AD9262-10EBZ Analog Devices Inc, AD9262-10EBZ Datasheet
AD9262-10EBZ
Specifications of AD9262-10EBZ
Related parts for AD9262-10EBZ
AD9262-10EBZ Summary of contents
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... The ADC is available in three different bandwidth options of 2.5 MHz, 5 MHz, and 10 MHz, and operates on a 1.8 V analog supply and a 1 3.3 V digital supply, consuming 600 mW. The AD9262 is available in a 64-lead LFCSP and is specified over the industrial temperature range (−40°C to +85°C). PRODUCT HIGHLIGHTS 1. Continuous time Σ ...
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... ESD Caution .................................................................................. 8 Pin Configuration and Function Descriptions ............................. 9 Typical Performance Characteristics ........................................... 10 AD9262BCPZ ............................................................................. 10 AD9262BCPZ-5 .......................................................................... 11 REVISION HISTORY 2/10—Rev Rev. A Changes to Figure 61 ...................................................................... 28 1/10—Revision 0: Initial Version AD9262BCPZ-10 ....................................................................... 12 Equivalent Circuits ......................................................................... 15 Theory of Operation ...................................................................... 16 Analog Input Considerations ................................................... 16 Clock Input Considerations ...................................................... 18 ...
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... Rev Page AD9262 1 = −2.0 dBFS, AD9262BCPZ-10 Max Min Typ Max Unit 16 Bits 10 MHz Guaranteed ±0.2 ±0.025 ±0.2 % FSR ±3.0 ±0.7 ±3.0 % FSR ±1.5 LSB ±0.2 ±0.035 ±0.2 % FSR ±1.3 ± ...
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... Data guaranteed over the full temperature range for the AD9262BCPZ-10 only. 5 Noise figure with respect to 50 Ω. AD9262 internal impedance is 1000 Ω differential. See the AN-835 Application Note for a definition. 6 Crosstalk measured with an input signal on both channels at different frequencies and the leakage of one on to the other. ...
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... See the AN-835 Application Note, Understanding High Speed ADC Testing and Evaluation, for a complete set of definitions. AD9262BCPZ-5 Max Min Typ 3.75 5 <0 6.5 MHz − − >85 Rev Page AD9262 AD9262BCPZ-10 Max Min Typ Max 6 <0.1 13 MHz f /2 − S >85 Unit MHz dB ...
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... AD9262 DIGITAL SPECIFICATIONS All power supplies set to 1.8 V, 640 MHz sample rate, 0.5 V internal reference, PLL disabled, 40 MSPS output data rate, AIN = −2.0 dBFS, unless otherwise noted. Table 4. 1 Parameter DIFFERENTIAL CLOCK INPUTS (CLK+, CLK−) Logic Compliance Differential Input Voltage ...
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... See the AN-83 5 Application Note, Understanding High Speed ADC Testing and Evaluation, for a complete set of definitions. 2 Data skew is measured from DCO 50% transition to data (D0x to D15x) 50% transition, with 5 pF load. 3 Typical measured value for the AD9262BCPZ-10. For the AD9262BCPZ-5 and the AD9262BCPZ, typical values double and quadruple the number of cycles, respectively. 4 Cycles refers to modulator clock cycles. 5 Wake-up time is dependent on the value of the decoupling capacitor, value shown with 10uF capacitor on VREF and CFILT ...
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... AD9262 ABSOLUTE MAXIMUM RATINGS Table 6. Parameter Electrical AVDD to AGND DVDD to DGND DRVDD to DGND AGND to DGND AVDD to DRVDD CVDD to CGND CGND to DGND D0A to D15A to DGND D0B to D15B to DGND DCO to DGND ORA, ORB to DGND SDIO to DGND CSB to AGND SCLK to AGND VIN+A/VIN−A, VIN+B/VIN−B to AGND CLK+, CLK− ...
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... Voltage Reference Input. Noise Limiting Filter Capacitor. Channel B Analog Input (+). Channel B Analog Input (−). Clock Ground. Clock Input (+). Analog Ground. (Pin 65 is the exposed thermal pad on the bottom of the package.) The exposed pad must be soldered to ground. Rev Page AD9262 48 SCLK 47 SDIO 46 ORA 45 D15A ...
