Working with Mixers/Reverse Power Effects

Note

Uncoupled operation applies to Option 001 synthesizers only.

Uncoupled operation is useful when working with mixers. Figure 1-16 shows a hypothetical setup where the synthesizer is providing

a small signal to a mixer. The synthesizer output is -8 dBm, which in Leveling Node Normal results in ATTEN = 0 dB,

ALC Level = -8 dBm. The mixer is driven with an LO of +lO dBm, and has LO to RF isolation of 15 dB. The resulting LO feedthrough of -5 dBm enters the synthesizer’s OUTPUT port, goes through the attenuator with no loss, and arrives at the internal detector. Depending on frequency, it is possible for most of this energy to enter the detector. Since the detector responds to its total input power regardless of frequency, this excess energy causes the leveling circuit to reduce its output. In this example the reverse power is actually larger than the ALC level, which may result in the synthesizer output being shut off.

Figure 1-17 shows the same setup, with uncoupled operation used to

 

produce the same -8 dBm output. In this case, ATTEN = -10 dB,

 

ALC Level = +2 dBm. The ALC level is 10 dB higher, and the

 

attenuator reduces the LO feedthrough by 10 dB. Thus the detector

 

sees a -l-2 dBm desired signal versus a possible -15 dBm undesired

 

signal. This 17 dB difference results in a maximum 0.1 shift in the

 

synthesizer output level. To set the synthesizer to the attenuator

 

uncoupled mode as discussed in this example, do the following:

.

1.Press POWER (MENU).

2.Select Set Atten and press (iJ @J (dB(m)). This step does two things, it uncouples the attenuator from the rest of the ALC system, and it lets you set an attenuator value, in this case, 10 dB.

3.Press [POWER LEVEL) (?J (j-l). This sets the ALC level to +2 dBm.

For more information on the ALC or setting power level, refer to IALC) or (POWER LEVEL) in Chapter 2.

I-30 Getting Started Advanced