Typical values are at TA = 25°C, ADC sampling rate = 3 GSPS, LMFS = 82820, 50% clock duty cycle, AVDD18 = 1.8 V, AVDD12, CLKVDD, DVDD = 1.2 V and –1-dBFS differential input, unless otherwise noted
![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 100 MHz GUID-20221206-SS0I-VWN3-DDQT-9QN74CQK5FHH-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-VWN3-DDQT-9QN74CQK5FHH-low.svg)
SNR = 62.1 dBFS, SFDR = 57 dBc, Non HD23 = 75 dBFS AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-56 Single Tone FFT at FIN = 100 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 500 MHz GUID-20221206-SS0I-4NKH-RHGN-V18ZXKKZFHGF-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-4NKH-RHGN-V18ZXKKZFHGF-low.svg)
SNR = 61.9 dBFS, SFDR = 63 dBc, Non HD23 = 77 dBFS AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-58 Single Tone FFT at FIN = 500 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-0P8D-T4MH-JL9SVJLZ6FBV-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-0P8D-T4MH-JL9SVJLZ6FBV-low.svg)
SNR = 61.8 dBFS, SFDR = 60 dBc, Non HD23 = 76 dBFS AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-60 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 1400 MHz GUID-20221206-SS0I-J6DT-MZN4-XWZQ6T3GMBQP-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-J6DT-MZN4-XWZQ6T3GMBQP-low.svg)
SNR = 62.1 dBFS, SFDR = 57 dBc, Non HD23 = 76 dBFS AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-62 Single Tone FFT at FIN = 1400 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 1900 MHz GUID-20221206-SS0I-LKVM-MTKQ-BPK8HDJTVRKG-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-LKVM-MTKQ-BPK8HDJTVRKG-low.svg)
SNR = 60.9 dBFS, SFDR = 62 dBc, Non HD23 = 74 dBFS AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-64 Single Tone FFT at FIN = 1900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 2200 MHz GUID-20221206-SS0I-N8MB-8BRQ-21Q6FTJ7XWVW-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-N8MB-8BRQ-21Q6FTJ7XWVW-low.svg)
SNR = 60.4 dBFS, SFDR = 58 dBc, Non HD23 = 73 dBFS AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-66 Single Tone FFT at FIN = 2200 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-LGLT-FCX6-ZWF1HTWFG4NR-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-LGLT-FCX6-ZWF1HTWFG4NR-low.svg)
SNR = 63.5 dBFS, SFDR = 59 dBc, Non HD23 = 80 dBFS AIN = -1 dBFS, 2x AVG, Dither = DIS |
Figure 6-68 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-RZ2C-HNWD-MWFRSS4XMWC7-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-RZ2C-HNWD-MWFRSS4XMWC7-low.svg)
SNR = 65.6 dBFS, SFDR = 60 dBc, Non HD23 = 80 dBFS AIN = -1 dBFS, 4x AVG, Dither = DIS |
Figure 6-70 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-NVJN-FSLW-SZ1KMWP21HB4-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-NVJN-FSLW-SZ1KMWP21HB4-low.svg)
SNR = 63.9 dBFS, SFDR = 60 dBc, Non HD23 = 87 dBFS AIN = -20 dBFS, 1x AVG, Dither = DIS |
Figure 6-72 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-RW6B-7QC7-VT4Q9FVQX1VD-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-RW6B-7QC7-VT4Q9FVQX1VD-low.svg)
