Amplificador de Potencia Clase-S para Transmisor EER

A Class-S power amplifier for an EER transmitter is shown in this paper. Simulations and measurements on a circuit prototype are presented showing good agreement. The amplifier is based on MOSFET technology both for the power stage and driver. Pulse Width Modulation driving signal required by the amplifier is generated by means of a in-house designed DSP board. Up to 50W output peak power can be delivered to the RF power amplifier (Class-S amplifier load) at 86 % power-added efficiency while harmonic distortion is below 30 dBc and third order intermodulaction products remain well below 34 dBc

Nueva técnica de modulación de excitación para sistemas EER

This paper shows a novel drive modulation technique applied to a high power, high efficiency, linear Envelope Elimination and Restoration (EER) amplifier for L-Band. It comprises a mixed-mode suboptimum Class-E / Class-A wideband RF amplifier based on a dual GaN HEMT for RF carrier amplification and a high efficiency, high switching frequency, multi-phase, buck power converter based on Silicon LDMOS transistors to work as a modulator (or envelope amplifier). The linearity and power gain for this EER amplifier is improved by means of a new digital drive modulation technique and digital predistortion (DPD) to achieve linearity performances equivalent or better than Class-AB amplifiers of similar output power level and frequency band but exhibiting much higher efficiency. This EER amplifier provides 120W peak output power at the L-band without any adjustment. In a two tone test, measured third and fifth-order intermodulation products were -45 dBc and -49 dBc, respectively, reaching 67.5 % maximum PAE

Predistorsion Digital Aplicada al Amplificador de Potencia de un Sistema EER

A linealized RF power amplifier using Envelope Elimination and Restoration (EER) and predistortion techniques is shown. Measurements on a circuit prototype are presented. The EER system uses a linear regulator to amplify the envelope and a high efficiency broadband VHF class E power amplifier for the phase component. Different digital modulations have been tested in the circuit prototype. Adjacent Channel Power Ratio (ACPR) reaches over 46 dBc for monocarrier modulations and over 34 dBc for multicarrier modulations, for a 2MHz bandwidth on VHF carrier (from 88 MHz to 114 MHz). The system shown provides double efficiency level than an equivalent ideal class A amplifier

Amplificador de potencia clase F a 1.64 ghz con control de armónicos

This paper presents a high-power high efficiency PA design method using load pull technique. Harmonic impedance control at the virtual drain is accomplished through the use of tunable pre-matching circuits and modeling of package parasitics. A 0.5 µm GaN high electron mobility transistor (HEMT) is characterized using the method, and loadpull measurements are simulated illustrating the impact of varying 2nd and 3rd harmonic termination. These harmonic terminations are added to satisfy conditions for class-F load pull. The method is verified by design and simulation of a 40-W class-F PA prototype at 1.64 GHz with 76% drain efficiency and 10 dB gain (70% PAE)

Procedimiento De Amplificador De Envolvente De Señales Moduladas En RF Para Técnicas EER Y ET

An envelope amplifier for an EER (Envelope Elimination and Restoration) and ET (Envelope Tracking) techniques is shown in this paper. The amplifier is based on a high speed two phases buck converter and employs RF LDMOS technology for the switching stage. A DPWM (Digital Pulse With Modulation) signal is used to control the amplifier by means of a functions generator. Simulations and measurements on a circuit prototype are presented showing a good agreement. Up to 125W output peak power can be delivered over a 5Ω load resistor. About 80% efficiency has been obtained. And at the two tone test, the third order intermodulation products (IP3) remain below 45dBc over a 2MHz bandwidth

Mejora de la Linealidad de un amplificador de Potencia para un Sistema EER Mediante Predistorsion Digital

En este trabajo se presenta un amplificador de potencia de RF linealizado mediante la combinaci n de t cnicas de Eliminaci n y Recuperaci n de Envolvente (EER) y Predistorsi n. Se utiliza para ello procesado digital de la se al en banda base y la identificaci n de modelos en el dominio del tiempo para describir el funcionamiento del amplificador de potencia. Empleando m todos basados en la t cnica de error de salida, se calcula e implementa la funci n complementaria no lineal del amplificador de potencia de RF del sistema EER en Matlab, para su posterior linealizaci n. Se han conseguido mejoras de hasta 20 dB usando esta t cnica con respecto a un sistema EER sin linealizar

