GANTRY ROBOT PRODUCTION TESTS ASIC Trays 108 H

GANTRY ROBOT PRODUCTION TESTS ASIC Trays (108 H 2 B) Pickup Tools TB board

MAPPING BOX : TEST WITH ROBOT X 1 X 2 X 3 X 4 Y 1 Y 2 Y 3 Y 4 Y 5 Y 6 Y 7 Y 8 Y 9 B 10 X 3 Y 7 : Name Chip H 2 B example

TEST PROTOCOL SEQUENCE OF TESTS DELAY(Sec) VALUE(Mean) : 9500 H 2 B DEV Conso Power ON (Vcc) 15 220 m. A 2 Conso Init System (Vcc) 9 209. 8 m. A 1. 1 Conso Power SC (Vcc) 4 228. 8 m. A 0. 7 Conso before load SC 6 18. 7 m. A 0. 2 Conso after load SC 6 37. 9 m. A 0. 4 V_BG 4 2. 486 V 0. 02 DC_FSB 0(Chan 20) 2 2. 141 V 0. 02 DC_FSB 1(Chan 20) 2 2. 148 V 0. 02 DC_FSB 2(Chan 20) 2 2. 148 V 0. 02 Memory(DAC 0: 300): Inj Ctest All Chan 3 ALL Chan Trig 0 Memory(DAC 1: 200): Inj Ctest All Chan 3 ALL Chan Trig 1 Memory(DAC 2: 200): Inj Ctest All Chan 3 ALL Chan Trig 2 Linearity_DAC 0 (1, 2, 4, 8, 16, 32, 64, 128, 256, 512) 7 Slope = -2. 16 m. V/dac 0. 072 Linearity_DAC 1 (1, 2, 4, 8, 16, 32, 64, 128, 256, 512) 7 Slope = -2. 15 m. V/dac 0. 070 Linearity_DAC 2 (1, 2, 4, 8, 16, 32, 64, 128, 256, 512) 7 Slope = -2. 17 m. V/dac 0. 068 SCurve_Pedestal. DAC 0(Step=1) 90 98. 9 dac 1. 8 SCurve_Pedestal. DAC 1(Step=5) 30 96. 3 dac 1. 2 SCurve_Pedestal. DAC 2(Step=5) 30 96. 8 dac 1. 2 SCurve. DAC 0(100 f. C): (Step=1) 90 191. 3 dac 6. 5 SCurve. DAC 0_Gcorr(100 f. C): (Step=1) 90 191. 2 dac 2. 6 SCurve. DAC 1(1 p. C): (Step=10) 35 354. 5 dac 15. 7 SCurve. DAC 2(1 p. C): (Step=10) 35 238. 3 dac 10. 6 Load Slow. Control(Num=100): 872 param(1010101…. . ) 8 100% ALL TESTS 8 min 8 sec MOVE CHIP + NEXT CHIP (Robot) 1 min 22 sec TOTAL DURATION 9 min 30 sec Production speed : 160 Chips/24 h

EXAMPLE FOR CHIP B 10 X 3 Y 7 Statistic (9500 H 2 B) Injected charge DAC 0 after correction : Q = 100 f. C Mean : 190. 4 dac Dev : 6. 8 dac Max : 208. 9 dac Min : 164. 52 dac Mean : 2. 6 dac Dev : 0. 53 dac Max : 4. 5 dac Min : 1. 17 dac

STATISTIC (9500 H 2 B) CONSUMPTION Consumption before loading Slow Control Mean : 18. 7 m. V Dev : 0. 2 m. V Max: 20. 2 m. V Min : 18. 1 m. V Consumption after loading Slow Control Mean : 37. 8 m. V Dev : 0. 5 m. V Max: 40. 0 m. V Min : 35. 0 m. V

