Datasheet AD9652 (Analog Devices) - 6
| 制造商 | Analog Devices |
| 描述 | 16-bit, 310 MSPS, 3.3/1.8 V Dual Analog-to-Digital Converter (ADC) |
| 页数 / 页 | 37 / 6 — Data Sheet. AD9652. VREF = 1 V. VREF = 1.25 V, Default. Parameter1. … |
| 修订版 | C |
| 文件格式/大小 | PDF / 1.5 Mb |
| 文件语言 | 英语 |
Data Sheet. AD9652. VREF = 1 V. VREF = 1.25 V, Default. Parameter1. Temperature. Min. Typ. Max. Unit. DIGITAL SPECIFICATIONS
该数据表的模型线
文件文字版本
link to page 7 link to page 7
Data Sheet AD9652 VREF = 1 V VREF = 1.25 V, Default Parameter1 Temperature Min Typ Max Min Typ Max Unit
WORST OTHER (NOT INCLUDING 2nd or 3rd HARMONIC) fIN = 30 MHz (Use Nyquist 1 Settings) 25°C −101 −102 dBc fIN = 70 MHz (Use Nyquist 1 Settings) 25°C −99 −98 −90 dBc Full −86 dBc fIN = 70 MHz (Use Nyquist 1 Settings, with Dither Enabled) 25°C −100 −100 dBc fIN = 170 MHz (Use Nyquist 2 Settings) 25°C −91 −90 dBc fIN = 170 MHz (Use Nyquist 2 Settings, with Dither Enabled) 25°C −90 −95 dBc fIN = 305 MHz (Use Nyquist 2 Settings) 25°C −98 −97 dBc fIN = 400 MHz (Use Nyquist 3 Settings) 25°C −92 −91 dBc TWO-TONE SFDR fIN = 70.1 MHz (−7 dBFS ), 72.1 MHz (−7 dBFS ) 25°C 93 dBc fIN = 184.12 MHz (−7 dBFS ), 187.12 MHz (−7 dBFS ) 25°C 83 dBc CROSSTALK2 Full 90 90 dB FULL POWER BANDWIDTH3 25°C 485 485 MHz NOISE BANDWIDTH4 25°C 650 650 MHz 1 See the AN-835 Application Note, Understanding High Speed ADC Testing and Evaluation, for a complete set of definitions. 2 Crosstalk is measured at 100 MHz with −1.0 dBFS on one channel and no input on the alternate channel. 3 Full power bandwidth is the bandwidth of operation in which proper ADC performance can be achieved. 4 Noise bandwidth is the −3 dB bandwidth for the ADC inputs across which noise can enter the ADC and is not attenuated internally.
DIGITAL SPECIFICATIONS
AVDD3 = 3.3 V, AVDD = AVDD_CLK = 1.8 V, SPIVDD = DRVDD = 1.8 V, sample rate = 310 MSPS (clock input = 1240 MHz, AD9652 divided by 4), VIN = −1.0 dBFS differential input, 2.5 V p-p full-scale input range, DCS enabled, dither disabled, unless otherwise noted.
Table 3. Parameter Test Conditions/Comments Temperature Min Typ Max Unit
DIFFERENTIAL CLOCK INPUTS (CLK+, CLK−) Logic Compliance CMOS/LVDS/LVPECL Differential Input Voltage Full 0.3 3.6 V p- p Input Voltage Range Full AGND AVDD_CLK V Internal Common-Mode Bias Full 0.9 V Input Common-Mode Range Full 0.9 1.4 V High Level Input Current Full +10 +145 µA Low Level Input Current Full −155 −15 µA Input Capacitance1 Full 5 pF Input Resistance1 Full 10 kΩ SYNC INPUT Logic Compliance CMOS/LVDS Internal Bias Full 0.9 V Input Voltage Range Full AGND AVDD_CLK V High Level Input Voltage Full 1.2 AVDD_CLK V Low Level Input Voltage Full AGND 0.6 V High Level Input Current Full −15 +110 µA Low Level Input Current Full −105 +15 µA Input Capacitance Full 1.5 pF Input Resistance Full 16 kΩ Rev. B | Page 5 of 36 Document Outline Features Applications Functional Block Diagram General Description Product Highlights Revision History Specifications ADC DC Specifications ADC AC Specifications Digital Specifications Switching Specifications Timing Specifications Timing Diagrams Absolute Maximum Ratings Thermal Characteristics ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Equivalent Circuits Theory of Operation ADC Architecture Analog Input Considerations Input Common Mode Common-Mode Voltage Servo Dither Large Signal Fast Fourier Transform Small Signal FFT Static Linearity Differential Input Configurations Voltage Reference Internal Reference Connection External Reference Operation Clock Input Considerations Clock Input Options Input Clock Divider Clock Duty Cycle Jitter Considerations Power Dissipation and Standby Mode Internal Background Calibration Digital Outputs Timing Data Clock Output ADC Overrange Fast Threshold Detection (FDA/FDB) Serial Port Interface Configuration Using the SPI Hardware Interface Configuration Without the SPI SPI Accessible Features Memory Map Reading the Memory Map Register Table Open and Reserved Locations Default Values Logic Levels Transfer Register Map Channel Specific Registers Memory Map Register Table Applications Information Design Guidelines Power and Ground Recommendations VCM RBIAS Reference Decoupling SPI Port Outline Dimensions Ordering Guide
