公开(公告)号：US08450017B2

公开(公告)日：2013-05-28

申请号：US12961812

申请日：2010-12-07

Applicant: To-Wei Huang ,  Ting-Kuan Li ,  Zhan-Yi Lin ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： To-Wei Huang ,  Ting-Kuan Li ,  Zhan-Yi Lin ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: C01D7/00 ,  C01G21/14 ,  C01B31/32 ,  H04Q5/22 ,  G05B11/01

CPC classification number: H01M8/04029 ,  H01M8/04067 ,  H01M8/0432 ,  H01M8/0438 ,  H01M8/04701 ,  H01M8/04746 ,  H01M2250/10 ,  H01M2250/405 ,  H04Q2213/13095 ,  Y02B90/14 ,  Y02B90/16

Abstract: The present invention discloses a fuel-cell-based cogeneration system with radio frequency identification (RFID) sensors. The fuel-cell-based cogeneration system with RFID sensors includes the fuel-cell-based cogeneration system and an RFID data processing system. The RFID data processing system captures data of the temperature and flow rate from the RFID sensors, while the system data are in turn converted into RFID signals. The RFID data processing system transmits a control signal generated from the RFID signal to control the operation of the fuel-cell-based cogeneration system. Since the RFID transmission technology, the sensor error caused by wires is consequently reduced. Furthermore, overall sensitivity and accuracy of the RFID sensors are increased, which leads to an accompanying increase in the stability of the operating system.

Abstract translation: 本发明公开了一种具有射频识别（RFID）传感器的基于燃料电池的热电联产系统。 具有RFID传感器的基于燃料电池的热电联产系统包括基于燃料电池的热电联产系统和RFID数据处理系统。 RFID数据处理系统捕获来自RFID传感器的温度和流速的数据，同时将系统数据转换成RFID信号。 RFID数据处理系统发送从RFID信号生成的控制信号，以控制基于燃料电池的热电联供系统的运行。 由于RFID传输技术，导线引起的传感器误差因此降低。 此外，RFID传感器的整体灵敏度和精度都增加，这导致操作系统的稳定性的相应增加。

公开(公告)号：US08471409B2

公开(公告)日：2013-06-25

申请号：US13036406

申请日：2011-02-28

Applicant: Jin-Ming Chang ,  Zhan-Yi Lin ,  Chen-Kun Chou ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： Jin-Ming Chang ,  Zhan-Yi Lin ,  Chen-Kun Chou ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: H02M7/537

CPC classification number: H02J3/382 ,  H02J3/386 ,  H02M2001/0003 ,  H02M2001/007 ,  Y02E10/763 ,  Y10T307/735

Abstract: The present invention discloses a power conversion circuit. A control module controls a pulse width modulation regulator to regulate a duty cycle of a DC-DC converter according to the direct current link voltage of the DC-DC converter and the output current and voltage of a renewable power supply. The control module also controls the pulse width modulation regulator to regulate a duty cycle of a DC-AC inverter according to the direct current link voltage of the DC-DC converter, output voltage of a utility power supply, and the output current and voltage of the renewable power supply.

Abstract translation: 本发明公开了一种电力转换电路。 控制模块控制脉冲宽度调制调节器，以根据DC-DC转换器的直流链路电压和可再生电源的输出电流和电压来调节DC-DC转换器的占空比。 控制模块还控制脉宽调制调节器，根据DC-DC转换器的直流链路电压，公用电源的输出电压以及输出电流和电压的输出电流和电压来调节DC-AC逆变器的占空比 可再生电力供应。

公开(公告)号：US08310215B2

公开(公告)日：2012-11-13

申请号：US12777437

申请日：2010-05-11

Applicant: Chen-Kun Chou ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Chi-Bin Wu

Inventor： Chen-Kun Chou ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Chi-Bin Wu

IPC: G05F1/70

CPC classification number: G05F1/575

Abstract: A linear modulation voltage transformer circuitry includes a power stage unit, a voltage division unit, a linear modulation unit, an error amplifier, and a recursive controller. The power stage unit adapts an input voltage and outputs a first voltage to the voltage division unit, which outputs a divided voltage. The linear modulation unit receives the divided voltage, compares it with a control voltage, and outputs an error voltage signal to the error amplifier, which amplifies the error voltage signal as an error gain control signal. The recursive controller receives and modulates the error gain control signal and outputs the modulation error gain control signal to the power stage unit as a reference signal so as for the power stage unit to modulate the first voltage. Thus, the first voltage can be varied in real time via the linear modulation unit to meet load demands.

