The Log-File has been written at: Date= 27 .06.2005 , Time 16:17:42 Hybrid Bar Code: 30200020006013_Record1 Test Results: ****** Start ARC selftest ** Start Access check ARC board accessible ** Start Memory check Memory test passed ** Check Access of I2C Drivers Hybrid1 PCF8584 controller accessible Hybrid2 PCF8584 controller accessible LowVoltage PCF8584 controller accessible ** Search for Low Voltage Found LV of FE_M Adapter TestResult=passed ****** Start I2C test ** Start I2C scan and search for I2C devices Scan for I2C devices 10 times I2C address scan found 22 devices: 0x00 0x02 0x04 0x06 0x08 0x0a 0x0c 0x0e 0x40 0x42 0x44 0x46 0x48 0x4a 0x86 0x88 0x8a 0x8c 0x8e 0x90 0x92 0x100 ** Start APV communication test R/W cycles on APV with address 0x40 were successful R/W cycles on APV with address 0x42 were successful R/W cycles on APV with address 0x44 were successful R/W cycles on APV with address 0x46 were successful R/W cycles on APV with address 0x48 were successful R/W cycles on APV with address 0x4a were successful ** Set APV Register according to XML file Register of APV 0x40 are set correctly Register of APV 0x42 are set correctly Register of APV 0x44 are set correctly Register of APV 0x46 are set correctly Register of APV 0x48 are set correctly Register of APV 0x4a are set correctly ** Check APV broadcast APV broadcast test passed ** Set APV Register according to XML file Register of APV 0x40 are set correctly Register of APV 0x42 are set correctly Register of APV 0x44 are set correctly Register of APV 0x46 are set correctly Register of APV 0x48 are set correctly Register of APV 0x4a are set correctly ** Start MUX communication test MUX communication is ok ** Start PLL communication test PLL communication is ok ** Start DCU communication test DCU communication is ok TestResult=passed ****** Start LowVoltageControl test Measure Voltages and Currents with DAQ off Measured currents and voltages: V125: 1.24V; V250: 2.49V I125: 0.332A; I250: 0.660A Measure Voltages and Currents with DAQ on Module houses 6 APV according to testsettings xml Allowed voltages and currents extracted from xml file: V125min: 1.225V; V125max: 1.275V; V250min: 2.450V; V250max: 2.550V I125min: 0.014A; I125max: 0.350A; I250min: 0.460A; I250max: 0.900A Measured currents and voltages with DAQ on: V125: 1.24V; V250: 2.49V I125: 0.332A; I250: 0.736A V125 is ok. V250 is ok. I125 is ok. I250 is ok. TestResult=passed ****** Start of PLL Test ** Apply soft reset and set standard(CTR1=0, CTR2=0, CTR5=0) Operation was successful ** Read PLL settings: PLL register 1, data 0x01 PLL register 2, data 0x20 PLL register 3, data 0xff PLL register 4, data 0x00 PLL register 5, data 0x00 ** Evaluate PLL settings: PLL is running in autocalibration mode Trigger outputs TA1 and TA2 are enabled Phase detector - trigger signal active chosen Status of high gain signal - low loop gain Going bit is set - phase is locked PLL is operating in correct modus ** Get PLL DAC settings for VCO: PLL DAC low register 0xff PLL DAC high register 0x00 TestResult=passed ****** Start APV data test ** Assign APVs Number of assigned APV matches number of found APV from i2c scan. Assigned APV with Address 0x40 to readout channel 1 Assigned APV with Address 0x42 to readout channel 2 Assigned APV with Address 0x44 to readout channel 3 Assigned APV with Address 0x46 to readout channel 4 Assigned APV with Address 0x48 to readout channel 5 Assigned APV with Address 0x4a to readout channel 6 APV with address 0x40 assigned to correct channel APV with address 0x42 assigned to correct channel APV with address 0x44 