Typical values at TA = +25°C, ADC
Sampling Rate = 2949.12 GHz. Default conditions: output sample rate = 491.52 MSPS
(decimate by 6), PLL clock mode with fREF = 491.52 MHz, AIN =
–3 dBFS, DSA setting = 4 dB.
![AFE7901 RX
In-Band Gain Flatness, fIN = 3600 MHz GUID-AF98CB2A-6605-4B2A-94FD-BBE8B3524BB4-low.gif](/ods/images/SBASAO5A/GUID-AF98CB2A-6605-4B2A-94FD-BBE8B3524BB4-low.gif)
With
3.6 GHz matching, normalized to 3.6 GHz |
|
Figure 7-137 RX
In-Band Gain Flatness, fIN = 3600 MHz![AFE7901 RX
Uncalibrated Differential Amplitude Error vs DSA Setting at 3.6 GHz GUID-EED323FE-9547-4D13-8CD7-226E184F2B9B-low.gif](/ods/images/SBASAO5A/GUID-EED323FE-9547-4D13-8CD7-226E184F2B9B-low.gif)
With
3.6 GHz matching |
Differential Amplitude Error = PIN(DSA
Setting – 1) – PIN(DSA Setting) + 1 |
Figure 7-139 RX
Uncalibrated Differential Amplitude Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Uncalibrated Integrated Amplitude Error vs DSA Setting at 3.6 GHz GUID-07D3E453-548D-4012-B120-C427B821068A-low.gif](/ods/images/SBASAO5A/GUID-07D3E453-548D-4012-B120-C427B821068A-low.gif)
With
3.6 GHz matching |
Integrated Amplitude Error = PIN(DSA
Setting) – PIN(DSA Setting = 0) + (DSA
Setting) |
Figure 7-141 RX
Uncalibrated Integrated Amplitude Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Uncalibrated Phase Error vs DSA Setting at 3.6 GHz GUID-3276DA58-9958-466F-A0DD-70B7070F67BF-low.gif](/ods/images/SBASAO5A/GUID-3276DA58-9958-466F-A0DD-70B7070F67BF-low.gif)
With
3.6 GHz matching |
Differential Phase Error = PhaseIN(DSA
Setting – 1) – PhaseIN(DSA Setting) |
Figure 7-143 RX
Uncalibrated Phase Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Uncalibrated Integrated Phase Error vs DSA Setting at 3.6 GHz GUID-0787ABE6-93F1-4A5B-B9CE-A7D046871791-low.gif](/ods/images/SBASAO5A/GUID-0787ABE6-93F1-4A5B-B9CE-A7D046871791-low.gif)
With
3.6 GHz matching |
Integrated Phase Error = Phase(DSA Setting) – Phase(DSA
Setting = 0) |
Figure 7-145 RX
Uncalibrated Integrated Phase Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Output FFT at 3.6 GHz GUID-7BBFFCBF-271A-4057-ADB5-B99021640162-low.gif](/ods/images/SBASAO5A/GUID-7BBFFCBF-271A-4057-ADB5-B99021640162-low.gif)
With
3.6 GHz matching , fIN = 3610 MHz,
AIN = –3 dBFS |
|
Figure 7-147 RX
Output FFT at 3.6 GHz![AFE7901 RX
IMD3 vs Input Level and Temperature at 3.6 GHz GUID-A908A796-117B-4AB3-B672-3FDBF51C66A6-low.gif](/ods/images/SBASAO5A/GUID-A908A796-117B-4AB3-B672-3FDBF51C66A6-low.gif)
With
3.5 GHz matching, 20-MHz tone spacing |
|
Figure 7-149 RX
IMD3 vs Input Level and Temperature at 3.6 GHz![AFE7901 RX
IMD3 vs Tone Spacing at 3.76 GHz GUID-6B5610FF-30E3-42D1-A4C9-27FAD1DAF05A-low.png](/ods/images/SBASAO5A/GUID-6B5610FF-30E3-42D1-A4C9-27FAD1DAF05A-low.png)