SNR = 66.4 dBFS, SFDR = 63 dBc, Non HD23 = 86 dBFS AIN = -20 dBFS, 2x AVG, Dither = DIS |
Figure 6-74 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-5KXZ-SM4P-ZVR8L2TBNHDR-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-5KXZ-SM4P-ZVR8L2TBNHDR-low.svg)
SNR = 68.7 dBFS, SFDR = 62 dBc, Non HD23 = 87 dBFS AIN = -20 dBFS, 4x AVG, Dither = DIS |
Figure 6-76 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Two Tone FFT at FIN = 900/1000 MHz GUID-20221206-SS0I-8JT6-3C21-LJCBZRLSCPJB-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-8JT6-3C21-LJCBZRLSCPJB-low.svg)
IMD3 = 68 dBc AIN = -7 dBFS/tone, 1x AVG, Dither = DIS |
Figure 6-78 Two Tone FFT at FIN = 900/1000 MHz![ADC32RF54 ADC32RF55 Two Tone FFT at FIN = 900/1000 MHz GUID-20221206-SS0I-RJ4L-7GFL-07WKDS205FGB-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-RJ4L-7GFL-07WKDS205FGB-low.svg)
IMD3 = 54 dBc AIN = -26 dBFS/tone, 1x AVG, Dither = DIS |
Figure 6-80 Two Tone FFT at FIN = 900/1000 MHz![ADC32RF54 ADC32RF55 AC Performance vs FIN GUID-20221215-SS0I-MGBG-VTR5-GBDJFDV78SK8-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-MGBG-VTR5-GBDJFDV78SK8-low.svg)
AIN = -1 dBFS, Dither = DIS |
Figure 6-82 AC Performance vs FIN![ADC32RF54 ADC32RF55 Dither Spur vs AIN GUID-20221215-SS0I-PFCC-ZFFS-FT2HMKDHTKPN-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-PFCC-ZFFS-FT2HMKDHTKPN-low.svg)
FIN = 900 MHz, Dither spur = +/- 15 MHz (FS/4 / Dither Divider) |
Figure 6-84 Dither Spur vs AIN![ADC32RF54 ADC32RF55 AC Performance vs AIN GUID-20221206-SS0I-QGG7-DTNG-6M7BDGXCTLHG-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-QGG7-DTNG-6M7BDGXCTLHG-low.svg)
FIN = 900 MHz, Dither = DIS |
Figure 6-86 AC Performance vs AIN
Figure 6-88 IMD3 Performance vs AIN![ADC32RF54 ADC32RF55 AC Performance vs FS GUID-20221206-SS0I-CHQK-2GMX-HSHNPTB3H4BQ-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-CHQK-2GMX-HSHNPTB3H4BQ-low.svg)
FIN = 900 MHz, AIN = -1 dBFS, Dither = DIS |
Figure 6-90 AC Performance vs FS![ADC32RF54 ADC32RF55 AC Performance vs AVDD12 GUID-20221206-SS0I-CCW9-JDLR-PDBB7N334BBT-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-CCW9-JDLR-PDBB7N334BBT-low.svg)
FIN = 900 MHz, AIN = -1 dBFS, Dither = DIS, Other supplies nominal |
Figure 6-92 AC Performance vs AVDD12![ADC32RF54 ADC32RF55 AC
Performance vs Temperature GUID-20221215-SS0I-3VT1-R6MS-FBX2RKTVD2DD-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-3VT1-R6MS-FBX2RKTVD2DD-low.svg)
FIN = 900 MHz, AIN = -4 dBFS,
Dither = EN |
Figure 6-94 AC
Performance vs Temperature
Figure 6-96 Isolation vs Input Frequency![ADC32RF54 ADC32RF55 DNL vs Code GUID-20221206-SS0I-B0DH-R0BG-3SZRM8SC30LG-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-B0DH-R0BG-3SZRM8SC30LG-low.svg)
FIN = 900 MHz, Dither = DIS |
Figure 6-98 DNL vs Code![ADC32RF54 ADC32RF55 CMRR GUID-20221206-SS0I-JHJD-SZLL-KBFBGPBHBTKQ-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-JHJD-SZLL-KBFBGPBHBTKQ-low.svg)
AIN = -1 dBFS, 1x AVG, Dither = DIS |
