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Microwave Office Measurement Catalog

NI AWR Design Environment v14.04 Edition


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LEGAL NOTICES

© 2019 National Instruments. All rights reserved. © 2019 AWR Corporation. All rights reserved.

Trademarks

  • Analog Office, APLAC, AWR, AWR Design Environment, AXIEM, Microwave Office, National Instruments, NI, ni.com and TX-Line are registered trademarks of National Instruments. Visual System Simulator (VSS), Analyst, and AWR Connected are trademarks of AWR Corporation/National Instruments. Refer to the Trademarks section at ni.com/trademarks for other National Instruments trademarks.

  • Other product and company names mentioned herein are trademarks or trade names of their respective companies.

Patents

For patents covering NI AWR software products/technology, refer to ni.com/patents.

The information in this guide is believed to be accurate. However, no responsibility or liability is assumed by National Instruments for its use.


Table of Contents

Preface
About This Book
Additional Documentation
Typographical Conventions
Getting On-Line Help
Annotate
3D Antenna Pattern: ANTENNA_3D
3D Antenna Pattern from Circuit Excitation: ANTENNA_CKT_3D
Annotate Current Density: DC_IDENSA
Annotate DC Terminal Currents on the Element: DC_IE
Annotate DC Power for All Elements: DC_PWRA
Annotate DC Terminal Voltage on the Element: DC_VE
Annotate DC Values to V_PROBE; I_METER and V_Meter: DCA_M
Annotate DC Input Current for All Elements: DCIA
Annotate DC Voltage for 2-port Elements: DCVA_E
Annotate DC Voltage for All Nodes: DCVA_N
Draw Shapes Causing Meshing Failure: DIAGNOSE_MESH
Surface Currents for 3D EM: EM3D_CURRENT
Surface Boundary Conditions for 3D Models: EM_3D_SURF_BC
Graphical Marker Display for 3D Geometrical Concerns: EM_3D_SURF_CONCERNS
Surface IDs for 3D Models: EM_3D_SURF_IDS
EM Document Current: EM_CURRENT
EM Document Current: EM_CURRENT_SW
EM Document Circuit Current: EM_CKT_CURR
Draw Mesh of Selected De-Embedding Standard: EM_DEEMBED_MESH
EM Document Electric Field: EM_E_FIELD
EM Field Carpet Plot on Cut Plane: EM_FIELD_CARPET
EM Field Surface Contours: EM_FIELD_CONT
EM Field on Cut Plane: EM_FIELD_CUT
EM Field Vectors: EM_FIELD_VECT
EM Document Mesh: EM_MESH
EM Document Mesh 2D: EM_MESH_2D
EM Document Mesh: EM_MESH_F
Port Mode Fields: EM_PORT_FIELD
Operating Point ERC Rule: ERC_OP
Draw Parasitics in 3D: EXT_CKT3D
Draw Specific Parasitics in 3D: EXT_COMP3D
Draw Only High Aspect Ratio Facets: HI_ASPECT_FACETS
Max Current ERC Rule: ICHECK
Current in iNets: INET_I
Current Density in iNets: INET_J
iNet Parasitic Estimate: INET_RC
Current Density ERC Rule: JCHECK
Volumetric 3D Mesh: MESH_3D
Volumetric 3D Mesh Connectivity: MESH_3D_CON
Boundary Surface for 3D Mesh: MESH_3D_SURF
Total Noise Contribution ERC: NoiseCheck
Noise Contribution for Elements: NoiseConA
Annotate Single Operating Point Value for Elements: OpPnt1_DC_E
Annotate Operating Points of Nonlinear DC Simulator for Elements: OpPnt_DC_E
Annotate Total Power for All Elements: TOT_PWRA
Annotate User Defined Attributes on Elements/Blocks: UATTR
