Typical values at TA = +25°C with nominal supplies. Default conditions: TX input data rate = 491.52 MSPS, fDAC = 11796.48 M SPS (24x interpolation), interleave mode, 1st Nyquist zone output, PLL clock mode with fREF = 491.52 MHz, AOUT = –1 dBFS, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated, TX Clock Dither Enabled
| including PCB and cable losses, Aout = -0.5d
FBS, DSA = 0, 0.8 GHz matching |
Figure 5-1 TX
Output Fullscale vs Output Frequency
| fDAC = 11796.48 MSPS, interleave mode,
Aout = -0.5 dFBS, matching 0.8
GHz |
|
|
Figure 5-3 TX
Output Power vs DSA Setting and Channel at 0.85 GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Gain Error = POUT(DSA Setting –
1) – POUT(DSA Setting) + 1 |
Figure 5-5 TX
Calibrated Differential Gain Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Gain Error = POUT(DSA Setting ) –
POUT(DSA Setting = 0) + DSA
Setting |
Figure 5-7 TX
Calibrated Integrated Gain Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Gain Error = POUT(DSA Setting –
1) – POUT(DSA Setting) + 1 |
Figure 5-9 TX
Calibrated Differential Gain Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Gain Error = POUT(DSA Setting ) –
POUT(DSA Setting = 0) + DSA
Setting |
Figure 5-11 TX
Calibrated Integrated Gain Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Phase Error = PhaseOUT(DSA
Setting – 1) – PhaseOUT(DSA Setting) |
| Phase
DNL spike may occur at any DSA setting. |
Figure 5-13 TX
Calibrated Differential Phase Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Phase Error = PhaseOUT(DSA
Setting) – PhaseOUT(DSA Setting = 0) |
Figure 5-15 TX
Calibrated Integrated Phase Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz, channel with the median variation
over DSA setting at 25°C |
| Differential Phase Error = PhaseOUT(DSA
Setting – 1) – PhaseOUT(DSA Setting) +
1 |
Figure 5-17 TX
Calibrated Differential Phase Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Phase Error = PhaseOUT(DSA
Setting) – PhaseOUT(DSA Setting = 0) |
Figure 5-19 TX
Calibrated Integrated Phase Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 11796.48 MSPS, interleave mode,
fCENTER = 0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone |
Figure 5-21 TX
IMD3 vs DSA Setting at 0.85 GHz
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone |
Figure 5-23 TX
IMD3 vs Tone Spacing and Channel at 0.85 GHz
| fDAC = 5898.24 MSPS, straight mode,
fCENTER =0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone, worst channel |
Figure 5-25 TX
IMD3 vs Tone Spacing and Temperature at 0.85 GHz
| fDAC = 11796.48 MSPS, straight mode,
fCENTER =0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone, worst channel |
Figure 5-27 TX
IMD3 vs Tone Spacing and Temperature at 0.85 GHz
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 0.85 GHz, fSPACING =
20 MHz, matching at 0.8 GHz |
Figure 5-29 TX
IMD3 vs Digital Level at 0.85 GHz
| Matching at 2.6 GHz, Single tone, fDAC =
11.79648GSPS, interleave mode, 40-MHz offset, DSA =
0dB |
Figure 5-31 TX
Single Tone Output Noise vs Frequency and Amplitude at 0.85 GHz
| Matching at 0.8 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 5-33 TX
20-MHz LTE ACPR vs Digital Level at 0.85 GHz
| Matching at 0.8 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 5-35 TX
20-MHz LTE ACPR vs DSA at 0.85 GHz
| Matching at 0.8 GHz, fDAC = 5898.24 GSPS,
straight mode |
Figure 5-37 TX
HD2 vs Digital Amplitude and Output Frequency at 0.85 GHz
| Matching at 0.8 GHz, fDAC = 5898.24 MSPS,
straight mode, normalized to output power at harmonic
frequency |
Figure 5-39 TX
HD3 vs Digital Amplitude and Output Frequency at 0.85 GHz
| fDAC = 5898.24 MSPS, interleave mode,