Data Sheet AD9652 VREF = 1 V VREF = 1.25 V, Default Parameter1 Temperature Min Typ Max Min Typ Max Unit
WORST OTHER (NOT INCLUDING 2nd or 3rd HARMONIC) fIN = 30 MHz (Use Nyquist 1 Settings) 25°C −101 −102 dBc fIN = 70 MHz (Use Nyquist 1 Settings) 25°C −99 −98 −90 dBc Full −86 dBc fIN = 70 MHz (Use Nyquist 1 Settings, with Dither Enabled) 25°C −100 −100 dBc fIN = 170 MHz (Use Nyquist 2 Settings) 25°C −91 −90 dBc fIN = 170 MHz (Use Nyquist 2 Settings, with Dither Enabled) 25°C −90 −95 dBc fIN = 305 MHz (Use Nyquist 2 Settings) 25°C −98 −97 dBc fIN = 400 MHz (Use Nyquist 3 Settings) 25°C −92 −91 dBc TWO-TONE SFDR fIN = 70.1 MHz (−7 dBFS ), 72.1 MHz (−7 dBFS ) 25°C 93 dBc fIN = 184.12 MHz (−7 dBFS ), 187.12 MHz (−7 dBFS ) 25°C 83 dBc CROSSTALK2 Full 90 90 dB FULL POWER BANDWIDTH3 25°C 485 485 MHz NOISE BANDWIDTH4 25°C 650 650 MHz 1 See the AN-835 Application Note, Understanding High Speed ADC Testing and Evaluation, for a complete set of definitions. 2 Crosstalk is measured at 100 MHz with −1.0 dBFS on one channel and no input on the alternate channel. 3 Full power bandwidth is the bandwidth of operation in which proper ADC performance can be achieved. 4 Noise bandwidth is the −3 dB bandwidth for the ADC inputs across which noise can enter the ADC and is not attenuated internally.
DIGITAL SPECIFICATIONS
AVDD3 = 3.3 V, AVDD = AVDD_CLK = 1.8 V, SPIVDD = DRVDD = 1.8 V, sample rate = 310 MSPS (clock input = 1240 MHz, AD9652 divided by 4), VIN = −1.0 dBFS differential input, 2.5 V p-p full-scale input range, DCS enabled, dither disabled, unless otherwise noted.
Table 3. Parameter Test Conditions/Comments Temperature Min Typ Max Unit
DIFFERENTIAL CLOCK INPUTS (CLK+, CLK−) Logic Compliance CMOS/LVDS/LVPECL Differential Input Voltage Full 0.3 3.6 V p- p Input Voltage Range Full AGND AVDD_CLK V Internal Common-Mode Bias Full 0.9 V Input Common-Mode Range Full 0.9 1.4 V High Level Input Current Full +10 +145 µA Low Level Input Current Full −155 −15 µA Input Capacitance1 Full 5 pF Input Resistance1 Full 10 kΩ SYNC INPUT Logic Compliance CMOS/LVDS Internal Bias Full 0.9 V Input Voltage Range Full AGND AVDD_CLK V High Level Input Voltage Full 1.2 AVDD_CLK V Low Level Input Voltage Full AGND 0.6 V High Level Input Current Full −15 +110 µA Low Level Input Current Full −105 +15 µA Input Capacitance Full 1.5 pF Input Resistance Full 16 kΩ Rev. B | Page 5 of 36 Document Outline Features Applications Functional Block Diagram General Description Product Highlights Revision History Specifications ADC DC Specifications ADC AC Specifications Digital Specifications Switching Specifications Timing Specifications Timing Diagrams Absolute Maximum Ratings Thermal Characteristics ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Equivalent Circuits Theory of Operation ADC Architecture Analog Input Considerations Input Common Mode Common-Mode Voltage Servo Dither Large Signal Fast Fourier Transform Small Signal FFT Static Linearity Differential Input Configurations Voltage Reference Internal Reference Connection External Reference Operation Clock Input Considerations Clock Input Options Input Clock Divider Clock Duty Cycle Jitter Considerations Power Dissipation and Standby Mode Internal Background Calibration Digital Outputs Timing Data Clock Output ADC Overrange Fast Threshold Detection (FDA/FDB) Serial Port Interface Configuration Using the SPI Hardware Interface Configuration Without the SPI SPI Accessible Features Memory Map Reading the Memory Map Register Table Open and Reserved Locations Default Values Logic Levels Transfer Register Map Channel Specific Registers Memory Map Register Table Applications Information Design Guidelines Power and Ground Recommendations VCM RBIAS Reference Decoupling SPI Port Outline Dimensions Ordering Guide