SBASAF7 Data sheet | TI.com

SBASAF7D January 2022 – May 2025 AFE7906

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

ABJ|400
- MCBG079C
ALK|400
- MPBGAU3B

Thermal pad, mechanical data (Package|Pins)

Orderable Information

4.11.7 RX Typical Characteristics 6.8GHz

Typical values at T_A = +25°C. Default conditions at 30MHz: ADC Sampling Rate = 3000MSPS, output sample rate = 1500MSPS (decimate by 2x), External clock mode , A_IN = –3 dBFS, DSA setting = 3 dB.

AFE7906 RX
In-Band Gain Flatness

Normalized to 6.6GHz

Figure 4-202 RX In-Band Gain Flatness

AFE7906 RX
Calibrated Differential Amplitude Error at 6.851GHz

Calibrated at 25°C, held at -40 and 110°C

Figure 4-204 RX Calibrated Differential Amplitude Error at 6.851GHz

AFE7906 RX
Calibrated Integrated Amplitude Error at 6.851GHz

Calibrated at 25°C, held at -40 and 110°C

Figure 4-206 RX Calibrated Integrated Amplitude Error at 6.851GHz

AFE7906 RX
Calibrated Differential Phase Error at 6.851GHz

Calibrated at 25°C, held at -40 and 110°C

Figure 4-208 RX Calibrated Differential Phase Error at 6.851GHz

AFE7906 RX
Calibrated Integrated Phase Error at 6.851GHz

Calibrated at 25°C, held at -40 and 110°C

Figure 4-210 RX Calibrated Integrated Phase Error at 6.851GHz

AFE7906 RX Output FFT at 6.851GHz and -6dBFS

F_NCO = 6.851GHz, F_IN offset -130kHz

Figure 4-212 RX Output FFT at 6.851GHz and -6dBFS

AFE7906 RX Output FFT at 6.851GHz and -30dBFS

F_NCO = 6.851GHz, F_IN offset -130kHz

Figure 4-214 RX Output FFT at 6.851GHz and -30dBFS

AFE7906 RX NSD vs Input Amplitude at 6.851GHz

Figure 4-216 RX NSD vs Input Amplitude at 6.851GHz

AFE7906 RX IMD3 vs DSA Setting at 6.851GHz

100MHz Tone Spacing

Figure 4-218 RX IMD3 vs DSA Setting at 6.851GHz

AFE7906 RX NSD vs DSA Setting at 6.851GHz

Figure 4-220 RX NSD vs DSA Setting at 6.851GHz

AFE7906 RX HD2 vs Input Amplitude at 6.851GHz

DSA = 0dB

Figure 4-222 RX HD2 vs Input Amplitude at 6.851GHz

AFE7906 RX HD2 vs DSA Setting at 6.851GHz

Figure 4-224 RX HD2 vs DSA Setting at 6.851GHz

AFE7906 RX HD3 vs DSA Setting at 6.851GHz

Figure 4-226 RX HD3 vs DSA Setting at 6.851GHz

AFE7906 RX Additive Phase Noise at 6.85GHz

Figure 4-228 RX Additive Phase Noise at 6.85GHz

AFE7906 RX
Uncalibrated Differential Amplitude Error at 6.851GHz

Figure 4-203 RX Uncalibrated Differential Amplitude Error at 6.851GHz

AFE7906 RX
Uncalibrated Integrated Amplitude Error at 6.851GHz

Figure 4-205 RX Uncalibrated Integrated Amplitude Error at 6.851GHz

AFE7906 RX
Uncalibrated Differential Phase Error at 6.851GHz

Figure 4-207 RX Uncalibrated Differential Phase Error at 6.851GHz

AFE7906 RX
Uncalibrated Integrated Phase Error at 6.851GHz

Figure 4-209 RX Uncalibrated Integrated Phase Error at 6.851GHz

AFE7906 RX Output FFT at 6.851GHz and -3dBFS

F_NCO = 6.851GHz, F_IN offset -130kHz

Figure 4-211 RX Output FFT at 6.851GHz and -3dBFS

AFE7906 RX Output FFT at 6.851GHz and -12dBFS

F_NCO = 6.851GHz, F_IN offset -130kHz

Figure 4-213 RX Output FFT at 6.851GHz and -12dBFS

AFE7906 RX Output FFT at 6.851GHz and -60dBFS

F_NCO = 6.851GHz, F_IN offset -130kHz

Figure 4-215 RX Output FFT at 6.851GHz and -60dBFS

AFE7906 RX IMD3 vs Input Amplitude at 6.851GHz

100MHz Tone Spacing

Figure 4-217 RX IMD3 vs Input Amplitude at 6.851GHz

AFE7906 RX IMD3 vs Tone Spacing at 6.851GHz

Figure 4-219 RX IMD3 vs Tone Spacing at 6.851GHz

AFE7906 RX HD2 vs Input Amplitude at 6.851GHz

Figure 4-221 RX HD2 vs Input Amplitude at 6.851GHz

AFE7906 RX HD2 vs Input Amplitude at 6.851GHz

DSA = 12dB

Figure 4-223 RX HD2 vs Input Amplitude at 6.851GHz

AFE7906 RX HD3 vs Input Amplitude at 6.851GHz

Figure 4-225 RX HD3 vs Input Amplitude at 6.851GHz

AFE7906 RX 2-tone SFDR vs Input Amplitude at 6.85GHz

100MHz tone spacing, excluding 3^rd order distortion

Figure 4-227 RX 2-tone SFDR vs Input Amplitude at 6.85GHz