Typical values at TA = +25°C with
nominal supplies. Unless otherwise noted, TX input data rate = 491.52 MSPS,
fDAC = 11796.48 MSPS, interleave mode, AOUT = –1
dBFS, 1st Nyquist zone output, Internal PLL, fREF = 491.52
MSPS, 24x Interpolation, DSA = 0 dB, Sin(x)/x enabled, DSA calibrated
| Including PCB and cable losses,
Aout = -0.5 dBFS, DSA = 0, 2.6 GHz
matching |
| Including PCB and cable losses,
Aout = -0.5 dBFS, DSA = 0, 2.6 GHz
matching |
| fDAC = 8847.36 MSPS, Aout =
-0.5 dBFS, matching 2.6 GHz |
|
|
Figure 6-378 TX
Output Power vs DSA Setting and Channel at 2.6 GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Differential Gain Error = POUT(DSA Setting –
1) – POUT(DSA Setting) + 1 |
Figure 6-380 TX
Calibrated Differential Gain Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Integrated Gain Error = POUT(DSA Setting) –
POUT(DSA Setting = 0) + (DSA
Setting) |
|
Figure 6-382 TX
Calibrated Integrated Gain Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1 |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Integrated Gain Error = POUT(DSA Setting) – POUT(DSA Setting = 0) + (DSA Setting) |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Differential Phase Error = PhaseOUT(DSA
Setting – 1) – PhaseOUT(DSA Setting) |
| Phase
DNL spike may occur at any DSA setting. |
Figure 6-388 TX
Calibrated Differential Phase Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Integrated Phase Error = Phase(DSA Setting) – Phase(DSA
Setting = 0) |
|
Figure 6-390 TX
Calibrated Integrated Phase Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Differential Phase Error = PhaseOUT(DSA Setting – 1) – PhaseOUT(DSA Setting) |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Integrated Phase Error = Phase(DSA Setting) – Phase(DSA Setting = 0) |
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 2.6 GHz, matching at 2.6 GHz,
–13 dBFS each tone |
Figure 6-396 TX
IMD3 vs DSA Setting at 2.6 GHz
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 2.6 GHz, matching at 2.6 GHz,
–13 dBFS each tone, worst channel, dither = 1. |
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 2.6 GHz, matching at 2.6 GHz,
–13 dBFS each tone |
| TM1.1,
POUT_RMS = –13 dBFS |
Figure 6-402 TX
20-MHz LTE Output Spectrum at 2.6 GHz (Band 41)
| Matching at 2.6 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 6-404 TX
20-MHz LTE alt-ACPR vs Digital Level at 2.6 GHz
| Matching at 2.6 GHz, single carrier 100-MHz BW TM1.1
NR |
Figure 6-406 TX
100-MHz NR ACPR vs Digital Level at 2.6 GHz
| Matching at 2.6 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 6-408 TX
20-MHz LTE ACPR vs DSA at 2.6 GHz
| Matching at 2.6 GHz, single carrier 100-MHz BW TM1.1
NR |
Figure 6-410 TX
100-MHz NR ACPR vs DSA at 2.6 GHz
| Matching at 2.6 GHz, fDAC = 11.79648GSPS,
interleave mode, normalized to output power at harmonic
frequency |
Figure 6-412 TX
HD2 vs Digital Amplitude and Output Frequency at 2.6 GHz
| Inband
= 2600 MHz ± 600 MHz, fDAC = 12 GSPS, not
including FS/3 and FS/4, external
clock mode, non-interleave mode |
Figure 6-414 Two
Tone Inband SFDR vs Digital Amplitude at 2.6 GHz
| fDAC = 8847.36 MSPS, interleave
mode, 2.6 GHz matching, includes PCB and cable losses.
ILn = fS/n ± fOUT. |
| fDAC = 8847.36 MSPS, interleave
mode, 2.6 GHz matching, includes PCB and cable losses.
ILn = fS/n ± fOUT. |
| fDAC = 8847.36 MSPS, interleave
mode, 2.6 GHz matching, includes PCB and cable losses.
