Synthetic Up-Converter / Synthesizer Enter ModelName Here Enter ModelName Here Enter ModelName Here Enter ModelName Here Operating Humidity in percent Operating Shock limit in G's Operating Temperature in degrees Celsius Storage and Transport humidity in percent Storage and Transport Shock limit in G's Storage and Transport temperature in degrees Celsius Power line frequency in Hertz AC Line Voltage Power Line Current in Amps AC Power input Power line frequency in Hertz AC Line Voltage Power Line Current in Amps AC Power input H.1.1 Input related parameters H.1.1.1 Pulse modulation (PM) inputs/outputs H.1.1.1.1 PM overview Deliberately left blank for alignment with the related standard H.1.1.1.2 Pulse repetition frequency (PRF) input 1/(PRT) where PRT = pulse recurrence time H.1.1.1.3 Minimum pulse width (MPW) input H.1.1.1.4 Output on/off ratio H.1.1.1.5 Output rise/fall time H.1.1.1.5 Output rise/fall time H.1.1.1.6 Output pulse overshoot and ringing VOR H.1.1.1.7 Output pulse width compression H.1.1.1.8 Output video feedthrough (VF) VF H.1.1.1.9 Delay time TD H.1.1.1.10 Peak to CW level accuracy H.1.1.1.11 Input level type TTL CMOS H.1.1.1.12 Input level tolerance H.1.1.1.13 Logic polarity H.1.1.1.14 Connector designation/type/function See Connector Section H.1.1.2 Amplitude modulation input H.1.1.2.1 Modulation rate H.1.1.2.2 Depth of modulation m= Vmo/Vcarrier where Vmo=amplitude of the modulating signal input and Vcarrier the amplitude of the carrier in volts H.1.1.2.3 Total harmonic distortion (THD) THD = ? Undesired Harmonic Components/ Desired FM Output Frequency Components H.1.1.2.4 Sensitivity H.1.1.2.4(a) Sensitivity H.1.1.2.4(b) Programmable H.1.1.2.5 Depth of modulation accuracy Enter relevant conditions here H.1.1.2.6 Modulation overdrive threshold H.1.1.2.7 Maximum power at maximum modulation depth H.1.1.2.8 Input impedance H.1.1.2.9 Input level tolerance H.1.1.2.10 Connector designation/type/function See Connector Section H.1.1.3 ARB/Ext. IF input H.1.1.3.1 Input frequency range H.1.1.3.2 Input Level H.1.1.3.2.1 Linear input range Alternative unit of measure is Volts peak to peak H.1.1.3.2.2 Input level tolerance H.1.1.3.2.3 Maximum DC voltage input H.1.1.3.3 Instantaneous 3dB bandwidth H.1.1.3.4 Non harmonic spurious output responses H.1.1.3.5 Input impedance H.1.1.3.6 Input return loss H.1.1.3.7 Connector designation/type/function See Connector Section H.1.1.4 Frequency modulation inputs/outputs H.1.1.4.1 FM modulation rate Highest frequency over a 3dB bandwidth H.1.1.4.2 Input level H.1.1.4.2.1 Linear input range H.1.1.4.2.2 Input level tolerance H.1.1.4.3 Frequency deviation Enter relevant conditions here H.1.1.4.4 Total harmonic distortion (THD) H.1.1.4.5 FM sensitivity H.1.1.4.6 Input impedance H.1.1.4.7 Connector designation(s)/type(s)/function(s) See Connector Section H.1.1.5 I/Q modulation H.1.1.5.1 Input coupling This is not a specification its a requirement on all instruments In order to provide I/Q waveform compliance, I and Q ports shall be DC coupled H.1.1.5.2 Input impedance H.1.1.5.3 Input voltage H.1.1.5.3.1a Input level tolerance DC H.1.1.5.3.1b Input level tolerance AC H.1.1.5.3.2a Maximum linear input voltage DC This input value should be specified at its maximum modulating frequency value (i.e., FH) H.1.1.5.3.2b Maximum linear input voltage AC This input value should be specified at its maximum modulating frequency value (i.e., FH) H.1.1.5.4 Bandwidth 1dB (90 percent of maximum) drop in modulation output amplitude from its mid - band value H.1.1.5.5 Input amplitude match H.1.1.5.5 Input amplitude match Repeat for each bandwidth range e.g. DC-25%BW, 25%-50%BW Enter frequency range here H.1.1.5.5 Input amplitude match Repeat for each bandwidth range e.g. DC-25%BW, 25%-50%BW Enter frequency range here H.1.1.5.6 I/Q quadrature skew Best Input Phase Match shall be measured while the I/Q amplitude ratio is held at one. I and Q inputs are fed with phase locked generators with a 90 phase shift. The error is defined in degrees from the 90 degree shift for best sideband suppression. H.1.1.5.7 Sideband suppression H.1.1.5.7a Sideband suppression Repeat for each bandwidth