Annotate Vtime Measurement for 2-Port Elements: VTimeA_E
Annotate Voltage at Time Point for All Nodes: VTPA_N
Data
Plot Column of X-Y Data: PlotCol
Plot Complex Data from Multi-dimension MDIF File
Plot Aligned Complex Data from Multi-dimension MDIF File
Plot Real Data from Multi-dimension MDIF File
Plot Aligned Real Data from Multi-dimension MDIF File
Plot Row of X-Y Data: PlotRow
Plot Measurement 1 vs Measurement 2: PlotVs
Electromagnetic
EM Mode Resonance (Composite): AllModes
Axial Ratio Radiation Pattern (Sweep Phi): Con_AR
Circuit Driving Axial Ratio Radiation Pattern (Sweep Phi): Con_AR_CKT
E-Phi Radiation Pattern (Sweep Phi): Con_EPhi
Circuit Driving E-Phi Radiation Pattern (Sweep Phi): Con_EPhi_CKT
E-Theta Radiation Pattern (Sweep Phi): Con_ETheta
Circuit Driving E-Theta Radiation Pattern (Sweep Phi): Con_ETheta_CKT
E-LHCP Radiation Pattern (Sweep Phi): Con_LHCP
Circuit Driving LHCP Radiation Pattern (Sweep Phi): Con_LHCP_CKT
E-RHCP Radiation Pattern (Sweep Phi): Con_RHCP
Circuit Driving RHCP Radiation Pattern (Sweep Phi): Con_RHCP_CKT
Total Power Radiation Pattern (Sweep Phi): Con_TPwr
Circuit Driving Total Power Radiation Pattern (Sweep Phi): Con_TPwr_CKT
Port Relative Dielectric Constant: Er_Port
X-Directed E-Field (Volt/Meter): Ex_EM
Y-Directed E-Field (Volt/Meter): Ey_EM
Generalized S-Parameters: GS
X-Directed Current Density (Amp/Meter): Ix_EM
Y-Directed Current Density (Amp/Meter): Iy_EM
Z-Directed Current Density (Amp/Meter): Iz_EM
Port Propagation Constant: K_Port
Antenna Power Information Plot: PowInfo
Axial Ratio Radiation Pattern (Sweep Theta): PPC_AR
Circuit Driving Axial Ratio Radiation Pattern (Sweep Theta): PPC_AR_CKT
E-Phi Radiation Pattern (Sweep Theta): PPC_EPhi
Circuit Driving E-Phi Radiation Pattern (Sweep Theta): PPC_EPhi_CKT
E-Theta Radiation Pattern (Sweep Theta): PPC_ETheta
Circuit Driving E-Theta Radiation Pattern (Sweep Theta): PPC_ETheta_CKT
E-LHCP Radiation Pattern (Sweep Theta): PPC_LHCP
Circuit Driving LHCP Radiation Pattern (Sweep Theta): PPC_LHCP_CKT
E-RHCP Radiation Pattern (Sweep Theta): PPC_RHCP
Circuit Driving RHCP Radiation Pattern (Sweep Theta): PPC_RHCP_CKT
Total Power Radiation Pattern (Sweep Theta): PPC_TPwr
Circuit Driving Total Power Radiation Pattern (Sweep Theta): PPC_TPwr_CKT
Axial Ratio Radiation Pattern (Sweep Frequency): SF_AR
Circuit Driving Axial Ratio Radiation Pattern (Sweep Frequency): SF_AR_CKT
E-Phi Radiation Pattern (Sweep Frequency): SF_EPhi
Circuit Driving E-Phi Radiation Pattern (Sweep Frequency): SF_EPhi_CKT
E-Theta Radiation Pattern (Sweep Frequency): SF_ETheta
Circuit Driving E-Theta Radiation Pattern (Sweep Frequency): SF_ETheta_CKT
E-LHCP Radiation Pattern (Sweep Frequency): SF_LHCP
Circuit Driving E-LHCP Radiation Pattern (Sweep Frequency): SF_LHCP_CKT
E-RHCP Radiation Pattern (Sweep Frequency): SF_RHCP
Circuit Driving E-RHCP Radiation Pattern (Sweep Frequency): SF_RHCP_CKT
Total Power Radiation Pattern (Sweep Frequency): SF_TPwr
Circuit Driving Total Power Radiation Pattern (Sweep Frequency): SF_TPwr_CKT
TE Mode Resonance: TE_Mode
TM Mode Resonance: TM_Mode
Port Impedance: Zin_Port
File
Generate AM to AM/PM at Fundamental: AMtoAMPMF
