Typical values at 25°C, AIN
= -1 dBFS, FIN = 347 MHz, FS = 1600 MSPS, High power mode, FG
calibration, JMODE 0, C-PLL off, C-PLLREF = 50 MHz and VA11Q and VCLK11
noise suppression on when C-PLL on, Quad Channel operation, nominal supply voltages,
unless otherwise noted. SNR results exclude DC and HD2 to HD9; SINAD, ENOB, and SFDR
results exclude DC.
Figure 8-1 DNL
vs Code
Figure 8-3 Input
Fullscale vs Frequency![Single Tone FFT at 347 MHz and -1 dBFS GUID-20200709-SS0I-RDT2-Q3MW-1CD2XT1W4DZJ-low.gif](/ods/images/SBAS960A/GUID-20200709-SS0I-RDT2-Q3MW-1CD2XT1W4DZJ-low.gif)
High
power mode, C-PLL on |
Figure 8-5 Single Tone FFT at 347 MHz and -1 dBFS
Figure 8-7 Single Tone FFT at 847 MHz and -1 dBFS![Single Tone FFT at 997 MHz and -1 dBFS GUID-20200709-SS0I-GVWN-0GHV-TMBK3SZKSFK9-low.gif](/ods/images/SBAS960A/GUID-20200709-SS0I-GVWN-0GHV-TMBK3SZKSFK9-low.gif)
High
power mode, C-PLL on, Noise suppression off |
Figure 8-9 Single Tone FFT at 997 MHz and -1 dBFS
Figure 8-11 Single Tone FFT at 3797 MHz and -1 dBFS![Single Tone FFT at 347 MHz and -1 dBFS GUID-20200622-SS0I-LDRK-TKT5-XHXNBCPQC13X-low.gif](/ods/images/SBAS960A/GUID-20200622-SS0I-LDRK-TKT5-XHXNBCPQC13X-low.gif)
C-PLL on, Low power mode, FS = 1000
MSPS |
Figure 8-13 Single Tone FFT at 347 MHz and -1 dBFS![Single Tone FFT at 2097 MHz and -1 dBFS GUID-20200610-SS0I-CGMP-P8BJ-GSC03KXHV74F-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-CGMP-P8BJ-GSC03KXHV74F-low.gif)
Low
power mode, FS = 1000 MSPS |
Figure 8-15 Single Tone FFT at 2097 MHz and -1 dBFS
Figure 8-17 SFDR
vs Input Frequency
Figure 8-19 SINAD
vs Input Frequency
Figure 8-21 HD2
vs Input Frequency
Figure 8-23 SFDR
vs Sample Rate
Figure 8-25 SINAD
vs Sample Rate
Figure 8-27 SFDR
vs Sample Rate
Figure 8-29 SFDR
vs Sample Rate
Figure 8-31 ENOB
vs Sample Rate
Figure 8-33 SNR
vs AIN![SNR
vs AIN GUID-20200610-SS0I-XQ2K-RS6C-7WMQGBSVK9TP-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-XQ2K-RS6C-7WMQGBSVK9TP-low.gif)
FIN = 100MHz, Low power mode |
Figure 8-35 SNR
vs AIN
Figure 8-37 SNR
vs ACLK
Figure 8-39 SFDR
vs FREF and Suppression
Figure 8-41 SNR
vs FIN and C-PLL modes
Figure 8-43 ENOB
vs FIN and C-PLL modes
Figure 8-45 SNR
vs FIN and C-PLL modes
Figure 8-47 ENOB
vs FIN and C-PLL modes
Figure 8-49 SNR
vs AIN and C-PLL
Figure 8-51 ENOB
vs AIN and C-PLL
Figure 8-53 HD3
vs AIN and C-PLL
Figure 8-55 SNR
vs AIN and C-PLL
Figure 8-57 ENOB
vs AIN and C-PLL
Figure 8-59 HD3
vs AIN and C-PLL![HD2,
HD3 and Worst non-HD Spur vs Supply Voltage GUID-20200629-SS0I-7QRZ-7B6L-4KBV2CWDTSL3-low.gif](/ods/images/SBAS960A/GUID-20200629-SS0I-7QRZ-7B6L-4KBV2CWDTSL3-low.gif)
All
supplies changed together, high power mode |
Figure 8-61 HD2,
HD3 and Worst non-HD Spur vs Supply Voltage![HD2,
HD3 and Worst non-HD Spur vs Supply Voltage GUID-20200629-SS0I-KQ7Q-KQC8-G93BP33LQGTK-low.gif](/ods/images/SBAS960A/GUID-20200629-SS0I-KQ7Q-KQC8-G93BP33LQGTK-low.gif)
All
supplies changed together, low power mode, FS
