Note: See c Chart Based on Known (Standard) Value in the SAS/QC Sample Library.
This example illustrates how you can create a c chart based on a known (standard) value for the expected number of nonconformities per unit.
A c chart is used to monitor the number of paint defects per truck. The defect counts are provided as values of the variable
Defects
in the data set Trucks
given in Creating c Charts from Defect Count Data. Based on previous testing, it is known that . The following statements create a c chart with control limits derived from this value:
ods graphics on; title 'c Chart for Paint Defects on New Trucks'; title2 'Usng Data in TRUCKS and Standard Value UO=7'; proc shewhart data=Trucks; cchart Defects*TruckID / u0 = 7 csymbol = c0 odstitle = title odstitle2 = title2 markers nolegend nolimitslegend nolimit0; run;
The chart is shown in Output 18.9.1. The U0= option specifies , and the CSYMBOL= option requests a label for the central line indicating that the line represents a standard value. The NOLEGEND option suppresses the legend for the subgroup sample size, and the NOLIMITSLEGEND option suppresses the legend for the control limits that appears by default in the upper right corner of the chart. The NOLIMIT0 option suppresses the display of the lower limit when it is equal to zero.
Output 18.9.1: A c Chart with Standard Value
The number of paint defects on Truck Q1 exceeds the upper control limit, indicating that the process is out of control.
Alternatively, you can specify as the value of the variable _U_
in a LIMITS=
data set, as follows:
data tlimits; length _subgrp_ _var_ _type_ $8; _U_ = 7; _subgrp_ = 'truckid'; _var_ = 'defects'; _limitn_ = 1; _type_ = 'STANDARD'; proc shewhart data=trucks limits=tlimits; cchart defects*truckid / csymbol=c0 nolegend nolimitslegend nolimit0; run;
The chart produced by these statements is identical to the one in Output 18.9.1.
For further details, see LIMITS= Data Set.