Write E-Field Radiation Pattern to File: AntPat_EF
Write Total Power Radiation Pattern to File: AntPat_TPwrF
Write Envelope Data to File: ENVELOPEF
Generate LVS File: LVS
Write Measurement Data to MATLAB File: MATLAB
Generate Netlist: NETDMP
Generate Touchstone, MDIF, or MATLAB File: NPORTF
Generate Spectrum File: PharmF
Generate Spice Netlist Equivalent: SpiceF
Linear
Chain Matrix (ABCD-parameters): ABCD
Auxiliary Stability Factor: B1
Capacitance of Input as a Parallel RC: C_PRC
Capacitance of Input as a Series RC: C_SRC
Noise Correlation Matrix: Ci
Noise Voltage Correlation Matrix: Cv
Change in Magnitude Over a Bandwidth: DMAGB
Change in Phase Over a Bandwidth: DPHSB
G-Parameters: G
Available Gain: GA
Available Gain Circles Starting at Maximum Available Gain: GAC_MAX
Available Gain Circles: GACIR
Gamma Measured with Modified Gamma-Probe: GAM_GP2
Dense Gamma Grid for Marker Use: GammaPts
Group Delay: GD
Even Mode Gamma: Geven
Simultaneous Match at Input: GM1
Simultaneous Match at Output: GM2
Maximum Available Gain: GMax
Optimum Noise Figure Match: GMN
Odd Mode Gamma: Godd
Operating Power Gain: GP
Power Gain Circles Starting at Maximum Power Gain: GPC_MAX
Power Gain Circles: GPCIR
Transducer Power Gain: GT
Mason's Unilateral Gain: GU
Hybrid Parameters (H-parameters): H
AC Current: Iac
Differential AC Current:IacD
Current Gain from Input Current Source: ISG
Current Gain from Input Terminal: ITG
Stability Factor: K
Loop Gain: LoopGain
Inductance of Input as a Parallel RL: L_PRL
Inductance of Input as a Series RL: L_SRL
Inductance of Input as a Series RL with Other Port Grounded: L_SRL2
Deviation from Linear Phase: LDVP
Mean or RMS Magnitude: MagMean
Deviation from the Mean Magnitude per State: MagMeanDev
Mean Magnitude Error per State: MagMeanErr
Constant Impedance Mismatch Circle: MMCIRC
Maximum Stable Gain: MSG
Geometric Stability Factor (Load): MU1
Geometric Stability Factor (Source): MU2
Normalized Determinant Function: NDF
Noise Factor: NF
Noise Figure Circles: NFCIR
Minimum Noise Figure: NFMin
Noise Measure: NMEASNoise Measure: NMEAS
Output Noise Voltage: NoiseC
AC Noise Contributors: NoiseCon
Equivalent Input Noise Voltage: NoiseI
Total Output Noise Voltage: NoiseO
Passive: PASSIVE
Phase in Degrees: Phs
Phase Error Relative to Ideal State: PhsErr
Max or Min Phase Error Relative to Ideal State: PhsErrMax
Mean or RMS Phase Error Relative to Ideal State: PhsErrMean
Ideal Phase States: PhsIdeal
Phase Shift Relative to the First State in the Sweep: PhsShift
Constant Q Contour: Q_CONT
Input Q Measurement: Q_IN
Input Q Measurement of 2-Port with Other Port Grounded: Q_IN2
Closest Matching Bit to Given Phase per Frequency: Qnt
Phase Error Between Ideal State and the Closest Matching Bit per Frequency: QntErr
Resistance of Input as a Parallel RC: R_PRC
Resistance of Input as a Parallel RL: R_PRL
Resistance of Input as a Series RC: R_SRC
Resistance of Input as a Series RL: R_SRL
Noise Resistance: RN
Scattering Coefficients (S-parameters): S
Input Stability Circles: SCIR1
Output Stability Circles: SCIR2
Stability Circle at Port I for Gamma=1 at Port J: SCIR_IJ
S-Parameter Magnitude Delta: SDeltaM
