Typical values at 25°C, AIN
= -1 dBFS, FIN = 347 MHz, FS = 800 MSPS, High power mode, FG
calibration, JMODE 0, CPLL off, CPLLREF = 50 MHz and VA11Q and VCLK11
noise suppression on when CPLL on, nominal supply voltages, unless otherwise noted.
SNR results exclude DC, HD2 to HD9; SINAD, ENOB, and SFDR results exclude DC.
Figure 7-1 DNL
vs Code
Figure 7-3 Input
Fullscale vs Input Frequency
Figure 7-5 Crosstalk vs Input Frequency, Channel B victim
Figure 7-7 Single Tone FFT at 897 MHz and -1dBFS
Figure 7-9 Single Tone FFT at 3247 MHz and -1dBFS
Low
Power Mode
Figure 7-11 Single Tone FFT at 897 MHz and -1dBFS
Low
Power Mode
Figure 7-13 Single Tone FFT at 3247 MHz and -1dBFS
PLL
on, suppression on
Figure 7-15 Single Tone FFT at 347 MHz and -1dBFS
PLL
on, suppression on
Figure 7-17 Single Tone FFT at 997 MHz and -1dBFS
Low
Lower Mode, PLL on, suppression on
Figure 7-19 Single Tone FFT at 347 MHz and -1dBFS
Low
Lower Mode, PLL on, suppression on
Figure 7-21 Single Tone FFT at 997 MHz and -1dBFS
Figure 7-23 SFDR
vs Input Frequency
Figure 7-25 HD3
vs Input Frequency
Figure 7-27 ENOB
vs Input Frequency
Figure 7-29 SFDR
vs Sample Rate
Figure 7-31 ENOB
vs Sample Rate
Figure 7-33 SFDR
vs Input Amplitude
CPLL
on
Figure 7-35 SFDR
vs Input Frequency and Suppression
CPLL
on
Figure 7-37 ENOB
vs Input Frequency and Suppression
All
supplies moved together
Figure 7-39 HD2,
HD3 and worst non-HD vs Supply Voltage
Figure 7-41 SFDR
vs Clock Amplitude
FIN = 347 MHz
Figure 7-43 SNR
vs Temperature
FIN = 347 MHz
Figure 7-45 HD2
vs Temperature
FIN = 347 MHz
Figure 7-47 worst
non-HD spur vs Temperature
Low
Power Mode
Figure 7-49 SFDR
vs Input Frequency in Low Power Mode
Low
Power Mode
Figure 7-51 HD3
vs Input Frequency in Low Power Mode
Low
Power Mode
Figure 7-53 ENOB
vs Input Frequency in Low Power Mode
Low
Power Mode
Figure 7-55 SFDR
vs Sample Rate in Low Power Mode
Low
Power Mode
Figure 7-57 ENOB
vs Sample Rate in Low Power Mode
Low
Power Mode
Figure 7-59 SFDR
vs Input Amplitude in Low Power Mode
CPLL
On, Low Power Mode
Figure 7-61 SFDR
vs Input Frequency
CPLL
On, Low Power Mode
Figure 7-63 ENOB
vs Input Frequency
Low
Power Mode, all supplies moved together
Figure 7-65 HD2,
HD3 and worst non-HD vs Supply Voltage
-7
dBFS each tone
Figure 7-67 Two
Tone FFT at 1798 MHz
-7
dBFS each tone
Figure 7-69 Two
Tone FFT at 347 MHz in Low Power Mode
-7
dBFS each tone
Figure 7-71 Two
Tone FFT at 3498 MHz in Low Power Mode
Low
Power Mode
Figure 7-73 IMD3
vs Input Frequency in Low Power Mode
Figure 7-75 Quad
Channel, Power Dissipation vs FS for JMODES 4 - 7
Figure 7-77 Quad
Channel, Power Dissipation vs FS for JMODES 12 - 15
Independent of JMODE
Figure 7-79 Quad
Channel, IVA11 vs FS
Independent of Power Mode
Figure 7-81 Quad
Channel, IVD11 vs FS for JMODES 4 - 7
Independent of Power Mode
Figure 7-83 Quad
Channel, IVD11 vs FS for JMODES 13-15
Difference to LPBG mode
Figure 7-85 Quad
Channel, IVA19 vs FS over Modes
Difference to LPBG mode
Figure 7-87 Quad
Channel, IVD11 vs FS over Modes
Figure 7-89 Dual
Channel, Power Dissipation vs FS for JMODES 4 - 7
Figure 7-91 Dual
Channel, Power Dissipation vs FS for JMODES 12 - 15
Independent of JMODE
Figure 7-93 Dual
Channel, IVA11 vs FS
Figure 7-95 Dual
Channel, IVD11 vs FS for JMODES 4 - 7
Figure 7-97 Dual
Channel, IVD11 vs FS for JMODES 13 - 15
Difference to LPBG mode
Figure 7-99 Dual
Channel, IVA19 vs FS over Modes
Figure 7-101 Dual
Channel, Power Dissipation vs FS for JMODES 0 - 3
Figure 7-103 Single Channel, Power Dissipation vs FS for JMODES 8 -
11
Independent of JMODE
Figure 7-105 Single Channel, IVA19 vs FS
Figure 7-107 Single Channel, IVD11 vs FS for JMODES 0 - 3
Figure 7-109 Single Channel, IVD11 vs FS for JMODES 8 - 12
Difference to LPBG mode
Figure 7-111 Single Channel, Power Dissipation vs FS over Modes
Difference to LPBG mode
Figure 7-113 Single Channel, IVA11 vs FS over Modes