SBASA44B august   2021  – june 2023 AFE7900

PRODUCTION DATA  

  1.   1
  2. 1Features
  3. 2Applications
  4. 3Description
  5. 4Revision History
  6. 5Specifications
    1. 5.1  Absolute Maximum Ratings
    2. 5.2  ESD Ratings
    3. 5.3  Recommended Operating Conditions
    4. 5.4  Thermal Information
    5. 5.5  Transmitter Electrical Characteristics
    6. 5.6  RF ADC Electrical Characteristics
    7. 5.7  PLL/VCO/Clock Electrical Characteristics
    8. 5.8  Digital Electrical Characteristics
    9. 5.9  Power Supply Electrical Characteristics
    10. 5.10 Timing Requirements
    11. 5.11 Switching Characteristics
    12. 5.12 Typical Characteristics
      1. 5.12.1  RX Typical Characteristics 30 MHz and 400 MHz
      2. 5.12.2  RX Typical Characteristics at 800MHz
      3. 5.12.3  RX Typical Characteristics 1.75GHz to 1.9GHz
      4. 5.12.4  RX Typical Characteristics 2.6GHz
      5. 5.12.5  RX Typical Characteristics 3.5GHz
      6. 5.12.6  RX Typical Characteristics 4.9GHz
      7. 5.12.7  TX Typical Characteristics at 30MHz and 400MHz
      8. 5.12.8  TX Typical Characteristics at 800MHz
      9. 5.12.9  TX Typical Characteristics at 1.8GHz
      10. 5.12.10 TX Typical Characteristics at 2.6GHz
      11. 5.12.11 TX Typical Characteristics at 3.5GHz
      12. 5.12.12 TX Typical Characteristics at 4.9GHz
      13. 5.12.13 TX Typical Characteristics at 7.1GHz
      14. 5.12.14 PLL and Clock Typical Characteristics
  7. 6Device and Documentation Support
    1. 6.1 Receiving Notification of Documentation Updates
    2. 6.2 Support Resources
    3. 6.3 Trademarks
    4. 6.4 Electrostatic Discharge Caution
    5. 6.5 Glossary
  8. 7Mechanical, Packaging, and Orderable Information

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

TX Typical Characteristics at 30MHz and 400MHz

Typical values at TA = +25°C with nominal supplies. Default conditions: TX input data rate = 125 MSPS, fDAC = 6000 MSPS (48x interpolation), interleave mode, 1st Nyquist zone output, PLL clock mode with fREF = 500 MHz. Additional default conditions for all plots, AOUT = –1 dBFS, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated.

GUID-20220627-SS0I-FT7P-P06J-BGHRDKP9DCFK-low.svg
including PCB and cable losses
Figure 5-202 TX Output Fullscale vs Output Frequency: 5 MHz - 600 MHz
GUID-20220627-SS0I-76ZC-2H0R-LFDTZJ6QVFLT-low.svg
including PCB and cable losses
Figure 5-204 TX Output Fullscale vs DSA Setting at 30 MHz
GUID-20210426-CA0I-VXWR-XZ3F-X5FSXM9VGMDP-low.png
Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1
Figure 5-206 Calibrated TX Differential Gain Error (DNL) at 30MHz
GUID-20210426-CA0I-8WQ0-9PCC-FK1RLJNDD2WS-low.png
Integrated Gain Error = POUT(DSA Setting) – POUT(DSASetting = 0) + (DSA Setting)
Figure 5-208 Uncalibrated TX Integrated Gain Error (INL) at 30 MHz
GUID-20210426-CA0I-JWQ1-VN30-DV1FQSDTLT0B-low.png
Differential Phase Error = PhaseOUT(DSA Setting – 1) –PhaseOUT(DSA Setting)
Figure 5-210 Uncalibrated TX Differential Phase Error (DNL) at 30 MHz