Amplificador de potencia Clase F en banda L basado en tecnología GaN

This paper reports a high efficiency class-F power amplifier based on a gallium nitride high electron mobility transistor (GaN-HEMT), which is designed at the L band of 1640 MHz. The design is based on source and load pull measurements. During the design process, the parasitics of the package of the device are also taken into account in order to achieve the optimal class-F load condition at the intrinsic drain of the transistor. The fabricated class-F power amplifier achieved a maximum drain efficiency (DE) of 77.8% and a output power of 39.6 W on a bandwidth of 280 MHz. Simulation and measurement results have shown good agreement

Amplificador de envolvente de señales de RF basado en el convertidor buck multifase

En este trabajo se presenta un convertidor DC-DC buck de dos fases de alta velocidad adecuado para emplear en técnicas de linealización de amplificadores como ET (Envelope Tracking) o EER (Envelope Elimination and Restoration). El convertidor ha sido realizado con tecnología LDMOS y la técnica usada para controlarlo ha sido modulación PWM, creada mediante procesado digital y un generador de funciones. La potencia de salida es de hasta 125W de pico, con un rendimiento del 80%, un ancho de banda de hasta 2MHz y en las medidas de linealidad presenta una atenuación a los productos de intermodulación de tercer orden de más de 45 dBc

The design of a multilevel envelope tracking amplifier based on a multiphase buck converter

Envelope Tracking (ET) and Envelope Elimination and Restoration (EER) are techniques that have gained in importance in the last decade in order to obtain highly efficient Radio Frequency Power Amplifier (RFPA) that transmits signals with high Peak to Average Power Ratio (PAPR). In this work a multilevel multiphase buck converter is presented as a solution for the envelope amplifier used in ET and EER. The presented multiphase buck converter generates multilevel voltage using “node” duty cycles and non-linear control. In this way the multilevel is implemented using only one simple power stage. However, the complexity of the multilevel converter implementation has been shifted from complicated power topologies to complicated digital control. Detailed discussion regarding the influence of the design parameters (switching frequency, output filter, time resolution of the digital control) on the performance of the proposed envelope amplifier is presented. The design of the output filter is conducted fulfilling the constraints of the envelope slew rate and minimum driver pulse that can be reproduced. In the cases when these two constraints cannot be fulfilled, they may be relieved by the modified control that is presented and experimentally validated. Finally, in order to validate the concept, a prototype has been designed and integrated with a nonlinear class F amplifier. Efficiency measurements showed that by employing EER it is possible to save up to 15% of power losses, comparing to the case when it is supplied by a constant voltage. Additionally, Adjacent Channel Power Ratio (ACPR) has been measured. The obtained results showed the value higher than 30dB for signals up to 5 MHz of bandwidth, without using predistortion technique

Integración de un amplificador de RF de alto rendimiento con un amplificador de envolvente con red de cancelación de rizado mediante la técnica de EER

En este artículo se presenta la integración de un amplificador de envolvente de una etapa con un amplificador de clase E mediante la técnica de Kahn o Eliminación y restauración de envolvente (EER). Esta técnica se basa en la combinación de un amplificador de potencia conmutado de alto rendimiento alimentado por una fuente de alimentación modulada. El amplificador de envolvente se ha implementado con un convertidor reductor síncrono con red de cancelación de rizado, lo cual permite reducir la relación entre la frecuencia de conmutación y el ancho de banda de gran señal del amplificador de envolvente, que es uno de los factores de diseño más limitantes en esta aplicación. Para la mejora de la linealidad se ha usado la técnica de predistorsión realizándose una validación experimental. El amplificador de envolvente conmuta a 4MHz y el amplificador de clase E a 100MHz. El rendimiento total obtenido para una modulación de amplitud en cuadratura (QAM) es del 68%, con un relación de potencia del canal adyacente (ACPR) de 40dB. Para una modulación por multiplexación por división de frecuencias ortogonales (OFDM), se ha obtenido un rendimiento total del 57% y un ACPR de 32dB.