MAX5864
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MAX5864

Ultra-Low-Power, High-Dynamic-Performance, 22Msps Analog Front End

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Info: : PRODUCTION tooltip
Part Models 2
1ku List Price Starting From $8.14
Features
  • Integrated Dual 8-Bit ADCs and Dual 10-Bit DACs
  • Ultra-Low Power
    • 42mW at fCLK = 22MHz (Transceiver Mode)
    • 34mW at fCLK = 15.36MHz (Transceiver Mode)
    • Low-Current Idle and Shutdown Modes
  • Excellent Dynamic Performance
    • 48.5dB SINAD at fIN = 5.5MHz (ADC)
    • 71.7dB SFDR at fOUT = 2.2MHz (DAC)
  • Excellent Gain/Phase Match
    • ±0.1° Phase, ±0.03dB Gain at fIN = 5.5MHz (ADC)
  • Internal/External Reference Option
  • +1.8V to +3.3V Digital Output Level (TTL/CMOS Compatible)
  • Multiplexed Parallel Digital Input/Output for ADCs/DACs
  • Miniature 48-Pin Thin QFN Package (7mm x 7mm)
  • Evaluation Kit Available     
Additional Details
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The MAX5864 ultra-low-power, highly integrated analog front end is ideal for portable communication equipment such as handsets, PDAs, WLAN, and 3G wireless terminals. The MAX5864 integrates dual 8-bit receive ADCs and dual 10-bit transmit DACs while providing the highest dynamic performance at ultra-low power. The ADCs' analog I-Q input amplifiers are fully differential and accept 1VP-P full-scale signals. Typical I-Q channel phase matching is ±0.1° and amplitude matching is ±0.03dB. The ADCs feature 48.5dB SINAD and 69dBc spurious-free dynamic range (SFDR) at fIN = 5.5MHz and fCLK = 22Msps. The DACs' analog I-Q outputs are fully differential with ±400mV full-scale output, and 1.4V common-mode level. Typical I-Q channel phase match is ±0.15° and amplitude match is ±0.05dB. The DACs also feature dual 10-bit resolution with 71.7dBc SFDR, and 57dB SNR at fOUT = 2.2MHz and fCLK = 22MHz.

The ADCs and DACs operate simultaneously or independently for frequency-division duplex (FDD) and time-division duplex (TDD) modes. A 3-wire serial interface controls power-down and transceiver modes of operation. The typical operating power is 42mW at fCLK = 22Msps with the ADCs and DACs operating simultaneously in transceiver mode. The MAX5864 features an internal 1.024V voltage reference that is stable over the entire operating power-supply range and temperature range. The MAX5864 operates on a +2.7V to +3.3V analog power supply and a +1.8V to +3.3V digital I/O power supply for logic compatibility. The quiescent current is 5.6mA in idle mode and 1µA in shutdown mode. The MAX5864 is specified for the extended (-40°C to +85°C) temperature range and is available in a 48-pin thin QFN package.

Applications

  • 3G Wireless Terminals
  • Fixed/Mobile Broadband Wireless Modems
  • Narrowband/Wideband CDMA Handsets
  • PDAs
Part Models 2
1ku List Price Starting From $8.14

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Documentation

Part Model Pin/Package Drawing Documentation CAD Symbols, Footprints, and 3D Models
MAX5864ETM+
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MAX5864ETM+T
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Product Lifecycle

PCN

Apr 9, 2018

- 1682

ASSEMBLY

MAX5864ETM+

PRODUCTION

MAX5864ETM+T

PRODUCTION

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ASSEMBLY

MAX5864ETM+

PRODUCTION

MAX5864ETM+T

PRODUCTION

Software & Part Ecosystem

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Evaluation Kits 4

MAX5866EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

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MAX5866EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Features and Benefits

  • Quick Dynamic Performance Evaluation
  • 50Ω Matched Clock Input and Analog Signal Lines
  • Single-Ended to Fully Differential Analog Input Signal Configuration
  • Differential to Single-Ended Output Signal-Conversion Circuitry
  • AC- or DC-Coupled Input Signals Configuration
  • SMA Coaxial Connectors for Clock Input, Analog Inputs, and Analog Output
  • On-Board Clock-Shaping Circuit
  • High-Speed PC Board Design
  • Fully Assembled and Tested
  • Windows-Compatible Software

Product Detail

The MAX586x evaluation kit (EV kit) is a fully assembled and tested circuit board that contains all the components necessary to evaluate the performance of this family of analog front ends (AFEs’) that integrate a dual-channel analog-to-digital converter (ADC), a dual-channel digital-to- analog converter (DAC), and a 1.024V internal voltage reference. The EV kit board accepts AC- or DC-coupled, differential or single-ended analog inputs for the receive ADC and includes circuitry that converts the transmit DAC differential output signals to single-ended analog outputs. The EV kit includes circuitry that generates a clock signal from an AC sine wave input signal. The EV kit operates from a +3.0V analog power supply, +3.0V digital power supply, and ±5V bipolar power supply.

The EV kit comes with Windows® 7/10-compatible software that provides a simple graphical user interface (GUI) for exercising the programmable features of the MAX5863–MAX5866.

Windows is a registered trademark and registered service mark of Microsoft Corporation.