External clock mode, 2x Decimation |
|
Figure 7-151 RX
IMD3 vs Tone Spacing at 3.76 GHz![AFE7901 RX
HD2 vs DSA Setting and Temperature at 3.6 GHz GUID-9BFBE72E-3C5A-481B-8EC1-29FED2882AF4-low.gif](/ods/images/SBASAO5A/GUID-9BFBE72E-3C5A-481B-8EC1-29FED2882AF4-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-153 RX
HD2 vs DSA Setting and Temperature at 3.6 GHz![AFE7901 RX
HD2 vs Input Level and Temperature at 3.6 GHz GUID-B73FAF1E-EC7C-4A27-A319-B360D14CE56E-low.gif](/ods/images/SBASAO5A/GUID-B73FAF1E-EC7C-4A27-A319-B360D14CE56E-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-155 RX
HD2 vs Input Level and Temperature at 3.6 GHz![AFE7901 RX
HD2 vs Input Level GUID-66681026-FD91-4114-9936-0E590383BC72-low.svg](/ods/images/SBASAO5A/GUID-66681026-FD91-4114-9936-0E590383BC72-low.svg)
External clock mode, 25°C, 2x Decimation |
Figure 7-157 RX
HD2 vs Input Level![AFE7901 RX
HD3 vs DSA Setting and Temperature at 3.6 GHz GUID-B38BA199-4FCD-41CD-8EA8-6801D719111B-low.gif](/ods/images/SBASAO5A/GUID-B38BA199-4FCD-41CD-8EA8-6801D719111B-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-159 RX
HD3 vs DSA Setting and Temperature at 3.6 GHz![AFE7901 RX
HD3 vs Input Level and Temperature at 3.6 GHz GUID-10C52E2B-A2BA-4C86-97FA-728D832DD570-low.gif](/ods/images/SBASAO5A/GUID-10C52E2B-A2BA-4C86-97FA-728D832DD570-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-161 RX
HD3 vs Input Level and Temperature at 3.6 GHz![AFE7901 RX
HD3 vs Input Level GUID-EC6DDA3E-2E1F-44AB-90C5-A62B373BEB76-low.png](/ods/images/SBASAO5A/GUID-EC6DDA3E-2E1F-44AB-90C5-A62B373BEB76-low.png)
External clock mode, 25°C, 2x Decimation |
Figure 7-163 RX
HD3 vs Input Level![AFE7901 RX
Noise Spectral Density vs Input Level at 3.76GHz GUID-CC86C615-E3F5-419A-8C30-1F5A6089C272-low.png](/ods/images/SBASAO5A/GUID-CC86C615-E3F5-419A-8C30-1F5A6089C272-low.png)
External clock mode, 25°C, 2x Decimation |
Figure 7-165 RX
Noise Spectral Density vs Input Level at 3.76GHz
Figure 7-167 RX
SFDR Excluding HD2/3 vs DSA Setting and Channel at 3.6 GHz![AFE7901 RX
2-tone SFDR vs Input Amplitude and Frequency at 3.7 GHz GUID-9C10C68A-5A4B-460B-8738-105F44544C31-low.png](/ods/images/SBASAO5A/GUID-9C10C68A-5A4B-460B-8738-105F44544C31-low.png)
External clock mode, 20MHz tone spacing, excluding
3rd order distortion |
Figure 7-169 RX
2-tone SFDR vs Input Amplitude and Frequency at 3.7 GHz![AFE7901 RX
IMD5 vs Supply Voltage and Channel at 3.6 GHz GUID-BCC2D9DB-4289-4C64-879F-1C29A9733058-low.svg](/ods/images/SBASAO5A/GUID-BCC2D9DB-4289-4C64-879F-1C29A9733058-low.svg)
With
3.6 GHz matching, –7 dBFS each tone, 20-MHz tone
spacing, all supplies at MIN, TYP, or MAX recommended
operating voltages |
Figure 7-171 RX
IMD5 vs Supply Voltage and Channel at 3.6 GHz![AFE7901 RX