GUID-20210426-CA0I-3PZN-5J7D-CPZSX5ZJ167V-low.png
Integrated Phase Error = PhaseOUT(DSA Setting) – PhaseOUT(DSASetting = 0)
Figure 5-212 Uncalibrated TX Integrated Phase Error (INL) at 30 MHz
GUID-20210426-CA0I-VXCX-9BRW-TSB0K9W2JLKB-low.png
Figure 5-214 Single Tone Spectrum at 5 MHz and -1 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-NWPM-XZHW-ZR9LSGMN2SDM-low.png
Figure 5-216 Single Tone Spectrum at 5 MHz and -12 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-GTPN-SZGJ-D698H9V3RJX1-low.png
Figure 5-218 Single Tone Spectrum at 5 MHz and -60 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-R6R3-JGJJ-LVDBF8RZFCDL-low.png
Figure 5-220 Single Tone Spectrum at 30 MHz and -1 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-7SST-JGN3-WCG3CR8HS8KL-low.png
Figure 5-222 Single Tone Spectrum at 30 MHz and -6 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-VCTW-7WMP-9LSXH125NLGJ-low.png
Figure 5-224 Single Tone Spectrum at 30 MHz and -12 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-19RX-MH5S-MMKF3ZPDRRGT-low.png
Figure 5-226 Single Tone Spectrum at 30 MHz and -30 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-VK8H-TJJ4-BX95W9DMRVH4-low.png
Figure 5-228 Single Tone Spectrum at 30 MHz and -60 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-NXSR-VFFB-BFLTVDK9PSRF-low.png
Figure 5-230 Dual Tone Spectrum at 30 MHz and -13 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-3XQG-2BZS-FTHN2C3PHZ3L-low.png
Figure 5-232 Dual Tone Spectrum at 30 MHz and -60d BFS (0 - 100 MHz)
GUID-20210426-CA0I-413Q-N9QZ-JQRSLX7VCSPN-low.svg
measured at +50 MHz offset
Figure 5-234 Noise Spectral Density vs DSA Setting at 30 MHz
GUID-20210426-CA0I-99FX-931F-RHR6XLCM7XHC-low.svg
Figure 5-236 HD2 vs Frequency 0 - 200 MHz
GUID-20210503-CA0I-PBQZ-4DKL-9J6K0HPNJTSJ-low.png
including PCB and cable losses
Figure 5-238 TX Output Fullscale vs Temperature at 400 MHz
GUID-20210503-CA0I-F9CN-SQKD-ZWZT7SVVNGV8-low.png
Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1
Figure 5-240 Uncalibrated TX Differential Gain Error (DNL) at 400 MHz
GUID-20210503-CA0I-93GQ-VJHP-03NTC5RVXBG7-low.png
Integrated Gain Error = POUT(DSA Setting) – POUT(DSASetting = 0) + (DSA Setting)
Figure 5-242 Uncalibrated TX Integrated Gain Error (INL) at 400 MHz
GUID-20210503-CA0I-HLR3-BLKM-DG1FBR44MWCP-low.png
Differential Phase Error = PhaseOUT(DSA Setting – 1) –PhaseOUT(DSA Setting)
Figure 5-244 Uncalibrated TX Differential Phase Error (DNL) at 400 MHz
GUID-20210503-CA0I-LWX7-D78T-XBVTS6GCKLJR-low.png
Integrated Phase Error = PhaseOUT(DSA Setting) – PhaseOUT(DSASetting = 0)
Figure 5-246 Uncalibrated TX Integrated Phase Error (INL) at 400 MHz
GUID-20210503-CA0I-QQ3S-14R3-NSZKDS1XW1PL-low.png
Figure 5-248 Single Tone Spectrum at 400 MHz and -1 dBFS (Nyquist)
GUID-20210503-CA0I-ZR86-BJJL-C54LPJ1K6LCX-low.png
Figure 5-250 Single Tone Spectrum at 400 MHz and -6 dBFS (Nyquist)
GUID-20210503-CA0I-6BHM-RNXD-T4TGDHJNRSHH-low.png
Figure 5-252 Single Tone Spectrum at 400 MHz and -12 dBFS (Nyquist)
