A Distortion-Free All-Digital Transmitter Based on Noise-Shaped PWM

“…The f RF used in this paper is equivalent to the radio frequency carrier frequency, and the f P W M used refers to the PWM sampling frequency used to control the PWM signal. As can be seen from Table V, the architecture proposed in this paper is slightly improved compared with references [30] and [31]. For better EVM performance, references [30] and [31] set the ratio of PWM frequency to RF frequency to 192 times and 64 times respectively.…”

“…As can be seen from Table V, the architecture proposed in this paper is slightly improved compared with references [30] and [31]. For better EVM performance, references [30] and [31] set the ratio of PWM frequency to RF frequency to 192 times and 64 times respectively. In this paper, the lowest ratio of PWM frequency to RF frequency is only 5 times.…”

“…In this paper, the lowest ratio of PWM frequency to RF frequency is only 5 times. When traditional transmitters reduce the ratio of PWM frequency to RF frequency, likes references [30], the EVM will be degraded. The jitter-enhanced PWM technology used in this paper can reduce the requirement of PWM frequency without sacrificing performance, which also means that the frequency requirement of the switching power amplifier of the transmitter can be reduced accordingly.…”

An all-digital RF transmitter architecture based on jitter-enhanced PWM for flexible frequency applications

“…The f RF used in this paper is equivalent to the radio frequency carrier frequency, and the f P W M used refers to the PWM sampling frequency used to control the PWM signal. As can be seen from Table V, the architecture proposed in this paper is slightly improved compared with references [30] and [31]. For better EVM performance, references [30] and [31] set the ratio of PWM frequency to RF frequency to 192 times and 64 times respectively.…”

“…As can be seen from Table V, the architecture proposed in this paper is slightly improved compared with references [30] and [31]. For better EVM performance, references [30] and [31] set the ratio of PWM frequency to RF frequency to 192 times and 64 times respectively. In this paper, the lowest ratio of PWM frequency to RF frequency is only 5 times.…”

“…In this paper, the lowest ratio of PWM frequency to RF frequency is only 5 times. When traditional transmitters reduce the ratio of PWM frequency to RF frequency, likes references [30], the EVM will be degraded. The jitter-enhanced PWM technology used in this paper can reduce the requirement of PWM frequency without sacrificing performance, which also means that the frequency requirement of the switching power amplifier of the transmitter can be reduced accordingly.…”

An all-digital RF transmitter architecture based on jitter-enhanced PWM for flexible frequency applications

An FPGA RF PWM Modulator for ISM Bands

Harmonic Elimination Method of RF-PWM Based on Phase-Shift Control and MPWM for All-Digital Transmitters