Abstract translation: 线性调制电压互感器电路包括功率级单元，分压单元，线性调制单元，误差放大器和递归控制器。 功率级单元适应输入电压，并向分压单元输出第一电压，分压单元输出分压。 线性调制单元接收分压，将其与控制电压进行比较，并将误差电压信号输出到误差放大器，该误差放大器将误差电压信号放大为误差增益控制信号。 递归控制器接收并调制误差增益控制信号，并将调制误差增益控制信号输出到功率级单元作为参考信号，以使功率级单元调制第一电压。 因此，可以经由线性调制单元实时地改变第一电压以满足负载需求。

公开(公告)号：US20120105206A1

公开(公告)日：2012-05-03

申请号：US12961812

申请日：2010-12-07

Applicant: To-Wei Huang ,  Ting-Kuan Li ,  Zhan-Yi Lin ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： To-Wei Huang ,  Ting-Kuan Li ,  Zhan-Yi Lin ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: H04Q5/22

CPC classification number: H01M8/04029 ,  H01M8/04067 ,  H01M8/0432 ,  H01M8/0438 ,  H01M8/04701 ,  H01M8/04746 ,  H01M2250/10 ,  H01M2250/405 ,  H04Q2213/13095 ,  Y02B90/14 ,  Y02B90/16

Abstract: The present invention discloses a fuel-cell-based cogeneration system with radio frequency identification (RFID) sensors. The fuel-cell-based cogeneration system with RFID sensors includes the fuel-cell-based cogeneration system and an RFID data processing system. The RFID data processing system captures data of the temperature and flow rate from the RFID sensors, while the system data are in turn converted into RFID signals. The RFID data processing system transmits a control signal generated from the RFID signal to control the operation of the fuel-cell-based cogeneration system. Since the RFID transmission technology, the sensor error caused by wires is consequently reduced. Furthermore, overall sensitivity and accuracy of the RFID sensors are increased, which leads to an accompanying increase in the stability of the operating system.

Abstract translation: 本发明公开了一种具有射频识别（RFID）传感器的基于燃料电池的热电联产系统。 具有RFID传感器的基于燃料电池的热电联产系统包括基于燃料电池的热电联产系统和RFID数据处理系统。 RFID数据处理系统捕获来自RFID传感器的温度和流速的数据，同时将系统数据转换成RFID信号。 RFID数据处理系统发送从RFID信号生成的控制信号，以控制基于燃料电池的热电联供系统的运行。 由于RFID传输技术，导线引起的传感器误差因此降低。 此外，RFID传感器的整体灵敏度和精度都增加，这导致操作系统的稳定性的相应增加。

公开(公告)号：US20120019071A1

公开(公告)日：2012-01-26

申请号：US12915558

申请日：2010-10-29

Applicant: Zhan-Yi Lin ,  Jin-Ming Chang ,  To-Wei Huang ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： Zhan-Yi Lin ,  Jin-Ming Chang ,  To-Wei Huang ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: H02J9/06

CPC classification number: H02J9/061 ,  H02J7/34 ,  H02J2001/004 ,  Y02B90/14 ,  Y10T307/62

Abstract: A backup power system with a fuel cell and a control method thereof are provided. The control method includes the steps of: setting a default variation value; determining whether power interruption has happened to a grid power module; determining whether a load is functioning; performing a limiting step; and controlling the output of a fuel cell system. With the control method, the fuel cell system functions as a backup power system configured for grid power, and the fuel cell system generates power in response to variation of the load.