GUID-20210503-CA0I-D7BN-XL2S-CJXD4W0CBP2G-low.png
Figure 5-254 Single Tone Spectrum at 400 MHz and -30 dBFS (Nyquist)
GUID-20210503-CA0I-NR3M-3GW9-XSPV5P2WWZ1L-low.png
Figure 5-256 Single Tone Spectrum at 400 MHz and -60 dBFS (Nyquist)
GUID-20210503-CA0I-TKW5-R90S-KRGQKKVW9J1V-low.png
Tone Spacing = 4 MHz
Figure 5-258 Dual Tone Spectrum at 400 MHz and -7 dBFS (Nyquist)
GUID-20210503-CA0I-2CWV-GJZD-R8D0BTNPZZKL-low.png
Tone Spacing = 4 MHz
Figure 5-260 Dual Tone Spectrum at 400 MHz and -13 dBFS (Nyquist)
GUID-20210503-CA0I-VXVG-F26V-CC0GGNXGGZQL-low.png
Tone Spacing = 4 MHz
Figure 5-262 Dual Tone Spectrum at 400 MHz and -30 dBFS (Nyquist)
GUID-20210503-CA0I-JN7W-TZWM-FZHFR7PM3WP8-low.png
Tone Spacing = 4 MHz
Figure 5-264 Dual Tone Spectrum at 400 MHz and -60 dBFS (Nyquist)
GUID-20210503-CA0I-XZJP-FV7V-JR0TGRQ6QRQD-low.png
measured at 50 MHz offset
Figure 5-266 Noise Spectral Density vs Digital Amplitude at 400 MHz
GUID-20210503-CA0I-FTVZ-BL6C-3LGQMN5XTLG5-low.png
Tone Spacing = 4 MHz
Figure 5-268 IMD3 vs Digital Amplitude at 400 MHz
GUID-20210503-CA0I-VJNS-KHKZ-PMNH2NJND399-low.png
Figure 5-270 HD2 vs Amplitude at 400 MHz
GUID-20220627-SS0I-XXZR-GSK4-W8JZSNSK7RLJ-low.svg
including PCB and cable losses
Figure 5-203 TX Output Fullscale vs Temperature at 30 MHz
GUID-20210426-CA0I-GWPK-MF2D-NXJHMSF6GWSK-low.svg
Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1
Figure 5-205 Uncalibrated TX Differential Gain Error (DNL) at 30 MHz
GUID-20210426-CA0I-JWQ1-VN30-DV1FQSDTLT0B-low.png
Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1
Figure 5-207 Calibrated TX Differential Gain Error (DNL) at 30 MHz
GUID-20210426-CA0I-1V51-MKGF-N06LKCDGWLQN-low.png
Integrated Gain Error = POUT(DSA Setting) – POUT(DSASetting = 0) + (DSA Setting)
Figure 5-209 Calibrated TX Integrated Gain Error (INL) at 30 MHz
GUID-20210426-CA0I-R1DM-8XRG-ZTCF0VHCV7ZM-low.png
Differential Phase Error = PhaseOUT(DSA Setting – 1) –PhaseOUT(DSA Setting)
Figure 5-211 Calibrated TX Differential Phase Error (DNL) at 30 MHz
GUID-20210426-CA0I-FBWV-H6NX-TP1CQZ9F76CR-low.png
Integrated Phase Error = PhaseOUT(DSA Setting) – PhaseOUT(DSASetting = 0)
Figure 5-213 Calibrated TX Integrated Phase Error (INL) at 30 MHz
GUID-20210426-CA0I-P3R8-XVJQ-GB6TDPTG1ZRJ-low.png
Figure 5-215 Single Tone Spectrum at 5 MHz and -6d BFS (0 - 100 MHz)
GUID-20210426-CA0I-L48W-DZXD-5LSWZWP7XK7N-low.png
Figure 5-217 Single Tone Spectrum at 5 MHz and -30 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-SJ0S-RVXV-V8X7LLLK4HDB-low.png
Figure 5-219 Single Tone Spectrum at 30 MHz and -1 dBFS (Nyquist)
GUID-20210426-CA0I-6J2H-ZWJZ-NTGHQMHL304B-low.png
Figure 5-221 Single Tone Spectrum at 30 MHz and -6 dBFS (Nyquist)
GUID-20210426-CA0I-62NZ-CNH2-KBZHMRL9VCKB-low.png
Figure 5-223 Single Tone Spectrum at 30 MHz and -12 dBFS (Nyquist)
GUID-20210426-CA0I-88JR-5GGQ-QN96CKQG2PNL-low.png
Figure 5-225 Single Tone Spectrum at 30 MHz and -30 dBFS (Nyquist)
GUID-20210426-CA0I-HZCK-WHRF-37R5NS55RKM2-low.png