= 1000MSPS |
Figure 8-63 HD2,
HD3 and Worst non-HD Spur vs Supply Voltage
Figure 8-65 SFDR
vs Temperature
Figure 8-67 HD3
vs Temperature
Figure 8-69 Two
Tone FFT at 498MHz
Figure 8-71 Two
Tone FFT at 3498MHz![Two
Tone FFT at 1798 MHz GUID-20200702-SS0I-4WHX-PGQW-WSCBDKW6XBLR-low.gif](/ods/images/SBAS960A/GUID-20200702-SS0I-4WHX-PGQW-WSCBDKW6XBLR-low.gif)
10
MHz tone spacing, -7 dBFS per tone, Low power mode,
1000MSPS |
Figure 8-73 Two
Tone FFT at 1798 MHz
Figure 8-75 IMD3
vs FIN
Figure 8-77 Crosstalk to Channel A vs FIN![Quad
Channel, Power Dissipation vs FS and JMODES 0 - 3 GUID-20200610-SS0I-5R2S-TD5D-HTNNCM69C7H9-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-5R2S-TD5D-HTNNCM69C7H9-low.gif)
Low
power background calibration mode |
Figure 8-79 Quad
Channel, Power Dissipation vs FS and JMODES 0 - 3![Quad
Channel, Power Dissipation vs FS and JMODE 8 - 12 GUID-20200610-SS0I-VQLC-T0VH-XPVCS8LLJPQD-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-VQLC-T0VH-XPVCS8LLJPQD-low.gif)
Low
power background calibration mode |
Figure 8-81 Quad
Channel, Power Dissipation vs FS and JMODE 8 - 12![Quad
Channel, IVA19 vs FS GUID-20200610-SS0I-FXBF-TXJ9-H1QLGVC0RT99-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-FXBF-TXJ9-H1QLGVC0RT99-low.gif)
Low
power background calibration mode, independent of
JMODE |
Figure 8-83 Quad
Channel, IVA19 vs FS![Quad
Channel, IVD11 vs FS and JMODE 0 - 3 GUID-20200610-SS0I-DMGT-HZXJ-5KDKM7RF3JHG-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-DMGT-HZXJ-5KDKM7RF3JHG-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-85 Quad
Channel, IVD11 vs FS and JMODE 0 - 3![Quad
Channel, IVD11 vs FS and JMODE 8 - 12 GUID-20200610-SS0I-MFC5-4BQR-PGTKD9JRDCSP-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-MFC5-4BQR-PGTKD9JRDCSP-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-87 Quad
Channel, IVD11 vs FS and JMODE 8 - 12![Dual
Channel, Power Dissipation vs FS and JMODE 0 - 3 GUID-20200610-SS0I-JJTS-8JBP-HMQFCLCF71GR-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-JJTS-8JBP-HMQFCLCF71GR-low.gif)
Low
power background calibration mode |
Figure 8-89 Dual
Channel, Power Dissipation vs FS and JMODE 0 - 3![Dual
Channel, Power Dissipation vs FS and JMODE 8 - 12 GUID-20200610-SS0I-DXH2-Q3MQ-NT1FWVHKD53P-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-DXH2-Q3MQ-NT1FWVHKD53P-low.gif)
Low
power background calibration mode |
Figure 8-91 Dual
Channel, Power Dissipation vs FS and JMODE 8 - 12![Dual
Channel, IVA19 vs FS GUID-20200610-SS0I-4TRM-Z2L1-JFQ9S9PV3CTX-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-4TRM-Z2L1-JFQ9S9PV3CTX-low.gif)
Low
power background calibration mode, independent of
JMODE |
Figure 8-93 Dual
Channel, IVA19 vs FS![Dual
Channel, Power Dissipation vs FS and JMODE 0 - 3 GUID-20200610-SS0I-NF6V-ZVV1-NQFJ2CCPLHMJ-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-NF6V-ZVV1-NQFJ2CCPLHMJ-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-95 Dual
