Typical values at TA = +25°C with
nominal supplies. Default conditions: TX input data rate = 491.52 MSPS,
fDAC = 11796.48 MSPS (8x interpolation), Mixed mode, 1st
Nyquist zone output, PLL clock mode with fREF = 1474.56 MHz,
AOUT = –1 dBFS, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated, TX
Clock Dither Enabled, 9.6 GHz matching
| Includes PCB and cable losses. |
Figure 5-229 TX
Output Power vs Frequency at 9.61 GHz
| Includes PCB and cable losses. |
Figure 5-231 TX
Output Power vs DSA Setting at 9.6 1GHz
Figure 5-233 TX
DSA Calibrated Amplitude Differential Nonlinearity
Figure 5-235 TX
DSA Calibrated Amplitude Differential Nonlinearity
Figure 5-237 TX
DSA Calibrated Amplitude Integrated Nonlinearity
Figure 5-239 TX
DSA Calibrated Amplitude Integrated Nonlinearity
Figure 5-241 TX
DSA Calibrated Phase Differential Nonlinearity
Figure 5-243 TX
DSA Calibrated Phase Differential NonlinearityFigure 5-245 TX
DSA Calibrated Phase Integrated Nonlinearity 
Figure 5-247 TX
DSA Calibrated Amplitude Integrated Nonlinearity
Figure 5-249 TX
IMD3 vs Digital Amplitude at 9.61 GHz
Figure 5-251 TX
IMD3 vs DSA Setting at 9.61 GHz
Figure 5-253 TX
IMD3 vs Tone Spacing at 9.61 GHz
Figure 5-255 TX
IMD3 vs Tone Spacing at 9.61 GHz
Figure 5-257 TX
NSD vs Digital Amplitude at 9.61 GHz
Figure 5-259 TX
NSD vs DSA Setting at 9.61 GHz
Figure 5-261 TX
2-tone SFDR vs Digital Amplitude at 9.61 GHz
| Includes PCB and cable losses. |
Figure 5-263 TX
Single Tone Spectrum at 9.61 GHz and -1 dBFS (400 MHz BW)
| Includes PCB and cable losses. |
Figure 5-265 TX
Single Tone Spectrum at 9.61 GHz and -6 dBFS (400 MHz BW)
| Includes PCB and cable losses. |
Figure 5-267 TX
Single Tone Spectrum at 9.61 GHz and -12 dBFS (400 MHz BW)
| Includes PCB and cable losses, 50 MHz tone
spacing. |
Figure 5-269 TX
2-Tone Spectrum at 9.61 GHz and -7 dBFS (400 MHz BW)
| Includes PCB and cable losses, 50 MHz tone
spacing. |
Figure 5-271 TX
2-Tone Spectrum at 9.61 GHz and -12 dBFS (400 MHz BW)
Figure 5-273 TX
NR100MHz ACPR vs DSA Setting at 9.61 GHz
Figure 5-275 TX
NR100MHz EVM vs DSA Setting at 9.61 GHz
| Includes PCB and cable losses. |
Figure 5-230 TX
Output Power vs Frequency at 9.61 GHz
Figure 5-232 TX
DSA Uncalibrated Amplitude Differential Nonlinearity
Figure 5-234 TX
DSA Uncalibrated Amplitude Differential Nonlinearity
Figure 5-236 TX
DSA Uncalibrated Amplitude Integrated Nonlinearity
Figure 5-238 TX
DSA Uncalibrated Amplitude Integrated Nonlinearity
Figure 5-240 TX
DSA Uncalibrated Phase Differential Nonlinearity
Figure 5-242 TX
DSA Uncalibrated Phase Differential Nonlinearity
Figure 5-244 TX
DSA Uncalibrated Phase Integrated Nonlinearity
Figure 5-246 TX
DSA Uncalibrated Phase Integrated Nonlinearity
Figure 5-248 TX
IMD3 vs Digital Amplitude at 9.61 GHzFigure 5-250 TX
IMD3 vs DSA Setting at 9.61 GHz 
Figure 5-252 TX
IMD3 vs DSA Setting at 9.61 GHz
Figure 5-254 TX
IMD3 vs Tone Spacing at 9.61 GHz
Figure 5-256 TX
NSD vs Digital Amplitude at 9.61 GHz
Figure 5-258 TX
NSD vs DSA Setting at 9.61 GHz
Figure 5-260 TX
NSD vs DSA Setting at 9.61 GHz
| Includes PCB and cable losses. |
Figure 5-262 TX
Single Tone Spectrum at 9.61 GHz and -1 dBFS (wideband)
| Includes PCB and cable losses. |
Figure 5-264 TX
Single Tone Spectrum at 9.61 GHz and -6 dBFS (wideband)
| Includes PCB and cable losses. |
Figure 5-266 TX
Single Tone Spectrum at 9.61 GHz and -12 dBFS (wideband)
| Includes PCB and cable losses, 50 MHz tone
spacing. |
Figure 5-268 TX
2-Tone Spectrum at 9.61 GHz and -7 dBFS (wideband)
| Includes PCB and cable losses, 50MHz tone
spacing. |
Figure 5-270 TX
2-Tone Spectrum at 9.61 GHz and -12 dBFS (wideband)
| Single
sideband, external clock mode, input clock phase noise
removed |
Figure 5-272 TX
Additive Phase Noise vs Offset Frequency at 9.61 GHz
Figure 5-274 TX
NR100MHz alt-ACPR vs DSA Setting at 9.61 GHz
