advertisement
TH2515 Operation Manual measurement result.
7.1.6
TEMPerature Subsystem Commands
TEMPerature subsystem commands set the instrument trigger source and the delay time after triggering, and triggers instrument measurement.
Command Tree:
The :TEMPerature:CORRect:STATe command sets “ON” and “OFF” of the instrument temperature correction function.
The :TEMPerature:CORRect:STATe? query returns to the current state of the temperature correction function.
Command syntax:
:TEMPerature:CORRect:STATe <ON(1) or OFF(0)>
For example: WrtCmd(“:TEMPerature:CORRect:STATe ON”); Set the instrument temperature correction function as “ON”.
NOTE: Turning the temperature correction function on will stop the temperature conversion function!
Query Syntax: :TEMPerature:CORRect:STATe?
Return format: <NR1><NL^END>
<NR1> = 1 or 0
1: the instrument temperature correction function is “ON”.
0: the instrument temperature correction function is “OFF”.
The :TEMPerature:CORRect:PARameter command sets the “reference temperature” and
“temperature coefficient” of the instrument temperature correction function.
The :TEMPerature:CORRect:PARameter? query returns to the current “reference temperature” and “temperature coefficient”.
Command syntax:
:TEMPerature:CORRect:PARameter<Reference Temp.>,<Temp. Coefficient>
Where, <Reference Temp.> = -10.0 to 99.9(NR2) means “reference temperature”, unit: ℃
63
TH2515 Operation Manual
<Temp. Coefficient> = -99999 to 99999(NR1) means “temperature coefficient”, unit : ppm/ ℃
For example: WrtCmd(“:TEMP:CORR:PAR 25,3390”); Set the instrument “reference temperature” and “temperature coefficient” as 25 ℃ and 3390 ppm/ ℃ respectively.
Query Syntax: :TEMPerature:CORRect:PARameter?
Return format: <Reference Temp.>,<Temp. Coefficient><NL^END>
Where, the format and unit of <Reference Temp.>,<Temp. Coefficient> are the same as above.
The :TEMPerature:CONversion:DELTa:STATe command sets “ON” and “OFF” of the instrument temperature conversion function.
The :TEMPerature:CONversion:STATe? query returns to the current state of the temperature conversion function.
Command syntax:
:TEMPerature: CONversion:STATe <ON(1) or OFF(0)>
For example: WrtCmd(“:TEMPerature:Conversion: :DELTa:STATe ON”); Set the instrument temperature conversion function as “ON”.
NOTE: Turning the temperature conversion function on will stop the temperature correction function!
Query Syntax: :TEMPerature:CONversion:DELTa:STATe?
Return format: <NR1><NL^END>
<NR1> = 1 or 0
1: the temperature conversion function of the instrument is “ON”.
0: the temperature conversion function of the instrument is “OFF”.
The :TEMPerature:CONversion:DELTa:PARameter command sets the “initial resistance” , ”initial temperature” and ”constant k” of the instrument temperature conversion function.
The :TEMPerature:CONversion:DELTa:PARameter? query returns to the current “initial resistance” , ”initial temperature” and ”constant k”.
Command syntax:
:TEMPerature:CONversion:DELTa:PARameter<Initial resistance>,<Initial temperature>,
<Constant>
Where, < Initial resistance> = 0 to 110.000E+6(NR3) means “initial resistance”, unit: Ω
< Initial temperature> = -10.0 to 99.9(NR2) means ”initial temperature”, unit: ℃
< Constant > = -999.9 to 999.9(NR2) means ”constant k”, unit: ℃
For example: WrtCmd(“:TEMP:CON:DELT:PAR 100,20,235”); Set the instrument “initial resistance” , ”initial temperature” and ”constant k” as 100Ω, 20 ℃ and 235 ℃ respectively.
Query Syntax: :TEMPerature:CORRect:STATe:PARameter?
Return format: <Initial resistance>,<Initial temperature>,<Constant><NL^END>
Where, the format and unit of <Initial resistance>,<Initial temperature>,<Constant> are the same
64
advertisement