E S T O N I A N   T O U R N A M E N T   B R I D G E   L E A G U E
4 6 T H   T A L L I N N   B R I D G E   F E S T I V A L   2 0 1 3
I N V I T A T I O N A L   P A I R S   -   B U T L E R   T O U R N A M E N T
G E N E R A T E D   :   2 3 . 0 5 . 2 0 1 3   2 2 : 1 8 : 1 6
PROTOCOLS PRODUCED BY VAMBOLA KASE - BRIDGE CALCULATION PROGRAM
B O A R D   N R .   2 9 29 T643           N S B O A R D   N R .   3 0
P-NS NS R-NS CNT P TR L R-EW EW P-EW D: N J9   2 2 P-NS NS R-NS CNT P TR L R-EW EW P-EW
+71 19 100 3NT W -1 DT -100 22 -71 ALL AT987   7 7 -25 19 50 2H W -1 D8 -50 22 +25
-101 3 -630 3NT E +1 D6 630 23 +101   92   3 3 +26 3 200 3S N +2 CT -200 23 -26
-101 2 -630 3NT E +1 SQ 630 15 +101 AK97 852 4 4 +96 2 450 4S N +1 CT -450 15 -96
-101 6 -620 4H E = D9 620 24 +101 A63 KQT5 Nt 3 3 -82 6 -130 4D W = H4 130 24 +82
+71 8 100 3NT W -1 DT -100 13 -71 42 Q3   E W -71 8 -110 3D W = S5 110 13 +71
+71 12 100 3NT W -1 D9 -100 16 -71 AK87 JT54 10 10 +26 12 200 3S N +2 CT -200 16 -26
+13 27 -120 1NT W +1 DT 120 25 -13   QJ   6 6 +143 27 690 4Sx N +1 CT -690 25 -143
+71 1 100 3NT E -1 D9 -100 5 -71 NS.OPT 8742   10 10 +56 1 300 5Dx E -2 C6 -300 5 -56
-101 20 -620 4H E = D6 620 10 +101 -620 KJ65   9 9 -6 20 100 3H W -2 D7 -100 10 +6
-142 4 -800 4Dx N -3 HK 800 9 +142         Q63         Nt 8 8 -55 4 -50 4S N -1 CT 50 9 +55
+71 7 100 3NT E -1 D8 -100 28 -71 30 A9865           N S -6 7 100 5Dx W -1 SA -100 28 +6
+7 26 -150 3C W +2 C2 150 18 -7 D: E KT84   8 8 -6 26 100 5Dx W -1 SA -100 18 +6
+100 17 200 3NT E -2 D5 -200 11 -100 --- 7   3 3 -25 17 50 2H W -1 D7 -50 11 +25
+71 21 100 3NT E -1 SQ -100 14 -71   KJ6   6 6 -71 21 -110 2H E = DK 110 14 +71
                    J4 K7 10 10                    
J Q97632 Nt 6 6
QJT632 A954   E W
AQ83 T 4 4
  QT32   10 10
NS.OPT A5   7 7
+100 K8   3 3
        97542         Nt 6 6
B O A R D   N R .   3 1 31 QJ8           N S B O A R D   N R .   3 2
P-NS NS R-NS CNT P TR L R-EW EW P-EW D: S 73   8 8 P-NS NS R-NS CNT P TR L R-EW EW P-EW
+94 19 -100 2H S -1 S4 100 22 -94 N-S 953   2 2 -88 19 -300 4Sx N -2 CA 300 22 +88
-19 3 -430 3NT E +1 H9 430 23 +19   KT854   7 7 +37 3 110 3D S = CT -110 23 -37
-19 2 -420 4S E = D7 420 15 +19 754 A9632 3 3 -29 2 -100 4S N -2 CA 100 15 +29
-5 6 -400 3NT E = H9 400 24 +5 A KJ62 Nt 4 4 -88 6 -300 4Sx N -2 CK 300 24 +88
-19 8 -420 4S E = CA 420 13 +19 KJT642 AQ8   E W -88 8 -300 5Dx N -2 CA 300 13 +88
-19 12 -420 4S E = H9 420 16 +19 Q97 J 4 4 -8 12 -50 5D S -1 CJ 50 16 +8
-5 27 -400 3NT E = HT 400 25 +5   KT   11 11 -8 27 -50 4D S -1 CJ 50 25 +8
-19 1 -420 4S E = D7 420 5 +19 NS.OPT QT9854   6 6 -29 1 -100 4S N -2 HK 100 5 +29
-19 20 -420 4S E = D7 420 10 +19 -420 7   10 10 -29 20 -100 4S N -2 CK 100 10 +29
-5 4 -400 3NT W = H7 400 9 +5         A632         Nt 8 8 +37 4 110 3D N = CA -110 9 -37
-5 7 -400 3NT E = HT 400 28 +5 32 AKQ76           N S +37 7 110 3D N = CK -110 28 -37
+64 26 -200 2Hx S -1 S4 200 18 -64 D: W 9   5 5 -29 26 -100 4S N -2 CA 100 18 +29
-5 17 -400 3NT E = C2 400 11 +5 E-W AKQ95   9 9 +293 17 3400 5Dxx E -6 S9 #### 11 -293
-19 21 -430 3NT E +1 C2 430 14 +19   Q7   4 4 -8 21 -50 5D S -1 CJ 50 14 +8
                    J8542 T 8 8                    
T8732 AK4 Nt 9 9
6 T82   E W
J8 AK9652 8 8
  93   3 3
NS.OPT QJ65   8 8
+400 J743   5 5
        T43         Nt 4 4