range e.g. DC-25%BW, 25%-50%BW Enter frequency range here H.1.1.5.7 Sideband suppression Repeat for each bandwidth range e.g. DC-25%BW, 25%-50%BW Enter frequency range here H.1.1.5.8 Carrier leakage H.1.1.5.9 Connector designation(s)/type(s)/functions See Connector Section H.1.2 Output related parameters H.1.2.1 Frequency H.1.2.1.1 Output range H.1.2.1.2 Resolution a UPCONSYN has a different FR over multiple frequency bands, FR shall be specified for each band H.1.2.1.3 Accuracy H.1.2.1.4 Switching time H.1.2.1.4a Switching Time: SCPI Mode H.1.2.1.4b Settling Freq: SCPI Mode H.1.2.1.4c Switching Time: List Mode H.1.2.1.4d Settling Frequency: List Mode H.1.2.2 Power H.1.2.3.1 Leveled power range per frequency band H.1.2.3.1 Range (leveled) Enter frequency band here H.1.2.3.1 Range (leveled) Enter frequency band here H.1.2.3.2 Resolution H.1.2.3.3 Accuracy (over power and frequency bands) H.1.2.3.3 Accuracy (Flatness) The power range specified may be segmented and specified into multiple sub ranges if the UPCONSYN power accuracies are different for these sub-ranges Enter power and frequency band here H.1.2.3.3 Accuracy (Flatness) The power range specified may be segmented and specified into multiple sub ranges if the UPCONSYN power accuracies are different for these sub-ranges Enter power and frequency band here H.1.2.3.4 Switching time H.1.2.3.4a Switching Time :SCPI Mode H.1.2.3.4b Settling Level.: SCPI Mode H.1.2.3.4c Switching Time: List Mode H.1.2.3.4d Settling Level: List Mode H.1.2.4 Spectral purity H.1.2.4.1 Sub-harmonic spurious DeciBel Referenced to the carrier H.1.2.4.2 Harmonic spurious DeciBel Referenced to the carrier H.1.2.4.3 Non-Harmonically related spurious DeciBel Referenced to the carrier H.1.2.4.4 Power line related spurious DeciBel Referenced to the carrier H.1.2.4.5 Residual modulation H.1.2.4.5a Residual Modulation - FM Residual modulation (in a 50 Hz to 15 kHz band) of FM modulation detected on the carrier when none is applied to the modulation port. H.1.2.4.5b Residual Modulation - AM Residual modulation (in a 50 Hz to 15 kHz band) of AM modulation detected on the carrier when none is applied to the modulation port. H.1.2.4.6 Single sideband noise H.1.2.4.6a Single sideband noise at carrier offset Single sideband noise resulting from changes in frequency, in dB below the amplitude at the operating frequency of signal source using a 1Hz bandwidth Repeat at two or more frequency displacements from the operating frequency of the signal source. Enter frequency displacement here H.1.2.4.6a Single sideband noise at carrier offset Single sideband noise resulting from changes in frequency, in dB below the amplitude at the operating frequency of signal source using a 1Hz bandwidth Repeat at two or more frequency displacements from the operating frequency of the signal source. Enter frequency displacement here H.1.2.5 Source impedance H.1.2.5.1 RF/UW Output Source Impedance 50 or 75 Ohm H.1.2.6 Connector designation /type/function H.1.2.6.1 RF/ MW Output Connector # N See Connector Section H.1.3 Time base related parameters H.1.3.1 Reference frequency input (Ref In) H.1.3.1.1a Reference Frequency Lock Frequency Range H.1.3.1.1b RFI Signal Input Level Range H.1.3.1.1c RFI Input Impedance H.1.3.1.1d Connector Designation/Type/Function See Connector Section H.1.3.2 Reference frequency output (Ref Out) H.1.2.3.1a Ref Frequency Output (RFO) Frequency H.1.2.3.1a Ref Frequency Output (RFO) Frequency H.1.2.3.1c RFO Output Impedance H.1.2.3.1d RFO Frequency stability Optional units: ppm/year ppm/degC (over defined range) H.1.2.3.1e Connector Designation/Type/Function See Connector Section H.1.4 Power requirements See PowerRequirements Section H.1.5 Physical characteristics See PhysicalCharacteristics Section H.1.6 Communications and control H.1.6.1 Controllability/software driver See Control Section H.1.6.2 Internal/external control Specify whether can be controlled via an external or internal controller, or both H.1.6.3 Trigger input and trigger output H1.6.3.1 Trig Input H.1.6.3.2 Trig Input Impedance H.1.6.3.3 Trig Output H1.6.3.4 Trig Output Impedance H.1.6.4 Supported Busses See Buses Section