Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE+GSM


Product details


Number of input channels 2 Resolution (Bits) 14 Sample rate (Max) (MSPS) 250 Features Decimating Filter, Differential Inputs, High Dynamic Range, Nap Mode, Out of Range Indicator, Power Down Analog input BW (MHz) 750 SFDR (Typ) (dB) 94 SNR (Typ) (dB) 77 Power consumption (Typ) (mW) 1630 Logic voltage DV/DD (Max) (V) 2 Logic voltage DV/DD (Min) (V) 1.7 Analog voltage AVDD (Max) (V) 3.45 Analog voltage AVDD (Min) (V) 3.15 Operating temperature range (C) -40 to 85 open-in-new Find other Receivers

Package | Pins | Size

HTQFP (PFP) 80 196 mm² 14 x 14 open-in-new Find other Receivers


  • Differential Analog IF Input, DDR LVDS Digital IF Output
  • Up to 125-MHz Signal Bandwidth per Receiver
    • With 40- and 75-MHz optimized bands
  • High Dynamic Performance
  • High Impedance Input
  • 80-Pin TQFP Package with PowerPAD
    • ADS58C20: Multi-Carrier GSM/3G/LTE/TDS-CDMA Cellular Base-station Receiver
    • ADS58C23: Multi-Carrier 3G/LTE/TDS-CDMA Cellular Base-station Receiver

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The ADS58C20 and ADS58C23 are dual IF receivers for wideband, multi-mode cellular infrastructure base stations. Each channel provides high dynamic performance up to 125 MHz of bandwidth, with optimized bands of 40- and 75-MHz. The IF receiver architecture eases front end filter design for wide bandwidth receivers. The receivers have integrated buffers at the analog inputs with benefits of uniform performance and input impedance across a wide frequency range.

The ADS58C20 is a high performance part with superior specifications for single/multi-mode cellular base-station receivers that include multi-carrier GSM. It can also process other cellular protocols such as TDS-CDMA/3G/LTE and prior generation systems.

The ADS58C23 offers the same functionality and pinout as ADS58C20 but with reduced minimum performance specifications for lower cost and performance systems, such as TDS-CDMA/3G/LTE single/multi-mode receivers (when GSM is not required). It can also process prior generation protocols.

The devices are available in a 80-pin TQFP package, and are specified over the full industrial temperature range (–40°C to 85°C).

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Technical documentation

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Type Title Date
* Datasheet ADS58C20 and ADS58C23 Features datasheet Jun. 30, 2011
Technical articles Why should you care about the noise immunity of MLVDS drivers and receivers? Jul. 26, 2017
Technical articles How to minimize filter loss when you drive an ADC Oct. 20, 2016
Technical articles RF sampling: analog-to-digital converter linearity sets sensitivity Sep. 29, 2016
Technical articles RF sampling: linearity performance is not so straightforward Aug. 30, 2016
Application notes Band-Pass Filter Design Techniques for High-Speed ADCs Feb. 27, 2012
Application notes High-Speed, Analog-to-Digital Converter Basics Jan. 11, 2012
Application notes Understanding Low-Amplitude Behavior of 11-bit ADCs Oct. 22, 2011

Design & development

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Software development

SBAC120.ZIP (262219 KB)

Design tools & simulation

SLAM077.ZIP (33 KB) - IBIS Model
SBAC119B.ZIP (3547 KB)

CAD/CAE symbols

Package Pins Download
HTQFP (PFP) 80 View options

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