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... FREQUENCY (MHz) Figure 6. AD9262BCPZ Single-Tone FFT with f : 600kHz AT –2dBFS Figure 7. AD9262BCPZ Single-Tone SNR and SFDR vs. Input Amplitude = 600 kHz IN BANDWIDTH: 2.5MHz DATA RATE: 40MSPS f : 1.2MHz AT –2dBFS IN SNR: 87.7dB SFDR: 87.1dBc 1.2 MHz IN BANDWIDTH: 2.5MHz DATA RATE: 40MSPS f : 2.4MHz AT – ...
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... FREQUENCY (MHz) Figure 12. AD9262BCPZ-5 Single-Tone FFT with f BANDWIDTH: 5MHz DATA RATE: 40MSPS f : 1.2MHz AT –2dBFS IN SNR: 85.3dB SFDR: 87.1dBc 1.2 MHz Figure 13. AD9262BCPZ-5 Single-Tone SNR and SFDR vs. Input Amplitude with IN : 2.4MHz AT –2dBFS 2.4 MHz Figure 14. AD9262BCPZ-5 Two-Tone FFT with 4.2MHz AT –2dBFS IN 14 ...
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... FREQUENCY (MHz) Figure 18. AD9262BCPZ-10 Single-Tone FFT with f : 2.4MHz AT –2dBFS 2.4 MHz Figure 19. AD9262BCPZ-10 Two-Tone FFT with 4.2MHz AT –2dBFS 4.2 MHz Figure 20. AD9262BCPZ-10 Two-Tone FFT with f IN BANDWIDTH: 10MHz DATA RATE: 40MSPS f : 8.4MHz AT –2dBFS IN SNR: 82.6dB SFDR: 104.1dBc 14 16 ...
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... SFDR (dBc SNR (dB 100 OUTPUT DATA RATE (MSPS) Figure 24. AD9262BCPZ-10 SNR/SFDR vs. Output Data Rate with f SNR (dB) –30 –20 –10 –30 –20 –10 Figure 26. AD9262BCPZ-10 SFDR/SNR vs. Temperature with f 120 140 160 180 = 2.4 MHz Figure 27. AD9262BCPZ-10 SNR vs. Input Common-Mode Voltage IN Rev Page ...
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... PLL DIVIDE RATIO Figure 28. AD9262BCPZ-10 Single-Tone SNR vs. PLL Divide Ratio 12.0 14.0 16.0 21.0 12.5 15.0 17.0 Rev Page 0.5 0 –0.5 –1.0 –1.5 –2.0 –2.5 –3.0 ...
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... Figure 33. Equivalent SCLK Input Circuit CLK– Rev Page AVDD 26kΩ 1kΩ CSB Figure 34. Equivalent CSB Input Circuit DRVDD DGND Figure 35. Equivalent Digital Output Circuit 2.85kΩ 8.5kΩ 10kΩ 0.5V 10µF 3.5kΩ TO CURRENT GENERATOR Figure 36. Equivalent VREF Circuit AD9262 ...
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... SRC ANALOG INPUT CONSIDERATIONS The continuous time modulator removes the need for an anti- alias filter at the input to the AD9262. A discrete time converter aliases signals around the sample clock frequency and its multiples to the band of interest (see Figure 42). Therefore, an external antialias filter is needed to reject these signals. ...
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... Input Common Mode The analog inputs of the AD9262 are not internally dc biased. In ac-coupled applications, the user must provide this bias externally. Setting the device such that V = AVDD is recommended for CM optimum performance. The analog inputs are 500 Ω resistors, and the internal reference loop aims to develop 0.5 V across each input resistor (see Figure 44) ...
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... CLOCK INPUT If a differential clock is not available, the AD9262 can be driven by a single-ended signal into the CLK+ terminal with the CLK− terminal ac-coupled to ground. Figure 51 shows the circuit configuration. ...
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... Internal PLL Clock Distribution The alternative clocking option available on the AD9262 is to apply a low frequency reference clock and use the on-chip clock multip- lier to generate the high frequency f MOD architecture is shown in Figure 53. CLK+/CLK– PHASE LOOP DETECTOR FILTER DIVIDER PLL MULT 0x0A[5:0] Figure 53 ...
