Power LDMOS transistor

120 W LDMOS packaged asymmetric Doherty power transistor for base station applications at frequencies from 2110 MHz to 2200 MHz.

Features and benefits

  • Excellent ruggedness
  • High efficiency
  • Low thermal resistance providing excellent thermal stability
  • Lower output capacitance for improved performance in Doherty applications
  • Designed for low memory effects providing excellent digital pre-distortion capability
  • Internally matched for ease of use
  • Integrated ESD protection
  • For RoHS compliance see the product details on the Ampleon website

Applications

  • RF power amplifiers for base stations and multi carrier applications in the 2110 MHz to 2200 MHz frequency range

Parametrics

Symbol Parameter Conditions Min Typ/Nom Max Unit
frange frequency range 2110 2200 MHz
PL(3dB) nominal output power at 3 dB gain compression 120 W
Test signal: 1-c W-CDMA
VDS drain-source voltage 2110 to 2200 MHz [0] 28 V
Gp power gain 2110 to 2200 MHz [0] 16.8 dB
ηD drain efficiency 2110 to 2200 MHz [0] 45 %
PL(AV) average output power 2110 to 2200 MHz [0] 15 dBm
ACPR adjacent channel power ratio 2110 to 2200 MHz [0] -34 [1] dBc

Package / Packing

Type number Package Outline version Reflow-/Wave
soldering
Packing Product status Marking Orderable part number,
(Ordering code (12NC))
BLC9G22XS-120AGWT SOT1278-1
(SOT1278-1)
Reel 13" Q1/T1 in Drypack Active Standard Marking BLC9G22XS-120AGWTY
(9349 601 69518)
Tray, NonBakeable, Multiple in Drypack Active Standard Marking BLC9G22XS-120AGWTZ
(9349 601 69517)

Pinning info

Pin Symbol Description Simplified outline Graphic symbol
1 D1M drain1 (main)
2 D2P drain2 (peak)
3 G1M gate1 (main)
4 G2P gate2 (peak)
5 VDM video decoupling (main)
6 VDP video decoupling (peak)
7 S source

Quality

Type number Orderable part number Chemical content RoHS / RHF Leadfree conversion date MSL MSL LF
Quality and reliability disclaimer

Design support

Title Type Date
PCB Design BLC9G22XS-120AGWT (Data sheet) Design support 2019-02-07
BLC9G22XS-120AGWT ADS-2016 Simulation model 2019-02-07