Measurement Guidelines
- IMD Tests - more Receive Attn is better
- Noise Figure - Use 0 dB Rec Attn.
- Set DB Current Limit = DB I Meas Max.
- Set VI Current Limit > VI I Meas Max.
- RF Sources - Levels <-22 to >+13 dBm
- DMSG - Optimum levels <-5 dBm
- RF Off is <-30 dBm
- Receive Attenuation
- IF Gain
- Signal Dependent
- Single tone
- Multi tone
- Measurement Repeatability
- Receive Attenuator
- Mixer
- IF Filter
- IF Amplifier
- Receiver Detector
System Sensitivities
- System Receiver Mixer
- Saturate
- Generate Intermodulation Distortion
- Receiver Detector
- Compression
- "Fold Over"
Single Tone Measurements
- RF Power, S-Parameter, Noise Figure
- Objectives
- Maximize Power to Receiver
- Maximize Power to Mixer
- Set Appropriate IF Gain
Single Tone Method
- Set IF Gain to 20dB or lower
- Reduce Rx Atten Until Warning Message
- Backoff One Rx Atten Setting
- Increase IF Gain Until Warning Message
- Backoff One IF Gain Setting
Multi Tone Measurements
- IM3/5/7 and ACPR
- Measure Device not Tester's Mixer
- Operate in the Mixer's Linear Range
- The Mixer Can Add to or Subtract from
- the Measurement
Mixer Intermods
- Receive Attenuator Controls Mixer IM
- Performance and System Noise Floor
Muilti Tone Method
- Measuring Main Tone(s)
- Not Sensitive to Mixer IMs
- Use Method for Single Tone
- Measuring IM & ACPR Tones
- Sensitive to Mixer's IM performance
- IF Gain usually at or near Maximum (Minimize noise floor)
- Verify with Spectrum Analyzer (SA)
- Be careful of SA's intermods!
- Set IF Gain 50/55; Receive Atten 20 dB
- Measure C/I
- Verify with Spectrum Analyzer
- Go to break point
- Set Receive input to Aux out
- Measure C/I
- If Different, Increase RF Attenuator
- Repeat
- Verify High and Low IM Tones
- Use Highest Linear Power DUT Condition
- Typically 20 dB Rx Atten, 55 dB IF Gain
- Too Much Rx Atten Raises Noise Floor