BaseBand mixer levels with sineWave Input
14mar08
Note: apr08 the a/d input sensitivity
was increased by 6db .
On 11mar08 a
sine wave was injected into the pdev baseband mixers to measure the
mixer and pdev A/D levels. The setup was:
- hp8648synth -> bbmBm0A ->
pdev
- The hp8648 synthesizer generated a 170 MHz sine wave. The pdev
mixer LO's were set to 175 and 325 MHz so the sine wave would appear 5
MHz below the center of the lower 170 MHz band.
- The synthesizer power levels were set to: [-35,-25,-15,-10,-5,
and 5 dbm].
- pnet --sigstat was run to measure the rms voltage in A/D counts.
- Some data was taken to see the sine wave spectrum
Note: These tests were done
with an inband sine wave. The filters did not cut out any power. When
noise is input, the power will also be reduced by the fraction of the
band that is removed. This differs for the low band (250Mhz lowpass)
and hiband (400 Mhz lowpass). It will also make a difference if we use
alfa (300Mhz bw) or single pixel (500Mhz input).
The plots show the
A/D output levels versus the bbm input power (.ps) (.pdf):
- Page 1 top: Sine wave Peak amplitude (in A/D counts) vs input
power.
- Page 1 bottom: (rmsSineWaveAmplitude)^2 vs input power. The
vertical scale was changed to db's so the plot should be linear. There
is a falloff around -15 bm input power. This had a sine wave with about
850 A/D counts peak.
- Page 2 The spectra of the sine wave for the different input
levels. Most of the spectra have overflows in The table below show the
input/output power levels by component for
these two inputs:the pfb butterfly stages. The inter mods/ harmonics
are probably being created in the mixer chassis (since this was not
seen when the sine wave was injected directly into the A/D converters).
Measuring the bbm component levels.
The input/output levels for the various components
in the mixer chassis were computed for the following levels:
- -15 dbm input, 0 dbm attenuation, 2 dbm ouput. Onset of
compression.
- 7dbm input, 9 dbm output , 15 dbm attenuation. Full scale A/D
sine wave with 15 db attenuators
- A 9 dbm output will generate a sine wave with an amplitude of
2047 A/D counts.
- -8dbm input, 9 dbm output, 0 dbm attenuation. Full scale A/D sine
wave with 0 db attenuators.
Onset of compression: attn 0,-15 dbm input, 2 dbm output.
Input Output Component
-15.0 -19.0 H1 splitter
-19.0 -20.0 LPF1
-20.0 -21.5 H2 ProgAttn set to: 0. db
-21.5 0.5 H3-1 Amp
0.5 -4.5 U5 Attn
-4.5 15.5 H3-5 Amp
15.5 11.5 H1-2 Splitter
11.5 7.5 U4-Attn
7.5 -3.5 H4 Mixer
-3.5 -11.5 U3 Attn
-11.5 -12.5 LPF2
-12.5 -18.5 R2 attn
-18.5 2.0 H5-1 Amp
2.0 -7.0 U1 Attn
-7.0 8.0 H6-1 Amp
8.0 2.0 U2 Attn
A/D full scale:attn 15, 7 dbm input, 9 dbm output.
Input Output Component
7.0 3.0 H1 splitter
3.0 2.0 LPF1
2.0 -14.5 H2 ProgAttn set to: 15. db
-14.5 7.5 H3-1 Amp
7.5 2.5 U5 Attn
2.5 22.5 H3-5 Amp
22.5 18.5 H1-2 Splitter
18.5 14.5 U4-Attn
14.5 3.5 H4 Mixer
3.5 -4.5 U3 Attn
-4.5 -5.5 LPF2
-5.5 -11.5 R2 attn
-11.5 9.0 H5-1 Amp
9.0 0.0 U1 Attn
0.0 15.0 H6-1 Amp
15.0 9.0 U2 Attn
A/D full scale: attn 0, -8 dbm input, 9 dbm output.
Input Output Component
-8.0 -12.0 H1 splitter
-12.0 -13.0 LPF1
-13.0 -14.5 H2 ProgAttn set to: 0. db
-14.5 7.5 H3-1 Amp
7.5 2.5 U5 Attn
2.5 22.5 H3-5 Amp
22.5 18.5 H1-2 Splitter
18.5 14.5 U4-Attn
14.5 3.5 H4 Mixer
3.5 -4.5 U3 Attn
-4.5 -5.5 LPF2
-5.5 -11.5 R2 attn
-11.5 9.0 H5-1 Amp
9.0 0.0 U1 Attn
0.0 15.0 H6-1 Amp
15.0 9.0 U2 Attn
Conclusions:
- The bbmixer chassis starts to compress around -15 dbm input and 0
db attenuation.
- The h3-5 amp is outputting 15.5 dbm
- The pdev A/D digitizers need 9 dbm for a full scale sine wave:
- with 15 db attenuation, the mixer input is 7 dbm, H3-5
amp needs to output 22.5 dbm
- with 0 db attenuation , the mixer input is -15 dbm, the H3-5
amp needs to output 22.5 dbm.
- The mixer chassis is limiting the pdev A/D's to a peak sine wave
value of 850 counts which is 9+ bits.
SEE
ALSO:
processing:
x101/pdev/Meas/injSine.pro
<-
page
up
home_~phil