Figure 5-227 Single Tone Spectrum at 30 MHz and -60 dBFS (Nyquist)
GUID-20210426-CA0I-T4P4-JLZH-WWBXXL82H10D-low.png
Figure 5-229 Dual Tone Spectrum at 30 MHz and -7 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-PS6B-KXRN-MKH6CLF6FGKN-low.png
Figure 5-231 Dual Tone Spectrum at 30 MHz and -30 dBFS (0 - 100 MHz)
GUID-20210426-CA0I-4QTS-LQGR-0VSZZZH8Z7KC-low.svg
measured at +50 MHz offset
Figure 5-233 Noise Spectral Density vs Digital Amplitude at 30 MHz
GUID-20210426-CA0I-FMZQ-NTBR-NNFMNG9TDPW6-low.svg
Figure 5-235 IMD3 vs DSA Setting at 30 MHz
GUID-20210426-CA0I-PLM7-GWKL-VW2M0RG31N7S-low.png
Figure 5-237 HD3 vs Frequency 0 - 200 MHz
GUID-20210503-CA0I-H8D5-H0Z3-CKLWH04GHPDN-low.png
including PCB and cable losses
Figure 5-239 TX Output Fullscale vs DSA Setting at 400 MHz
GUID-20210503-CA0I-RXQV-SRJJ-PDST8DJQ2JCZ-low.png
Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1
Figure 5-241 Calibrated TX Differential Gain Error (DNL) at 400 MHz
GUID-20210503-CA0I-W9KG-SSS9-TTHBGKLPBPXD-low.png
Integrated Gain Error = POUT(DSA Setting) – POUT(DSASetting = 0) + (DSA Setting)
Figure 5-243 Calibrated TX Integrated Gain Error (INL) at 400 MHz
GUID-20210503-CA0I-RJZF-58JH-SXF6SXRWK3WN-low.png
Differential Phase Error = PhaseOUT(DSA Setting – 1) –PhaseOUT(DSA Setting)
Figure 5-245 Calibrated TX Differential Phase Error (DNL) at 400 MHz
GUID-20210503-CA0I-N7BP-KKDL-KLWP7LZH31FJ-low.png
Integrated Phase Error = PhaseOUT(DSA Setting) – PhaseOUT(DSASetting = 0)
Figure 5-247 Calibrated TX Integrated Phase Error (INL) at 400 MHz
GUID-20210503-CA0I-N9GJ-FF8F-FMVNTZRC9MGC-low.png
Figure 5-249 Single Tone Spectrum at 400 MHz and -1 dBFS (±100MHz)
GUID-20210503-CA0I-QX2N-JH3H-FR5QZWDP6QVV-low.png
Figure 5-251 Single Tone Spectrum at 400 MHz and -6 dBFS (±100MHz)
GUID-20210503-CA0I-8J04-5HND-5PFQVLBPSPLX-low.png
Figure 5-253 Single Tone Spectrum at 400 MHz and -12 dBFS (±100MHz)
GUID-20210503-CA0I-3W2D-96SS-WFMGNTDTK5H7-low.png
Figure 5-255 Single Tone Spectrum at 400 MHz and -30 dBFS (±100MHz)
GUID-20210503-CA0I-DPNL-SFKS-NHS77NFPWFVW-low.png
Figure 5-257 Single Tone Spectrum at 400 MHz and -60 dBFS (±100MHz)
GUID-20210503-CA0I-3L6G-9SBP-S6Q8LT8FGJG8-low.png
Tone Spacing = 4 MHz
Figure 5-259 Dual Tone Spectrum at 400 MHz and -7 dBFS (±100MHz)
GUID-20210503-CA0I-B9K9-PS9L-WF25GGVXJXB8-low.png
Tone Spacing = 4 MHz
Figure 5-261 Dual Tone Spectrum at 400 MHz and -13 dBFS (±100MHz)
GUID-20210503-CA0I-98GC-Q6NG-5GSDPJV9VR2D-low.png
Tone Spacing = 4 MHz
Figure 5-263 Dual Tone Spectrum at 400 MHz and -30 dBFS (±100MHz)
GUID-20210503-CA0I-2243-4996-2ZCNT9SSXQZH-low.png
Tone Spacing = 4 MHz
Figure 5-265 Dual Tone Spectrum at 400 MHz and -60 dBFS (±100MHz)
GUID-20210503-CA0I-CZPX-7KVN-TP4MFJMQSGDS-low.png
measured at 50 MHz offset
Figure 5-267 Noise Spectral Density vs DSA Setting at 400 MHz
GUID-20210503-CA0I-1B37-CW1H-3KQ1L5ZZNSZH-low.png
Tone Spacing = 4 MHz
Figure 5-269 IMD3 vs DSA Setting at 400 MHz
GUID-20210503-CA0I-L59Q-D1WX-VWQVTGT2GV8X-low.png
Figure 5-271 HD3 vs Amplitude at 400 MHz