Abstract translation: 提供了具有燃料电池的备用电力系统及其控制方法。 该控制方法包括以下步骤：设置默认变化值; 确定电网电源模块是否发生电源中断; 确定负载是否正常运行; 执行限制步骤; 以及控制燃料电池系统的输出。 利用控制方法，燃料电池系统用作配置用于电网电力的备用电力系统，并且燃料电池系统响应于负载的变化而发电。

公开(公告)号：US20110265981A1

公开(公告)日：2011-11-03

申请号：US12792760

申请日：2010-06-03

Applicant: Zong-Ji Chen ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Zhan-Yi Lin ,  Chi-Bin Wu

Inventor： Zong-Ji Chen ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Zhan-Yi Lin ,  Chi-Bin Wu

IPC: F28F27/00 ,  F28D15/00

CPC classification number: H01M8/04723 ,  H01M8/04029 ,  H01M2250/405 ,  Y02B90/16

Abstract: The present invention discloses a system for recycling thermal energy generated from a fuel cell module. The system includes the fuel cell module, a thermal module, a heat-recycle module, and a control module. The thermal module includes a heat transfer apparatus. In addition, the thermal module connects with the fuel cell module, and the heat-recycle module connects with the heat transfer apparatus. The control module detects a starting signal of the fuel cell module and controls the thermal module and the heat-recycle module. Thereby, the thermal energy generated from the fuel cell module is transferred to the heat-recycle module.

Abstract translation: 本发明公开了一种用于再循环由燃料电池模块产生的热能的系统。 该系统包括燃料电池模块，热模块，热循环模块和控制模块。 热模块包括传热装置。 另外，热模块与燃料电池模块连接，热再循环模块与传热装置连接。 控制模块检测燃料电池模块的启动信号并控制热模块和热循环模块。 由此，从燃料电池模块产生的热能转移到热再循环模块。

公开(公告)号：US20120169127A1

公开(公告)日：2012-07-05

申请号：US13017656

申请日：2011-01-31

Applicant: Zhan-Yi LIN ,  Jin-Ming Chang ,  Chen-Kun Chou ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： Zhan-Yi LIN ,  Jin-Ming Chang ,  Chen-Kun Chou ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: H02J9/00 ,  H01M8/06

CPC classification number: H02J9/061 ,  H01M8/04955 ,  H01M8/04992 ,  H01M8/06 ,  H01M10/46 ,  H01M16/006 ,  H02J2001/004 ,  Y02B90/14 ,  Y10T307/625

Abstract: A power supply system and a fuel cell backup power system thereof are provided. The power supply system includes: a mains power supply module for providing mains electricity to a load, and a fuel cell backup power system for providing electricity to the load while the mains electricity provided by the mains power supply module is insufficient. The fuel cell backup power system includes a fuel cell system, a power conditioning module, a battery, and a controller. The fuel cell system and the battery output first and second electrical energy, respectively. The controller defines a plurality of output power requirement levels for the fuel cell system, reads the power required by the load, and adjusts the output ratio between the first and the second electrical energy in a stepwise manner according to the output power requirement levels so as to meet the power required by the load.

Abstract translation: 提供了电源系统及其燃料电池备用电力系统。 电源系统包括：用于向负载提供主电源的主电源模块和用于在由主电源模块提供的主电源不足时向负载提供电力的燃料电池备用电力系统。 燃料电池备用电力系统包括燃料电池系统，功率调节模块，电池和控制器。 燃料电池系统和电池分别输出第一和第二电能。 控制器定义燃料电池系统的多个输出功率需求水平，读取负载所需的功率，并根据输出功率需求水平逐步调整第一和第二电能之间的输出比，以便 以满足负载所需的功率。

公开(公告)号：US20120102988A1

公开(公告)日：2012-05-03

申请号：US12968644

申请日：2010-12-15

Applicant: Zong-Ji Chen ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： Zong-Ji Chen ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: F25B15/00

CPC classification number: F25B49/046

Abstract: The present invention discloses a method for controlling an adsorption air conditioning equipment. To execute consecutive programs, the adsorption air conditioning equipment performs the steps of: selecting one of a plurality of operation programs according to an execution sequence such that the selected operation program acts as an executable operation program; enabling at least two adsorption beds to operate in response to an executed operation program; switching to the next operation program in the execution sequence according to the operation time of the executed operation program such that the next operation program acts as the next executable operation program; controlling the switching of a plurality of valves according to the executed operation program; enabling the adsorption beds to operate in response to the executed operation program; and switching and executing the operation programs repeatedly until all the operation programs in the execution sequence are completely executed.

