The MAX2320, MAX2321, MAX2322, MAX2324, MAX2326, MAX2327, MAX2329 high-performance SiGe receiver front-end ICs set a new industry standard for low noise and high linearity at a low supply current. This family integrates a variety of unique features such as an LO frequency doubler and divider, dual low-noise amplifier (LNA) gain settings, and a low-current paging mode that extends the handset standby time.

The MAX2320 family includes seven ICs: four operate at both cellular and PCS frequencies, one operates at cellular frequencies, one at PCS frequencies, and one is configured as a dual PCS device (see Selector Guide). Each part includes an LNA with a high input third-order intercept point (IIP3) to minimize intermodulation and cross-modulation in the presence of large interfering signals. In low-gain mode, the LNA is bypassed to provide higher cascaded IIP3 at a lower current. For paging, a low-current, high-gain mode is provided.

The CDMA mixers in cellular and PCS bands have high linearity, low noise, and differential IF outputs. The FM mixer is designed for lower current and a single-ended output.

All devices come in a 20-pin TSSOP-EP package with exposed paddle and are specified for the extended temperature range (-40°C to +85°C).
MAX2320、MAX2321、MAX2322、MAX2324、MAX2326、MAX2327:引脚配置 MAX2320、MAX2321、MAX2322、MAX2324、MAX2326、MAX2327:引脚配置 放大+


  • Ultra-High Linearity at Ultra-Low Current and Noise
  • +2.7V to +3.6V Operation
  • Pin-Selectable Low-Gain Mode Reduces Gain by 15dB and Current by 3mA
  • Pin-Selectable Paging Mode Reduces Current Draw by 6mA when Transmitter is Not in Use
  • LO Output Buffers
  • LO Frequency Doubler (MAX2321)
  • LO Frequency Divider (MAX2326)
  • 0.1µA Shutdown Current
  • 20-Pin TSSOP-EP Package


  • 单/双/三模电话
  • 无线本地环路(WLL)
产品可靠性报告: MAX2322.pdf 
型号   生产流程   工艺   样本量   不合格   FIT @ 25°C   FIT @ 55°C   Material Composition  

备注: 通过技术手段对故障率进行汇总,并映射到相关的材料部件号。 故障率与被测件的数量密切相关。

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290MHz to 960MHz ASK/FSK Receiver with SPI Interface

  • Low Bill of Materials (BOM)
  • Long Range with High Sensitivity
  • Low Power Consumption