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 7 : 4 8
PROTOCOLS PRODUCED BY VAMBOLA KASE - BRIDGE CALCULATION PROGRAM
B O A R D   N R .   1 1 KQ5           N S B O A R D   N R .   2
P-NS NS R-NS CNT P TR L R-EW EW P-EW D: N KQ9854   5 5 P-NS NS R-NS CNT P TR L R-EW EW P-EW
-84 1 -150 3NT N -3 CK 150 2 +84 --- K5   8 8 +2 1 -420 4H E = CJ 420 2 -2
-54 3 -50 2H N -1 D8 50 4 +54   J7   7 8 -11 3 -450 4H W +1 CJ 450 4 +11
+27 5 180 2Dx S = CK -180 6 -27 J87 A642 5 5 +2 5 -420 4H W = SA 420 6 -2
+13 7 150 2S E -3 H7 -150 8 -13 J62 AT3 Nt 5 5 -26 7 -500 2Sx N -2 CA 500 8 +26
+36 9 200 2S E -4 H7 -200 10 -36 AJ4 82   E W +2 9 -420 4H W = SA 420 10 -2
0 11 110 2H N = C6 -110 12 0 KQ95 T863 7 7 +2 11 -420 4H W = CJ 420 12 -2
0 13 110 2H N = D8 -110 14 0   T93   5 5 +2 13 -420 4H W = CJ 420 14 -2
0 15 110 2H N = D8 -110 16 0 NS.OPT 7   5 5 +2 15 -420 4H W = CJ 420 16 -2
+112 17 470 2Hx N = D8 -470 18 -112 -100 QT9763   8 8 +2 17 -420 4H W = CJ 420 18 -2
0 19 110 2H N = D8 -110 20 0         A42         Nt 7 8 +2 19 -420 4H W = CJ 420 20 -2
0 21 110 2D S +1 S7 -110 22 0 2 AQT963           N S -118 21 -800 4Sx N -3 CA 800 22 +118
-22 23 50 2S E -1 H7 -50 24 +22 D: E 7   6 6 +2 23 -420 4H W = D2 420 24 -2
+26 25 170 2H N +2 D8 -170 26 -26 N-S Q92   3 3 +135 25 50 4H W -1 CJ -50 26 -135
-54 27 -50 2H N -1 D8 50 28 +54   JT3   3 3 +2 27 -420 4H W = CJ 420 28 -2
                    42 K85 6 6                    
KJT98532 Nt 5 4
K6 AJT875   E W
9 AK82 6 6
  J7   9 9
NS.OPT AQ64   10 10
-420 43   6 6
        Q7654         Nt 8 8
B O A R D   N R .   3 3 86           N S B O A R D   N R .   4
P-NS NS R-NS CNT P TR L R-EW EW P-EW D: S 87532   4 4 P-NS NS R-NS CNT P TR L R-EW EW P-EW
-10 1 -150 3D E +2 S8 150 2 +10 E-W 84   2 2 -25 1 -200 4Sx N -1 CQ 200 2 +25
+23 3 -50 3H S -1 C9 50 4 -23   AT52   8 8 +163 3 650 4S S +1 DK -650 4 -163
+3 5 -110 3D W = S8 110 6 -3 JT4 A97 6 6 -104 5 -500 5Sx S -2 CQ 500 6 +104
-39 7 #### X4060       #### 8 +39 964 A Nt 4 4 -167 7 -850 5Hx E = C4 850 8 +167
-119 9 -600 5D W = S8 600 10 +119 K7632 AQT9   E W +9 9 -100 4S S -1 CQ 100 10 -9
+64 11 100 4D W -1 S8 -100 12 -64 96 KJ873 9 8 +9 11 -100 4S S -1 HT 100 12 -9
+64 13 100 4D W -1 S8 -100 14 -64   KQ532   11 11 +9 13 -100 4S S -1 H3 100 14 -9
+6 15 -100 4H S -2 C9 100 16 -6 NS.OPT KQJT   5 5 +9 15 -100 4S S -1 H8 100 16 -9
-119 17 -600 5D W = H7 600 18 +119 -500 J5   6 6 +9 17 -100 4S N -1 S3 100 18 -9
+64 19 100 4D W -1 S8 -100 20 -64         Q4         Nt 8 8 +154 19 620 4S S = DK -620 20 -154
+23 21 -50 3H N -1 C3 50 22 -23 4 QJ7           N S -25 21 -200 5S S -2 CQ 200 22 +25
-5 23 -130 3D W +1 S8 130 24 +5 D: W K2   4 4 -25 23 -200 4Sx S -1 CQ 200 24 +25
+3 25 -110 3D W = S8 110 26 -3 ALL QJ6   9 9 -25 25 -200 4S S -2 CQ 200 26 +25
+3 27 -110 3D W = S8 110 28 -3   K9532   2 2 +9 27 -100 4S S -1 H3 100 28 -9
                    A6 82 8 9                    
T8653 AQJ74 Nt 3 3
K4 853   E W
QJT6 A87 9 9
  KT9543   4 4
NS.OPT 9   11 11
-500 AT972   4 4
        4         Nt 9 9