S-Parameter Phase Delta: SDeltaP
Source Mapping Circles: SMAP
Error Between S-parameters: SModel
Stability Envelope (2-port only): StabEnv
Stability Index Measured with Modified Gamma-Probe: STAB_GP2
Nyquist Stability Measured with Modified Gamma-Probe: STABN_GP2
Compute S-parameters with Network Terminations on 2 Ports: S_TERM_2P
Compute Network Terminated S-parameters: S_TERM
Compute Network Terminated S-parameters: S_TERM_Z
Summation of Power in Network: SUMPWR
Scattering (Transfer) Parameters (T-parameters): T
Time Domain Reflectometry (TDR) Band-Pass Impulse Response: TDR_BPI
Time Domain Reflectometry (TDR) Band-Pass Step Response: TDR_BPS
Time Domain Reflectometry (TDR) Low-Pass Impulse Response: TDR_LPI
Time Domain Reflectometry (TDR) Low-Pass Step Response: TDR_LPS
Equivalent Input Noise Temperature: TE
Equivalent Output Noise Temperature: TN
AC Voltage: Vac
Differential AC Voltage: VacD
Voltage Gain from Input Voltage Source: VSG
Voltage Standing Wave Ratio: VSWR
Constant VSWR Circle: VSWR_CIR
Voltage Gain from Input Terminal: VTG
Admittance Parameters (Y-parameters): Y
Even Mode Admittance: Yeven
Input Admittance at a Port: YIN
Simultaneous Admittance Match at Input: YM1
Simultaneous Admittance Match at Output: YM2
Optimum Admittance for Noise Match: YMN
Odd Mode Admittance: Yodd
Impedance Parameters (Z-parameters): Z
Even Mode Impedance: Zeven
Impedance Measured with Modified Gamma-Probe: Z_GP2
Input Impedance at a Port: ZIN
Simultaneous Impedance Match at Input: ZM1
Simultaneous Impedance Match at Output: ZM2
Optimum Impedance for Noise Match: ZMN
Odd Mode Impedance: Zodd
Load Pull
Convex Hull of Interpolated Points: G_LPCH
Generalized Load Pull Contours: G_LPCM
Generalized Load Pull Contours Aligned to a Value: G_LPCM_A
Generalized Load Pull Contours from Combined Values: G_LPCM_C2
Generalized Load Pull Contours from Combined Values/Aligned to a Value: G_LPCM_C2A
Generalized Load Pull Contours Over Any Sweep: G_LPCM_EX
Generalized Load Pull Contours Aligned to a Value Over Any Sweep: G_LPCM_EX_A
Generalized Load Pull Contours Over Any Sweep from Combined Values: G_LPCM_EX_C2
Generalized Load Pull Contours Over Any Sweep from Combined Values at an Aligned Value: G_LPCM_EX_C2A
Max Value for Generalized Load Pull Data: G_LPCMMAX
Max Value of Aligned Data for Generalized Load Pull Data: G_LPCMMAX_A
Max Value for Generalized Load Pull Data: G_LPCMMAX_EX
Max Value of Aligned Data for Generalized Load Pull Data: G_LPCMMAX_EX_A
Minimum Value for Generalized Load Pull Data: G_LPCMMIN
Minimum Value of Aligned Data for Generalized Load Pull Data: G_LPCMMIN_A
Minimum Value for Generalized Load Pull Data: G_LPCMMIN_EX
Minimum Value of Aligned Data for Generalized Load Pull Data: G_LPCMMIN_EX_A
Generalized Load Pull Contours at Specified Value: G_LPCM_V
Generalized Load Pull Contour at a Specific Value Aligned to Another Value: G_LPCM_VA
Interpolated Points on the Interpolated Grid: G_LPGG
Plot Load Pull Gamma Points from Measured Load Pull File: G_LPGPM
Plot Load Pull Gamma Points from Aligned Measured Load Pull File: G_LPGPM_A
Plot Non-deembedded Load Pull Gamma Points from Measured Load Pull File: G_LPGPM_ND