Figure 6-100 CMRR
Figure 6-102 Current vs Sampling Rate vs Real Decimation![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Complex Decimation GUID-20221206-SS0I-NVVC-2PB6-BCDMHCRSZW3Z-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-NVVC-2PB6-BCDMHCRSZW3Z-low.svg)
AIN = -1 dBFS, 1x AVG Single Band Decimation |
Figure 6-104 Current vs Sampling Rate vs Complex Decimation![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Complex Decimation GUID-20221206-SS0I-5DTH-P11W-NT52JHJJZDR3-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-5DTH-P11W-NT52JHJJZDR3-low.svg)
AIN = -1 dBFS, 1x AVG Dual Band Decimation |
Figure 6-106 Current vs Sampling Rate vs Complex Decimation![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Complex Decimation GUID-20221206-SS0I-XCKB-TPDM-JKQNMW0K0XDP-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-XCKB-TPDM-JKQNMW0K0XDP-low.svg)
AIN = -1 dBFS, 1x AVG Quad Band Decimation |
Figure 6-108 Current vs Sampling Rate vs Complex Decimation![ADC32RF54 ADC32RF55 IAVDD18 vs Supply GUID-20221206-SS0I-ZDCR-SPCK-WRMFXJCWTSZ2-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-ZDCR-SPCK-WRMFXJCWTSZ2-low.svg)
AIN = -1 dBFS, DDC Bypass |
Figure 6-110 IAVDD18 vs Supply![ADC32RF54 ADC32RF55 IDVDD vs Supply GUID-20221206-SS0I-DGX0-G8NR-HB9XHJXTZKVC-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-DGX0-G8NR-HB9XHJXTZKVC-low.svg)
AIN = -1 dBFS, DDC Bypass |
Figure 6-112 IDVDD vs Supply![ADC32RF54 ADC32RF55 AVDD12 Distribution GUID-20221215-SS0I-DRSN-XWNV-XV7DPMTMKRZ0-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-DRSN-XWNV-XV7DPMTMKRZ0-low.svg)
AIN = -1 dBFS, DDC Bypass |
Figure 6-114 AVDD12 Distribution![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 100 MHz GUID-20221206-SS0I-SDGL-N8V6-NFHCRTVQR1X9-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-SDGL-N8V6-NFHCRTVQR1X9-low.svg)
SNR = 61.7 dBFS(1), SFDR = 58 dBc, Non HD23 = 83 dBFS AIN = -4 dBFS, 1x AVG, Dither = EN |
Figure 6-57 Single Tone FFT at FIN = 100 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 500 MHz GUID-20221206-SS0I-KJ9C-DNBB-RZTFJL1RHNZT-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-KJ9C-DNBB-RZTFJL1RHNZT-low.svg)
SNR = 61.8 dBFS1, SFDR = 68 dBc, Non HD23 = 84 dBFS AIN = -4 dBFS, 1x AVG, Dither = EN |
Figure 6-59 Single Tone FFT at FIN = 500 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-VKQH-HHL1-CGCNKRZKVDRN-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-VKQH-HHL1-CGCNKRZKVDRN-low.svg)
SNR = 60.9 dBFS1, SFDR = 64 dBc, Non HD23 = 82 dBFS AIN = -4 dBFS, 1x AVG, Dither = EN |
Figure 6-61 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 1400 MHz GUID-20221206-SS0I-RTXZ-8SCW-TDJJ6CQJGTNT-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-RTXZ-8SCW-TDJJ6CQJGTNT-low.svg)
SNR = 62.2 dBFS1, SFDR = 63 dBc, Non HD23 = 83 dBFS AIN = -4 dBFS, 1x AVG, Dither = EN |
Figure 6-63 Single Tone FFT at FIN = 1400 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 1900 MHz GUID-20221206-SS0I-DD7Q-4FNQ-7Z8JNQWB36GG-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-DD7Q-4FNQ-7Z8JNQWB36GG-low.svg)
