7 MixedSignal
7.14 Id-Vd Mismatch[3]: Id-Vd characteristics mismatch, 3-terminal (A.01.20)
[Supported Analyzer]
B1500A
[Description]
Measures the drain current vs drain voltage characteristics of two MOSFETs, and plots the differences of them.
[Device Under Test]
MOSFET, 3 terminals, 2 ea.
[Device Parameters]
Polarity: Nch (SMUs force the specified value) or Pch (SMUs force the negative specified value).
Lg: Gate length
Wg: Gate width
Temp: Temperature
IdMax: Drain current compliance
[Test Parameters]
IntegTime: Integration time
DrainA: SMU connected to the device A Drain terminal, primary sweep voltage output
DrainB: SMU connected to the device B Drain terminal, synchronous sweep voltage output
Gate: SMU connected to Gate terminal, secondary sweep voltage output
VgStart: Sweep start voltage for Gate terminal
VgStop: Sweep stop voltage for Gate terminal
VgStep: Sweep step voltage for Gate terminal
IgLimit: Gate current compliance
Source: SMU connected to Source terminal, constant voltage output
VdStart: Sweep start voltage for Drain terminal
VdStop: Sweep stop voltage for Drain terminal
VdStep: Sweep step voltage for Drain terminal
[Extended Test Parameters]
Vs: Source voltage
HoldTime: Hold time
DelayTime: Delay time
DrainMinRng: Minimum range for the drain current measurement
[Measurement Parameters]
Device A Drain current IdrainA
Device B Drain current IdrainB
[User Function]
Drain conductance gds_A=diff(IdrainA,VdrainA)
Drain conductance gds_B=diff(IdrainB,VdrainB)
Drain resistance Rds_A=1/gds_A
Drain resistance Rds_B=1/gds_B
Delta_Ids=(IdrainA-IdrainB)/IdrainA*100
Delta_gds=(gds_A-gds_B)/gds_A*100
Delta_Rds=(Rds_A-Rds_B)/Rds_A*100
[X-Y Graph]
X axis: Drain voltage VdrainA (LINEAR)
Agilent EasyEXPERT Application Library Reference, Edition 8
7-27