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AD9273

 

Rev. B | Page 3 of 48 

The AD9273 requires a LVPECL-/CMOS-/LVDS-compatible 
sample rate clock for full performance operation. No external 
reference or driver components are required for many 
applications. 

The ADC automatically multiplies the sample rate clock for  
the appropriate LVDS serial data rate. A data clock (DCO±) for 
capturing data on the output and a frame clock (FCO±) trigger 
for signaling a new output byte are provided.  

Powering down individual channels is supported to increase 
battery life for portable applications. There is also a standby 
mode option that allows quick power-up for power cycling. In 
CW Doppler operation, the VGA, AAF, and ADC are powered 
down. The power of the time gain control (TGC) path scales 
with selectable speed grades.  

The ADC contains several features designed to maximize flexibility 
and minimize system cost, such as a programmable clock, data 
alignment, and programmable digital test pattern generation. The 
digital test patterns include built-in fixed patterns, built-in 
pseudorandom patterns, and custom user-defined test patterns 
entered via the serial port interface. 

Fabricated in an advanced CMOS process, the AD9273 is 
available in a 16 mm × 16 mm, RoHS compliant, 100-lead 
TQFP or a 144-ball BGA. It is specified over the industrial 
temperature range of −40°C to +85°C. 

PRODUCT HIGHLIGHTS 

1.

 

Small Footprint. Eight channels are contained in a small, 
space-saving package. A full TGC path, ADC, and crosspoint 
switch contained within a 100-lead, 16 mm × 16 mm TQFP or 
a 144-ball BGA. 

2.

 

Low Power of 109 mW per Channel at 40 MSPS. 

3.

 

Integrated Crosspoint Switch. This switch allows numerous 
multichannel configuration options to enable the CW 
Doppler mode. 

4.

 

Ease of Use. A data clock output (DCO±) operates up to 
300 MHz and supports double data rate (DDR) operation. 

5.

 

User Flexibility. Serial port interface (SPI) control offers a wide 
range of flexible features to meet specific system requirements. 

6.

 

Integrated Second-Order Antialiasing Filter. This filter is 
placed between the VGA and the ADC and is programmable 
from 8 MHz to 18 MHz. 

 

Содержание AD9273

Страница 1: ...ng ultrasound Automotive radar GENERAL DESCRIPTION The AD9273 is designed for low cost low power small size and ease of use It contains eight channels of a low noise preamplifier LNA with a variable g...

Страница 2: ...ENCE MATERIALS Press Industry s First Octal Ultrasound Receiver with Digital I Q Demodulator and Decimation Filter Reduces Processor Overhead in Ultrasound Systems Low Cost Octal Ultrasound Receiver w...

Страница 3: ...hanges to Features and General Description Sections 1 Changes to Product Highlights Section 3 Changes to Full Channel TGC Characteristics Parameter Table 1 4 Changes to Gain Control Interface Paramete...

Страница 4: ...generation The digital test patterns include built in fixed patterns built in pseudorandom patterns and custom user defined test patterns entered via the serial port interface Fabricated in an advanc...

Страница 5: ...differential output 733 550 367 733 550 367 733 550 367 mV p p SE2 Input Common Mode 0 9 0 9 0 9 V Input Resistance RFB 250 50 50 50 RFB 500 100 100 100 RFB 15 15 15 k Input Capacitance LI x 22 22 22...

Страница 6: ...30 30 30 dB Output Offset 35 35 35 35 35 35 LSB Signal to Noise Ratio SNR fIN 5 MHz at 10 dBFS GAIN 0 V 65 5 64 63 5 dBFS fIN 5 MHz at 1 dBFS GAIN 1 6 V 58 5 57 56 5 dBFS Harmonic Distortion Second Ha...

