SBASAN1 Data sheet | TI.com

SBASAN1 july 2023 AFE7953

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

ABJ|400
- MCBG079C
ALK|400
- MPBGAU3B

Thermal pad, mechanical data (Package|Pins)

Orderable Information

6.12.6 TX Typical Characteristics at 8.1 GHz

Typical values at T_A = +25°C with nominal supplies. Default conditions: TX input data rate = 491.52 MSPS, f_DAC = 11796.48 MSPS (24x interpolation), mixed mode, 1^st Nyquist zone output, PLL clock mode with f_REF = 491.52 MHz, A_OUT = –1 dBFS, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated, TX Clock Dither Enabled, 8.1 GHz matching

includes PCB and cable losses.

Figure 6-182 TX Output Power vs Frequency at 8.11 GHz

includes PCB and cable losses.

Figure 6-184 TX Output Power vs Temperature at 8.11 GHz

Figure 6-186 TX DSA Calibrated Amplitude Differential Nonlinearity at 8.11 GHz

Figure 6-188 TX DSA Calibrated Amplitude Differential Nonlinearity at 8.11 GHz

Figure 6-190 TX DSA Calibrated Amplitude Integrated Nonlinearity at 8.11 GHz

Figure 6-192 TX DSA Calibrated Amplitude Integrated Nonlinearity at 8.11 GHz

Figure 6-194 TX DSA Calibrated Phase Differential Nonlinearity at 8.11 GHz

Figure 6-196 TX DSA Calibrated Phase Differential Nonlinearity at 8.11 GHz

Figure 6-198 TX DSA Calibrated Phase Integrated Nonlinearity at 8.11 GHz

Figure 6-200 TX DSA Calibrated Phase Integrated Nonlinearity at 8.11 GHz

-1 dBFS

Figure 6-202 TX Single Tone Output Spectrum at 8.11 GHz

-6 dBFS

Figure 6-204 TX Single Tone Output Spectrum at 8.11 GHz

-12 dBFS

Figure 6-206 TX Single Tone Output Spectrum at 8.11 GHz

50 MHz tone spacing, -7 dBFS each tone

Figure 6-208 TX Dual Tone Output Spectrum at 8.11 GHz

50 MHz tone spacing, -12 dBFS each tone

Figure 6-210 TX Dual Tone Output Spectrum at 8.11 GHz

-7 dBFS each tone, 50 MHz tone spacing

Figure 6-212 TX IMD3 vs Digital Amplitude at 8.11 GHz

50 MHz tone spacing

Figure 6-214 TX IMD3 vs DSA Setting at 8.11 GHz

50 MHz offset

Figure 6-216 TX NSD vs Digital Amplitude at 8.11 GHz

50 MHz offset

Figure 6-218 TX NSD vs DSA Setting at 8.11 GHz

Figure 6-220 TX NR100MHz ACPR vs DSA Setting 8.11 GHz

Figure 6-222 TX NR100 MHz EVM vs DSA Setting 8.11 GHz

includes PCB and cable losses.

Figure 6-183 TX Output Power vs DSA Setting at 8.11 GHz

Figure 6-185 TX DSA Uncalibrated Amplitude Differential Nonlinearity at 8.11 GHz

Figure 6-187 TX DSA Uncalibrated Amplitude Differential Nonlinearity at 8.11 GHz

Figure 6-189 TX DSA Uncalibrated Amplitude Integrated Nonlinearity at 8.11 GHz

Figure 6-191 TX DSA Uncalibrated Amplitude Integrated Nonlinearity at 8.11 GHz

Figure 6-193 TX DSA Uncalibrated Phase Differential Nonlinearity at 8.11 GHz

Figure 6-195 TX DSA Uncalibrated Phase Differntial Nonlinearity at 8.11 GHz

Figure 6-197 TX DSA Uncalibrated Phase Integrated Nonlinearity at 8.11 GHz

Figure 6-199 TX DSA Uncalibrated Phase Integrated Nonlinearity at 8.11 GHz

-1 dBFS

Figure 6-201 TX Single Tone Output Spectrum at 8.11 GHz

-6 dBFS

Figure 6-203 TX Single Tone Output Spectrum at 8.11 GHz

-12 dBFS

Figure 6-205 TX Single Tone Output Spectrum at 8.11 GHz

50 MHz tone spacing, -7 dBFS each tone

Figure 6-207 TX Dual Tone Output Spectrum at 8.11 GHz

50 MHz tone spacing, -12 dBFS each tone

Figure 6-209 TX Dual Tone Output Spectrum at 8.11 GHz

-7 dBFS each tone, 50 MHz tone spacing

Figure 6-211 TX IMD3 vs Digital Amplitude at 8.11 GHz

50 MHz tone spacing

Figure 6-213 TX IMD3 vs DSA Setting at 8.11 GHz

50 MHz tone spacing

Figure 6-215 TX 2-Tone SFDR vs Digital Amplitude at 8.11 GHz

50 MHz offset

Figure 6-217 TX NSD vs Digital Amplitude at 8.11 GHz

50 MHz offset

Figure 6-219 TX NSD vs DSA Setting at 8.11 GHz

Figure 6-221 TX NR100 MHz alt-ACPR vs DSA Setting 8.11 GHz

Figure 6-223 TX 100 MHz NR Output Spectrum at 8.11 GHz

Figure 6-224 TX 100 MHz NR EVM at 8.11 GHz

Figure 6-225 TX 4x100 MHz NR Output Spectrum 8.11 GHz

Figure 6-226 TX 4x100 MHz NR Output Spectrum 8.11 GHz