Channel, Power Dissipation vs FS and JMODE 0 - 3![Dual
Channel, Power Dissipation vs FS and JMODE 8 - 12 GUID-20200610-SS0I-CQHF-KVVX-7L8JWLFWHWRS-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-CQHF-KVVX-7L8JWLFWHWRS-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-97 Dual
Channel, Power Dissipation vs FS and JMODE 8 - 12![Single Channel, Power Dissipation vs FS and JMODE 0 - 3 GUID-20200610-SS0I-VFHV-359G-JQ1PPDGQWXNC-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-VFHV-359G-JQ1PPDGQWXNC-low.gif)
Low
power background calibration mode |
Figure 8-99 Single Channel, Power Dissipation vs FS and JMODE 0 - 3![Single Channel, Power Dissipation vs FS and JMODE 8 - 12 GUID-20200610-SS0I-ZT8G-8BZJ-4VPLCMW3SRHK-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-ZT8G-8BZJ-4VPLCMW3SRHK-low.gif)
Low
power background calibration mode |
Figure 8-101 Single Channel, Power Dissipation vs FS and JMODE 8 - 12![Single Channel, IVA19 vs FS GUID-20200610-SS0I-TWCR-VCC4-VRLKBG8NVBKS-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-TWCR-VCC4-VRLKBG8NVBKS-low.gif)
Low
power background calibration mode, independent of
JMODE |
Figure 8-103 Single Channel, IVA19 vs FS![Single Channel, IVD11 vs FS and JMODE 0 - 3 GUID-20200610-SS0I-P7KK-SL1P-HJR3LHSN06MV-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-P7KK-SL1P-HJR3LHSN06MV-low.gif)
Low
power background calibration mode |
Figure 8-105 Single Channel, IVD11 vs FS and JMODE 0 - 3![Single Channel, IVD11 vs FS and JMODE 8 - 12 GUID-20200610-SS0I-9D06-GMGM-4QFL7FTXN0JR-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-9D06-GMGM-4QFL7FTXN0JR-low.gif)
Low
power background calibration mode |
Figure 8-107 Single Channel, IVD11 vs FS and JMODE 8 - 12![Quad
Channel, Power Dissipation Change with Calibration Mode GUID-20200610-SS0I-J31D-FXRF-QDTTJPDX5JSJ-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-J31D-FXRF-QDTTJPDX5JSJ-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-109 Quad
Channel, Power Dissipation Change with Calibration Mode![Single Channel, Power Dissipation Change with Calibration Mode GUID-20200610-SS0I-SGZN-V500-VTDRZBGZLT6F-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-SGZN-V500-VTDRZBGZLT6F-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-111 Single Channel, Power Dissipation Change with Calibration Mode![Dual
Channel, IVA19 Change with Calibration Mode GUID-20200610-SS0I-C6BR-MKZF-4V0C5NZH6BQQ-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-C6BR-MKZF-4V0C5NZH6BQQ-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-113 Dual
Channel, IVA19 Change with Calibration Mode![Quad
Channel, IVA11 Change with Calibration Mode GUID-20200610-SS0I-J6B3-MSF7-5S4TGTHMMVNC-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-J6B3-MSF7-5S4TGTHMMVNC-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-115 Quad