ILn = fS/n ± fOUT. |
| fDAC = 8847.36 MSPS, straight mode,
2.6 GHz matching, includes PCB and cable losses. ILn =
fS/n ± fOUT and is due to
mixing with digital clocks. |
| fDAC = 8847.36 MSPS, straight mode,
2.6 GHz matching, includes PCB and cable losses. ILn =
fS/n ± fOUT and is due to
mixing with digital clocks. |
| fDAC = 8847.36 MSPS, straight mode,
2.6 GHz matching, includes PCB and cable losses. ILn =
fS/n ± fOUT and is due to
mixing with digital clocks. |
| fDAC = 9000 MSPS, external clock mode,
non-interleave mode |
|
Figure 6-428 TX
Dual Tone Output Spectrum at 2.6 GHz, -7 dBFS each (0 -
DAC)
| fDAC = 9000 MSPS, external clock mode,
non-interleave mode |
|
Figure 6-430 TX
Dual Tone Output Spectrum at 2.6 GHz, -13 dBFS each (0 -
DAC)
| fDAC = 9000 MSPS, external clock mode,
non-interleave mode |
|
Figure 6-432 TX
Dual Tone Output Spectrum at 2.6 GHz, -30 dBFS each (0 -
DAC)
| fDAC = 11796.48 MSPS, interleave
mode, 2.6 GHz matching. 40-MHz offset from tone. Output
Power = –1 dBFS. All supplies simultaneously at MIN,
TYP, or MAX voltages. |
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode |
Figure 6-436 IMD3
vs Tone Spacing and Channel at 2.6 GHz
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode |
Figure 6-438 IMD3
vs Digital Amplitude and Channel at 2.6 GHz
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode |
Figure 6-440 IMD3
vs Digital Amplitude and Dither at 2.6 GHz
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode, 50 MHz offset |
Figure 6-442 NSD
vs Digital Amplitude and Temperature at 2.6 GHz
| Including PCB and cable losses,
Aout = -0.5 dBFS, DSA = 0, 2.6 GHz
matching |
| fDAC = 8847.36 MSPS, interleave mode,
including PCB and cable losses, Aout = -0.5
dBFS, DSA = 0, 2.6 GHz matching |
Figure 6-377 TX
Output Fullscale vs Output Frequency and Channel
| fDAC =8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Differential Gain Error = POUT(DSA Setting –
1) – POUT(DSA Setting) + 1 |
Figure 6-379 TX
Uncalibrated Differential Gain Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Integrated Gain Error = POUT(DSA Setting) –
POUT(DSA Setting = 0) + (DSA
Setting) |
Figure 6-381 TX
Uncalibrated Integrated Gain Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Differential Gain Error = POUT(DSA Setting – 1) – POUT(DSA Setting) + 1 |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Integrated Gain Error = POUT(DSA Setting) – POUT(DSA Setting = 0) + (DSA Setting) |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Differential Phase Error = PhaseOUT(DSA
Setting – 1) – PhaseOUT(DSA Setting) |
|
Figure 6-387 TX
Uncalibrated Differential Phase Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz |
| Integrated Phase Error = Phase(DSA Setting) – Phase(DSA
Setting = 0) |
|
Figure 6-389 TX
Uncalibrated Integrated Phase Error vs DSA Setting and Channel at 2.6
GHz
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the median variation
over DSA setting at 25°C |
| Differential Phase Error = PhaseOUT(DSA Setting – 1) – PhaseOUT(DSA Setting) |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, channel with the medium variation
over DSA setting at 25°C |
