Typical values at T_A = +25°C with nominal supplies. Unless otherwise noted, TX input data rate = 491.52MSPS, f_DAC = 11796.48MSPS, interleave mode, A_OUT = –1 dBFS, 1^st Nyquist zone output, Internal PLL, f_REF = 491.52MSPS, 24x Interpolation, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated.

Aout = -0.5dFBS, 3.5 GHz Matching, included PCB and cable losses

Figure 5-422 TX Output Power vs DSA Setting at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

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

Figure 5-424 TX Uncalibrated Differential Gain Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

Integrated Gain Error = POUT(DSA Setting) – POUT(DSA Setting = 0) + (DSA Setting)

Figure 5-426 TX Uncalibrated Integrated Gain Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

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

Figure 5-428 TX Uncalibrated Differential Phase Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

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

Figure 5-430 TX Uncalibrated Integrated Phase Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, 1TX

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

Figure 5-432 TX Uncalibrated Differential Gain Error vs DSA Setting and Temperature at 3.5 GHz

3.5 GHz Matching, 1TX

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

Figure 5-434 TX Uncalibrated Integrated Gain Error vs DSA Setting and Temperature at 3.5 GHz

3.5 GHz Matching, 1TX

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

Figure 5-436 TX Uncalibrated Differential Phase Error vs DSA setting and Temperature at 3.5 GHz

3.5 GHz Matching, 1TX

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

Figure 5-438 TX Uncalibrated Integrated Phase Error vs DSA Setting and Temperature at 3.5 GHz

A.

fDAC=11796.48MSPS, interleave mode, matching at 3.5GHz, Aout = –13 dBFS.

Figure 5-440 TX NSD vs DSA Setting at 3.5 GHz

A.

fDAC=12MSPS, external clock mode, non-interleave mode

Figure 5-442 TX NSD vs Digital Amplitude and Channel at 3.75 GHz

20-MHz tone spacing, 3.5 GHz Matching

Figure 5-444 TX IMD3 vs Digital Amplitude and Channel at 3.5 GHz

External clock mode, non-interleave mode

Figure 5-446 TX IMD3 vs Tone Spacing and Channel at 3.75GHz

Inband = 3.75GHz ± 600MHz, fDAC = 9GSPS, external clock mode, non-interleave mode.

Figure 5-448 Two Tone Inband SFDR vs Digital Amplitude at 3.75GHz

3.5 GHz Matching, single carrier 100-MHz BW NR TM1.1

Figure 5-450 TX 100-MHz NR Output Spectrum at 3.5 GHz (Band 42)

3.5 GHz Matching, single carrier 20-MHz BW TM1.1 LTE

Figure 5-452 TX 20-MHz LTE ACPR vs DSA Setting at 3.5 GHz

3.5 GHz Matching, single carrier 100-MHz BW NR TM1.1

Figure 5-454 TX 100-MHz NR ACPR vs DSA Setting at 3.5 GHz

3.5 GHz Matching, single carrier 20-MHz BW TM1.1 LTE

Figure 5-456 TX 20-MHz LTE ACPR vs Digital Level at 3.5 GHz

3.5 GHz Matching, single carrier 100-MHz BW NR TM1.1

Figure 5-458 TX 100-MHz NR ACPR vs Digital Level at 3.5 GHz

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode, normalized to output power at harmonic frequency

Figure 5-460 TX Single Tone HD2 vs Frequency and Digital Level at 3.5 GHz

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode.

Figure 5-462 TX Single Tone (–1 dBFS) Output Spectrum at 3.5 GHz (0 - f_DAC)

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode.

Figure 5-464 TX Single Tone (–6 dBFS) Output Spectrum at 3.5 GHz (0-f_DAC)

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode.

Figure 5-466 TX Single Tone (–12 dBFS) Output Spectrum at 3.5 GHz (0-f_DAC)

Matching at 3.5 GHz, 50MHz tone spacing, fDAC = 12GSPS, non-interleave mode.

Figure 5-468 TX Dual Tone Output Spectrum at 3.75 GHz, -7dBFS each (0 - f_DAC)

Matching at 3.5 GHz, 50MHz tone spacing, fDAC = 12GSPS, non-interleave mode.

Figure 5-470 TX Dual Tone Output Spectrum at 3.75 GHz, -13dBFS each (0 - f_DAC)

Matching at 3.5 GHz, 50MHz tone spacing, fDAC = 12GSPS, non-interleave mode.

Figure 5-472 TX Dual Tone Output Spectrum at 3.75 GHz, -30dBFS each (0 - f_DAC)

fDAC = fCLK = 12GSPS, non-interleave mode.