Generalized Interpolated Load Pull Data Points: G_LPINT2
Generalized Interpolated Load Pull Aligned Data Points: G_LPINT2_A
Generalized Interpolated Load Pull Data Points: G_LPINT2_Z
Generalized Interpolated Load Pull Aligned Data Points: G_LPINT2_Z_A
Generalized Interpolated Load Pull Data Points (with Harmonic Load Pull Support): G_LPINT_H
Plot Time Domain Currents for Load Pull Data: G_LP_ITIME
Plot Dynamic Load Line for Load Pull Data: G_LP_IVDLL
Plot Time Domain Power for Load Pull Data: G_LP_PTIME
Plot Time Domain Voltages for Load Pull Data: G_LP_VTIME
Load Pull Contours, Measured: LPCM
Maximum of Load Pull Contours (Measured): LPCMMAX
Minimum of Load Pull Contours (Measured): LPCMMIN
Load Pull Gamma Points, Measured File: LPGPM
Load Pull Gamma Points, 2-Column Tabular File: LPGPT
Load Pull Contours, Specified Maximum Impedance (Measured): LPIDMMAX
Load Pull Contours, Specified Minimum Impedance (Measured): LPIDMMIN
Load Pull Contours, Specified Impedance (Measured): LPIDZM
Interpolated Load Pull Data: LPINT
Nonlinear
Amplitude Noise Spectral Density: AM_NOISE
AM to AM of Fundamental: AMtoAM
AM to PM of Fundamental: AMtoPM
A Wave: Awave
B Wave: Bwave
DC Linearized Capacitance: CDC
Conversion Gain: ConvG
DC to RF Efficiency: DCRF
Eye Amplitude: Eye_Amplitude
Differential Eye Amplitude: Eye_AmplitudeD
Eye Corners: Eye_Corners
Differential Eye Corners: Eye_CornersD
Eye Crossing Info: Eye_Crossing
Differential Eye Crossing Info: Eye_CrossingD
Eye Extinction Ratio: Eye_ExtRatio
Differential Eye Extinction Ratio: Eye_ExtRatioD
Eye Fall Time: Eye_FallTime
Differential Eye Fall Time: Eye_FallTimeD
Eye Height: Eye_Height
Differential Eye Height: Eye_HeightD
Eye Inverse Extinction Ratio: Eye_InvExtRatio
Differential Eye Inverse Extinction Ratio: Eye_InvExtRatioD
Eye Level Info: Eye_Level
Differential Eye Level Info: Eye_LevelD
Eye Overshoot: Eye_Overshoot
Differential Eye Overshoot: Eye_OvershootD
Eye Q Factor: Eye_QFactor
Differential Eye Q Factor: Eye_QFactorD
Eye Rise Time: Eye_RiseTime
Differential Eye Rise Time: Eye_RiseTimeD
Eye Transition: Eye_Transition
Differential Eye Transition: Eye_TransitionD
Eye Undershoot: Eye_Undershoot
Differential Eye Undershoot: Eye_UndershootD
Eye Width: Eye_Width
Differential Eye Width: Eye_WidthD
Large Signal Gamma: Gcomp
DC Linearized Conductance: GDC
Current Harmonic Component: Icomp
Differential Current Harmonic Component: IcompD
DC Current: IDC
Differential DC Current: IDC_D
Current Envelope: Ienv
Current Eye Diagram: Ieye
Differential Current Eye Diagram: IeyeD
FFT of Current for Specified Period: lfft
FFT of Differential Current for Specified Period: IfftD
Frequency Domain Current: Iharm
Differential Frequency Domain Current: IharmD
Intermodulation Distortion: IMDN
Intermodulation Distortion Average: IMDN_AVG
Intermodulation Distortion Delta: IMDN_DELTA
Intermodulation Distortion Max: IMDN_MAX
Input Mismatching Gain: INMG
Envelope Current Spectrum at Specified Carrier: Ispectrum_ENV
Time Domain Current: Itime
Differential Time Domain Current: ItimeD
Time Domain Current: Itime_ENV
Time Domain Current Envelope at Specified Carrier: Itime_f_ENV
