Datasheet Texas Instruments ADC12D500RF

ManufacturerTexas Instruments
SeriesADC12D500RF
Datasheet Texas Instruments ADC12D500RF

12-Bit, Dual 500-MSPS or Single 1.0-GSPS, RF Sampling Analog-to-Digital Converter (ADC)

Datasheets

ADC12D800/500RF 12-Bit, 1.6/1.0 GSPS RF Sampling ADC datasheet
PDF, 2.0 Mb, Revision: E, File published: Mar 25, 2013
Extract from the document

Prices

Status

ADC12D500RFIUTADC12D500RFIUT/NOPB
Lifecycle StatusActive (Recommended for new designs)Active (Recommended for new designs)
Manufacture's Sample AvailabilityNoYes

Packaging

ADC12D500RFIUTADC12D500RFIUT/NOPB
N12
Pin292292
Package TypeNXANXA
Industry STD TermBGABGA
JEDEC CodeS-PBGA-NS-PBGA-N
Package QTY4040
CarrierJEDEC TRAY (10+1)JEDEC TRAY (10+1)
Device MarkingADC12D500RFIUTADC12D500RFIUT
Width (mm)2727
Length (mm)2727
Thickness (mm)2.382.38
Pitch (mm)1.271.27
Max Height (mm)2.42.4
Mechanical DataDownloadDownload

Parametrics

Parameters / ModelsADC12D500RFIUT
ADC12D500RFIUT
ADC12D500RFIUT/NOPB
ADC12D500RFIUT/NOPB
# Input Channels2,12,1
Analog Input BW, MHz27002700
ArchitectureFolding InterpolatingFolding Interpolating
DNL(Max), +/-LSB0.40.4
DNL(Typ), +/-LSB0.40.4
ENOB, Bits9.79.7
INL(Max), +/-LSB2.52.5
INL(Typ), +/-LSB2.52.5
Input BufferYesYes
Input Range, Vp-p0.80.8
InterfaceParallel LVDSParallel LVDS
Operating Temperature Range, C-40 to 85-40 to 85
Package GroupBGABGA
Package Size: mm2:W x L, PKG292BGA: 729 mm2: 27 x 27(BGA)292BGA: 729 mm2: 27 x 27(BGA)
Power Consumption(Typ), mW20202020
RatingCatalogCatalog
Reference ModeIntInt
Resolution, Bits1212
SFDR, dB74.374.3
SINAD, dB6060
SNR, dB60.460.4
Sample Rate(Max), MSPS500,1000500,1000

Eco Plan

ADC12D500RFIUTADC12D500RFIUT/NOPB
RoHSSee ti.comCompliant

Application Notes

  • Synchronizing the Giga-Sample ADCs Interfaced with Multiple FPGAs
    PDF, 943 Kb, File published: Aug 6, 2014
  • AN-2177 Using the LMH6554 as a ADC Driver (Rev. A)
    PDF, 1.7 Mb, Revision: A, File published: Apr 26, 2013
    This application report discusses the use of the Texas Instruments LMH6554 as an ADC driver.
  • From Sample Instant to Data Output: Understanding Latency in the GSPS ADC
    PDF, 392 Kb, File published: Dec 18, 2012
    For many applications which use ultra high-speed ADCs, latency can be a critical performance specification. For example, if the ADC is used in any kind of feedback loop, then the absolute latency is an important factor. For a MIMO system such as a phased array radar, the relative difference and variability in latency becomes important. This application note covers latency in the GSPS ADC products,
  • AN-2132 Synchronizing Multiple GSPS ADCs in a System: The AutoSync Feature (Rev. G)
    PDF, 169 Kb, Revision: G, File published: Feb 3, 2017
  • Maximizing SFDR Performance in the GSPS ADC: Spur Sources and Methods of Mitigat
    PDF, 720 Kb, File published: Dec 9, 2013
    The SFDR performance of an ADC is limited by the largest spur in the spectrum from DC to Fs / 2. These spurs can either be reduced or avoided entirely for maximum SFDR performance, based on the application. This reference design explores the reason behind spurs in the 10-bit and 12-bit GSPS ADCfamily. The specific products covered are: ADC12D1800RF, ADC12D1600RF, ADC12D1000RF, ADC12D800RF, ADC12

Model Line

Series: ADC12D500RF (2)

Manufacturer's Classification

  • Semiconductors> Data Converters> Analog-to-Digital Converters (ADCs)> High Speed ADCs (>10MSPS)