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公开(公告)号:US20160343242A1
公开(公告)日:2016-11-24
申请号:US14717569
申请日:2015-05-20
Applicant: Google Inc.
Inventor: Daniel Adam Warren , Lawrence Frederick Heyl , Edwin H. Satterthwaite, JR. , Steven Clark , Andrew W. Goldenson , Dietrich Ho , Nicholas Unger Webb , Julia DeIuliis , Tyler Moore
IPC: G08B29/12
CPC classification number: G08B29/126 , G08B5/36 , G08B25/009
Abstract: Systems and methods for self-administering a sound test to verify operation of a speaker and/or alarm within a hazard detection system are described herein. The sound test can verify that the audible sources such as the alarm and speaker operate at the requisite loudness and frequencies. In addition, the sound test can be self-administered in that it does not require the presence of a person to initiate or verify that the audible sources are functioning properly.
Abstract translation: 本文描述了用于自我管理声音测试以验证危害检测系统内的扬声器和/或警报器的操作的系统和方法。 声音测试可以验证报警器和扬声器等声源可以在必要的响度和频率下工作。 此外,声音测试可以是自我管理的,因为它不需要有人发起或验证声音来源正常工作。
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公开(公告)号:US20160138823A1
公开(公告)日:2016-05-19
申请号:US15006969
申请日:2016-01-26
Applicant: Google Inc.
Inventor: Daniel Adam Warren , Ian C. Smith , Edwin H. Satterthwaite, JR. , Joseph E. Palmer
IPC: F24F11/00
CPC classification number: F24F11/0012 , B01D46/0086 , F24D19/10 , F24D19/1084 , F24F11/30 , F24F11/32 , F24F11/39 , F24F11/46 , F24F11/47 , F24F11/52 , F24F11/56 , F24F11/61 , F24F11/62 , F24F11/63 , F24F11/64 , F24F11/89 , F24F2110/00 , F24F2110/10 , F24F2120/10 , F24F2120/20 , F24F2130/40 , F24F2140/60 , G05B13/0265 , G05B15/02 , G05D23/19 , G05D23/1902 , G05D23/1917 , H01R9/2416 , H04W4/70 , Y02B10/20 , Y02B10/70 , Y02D70/12 , Y02D70/122 , Y02D70/142 , Y02D70/144 , Y02D70/162 , Y10T29/49826
Abstract: A method of harvesting power from a heating, ventilation, and air conditioning (HVAC) system using an HVAC controller may include harvesting power from the HVAC system and measuring an electrical characteristic of the HVAC controller. The electrical characteristic may indicate whether the power harvested from the HVAC system is high enough to risk interfering with a normal operation of the HVAC system. The method may also include increasing the power harvested from the HVAC system until the electrical characteristic indicates that the HVAC controller is at risk of interfering with the normal operation of the HVAC system.
Abstract translation: 使用HVAC控制器从采暖,通风和空调(HVAC)系统收集电力的方法可包括从HVAC系统采集功率并测量HVAC控制器的电气特性。 电气特性可以指示从HVAC系统收集的功率是否高到足以危及HVAC系统的正常操作的风险。 该方法还可以包括增加从HVAC系统收集的功率,直到电气特性指示HVAC控制器处于干扰HVAC系统的正常操作的风险。
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公开(公告)号:US20150022349A1
公开(公告)日:2015-01-22
申请号:US14333840
申请日:2014-07-17
Applicant: Google Inc.
Inventor: Ian C. Smith , Daniel Adam Warren , Scott Mullins , Brian Jonathan Conner
CPC classification number: G05F1/46 , G06F1/3203 , G06F1/3287 , G08B17/10 , G08B17/117 , G08B21/18 , G08B25/08 , G08B25/10 , H02J1/06 , H02M2001/008 , H03K2217/0036 , Y02D10/171 , Y02P80/11 , Y10T307/367 , Y10T307/461
Abstract: Hazard detection systems according to embodiments described herein are operative to provide failsafe safety detection features and user interface features using circuit topology and power budgeting methods that minimize power consumption. The safety detection features can monitor environmental conditions (e.g., smoke, heat, humidity, carbon monoxide, carbon dioxide, radon, and other noxious gasses) in the vicinity of the hazard detection system associated and alarm occupants when an environmental condition exceeds a predetermined threshold.
Abstract translation: 根据本文描述的实施例的危险检测系统可操作以使用最小化功耗的电路拓扑和功率预算方法来提供故障安全检测特征和用户接口特征。 当环境条件超过预定阈值时,安全检测功能可以监测相关危险检测系统和报警占有者附近的环境条件(例如烟,热,湿度,一氧化碳,二氧化碳,氡气和其他有害气体) 。
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公开(公告)号:US20150021993A1
公开(公告)日:2015-01-22
申请号:US14333960
申请日:2014-07-17
Applicant: GOOGLE INC.