Channel, IVA11 Change with Calibration Mode![Single Channel, IVA11 Change with Calibration Mode GUID-20200610-SS0I-KB70-TCDG-SFQ2BSZVBPDV-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-KB70-TCDG-SFQ2BSZVBPDV-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-117 Single Channel, IVA11 Change with Calibration Mode![Dual
Channel, IVD11 Change with Calibration Mode GUID-20200610-SS0I-RDXL-C9GK-RS0GN9FFD78G-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-RDXL-C9GK-RS0GN9FFD78G-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-119 Dual
Channel, IVD11 Change with Calibration Mode
Figure 8-121 Quad
Channel, Power Dissipation vs Temperature
Figure 8-123 Single Channel, Power Dissipation vs Temperature![Background Calibration Core Transition (offset voltage) GUID-20200731-CA0I-RBWF-VJQH-SW4Q7BZCPJZ5-low.gif](/ods/images/SBAS960A/GUID-20200731-CA0I-RBWF-VJQH-SW4Q7BZCPJZ5-low.gif)
BG
Calibration, input voltage offset ~ 90% of fullscale,
ADC_SRC_DLY=31, MUX_DLY=30 |
Figure 8-125 Background Calibration Core Transition (offset voltage)![Background Calibration Core Transition (AC Signal Zoomed) GUID-20200811-CA0I-VP3H-DTVX-SKWM2SQFVXSJ-low.gif](/ods/images/SBAS960A/GUID-20200811-CA0I-VP3H-DTVX-SKWM2SQFVXSJ-low.gif)
BG
Calibration, ADC_SRC_DLY=31, MUX_DLY=30, unzoomed region
shown in previous plot |
Figure 8-127 Background Calibration Core Transition (AC Signal Zoomed)
Figure 8-2 INL
vs Code
Figure 8-4 Single Tone FFT at 347 MHz and -1 dBFS![Single Tone FFT at 347 MHz and -1 dBFS GUID-20200709-SS0I-JFLH-S4JH-KSXZ6PZFKRCD-low.gif](/ods/images/SBAS960A/GUID-20200709-SS0I-JFLH-S4JH-KSXZ6PZFKRCD-low.gif)
High
power mode, C-PLL on, Noise suppression off |
Figure 8-6 Single Tone FFT at 347 MHz and -1 dBFS![Single Tone FFT at 997 MHz and -1 dBFS GUID-20200709-SS0I-VPHG-VFWZ-BHMK4ZD7WQLX-low.gif](/ods/images/SBAS960A/GUID-20200709-SS0I-VPHG-VFWZ-BHMK4ZD7WQLX-low.gif)
High
power mode, C-PLL on |
Figure 8-8 Single Tone FFT at 997 MHz and -1 dBFS
Figure 8-10 Single Tone FFT at 1797 MHz and -1 dBFS![Single Tone FFT at 347 MHz and -1 dBFS GUID-20200610-SS0I-PTPR-QNMF-BQS13QPXS0HX-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-PTPR-QNMF-BQS13QPXS0HX-low.gif)
Low
power mode, FS = 1000 MSPS |
Figure 8-12 Single Tone FFT at 347 MHz and -1 dBFS![Single Tone FFT at 897 MHz and -1 dBFS GUID-20200610-SS0I-8JJB-ZN3R-MNRZ5GQCHZWQ-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-8JJB-ZN3R-MNRZ5GQCHZWQ-low.gif)
Low
power mode, FS = 1000 MSPS |
Figure 8-14 Single Tone FFT at 897 MHz and -1 dBFS![Single Tone FFT at 3797 MHz and -1 dBFS GUID-20200610-SS0I-8XKK-L9MQ-W6FSLFSJJ16D-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-8XKK-L9MQ-W6FSLFSJJ16D-low.gif)
Low
power mode, FS = 1000 MSPS |
Figure 8-16 Single Tone FFT at 3797 MHz and -1 dBFS
Figure 8-18 SNR
vs Input Frequency
Figure 8-20 ENOB
vs Input Frequency
Figure 8-22 HD3
vs Input Frequency
Figure 8-24 SNR
vs Sample Rate
Figure 8-26 ENOB
vs Sample Rate
Figure 8-28 SNR
vs Sample Rate
Figure 8-30 SINAD
vs Sample Rate
Figure 8-32 SFDR
vs AIN![SFDR