assigned to correct channel APV with address 0x46 assigned to correct channel APV with address 0x48 assigned to correct channel APV with address 0x4a assigned to correct channel ** Set APV Register according to XML file Register of APV 0x40 are set correctly Register of APV 0x42 are set correctly Register of APV 0x44 are set correctly Register of APV 0x46 are set correctly Register of APV 0x48 are set correctly Register of APV 0x4a are set correctly ** Search for APV frames: Frame of APV 0x40 found Frame of APV 0x42 found Frame of APV 0x44 found Frame of APV 0x46 found Frame of APV 0x48 found Frame of APV 0x4a found ** Check synchronization APVs run synchronously ** Check number of Latency & Fifo Errors APV 0x40 had no latency errors APV 0x40 had no fifo errors APV 0x42 had no latency errors APV 0x42 had no fifo errors APV 0x44 had no latency errors APV 0x44 had no fifo errors APV 0x46 had no latency errors APV 0x46 had no fifo errors APV 0x48 had no latency errors APV 0x48 had no fifo errors APV 0x4a had no latency errors APV 0x4a had no fifo errors Tick mark height vs phase shift in ADC: 239.98, 243.17, 243.33, 243.48, 243.37, 243.37, 242.67, 242.00, 241.18, 240.50, 240.50, 240.45, 240.13, 239.43, 238.43, 236.97, 235.00, 231.00, 224.08, 214.47, 200.63, 180.25, 196.62, 220.98 ** Check behaviour at high trigger rate Sent 100k trigger in 0.52s TestResult=passed ****** Start of MUX Resistor Test Start Test with 2 MUX Resistors switched on Data exceeded FADC Range 25 times - continue test with 3 MUX Resistors ** Analyse Data Accepted frame height difference: 4.4 Check Height of Digital Header Average Frame Height of APV 0x40 is 211.0 Average Frame Height of APV 0x42 is 209.9 Average Frame Height of APV 0x44 is 212.0 Average Frame Height of APV 0x46 is 211.2 Average Frame Height of APV 0x48 is 215.0 Average Frame Height of APV 0x4a is 207.4 Check Homogenity of Resistors MUX resistors seem to be homogenious; Maximum Difference in Height of Digital Header is 0 for APV 0x40 MUX resistors seem to be homogenious; Maximum Difference in Height of Digital Header is 2 for APV 0x42 MUX resistors seem to be homogenious; Maximum Difference in Height of Digital Header is 1 for APV 0x44 MUX resistors seem to be homogenious; Maximum Difference in Height of Digital Header is 2 for APV 0x46 MUX resistors seem to be homogenious; Maximum Difference in Height of Digital Header is 2 for APV 0x48 MUX resistors seem to be homogenious; Maximum Difference in Height of Digital Header is 2 for APV 0x4a ** Change number of MUX resistors Digital header height vs. MUX setting: MUX register 0x00 height 255.00 MUX register 0x01 height 255.00 MUX register 0x03 height 239.59 MUX register 0x07 height 211.20 MUX register 0x0f height 189.02 MUX register 0x1f height 171.01 MUX register 0x3f height 156.42 MUX register 0x7f height 143.60 MUX register 0xff height 133.01 TestResult=passed ****** Start of pedestal & noise test Mode peakinvon is chosen Number of events: 500 Switch first and second MUX Resistor on Analyse Data Lower noise Level is 0.40 ADC Counts Upper noise Level is 1.50 ADC Counts Found 553 bad channel List of bad channel Channel are ordered normal 1 2 3 5 6 7 9 10 11 12 13 14 15 16 19 20 21 22 23 24 25 27 29 31 33 34 36 38 39 40 41 42 43 46 47 48 49 50 51 53 54 55 56 57 58 60 62 63 65 66 67 68 69 70 71 74 76 77 78 80 81 82 83 84 85 86 89 91 92 93 94 96 97 98 99 100 101 102 104 105 106 107 108 109 111 112 114 115 116 117 119 120 121 122 123 125 126 127 128 129 130 133 135 136 137 138 139 140 141 142 143 144 146 147 148 149 150 152 153 154 155 156 157 