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HI5662

Obsolete

Dual 8-Bit, 60 MSPS A/D Converter with Internal Voltage Reference

Features

  • Sampling Rate 60MSPS
  • 7.8 Bits at fIN = 10MHz
  • Low Power at 60MSPS 650mW
  • Wide Full Power Input Bandwidth 250MHz
  • Excellent Channel-to-Channel Isolation >75dB
  • On-Chip Sample and Hold Amplifiers
  • Internal Band-Gap Voltage Reference 2.5V
  • Fully Differential or Single-Ended Analog Inputs
  • Single Supply Voltage Operation +5V
  • TTL/CMOS Compatible Digital Inputs
  • CMOS Compatible Digital Outputs 3.0/5.0V
  • Offset Binary Digital Data Output Format
  • Dual 8-Bit A/D Converters on a Monolithic Chip
Find Other Products in Analog-to-Digital Converters (ADC) - High-Speed
HI5662 Functional Diagram
HI5662 Functional Diagram

Description

Support is limited to customers who have already adopted these products.

The HI5662 is a monolithic, dual 8-Bit, 60MSPS analog-to-digital converter fabricated in an advanced CMOS process. It is designed for high speed applications where integration, bandwidth and accuracy are essential. The HI5662 reaches a new level of multi-channel integration. The fully pipeline architecture and an innovative input stage enable the HI5662 to accept a variety of input configurations, single-ended or fully differential. Only one external clock is necessary to drive both converters and an internal band-gap voltage reference is provided. This allows the system designer to realize an increased level of system integration resulting in decreased cost and power dissipation. The HI5662 has excellent dynamic performance while consuming only 650mW power at 60MSPS. The A/D only requires a single +5V power supply and encode clock. Data output latches are provided which present valid data to the output bus with a latency of 6 clock cycles. For those customers needing dual channel 10-bit resolution, please refer to the HI5762. For single channel 10-bit applications, please refer to the HI5767.

Applications

  • Wireless Local Loop
  • PSK and QAM I and Q Demodulators
  • Medical Imaging
  • High Speed Data Acquisition
Part NumberStatusSamplesStockPackageLead Count (#)Carrier TypePb (Lead) FreeTemp. Range (°C)
HI5662/6INObsoleteN/AIn StockMQFP44#TrayNo-40 to +85°C
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Filters

    Recommended Documents (1)

  1. Datasheet
    HI5662 Datasheet
    RECOMMENDED
    PDF 752 KB hi5662 Apr 17, 2000

    Datasheets (1)

  1. Datasheet
    HI5662 Datasheet
    RECOMMENDED
    PDF 752 KB hi5662 Apr 17, 2000

    Manuals & Guides (1)

  1. Manual - Development Tools
    HI5662EVAL2 User Guide
    PDF 613 KB an9823 Aug 22, 2000

    Application Notes & White Papers (4)

  1. Application Note
    AN9675: A Tutorial in Coherent and Windowed Sampling with A/D Converters
    PDF 503 KB an9675 Aug 13, 1999
    AI-generated Summary: Effective Number of Bits (ENOB) depends critically on precise coherence in A/D sampling, with small frequency shifts significantly impacting accuracy. Unwrapping reconstructs coherently sampled sine waves, while windowing controls spectral leakage by shaping the acquisition window. Resampling and interpolation adjust sample sets to avoid leakage in FFT analysis. Different window functions balance side lobe levels and bandwidth, affecting spectral resolution and leakage reduction.
  2. Application Note
    AN002: Principles of Data Acquisition and Conversion
    PDF 1.08 MB an002 Nov 19, 1998
    AI-generated Summary: Data acquisition and conversion involve quantization, where the smallest resolvable analog difference (quantum) depends on the full scale range and resolution. Quantization introduces an irreducible error called quantizing error or noise. Aperture time, the conversion time uncertainty, causes amplitude errors when signals change during conversion. Sample-hold circuits reduce aperture time by storing sampled signals. The Sampling Theorem states that sampling frequency must be at least twice the highest signal frequency to avoid distortion from frequency folding or aliasing. Natural binary code is commonly used for digital representation in converters, with the most and least significant bits defining the code's resolution and value.
  3. Application Note
    AN9510: Basic Analog for Digital Designers
    PDF 508 KB an9510 Aug 19, 1998
    AI-generated Summary: The document explains fundamental analog circuit concepts for digital designers, focusing on superposition, Thevenin equivalent circuits, and feedback principles. It details the operation and assumptions of inverting and non-inverting op amps, differential amplifiers, and the use of T networks in feedback paths. The text highlights the importance of feedback in controlling closed-loop gain and stability, and distinguishes between voltage and current feedback op amps, especially in high-frequency applications like video amplifiers.
  4. Application Note
    AN9705: A Theoretical View of Coherent Sampling
    PDF 287 KB an9705 Feb 21, 1997
    AI-generated Summary: Coherent sampling requires the ratio of signal frequency to sampling frequency to be a rational number, expressed as ko/N. When this condition is not met, frequency smearing occurs across bins. Data Acquisition Systems (DAS) can mitigate this by windowing, fixing sampling frequency and tuning input frequency, or fixing input frequency and tuning sampling frequency. The latter two methods are practical for most systems. Pseudo-code illustrates the frequency response for non-integer ko values.

    Marketing Collateral (1)

  1. Brochure
    Analog ICs Brochure
    PDF 5.43 MB R07CL0009EJ0800 Rev.8.00 日本語 Nov 10, 2025
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