Figure 5-474 External Clock Additive Phase Noise at 3.7GHz

Aout = -0.5dFBS, 3.5 GHz Matching, included PCB and cable losses

Figure 5-423 TX Output Power vs Frequency

3.5 GHz Matching, included PCB and cable losses

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

Figure 5-425 TX Calibrated Differential Gain Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

Integrated Gain Error = POUT(DSA Setting) – POUT(DSA Setting = 0) + (DSA Setting)

Figure 5-427 TX Calibrated Integrated Gain Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

Differential Phase Error = PhaseOUT(DSA Setting – 1) – PhaseOUT(DSA Setting). Phase DNL spike may occur at any DSA setting.

Figure 5-429 TX Calibrated Differential Phase Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, included PCB and cable losses

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

Figure 5-431 TX Calibrated Integrated Phase Error vs DSA Setting and Channel at 3.5 GHz

3.5 GHz Matching, 1TX, Calibrated at 25°C

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

Figure 5-433 TX Calibrated Differential Gain Error vs DSA Setting and Temperature at 3.5 GHz

3.5 GHz Matching, 1TX, Calibrated at 25°C

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

Figure 5-435 TX Calibrated Integrated Gain Error vs DSA Setting and Temperature at 3.5 GHz

3.5 GHz Matching, 1TX, Calibrated at 25°C

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

Figure 5-437 TX Calibrated Differential Phase Error vs DSA Setting and Temperature at 3.5 GHz

3.5 GHz Matching, 1TX, Calibrated at 25°C

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

Figure 5-439 TX Calibrated Integrated Phase Error vs DSA Setting and Temperature at 3.5 GHz

A.

fDAC=12MSPS, external clock mode, non-interleave mode

Figure 5-441 TX NSD vs Digital Amplitude and Temperature at 3.75 GHz

20-MHz tone spacing, 3.5 GHz Matching, –13 dBFS each tone, included PCB and cable losses

Figure 5-443 TX IMD3 vs DSA Setting at 3.5 GHz

50-MHz tone spacing, external clock mode, non-interleave mode

Figure 5-445 TX IMD3 vs Tone Spacing and Amplitude at 3.75GHz

50-MHz tone spacing, external clock mode, non-interleave mode

Figure 5-447 TX IMD3 vs Digital Amplitude and Temperature at 3.75GHz

3.5 GHz Matching, single carrier 20-MHz BW TM1.1 LTE

Figure 5-449 TX 20-MHz LTE Output Spectrum at 3.5 GHz (Band 42)

3.5 GHz Matching, single carrier 100-MHz BW NR TM1.1

Figure 5-451 TX 2 carrier 100-MHz NR Output Spectrum at 3.45 GHz and 3.75 GHz

3.5 GHz Matching, single carrier 20-MHz BW TM1.1 LTE

Figure 5-453 TX 20-MHz LTE alt-ACPR vs DSA Setting at 3.5 GHz

3.5 GHz Matching, single carrier 100-MHz BW NR TM1.1

Figure 5-455 TX 100-MHz NR alt-ACPR vs DSA Setting at 3.5 GHz

3.5 GHz Matching, single carrier 20-MHz BW TM1.1 LTE

Figure 5-457 TX 20-MHz LTE alt-ACPR vs Digital Level at 3.5 GHz

3.5 GHz Matching, single carrier 100-MHz BW NR TM1.1

Figure 5-459 TX 100-MHz NR alt-ACPR vs Digital Level at 3.5 GHz

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode, normalized to output power at harmonic frequency. Dip is due to HD3 falling near DC.

Figure 5-461 TX Single Tone HD3 vs Frequency and Digital Level at 3.5 GHz

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode.

Figure 5-463 TX Single Tone (–1 dBFS) Output Spectrum at 3.5 GHz (±300 MHz)

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode.

Figure 5-465 TX Single Tone (–6 dBFS) Output Spectrum at 3.5 GHz (±300 MHz)

Matching at 3.5 GHz, fDAC = 11.79648GSPS, interleave mode.

Figure 5-467 TX Single Tone (–12 dBFS) Output Spectrum at 3.5 GHz (±300 MHz)

Matching at 3.5 GHz, 50MHz tone spacing, fDAC = 12GSPS, non-interleave mode.

Figure 5-469 TX Dual Tone Output Spectrum at 3.75 GHz, -7dBFS each (±600 MHz)

Matching at 3.5 GHz, 50MHz tone spacing, fDAC = 12GSPS, non-interleave mode.

Figure 5-471 TX Dual Tone Output Spectrum at 3.75 GHz, -13dBFS each (±600 MHz)

Matching at 3.5 GHz, 50MHz tone spacing, fDAC = 12GSPS, non-interleave mode.

Figure 5-473 TX Dual Tone Output Spectrum at 3.75 GHz, -30dBFS each (±600 MHz)