vs AIN GUID-20200610-SS0I-HZZV-J8KZ-NVLNDZPWGP9J-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-HZZV-J8KZ-NVLNDZPWGP9J-low.gif)
FIN = 100MHz, Low power mode |
Figure 8-34 SFDR
vs AIN
Figure 8-36 SFDR
vs ACLK
Figure 8-38 SNR
vs FREF and Suppression
Figure 8-40 SFDR
vs FIN and C-PLL modes
Figure 8-42 SINAD
vs FIN and C-PLL modes
Figure 8-44 SFDR
vs FIN and C-PLL modes
Figure 8-46 SINAD
vs FIN and C-PLL modes
Figure 8-48 SFDR
vs AIN and C-PLL
Figure 8-50 SINAD
vs AIN and C-PLL
Figure 8-52 HD2
vs AIN and C-PLL
Figure 8-54 SFDR
vs AIN and C-PLL
Figure 8-56 SINAD
vs AIN and C-PLL
Figure 8-58 HD2
vs AIN and C-PLL![SNR,
SFDR and SINAD vs Supply Voltage GUID-20200629-SS0I-VG6F-G6JM-L6XCNKXZM8RS-low.gif](/ods/images/SBAS960A/GUID-20200629-SS0I-VG6F-G6JM-L6XCNKXZM8RS-low.gif)
All
supplies changed together, high power mode |
Figure 8-60 SNR,
SFDR and SINAD vs Supply Voltage![SNR,
SFDR and SINAD vs Supply Voltages GUID-20200629-SS0I-STXC-F5CR-RBPCW5GDDNZV-low.gif](/ods/images/SBAS960A/GUID-20200629-SS0I-STXC-F5CR-RBPCW5GDDNZV-low.gif)
All
supplies changed together, low power mode, FS
= 1000MSPS |
Figure 8-62 SNR,
SFDR and SINAD vs Supply Voltages
Figure 8-64 SNR
vs Temperature
Figure 8-66 HD2
vs Temperature![Worst
Spur vs Temperature GUID-20200715-CA0I-KVL3-RF5V-KZCWZC0Q6ZTN-low.gif](/ods/images/SBAS960A/GUID-20200715-CA0I-KVL3-RF5V-KZCWZC0Q6ZTN-low.gif)
Worst spur is non-HD2 though -HD10 SDFR |
Figure 8-68 Worst
Spur vs Temperature
Figure 8-70 Two
Tone FFT at 1798MHz![Two
Tone FFT at 348 MHz GUID-20200702-SS0I-WCKK-ZJRD-KGMKTZB4S1SK-low.gif](/ods/images/SBAS960A/GUID-20200702-SS0I-WCKK-ZJRD-KGMKTZB4S1SK-low.gif)
10
MHz tone spacing, -7 dBFS per tone, Low power mode,
1000MSPS |
Figure 8-72 Two
Tone FFT at 348 MHz![Two
Tone FFT at 3498 MHz GUID-20200702-SS0I-KW2K-V5RT-LZ28KVDSB0WN-low.gif](/ods/images/SBAS960A/GUID-20200702-SS0I-KW2K-V5RT-LZ28KVDSB0WN-low.gif)
10
MHz tone spacing, -7 dBFS per tone, Low power mode,
1000MSPS |
Figure 8-74 Two
Tone FFT at 3498 MHz![IMD3
vs FIN GUID-20200706-SS0I-4SBX-CRMB-D0BQRQ0PDJ6F-low.gif](/ods/images/SBAS960A/GUID-20200706-SS0I-4SBX-CRMB-D0BQRQ0PDJ6F-low.gif)
10MHz tone spacing, Low power mode, 1000MSPS |
Figure 8-76 IMD3
vs FIN
Figure 8-78 Crosstalk to Channel B vs FIN![Quad
Channel, Power Dissipation vs FS and JMODE 4 - 7 GUID-20200610-SS0I-LM1L-MD9R-J7XMVJVTWNKT-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-LM1L-MD9R-J7XMVJVTWNKT-low.gif)
Low
power background calibration mode |
Figure 8-80 Quad
Channel, Power Dissipation vs FS and JMODE 4 - 7![Quad
Channel, Power Dissipation vs FS and JMODE 13 - 15 GUID-20200610-SS0I-SDNF-QBMD-QCGSS496S2S9-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-SDNF-QBMD-QCGSS496S2S9-low.gif)
Low
power background calibration mode |
Figure 8-82 Quad
Channel, Power Dissipation vs FS and JMODE 13 - 15![Quad
Channel, IVA11 vs FS GUID-20200610-SS0I-KXPF-33PH-PSBMKQ4H2TV0-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-KXPF-33PH-PSBMKQ4H2TV0-low.gif)