SNR = 61.2 dBFS1, SFDR = 67 dBc, Non HD23 = 80 dBFS AIN = -4 dBFS, 1x AVG, Dither = EN |
Figure 6-65 Single Tone FFT at FIN = 1900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 2200 MHz GUID-20221206-SS0I-82WZ-0PB7-XSG7TGVHZJLP-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-82WZ-0PB7-XSG7TGVHZJLP-low.svg)
SNR = 61.1 dBFS1, SFDR = 60 dBc, Non HD23 = 82 dBFS AIN = -4 dBFS, 1x AVG, Dither = EN |
Figure 6-67 Single Tone FFT at FIN = 2200 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-JQWQ-WMSW-S3MLLFPKX1TF-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-JQWQ-WMSW-S3MLLFPKX1TF-low.svg)
SNR = 62.3 dBFS1, SFDR = 66 dBc, Non HD23 = 82 dBFS AIN = -4 dBFS, 2x AVG, Dither = EN |
Figure 6-69 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-RPBG-7WKL-GZ8NGT26GHLX-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-RPBG-7WKL-GZ8NGT26GHLX-low.svg)
SNR = 66.2 dBFS1, SFDR = 66 dBc, Non HD23 = 83 dBFS AIN = -4 dBFS, 4x AVG, Dither = EN |
Figure 6-71 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-HGK5-X38B-9H1QZW0TDZPF-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-HGK5-X38B-9H1QZW0TDZPF-low.svg)
SNR = 63.4 dBFS1, SFDR = 73 dBc, Non HD23 = 92 dBFS AIN = -20 dBFS, 1x AVG, Dither = EN |
Figure 6-73 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-NDHZ-6ZGD-0PKZL7RGGBQC-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-NDHZ-6ZGD-0PKZL7RGGBQC-low.svg)
SNR = 65.5 dBFS1, SFDR = 73 dBc, Non HD23 = 95 dBFS AIN = -20 dBFS, 2x AVG, Dither = EN |
Figure 6-75 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Single Tone FFT at FIN = 900 MHz GUID-20221206-SS0I-F2J2-S5F7-TCLMZSKQZBHK-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-F2J2-S5F7-TCLMZSKQZBHK-low.svg)
SNR = 68.1 dBFS1, SFDR = 71 dBc, Non HD23 = 78 dBFS AIN = -20 dBFS, 4x AVG, Dither = EN |
Figure 6-77 Single Tone FFT at FIN = 900 MHz![ADC32RF54 ADC32RF55 Two Tone FFT at FIN = 900/1000 MHz GUID-20221206-SS0I-P78H-JGQS-ZRNGCHSWWPXP-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-P78H-JGQS-ZRNGCHSWWPXP-low.svg)
IMD3 = 70 dBc AIN = -10 dBFS/tone, 1x AVG, Dither = EN |
Figure 6-79 Two Tone FFT at FIN = 900/1000 MHz![ADC32RF54 ADC32RF55 Two Tone FFT at FIN = 900/1000 MHz GUID-20221206-SS0I-NL1P-CGJP-8F13CBWN58LP-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-NL1P-CGJP-8F13CBWN58LP-low.svg)
IMD3 = 71 dBc AIN = -26 dBFS/tone, 1x AVG, Dither = EN |
Figure 6-81 Two Tone FFT at FIN = 900/1000 MHz![ADC32RF54 ADC32RF55 AC Performance vs FIN GUID-20221215-SS0I-7B72-MZFV-4RK5C5KKRVD2-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-7B72-MZFV-4RK5C5KKRVD2-low.svg)
AIN = -4 dBFS, Dither = EN |
Figure 6-83 AC Performance vs FIN
Figure 6-85 NSD Performance vs FIN![ADC32RF54 ADC32RF55 AC Performance vs AIN GUID-20221206-SS0I-LMX3-GKJM-DFQX0MRK806V-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-LMX3-GKJM-DFQX0MRK806V-low.svg)
FIN = 900 MHz, Dither = EN |
Figure 6-87 AC Performance vs AIN
