SBAS997A Data sheet | TI.com

SBAS997A February 2020 – June 2021 ADC09DJ1300-Q1 , ADC09QJ1300-Q1 , ADC09SJ1300-Q1

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AAV|144
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7.10 Typical Characteristics

Typical values at 25°C, A_IN = -1 dBFS, F_IN = 347 MHz, F_S = 1300 MSPS, High power mode, FG calibration, JMODE 0, CPLL off, CPLL_REF = 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

Relative to 0Hz

Figure 7-3 Input Fullscale vs Input Frequency

High Power Mode

Figure 7-5 Single Tone FFT at 497 MHz and -1 dBFS

High Power Mode

Figure 7-7 Single Tone FFT at 1497 MHz and -1 dBFS

High Power Mode

Figure 7-9 Single Tone FFT at 2697 MHz and -1 dBFS

F_S = 1000MSPS, Low Power Mode

Figure 7-11 Single Tone FFT at 99.997 MHz and -1 dBFS

F_S = 1000MSPS, Low Power Mode

Figure 7-13 Single Tone FFT at 1197 MHz and -1 dBFS

Figure 7-15 SFDR vs Input Frequency

Figure 7-17 SINAD vs Input Frequency

Figure 7-19 HD2 vs Input Frequency

Figure 7-21 SFDR vs Sample Rate

Figure 7-23 SINAD vs Sample Rate

F_S = 1000MSPS, Low Power Mode

Figure 7-25 SFDR vs Sample Rate

F_S = 1000MSPS, Low Power Mode

Figure 7-27 SINAD vs Sample Rate

Figure 7-29 SFDR vs Input Amplitude

F_S = 1000MSPS, F_IN = 100MHz,Low Power Mode

Figure 7-31 SFDR vs Input Amplitude

Figure 7-33 SFDR vs Clock Amplitude

F_IN = 997 MHz

Figure 7-35 SNR, SFDR and SINAD vs Temperature

F_IN = 997 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-37 SINAD vs Temperature and Calibration Mode

F_IN = 997 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-39 SFDR vs Temperature and Calibration Mode

Low Power Mode, F_IN = 347 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-41 SINAD vs Temperature and Calibration Mode

Low Power Mode, F_IN = 347 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-43 SFDR vs Temperature and Calibration Mode