Low
power background calibration mode, independent of
JMODE |
Figure 8-84 Quad
Channel, IVA11 vs FS![Quad
Channel, IVD11 vs FS and JMODE 4 - 7 GUID-20200610-SS0I-4CDJ-6MD6-F31BP39XSB51-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-4CDJ-6MD6-F31BP39XSB51-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-86 Quad
Channel, IVD11 vs FS and JMODE 4 - 7![Quad
Channel, IVD11 vs FS and JMODE 13 - 15 GUID-20200610-SS0I-JX1R-9RMM-BPBWT9QJLCSV-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-JX1R-9RMM-BPBWT9QJLCSV-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-88 Quad
Channel, IVD11 vs FS and JMODE 13 - 15![Dual
Channel, Power Dissipation vs FS and JMODE 4 - 7 GUID-20200610-SS0I-QPSN-VVHH-JJ0DVHMC4FZG-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-QPSN-VVHH-JJ0DVHMC4FZG-low.gif)
Low
power background calibration mode |
Figure 8-90 Dual
Channel, Power Dissipation vs FS and JMODE 4 - 7![Dual
Channel, Power Dissipation vs FS and JMODE 13 - 15 GUID-20200610-SS0I-MSJN-5MFL-TRTMFRTMLZFM-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-MSJN-5MFL-TRTMFRTMLZFM-low.gif)
Low
power background calibration mode |
Figure 8-92 Dual
Channel, Power Dissipation vs FS and JMODE 13 - 15![Dual
Channel, IVA11 vs FS GUID-20200610-SS0I-KSPZ-JGDH-GC7FBZ3QFRSB-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-KSPZ-JGDH-GC7FBZ3QFRSB-low.gif)
Low
power background calibration mode, independent of
JMODE |
Figure 8-94 Dual
Channel, IVA11 vs FS![Dual
Channel, Power Dissipation vs FS and JMODE 4 - 7 GUID-20200610-SS0I-2785-HFJX-QVG2Q9J31CX1-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-2785-HFJX-QVG2Q9J31CX1-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-96 Dual
Channel, Power Dissipation vs FS and JMODE 4 - 7![Dual
Channel, Power Dissipation vs FS and JMODE 13 - 15 GUID-20200610-SS0I-KXHQ-3WWS-FHNL69QVXJ24-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-KXHQ-3WWS-FHNL69QVXJ24-low.gif)
Low
power background calibration mode, independent of power
mode |
Figure 8-98 Dual
Channel, Power Dissipation vs FS and JMODE 13 - 15![Single Channel, Power Dissipation vs FS and JMODE 4 - 7 GUID-20200610-SS0I-DH78-6KNL-6WDG4HQCFVLW-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-DH78-6KNL-6WDG4HQCFVLW-low.gif)
Low
power background calibration mode |
Figure 8-100 Single Channel, Power Dissipation vs FS and JMODE 4 - 7![Single Channel, Power Dissipation vs FS and JMODE 13 -
15 GUID-20200610-SS0I-1FCQ-5GTK-1BPZWVWLZRQW-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-1FCQ-5GTK-1BPZWVWLZRQW-low.gif)
Low
power background calibration mode |
Figure 8-102 Single Channel, Power Dissipation vs FS and JMODE 13 -
15![Single Channel, IVA11 vs FS GUID-20200610-SS0I-4FXK-L59V-XF1RFFWFDKH8-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-4FXK-L59V-XF1RFFWFDKH8-low.gif)
Low
power background calibration mode, independent of
JMODE |
