公开(公告)号：WO2018072016A1

公开(公告)日：2018-04-26

申请号：PCT/CA2017/051232

申请日：2017-10-17

Applicant: IMALOG INC.

Inventor： TREMBLAY, Marco

IPC: H02M7/217 ,  H02M1/08

Abstract: A hybrid rectifier is provided comprising a top diode for conducting current during a positive current portion of a line current, a top transistor connected in parallel to the top diode, a bottom diode for conducting current during a negative current portion of the line current, and a bottom transistor connected in parallel to the bottom diode. A hybrid- rectifier controller is connected to the top transistor and the bottom transistor for implementing a transistor control strategy such that, during the positive current portion of the line current, the top diode conducts current and the bottom transistor conducts current only when the line current is below a sinusoidal reference current. Similarly, during the negative current portion of the line current, the bottom diode conducts current and the top transistor conducts current only when the line current is above the sinusoidal reference current.

Abstract translation: 提供了一种混合整流器，其包括用于在线电流的正电流部分期间传导电流的顶部二极管，与顶部二极管并联连接的顶部晶体管，用于在负电流期间传导电流的底部二极管 线电流的电流部分，以及与底部二极管并联连接的底部晶体管。 混合整流器控制器连接到顶部晶体管和底部晶体管，用于实现晶体管控制策略，使得在线电流的正电流部分期间，顶部二极管传导电流，而底部晶体管仅在线电流 低于正弦参考电流。 类似地，在线电流的负电流部分期间，底部二极管传导电流，并且顶部晶体管仅在线电流高于正弦参考电流时才传导电流。

公开(公告)号：WO2016029302A1

公开(公告)日：2016-03-03

申请号：PCT/CA2015/050799

申请日：2015-08-21

Applicant: IMALOG INC.

Inventor： TREMBLAY, Marco

IPC: G01N25/28

CPC classification number: G01N25/28 ,  G01N33/0024 ,  G01N33/0039 ,  Y02A50/247

Abstract: The method for analyzing an ozone concentration comprising the steps of: providing at least one catalytic chamber having an ozone decomposition path between an inlet portion and an outlet portion thereof; receiving a sample flow of gas containing ozone by the inlet portion of the at least one catalytic chamber and along the ozone decomposition path; decomposing a totality of the ozone of the sample flow of gas into oxygen in an exothermic reaction along the ozone decomposition path of the catalytic chamber; measuring a first temperature value at a first position and measuring a second temperature value at a second position, the first and second positions being associated with the inlet and outlet portions; evaluating the ozone concentration of the sample flow of gas based on the temperature difference between the second temperature value and the first temperature value and calibration data; and generating a signal indicating the evaluated ozone concentration.

Abstract translation: 用于分析臭氧浓度的方法包括以下步骤：在入口部分和出口部分之间提供至少一个具有臭氧分解路径的催化室; 通过所述至少一个催化室的入口部分并且沿着所述臭氧分解路径接收含有臭氧的气体的样品流; 沿着催化室的臭氧分解路径，在放热反应中将气体的样品气体的总体臭氧分解为氧气; 测量第一位置处的第一温度值并在第二位置测量第二温度值，所述第一和第二位置与所述入口和出口部分相关联; 基于第二温度值和第一温度值与校准数据之间的温差来评估气体样品流的臭氧浓度; 并产生指示所评估的臭氧浓度的信号。

公开(公告)号：WO2015074155A1

公开(公告)日：2015-05-28

申请号：PCT/CA2014/051115

申请日：2014-11-24

Applicant: IMALOG INC.

Inventor： TREMBLAY, Marco ,  DI SCHIAVI, Antonio

IPC: C01B13/11 ,  H03K3/00

CPC classification number: B01J19/088 ,  C01B13/11 ,  C01B13/115 ,  C01B2201/90

Abstract: The power supply unit for an ozone generating system generally has a pulsed current generator generating current pulses to be supplied to an ozone generator; and a computer adapted for obtaining an ozone yield based on a first amount of ozone to be generated by the current pulses during a first period of time and on a first amount of electricity consumed by the power supply unit during the first period of time; modifying an amplitude of the current pulses based on the ozone yield; obtaining an ozone production rate based on a second amount of ozone generated during a second given period of time; adjusting a frequency of the current pulses based on the ozone production rate; and wherein said steps are executed iteratively to enhance the ozone yield while meeting the ozone production rate.

Abstract translation: 用于臭氧发生系统的电源单元通常具有产生电流脉冲以供应给臭氧发生器的脉冲电流发生器; 以及计算机，适于基于在第一时间段期间由电流脉冲产生的第一量的臭氧以及在第一时间段期间由电力供应单元消耗的第一电量来获得臭氧产量; 基于臭氧产量修改电流脉冲的振幅; 基于在第二给定时间段内产生的第二臭氧量获得臭氧产生率; 基于臭氧生产率调整电流脉冲的频率; 并且其中所述步骤被迭代地执行以在满足臭氧生产速率的同时提高臭氧产量。

公开(公告)号：EP3529887A1

公开(公告)日：2019-08-28

申请号：EP17861628.0

申请日：2017-10-17

Applicant: Imalog Inc.

Inventor： TREMBLAY, Marco

IPC: H02M7/217 ,  H02M1/08