ADC10D040_14 Datasheet, PDF(1/32 Page) Texas Instruments – ADC10D040 Dual 10-Bit, 40 MSPS, 267 mW A/D Converter

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ADC10D040_14 Datasheet, PDF (1/32 Pages) Texas Instruments – ADC10D040 Dual 10-Bit, 40 MSPS, 267 mW A/D Converter

ADC10D040

www.ti.com

SNAS149G â OCT 2001 â REVISED MARCH 2013

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

Check for Samples: ADC10D040

FEATURES

â¢2 Internal Sample-and-Hold

â¢ Internal Reference Capability

â¢ Dual Gain Settings

â¢ Offset Correction

â¢ Selectable Offset Binary or 2's Complement

Output

â¢ Multiplexed or Parallel Output Bus

â¢ Single +3.0V to 3.6V Operation

â¢ Power Down and Standby Modes

â¢ 3V TTL Logic Input/Output Compatible

APPLICATIONS

â¢ Digital Video

â¢ CCD Imaging

â¢ Portable Instrumentation

â¢ Communications

â¢ Medical Imaging

â¢ Ultrasound

KEY SPECIFICATIONS

â¢ Resolution: 10 Bits

â¢ Conversion Rate: 40 MSPS

â¢ ENOB: 9.4 Bits (typ)

â¢ DNL: 0.35 LSB (typ)

â¢ Conversion Latency Parallel Outputs: 2.5

Clock Cycles

â Multiplexed Outputs, I Data Bus: 2.5 Clock

Cycles

â Multiplexed Outputs, Q Data Bus: 3 Clock

Cycles

â¢ PSRR: 90 dB

â¢ Power ConsumptionâNormal Operation: 267

mW (typ)

â Power Down Mode: < 1 mW (typ)

â Fast Recovery Standby Mode: 30 mW (typ)

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 consuming a typical 267

mW from a single 3.3V supply. No missing codes is

specified over the full operating temperature 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 offset

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 offset 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 converting, 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 operation make it well suited for a variety of

applications, including high speed portable

applications.

Operating over the industrial (â40Â° â¤ TA â¤ +85Â°C)

temperature range, the ADC10D040 is available in a

48-pin TQFP. An evaluation board is available to

ease the design effort.

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of

Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

All trademarks are the property of their respective owners.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of the Texas

Instruments standard warranty. Production processing does not

necessarily include testing of all parameters.

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