Specifications
MEM:VME:SIZE, 242
MEM:VME:SIZE?, 243
MEM:VME:STATe, 243
MEM:VME:STATe?, 244
Messages, error, 359 - 366
min(expression1,expression2), 124
MODE
SENS:DATA:FIFO:MODE, 264
SENSe:TOTalize:RESet:MODE, 283
Mode, selecting the FIFO, 76
MODE?
SENS:DATA:FIFO:MODE?, 264
SENSe:TOTalize:RESet:MODE?, 284
Mode?, which FIFO, 83
Model, determining
SCPI programming, 313
Modifier, the static, 125
Modifying running algorithm variables, 85
Modifying the terminal module circuit, 43
Module
SCPs and Terminal, 30
Modules
Terminal, 30 - 32
More on auto ranging, 101
Multiplicative-expression:, 130
Multiplicative-operator:, 130
N
NaN, 230
Noise
Common mode, 374
Normal mode, 374
Noise due to inadequate grounding, 373
Noise reduction with amplifier SCPs, NOTE, 103
Noise reduction, wiring techniques, 372
Noise Rejection, 374
Noisy measurements
Quieting, 36
Non-Control algorithms, 121
Normal mode noise, 374
Not-a-Number, 230
NOTES
*CAL? and CAL:TARE turns off then on OTD, 225
*RST effect on custom EU tables, 96
*TST? sets default ASC,7 data format, 230
+ & - overvoltage return format from FIFO, 262 - 263,
265
ALG:SCAN:RATIO vs. ALG:UPD, 193
ALG:SIZE? return for undefined algorithm, 195
ALG:STATE effective after ALG:UPDATE, 85
ALG:STATE effective only after ALG:UPD, 195
ALG:TIME? return for undefined algorithm, 197
Algorithm Language case sensitivity, 123
Algorithm Language reserved keywords, 122
Algorithm source string terminated with null, 117
Algorithm source string terminates with null, 190
Algorithm swapping limitations, 192
Algorithm Swapping restrictions, 119
Algorithm variable declaration and assignment, 111
Amplifier SCPs can reduce measurement noise, 103
BASIC’s vs. ‘C’s “is equal to” symbol, 134
Bitfield access ‘C’ vs. Algorithm Language, 127
Cannot declare channel ID as variable, 123
Combining SCPI commands, 182
CVT contents after *RST, 261
Decimal constants can be floating or integer, 129
Default (*RST) Engineering Conversion, 59
Define user function before algorithm calls , 114
Do not CAL:TARE thermocouple wiring, 212
Do use CAL:TARE for copper in TC wiring, 98
Do use CAL:TARE for copper TC wiring, 212
Don't use CAL:TARE for thermocouple wiring, 98
Flash memory limited lifetime, 99, 211
Isothermal reference measurements, 28
MEM subsystem vs. command module model, 241
MEM subsystem vs. TRIG and INIT sequence, 241
MEM system vs TRIG and INIT sequence, 228
Memory required by an algorithm, 118
Number of updates vs. ALG:UPD:WINDOW, 187,
192, 202
Open transducer detect restrictions, 100
OUTP:CURR:AMPL command, 58
OUTP:CURR:AMPL for resistance measurements, 245
OUTP:VOLT:AMPL command, 58
Reference to noise reduction literature, 373
Resistance temperature measurements, 61
Saving time when doing channel calibration, 72
Selecting manual range vs. SCP gains, 59
Setting the interrupt level, 15
Settings conflict, ARM:SOUR vs TRIG:SOUR, 204,
308
Thermocouple reference temperature usage, 277, 279
TRIGger:SOURce vs. ARM:SOURce, 78
Warmup before executing *TST?, 362
When algorithm variables are initialized, 128
NTRansition
STAT:OPER:NTRansition, 295
STAT:QUES:NTRansition, 300
NTRansition?
STAT:OPER:NTRansition?, 296
STAT:QUES:NTRansition?, 301
O
Octal constant:, 129
Offset
A/D, 210, 311
channel, 210, 311
Offsets, compensating for system, 97 - 99
Offsets, residual sensor, 98
Offsets, system wiring, 97
Operating model, 52
Operating sequence, 114 - 115
388 Index
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