Linearity Injection f. C/DAC Slope[dac/f. C] = 1. 3 PARAM: SS Gain : 1111 Sw_50 k 0: Off Sw_100 k 0: On Sw_100 f 0: On Sw_50 f 0: Off Measures 64 channels : Dev : 0. 026 [dac/f. C] Max: 1. 391 [dac/f. C] Min : 1. 243 [dac/f. C] Inject [10 f. C-100 f. C] Slope[dac/f. C] = 0. 346 PARAM: FSB 1 Gain : 1000 Sw_50 k 1: On Sw_100 f 1: On Sw_50 f 1: On Measures 64 channels : Dev : 0. 015 [dac/f. C] Max: 0. 377 [dac/f. C] Min : 0. 321 [dac/f. C] Inject [100 f. C-1 p. C] Slope[dac/p. C] = 17. 3 Inject [1 p. C-5 p. C] PARAM: FSB 2 Gain : 0010 Sw_50 k 1: On Sw_100 f 1: On Sw_50 f 1: On Measures 64 channels : Dev : 0. 9 [dac/p. C] Max: 19. 36 [dac/p. C] Min : 15. 4 [dac/p. C]

Linearity DAC (9500 H 2 B) : Slope m. V/dac Mean : -2. 16 m. V Dev : 0. 7 m. V Max: -1. 94 m. V Min : -2. 54 m. V Mean : -2. 15 m. V Dev : 0. 7 m. V Max: -1. 94 m. V Min : -2. 44 m. V Mean : -2. 17 m. V Dev : 0. 7 m. V Max: -1. 95 m. V Min : -2. 457 m. V

Level DC Fast Shaper (9500 H 2 B) : Channel 20 Mean : 2. 141 V Dev : 0. 02 V Max: 2. 3 m. V Min : 2. 053 m. V Mean : 2. 148 V Dev : 0. 02 V Max: 2. 3 m. V Min : 2. 058 m. V Mean : 2. 148 V Dev : 0. 02 V Max: 2. 3 m. V Min : 2. 059 m. V Linearity DAC : INL and LSB Mean : 1. 734 Dev : 0. 8 V Max: 6. 532 Min : 0. 228 Mean : 255. 171 Dev : 2. 176 Max: 263. 105 Min : 246. 389 Mean : 1. 681 Dev : 0. 772 Max: 4. 696 Min : 0. 214 Mean : 255. 464 Dev : 2. 178 Max: 263. 12 Min : 248. 705 Mean : 1. 595 Dev : 0. 778 Max: 5. 313 Min : 0. 1511 Mean : 255. 261 Dev : 2. 162 Max: 261. 86 Min : 247. 779