Figure 8-104 Single Channel, IVA11 vs FS![Single Channel, IVD11 vs FS and JMODE 4 - 7 GUID-20200610-SS0I-WCWC-5JFG-87CFX5TRZQR4-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-WCWC-5JFG-87CFX5TRZQR4-low.gif)
Low
power background calibration mode |
Figure 8-106 Single Channel, IVD11 vs FS and JMODE 4 - 7![Single Channel, IVD11 vs FS and JMODE 13 - 15 GUID-20200610-SS0I-RWLQ-82PS-WXCSNH7DLZS5-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-RWLQ-82PS-WXCSNH7DLZS5-low.gif)
Low
power background calibration mode |
Figure 8-108 Single Channel, IVD11 vs FS and JMODE 13 - 15![Dual
Channel, Power Dissipation Change with Calibration Mode GUID-20200610-SS0I-FZ4W-4RC3-MJCCG8N6MFRQ-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-FZ4W-4RC3-MJCCG8N6MFRQ-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-110 Dual
Channel, Power Dissipation Change with Calibration Mode![Quad
Channel, IVA19 Change with Calibration Mode GUID-20200610-SS0I-RXZZ-WLNF-DC1HKTK6KWLN-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-RXZZ-WLNF-DC1HKTK6KWLN-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-112 Quad
Channel, IVA19 Change with Calibration Mode![Single Channel, IVA19 Change with Calibration Mode GUID-20200610-SS0I-1KT5-F8F3-ZTXS2RG1QB7J-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-1KT5-F8F3-ZTXS2RG1QB7J-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-114 Single Channel, IVA19 Change with Calibration Mode![Dual
Channel, IVA11 Change with Calibration Mode GUID-20200610-SS0I-NCNS-4NS9-MS2HXQDF05XP-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-NCNS-4NS9-MS2HXQDF05XP-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-116 Dual
Channel, IVA11 Change with Calibration Mode![Quad
Channel, IVD11 Change with Calibration Mode GUID-20200610-SS0I-9P9P-VRH2-W2NKMWKG8NRQ-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-9P9P-VRH2-W2NKMWKG8NRQ-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-118 Quad
Channel, IVD11 Change with Calibration Mode![Single Channel, IVD11 Change with Calibration Mode GUID-20200610-SS0I-35G5-8MKZ-LL8R3RRRDHTW-low.gif](/ods/images/SBAS960A/GUID-20200610-SS0I-35G5-8MKZ-LL8R3RRRDHTW-low.gif)
Difference to lower power background calibration, JMODE
independent |
Figure 8-120 Single Channel, IVD11 Change with Calibration Mode
Figure 8-122 Dual
Channel, Power Dissipation vs Temperature![Background Calibration Core Transition (midscale voltage) GUID-20200731-CA0I-WJ8V-SRTH-NHZWGGTZXHJG-low.gif](/ods/images/SBAS960A/GUID-20200731-CA0I-WJ8V-SRTH-NHZWGGTZXHJG-low.gif)
BG
Calibration, midscale input voltage, ADC_SRC_DLY=31,
MUX_DLY=30 |
Figure 8-124 Background Calibration Core Transition (midscale voltage)![Background Calibration Core Transition (AC Signal) GUID-20200803-CA0I-Z2PV-3NBZ-BJLG1GJ3C1B3-low.gif](/ods/images/SBAS960A/GUID-20200803-CA0I-Z2PV-3NBZ-BJLG1GJ3C1B3-low.gif)
BG
Calibration, ADC_SRC_DLY=31, MUX_DLY=30, zoomed region
shown in next plot |
Figure 8-126 Background Calibration Core Transition (AC Signal)