Seems like rf-loop has some particularly good specimen of this analyzer - maybe some early hand-crafted/polished prototype 
If I look at your measurements @ 2.1GHz and compare it to the specifications, then I get this:
RBW=10kHz, Preamp=on Measured: -119dBm; Specified: <-115dBm, typ. -118dBm; >typ.
RBW=10kHz, Preamp=off Measured: -101dBm; Specified: <-95dBm, typ. -99dBm; >typ.
RBW=1MHz, Preamp=on Measured: -98dBm; Specified: <-95dBm, typ. -98dBm; =typ.
RBW=1MHz, Preamp=off Measured: -80dBm; Specified: <-75dBm, typ. -78dBm; >typ.
As far as I can tell your unit is not only within the guaranteed specifications, but also meets or even exceeds the typical ones.
Okay, I just had the feeling something was wrong and then seeing those screenshots made me wonder even more. It's my first SA and by far the most expensive piece in my amateur set-up, I guess I'm just concerned about its state since my experience with this devices is somewhat nonexistent.
Nevertheless, I appreciate the reply, I was at work and felt extremely relieved until rf-loop's response
I know this reply dates quite a while, but I received my SA last week and it "seemed" to be a previously used/returned unit (no screen plastic, really small dent on the casing).
After unpacking the unit, noise floor curve looked quite higher than the average ones I saw in videos/reviews but the image you posted makes me think there's something wrong with my SA.
I've used the same parameters you used to do a 2.1gig sweep, RBW/VBW 1kHz, all traces average (same colour/trace per measurement), sweep mode "sweep" and input 50ohm terminated. Check this out:
Also, the TG flatness (which I think it should be somewhere less or around 3dB) is quite off to. I'm not that concerned about that since the cables I had lying around are long and old but still, I have a bad feeling about this particular unit...
Has anyone had a problem like this with Siglent instruments?
I think it need look bit more deeply.
I have one concern from what I see in your image. But I do not tell it yet before some further knowledge about your individual unit. (these traces are still in specs but....)
But first I need know do you have any reliable trusted signal source, pure sine wave and example between 5 - 50MHz what level you really KNOW so that absolute error is least less 1 dBm. Something between -30dBm to 0dBm.
Measure some these known level signals with SSA and note if level error is inside this method reliable limits or clearly outside.
And note, RF input is extremely sensitive for EOS/ESD and it happen easy! You do not feel any "static electric" and still it can be damage level. This is common to all, not for just you.
Even if you do not have reliable known level source:
1.
Set factory defaul. RF input terminated
Set trace A Clear write
Set trace D Clear write
Set Detector Trace A: "Average Log Pwr"
Set Detector Trace D: "Pos Peak"
Set RBW=VBW=10kHz
Set Attenuator 0dB
Set Ref level -50dBm
Take this kind of image, SA continuously running
2.
Set SA for factory preset (defaults)
Connect SSA own Ref Out (10MHz) to RF input.
Set Atten 30dB
Set Ref level +10dBm
Set center Frequency 10MHz
Set RBW 300kHz
Press Peak (marker show now peak value, note this value)
Take this kind of image, SA continuously running
Then if you want at this time do more
Set factory defaults
connect again 10MHz ref out to RF in.
Set center freq 10MHz, Span 10kHz (I believe you see 1kHz RBW)
Set attenuator 30dB and reference level +10dBm
Press Peak and select also in this menu Cont Peak ON
Note marker level
Press System
In this menu select Calibration
There open selection AutoCal and it is "Close"
Turn it "Open" and note how much your marker level change.
Write down "Open" value and "Close" value of marker level.
Tell these both values.
Quoting Mr. Snow - Everything before the word "but" is horse shit -
I have a couple signal generators but they are both too old and too slow, plus the output level is knob-set... That's a no-go.
So far I've barely used the device (just plugged it in, did the noise floor measurements, and some return loss testing on an antenna). Always at really low output levels and with protection (dc-block on the input, 6dB attenuator on the output of the TG), just in case.
Concerning an ESD event, I have the place all covered in ESD mats, and I regularly discharge myself, but there's always the possibility...
Okay enough, I'll cut to it:
STEP 1Set factory defaul. RF input terminated
[DONE]Set trace A Clear write
[DONE]Set trace D Clear write
[DONE]Set Detector Trace A: "Average Log Pwr"
[DONE]Set Detector Trace D: "Pos Peak"
[DONE]Set RBW=VBW=10kHz
[DONE]Set Attenuator 0dB
[DONE]Set Ref level -50dBm
[DONE]
STEP 2Set SA for factory preset (defaults)
[DONE]Connect SSA own Ref Out (10MHz) to RF input.
[DONE]Set Atten 30dB
[DONE]Set Ref level +10dBm
[DONE]Set center Frequency 10MHz
[DONE]Set RBW 300kHz
[DONE]Press Peak (marker show now peak value, note this value)
2.28dB
STEP 3Then if you want at this time do more
Set factory defaults
[DONE]connect again 10MHz ref out to RF in.
[DONE]Set center freq 10MHz, Span 10kHz (I believe you see 1kHz RBW)
[DONE]Set attenuator 30dB and reference level +10dBm
[DONE]Press Peak and select also in this menu Cont Peak ON
[DONE]Note marker level
2.34-2.35dB Note marker freq. is slightly lower, it varies between RBW, i guess it's normal but worth mentioningPress System
[DONE]In this menu select Calibration
[DONE]There open selection AutoCal and it is "Close"
[DONE]Turn it "Open" and note how much your marker level change.
[DONE]Write down "Open" value and "Close" value of marker level.l
OPEN: 2.35dB | CLOSE: 2.28dBCLOSE: 2.35dB 
OPEN: 2.28dB 
Okay, that was it, I tried to eagerly follow as accurately as I could.
Thanks guys for the time, it's quite hard to get nice and elaborated replies when it's your first post
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