/ | |
/*let's indicate that we want to write :*/ | |
if(WriteSCCB(0x42) == 0) | |
{ | |
Serial.println("Problem : 2phase Write Error 0x42 phase 1-1."); | |
StopSCCB(); | |
return(0); | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
/*phase 2 : sub-address*/ | |
if(WriteSCCB(regID) == 0) | |
{ | |
Serial.println("Problem : 2phase Write Error phase 1-2."); | |
StopSCCB(); | |
return(0); | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
/*---------------------------------*/ | |
/*2-phase read transmission cycle*/ | |
/*phase 1 : ID address*/ | |
if(WriteSCCB(ip) == 0)/*test 0x21 instead of 0x43*/ | |
{ | |
Serial.println("Problem : 2phase Read Error phase 2-1."); | |
StopSCCB(); | |
return(0); | |
} | |
delayMicroseconds(SIO_CLKDELAY); | |
/*phase 2 : data reading*/ | |
if(ReadSCCB(regData) == 0) | |
{ | |
Serial.println("Problem : 2phase Read Error phase 2-2."); | |
StopSCCB(); | |
return(0); | |
} | |
/*exiting*/ | |
StopSCCB(); | |
return(1); | |
} | |
int InitOV7670(void) | |
{ | |
char temp; | |
int i = 0; | |
InitSCCB(); | |
temp = 0x80; | |
/*let's reset the SCCB ! */ | |
if( WriteOV7670( 0x12, temp) == 0) | |
{ | |
Serial.println("Problem : Resetting SCCB NG."); | |
return(0); | |
} | |
/*-------------*/ | |
/*settings : */ | |
/*-------------*/ | |
return(0x01); | |
} |
I ov7670 used without a library?
Can you please share Uno-Ov7670 circuit diagram?
I tried, based on another post and it throws me following output
InitSCCB - Port Direction and set high.
Starting SCCB...
Starting SCCB : done.
SCCB Write : OK.
SCCB Write : OK.
SCCB Write : OK.
Stoping SCCB...
Stoping SCCB : done.
Init OV7670 : OK
Writing test :
132
Starting SCCB...
Starting SCCB : done.
SCCB Write : OK.
SCCB Write : OK.
SCCB Write : OK.
Stoping SCCB...
Stoping SCCB : done.
Writing : OK
Reading test :
Starting SCCB...
Starting SCCB : done.
SCCB Write : OK.
SCCB Write : OK.
SCCB Write NG
Problem : 2phase Read Error phase 2-1.
Stoping SCCB...
Stoping SCCB : done.
Reading : NG...
20
What does it mean by 2phase Read Error phase 2-1?
Also, in this code you are testing camera setup. Have you tried reading image from camera and streaming bytes to user over serial?
I need scematic master !
In order to solve the "Problem: 2phase Read Error phase 2-1" you need to drive a clock signal to the XCLK of the camera module. I did it by fusing the CKOUT of my AVR.
hello
don't forget to uncomment line 181 to get good results
good luck
Hi I'm having a lot of difficulty getting the ov7670 working I've got to Problem : 2phase Read Error phase 2-1. How do I set the xclck fuse and how do I output the image please help
hello all, can you help me on OV7670 camera interface with Arduino?
can anyone provide connection diagram??
hello,
I would use your code because i find it good, but i have a electronical problem..
Please can you give me a diagram of the electrical system required
thank.
Ne0ratek