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ADC10D040

Dual 10-Bit, 40 MSPS, 267 mW A/D Converter

General Description

The ADC10D040 is a dual low power, high performance

CMOS analog-to-digital converter that digitizes signals to 10

bits resolution at sampling rates up to 45 MSPS while con-

suming a typical 267 mW from a single 3.3V supply. No

missing codes is guaranteed over the full operating tempera-

ture range. The unique two stage architecture achieves 9.4

Effective Bits over the entire Nyquist band at 40 MHz sample

rate. An output formatting choice of straight binary or 2’s

complement coding and a choice of two gain settings eases

the interface to many systems. Also allowing great flexibility

of use is a selectable 10-bit multiplexed or 20-bit parallel

output mode. An offset correction feature minimizes the off-

set error.

To ease interfacing to most low voltage systems, the digital

output power pins of the ADC10D040 can be tied to a

separate supply voltage of 1.5V to 3.6V, making the outputs

compatible with other low voltage systems. When not con-

verting, power consumption can be reduced by pulling the

PD (Power Down) pin high, placing the converter into a low

power state where it typically consumes less than 1 mW and

from which recovery is less than 1 ms. Bringing the STBY

(Standby) pin high places the converter into a standby mode

where power consumption is about 30 mW and from which

recovery is 800 ns.

The ADC10D040’s speed, resolution and single supply op-

eration make it well suited for a variety of applications,

including high speed portable applications.

Operating over the industrial (−40˚ ≤ T

≤ +85˚C) tempera-

ture range, the ADC10D040 is available in a 48-pin TQFP. An

evaluation board is available to ease the design effort.

Features

n Internal sample-and-hold

n Internal Reference Capability

n Dual gain settings

n Offset correction

n Selectable straight binary or 2’s complement output

n Multiplexed or parallel output bus

n Single +3.0V to 3.6V operation

n Power down and standby modes

n 3V TTL Logic input/output compatible

Key Specifications

n Resolution 10 Bits

n Conversion Rate 40 MSPS

n ENOB 9.4 Bits (typ)

n DNL 0.35 LSB (typ)

n Conversion Latency Parallel Outputs 2.5 Clock Cycles

— Multiplexed Outputs, I Data Bus 2.5 Clock Cycles

— Multiplexed Outputs, Q Data Bus 3 Clock Cycles

n PSRR 90 dB

n Power Consumption — Normal Operation 267 mW (typ)

— Power Down Mode

1 mW (typ)

— Fast Recovery Standby Mode 30 mW (typ)

Applications

n Digital Video

n CCD Imaging

n Portable Instrumentation

n Communications

n Medical Imaging

n Ultrasound

September 2003

ADC10D040 Dual 10-Bit, 40 MSPS, 267 mW A/D Converter

1 2 3 4 5 6 ... 27 28

Sommario

Pagina 1 - ADC10D040

ADC10D040Dual 10-Bit, 40 MSPS, 267 mW A/D ConverterGeneral DescriptionThe ADC10D040 is a dual low power, high performanceCMOS analog-to-digital conver

Pagina 2 - Ordering Information

AC Electrical Characteristics OS = High (Parallel Mode)The following specifications apply for VA=VD= +3.3 VDC,VDR= +2.5VDC,VREF= 1.4 VDC, GAIN = OF =

Pagina 3 - Block Diagram

AC Electrical Characteristics OS = High (Parallel Mode) (Continued)20029706Note 8: Typical figures are at TJ= 25˚C, and represent most likely parametr

Pagina 4

Timing Diagrams20029708ADC10D040 Timing Diagram for Multiplexed Mode20029707ADC10D040 Timing Diagram for Parallel ModeADC10D040www.national.com 12

Pagina 5

Timing Diagrams (Continued)20029709FIGURE 1. AC Test CircuitADC10D040www.national.com13

Pagina 6

Specification DefinitionsAPERTURE (SAMPLING) DELAY is that time required afterthe fall of the clock input for the sampling switch to open. TheSample/H

Pagina 7

Typical Performance Characteristics VA=VD= 3.3V, VDR= 2.5V, fCLK= 40 MHz, fIN= 10.4 MHz,unless otherwise specifiedTypical INL INL vs. VA20029782200297