Inventor: Ian C. Smith , Daniel Adam Warren , Scott Mullins , Brian Jonathan Conner
IPC: H02J1/06
CPC classification number: G05F1/46 , G06F1/3203 , G06F1/3287 , G08B17/10 , G08B17/117 , G08B21/18 , G08B25/08 , G08B25/10 , H02J1/06 , H02M2001/008 , H03K2217/0036 , Y02D10/171 , Y02P80/11 , Y10T307/367 , Y10T307/461
Abstract: Hazard detection systems according to embodiments described herein are operative to provide failsafe safety detection features and user interface features using circuit topology and power budgeting methods that minimize power consumption. The safety detection features can monitor environmental conditions (e.g., smoke, heat, humidity, carbon monoxide, carbon dioxide, radon, and other noxious gasses) in the vicinity of the hazard detection system associated and alarm occupants when an environmental condition exceeds a predetermined threshold.
Abstract translation: 根据本文描述的实施例的危险检测系统可操作以使用最小化功耗的电路拓扑和功率预算方法来提供故障安全检测特征和用户接口特征。 当环境条件超过预定阈值时,安全检测功能可以监测相关危险检测系统和报警占有者附近的环境条件(例如烟,热,湿度,一氧化碳,二氧化碳,氡气和其他有害气体) 。
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公开(公告)号:US09958885B2
公开(公告)日:2018-05-01
申请号:US14333960
申请日:2014-07-17
Applicant: Google Inc.
Inventor: Ian C. Smith , Daniel Adam Warren , Scott Mullins , Brian Jonathan Conner
IPC: G05F1/46 , G08B17/117 , G08B25/08 , G08B25/10 , H02J1/06 , G08B17/10 , G06F1/32 , G08B21/18 , H02M1/00
CPC classification number: G05F1/46 , G06F1/3203 , G06F1/3287 , G08B17/10 , G08B17/117 , G08B21/18 , G08B25/08 , G08B25/10 , H02J1/06 , H02M2001/008 , H03K2217/0036 , Y02D10/171 , Y02P80/11 , Y10T307/367 , Y10T307/461
Abstract: Hazard detection systems according to embodiments described herein are operative to provide failsafe safety detection features and user interface features using circuit topology and power budgeting methods that minimize power consumption. The safety detection features can monitor environmental conditions (e.g., smoke, heat, humidity, carbon monoxide, carbon dioxide, radon, and other noxious gasses) in the vicinity of the hazard detection system associated and alarm occupants when an environmental condition exceeds a predetermined threshold.
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Patent Agency Ranking
公开(公告)号:US09903814B2
公开(公告)日:2018-02-27
申请号:US14986452
申请日:2015-12-31
Applicant: Google Inc.
Inventor: Daniel Adam Warren , Ian C. Smith , Morakinyo John Aina , Andrew W. Goldenson , Dietrich Ho , Anurag Gupta
IPC: G08B21/00 , G01N21/53 , G01K7/00 , G08B17/107
CPC classification number: G01N21/53 , G01K7/00 , G01K7/01 , G01K2217/00 , G01N2201/062 , G01N2201/1211 , G08B17/107
Abstract: Apparatus, systems, methods, and related computer program products for handling temperature variation with optoelectronic components of a hazard detection system are described herein. A power characteristic of an optoelectronic component of the hazard detection system may be used to determine a temperature of an environment of the hazard detection system. A power characteristic of an optoelectronic component of the hazard detection system may be used to determine a smoke condition of an environment of the hazard detection system. Optoelectronic components of the hazard detection system may be optically coupled to determine a smoke condition of an environment of the hazard detection system. Multiple optoelectronics of the hazard detection system may be operative to detect forward scatter and back scatter of one or more types of light to determine a characteristic of a hazard particle.
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公开(公告)号:US09898922B2
公开(公告)日:2018-02-20
申请号:US15244949
申请日:2016-08-23
Applicant: Google Inc.
Inventor: Daniel Adam Warren , Lawrence Frederick Heyl , Edwin H. Satterthwaite, Jr. , Steven Clark , Andrew W. Goldenson , Dietrich Ho , Nicholas Unger Webb , Julia Deluliis , Tyler Moore , Ben Manuto
CPC classification number: G08B29/126 , G08B17/10 , G08B29/10 , H04R3/00 , H04R29/001
Abstract: Systems and methods for self-administering a sound test to verify operation of a speaker and/or alarm within a hazard detection system are described herein. The sound test can verify that the audible sources such as the alarm and speaker operate at the requisite loudness and frequencies. In addition, the sound test can be self-administered in that it does not require the presence of a person to initiate or verify that the audible sources are functioning properly.