Input Phase vs Temperature at 3.6 GHz GUID-8BBD6177-829F-48A1-81C7-88E2E108FE0C-low.gif](/ods/images/SBASAO5A/GUID-8BBD6177-829F-48A1-81C7-88E2E108FE0C-low.gif)
With
3.6 GHz matching, normalized to phase at 25°C |
Figure 7-138 RX
Input Phase vs Temperature at 3.6 GHz![AFE7901 RX
Calibrated Differential Amplitude Error vs DSA Setting at 3.6 GHz GUID-C7B1FAA3-A6A1-4278-A60A-7BEA58D3C472-low.gif](/ods/images/SBASAO5A/GUID-C7B1FAA3-A6A1-4278-A60A-7BEA58D3C472-low.gif)
With
3.6 GHz matching |
Differential Amplitude Error = PIN(DSA
Setting – 1) – PIN(DSA Setting) + 1 |
Figure 7-140 RX
Calibrated Differential Amplitude Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Calibrated Integrated Amplitude Error vs DSA Setting at 3.6 GHz GUID-FEE649A1-5843-44FA-8A9A-E05F0B6B19B1-low.gif](/ods/images/SBASAO5A/GUID-FEE649A1-5843-44FA-8A9A-E05F0B6B19B1-low.gif)
With
3.6 GHz matching |
Integrated Amplitude Error = PIN(DSA
Setting) – PIN(DSA Setting = 0) + (DSA
Setting) |
Figure 7-142 RX
Calibrated Integrated Amplitude Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Calibrated Differential Phase Error vs DSA Setting at 3.6 GHz GUID-DD90C529-82D0-42C4-8A3B-95AB17179DC3-low.gif](/ods/images/SBASAO5A/GUID-DD90C529-82D0-42C4-8A3B-95AB17179DC3-low.gif)
With
3.6 GHz matching |
Differential Phase Error = PhaseIN(DSA
Setting – 1) – PhaseIN(DSA Setting) |
Figure 7-144 RX
Calibrated Differential Phase Error vs DSA Setting at 3.6 GHz![AFE7901 RX
Calibrated Integrated Phase Error vs DSA Setting at 3.6 GHz GUID-AC5D3CD3-5AEC-4D4E-9934-5826E2A0B813-low.gif](/ods/images/SBASAO5A/GUID-AC5D3CD3-5AEC-4D4E-9934-5826E2A0B813-low.gif)
With
3.6 GHz matching |
Integrated Phase Error = Phase(DSA Setting) – Phase(DSA
Setting = 0) |
Figure 7-146 RX
Calibrated Integrated Phase Error vs DSA Setting at 3.6 GHz![AFE7901 RX
IMD3 vs DSA Setting and Temperature at 3.6 GHz GUID-12305056-CFF2-41F8-90C6-FCF6A3F97573-low.gif](/ods/images/SBASAO5A/GUID-12305056-CFF2-41F8-90C6-FCF6A3F97573-low.gif)
With
3.5 GHz matching, each tone at –7 dBFS, 20-MHz tone
spacing |
Figure 7-148 RX
IMD3 vs DSA Setting and Temperature at 3.6 GHz![AFE7901 RX
IMD3 vs Input Level GUID-83E7DCF1-AE29-449B-AF37-047B389B907F-low.png](/ods/images/SBASAO5A/GUID-83E7DCF1-AE29-449B-AF37-047B389B907F-low.png)
External clock mode, 20-MHz tone spacing, 2x
Decimation |
|
Figure 7-150 RX
IMD3 vs Input Level![AFE7901 RX
HD2 vs DSA Setting and Channel at 3.6 GHz GUID-204C8C78-EBE6-45F0-AC48-C6C0B1B2A0CA-low.gif](/ods/images/SBASAO5A/GUID-204C8C78-EBE6-45F0-AC48-C6C0B1B2A0CA-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-152 RX
HD2 vs DSA Setting and Channel at 3.6 GHz![AFE7901 RX
HD2 vs Input Level and Channel at 3.6 GHz GUID-46F98525-9C97-4903-8777-5A060DB95B71-low.gif](/ods/images/SBASAO5A/GUID-46F98525-9C97-4903-8777-5A060DB95B71-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-154 RX