Pagina 8

Typical Performance Characteristics VA=VD= 3.3V, VDR= 2.5V, fCLK= 40 MHz, fIN= 10.4 MHz,unless otherwise specified (Continued)Typical DNL DNL vs. VA20

Pagina 9

Typical Performance Characteristics VA=VD= 3.3V, VDR= 2.5V, fCLK= 40 MHz, fIN= 10.4 MHz,unless otherwise specified (Continued)DNL vs. Clock Duty Cycle

Pagina 10

Typical Performance Characteristics VA=VD= 3.3V, VDR= 2.5V, fCLK= 40 MHz, fIN= 10.4 MHz,unless otherwise specified (Continued)SNR, SINAD & SFDR vs

Pagina 11

Typical Performance Characteristics VA=VD= 3.3V, VDR= 2.5V, fCLK= 40 MHz, fIN= 10.4 MHz,unless otherwise specified (Continued)Total Power vs. TEMP Spe

Pagina 12 - Timing Diagrams

Connection Diagram20029701TOP VIEWOrdering InformationIndustrial Temperature Range(−40˚C ≤ TA≤ +85˚C)NS PackageADC10D040CIVS TQFPADC10D040EVAL Evaluat

Pagina 13 - Timing Diagrams (Continued)

Functional DescriptionUsing a subranging architecture, the ADC10D040 achieves9.4 effective bits over the entire Nyquist band at 40 MSPSwhile consuming

Pagina 14 - Specification Definitions

Applications Information (Continued)variability. The reference voltage at the VREFpin should bebypassed to AGND witha5µF(orlarger) tantalum orelectrol

Pagina 15

Applications Information (Continued)20029772FIGURE 5. Improved Low Component Count Reference BiasingADC10D040www.national.com 22

Pagina 16

Applications Information (Continued)20029773FIGURE 6. Setting An Accurate Reference VoltageADC10D040www.national.com23

Pagina 17

Applications Information (Continued)The VCMOoutput can be used as the ADC reference sourceas long as care is taken to prevent excessive loading of thi

Pagina 18

Applications Information (Continued)2.2 VCMOOutputThe VCMOoutput pin is intended to provide a common modebias for the differential input pins of the A

Pagina 19

Applications Information (Continued)TABLE 1. ADC10D040 Input/Output RelationshipsGAIN OF I+ / Q+ I− / Q− Output Code00VCM+ 0.25*VREFVCM− 0.25*VREF11 1

Pagina 20 - Applications Information

Applications Information (Continued)7.0 DYNAMIC PERFORMANCEThe ADC10D040 is a.c. tested and its dynamic performanceis guaranteed. To meet the publishe

Pagina 21

Physical Dimensions inches (millimeters) unless otherwise notedNOTES UNLESS OTHERWISE SPECIFIED1. STANDARD LEAD FINISH7.62 MICROMETERS MINIMUM SOLDER

Pagina 22

Block Diagram20029702Pin Descriptions and Equivalent CircuitsPin No. Symbol Equivalent Circuit Description4847I+I−Analog inputs to “I” ADC. With VREF=

Pagina 23

Pin Descriptions and Equivalent Circuits (Continued)Pin No. Symbol Equivalent Circuit Description45 VCMOThis is an analog output which can be used as

Pagina 24

Pin Descriptions and Equivalent Circuits (Continued)Pin No. Symbol Equivalent Circuit Description33 CLKDigital clock input for both converters. The an

Pagina 25

Pin Descriptions and Equivalent Circuits (Continued)Pin No. Symbol Equivalent Circuit Description4VDDigital supply pin. This pin should be connected t

Pagina 26

Absolute Maximum Ratings (Notes 1,2)If Military/Aerospace specified devices are required,please contact the National Semiconductor Sales Office/Distri

Pagina 27

Converter Electrical Characteristics (Continued)The following specifications apply for VA=VD= +3.3 VDC,VDR= +2.5 VDC,VREF= 1.4 VDC, GAIN = OF = 0V, OS

Pagina 28 - 48-Lead TQFP Package

Converter Electrical Characteristics (Continued)The following specifications apply for VA=VD= +3.3 VDC,VDR= +2.5 VDC,VREF= 1.4 VDC, GAIN = OF = 0V, OS

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