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公开(公告)号:US09740385B2
公开(公告)日:2017-08-22
申请号:US14922832
申请日:2015-10-26
Applicant: Google Inc.
Inventor: Anthony Michael Fadell , Matthew Lee Rogers , Edwin H. Satterthwaite, Jr. , Ian C. Smith , Daniel Adam Warren , Joseph E. Palmer , Shigefumi Honjo , Grant M. Ericson , Jonathan Alan Dutra , Hugo Fiennes
IPC: G05B21/00 , G06F3/0484 , F24F11/02 , G01R31/26 , F24F11/00 , G05D23/19 , G06F3/0487 , G01J5/00 , G01J5/04 , G06N99/00 , H04L29/08 , G01K1/02 , G05B15/02 , G05D23/24 , G05D23/275 , G05D23/27 , G06F1/32 , G06F3/02 , G06F3/042 , G06F3/01 , G06F3/03 , G06F3/0362 , G06F3/0482 , G06F3/16 , H01H25/06
CPC classification number: G06F3/04847 , F24F11/00 , F24F11/30 , F24F11/46 , F24F11/47 , F24F11/50 , F24F11/52 , F24F11/56 , F24F11/58 , F24F11/62 , F24F11/63 , F24F11/70 , F24F11/89 , F24F2110/00 , F24F2110/10 , F24F2120/10 , F24F2120/12 , F24F2120/14 , F24F2140/60 , G01J5/0025 , G01J5/041 , G01K1/02 , G01R31/26 , G05B15/02 , G05D23/19 , G05D23/1902 , G05D23/1919 , G05D23/1932 , G05D23/24 , G05D23/2454 , G05D23/27 , G05D23/275 , G06F1/3231 , G06F1/3265 , G06F3/011 , G06F3/02 , G06F3/0304 , G06F3/0362 , G06F3/042 , G06F3/0482 , G06F3/04842 , G06F3/0487 , G06F3/167 , G06N99/005 , H01H25/06 , H04L67/10 , Y02D70/00 , Y02T10/88
Abstract: A thermostat for controlling an HVAC system in an enclosure may include a passive infrared sensor, an active infrared sensor, and an electronic display having a first mode and a second mode. The thermostat may also include one or more processors programmed to change a setpoint temperature of the thermostat to an energy-saving temperature upon detection of a non-occupancy condition for the enclosure. The processor(s) may detect the non-occupancy condition based at least in part on readings received from the passive infrared sensor. The processor(s) may also be programmed to change the electronic display from the first mode to the second mode upon detection of a person approaching the thermostat. The processor(s) may detect a person approaching the thermostat based at least in part on readings received from the active infrared sensor.
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公开(公告)号:US09710001B2
公开(公告)日:2017-07-18
申请号:US14333862
申请日:2014-07-17
Applicant: Google Inc.
Inventor: Ian C. Smith , Daniel Adam Warren , Scott Mullins , Brian Jonathan Conner
IPC: G05F1/46 , H02J1/06 , H02J7/00 , G08B17/10 , G08B21/18 , G06F1/32 , G08B25/10 , G08B17/117 , G08B25/08
CPC classification number: G05F1/46 , G06F1/3203 , G06F1/3287 , G08B17/10 , G08B17/117 , G08B21/18 , G08B25/08 , G08B25/10 , H02J1/06 , H02M2001/008 , H03K2217/0036 , Y02D10/171 , Y02P80/11 , Y10T307/367 , Y10T307/461
Abstract: Hazard detection systems according to embodiments described herein are operative to provide failsafe safety detection features and user interface features using circuit topology and power budgeting methods that minimize power consumption. The safety detection features can monitor environmental conditions (e.g., smoke, heat, humidity, carbon monoxide, carbon dioxide, radon, and other noxious gasses) in the vicinity of the hazard detection system associated and alarm occupants when an environmental condition exceeds a predetermined threshold.
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公开(公告)号:US20170193762A1
公开(公告)日:2017-07-06
申请号:US14985080
申请日:2015-12-30
Applicant: Google Inc.
Inventor: Daniel Adam Warren , Lawrence Frederick Heyl , Dietrich Ho , Morakinyo John Aina , Ian C. Smith , William Saperstein , Bhaskar Vadathavoor
CPC classification number: G08B3/10 , G08B29/18 , H04R3/00 , H04R17/00 , H04R2430/01
Abstract: Systems for ensuring an audible alarm circuit sounds at a minimum magnitude of loudness are provided. Different circuitry embodiments discussed herein are each capable of assisting the audible alarm circuit in maintaining a minimum loudness threshold. Audible alarm circuit operation optimization can be achieved using embodiments that fall within anyone of four general categories: compensation networks, direct drive, dynamic tuning, and microphone feedback based dynamic tuning. Use of such circuitry can increase production yields by compensating for manufacturing variations of alarm components and aging characteristics of the components.
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