HD2 vs Input Level and Channel at 3.6 GHz![AFE7901 RX
HD2 vs Input Level at 3.76 GHz GUID-20AB0649-A520-4478-BA63-2E7EEB144DA6-low.png](/ods/images/SBASAO5A/GUID-20AB0649-A520-4478-BA63-2E7EEB144DA6-low.png)
External clock mode, 2x Decimation |
Figure 7-156 RX
HD2 vs Input Level at 3.76 GHz![AFE7901 RX
HD3 vs DSA Setting and Channel at 3.6 GHz GUID-F90A01F1-FF2F-43F0-8AC9-8BFAF6E37914-low.gif](/ods/images/SBASAO5A/GUID-F90A01F1-FF2F-43F0-8AC9-8BFAF6E37914-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-158 RX
HD3 vs DSA Setting and Channel at 3.6 GHz![AFE7901 RX
HD3 vs Input Level and Channel at 3.6 GHz GUID-759F631D-1458-4438-A1EA-F12EBA6CBC6D-low.gif](/ods/images/SBASAO5A/GUID-759F631D-1458-4438-A1EA-F12EBA6CBC6D-low.gif)
With
3.5 GHz matching, DDC bypass mode (TI only mode for
characterization) |
Figure 7-160 RX
HD3 vs Input Level and Channel at 3.6 GHz![AFE7901 RX
HD3 vs Input Level at 3.76 GHz GUID-AF891D96-1C52-4D69-9B49-20D7652AFF88-low.svg](/ods/images/SBASAO5A/GUID-AF891D96-1C52-4D69-9B49-20D7652AFF88-low.svg)
External clock mode, 2x Decimation |
Figure 7-162 RX
HD3 vs Input Level at 3.76 GHz![AFE7901 RX
Noise Spectral Density vs Input Level and DSA Setting at 3.6 GHz GUID-BB26F20B-1D76-42AC-87E0-C1AD3532757A-low.gif](/ods/images/SBASAO5A/GUID-BB26F20B-1D76-42AC-87E0-C1AD3532757A-low.gif)
With
3.5 GHz matching, 12.5-MHz offset from tone |
Figure 7-164 RX
Noise Spectral Density vs Input Level and DSA Setting at 3.6 GHz
Figure 7-166 RX
In-Band SFDR (±200 MHz) vs Input Level and Channel at 3.6 GHz![AFE7901 RX
2-tone SFDR vs Input Amplitude and DSA Setting at 3.7 GHz GUID-0B3D8215-4BF7-4CBD-A5A3-E720C1A86315-low.svg](/ods/images/SBASAO5A/GUID-0B3D8215-4BF7-4CBD-A5A3-E720C1A86315-low.svg)
External clock mode, 20MHz tone spacing, excluding
3rd order distortion |
Figure 7-168 RX
2-tone SFDR vs Input Amplitude and DSA Setting at 3.7 GHz![AFE7901 RX
IMD3 vs Supply Voltage and Channel at 3.6 GHz GUID-80984AA6-97D2-41B8-B091-BFCE76EA565D-low.svg](/ods/images/SBASAO5A/GUID-80984AA6-97D2-41B8-B091-BFCE76EA565D-low.svg)
With
3.6 GHz matching, –7 dBFS each tone, 20-MHz tone
spacing, all supplies at MIN, TYP, or MAX recommended
operating voltages |
Figure 7-170 RX
IMD3 vs Supply Voltage and Channel at 3.6 GHz![AFE7901 RX
Noise Spectral Density vs Supply Voltage and Channel at 3.6 GHz GUID-AADB2CDE-862F-4E67-8528-46BEC7DA7D55-low.svg](/ods/images/SBASAO5A/GUID-AADB2CDE-862F-4E67-8528-46BEC7DA7D55-low.svg)
With
3.6 GHz matching, tone at –20 dBFS, 12.5-MHz offset
frequency, all supplies at MIN, TYP, or MAX recommended
operating voltages |
Figure 7-172 RX
Noise Spectral Density vs Supply Voltage and Channel at 3.6 GHz