Abstract
Digital pulse width modulator is an integral part in digitally controlled Direct Current to Direct Current (DC-DC) converter utilized in modern portable devices. This paper presents a new Digital Pulse Width Modulator (DPWM) architecture for DC-DC converter using mealy finite state machine with gray code encoding scheme and one hot encoding method to derive the variable duty cycle Pulse Width Modulation (PWM) signal without varying the clock frequency. To verify the proposed DPWM technique, the architecture with control input of six, five and four bits are implemented and the maximum operating frequency along with power consumption results is obtained for different Field Programmable Gate Array (FPGA) devices. The post layout timing results are presented showing that architecture can work with maximum frequency of 326 MHz and derive PWM signal of 3.59 MHz. Experimental results show the implementation of the proposed architecture in low-cost FPGA (Spartan 3A) with on-board oscillator clock frequency of 12 MHz which is multiplied internally by two with Digital Clock Manager (DCM) and derive the PWM signal of 1.5 MHz with a time resolution of 1 ps.
Highlights
In recent years, portable devices take a superior place in the modern electronic world
The proposed Digital Pulse Width Modulators (DPWM) architecture for different control input values is designed with Verilog Hardware language and experimental results are obtained with Spartan 3A Field Programmable Gate Array (FPGA)
This set and reset condition of flip-flop derives the Pulse Width Modulation technique (PWM) signal of 50% duty cycle and again for control input of (1100)2, D15 bit of one hot encoder is connected to the set input of SR flip-flop and D12 bit of one hot encoder is connected to the reset input of SR flip-flop which derives PWM signal of 81.2%
Summary
Portable devices take a superior place in the modern electronic world. (2016) FPGA-Based High-Frequency Digital Pulse Width Modulator Architecture for DC-DC Converters. Pulse Width Modulation technique (PWM) becomes crucial in power converters to control the amount of voltage delivered [3] [4]. Digital Pulse Width Modulators (DPWM) are implemented in FPGA and can be used as digital switching controller for the power converters [5]. PWM signals generated by DPWM can be used to control the switch of a power converter and modulate the output voltage of DC-DC converters
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