F_IN = 347 MHz

Figure 7-45 HD2, HD3 and Worst non-HD Spur vs Supply Voltage

Low Power Mode, F_IN = 347 MHz, F_S = 1000MSPS

Figure 7-47 HD2, HD3 and Worst non-HD Spur vs Supply Voltage

10 MHz Tone Spacing

Figure 7-49 Two Tone FFT at 348 MHz Center

10 MHz Tone Spacing

Figure 7-51 Two Tone FFT at 998 MHz Center

10 MHz Tone Spacing

Figure 7-53 Two Tone FFT at 2698 MHz Center

Low Power Mode, F_S = 1000 MSPS, 10 MHz Tone Spacing

Figure 7-55 Two Tone FFT at 348 MHz Center

10 MHz Tone Spacing

Figure 7-57 IMD3 vs Input Frequency

Figure 7-59 Crosstalk to Channel A vs F_IN

CPLL On, F_IN = 397MHz

Figure 7-61 SFDR vs Reference Clock Frequency

F_S = 1300MSPS, High Power Mode

Figure 7-63 SNR vs Input Frequency and CPLL

F_S = 1000MSPS

Figure 7-65 SFDR vs Input Frequency and CPLL

F_S = 1000MSPS

Figure 7-67 SINAD vs Input Frequency and CPLL

F_S = 1300MSPS, High Power Mode

Figure 7-69 SNR vs Input Frequency, CPLL and Input Amplitude

F_S = 1300MSPS, High Power Mode

Figure 7-71 SINAD vs Input Frequency, CPLL and Input Amplitude

F_S = 1300MSPS, High Power Mode

Figure 7-73 HD2 vs Input Frequency, CPLL and Input Amplitude

F_S = 1000MSPS, Low Power Mode

Figure 7-75 SNR vs Input Frequency, CPLL and Input Amplitude

F_S = 1000MSPS, Low Power Mode

Figure 7-77 SINAD vs Input Frequency, CPLL and Input Amplitude

F_S = 1000MSPS, Low Power Mode

Figure 7-79 HD2 vs Input Frequency, CPLL and Input Amplitude

Figure 7-81 Quad Channel, Power Dissipation vs FS for JMODES 0 - 3

Figure 7-83 Quad Channel, Power Dissipation vs FS for JMODES 8 - 11

Independent of JMODE

Figure 7-85 Quad Channel, I_VA19 vs FS

independent of power mode

Figure 7-87 Quad Channel, I_VD11 vs FS and JMODE 0 - 3

independent of power mode

Figure 7-89 Quad Channel, I_VD11 vs FS and JMODE 8 - 11

Figure 7-91 Dual Channel, Power Dissipation vs FS for JMODES 0 - 3

Figure 7-93 Dual Channel, Power Dissipation vs FS for JMODES 8 - 11

Independent of JMODE

Figure 7-95 Dual Channel, I_VA19 vs FS

independent of power mode

Figure 7-97 Dual Channel, I_VD11 vs FS and JMODE 0 - 3

independent of power mode

Figure 7-99 Dual Channel, I_VD11 vs FS and JMODE 8 - 11

Figure 7-101 Single 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, I_VA19 vs FS

independent of power mode

Figure 7-107 Single Channel, I_VD11 vs FS and JMODE 0 - 3

independent of power mode

Figure 7-109 Single Channel, I_VD11 vs FS and JMODE 8 - 11

Difference to foreground calibration, JMODE independent

Figure 7-111 Quad Channel, Power Dissipation Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-113 Single Channel, Power Dissipation Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-115 Dual Channel, I_VA19 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-117 Quad Channel, I_VA11 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-119 Single Channel, I_VA11 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-121 Dual Channel, I_VD11 Change with Calibration Mode

Figure 7-123 Quad Channel, Power Dissipation vs Temperature

Figure 7-125 Single Channel, Power Dissipation vs Temperature

Figure 7-127 Background Calibration Core Transition (AC Signal)

Figure 7-129 Background Calibration Core Transition (DC Signal)

Figure 7-2 INL vs Code

High Power Mode

Figure 7-4 Single Tone FFT at 347 MHz and -1 dBFS

High Power Mode

Figure 7-6 Single Tone FFT at 997 MHz and -1 dBFS

High Power Mode

Figure 7-8 Single Tone FFT at 1797 MHz and -1 dBFS

High Power Mode

Figure 7-10 Single Tone FFT at 3497 MHz and -1 dBFS

F_S = 1000MSPS, Low Power Mode

Figure 7-12 Single Tone FFT at 347 MHz and -1 dBFS

F_S = 1000MSPS, Low Power Mode

Figure 7-14 Single Tone FFT at 1797 MHz and -1 dBFS

Figure 7-16 SNR vs Input Frequency

Figure 7-18 ENOB vs Input Frequency

Figure 7-20 HD3 vs Input Frequency

Figure 7-22 SNR vs Sample Rate

Figure 7-24 ENOB vs Sample Rate

F_S = 1000MSPS, Low Power Mode

Figure 7-26 SNR vs Sample Rate

F_S = 1000MSPS, Low Power Mode

Figure 7-28 ENOB vs Sample Rate

Figure 7-30 SNR vs Input Amplitude

F_S = 1000MSPS, F_IN = 100MHz, Low Power Mode

Figure 7-32 SNR vs Input Amplitude

Figure 7-34 SNR vs Clock Amplitude

F_IN = 997 MHz

Figure 7-36 HD2, HD3 and worst non-HD Spur vs Temperature

F_IN = 997 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-38 ENOB vs Temperature and Calibration Mode

Low Power Mode, F_IN = 347 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-40 SNR vs Temperature and Calibration Mode

Low Power Mode, F_IN = 347 MHz, FG25°C means calibration at 25°C and held across temperature

