See SHWNP3 in the SAS/QC Sample LibraryIn some situations, a standard (known) value () is available for the expected proportion of nonconforming items, based on extensive testing or previous sampling. This example illustrates how you can specify to create an chart.
An chart is used to monitor the number of failing circuits in the data set Circuits
, which is introduced in Creating np Charts from Count Data. The expected proportion of failing circuits is known to be . The following statements create an chart, shown in Output 17.19.1, using to compute the control limits:
title1 'np Chart for Failing Circuits'; title2 'Using Data in CIRCUITS and Standard Value P0=0.02'; proc shewhart data=Circuits; npchart Fail*Batch / subgroupn = 500 p0 = 0.02 npsymbol = np0 nolegend needles odstitle = title odstitle2 = title2; label Batch ='Batch Number' Fail ='Fraction Failing'; run;
The chart indicates that the process is in control. The P0= option specifies . The NPSYMBOL= option specifies a label for the central line indicating that the line represents a standard value. The NEEDLES option connects points to the central line with vertical needles. The NOLEGEND option suppresses the default legend for subgroup sample sizes. Labels for the vertical and horizontal axes are provided with the LABEL statement. For details concerning axis labeling, see Axis Labels.
Alternatively, you can specify using the variable _P_
in a LIMITS= data set, as follows:
data Climits; length _var_ _subgrp_ _type_ $8; _p_ = 0.02; _subgrp_ = 'Batch'; _var_ = 'Fail'; _type_ = 'STANDARD'; _limitn_ = 500; proc shewhart data=Circuits limits=Climits; npchart Fail*Batch / subgroupn = 500 npsymbol = np0 nolegend needles; label Batch ='Batch Number' Fail ='Fraction Failing'; run;
The bookkeeping variable _TYPE_
indicates that _P_
has a standard value. The chart produced by these statements is identical to the chart in Output 17.19.1.