STATISTIC CORRECTION GAIN

STATUS 07/10/2010 : 2916 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Num : 2916 H 2 B YIELD : 94 %(2741) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 16/10/2010 : 3888 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Test_Prod_h 2 b_B 82_B 108. xls Num : 3888 H 2 B YIELD : 94 %(3647) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 26/10/2010 : 4860 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Test_Prod_h 2 b_B 82_B 108. xls Test_Prod_h 2 b_B 109_B 135. xls Num : 4860 H 2 B YIELD : 94 %(4524) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 05/11/2010 : 5832 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Test_Prod_h 2 b_B 82_B 108. xls Test_Prod_h 2 b_B 109_B 135. xls Test_Prod_h 2 b_B 136_B 162. xls Num : 5832 H 2 B YIELD : 93 %(5418) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 16/11/2010 : 6804 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Test_Prod_h 2 b_B 82_B 108. xls Test_Prod_h 2 b_B 109_B 135. xls Test_Prod_h 2 b_B 136_B 162. xls Test_Prod_h 2 b_B 163_B 189. xls Num : 6804 H 2 B YIELD : 93 %(6317) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 26/11/2010 : 7776 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Test_Prod_h 2 b_B 82_B 108. xls Test_Prod_h 2 b_B 109_B 135. xls Test_Prod_h 2 b_B 136_B 162. xls Test_Prod_h 2 b_B 163_B 189. xls Test_Prod_h 2 b_B 190_B 216. xls Num : 7776 H 2 B YIELD : 93 %(7233) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 07/12/2010 : 8748 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips Test_Prod_h 2 b_B 1_B 27. xls Test_Prod_h 2 b_B 28_B 54. xls Test_Prod_h 2 b_B 55_B 81. xls Test_Prod_h 2 b_B 82_B 108. xls Test_Prod_h 2 b_B 109_B 135. xls Test_Prod_h 2 b_B 136_B 162. xls Test_Prod_h 2 b_B 163_B 189. xls Test_Prod_h 2 b_B 190_B 216. xls Test_Prod_H 2 b_B 217_B 243. xls Num : 8748 H 2 B YIELD : 93 %(8110) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 16/12/2010 : 9720 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips VALID[Nvalid+Nwarning(%)] FAULTY(Nfaulty(%)] Test_Prod_h 2 b_B 1_B 27. xls VALID[791+130=921(94. 75%)] Test_Prod_h 2 b_B 28_B 54. xls VALID[771+132=903(92. 90%)] Test_Prod_h 2 b_B 55_B 81. xls VALID[774+135=909(93. 52%)] Test_Prod_h 2 b_B 82_B 108. xls VALID[799+115=914(94. 03%)] Test_Prod_h 2 b_B 109_B 135. xls VALID[730+147=877(90. 23%)] Test_Prod_h 2 b_B 136_B 162. xls VALID[739+155=894(91. 98%)] Test_Prod_h 2 b_B 163_B 189. xls VALID[795+104=899(92. 49%)] Test_Prod_h 2 b_B 190_B 216. xls VALID[789+127=916(94. 24%)] Test_Prod_H 2 b_B 217_B 243. xls VALID[739+138=877(90. 23%)] Test_Prod_H 2 b_B 244_B 270. xls VALID[761+124=885(91. 05%)] FAULTY[51(5. 25%)] FAULTY[69(7. 10%)] FAULTY[63(6. 48%)] FAULTY[58(5. 97%)] FAULTY[95(9. 77%)] FAULTY[78(7. 02%)] FAULTY[73(7. 51%)] FAULTY[56(5. 76%)] FAULTY[95(9. 77%)] FAULTY[87(8. 95%)] ALL: VALID[7688+1307=8995(92. 54%) FAULTY[725(7. 46%)] YIELD : 93 %(8995) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/

STATUS 06/01/2011 : 10300 Chips(H 2 B) : Tested Test_Prod_h 2 b_Bi_B(i+26) = 27*36=972 Chips VALID[Nvalid+Nwarning(%)] FAULTY(Nfaulty(%)] Test_Prod_h 2 b_B 1_B 27. xls VALID[791+130=921(94. 75%)] FAULTY[51(5. 25%)] Test_Prod_h 2 b_B 28_B 54. xls VALID[771+132=903(92. 90%)] FAULTY[69(7. 10%)] Test_Prod_h 2 b_B 55_B 81. xls VALID[774+135=909(93. 52%)] FAULTY[63(6. 48%)] Test_Prod_h 2 b_B 82_B 108. xls VALID[799+115=914(94. 03%)] FAULTY[58(5. 97%)] Test_Prod_h 2 b_B 109_B 135. xls VALID[730+147=877(90. 23%)] FAULTY[95(9. 77%)] Test_Prod_h 2 b_B 136_B 162. xls VALID[739+155=894(91. 98%)] FAULTY[78(7. 02%)] Test_Prod_h 2 b_B 163_B 189. xls VALID[795+104=899(92. 49%)] FAULTY[73(7. 51%)] Test_Prod_h 2 b_B 190_B 216. xls VALID[789+127=916(94. 24%)] FAULTY[56(5. 76%)] Test_Prod_H 2 b_B 217_B 243. xls VALID[739+138=877(90. 23%)] FAULTY[95(9. 77%)] Test_Prod_H 2 b_B 244_B 270. xls VALID[761+124=885(91. 05%)] FAULTY[87(8. 95%)] Test_Prod_H 2 b_B 271_B 287. xls VALID[467+75=542(91. 05%)] FAULTY[38(8. 95%)] ALL: VALID[8155+1382=9537(92. 59%) FAULTY[763(7. 41%)] YIELD : 92. 59 %(9537) Retail Prod : ftp: //lyoftp. in 2 p 3. fr/ilc/TESTS_PROD_H 2 B/