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 176 177 178 179 180 181 182 183 184 186 187 190 192 193 194 195 197 198 199 201 202 204 205 206 207 208 209 211 212 214 215 216 217 218 219 220 221 222 223 225 226 231 232 233 234 236 237 238 241 242 244 245 247 249 250 251 252 253 254 255 256 257 258 259 261 264 265 267 268 269 270 271 272 273 274 276 277 278 279 280 281 282 283 285 287 289 290 291 294 295 296 297 298 299 301 302 303 304 306 307 308 309 310 311 312 313 314 316 318 319 320 321 322 323 324 325 326 327 328 330 332 335 336 337 338 339 343 345 346 347 348 350 352 355 356 357 358 359 361 362 363 364 365 366 367 368 369 371 374 375 376 377 379 380 383 384 385 386 387 388 389 391 393 395 396 397 398 400 401 403 405 408 409 411 412 413 417 418 419 421 422 423 424 426 428 429 430 431 432 438 439 441 443 447 448 449 450 456 458 461 462 464 467 468 471 472 473 474 475 476 479 481 482 483 485 486 487 488 489 490 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 517 519 520 521 522 523 526 533 534 535 536 537 538 539 540 541 542 543 545 547 549 550 551 553 556 558 560 561 562 563 565 568 572 573 574 575 576 577 580 581 582 583 584 585 588 589 590 591 594 597 598 599 600 601 603 604 605 607 609 610 611 612 613 614 615 616 617 618 619 620 621 622 624 625 627 628 630 631 632 633 634 635 636 637 638 639 640 641 642 644 645 649 651 652 653 655 656 657 658 660 661 663 664 667 669 670 671 673 674 677 678 680 681 682 684 685 686 687 688 689 690 691 694 695 696 697 698 699 700 701 702 703 706 708 710 711 712 713 714 715 716 717 720 723 724 727 728 730 731 732 738 739 740 741 742 744 745 746 749 750 751 752 753 755 756 757 760 761 763 764 765 766 767 768 TestResult=failed ****** Start of calibration pulse test Mode peakinvon is chosen Number of events: 50 Switch first and second MUX Resistor on No bad channel were found in Calibration Test Result = Grade A TestResult=passed ****** Start of DCU response test ** Get DCU ID DCU ID: hex: 0x3ff957 dec: 4192599 ** Init DCU(CREG=0x00;TREG=0x10;AREG=0x00): ** Take Data: Number of events: 10 Average channel Data: Average Data of DCU channel 0 is 216.6 Average Data of DCU channel 1 is 2593.0 Average Data of DCU channel 2 is 2585.0 Average Data of DCU channel 3 is 5.2 Average Data of DCU channel 4 is 162.0 Average Data of DCU channel 5 is 2673.6 Average Data of DCU channel 6 is 2469.4 Average Data of DCU channel 7 is 2630.4 ** Evaluate data of each channel: DCU Channel0 Data is within specs [200.0 ; 500.0] - Temperature of Si is OK DCU Channel1 Data is within specs [2540.0 ; 2800.0] - V250 is OK DCU Channel2 Data is within specs [2540.0 ; 2800.0] - V125 is OK DCU Channel3 Data is within specs [0.0 ; 100.0] - Detektor Leakage Current is OK DCU Channel4 Data is within specs [50.0 ; 400.0] - Hybrid Temperature is OK DCU Channel5 Data is within specs [0.0 ; 4095.0] DCU Channel6 Data is within specs [0.0 ; 4095.0] DCU Channel7 Data is within specs [2400.0 ; 3000.0] - DCU Temperature is OK ** Check DCU response wrt LV changes: Calculate average over 10 measurements ARC FE : I125=336.0 mA, I250=752.0 mA, V125=1.26 V, V250=2.51 V DCU DATA: V125: 2621.6 Counts, V250: 2629.3 Counts ARC FE : I125=332.0 mA, I250=732.0 mA, V125=1.24 V, V250=2.47 V DCU DATA: V125: 2571.1 Counts, V250: 2579.0 Counts ARC FE : I125=328.0 mA, I250=704.0 mA, V125=1.22 V, V250=2.43 V DCU DATA: V125: 2520.9 Counts, V250: 2529.4 Counts Differences: V125 0.02V; V250 0.04V; DCU Ch2(V125) 50.5 Counts DCU Ch1(V250) 50.3 Counts Differences: V125 0.03V; V250 0.04V; DCU Ch2(V125) 50.2 Counts DCU Ch1(V250) 49.6 Counts TestResult=passed ****** Final Grade: C = FAILED