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... Therefore, the minimal jitter specification is determined at the highest input frequency. From the calculation, the aperture jitter of the input clock must be no greater than achieve optimal SNR performance. POWER DISSIPATION AND STANDBY MODE The AD9262 power consumption can be further reduced MOD configuring the chip in channel power-down, standby, or sleep ...
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... C29, C33 −592 C30, C32 353 C31 DEC4 LPF/EQZ FIR INT4 10MHz 16 5MHz 5 2 SINC 4 8 DATA 2.5MHz OUTPUT NCO AD9262 Coefficient 1121 0 −2796 0 10,184 16,384 Coefficient 694 −744 −677 1271 450 −1909 103 2612 −1147 −3326 3022 4051 −6870 −5305 ...
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... SRC reset before programming the desired K factor. This is done by first writing 0x101[5: and OUT then rewriting to the same register with the appropriate K value. In addition, if the AD9262 loses its clock source and then later regains it, an SRC reset should be initiated. Table 18. SRC Conversion Factors 0x101[5:0] K ...
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... In a zero-IF receiver, this dc energy can cause problems because it appears in band of a desired channel. As part of the AD9262 QEC function, the dc offset is suppressed by applying a low frequency notch filter to form a null around dc. The 3 dB bandwidth of this notch filter ...
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... DIGITAL OUTPUTS Digital Output Format The AD9262 offers a variety of digital output formats for ease of system integration. The digital output on each channel consists of 16 data bits and an output clock signal (DCO) for data latching. The data bits can be configured for offset binary, twos comple- ment, or Gray code by writing to Register 0x14[1:0] ...
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... TIMING The AD9262 provides a data clock out (DCO) pin to assist in capturing the data in an external register. The data outputs are valid on the rising edge of DCO, unless changed by setting Serial Register 0x16[7] (see the Serial Port Interface (SPI) section) ...
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... AD9262 SERIAL PORT INTERFACE (SPI) The AD9262 serial port interface (SPI) allows the user to configure the converter for specific functions or operations through a structured register space provided inside the ADC. This provides the user added flexibility and customization depending on the application. Addresses are accessed via the serial port and can be written to or read from via the port ...
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... The pins described in Table 22 comprise the physical interface between the programming device of the user and the serial port of the AD9262. The SCLK and CSB pins function as inputs when using the SPI interface. The SDIO pin is bidirectional, functioning as an input during write phases and as an output during readback ...
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... FREQUENCY (MHz) Figure 61. STF Figure 61 shows the gain profile of the AD9262, and this can be interpreted as the level at which the signal power should be scaled back to prevent an overload condition. This is the ulti- mate trip point and before this point is reached, the in-band noise (IBN) slowly degrades ...
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... Murata GRM188 series, 0603 In addition to matching the profile of Figure 62, group delay and channel matching are important filter design criteria. Low tolerance components are highly recommended for improved channel matching, which translates to minimal degradation in image rejection for quadrature systems. Rev Page AD9262 ...
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... MSB first format 1: serial interface uses LSB first format SOFTRESET 0 1: default all serial registers except 0x00, 0x09, and 0x0A CHIPID 0x22 0x22: AD9262 CHILDID 0 0x00: 10 MHz bandwidth 0x10: 5 MHz bandwidth 0x20: 2.5 MHz bandwidth Channel 0 0: both channels addressed simultaneously ...
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... PHASEENB 0 1: disable phase correction GAINENB 0 1: disable gain correction DCFRC 0 1: force dc correction coefficients to initial static values PHASEFRC 0 1: force phase correction coefficients to initial static values GAINFRC 0 1: force gain correction coefficients to initial static values Rev Page AD9262 ...
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... AD9262BCPZ-10 −40°C to +85°C AD9262BCPZ-5 −40°C to +85°C AD9262BCPZ −40°C to +85°C AD9262EBZ AD9262-5EBZ AD9262-10EBZ RoHS Compliant Part. ©2010 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. 9.00 BSC SQ 0.60 ...