A high birefringence fiber Sagnac loop is used as wavelength demodulat or for FBG signals.For the purpose of reducing the measurement error from temperature chan ges,a dual- differential edge filter demodulation method based on reference light is propo sed.The mathematical expression of the dual-differential edge filter output signal is given.The transmission li ght intensity and reflected light intensity output from Sagnac loop are detected differentially,and then the differential detection is operated to these processed signals once again.Tra nsmission characteristics of this dual-differential filter and the properties of this filter when it is used as wavelength demodulator for FBG sensor are analyzed theoretically and evaluated experimentally,and the e xperimental results agree with the theoretical results.They all show that compa red with the conventional Sagnac loop edge filter demodulator for FBG signals,this method makes higher sensitivity an d the measurement results have much better linearity.Furthermore,the measurement error from temp erature changes of this demodulator decreases from 1.38nm/℃ to 1×10－3 nm/℃ and the s tability of this FBG demodulator is improved by three orders of magnitude.The final results show that t his dual-differential edge filter demodulation method can eliminate the temperature effect of high bir efringence fiber Sagnac loop effectively and improve the stability of this demodulator.