Wide Input-Voltage Range Boost Three-Level DC–DC Converter With Quasi-Z Source for Fuel Cell Vehicles

“…As for a converter with 100 to 300 V input and 50 V output (used in the prototype), kT2 can be decided by (7) and the value is 16; according to (8), k T1 = 48.…”

“…Second, three-level (TL) dc-dc converters (TLDCs) are suitable topologies for high voltage applications due to only half the input voltage stress on the primary switches [4]. The first diode-clamped TLDC was proposed in 1992 [4], and then, many other efforts have been made on this topic, e.g., novel topologies and corresponding control strategies [4][5][6][7][8][9][10][11], wide range soft switching solutions [12][13][14][15][16] and reduced filter size solutions [16][17][18][19]. Finally, modular multilevel dc-dc converters (MMDCs) can also be used in high voltage applications [20].…”

Comparative Evaluation of Wide-Range Soft-Switching PWM Full-Bridge Modular Multilevel DC–DC Converters

“…As for a converter with 100 to 300 V input and 50 V output (used in the prototype), kT2 can be decided by (7) and the value is 16; according to (8), k T1 = 48.…”

“…Second, three-level (TL) dc-dc converters (TLDCs) are suitable topologies for high voltage applications due to only half the input voltage stress on the primary switches [4]. The first diode-clamped TLDC was proposed in 1992 [4], and then, many other efforts have been made on this topic, e.g., novel topologies and corresponding control strategies [4][5][6][7][8][9][10][11], wide range soft switching solutions [12][13][14][15][16] and reduced filter size solutions [16][17][18][19]. Finally, modular multilevel dc-dc converters (MMDCs) can also be used in high voltage applications [20].…”

Comparative Evaluation of Wide-Range Soft-Switching PWM Full-Bridge Modular Multilevel DC–DC Converters

“…Especially, the ripple reduction of the input current will be affected both in the lower and higher duty cycle ranges, which are not close to 0.5. A three-level Boost DC-DC converter with a quasi-Z source for fuel cell vehicles was proposed in [32]. Its duty cycles for the two power switches can be in the range of 0.5~0.75, which is close to 0.5.…”

“…According to (31) and the experimental parameters in TABLE II, when the input voltage is U in =40V, the control-to-output transfer function can be achieved from the time domain to the complex frequency as (32). (33), and H(s) is the feedback transfer function.…”

A Wide Input-Voltage Range Quasi-Z-Source Boost DC–DC Converter With High-Voltage Gain for Fuel Cell Vehicles

“…Fuel cells, as a source of electrical energy, have the following features: pollution-free operation, high-density current output, and high efficiency [1]. The fuel cell has a low output voltage, which requires a step-up dc-dc converter with a high-voltage gain to solve the voltage mismatch between the fuel cell and the dc-link bus of the three-phase inverter inside a car [2][3][4][5][6][7][8][9]. Fuel cells are unlike batteries, as they have soft output characteristics, in that their output voltage drops drastically when the output current increases [2].…”

A New Three-Level Flying-Capacitor Boost Converter with an Integrated LC2D Output Network for Fuel-Cell Vehicles: Analysis and Design