Abstract: Themethodofmultifrequencysamebeaminterferometryutilizinggeneraltracking,telemetryandcontrol(TT&C)signalwasproposedtoimplementtwospacecraftrelativepositioning.Themathematicalcalculationofthedifferencephasedelaywasanalyzed,amodelmodificationmethodofdifferentialdelaymeasurementerrorwasproposed,andtheobservingconditioninlunarorbitofsamebeaminterferometryutilizinggroundmeasurementstationswasanalyzed.Utilizingthemulti-frequencyinformationofthegeneralTT&Csignalofthetwospacecraft,thesimulationresultsshowthatpicosecondleveldifferentialdelaymeasurementvalueisobtainedviadelayerrormodelmodification.Thisprovidesreliablemeasurementinformationforrelativepositionbetweentwospacecraftindeepspacemissions.

Key words: Samebeaminterferometry, Multi-frequency, Trackingtelemetryandcontrolsignal, Delay, Errormodelmodification, Deepspaceexploration, Spacecraft