Applications

  • 3G Wireless Terminals and PDAs
  • Fixed/Mobile Broadband Wireless Modems
  • Narrowband/Wideband CDMA Handsets

MAX5863EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

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MAX5863EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Features and Benefits

  • Quick Dynamic Performance Evaluation
  • 50Ω Matched Clock Input and Analog Signal Lines
  • Single-Ended to Fully Differential Analog Input Signal Configuration
  • Differential to Single-Ended Output Signal-Conversion Circuitry
  • AC- or DC-Coupled Input Signals Configuration
  • SMA Coaxial Connectors for Clock Input, Analog Inputs, and Analog Output
  • On-Board Clock-Shaping Circuit
  • High-Speed PC Board Design
  • Fully Assembled and Tested
  • Windows-Compatible Software

Product Detail

The MAX586x evaluation kit (EV kit) is a fully assembled and tested circuit board that contains all the components necessary to evaluate the performance of this family of analog front ends (AFEs’) that integrate a dual-channel analog-to-digital converter (ADC), a dual-channel digital-to- analog converter (DAC), and a 1.024V internal voltage reference. The EV kit board accepts AC- or DC-coupled, differential or single-ended analog inputs for the receive ADC and includes circuitry that converts the transmit DAC differential output signals to single-ended analog outputs. The EV kit includes circuitry that generates a clock signal from an AC sine wave input signal. The EV kit operates from a +3.0V analog power supply, +3.0V digital power supply, and ±5V bipolar power supply.

The EV kit comes with Windows® 7/10-compatible software that provides a simple graphical user interface (GUI) for exercising the programmable features of the MAX5863–MAX5866.

Windows is a registered trademark and registered service mark of Microsoft Corporation.

Applications

  • 3G Wireless Terminals and PDAs
  • Fixed/Mobile Broadband Wireless Modems
  • Narrowband/Wideband CDMA Handsets

MAX5864EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

zoom

MAX5864EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Features and Benefits

  • Quick Dynamic Performance Evaluation
  • 50Ω Matched Clock Input and Analog Signal Lines
  • Single-Ended to Fully Differential Analog Input Signal Configuration
  • Differential to Single-Ended Output Signal-Conversion Circuitry
  • AC- or DC-Coupled Input Signals Configuration
  • SMA Coaxial Connectors for Clock Input, Analog Inputs, and Analog Output
  • On-Board Clock-Shaping Circuit
  • High-Speed PC Board Design
  • Fully Assembled and Tested
  • Windows-Compatible Software

Product Detail

The MAX586x evaluation kit (EV kit) is a fully assembled and tested circuit board that contains all the components necessary to evaluate the performance of this family of analog front ends (AFEs’) that integrate a dual-channel analog-to-digital converter (ADC), a dual-channel digital-to- analog converter (DAC), and a 1.024V internal voltage reference. The EV kit board accepts AC- or DC-coupled, differential or single-ended analog inputs for the receive ADC and includes circuitry that converts the transmit DAC differential output signals to single-ended analog outputs. The EV kit includes circuitry that generates a clock signal from an AC sine wave input signal. The EV kit operates from a +3.0V analog power supply, +3.0V digital power supply, and ±5V bipolar power supply.

The EV kit comes with Windows® 7/10-compatible software that provides a simple graphical user interface (GUI) for exercising the programmable features of the MAX5863–MAX5866.

Windows is a registered trademark and registered service mark of Microsoft Corporation.

Applications

  • 3G Wireless Terminals and PDAs
  • Fixed/Mobile Broadband Wireless Modems
  • Narrowband/Wideband CDMA Handsets

MAX5865EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

zoom

MAX5865EVKIT

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Evaluation Kit for the MAX5863, MAX5864, MAX5865, and MAX5866

Features and Benefits

  • Quick Dynamic Performance Evaluation
  • 50Ω Matched Clock Input and Analog Signal Lines
  • Single-Ended to Fully Differential Analog Input Signal Configuration
  • Differential to Single-Ended Output Signal-Conversion Circuitry
  • AC- or DC-Coupled Input Signals Configuration
  • SMA Coaxial Connectors for Clock Input, Analog Inputs, and Analog Output
  • On-Board Clock-Shaping Circuit
  • High-Speed PC Board Design
  • Fully Assembled and Tested
  • Windows-Compatible Software

Product Detail

The MAX586x evaluation kit (EV kit) is a fully assembled and tested circuit board that contains all the components necessary to evaluate the performance of this family of analog front ends (AFEs’) that integrate a dual-channel analog-to-digital converter (ADC), a dual-channel digital-to- analog converter (DAC), and a 1.024V internal voltage reference. The EV kit board accepts AC- or DC-coupled, differential or single-ended analog inputs for the receive ADC and includes circuitry that converts the transmit DAC differential output signals to single-ended analog outputs. The EV kit includes circuitry that generates a clock signal from an AC sine wave input signal. The EV kit operates from a +3.0V analog power supply, +3.0V digital power supply, and ±5V bipolar power supply.

The EV kit comes with Windows® 7/10-compatible software that provides a simple graphical user interface (GUI) for exercising the programmable features of the MAX5863–MAX5866.

Windows is a registered trademark and registered service mark of Microsoft Corporation.

Applications

  • 3G Wireless Terminals and PDAs
  • Fixed/Mobile Broadband Wireless Modems
  • Narrowband/Wideband CDMA Handsets

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