I-V Curve Trace I at Swept Terminal: IVCurve
I-V Curve Trace I at Stepped Terminal: IVCurve2
I-V Curve Delta I at Swept Terminal: IVDelta
I-V Curve Delta I at Stepped Terminal: IVDelta2
I-V Dynamic Load Line: IVDLL
Jitter Measurement: Jitter
Differential Jitter Measurement: JitterD
SSB Noise-to-Carrier Ratio (Lower Sideband, Offset From Carrier): L_LSB
SSB Noise-to-Carrier Ratio (Upper Sideband, Offset From Carrier): L_USB
Phase Noise L(fm) (vs. Offset Freq): LFM
Large Signal S-Parameter at Harmonic: LSSnm
Large Signal S-Parameter at Harmonic (Specify Impedance): LSSnmZ
Modulated Noise Contributors: ModNoiseCon
Modulated Noise Contributors in dBc: ModNoiseCon_dBc
Nonlinear Noise Figure: NF_SSB0
Noise Figure (IEEE Definition): NF_SSBN
Nonlinear Gamma Measured with Modified Gamma-Probe: NLGAM_GP2
Nonlinear Loop Gain: NLLoopGain
Noise Contributors: NLNoiseCon
Nonlinear Stability Index Measured with Modified Gamma-Probe: NLSTAB_GP2
Nonlinear Nyquist Stability Measured with Modified Gamma-Probe: NLSTABN_GP2
RMS Noise Power: NP
Noise Spectrum Density at "Port To" Port: NPo_NL
Noise Spectrum Density at "Port To" Port in User Specified Bandwidth: NPo_NL_BW
Noise Temperature: NT_SSB
RMS Noise Voltage in V/sqrt(Hz): NV
Noise Voltage Correlation in V^2/Hz: NVCorr
Nth Order Intercept Point: OIPN
Nth Order Intercept Point Average: OIPN_AVG
Nth Order Intercept Point Delta: OIPN_DELTA
Nth Order Intercept Point Max: OIPN_MAX
DC Operating Point: OP_DC
Dynamic Operating Point: OP_DYN
Oscillation Frequency: OSC_FREQ
Tuning Parameter: OSC_PARAM
Overshoot Voltage: Overshoot
Differential Overshoot Voltage: OvershootD
Power Added Efficiency: PAE
Power Added Efficiency In User Specified Bandwidth: PAEB
Available Power: PAvail
Power Harmonic Component: Pcomp
DC Power: PDC
FFT of Power for Specified Period: Pfft
Power Gain at Fundamental: PGain
Phase Noise Spectral Density (Offset from Carrier): PH_NOISE
Phase Noise: PH_NOISE_NL
Frequency Domain Power: Pharm
Envelope Power Spectrum at Specified Carrier: Pspectrum_ENV
Total Power: PT
Total Power in Band: PTB
Instantaneous Power: Ptime
Time Domain Power: Ptime_ENV
Time Domain Power Envelope at Specified Carrier: Ptime_f_ENV
DC Charge: QDC
DC Linearized Resistance: RDC
STAN approximation: STANApprox
STAN data: STANData
STAN poles: STANPoles
STAN zeros: STANZeros
Time of the Level Crossing: Tcross
Differential Time of the Level Crossing: TcrossD
Transition TimeS: Ttime
Differential Transition Time: TtimeD
Undershoot Voltage: Undershoot
Differential Undershoot Voltage: UndershootD
Voltage Harmonic Component: Vcomp
Differential Voltage Harmonic Component: VcompD
DC Voltage: VDC
Differential DC Voltage: VDC_D
Voltage Envelope: Venv
Voltage Eye Diagram: Veye
Differential Voltage Eye Diagram: VeyeD
FFT of Voltage for Specified Period: Vfft
FFT of Differential Voltage for Specified Period: VfftD
Voltage Gain: Vgain
Differential Voltage Gain: VgainD
Frequency Domain Voltage: Vharm
Differential Frequency Domain Voltage: VharmD
High Voltage Reference Level: VHRef
Differential High Voltage Reference Level: VHRefD
Low Voltage Reference Level: VLRef
