2 KP Aql: Photometric and absolute elements determined not very reliable. 3 V889 Aql: Photometric and absolute elements determined very reliable. 3 The system probably has the third boad (L3=0.185, M3=1.8M_{sun}_), P1>55yr. 4 HP Aur: The system is parted with hot spot and gas disk changing in time 4 according to (Lui et al., 1989Ap&SS.154....1L). May be HP Aur is a system 4 of KW type. 5 AY Cam: Light curve have considerable peculiarities. The first maximum is 5 higher then second. Both components have outstanding radius exess for their 5 masses. 6 GL Car: Photometric elements determined very reliable. The system is 6 situated about accumulation NGC 3572. 7 KU Car: Photometric and absolute elements are very unreliable. 8 XX Cas: Photometric and absolute elements are not very reliable. Both 8 components have outstanding radius exesses for their masses. 9 IT Cas: Photometric and absolute elements reliable enough. 10 MN Cas: Both components have outstanding radius exesses for their masses. 11 OX Cas: Photometric elements determined very reliable. It possible that the 11 system is triple, L=13% in 'y', Sp3=B7V. Probably OX Cas is the member of 11 accumulation NGC 381. Photometric elements reliable enough. 13 KT Cen: Component's spectra have an approximate estimator. Absolute elements 13 determined not very reliable. 16 V541 Cyg: Photometric elements are reliable enough. 17 V809 Cyg: Photometric and absolute elements are very unreliable. Component's 17 spectra have an approximate estimator. 18 RX Dra: Photometric and absolute elements determined not very reliable. 18 Component's spectra have an approximate estimator. 19 CW Eri: Photometric elements reliable enough. Main component has outstanding 19 radius exess for its mass. 20 TX Gem: Photometric and absolute elements determined very unreliable. 21 SS Lac: Photometric elements are not very reliable. Zakirov & Azimov 21 (1990IBVS.3487....1Z) inform that by photoelectric observations in 21 1984-1989 years find disappearance of light minimum that was in 1890-1950 21 years. The system is situated about dissipated accumulation NGC 7209. 23 AY Mus: According to S. Soderhjelm (1975A&AS...22..263S) eclipses in this 23 system are stop. Now the angle is i<73{deg}. It possible that orbit plane 23 perturbation by the third body is take place. 24 TV Nor: By the photographic observations of S. Gaposchkin 24 (1943BHarO.917...11G) the system elements are unreliable. 25 GM Nor: Both componants, in spite of notably differing dimensions, have 25 very similar surface brightnesses. 26 GN Nor: The system has a considerable orbit eccentricity {epsilon}=0.21; 26 omega=138{deg}. 27 FT Ori: The system has a considerable orbit eccentricity {epsilon}=0.4. 29 1 Per: The system has a considerable orbit eccentricity {epsilon}=0.31; 29 omega=116{deg}. The system period is very large. 30 KX Pup: According to Soderhjelm S. (1974A&A....34...59S) radii ratio almost 30 indefinabily from light curve, therefore Ls taked and then elements 30 calculated. 31 NO Pup: About one third from common system light gives close visual 31 component HR 3328. The orbit have a considerable orbit eccentricity 31 ({epsilon}=0.123, omega=0{deg}). The satellite situated on distance 8.1" is 31 visual binary system with distance between components 0.1" itself. 32 YY Sgr: The orbit have a considerable orbit eccentricity {epsilon}=0.163, 32 omega=158.5{deg}. Apse line motion occur with period P>300years. 33 V525 Sgr: The orbit of system is elliptical {epsilon}=0.16. Apse line 33 rotation is P>=210years. 34 V526 Sgr: The system orbit has a considerable eccentricity ({epsilon}=0.22, 34 omega=198.5{deg}). Apse line motion occur with period P=150years. The 34 system is noted as visual binary PRO 221. 35 V2283 Sgr: The system has large eccentricity {epsilon}=0.49, omega=1.5{deg}. 35 The period of apse line rotation is 560yr. 36 V4090 Sgr: The system has a considerable eccentricity {epsilon}=0.07, 36 omega=280{deg}. 43 EO Vel: The system has a considerable orbit eccentricity {epsilon}=0.21, 43 omega=313{deg}. radii ratio almost indefinabily from light curve, therefore 43 Ls taked a priori and then other elements calculated. 44 DR Vul: The system orbit has an eccentricity {epsilon}=0.1, omega=73{deg}. 44 Apsidal rotating period is P=36years.