Страница 7: ...ctance Differential LNA gain 15 6 dB 17 9 dB 21 3 dB 5 4 7 3 10 9 5 4 7 3 10 9 5 4 7 3 10 9 mA V Output Level Range Differential CW Doppler output pins 1 5 3 6 1 5 3 6 1 5 3 6 V Input Referred Noise V...

Страница 8: ...er Down Dissipation 5 5 5 mW Standby Power Dissipation 148 158 170 mW Power Supply Rejection Ratio PSRR 1 6 1 6 1 6 mV V ADC RESOLUTION 12 12 12 Bits ADC REFERENCE Output Voltage Error VREF 1 V 20 20...

Страница 9: ...OGIC INPUT SDIO Logic 1 Voltage Full 1 2 DRVDD 0 3 V Logic 0 Voltage Full 0 0 3 V Input Resistance 25 C 30 k Input Capacitance 25 C 2 pF LOGIC OUTPUT SDIO 3 Logic 1 Voltage IOH 800 A Full 1 79 V Logic...

Страница 10: ...ation Delay tCPD 4 Full tFCO tSAMPLE 24 ns DCO to Data Delay tDATA 4 Full tSAMPLE 24 300 tSAMPLE 24 tSAMPLE 24 300 ps DCO to FCO Delay tFRAME 4 Full tSAMPLE 24 300 tSAMPLE 24 tSAMPLE 24 300 ps Data to...

Страница 11: ...D2 N 8 D1 N 8 D0 N 8 D10 N 7 MSB N 7 N 1 N tDATA tFRAME tFCO tPD tCPD tEH tEL 07030 002 Figure 2 12 Bit Data Serial Stream Default DCO DCO DOUTx DOUTx FCO FCO AIN CLK CLK D0 LSB D1 N 8 D2 N 8 D3 N 8 D...

Страница 12: ...ND 0 3 V to 0 3 V AVDD2 AVDD1 2 0 V to 3 9 V AVDD2 DRVDD 2 0 V to 3 9 V AVDD1 DRVDD 2 0 V to 2 0 V Digital Outputs DOUTx DOUTx DCO DCO FCO FCO GND 0 3 V to 2 0 V CLK CLK GAIN GAIN GND 0 3 V to 3 9 V L...

Страница 13: ...97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 AVDD1 74 75 PDWN 73 STBY 72 DRVDD 71 DOUTA 70 DOUTA 69 DOUTB 68 DOUTB 67 DOUTC 66 DOUTC 65 DOUTD 64 DOUTD 63 FCO 62 FCO 61 DCO 60 DCO...

Страница 14: ...Output for Channel G 13 A3 LI G LNA Analog Input for Channel G 14 B3 LG G LNA Ground for Channel G 17 C4 LO H LNA Analog Inverted Output for Channel H 18 D4 LOSW H LNA Analog Switched Output for Chann...

Страница 15: ...D 77 C12 LO D LNA Analog Inverted Output for Channel D 78 K10 CWD0 CW Doppler Output Complement for Channel 0 79 J10 CWD0 CW Doppler Output True for Channel 0 80 K9 CWD1 CW Doppler Output Complement f...

Страница 16: ...Histogram GAIN 0 16 V 0 2 4 6 10 8 12 14 1 0 0 9 0 8 0 7 0 6 0 5 0 4 0 3 0 2 0 1 0 0 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 1 0 PERCENTAGE OF UNITS GAIN ERROR dB 07030 185 Figure 8 Gain Error Histogram GAI...

Страница 17: ...15 6dB LNA GAIN 17 9dB 07030 187 Figure 14 Short Circuit Input Referred Noise vs Frequency PGA Gain 30 dB GAIN 1 6 V 128 129 130 131 132 133 134 135 136 137 138 139 0 0 2 0 4 0 6 0 8 GAIN V 1 0 1 2 1...

Страница 18: ...ENCY MHz GAIN 1 6V GAIN 1 0V GAIN 0 5V 07030 123 Figure 20 Third Order Harmonic Distortion vs Input Frequency AIN 1 0 dBFS 120 100 80 60 40 20 0 40 35 30 25 20 15 10 5 0 SECOND ORDER HARMONIC DISTORTI...

