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Overview

Description

The F1701, F1751, and F1763 are pin-compatible RF to IF single-channel downconverting mixers ideal for many receiver (Rx) applications. These devices employ Zero-Distortion™ technology to practically eliminate the third order intermodulation response. The devices feature high gain (~12dB) and a low noise figure in addition to outstanding output IP3 (> +40dBm).

Features

  • Single mixer ideal for multi-carrier systems
  • 3 versions cover 700MHz to 2700MHz
  • Low-side or High-side LO
  • 11.8dB Gain
  • Ultra-linear +43dBm IP3O using HS LO or +37.5 dBm IP3O using LSLO
  • 9.7dB NF
  • 200Ω output impedance
  • Wide flat-performance IF BW
  • Drives ADC directly for DPD applications
  • Low power consumption
  • 5mm x 5mm 20-pin package
  • Standby mode

Comparison

Applications

Documentation

Type Title Date
Datasheet PDF 1.08 MB
Guide PDF 2.24 MB
Product Brief PDF 1.12 MB
Application Note PDF 568 KB
Product Change Notice PDF 45 KB
5 items

Design & Development

Available Modular Designs by X-Microwave:
XM-A7E8-0604D Mixer

Models

ECAD Models

Schematic symbols, PCB footprints, and 3D CAD models from SamacSys can be found by clicking on products in the Product Options table. If a symbol or model isn't available, it can be requested directly from the website.

Diagram of ECAD Models

Videos & Training

IDT RF Product Benefits Overview

This video highlights the customer benefits of IDT's (acquired by Renesas) innovative RF products, which offer up to 10x improvement in RF performance. Key technologies include glitch-free technology for smooth transitions, flat-noise technology for consistent noise performance, zero-distortion technology for minimal intermodulation distortion, and more.

Transcript

Hello, my name is Dan Terlep. I'm a Product Definer in IDT's RF group. What I'm going to talk about are some of the customer benefits of IDT's technical innovations used in RF products. These are unique innovations that differentiate our products from competitive parts. Up to 10x improvement in RF performance can be obtained when using these devices in your designs. This technology is highly desired by equipment vendors and is protected by patents.

Glitch-free technology essentially eliminates the transient overshoot that can occur during mSv attenuation state transitions of standard digital step attenuators. Flat-noise technology maintains near constant noise performance [inaudible 00:00:48] reduced in our variable gain amplifiers, thus optimizing system level signal-to-noise performance. Zero-distortion technology practically eliminates intermodulation distortion in our RF mixers and amplifiers, enhancing the system's quality of service. Kz refers to constant impedance technology, which has implemented a new line of RF switches that allows 'hot switching' in TDD systems.

Additional benefits of using IDT's RF solutions include: enable screen networks with minimal power consumption; allow scaling from macrocells to microcells using the same device with reduced voltage, reduced current, or both; improves reliability by replacing gallium arsenite with silicon; improves data throughput by optimizing signal-to-noise performance and overall dynamic range; tolerates higher operating temperature than competitive devices.

Note that IDT's RF cards are used by all major cellular 3G and 4G equipment manufacturers for systems deployed all over the world. IDT's advanced RF portfolio using these technologies includes: mixers, digital step attenuators, RF switches, variable gain amplifiers, and modulators. These are silicon monolithic devices offered in QFN packages.

In summary, IDT's RF portfolio replaces gallium arsenite parts, results in higher reliability, provides better signal-to-noise performance, faster settling times, eliminates glitching and third-order intermodulation distortion, reduces DC power consumption, and operates at higher temperatures. Thank you for your time, and please make sure to visit IDT's RF website for a more complete look at our product portfolio. For additional information and support, please use the email shown.