摘要:
A hybrid rectifier (14a) comprises a line-commutated diode rectifier (11) with a boost stage (L1, L2, D1, D2, S1) in series and a controlled rectifier (15, 16) working in parallel thereto connected to a 3-phase AC input (17) and a DC output (18). The controlled rectifier is choosen as a unidirectional 2-level "delta-switch" rectifier (15) or a 2-level "T-type" rectifier (16) as illustrated in figures 4 and 5 .
摘要:
A Voltage Source Converter (VSC) (10) with Neutral-Point-Clamped (NPC) topology with one or more phases, comprises: - an intermediate DC circuit (11) having at least a first and a second capacitance (C1, C2) connected in series between a positive terminal (P) and a negative terminal (N), providing a central tap terminal (0) between both capacitances (C1, C2), and - at least one sub-circuit (12) for generating one phase of an alternating voltage, each sub-circuit (12') comprising: o an AC terminal (13) for supplying a pulsed voltage; o a circuit arrangement (T1,..,T4; D 1 ,..,D 6 ) of the form of a conventional neutral-point-clamped converter (NPC), with a first series connection of at least two switches (T 1 , T 2 ) between said AC terminal (13) and said positive terminal (P), a second series connection of at least two switches (T 3 , T 4 ) between said AC terminal (13) said negative terminal (N), and switchable connections (D 5 , D 6 ) from said central tap terminal (0) to the centers of both two-switch series connections (T 1 , T 2 ; T 3 , T 4 ;); and ○ additional first and second auxiliary switches (T Ax1 , T Ax2 ) being assigned to said two-switch series connections (T 1 , T 2 ; T 3 , T 4 ).
Such a configuration has not only a higher efficiency, but can also overcome loss distribution issues of the typical 3-level systems, so that a remarkable increase of the converter output power and/or system reliability can be accomplished.
摘要:
Proposed is a method for the determination of a control scheme for a neutral point clamped (NPC) voltage source converter (VSC) with at least 3 levels, in particular as a shunt active power filter, with a topology of three bridge legs (21-23) between each of three phases (R,S,T) of a grid (11) and a neutral point (24), each leg (21-23) comprising at least four active switches (T1-T4), wherein there is provided a clamping carrier modulator (1) synchronized with the grid (1) for the control of no-switching intervals, said method comprising at least the following steps: analyzing the waveform of the grid and/or a load voltage (ILR) and determination of windows (3) defining an allowed period for no switching of the corresponding bridge leg; operating or simulating the operation of the voltage source converter with different clamping carrier modulator frequencies, and then analyzing the balance in the operating junction temperatures and/or power losses across the active switches and also analyzing the total losses of the voltage source converter; comparing the balance and the total losses of different clamping carrier modulator frequencies and selecting either the clamping carrier modulator frequency according to showing, as primary criterion, the better balance and, as secondary criterion, the lower total losses; operating or simulating the operation of the voltage source converter with the selected clamping carrier modulator frequency, while iteratively changing at least one of the following operating parameters of the voltage source converter: switching frequency, DC-link voltage reference, duty cycle of clamping carrier modulator, phase shift of the clamping carrier modulator relative to the grid, and optimizing the balance in the operating junction temperatures and/or power losses across the active switches and the total losses of the voltage source converter as a function of the adjustment of these operating parameters until reaching optimum operation parameters for the control scheme.
摘要:
The disclosure relates to a method for the scheduling and/or the operation of a system of at least two power supplies (11) providing DC pulses to a consumer (5), typically an electrostatic precipitator, wherein the power supplies (11) are energised by a common feeding (1). According to the proposed method one power supply (11) is defined to be the reference power supply, and the initial pulses of each further power supply (11) are shifted by controlled delays (δ Pri) with respect to the pulses of the reference power supply so as to fill the gaps between the pulses of the reference power supply by the pulses of the further power supplies (11).
摘要:
The disclosure relates to an electrostatic precipitator unit with at least two individual power supplies (11) for pulsed operation of electrostatic precipitators, wherein the power supplies (11) are powered by a common feeding (1), wherein each power supply (11) comprises a control unit (23), and wherein the control units are at least indirectly connected by communication lines (32) allowing for a controlled relative scheduling of the pulsed operation of the individual power supplies (11).