Figure 6-89 IMD3 Performance vs AIN![ADC32RF54 ADC32RF55 AC Performance vs AVDD18 GUID-20221206-SS0I-QSNW-G6MX-6W1KLXZMVTP8-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-QSNW-G6MX-6W1KLXZMVTP8-low.svg)
FIN = 900 MHz, AIN = -1 dBFS, Dither = DIS, Other supplies nominal |
Figure 6-91 AC Performance vs AVDD18![ADC32RF54 ADC32RF55 AC Performance vs Temperature GUID-20221215-SS0I-XQPT-26PH-QVLQSFNXSQ5B-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-XQPT-26PH-QVLQSFNXSQ5B-low.svg)
FIN = 900 MHz, AIN =
-1 dBFS, Dither = DIS |
Figure 6-93 AC Performance vs Temperature![ADC32RF54 ADC32RF55 AC Performance vs Clock Duty Cycle GUID-20221206-SS0I-8DD0-XCJH-GN8GNJBGXFWW-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-8DD0-XCJH-GN8GNJBGXFWW-low.svg)
FIN = 900 MHz, AIN = -1 dBFS, Dither = DIS |
Figure 6-95 AC Performance vs Clock Duty Cycle![ADC32RF54 ADC32RF55 INL vs Code GUID-20221206-SS0I-B78N-2L6C-XKHG382PP8VL-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-B78N-2L6C-XKHG382PP8VL-low.svg)
FIN = 900 MHz, Dither = DIS |
Figure 6-97 INL vs Code
Figure 6-99 DC Offset Histogram![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Averaging GUID-20221206-SS0I-0FQV-C6XQ-3XRPPDKZSBZ2-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-0FQV-C6XQ-3XRPPDKZSBZ2-low.svg)
AIN = -1 dBFS, Dither = DIS, DDC Bypass |
Figure 6-101 Current vs Sampling Rate vs Averaging
Figure 6-103 Current vs Sampling Rate vs Real Decimation![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Complex Decimation GUID-20221206-SS0I-GSMZ-06S6-QSZ65KRMLRWM-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-GSMZ-06S6-QSZ65KRMLRWM-low.svg)
AIN = -1 dBFS, 1x AVG Single Band Decimation |
Figure 6-105 Current vs Sampling Rate vs Complex Decimation![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Complex Decimation GUID-20221206-SS0I-R6JP-7X6K-RRFWKPHPKJV1-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-R6JP-7X6K-RRFWKPHPKJV1-low.svg)
AIN = -1 dBFS, 1x AVG Dual Band Decimation |
Figure 6-107 Current vs Sampling Rate vs Complex Decimation![ADC32RF54 ADC32RF55 Current vs Sampling Rate vs Complex Decimation GUID-20221206-SS0I-Z2HT-G93V-RNTZGC8PCP6R-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-Z2HT-G93V-RNTZGC8PCP6R-low.svg)
AIN = -1 dBFS, 1x AVG Quad Band Decimation |
Figure 6-109 Current vs Sampling Rate vs Complex Decimation![ADC32RF54 ADC32RF55 IAVDD12 vs Supply GUID-20221206-SS0I-HWBZ-KBTR-SQCL3THFNZH6-low.svg](/ods/images/JAJSOU1B/GUID-20221206-SS0I-HWBZ-KBTR-SQCL3THFNZH6-low.svg)
AIN = -1 dBFS, DDC Bypass |
Figure 6-111 IAVDD12 vs Supply![ADC32RF54 ADC32RF55 Current vs Temperature GUID-20221215-SS0I-6QL7-WSZJ-NJR65DLL1NDT-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-6QL7-WSZJ-NJR65DLL1NDT-low.svg)
AIN = -1 dBFS, DDC Bypass |
Figure 6-113 Current vs Temperature![ADC32RF54 ADC32RF55 DVDD
Distribution GUID-20221215-SS0I-JGKP-T8CB-CJXQ1SPCPT5W-low.svg](/ods/images/JAJSOU1B/GUID-20221215-SS0I-JGKP-T8CB-CJXQ1SPCPT5W-low.svg)
AIN = -1 dBFS, DDC Bypass |
Figure 6-115 DVDD
Distribution