SBASAK2B Data sheet | TI.com

SBASAK2B march 2022 – june 2023 AFE7903

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

ABJ|400
- MCBG079C
ALK|400
- MPBGAU3B

Thermal pad, mechanical data (Package|Pins)

Orderable Information

6.12.14 TX Typical Characteristics at 7.1 GHz

Typical values at T_A = +25°C with nominal supplies. Unless otherwise noted, TX input data rate = 500 MSPS, f_DAC = 9000 MSPS, non-interleave mode, A_OUT = –1 dBFS, 2^nd Nyquist zone output, External clock mode, 18x Interpolation, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated, 7.1 GHz matching.

Excluding PCB and cable losses

Figure 6-544 TX Full Scale vs RF Frequency and Channel

Excluding PCB and cable losses

Figure 6-546 TX Full Scale vs DSA Setting and Channel at 7.1 GHz

Differential Gain Error = Gain(DSA Setting – 1) – Gain(DSA Setting)

Figure 6-548 Uncalibrated Differential Gain Error vs Temperature at 7.1 GHz

Differential Gain Error = Gain(DSA Setting – 1) – Gain(DSA Setting)

Figure 6-550 Calibrated Differential Gain Error vs Temperature at 7.1 GHz

Integrated Gain Error = Gain(DSA Setting) – Gain(DSA Setting = 0).

Figure 6-552 Uncalibrated Integrated Gain Error vs Temperature at 7.1 GHz

Integrated Gain Error = Gain(DSA Setting) – Gain(DSA Setting = 0).

Figure 6-554 Calibrated Integrated Gain Error vs Temperature at 7.1 GHz

Differential Phase Error = Phase(DSA Setting – 1) – Phase(DSA Setting)

Figure 6-556 Uncalibrated Differential Phase Error vs Temperature at 7.1 GHz

Differential Phase Error = Phase(DSA Setting – 1) – Phase(DSA Setting)

Figure 6-558 Calibrated Differential Phase Error vs Temperature at 7.1 GHz

Integrated Phase Error = Phase(DSA Setting) – Phase(DSA Setting = 0)

Figure 6-560 Uncalibrated Integrated Phase Error vs Temperature at 7.1 GHz

Integrated Phase Error = Phase(DSA Setting) – Phase(DSA Setting = 0)

Figure 6-562 Calibrated Integrated Phase Error vs Temperature at 7.1 GHz

Tone spacing = 50 MHz

Figure 6-564 IMD3 vs Digital Amplitude and Temperature at 7.1 GHz

Tone spacing = 50 MHz

Figure 6-566 IMD3 vs DSA Setting and Digital Amplitude at 7.1 GHz

Figure 6-568 IMD3 vs Tone Spacing and Channel at 7.1 GHz

Figure 6-570 IMD3 vs Tone Spacing and Temperature at 7.1 GHz

50 MHz offset from tone

Figure 6-572 NSD vs DSA Setting and Amplitude at 7.1 GHz

50 MHz offset from tone

Figure 6-574 NSD vs Digital Amplitude and Channel at 7.1 GHz

50 MHz tone spacing, inband = 7100 MHz ± 200 MHz, excluding IMD3 components separately

Figure 6-576 Two Tone Inband SFDR vs Output Amplitude at 7.1 GHz

Figure 6-578 Single Tone Output Spectrum at 7.1 GHz, -1 dBFS (narrow span)

Figure 6-580 Single Tone Output Spectrum at 7.1 GHz, -6 dBFS (narrow span)

Figure 6-582 Single Tone Output Spectrum at 7.1 GHz, -12 dBFS (narrow span)

50 MHz Tone Spacing

Figure 6-584 Two Tone Output Spectrum at 7.1 GHz, -7 dBFS each (narrow band)

50 MHz Tone Spacing

Figure 6-586 Two Tone Output Spectrum at 7.1 GHz, -13 dBFS each (narrow span)

50 MHz Tone Spacing

Figure 6-588 Two Tone Output Spectrum at 7.1 GHz, -30 dBFS each (narrow span)

Excluding PCB and cable losses

Figure 6-545 TX Full Scale vs Temperature and Channel at 7.1 GHz

Differential Gain Error = Gain(DSA Setting – 1) – Gain(DSA Setting)

Figure 6-547 Uncalibrated Differential Gain Error vs Channel at 7.1 GHz

Differential Gain Error = Gain(DSA Setting – 1) – Gain(DSA Setting)

Figure 6-549 Calibrated Differential Gain Error vs Channel at 7.1 GHz

Integrated Gain Error = Gain(DSA Setting) – Gain(DSA Setting = 0).

Figure 6-551 Uncalibrated Integrated Gain Error vs Channel at 7.1 GHz

Integrated Gain Error = Gain(DSA Setting) – Gain(DSA Setting = 0).

Figure 6-553 Calibrated Integrated Gain Error vs Channel at 7.1 GHz

Differential Phase Error = Phase(DSA Setting – 1) – Phase(DSA Setting)

Figure 6-555 Uncalibrated Differential Phase Error vs Channel at 7.1 GHz

Differential Phase Error = Phase(DSA Setting – 1) – Phase(DSA Setting)

Figure 6-557 Calibrated Differential Phase Error vs Channel at 7.1 GHz

Integrated Phase Error = Phase(DSA Setting) – Phase(DSA Setting = 0)

Figure 6-559 Uncalibrated Integrated Phase Error vs Channel at 7.1 GHz

Integrated Phase Error = Phase(DSA Setting) – Phase(DSA Setting = 0)

Figure 6-561 Calibrated Integrated Phase Error vs Channel at 7.1 GHz

Tone spacing = 50 MHz

Figure 6-563 IMD3 vs Digital Amplitude and Channel at 7.1 GHz

Tone spacing = 50 MHz

Figure 6-565 IMD3 vs DSA Setting and Channel at 7.1 GHz

Tone spacing = 50 MHz

Figure 6-567 IMD3 vs DSA Setting and Temperature at 7.1 GHz

Figure 6-569 IMD3 vs Tone Spacing and Digital Amplitude at 7.1 GHz

Tone at -12 dBFS, 50 MHz offset from tone

Figure 6-571 NSD vs DSA Setting and Channel at 7.1 GHz

Tone at -12 dBFS, 50 MHz offset from tone

Figure 6-573 NSD vs DSA Setting and Temperature at 7.1 GHz

50 MHz offset from tone

Figure 6-575 NSD vs Digital Amplitude and Temperature at 7.1 GHz

Figure 6-577 Single Tone Output Spectrum at 7.1 GHz, -1 dBFS (Nyquist)

Figure 6-579 Single Tone Output Spectrum at 7.1 GHz, -6 dBFS (Nyquist)

Figure 6-581 Single Tone Output Spectrum at 7.1 GHz, -12 dBFS (Nyquist)

50 MHz Tone Spacing

Figure 6-583 Two Tone Output Spectrum at 7.1 GHz, -7 dBFS each (Nyquist)

50 MHz Tone Spacing

Figure 6-585 Two Tone Output Spectrum at 7.1 GHz, -13 dBFS each (Nyquist)

50 MHz Tone Spacing

Figure 6-587 Two Tone Output Spectrum at 7.1G Hz, -30 dBFS each (Nyquist)

Figure 6-589 External Clock Additive Phase Noise at 7.1 GHz