| Integrated Phase Error = Phase(DSA Setting) – Phase(DSA Setting = 0) |
| fDAC = 8847.36 MSPS, straight mode,
matching at 2.6 GHz, POUT = –13 dBFS |
|
Figure 6-395 TX
Output Noise vs Channel and Attenuation at 2.6 GHz
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 2.6 GHz, matching at 2.6 GHz,
–13 dBFS each tone |
|
Figure 6-397 TX
IMD3 vs Tone Spacing and Channel at 2.6 GHz
| fDAC = 8847.36 MSPS, straight mode,
fCENTER = 2.6 GHz, fSPACING =
20 MHz, dither = 1, matching at 2.6 GHz |
|
Figure 6-399 TX
IMD3 vs Digital Level at 2.6 GHz
| Matching at 2.6 GHz, Single tone, fDAC = 11.79648GSPS, interleave mode, 40-MHz offset |
| Matching at 2.6 GHz, single carrier 20-MHz BW TM1.1
LTE |
|
|
Figure 6-403 TX
20-MHz LTE ACPR vs Digital Level at 2.6 GHz
| Matching at 2.6 GHz, single carrier 20-MHz BW TM1.1
LTE |
Figure 6-405 TX
20-MHz LTE alt2-ACPR vs Digital Level at 2.6 GHz
| Matching at 2.6 GHz, single carrier 100-MHz BW TM1.1
NR |
Figure 6-407 TX
100-MHz NR alt-ACPR vs Digital Level at 2.6 GHz
| Matching at 2.6 GHz, single carrier 20-MHz BW TM1.1
LTE |
|
Figure 6-409 TX
20-MHz LTE alt-ACPR vs DSA at 2.6 GHz
| Matching at 2.6 GHz, single carrier 100-MHz BW TM1.1
NR |
Figure 6-411 TX
100-MHz NR alt-ACPR vs DSA at 2.6 GHz
| Matching at 2.6 GHz, fDAC = 11.79648GSPS,
interleave mode, normalized to output power at harmonic
frequency |
Figure 6-413 TX
HD3 vs Digital Amplitude and Output Frequency at 2.6 GHz
| Inband
= 2600 MHz ± 600 MHz, fDAC = 12 GSPS,
external clock mode, non-interleave mode |
Figure 6-415 Two
Tone Inband Fixed Spurs vs Digital Amplitude at 2.6 GHz
| fDAC = 8847.36 MSPS, interleave
mode, 2.6 GHz matching, includes PCB and cable
losses |
| fDAC = 8847.36 MSPS, interleave
mode, 2.6 GHz matching, includes PCB and cable
losses |
| fDAC = 8847.36 MSPS, interleave
mode, 2.6 GHz matching, includes PCB and cable
losses |
| fDAC = 8847.36 MSPS, straight mode,
2.6 GHz matching, includes PCB and cable losses |
|
| fDAC = 8847.36 MSPS, straight mode,
2.6 GHz matching, includes PCB and cable losses |
|
| fDAC = 8847.36 MSPS, straight mode,
2.6 GHz matching, includes PCB and cable losses |
|
| fDAC = 9000 MSPS, external clock mode,
non-interleave mode |
|
Figure 6-429 TX
Dual Tone Output Spectrum at 2.6 GHz, -7 dBFS each (±600 MHz)
| fDAC = 9000 MSPS, external clock mode,
non-interleave mode |
|
Figure 6-431 TX
Dual Tone Output Spectrum at 2.6 GHz, -13 dBFS each (±600 MHz)
| fDAC = 9000 MSPS, external clock mode,
non-interleave mode |
|
Figure 6-433 TX Dual Tone Output Spectrum at 2.6 GHz, -30dBFS
each (±600 MHz)
| fDAC = 11796.48 MSPS, interleave
mode, 2.6 GHz matching. 40-MHz offset from tone. Output
Power = –13 dBFS. All supplies simultaneously at MIN,
TYP, or MAX voltages. |
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode |
Figure 6-437 IMD3
vs Tone Spacing and Amplitude at 2.6 GHz
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode |
Figure 6-439 IMD3
vs Digital Amplitude and Temperature at 2.6 GHz
| fDAC = 9000 MSPS, non-interleave mode,
external clock mode, 50 MHz offset |
Figure 6-441 NSD
vs Digital Amplitude and Channel at 2.6 GHz
| fDAC = fCLK = 9000 MSPS,
non-interleave mode |
Figure 6-443 External Clock Additive Phase Noise at 2.6 GHz