Страница 19: ...48 120 100 80 60 40 20 0 40 35 30 25 20 15 10 5 0 IMD3 dBFS FUND1 LEVEL dBFS GAIN 1 6V GAIN 0 8V GAIN 0V fIN1 5 00MHz fIN2 5 01MHz FUND2 LEVEL FUND1 LEVEL 20dB 07030 127 Figure 24 IMD3 vs Fundamental...

Страница 20: ...e 26 Equivalent LNA Output Circuit 10 10k 10k CLK 10 1 25V CLK 07030 007 Figure 27 Equivalent Clock Input Circuit SDIO 350 30k AVDDx 07030 008 Figure 28 Equivalent SDIO Input Circuit DRVDD DRGND DOUTx...

Страница 21: ...7030 012 Figure 32 Equivalent CSB Input Circuit VREF 6k 07030 014 Figure 33 Equivalent VREF Circuit 07030 276 GAIN 50 AVDD2 Figure 34 Equivalent GAIN Input Circuit 07030 176 GAIN 50 70k AVDD2 0 8V Fig...

Страница 22: ...gital format immediately following the TGC amplifier and then beam forming is accomplished digitally The ADC resolution of 12 bits with up to 50 MSPS sampling satisfies the requirements of both genera...

Страница 23: ...LG x LO x LOSW x VCM VCM VO VO RFB1 RFB2 T R SWITCH TRANSDUCER 07030 101 Figure 39 Simplified LNA Schematic The LNA supports differential output voltages as high as 4 4 V p p with positive and negativ...

Страница 24: ...ore significantly At higher frequencies the input capacitance of the LNA needs to be considered The user must determine the level of matching accuracy and adjust RFB accordingly The bandwidth BW of th...

Страница 25: ...pedance matching is to improve the transient response of the system With resistive termination the input noise increases due to the thermal noise of the matching resistor and the increased contributio...

Страница 26: ...he VGA Immediately following a transmit pulse the typical VGA gains are low and the LNA is subject to overload from T R switch leakage With increasing gain the VGA can become overloaded due to strong...

Страница 27: ...H 600 H 700 700 700 700 600 H 600 H 600 H 07030 096 Figure 45 Typical Connection Interface with the AD8333 or AD8339 using the CWDx Outputs LNA AD9273 1nF 500 LO A LOSW A 5k 5k AD8339 2 5V 1nF 500 LNA...

Страница 28: ...GAIN LNA ADC 70dB VGA GAIN RANGE 42dB MAX CHANNEL GAIN 48dB 91dB 07030 097 Figure 47 Gain Requirements of TGC Operation for a 12 Bit 40 MSPS ADC The maximum gain required is determined by ADC Noise Fl...

Страница 29: ...degraded If the VGA is set for the maximum gain voltage the TGC path is dominated by LNA noise and achieves the lowest input referred noise but with degraded output SNR The higher the TGC LNA VGC gain...

Страница 30: ...trolled by the gain interface deter mines the input tap point With overlapping bias currents signals from successive taps merge to provide a smooth attenuation range from 42 dB to 0 dB This circuit te...

Страница 31: ...rnal RC filter can be used to remove VGAIN source noise The filter bandwidth should be sufficient to accommodate the desired control bandwidth Antialiasing Filter The filter that the signal reaches pr...

Страница 32: ...0 CLK CLK 50 RESISTOR IS OPTIONAL CLK CLK ADC AD9273 PECL DRIVER 3 3V OUT VFAC3 07030 051 AD951x AD952x FAMILY Figure 56 Differential PECL Sample Clock 100 0 1 F 0 1 F 0 1 F 0 1 F AD951x AD952x FAMILY...