Abstract translation: 本发明公开了一种吸附空调设备的控制方法。 为了执行连续的程序，吸附空气调节装置执行以下步骤：根据执行顺序选择多个操作程序中的一个，使得所选择的操作程序作为可执行操作程序; 使至少两个吸附床响应于执行的操作程序而操作; 根据执行的操作程序的操作时间切换到执行序列中的下一个操作程序，使得下一个操作程序充当下一个可执行操作程序; 根据执行的操作程序控制多个阀的切换; 使吸附床响应于执行的操作程序而操作; 并且重复地切换和执行操作程序，直到执行序列中的所有操作程序被完全执行。

公开(公告)号：US20110156665A1

公开(公告)日：2011-06-30

申请号：US12777437

申请日：2010-05-11

Applicant: Chen-Kun Chou ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Chi-Bin Wu

Inventor： Chen-Kun Chou ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Chi-Bin Wu

IPC: G05F1/10

CPC classification number: G05F1/575

Abstract: A linear modulation voltage transformer circuitry includes a power stage unit, a voltage division unit, a linear modulation unit, an error amplifier, and a recursive controller. The power stage unit adapts an input voltage and outputs a first voltage to the voltage division unit, which outputs a divided voltage. The linear modulation unit receives the divided voltage, compares it with a control voltage, and outputs an error voltage signal to the error amplifier, which amplifies the error voltage signal as an error gain control signal. The recursive controller receives and modulates the error gain control signal and outputs the modulation error gain control signal to the power stage unit as a reference signal so as for the power stage unit to modulate the first voltage. Thus, the first voltage can be varied in real time via the linear modulation unit to meet load demands.

Abstract translation: 线性调制电压互感器电路包括功率级单元，分压单元，线性调制单元，误差放大器和递归控制器。 功率级单元适应输入电压，并向分压单元输出第一电压，分压单元输出分压。 线性调制单元接收分压，将其与控制电压进行比较，并将误差电压信号输出到误差放大器，该误差放大器将误差电压信号放大为误差增益控制信号。 递归控制器接收并调制误差增益控制信号，并将调制误差增益控制信号输出到功率级单元作为参考信号，以使功率级单元调制第一电压。 因此，可以经由线性调制单元实时地改变第一电压以满足负载需求。

公开(公告)号：US20120170336A1

公开(公告)日：2012-07-05

申请号：US13036406

申请日：2011-02-28

Applicant: Jin-Ming Chang ,  Zhan-Yi Lin ,  Chen-Kun Chou ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： Jin-Ming Chang ,  Zhan-Yi Lin ,  Chen-Kun Chou ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: H02M7/539

CPC classification number: H02J3/382 ,  H02J3/386 ,  H02M2001/0003 ,  H02M2001/007 ,  Y02E10/763 ,  Y10T307/735

Abstract: The present invention discloses a power conversion circuit. A control module controls a pulse width modulation regulator to regulate a duty cycle of a DC-DC converter according to the direct current link voltage of the DC-DC converter and the output current and voltage of a renewable power supply. The control module also controls the pulse width modulation regulator to regulate a duty cycle of a DC-AC inverter according to the direct current link voltage of the DC-DC converter, output voltage of a utility power supply, and the output current and voltage of the renewable power supply.

Abstract translation: 本发明公开了一种电力转换电路。 控制模块控制脉冲宽度调制调节器，以根据DC-DC转换器的直流链路电压和可再生电源的输出电流和电压来调节DC-DC转换器的占空比。 控制模块还控制脉宽调制调节器，根据DC-DC转换器的直流链路电压，公用电源的输出电压以及输出电流和电压的输出电流和电压来调节DC-AC逆变器的占空比 可再生电力供应。