Mercurial > hg > fxanalyse
view DDSBes.c @ 73:1dfaf5ef0352
Refactor mean and slope measurement
author | Daniele Nicolodi <daniele.nicolodi@obspm.fr> |
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date | Thu, 08 Nov 2012 13:05:55 +0100 |
parents | d9aae7d7f2c6 |
children |
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#include <utility.h> #include <cvirte.h> /* Needed if linking in external compiler; harmless otherwise */ #include <userint.h> #include "DDSBes.h" #include <ansi_c.h> #include <gpib.h> #define PPORT 0x378 #define PPCTRL PPORT+2 #define UPDate 0x040 #define nWR 0x080 #define MReset 0x0C0 #define tempo 20 // Private functions, hence declared as static ... static int delai(int t) { int j ; for (j=0;j<t; j++) ; return(0) ; } static int Strb_adress(unsigned char ad) { outp(PPCTRL,0x08) ; outp(PPORT,ad) ; outp(PPCTRL,0x09) ; delai(tempo) ; outp(PPCTRL,0x08) ; delai(tempo); return(0) ; } static int Strb_data(unsigned char da) { outp(PPCTRL,0x00) ; outp(PPORT,da) ; outp(PPCTRL,0x01) ; delai(tempo) ; outp(PPCTRL,0x00) ; delai(tempo) ; return(0) ; } static int Strb_nWrite(void) { outp(PPCTRL,0x08) ; outp(PPORT,nWR) ; outp(PPCTRL,0x09) ; delai(tempo) ; outp(PPCTRL,0x08) ; delai(tempo) ; return(0) ; } static int Strb_Update(void) { outp(PPCTRL,0x08) ; outp(PPORT,UPDate) ; outp(PPCTRL,0x09) ; delai(tempo) ; outp(PPCTRL,0x08) ; delai(tempo) ; return(0) ; } static int Strb_MReset(void) { outp(PPCTRL,0x08) ; outp(PPORT,MReset) ; outp(PPCTRL,0x09) ; delai(tempo) ; outp(PPCTRL,0x08) ; delai(tempo) ; return(0) ; } // Public functions void DDSBes_Initialize(DDSBes_Data * Instance) { Strb_MReset(); /* 0 dans 0x1F => update clock externe */ Strb_data(0x00); Strb_adress(0x1F); Strb_nWrite(); return ; } void DDSBes_Close(DDSBes_Data * Instance){ return ; } void DDSBes_SetClockFrequency(DDSBes_Data * Instance, double clock_frequency){ int fPLL ; unsigned char oPLL; fPLL = 1; if(fPLL==1 || (fPLL>3 && fPLL<21)) { Instance->ClockFrequency = clock_frequency*fPLL; if (Instance->ClockFrequency>300.0e6) { Instance->ClockFrequency = 300.0e6 ; } } if (fPLL==1) oPLL=0x60 ; else { if (Instance->ClockFrequency>=2e8) oPLL=(unsigned char)(0x40 + fPLL) ; else oPLL= (unsigned char)fPLL ; } Strb_data(oPLL); Strb_adress(0x1E); Strb_nWrite(); return ; } void DDSBes_SetFrequency(DDSBes_Data * Instance, double frequency){ double pas ; double reste ; double coeff; double fdiv[7]; double p[6]; int i; unsigned char o[6]; fdiv[6]=pow(2.0,48.0); fdiv[5]=pow(2.0,40.0); fdiv[4]=pow(2.0,32.0); fdiv[3]=pow(2.0,24.0); fdiv[2]=65536.0; fdiv[1]=256.0; fdiv[0]=1.0; coeff=fdiv[6]/Instance->ClockFrequency; pas=coeff*frequency; reste=pas; for (i=5;i>0;i--){ p[i]=(reste/fdiv[i]); reste=fmod(pas,fdiv[i]); } p[0]=reste; for (i=5;i>=0;i--){ o[i]=(unsigned char) p[i]; } /* frequence (6 octets) */ Strb_adress(0x04);Strb_data(o[5]);Strb_nWrite(); Strb_adress(0x05);Strb_data(o[4]);Strb_nWrite(); Strb_adress(0x06);Strb_data(o[3]);Strb_nWrite(); Strb_adress(0x07);Strb_data(o[2]);Strb_nWrite(); Strb_adress(0x08);Strb_data(o[1]);Strb_nWrite(); Strb_adress(0x09);Strb_data(o[0]);Strb_nWrite(); Strb_Update(); // store in Instance->Frequency the real frequency generated by the DDS // (and not "frequency", which is only the requested frequency and might differ by as much as ClockFrequency/2^48 Instance->Frequency = Instance->ClockFrequency/fdiv[6] *(fdiv[5]*o[5]+fdiv[4]*o[4]+fdiv[3]*o[3]+fdiv[2]*o[2]+fdiv[1]*o[1]+fdiv[0]*o[0]) ; return ; } void DDSBes_SetAmplitude(DDSBes_Data * Instance, int amplitude) { unsigned char a[2]; if (amplitude > 0 && amplitude < 4096){ a[1]=(unsigned char)(amplitude>>8); a[0]=(unsigned char)floor(fmod(amplitude,256.0)); Instance->Amplitude = amplitude ; } /* nibble fort adresse=0x21 data=a[1] */ Strb_data(a[1]); Strb_adress(0x21); Strb_nWrite(); /* octet faible adresse=0x22 data=a[0] */ Strb_data(a[0]); Strb_adress(0x22); Strb_nWrite(); /* mise a jour */ Strb_Update(); return ; }