0.8 GHz matching, includes PCB and cable losses. ILn =
fS/n ± fOUT. |
Figure 5-41 TX
Single Tone (–12 dBFS) Output Spectrum at 0.85 GHz
(0-fDAC)
| fDAC = 5898.24 MSPS, interleave mode,
0.8 GHz matching, includes PCB and cable losses. ILn =
fS/n ± fOUT. |
Figure 5-43 TX
Single Tone (–1 dBFS) Output Spectrum at 0.85 GHz
(0-fDAC)
| including PCB and cable losses, Aout = -0.5d
FBS, DSA = 0, 0.8 GHz matching |
Figure 5-2 TX
Output Fullscale vs Temperature
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Gain Error = POUT(DSA Setting –
1) – POUT(DSA Setting) + 1 |
Figure 5-4 TX
Uncalibrated Differential Gain Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Gain Error = POUT(DSA Setting ) –
POUT(DSA Setting = 0) + DSA
Settings |
Figure 5-6 TX
Uncalibrated Integrated Gain Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Gain Error = POUT(DSA Setting –
1) – POUT(DSA Setting) + 1 |
Figure 5-8 TX
Uncalibrated Differential Gain Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Gain Error = POUT(DSA Setting ) –
POUT(DSA Setting = 0) + DSA
Setting |
Figure 5-10 TX
Uncalibrated Integrated Gain Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Phase Error = PhaseOUT(DSA
Setting – 1) – PhaseOUT(DSA Setting) |
Figure 5-12 TX
Uncalibrated Differential Phase Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Phase Error = PhaseOUT(DSA
Setting) – PhaseOUT(DSA Setting = 0) |
|
Figure 5-14 TX
Uncalibrated Integrated Phase Error vs DSA Setting and Channel at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Differential Phase Error = PhaseOUT(DSA
Setting – 1) – PhaseOUT(DSA Setting) +
1 |
Figure 5-16 TX
Uncalibrated Differential Phase Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz |
| Integrated Phase Error = PhaseOUT(DSA
Setting) – PhaseOUT(DSA Setting = 0) |
Figure 5-18 TX
Uncalibrated Integrated Phase Error vs DSA Setting and Temperature at 0.85
GHz
| fDAC = 5898.24 MSPS, interleave mode,
matching at 0.8 GHz, POUT = –13 dBFS |
|
Figure 5-20 TX
Output Noise vs Channel and Attenuation at 0.85 GHz
| fDAC = 5898.24 MSPS, straight mode,
fCENTER = 0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone |
Figure 5-22 TX
IMD3 vs Tone Spacing and Channel at 0.85 GHz
| fDAC = 11796.48 MSPS, interleave mode,
fCENTER = 0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone |
Figure 5-24 TX
IMD3 vs Tone Spacing and Channel at 0.85 GHz
| fDAC = 8847.36 MSPS, straight mode,
fCENTER =0.85 GHz, matching at 0.8 GHz,
–13 dBFS each tone, worst channel |
Figure 5-26 TX
IMD3 vs Tone Spacing and Temperature at 0.85 GHz
| fDAC = 5898.24 MSPS, straight mode,
fCENTER = 0.85 GHz, fSPACING =
20 MHz, matching at 0.8 GHz |
Figure 5-28 TX
IMD3 vs Digital Level at 0.85 GHz
| fDAC = 11796.48 MSPS, interleave mode,
fCENTER = 0.85 GHz, fSPACING =
20 MHz, matching at 0.8 GHz |
Figure 5-30 TX
IMD3 vs Digital Level at 0.85 GHz
| TM1.1,
POUT_RMS = –13 dBFS |
|
Figure 5-32 TX
20-MHz LTE Output Spectrum at 0.85 GHz
| Matching at 0.8 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 5-34 TX
20-MHz LTE alt-ACPR vs Digital Level at 0.85 GHz
| Matching at 0.8 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 5-36 TX
20-MHz LTE alt-ACPR vs DSA at 0.85 GHz
| Matching at 0.8 GHz, fDAC = 8847.36GSPS,
straight mode |
Figure 5-38 TX
HD2 vs Digital Amplitude and Output Frequency at 0.85 GHz
| Matching at 0.8 GHz, fDAC = 8847.36 MSPS,
straight mode, normalized to output power at harmonic
frequency |
Figure 5-40 TX
HD3 vs Digital Amplitude and Output Frequency at 0.85 GHz
| fDAC = 5898.24 MSPS, interleave mode,
0.8 GHz matching, includes PCB and cable losses. ILn =
fS/n ± fOUT. |
Figure 5-42 TX
Single Tone (–6 dBFS) Output Spectrum at 0.85 GHz
(0-fDAC)