public uint LockDetectCount() { uint data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG7_LockDetect); m_allRegs.regLockDetect = BF.CreateBitField <REG7_LockDetect>(data); return(m_allRegs.regLockDetect.lkd_wincnt_max); }
void SetRFDevideBy2(bool devide) { uint data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG8_AnalogEN); m_allRegs.regAnalogEn = BF.CreateBitField <REG8_AnalogEN>(data); m_allRegs.regAnalogEn._8GHzDivideBy2En = (uint)(devide == true ? 1 : 0); m_hmc.WriteRegister(HMC704LP4E_REGS.REG8_AnalogEN, m_allRegs.regAnalogEn.ToUInt32()); }
public void LockDetectCount(int count) { uint data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG7_LockDetect); m_allRegs.regLockDetect = BF.CreateBitField <REG7_LockDetect>(data); //m_allRegs.reg1Rst.EnFromSPI = (uint)mode; m_hmc.WriteRegister(HMC704LP4E_REGS.REG7_LockDetect, m_allRegs.regLockDetect.ToUInt32()); }
public void Power(PowerMode mode) { uint data = m_hmc.ReadRegister(HMC704LP4E_REGS.RST); m_allRegs.reg1Rst = BF.CreateBitField <REG1_RST>(data); //m_allRegs.reg1Rst.EnFromSPI = (uint)mode; m_hmc.WriteRegister(HMC704LP4E_REGS.RST, m_allRegs.reg1Rst.ToUInt32()); }
public bool CheckLockDetect() { uint data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG12_GPO2); m_allRegs.regGP02 = BF.CreateBitField <REG18_GPO2>(data); if (m_allRegs.regGP02.LockDetect == 1) { return(true); } return(false); }
public void SetOperationMode(OperationModes mode) { if (mode == OperationModes.Integer) { uint data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG6_SD_CFG); m_allRegs.reg6SdCfg = BF.CreateBitField <REG6_SDCFG>(data); m_allRegs.reg6SdCfg.frac_rstb = 0; m_allRegs.reg6SdCfg.frac_bypass = 1; m_hmc.WriteRegister(HMC704LP4E_REGS.REG6_SD_CFG, m_allRegs.reg6SdCfg.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.FrequencyRegisterFractionalPart); m_allRegs.regFreqFrac = BF.CreateBitField <REG4_FrequencyFractionaPart>(data); m_allRegs.regFreqFrac.frac = 1; m_hmc.WriteRegister(HMC704LP4E_REGS.FrequencyRegisterFractionalPart, m_allRegs.regFreqFrac.ToUInt32()); // R = 1 - we will use the default which set to 1 already } m_operationMode = mode; }
void ReadAllRegisters() { uint data; data = m_hmc.ReadRegister(HMC704LP4E_REGS.ID); m_allRegs.chipId = BF.CreateBitField <CHIP_ID>(data); Console.WriteLine("m_allRegs.ID {0:X}", m_allRegs.chipId.ToUInt32()); if (m_allRegs.chipId.ToUInt32() != 0xA7975) { throw (new SystemException("Chip ID expected to be 0xA7975")); } data = m_hmc.ReadRegister(HMC704LP4E_REGS.RST); m_allRegs.reg1Rst = BF.CreateBitField <REG1_RST>(data); Console.WriteLine("m_allRegs.reg1Rst {0:X}", m_allRegs.reg1Rst.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REFDIV); m_allRegs.regRefDiv = BF.CreateBitField <REG2_REFDIV>(data); Console.WriteLine("m_allRegs.regRefDiv {0:X}", m_allRegs.regRefDiv.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.FrequencyRegisterIntegerPart); m_allRegs.regFreqInt = BF.CreateBitField <REG3_FrequencyIntegerPart>(data); Console.WriteLine("m_allRegs.regFreqInt {0:X}", m_allRegs.regFreqInt.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.FrequencyRegisterFractionalPart); m_allRegs.regFreqFrac = BF.CreateBitField <REG4_FrequencyFractionaPart>(data); Console.WriteLine("m_allRegs.regFreqFrac {0:X}", m_allRegs.regFreqFrac.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG5_Seed); m_allRegs.regAuxSPI = BF.CreateBitField <REG5_AuxSPI>(data); Console.WriteLine("m_allRegs.regSeed {0:X}", m_allRegs.regAuxSPI.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG6_SD_CFG); m_allRegs.reg6SdCfg = BF.CreateBitField <REG6_SDCFG>(data); Console.WriteLine("m_allRegs.regSdCfg {0:X}", m_allRegs.reg6SdCfg.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG7_LockDetect); m_allRegs.regLockDetect = BF.CreateBitField <REG7_LockDetect>(data); Console.WriteLine("m_allRegs.regLockDetect {0:X}", m_allRegs.regLockDetect.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG8_AnalogEN); m_allRegs.regAnalogEn = BF.CreateBitField <REG8_AnalogEN>(data); Console.WriteLine("m_allRegs.regAnalogEn {0:X}", m_allRegs.regAnalogEn.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG9_ChargePump); m_allRegs.regChargePump = BF.CreateBitField <REG9_ChargePump>(data); Console.WriteLine("m_allRegs.regChargePump {0:X}", m_allRegs.regChargePump.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REGA_AuxSPITrigger); m_allRegs.regAuxSPITrigger = BF.CreateBitField <REG10_AuxSPITrigger>(data); Console.WriteLine("m_allRegs.regModulationStep {0:X}", m_allRegs.regAuxSPITrigger.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REGB_PD); m_allRegs.regPd = BF.CreateBitField <REG11_PD>(data); Console.WriteLine("m_allRegs.regPd {0:X}", m_allRegs.regPd.ToUInt64()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REGF_GPO); m_allRegs.regGPO = BF.CreateBitField <REG15_GPO>(data); Console.WriteLine("m_allRegs.regGPO {0:X}", m_allRegs.regGPO.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG12_GPO2); m_allRegs.regGP02 = BF.CreateBitField <REG18_GPO2>(data); Console.WriteLine("m_allRegs.regGP02 {0:X}", m_allRegs.regGP02.ToUInt32()); data = m_hmc.ReadRegister(HMC704LP4E_REGS.REG13_BISTStatus); m_allRegs.regBitsStatus = BF.CreateBitField <REG19_BISTStatus>(data); Console.WriteLine("m_allRegs.regBitsStatus {0:X}", m_allRegs.regBitsStatus.ToUInt32()); }