Produktdetails

Current consumption (mA) 83 Frequency (min) (MHz) 2300 Frequency (max) (MHz) 2900 Gain (typ) (dB) 17 Noise figure (typ) (dB) 3 OIP3 (typ) (dBm) 35 P1dB (typ) (dBm) 17.5 Number of channels 1 Operating temperature range (°C) -40 to 105 Type Active Balun Rating Catalog
Current consumption (mA) 83 Frequency (min) (MHz) 2300 Frequency (max) (MHz) 2900 Gain (typ) (dB) 17 Noise figure (typ) (dB) 3 OIP3 (typ) (dBm) 35 P1dB (typ) (dBm) 17.5 Number of channels 1 Operating temperature range (°C) -40 to 105 Type Active Balun Rating Catalog
WQFN (RRL) 12 4 mm² 2 x 2
  • Single-channel, single-ended input to differential output RF gain block amplifier
  • Supports 2.6-GHz center frequency with
    400-MHz, 1-dB bandwidth
  • 17-dB typical gain across the 1-dB bandwidth into ZLOAD = 50 Ω
  • Noise figure < 3 dB in 1-dB bandwidth
  • 35-dBm OIP3 at 2-dBm two-tone output power into ZLOAD = 50 Ω
  • 17.5-dBm output P1dB into ZLOAD = 50 Ω
  • 275-mW power consumption on 3.3-V single supply
  • Up to TA = 105°C operating temperature
  • Single-channel, single-ended input to differential output RF gain block amplifier
  • Supports 2.6-GHz center frequency with
    400-MHz, 1-dB bandwidth
  • 17-dB typical gain across the 1-dB bandwidth into ZLOAD = 50 Ω
  • Noise figure < 3 dB in 1-dB bandwidth
  • 35-dBm OIP3 at 2-dBm two-tone output power into ZLOAD = 50 Ω
  • 17.5-dBm output P1dB into ZLOAD = 50 Ω
  • 275-mW power consumption on 3.3-V single supply
  • Up to TA = 105°C operating temperature

The LMH9226 is high-performance, single-channel, single-ended, 50-Ω input to differential 50-Ω or 100-Ω output RF gain block amplifier supporting a 2.3-GHz to 2.9-GHz frequency band. The device is well suited to meet requirements for 5G m-MIMO or small cell base station applications. The device integrates the functionality of a single-ended input and output RF gain block followed by a passive balun, where the device is mainly used in the final stage of a receiver signal chain to drive the full-scale voltage of an analog-to-differential converter (ADC) differential input.

The LMH9226 provides 17-dB typical gain with excellent linearity performance of 35-dBm output IP3 at 2.6 GHz, and maintains less than a 3-dB noise figure across the entire 1-dB bandwidth of 400 MHz. The device is internally matched for a 50-Ω impedance at the single-ended input. The differential output can easily interface to a 50-Ω impedance without any external matching circuitry. For 100-Ω impedance matching, an external matching circuitry is required that typically results in a 0.3-dB gain loss at 2.6 GHz.

Operating on a single 3.3-V supply, the device consumes approximately 275 mW of stand-by power, making the device suitable for high-density, 5G, massive multiple-input and multiple-output (MIMO) applications. Also, the device is available in a space-saving, 2-mm × 2-mm, 12-pin WQFN package. The device is rated for an operating temperature of up to 105°C to provide a robust system design. A 1.8-V JEDEC compliant power-down pin is available for fast power-down and power-up of the device that is suitable for time division duplex (TDD) systems.

The LMH9226 is high-performance, single-channel, single-ended, 50-Ω input to differential 50-Ω or 100-Ω output RF gain block amplifier supporting a 2.3-GHz to 2.9-GHz frequency band. The device is well suited to meet requirements for 5G m-MIMO or small cell base station applications. The device integrates the functionality of a single-ended input and output RF gain block followed by a passive balun, where the device is mainly used in the final stage of a receiver signal chain to drive the full-scale voltage of an analog-to-differential converter (ADC) differential input.

The LMH9226 provides 17-dB typical gain with excellent linearity performance of 35-dBm output IP3 at 2.6 GHz, and maintains less than a 3-dB noise figure across the entire 1-dB bandwidth of 400 MHz. The device is internally matched for a 50-Ω impedance at the single-ended input. The differential output can easily interface to a 50-Ω impedance without any external matching circuitry. For 100-Ω impedance matching, an external matching circuitry is required that typically results in a 0.3-dB gain loss at 2.6 GHz.

Operating on a single 3.3-V supply, the device consumes approximately 275 mW of stand-by power, making the device suitable for high-density, 5G, massive multiple-input and multiple-output (MIMO) applications. Also, the device is available in a space-saving, 2-mm × 2-mm, 12-pin WQFN package. The device is rated for an operating temperature of up to 105°C to provide a robust system design. A 1.8-V JEDEC compliant power-down pin is available for fast power-down and power-up of the device that is suitable for time division duplex (TDD) systems.

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Typ Titel Datum
* Data sheet LMH9226 Single-Ended to Differential 2.3-GHz to 2.9-GHz RF Amplifier With Balun datasheet PDF | HTML 16 Dez 2018
Certificate LMH9226RRLEVM EU Declaration of Conformity (DoC) 28 Apr 2020
EVM User's guide LMH9226 Evaluation Module User's Guide 13 Dez 2019

Design und Entwicklung

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Evaluierungsplatine

AFE79-LMH9-EVM — AFE7920 Referenzdesign-Evaluierungsplatine mit aktiven Baluns LMH9126, LMH9226, LMH9135 und LMH9235

The AFE79-LMH9-EVM evaluation module (EVM) is a board for evaluating the performance of the AFE79xx family of integrated RF sampling transceivers interfaced with the LMH9xxx family of active baluns. The AFE79-LMH9-EVM showcases the AFE7920, LMH9126, LMH9226, LMH9135, and LMH9235. The device is (...)
Benutzerhandbuch: PDF
Evaluierungsplatine

LMH9226-EVM — LMH9226 – 2,6 GHz, Eintakt in Gegentakt umwandelnder Verstärker – Evaluierungsmodul

The LMH9226 evaluation module (EVM) is used to evaluate the LMH9226 device, which is a single-ended input to differential output 19dB gain block amplifier available in 2x2mm2 12-pin RRL package. The device is well suited to support requirements for the next generation 5G m-MIMO Active antenna (...)
Benutzerhandbuch: PDF
Simulationsmodell

LMH9226IRRLR ADS S-Parameter Model

SBOMB32.ZIP (8 KB) - S-Parameter Model
Gehäuse Pins CAD-Symbole, Footprints und 3D-Modelle
WQFN (RRL) 12 Ultra Librarian

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