Figure 7-42 ENOB vs Temperature and Calibration Mode

F_IN = 347 MHz

Figure 7-44 SNR, SFDR and SINAD vs Supply Voltage

Low Power Mode, F_IN = 347 MHz, F_S = 1000MSPS

Figure 7-46 SNR, SFDR and SINAD vs Supply Voltage

10 MHz Tone Spacing

Figure 7-48 Two Tone FFT at 95.07 MHz Center

10 MHz Tone Spacing

Figure 7-50 Two Tone FFT at 498 MHz Center

10 MHz Tone Spacing

Figure 7-52 Two Tone FFT at 1798 MHz Center

Low Power Mode, F_S = 1000 MSPS, 10 MHz Tone Spacing

Figure 7-54 Two Tone FFT at 95.07 MHz Center

Low Power Mode, F_S = 1000 MSPS, 10 MHz Tone Spacing

Figure 7-56 Two Tone FFT at 998 MHz Center

Low Power Mode, F_S = 1000 MSPS, 10 MHz Tone Spacing

Figure 7-58 IMD3 vs Input Frequency

Figure 7-60 Crosstalk to Channel B vs F_IN

F_S = 1300MSPS, High Power Mode

Figure 7-62 SFDR vs Input Frequency and CPLL

F_S = 1300MSPS, High Power Mode

Figure 7-64 ENOB vs Input Frequency and CPLL

F_S = 1000MSPS

Figure 7-66 SNR vs Input Frequency and CPLL

F_S = 1000MSPS

Figure 7-68 ENOB vs Input Frequency and CPLL

F_S = 1300MSPS, High Power Mode

Figure 7-70 SFDR vs Input Frequency, CPLL and Input Amplitude

F_S = 1300MSPS, High Power Mode

Figure 7-72 ENOB vs Input Frequency, CPLL and Input Amplitude

F_S = 1300MSPS, High Power Mode

Figure 7-74 HD3 vs Input Frequency, CPLL and Input Amplitude

F_S = 1000MSPS, Low Power Mode

Figure 7-76 SFDR vs Input Frequency, CPLL and Input Amplitude

F_S = 1000MSPS, Low Power Mode

Figure 7-78 ENOB vs Input Frequency, CPLL and Input Amplitude

F_S = 1000MSPS, Low Power Mode

Figure 7-80 HD3 vs Input Frequency, CPLL and Input Amplitude

Figure 7-82 Quad Channel, Power Dissipation vs FS for JMODES 4 - 7

Figure 7-84 Quad Channel, Power Dissipation vs FS for JMODES 12 - 15

Independent of JMODE

Figure 7-86 Quad Channel, I_VA11 vs FS

independent of power mode

Figure 7-88 Quad Channel, I_VD11 vs FS and JMODE 4 - 7

independent of power mode

Figure 7-90 Quad Channel, I_VD11 vs FS and JMODE 12 - 15

Figure 7-92 Dual Channel, Power Dissipation vs FS for JMODES 4 - 7

Figure 7-94 Dual Channel, Power Dissipation vs FS for JMODES 12 - 15

Independent of JMODE

Figure 7-96 Dual Channel, I_VA11 vs FS

independent of power mode

Figure 7-98 Dual Channel, I_VD11 vs FS and JMODE 4 - 7

independent of power mode

Figure 7-100 Dual Channel, I_VD11 vs FS and JMODE 12 - 15

Figure 7-102 Single Channel, Power Dissipation vs FS for JMODES 4 - 7

Figure 7-104 Single Channel, Power Dissipation vs FS for JMODES 12 - 15

Independent of JMODE

Figure 7-106 Single Channel, I_VA11 vs FS

independent of power mode

Figure 7-108 Single Channel, I_VD11 vs FS and JMODE 4 - 7

independent of power mode

Figure 7-110 Single Channel, I_VD11 vs FS and JMODE 12 - 15

Difference to foreground calibration, JMODE independent

Figure 7-112 Dual Channel, Power Dissipation Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-114 Quad Channel, I_VA19 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-116 Single Channel, I_VA19 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-118 Dual Channel, I_VA11 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-120 Quad Channel, I_VD11 Change with Calibration Mode

Difference to foreground calibration, JMODE independent

Figure 7-122 Dual Channel, I_VD11 Change with Calibration Mode

Figure 7-124 Dual Channel, Power Dissipation vs Temperature

Figure 7-126 Background Calibration Core Transition (midscale voltage)

Figure 7-128 Background Calibration Core Transition (AC Signal Zoomed)