Campbell Scientific CR10 CR10 Measurement and Control - Page 145

**. 49 ABS(X) *** FUNCTION Take the absolute (ABS) value of X and place the result in an input location. PARAM. NUMBER TDAYTAPE DESCRIPTION 01: 4 X Input location of IXl 02: 4 Dest. input location for ABS(X) lzl lnput locations altered: 1 *** 44 FRACTIONAL VALUE *** FUNCTION Take the fractional (FRAC) value (i.e., the noninteger portion) of X and place the result in an input location. PABAM. DATA NUMBER TYPE DESCRIPTION 01: 4 X Input location of txl 02: 4 DFeRst.Aincpu(txlo)cation for lzl Input locations altered: 1 *** 45 INTEGER VALUE *** FUNCTION Take the integer (lNT) value of X and place the result in an input location. PARAM. NUMBER TDAYTAPE DESCRIPTION 01: 4 X Input location of txl O2: 4 tNr(x) Dest. input location for t4 Input locations altered: 1 *** 46 X MOD F *** FUNCTION Do a modulo divide of X by F and place the result in an input location. X MOD F is defined as the REMAINDER obtained when X is divided by F (e.9., 3 MOD 2 = 1). X MOD 0 returns X. SECTION lO. PROCESSING INSTRUCTIONS PARAM. NUMBER TDAYTAPE DESCRIPTION 01: 4 X lnput location of txl 02: FP Fixed divisor [F] 03: 4 F Dest. input loc. For X MOD tzl lnput locations altered: '1 *** 47 ;1Y *** FUNCTION Raise X to the Y power and place the result in an input location. PARAM. NUMBER TDAYTAPE 01: 4 02: 4 DESCRIPTION X Input location of txl Y lnput location of IYI XY Dest. input location for T4 Input locations altered: 1 *** 4g slN(x) *** FUNCTION Calculate the sine of X (X is assumed to be in degrees) and place the result in an input location. The cosine of a number can be obtained by adding 90 to the number and taking the sine (COSX = SIN (X + 90)). PARAM. DATA NUMBER TYPE DESCRIPTION 01: 4 X Input location of txl 02: 4 srN(x) Dest. input location for lzl Input locations altered: 1 *** 49 SPATIAL MAXIMUM *** FUNCTION Find the spatial maximum (SPA MAX) value of the given set or SWATH of input locations and place the result in an input location. To find the input location where the maximum value occurs, add 1000 to the input location number destination selected [Z] and enter this modified location number as Parameter 03. The input location lD of the maximum value observed willthen be stored in destination [Z] plus 1. 10-3