Problem 1 (25 points): A load cell, model number TASSOI with a 5000 [kg] capacity is used to measure the mass of prefabricated structural components for a building that will be composed of several hundred of such components. The test is performed on 7 components with the results given in table (1). Using the provided specification sheet, figure (l), and test data, determine the range for the true mass within a 95% probability range (uncertainty from electrical components is negligible). a 10,20,30,50,100.150.200.000, 200 20s 90 45 5 +00 Specificat CL safe overload timate oven rated to excitation og nity Interess repetabity CO inpotesistance tot estance strance operating temperature comperrated temperature range pure coefficiente temperature Collet of 2180 min Blogs 5000 300 20:55 SESHOT 15/10 Ace Technical connector Cable ed edition Figure 1: Specifications for load cell TAS501 - 5000 [kg] Full scale Table 1: Mass data for prefab structures Test Run Load [-] 1 2 3 4 S 6 7 (m) [kg] 3471 3318 3233 3448 3287 3538 3220 m2 3359 125.3 Sm cifications: capacity kg 5,10,20,30, 50,100,150,200, 300,500,11,1.5T,2,3 safe overload %FS 150 ultimate overload %FS 200 rated output mV/V 2.0 +0.005 excitation voltage Vdc 9-12 non-linearity SFS +0.03 hysteresis SFS 10.03 repeatability %FS +0.03 creep %FS/30min +0.024 Input resistance Q 350 +5 output resistance 350.- 3. insulation resistance 25000 @100 Vdc operating temperature range C -10 - +40 compensated temperature range *C 20 - +55 temperature coefficient of SPAN 56FS/100 temperature coefficient of ZERO %FS/100 4 core shielded PVC cable, 05 x 3m Electrical connection cable excitation(+):Red excitation): Black signal(+):Green signal White cations for load cell TAS501 - 5000 [kg] Full scale 10.023 +0.023 Problem 1 (25 points): A load cell, model number TASSOI with a 5000 [kg] capacity is used to measure the mass of prefabricated structural components for a building that will be composed of several hundred of such components. The test is performed on 7 components with the results given in table (1). Using the provided specification sheet, figure (l), and test data, determine the range for the true mass within a 95% probability range (uncertainty from electrical components is negligible). a 10,20,30,50,100.150.200.000, 200 20s 90 45 5 +00 Specificat CL safe overload timate oven rated to excitation og nity Interess repetabity CO inpotesistance tot estance strance operating temperature comperrated temperature range pure coefficiente temperature Collet of 2180 min Blogs 5000 300 20:55 SESHOT 15/10 Ace Technical connector Cable ed edition Figure 1: Specifications for load cell TAS501 - 5000 [kg] Full scale Table 1: Mass data for prefab structures Test Run Load [-] 1 2 3 4 S 6 7 (m) [kg] 3471 3318 3233 3448 3287 3538 3220 m2 3359 125.3 Sm cifications: capacity kg 5,10,20,30, 50,100,150,200, 300,500,11,1.5T,2,3 safe overload %FS 150 ultimate overload %FS 200 rated output mV/V 2.0 +0.005 excitation voltage Vdc 9-12 non-linearity SFS +0.03 hysteresis SFS 10.03 repeatability %FS +0.03 creep %FS/30min +0.024 Input resistance Q 350 +5 output resistance 350.- 3. insulation resistance 25000 @100 Vdc operating temperature range C -10 - +40 compensated temperature range *C 20 - +55 temperature coefficient of SPAN 56FS/100 temperature coefficient of ZERO %FS/100 4 core shielded PVC cable, 05 x 3m Electrical connection cable excitation(+):Red excitation): Black signal(+):Green signal White cations for load cell TAS501 - 5000 [kg] Full scale 10.023 +0.023