Страница 33: ...Note for more in depth information about how jitter performance relates to ADCs visit www analog com 1 10 100 1000 16 BITS 14 BITS 12 BITS 30 40 50 60 70 80 90 100 110 120 130 0 125ps 0 5ps 1 0ps 2 0...

Страница 34: ...1596 3 standard by using the SDIO pin or via the SPI This LVDS standard can further reduce the overall power dissipation of the device by approximately 36 mW See the SDIO Pin section or Table 17 for m...

Страница 35: ...Figure 65 Data Eye for LVDS Outputs in ANSI 644 Mode with Trace Lengths of Less than 24 Inches on Standard FR 4 400 300 300 200 200 100 100 400 0 1 5ns 0 5ns 1 0ns 0ns 0 5ns 1 0ns 1 5ns EYE DIAGRAM VO...

Страница 36: ...the AD9273 DCO is used to clock the output data and is equal to six times the sampling clock rate Data is clocked out of the AD9273 and must be captured on the rising and falling edges of the DCO tha...

Страница 37: ...1s and the AD9273 inverts the bit stream with relation to the ITU standard see Table 13 for the initial values Table 13 PN Sequence Sequence Initial Value First Three Output Samples MSB First PN Seque...

Страница 38: ...dations It is required that the exposed paddle on the underside of the device be connected to a quiet analog ground to achieve the best electrical and thermal performance of the AD9273 An exposed cont...

Страница 39: ...nues to process data either reading or writing until CSB is taken high to end the communication cycle This allows complete memory transfers without having to provide additional instructtions Regardles...

Страница 40: ...SB tS tDH tHI tCLK tLO tDS tH R W W1 W0 A12 A11 A10 A9 A8 A7 D5 D4 D3 D2 D1 D0 07030 068 Figure 70 Serial Timing Details Table 16 Serial Timing Definitions Parameter Minimum Timing ns Description tDS...

Страница 41: ...ster 0xFF the duty cycle stabilizer turns off It is important to follow each writing sequence with a write to the SW transfer bit to update the SPI registers Caution All registers except Register 0x00...

Страница 42: ...efault Data Channel D 1 on default 0 off Data Channel C 1 on default 0 off Data Channel B 1 on default 0 off Data Channel A 1 on default 0 off 0x0F Bits are set to determine which on chip device recei...

Страница 43: ...ar X X X Output invert 1 on 0 off default 00 offset binary default 01 twos complement 0x00 Configures the outputs and the format of the data Bits 7 3 and Bits 1 0 are global Bit 2 is local 15 OUTPUT_A...

Страница 44: ...Enable automatic low pass tuning 1 on self clearing X X High pass filter cutoff 0000 fLP 20 7 0001 fLP 11 5 0010 fLP 7 9 0011 fLP 6 0 0100 fLP 4 9 0101 fLP 4 1 0110 fLP 3 5 0111 fLP 3 1 0x00 Filter cu...

Страница 45: ...N OF THE EXPOSED PAD REFER TO THE PIN CONFIGURATION AND FUNCTION DESCRIPTIONS SECTION OF THIS DATA SHEET Figure 71 100 Lead Thin Quad Flat Package Exposed Pad TQFP_EP SV 100 3 Dimensions shown in mill...

Страница 46: ...Quad Flat Package Exposed Pad TQFP_EP Tape and Reel SV 100 3 AD9273BSVZ 251 40 C to 85 C 100 Lead Thin Quad Flat Package Exposed Pad TQFP_EP SV 100 3 AD9273BSVZRL 251 40 C to 85 C 100 Lead Thin Quad F...

Страница 47: ...AD9273 Rev B Page 46 of 48 NOTES...

Страница 48: ...AD9273 Rev B Page 47 of 48 NOTES...

Страница 49: ...AD9273 Rev B Page 48 of 48 NOTES 2009 Analog Devices Inc All rights reserved Trademarks and registered trademarks are the property of their respective owners D07030 0 7 09 B...

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