Differential Low Voltage Reference Level: VLRefD
Peak Voltage: VPeak
Differential Peak Voltage: VPeakD
Voltage Spectrum for Autonomous Circuit: VSpec
Envelope Voltage Spectrum at Specified Carrier: Vspectrum_ENV
Time Domain Voltage: Vtime
Differential Time Domain Voltage: VtimeD
Time Domain Voltage: Vtime_ENV
Time Domain Voltage Envelope at Specified Carrier: Vtime_f_ENV
Large Signal Admittance: Ycomp
Large Signal Impedance: Zcomp
Obsolete
(Obsolete) Single-Tone Available Voltage Gain (Swept Power): AVG
(Obsolete) Left-Hand Circular Polarization (Sweep Phi): CE_LHCP
(Obsolete) E-Phi Pattern (Sweep Phi): CE_Phi
(Obsolete) Right-Hand Circular Polarization (Sweep Phi): CE_RHCP
(Obsolete) E-Theta Pattern (Sweep Phi): CE_Theta
(Obsolete) Total Radiated Power (Sweep Phi): CP_Rad
(Obsolete) Left-Hand Circular Polarization (Sweep Theta): E_LHCP
(Obsolete) E-Phi Pattern (Sweep Theta): E_Phi
(Obsolete) Right-Hand Circular Polarization (Sweep Theta): E_RHCP
(Obsolete) E-Theta Pattern (Sweep Theta): E_Theta
(Obsolete) Gamma1 Measured with Gamma-Probe: GAM1_GP
(Obsolete) Gamma2 Measured with Gamma-Probe: GAM2_GP
(Obsolete) Gamma Measured with Modified Gamma-Probe: GAM_GPM
(Obsolete) Generalized Interpolated Load Pull Data Points: G_LPINT
(Obsolete) Generalized Interpolated Load Pull Aligned Data Points: G_LPINT_A
(Obsolete) Load Pull Contours, Simulated: LPCS
(Obsolete) Maximum of Load Pull Contours (Simulated): LPCSMAX
(Obsolete) Minimum of Load Pull Contours (Simulated): LPCSMIN
(Obsolete) Total Radiated Power (Sweep Theta): P_Rad
(Obsolete) Stability Index Measured with Gamma-Probe: STAB_GP
(Obsolete) Stability Index Measured with Modified Gamma-Probe: STAB_GPM
(Obsolete) Nyquist Stability Measured with Gamma-Probe: STAB_GPN
(Obsolete) Nyquist Stability Measured with Modified Gamma-Probe: STABN_GPM
(Obsolete) Single-Tone Transducer Voltage Gain (Swept Power): TVG
Output Equations
Select Output Equation: Eqn
Synthesis
Reflection Coefficient Region Step Function: HarmAreaMatch
Synthesize from Load Pull Data: LoadPull
Synthesize from Aligned Load Pull Data: LoadPull_A
Operating Power Gain of Synthesized Network: NetGp
Mismatch Loss Matching into a Network: NetMatch
Mismatch Loss Matching between 2 Networks: NetMatch2
Return Loss Calculated from Mismatch Loss into a Network: NetMatchRL
Noise Figure Matching into Network B: NoiseMatch
Yield
Statistical Average for Measurements in a Yield Analysis: MeasMean
Statistical Median for Measurements in a Yield Analysis: MeasMedian
Minimum and Maximum for Measurements in a Yield Analysis: MeasRange
Statistics Variation for Measurements in a Yield Analysis: MeasSigma
Yield Percentage: Yield
Standard Deviation of Yield Estimate Error: YldError
Yield Data to XML File: YldToXML
Performance Histogram: YMeas
Pareto Measurement for Yield: YPareto
Iteration Status: YPassFail
Ranked Yield Improvement Estimate (by Component Variation Elimination): YRank
Ranked Yield Improvement Estimate (by Component Variation Elimination and Centering): YRankCenter
Vector of Sample Values Used in the Yield Analysis: YSample
Component Sensitivity Histogram: YSens

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