Typical values at TA = 25 °C, ADC
sampling rate = 65 MSPS, AIN = –1 dBFS differential input, 50% clock duty cycle, AVDD = IOVDD =
1.8 V, external 1.6 V reference, 5 pF output load, unless otherwise noted.
Figure 6-1 Single Tone FFT at FIN = 1.1 MHz
Figure 6-3 Single Tone FFT at FIN = 10 MHz![Two Tone FFT at FIN = 3,4 MHz GUID-20200903-CA0I-2SNL-WC58-WQZWCN72KMTM-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-2SNL-WC58-WQZWCN72KMTM-low.gif)
AIN
= -7 dBFS/tone, DECIMATION BYPASS1 |
Figure 6-5 Two Tone FFT at FIN = 3,4 MHz![Two Tone FFT at FIN = 10,12 MHz GUID-20200903-CA0I-5WGX-HZKN-RGFPGQ6FGP1B-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-5WGX-HZKN-RGFPGQ6FGP1B-low.gif)
AIN
= -7 dBFS/tone, DECIMATION BYPASS1 |
Figure 6-7 Two Tone FFT at FIN = 10,12 MHz![Single Tone FFT at FIN = 10 MHz GUID-20200825-CA0I-ZJK2-RMB2-PRLF4HQM7GL3-low.gif](/ods/images/SBASA01B/GUID-20200825-CA0I-ZJK2-RMB2-PRLF4HQM7GL3-low.gif)
Decimation by 32, complex. NCO = 10.1 MHz |
Figure 6-9 Single Tone FFT at FIN = 10 MHz
Figure 6-11 ENOB vs Input Frequency![AC Performance vs Sampling Rate GUID-20200901-CA0I-ZG10-JQ7H-WTLPKS3K8VTZ-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-ZG10-JQ7H-WTLPKS3K8VTZ-low.gif)
FIN
= 5 MHz, DECIMATION BYPASS1 |
Figure 6-13 AC Performance vs Sampling Rate![AC Performance vs Clock Duty cycle GUID-20200827-CA0I-TH8V-CLQL-S5SVHJX6GTLG-low.gif](/ods/images/SBASA01B/GUID-20200827-CA0I-TH8V-CLQL-S5SVHJX6GTLG-low.gif)
FIN
= 5 MHz, DECIMATION BYPASS1 |
Figure 6-15 AC Performance vs Clock Duty cycle![ENOB vs AVDD GUID-20200901-CA0I-WRF4-4L9Z-C0MGKQRMQ8QT-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-WRF4-4L9Z-C0MGKQRMQ8QT-low.gif)
FIN
= 5 MHz, DECIMATION BYPASS1 |
Figure 6-17 ENOB vs AVDD
Figure 6-19 DC Offset Histogramm![DNL vs Code GUID-20200903-CA0I-G1TT-XMXH-HCKKDM5THRFX-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-G1TT-XMXH-HCKKDM5THRFX-low.gif)
FIN
= 5 MHz, DECIMATION BYPASS1 |
Figure 6-21 DNL vs Code![Single Tone FFT at FIN = 1.1 MHz GUID-20200811-CA0I-NCPW-GFHG-LXPN8TVM0FFK-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-NCPW-GFHG-LXPN8TVM0FFK-low.gif)
FS = 25 MSPS, AIN = –20 dBFS,
DECIMATION BYPASS1 |
Figure 6-23 Single Tone FFT at FIN = 1.1 MHz![Single Tone FFT at FIN = 1 MHz GUID-20200825-CA0I-CXDW-7VL9-V4RSCDVQJD5M-low.gif](/ods/images/SBASA01B/GUID-20200825-CA0I-CXDW-7VL9-V4RSCDVQJD5M-low.gif)
FS = 25 MSPS, Decimation by 8, real |
Figure 6-25 Single Tone FFT at FIN = 1 MHz![ENOB vs Input Frequency GUID-20200811-CA0I-F3SK-4CTQ-LV3VCCHDSKHR-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-F3SK-4CTQ-LV3VCCHDSKHR-low.gif)
FS =
25 MSPS, DECIMATION BYPASS1 |
Figure 6-27 ENOB vs Input Frequency![AC Performance vs Clock Amplitude GUID-20200901-CA0I-BCKC-BQWQ-BX9B3SGFCPMR-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-BCKC-BQWQ-BX9B3SGFCPMR-low.gif)
FS = 25 MSPS, FIN = 5 MHz, DECIMATION BYPASS1 |
Figure 6-29 AC Performance vs Clock Amplitude![AC Performance vs VCM vs Temperature GUID-20200901-CA0I-ZFCR-ZGMT-CNPBWTN69J46-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-ZFCR-ZGMT-CNPBWTN69J46-low.gif)
FS = 25 MSPS, FIN = 5 MHz,
DECIMATION BYPASS1 |
Figure 6-31 AC Performance vs VCM vs Temperature![DNL vs Code GUID-20200903-CA0I-NF3P-9CDB-M2VJT3JQCTL8-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-NF3P-9CDB-M2VJT3JQCTL8-low.gif)
FS =
25 MSPS, FIN = 5 MHz, DECIMATION BYPASS1 |
Figure 6-33 DNL vs Code![PSRR vs Frequency GUID-20200911-CA0I-HTP1-R4LL-S3NXKNT1V6L4-low.gif](/ods/images/SBASA01B/GUID-20200911-CA0I-HTP1-R4LL-S3NXKNT1V6L4-low.gif)
FIN = 5 MHz, 50 mVpp signal on AVDD |
Figure 6-35 PSRR vs Frequency![IIOVDD Current vs Decimation GUID-20200909-CA0I-KJCM-QZ8L-GWQ7LR4RQLB3-low.gif](/ods/images/SBASA01B/GUID-20200909-CA0I-KJCM-QZ8L-GWQ7LR4RQLB3-low.gif)
