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 0
PROTOCOLS PRODUCED BY VAMBOLA KASE - BRIDGE CALCULATION PROGRAM
B O A R D   N R .   1 7 17 982           N S B O A R D   N R .   1 8
P-NS NS R-NS CNT P TR L R-EW EW P-EW D: N J986   6 6 P-NS NS R-NS CNT P TR L R-EW EW P-EW
+29 19 150 4H E -3 H4 -150 15 -29 --- KJ87   6 6 +13 19 50 4H E -1 S5 -50 15 -13
-56 2 -110 2H E = SK 110 8 +56   T5   5 5 +37 2 100 4H E -2 D6 -100 8 -37
+29 3 150 3NT W -3 S2 -150 6 -29 QJ53 6 7 7 -50 3 -120 1NT W +1 C3 120 6 +50
-70 1 -140 2H E +1 SA 140 23 +70 K AQT752 Nt 7 7 +37 1 100 4H E -2 D2 -100 23 -37
+9 13 100 3NT W -2 D3 -100 16 -9 QT953 62   E W +37 13 100 4H E -2 D5 -100 16 -37
-70 27 -140 2H E +1 SA 140 26 +70 K87 A432 6 6 +13 27 50 4H E -1 D2 -50 26 -13
+9 28 100 4H E -2 SK -100 10 -9   AKT74   7 7 +13 28 50 4H E -1 D2 -50 10 -13
-9 24 50 3H E -1 SK -50 5 +9 NS.OPT 43   7 7 +37 24 100 4H E -2 C4 -100 5 -37
+49 25 200 3NT W -4 S9 -200 20 -49 +90 A4   5 5 +13 25 50 4H E -1 D2 -50 20 -13
+49 22 200 3NT W -4 S9 -200 9 -49         QJ96         Nt 6 6 +37 22 100 4H E -2 C4 -100 9 -37
-56 18 -110 2H E = SK 110 4 +56 18 Q9           N S -36 18 -90 1NT W = SQ 90 4 +36
+29 17 150 3NT W -3 S8 -150 21 -29 D: E KT63   5 5 +13 17 50 4H E -1 D6 -50 21 -13
+9 12 100 3C E -2 SK -100 7 -9 N-S J93   5 5 -36 12 -90 1NT W = SQ 90 7 +36
+49 11 200 3NT E -4 S9 -200 14 -49   KJ32   3 3 -128 11 -420 4H E = S6 420 14 +128
                    AT5 J832 4 4                    
Q42 A9875 Nt 4 4
KQ87 A   E W
986 AT5 7 8
  K764   7 7
NS.OPT J   9 9
-140 T6542   8 8
        Q74         Nt 8 8
B O A R D   N R .   1 9 19 KJ2           N S B O A R D   N R .   2 0
P-NS NS R-NS CNT P TR L R-EW EW P-EW D: S AKQ62   6 6 P-NS NS R-NS CNT P TR L R-EW EW P-EW
+12 19 450 4H S +1 S3 -450 15 -12 E-W T63   10 10 -21 19 -200 4S S -2 CA 200 15 +21
+12 2 450 4H S +1 ST -450 8 -12   A3   11 11 +83 2 140 2H N +1 H4 -140 8 -83
+12 3 450 4H N +1 S3 -450 6 -12 T9865 3 10 10 0 3 -130 3C W +1 H3 130 6 0
+12 1 460 3NT N +2 C7 -460 23 -12 53 JT4 Nt 11 11 +43 1 0 PASS       0 23 -43
+12 13 460 3NT N +2 CQ -460 16 -12 AQ4 J82   E W -130 13 -660 3NT E +2 H5 660 16 +130
+12 27 450 4H N +1 S3 -450 26 -12 962 QJT854 7 7 +11 27 -100 3S S -1 CA 100 26 -11
+12 28 450 4H N +1 CQ -450 10 -12   AQ74   3 3 0 28 -130 4C W = HQ 130 10 0
+12 24 450 4H N +1 S6 -450 5 -12 NS.OPT 987   2 2 +83 24 140 2H N +1 H4 -140 5 -83
-142 25 -50 5H N -1 DJ 50 20 +142 +460 K975   3 3 +11 25 -100 4H N -1 C4 100 20 -11
+12 22 450 5H N = D2 -450 9 -12         K7         Nt 2 2 +72 22 110 2H N = H4 -110 9 -72
+12 18 450 4H N +1 S3 -450 4 -12 20 AJ2           N S +11 18 -100 3S S -1 CA 100 4 -11
-2 17 430 3NT S +1 S9 -430 21 +2 D: W QJ762   3 3 -101 17 -500 4Sx S -2 H8 500 21 +101
+12 12 450 4H S +1 S9 -450 7 -12 ALL Q843   7 7 +83 12 140 2H N +1 S3 -140 7 -83
+12 11 450 4H N +1 CQ -450 14 -12   Q   8 8 -145 11 -750 3NTx E = H5 750 14 +145
                    54 K73 8 8                    
83 AT4 Nt 4 4
AT5 J97   E W
AJT973 K642 10 10
  QT986   6 6
NS.OPT K95   5 5
-130 K62   5 5
        85         Nt 8 8