FIN = 1 MHz, 16-bit resolution, 2-w |
Figure 6-37 IIOVDD Current vs Decimation![Single Tone FFT at FIN = 1.1 MHz GUID-20200811-CA0I-SKFM-JF1P-1C9FHTGT4NR7-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-SKFM-JF1P-1C9FHTGT4NR7-low.gif)
AIN = –20 dBFS, DECIMATION BYPASS1 |
Figure 6-2 Single Tone FFT at FIN = 1.1 MHz
Figure 6-4 Single Tone FFT at FIN = 40 MHz![Two Tone FFT at FIN = 3,4 MHz GUID-20200903-CA0I-RXDB-6G5Q-VW42NPSFX1DL-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-RXDB-6G5Q-VW42NPSFX1DL-low.gif)
AIN
= -20 dBFS/tone, DECIMATION BYPASS1 |
Figure 6-6 Two Tone FFT at FIN = 3,4 MHz
Figure 6-8 Single Tone FFT at FIN = 1 MHz
Figure 6-10 AC Performance vs Input Frequency![AC Performance vs Input Amplitude GUID-20200901-CA0I-9GQW-6ZWR-SNSC7ZD3GWSF-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-9GQW-6ZWR-SNSC7ZD3GWSF-low.gif)
FIN = 5 MHz, DECIMATION
BYPASS1 |
Figure 6-12 AC Performance vs Input Amplitude
Figure 6-14 AC Performance vs Clock Amplitude![AC Performance vs AVDD GUID-20200811-CA0I-DLSS-SB9Z-NNSHXVQ7PC9Q-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-DLSS-SB9Z-NNSHXVQ7PC9Q-low.gif)
FIN = 5 MHz, DECIMATION BYPASS1 |
Figure 6-16 AC Performance vs AVDD![AC Performance vs VCM vs Temperature GUID-20200901-CA0I-PGQJ-SBRB-8QCS5ZF1TFWC-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-PGQJ-SBRB-8QCS5ZF1TFWC-low.gif)
FIN = 5 MHz, DECIMATION BYPASS1 |
Figure 6-18 AC Performance vs VCM vs Temperature![INL vs Code GUID-20200903-CA0I-9TJL-SNNV-4WN8XGVHB3W1-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-9TJL-SNNV-4WN8XGVHB3W1-low.gif)
FIN
= 5 MHz, DECIMATION BYPASS1 |
Figure 6-20 INL vs Code![Single Tone FFT at FIN = 1.1 MHz GUID-20200811-CA0I-2SDM-N8Z9-B8XKQRGLHTTV-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-2SDM-N8Z9-B8XKQRGLHTTV-low.gif)
FS = 25 MSPS, DECIMATION BYPASS1 |
Figure 6-22 Single Tone FFT at FIN = 1.1 MHz![Single Tone FFT at FIN = 10 MHz GUID-20200811-CA0I-VDWZ-ZMKC-G05QCJ0RG8MF-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-VDWZ-ZMKC-G05QCJ0RG8MF-low.gif)
FS = 25 MSPS, DECIMATION BYPASS1 |
Figure 6-24 Single Tone FFT at FIN = 10 MHz![AC
Performance vs Input Frequency GUID-20200811-CA0I-NQSM-1ZCN-GVLRN7RFT40T-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-NQSM-1ZCN-GVLRN7RFT40T-low.gif)
FS =
25 MSPS, DECIMATION BYPASS1 |
Figure 6-26 AC
Performance vs Input Frequency ![AC Performance vs Input Amplitude GUID-20200901-CA0I-TMSD-12XM-RQXHHNRF0KVB-low.gif](/ods/images/SBASA01B/GUID-20200901-CA0I-TMSD-12XM-RQXHHNRF0KVB-low.gif)
FS = 25 MSPS, FIN =
5 MHz, DECIMATION BYPASS1 |
Figure 6-28 AC Performance vs Input Amplitude![AC Performance vs AVDD GUID-20200811-CA0I-DPNR-K2R8-QN813SDR3PMT-low.gif](/ods/images/SBASA01B/GUID-20200811-CA0I-DPNR-K2R8-QN813SDR3PMT-low.gif)
FS = 25 MSPS, FIN = 5 MHz,
DECIMATION BYPASS1 |
Figure 6-30 AC Performance vs AVDD![INL vs Code GUID-20200903-CA0I-TW5K-5MJX-RHRNSMHXTRRL-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-TW5K-5MJX-RHRNSMHXTRRL-low.gif)
FS = 25 MSPS, FIN = 5 MHz, DECIMATION BYPASS1 |
Figure 6-32 INL vs Code
Figure 6-34 Isolation vs Input Frequency![Current vs Sampling Rate GUID-20200903-CA0I-NM5D-4ZKK-GD1JXPDKWSRR-low.gif](/ods/images/SBASA01B/GUID-20200903-CA0I-NM5D-4ZKK-GD1JXPDKWSRR-low.gif)
FIN = 1 MHz, 32x complex decimation, 16-bit resolution |
Figure 6-36 Current vs Sampling Rate![IIOVDD Current vs Load Capacitance GUID-20200908-CA0I-CCXZ-DSWH-Q8GFZDJ2CJHD-low.gif](/ods/images/SBASA01B/GUID-20200908-CA0I-CCXZ-DSWH-Q8GFZDJ2CJHD-low.gif)
FIN
= 1 MHz, 32x complex decimation, 16-bit resolution, 2-w |
Figure 6-38 IIOVDD Current vs Load Capacitance