FRUIT RIPENESS DETECTION AND COLLECTION SYSTEM AND METHOD THEREOF

    公开(公告)号:MY174473A

    公开(公告)日:2020-04-21

    申请号:MYPI2011700198

    申请日:2011-12-19

    Applicant: MIMOS BERHAD

    Abstract: A fruit ripeness detection and collection system (100) at a fruit bearing tree is provided, the system (100) includes a fruit collection apparatus (103) which includes a plurality of enclosures (105) surrounding a base of the fruit bearing tree which further includes a plurality of filters (109) with decrementally sized holes towards a plurality of chambers (107) in holding detached fruits for each specific fruit bunch for a corresponding chamber, at least one weight sensor (111), wherein the weight sensor (111) is network connectible to a wireless transmitter (113) and a microcontroller (115), wherein data from weight sensor (111) is network connectible to a base station (117), such that notifications of harvest are sent and received.

    A CAPACITIVE HUMIDITY SENSOR
    3.
    发明专利

    公开(公告)号:MY172121A

    公开(公告)日:2019-11-14

    申请号:MYUI2013001818

    申请日:2013-05-17

    Applicant: MIMOS BERHAD

    Abstract: The present invention relates to a capacitive humidity sensor (100) comprising: a semiconductor substrate (101); an insulating layer (103) rests on the semiconductor substrate (101); a sensing membrane (105); a plurality of interdigitated electrodes (107); and a plurality of electrode contacts (109); characterised in that the present invention having ground plane connections (111) and the interdigitated electrodes (107) are sandwiched by the sensing membrane (105). The ground plane connections (111) and the sandwiching sensing membrane (105) are configured to eliminate stray capacitance and to provide optimal utilisation of fringing field effect respectively.

    DEVICE WITH CARBON NANOTUBE
    4.
    发明专利

    公开(公告)号:MY165691A

    公开(公告)日:2018-04-20

    申请号:MYPI2010700022

    申请日:2010-05-06

    Applicant: MIMOS BERHAD

    Abstract: THE PRESENT INVENTION PROVIDES A DEVICE WITH CARBON NANOTUBES WHEREIN THE NANOTUBES [20] ARE GROWN VERTICALLY ONTO THE SUBSTRATE SURFACE AND IN-BETWEEN THE FINGERS OF AN INTERDIGITAL STRUCTURE. THE COMPLETED ARRAY OF CONDUCTIVE INTERDIGITATED FINGERS WITH A PLURALITY OF THE VERTICAL CARBON NANOTUBES ARE THEN INTEGRATED AS AN INTERDIGITAL DEVICE WHERE THIS DEVICE OPERATES BASED ON THE FRINGING ELECTRIC FIELD EFFECTS. AT LEAST TWO CONDUCTIVE FINGERS [22] SPACED APART ACT AS ELECTRODES OF CAPACITOR. A PLURALITY OF CARBON NANOTUBES [20] IS VERTICALLY FORMED ON TOP OF CONDUCTIVE FINGERS OR BETWEEN CONDUCTIVE FINGERS. CARBON NANOTUBES HAVE PERMITTIVITY WHICH CHANGES ACCORDING TO ENVIRONMENT, HENCE AFFECTING CAPACITANCE MEASURED. DIFFERENT EMBODIMENTS OF DEVICE HAVING THE NANOTUBES PLACED IN TRENCH ARE SHOWN. THE CARBON NANOTUBE INTERDIGITAL DEVICE CAN OPERATE AS A SENSOR FOR APPLICATION IN AREAS OF AGRICULTURE, AQUACULTURE, ENVIRONMENTAL MONITORING AND BIOMEDICAL.

    A PRESSURE SENSOR WITH MAGNETIC NANOPARTICLES

    公开(公告)号:MY184622A

    公开(公告)日:2021-04-09

    申请号:MYPI2013702271

    申请日:2013-11-26

    Applicant: MIMOS BERHAD

    Abstract: The present invention relates to a piezoresistive pressure sensor which detects applied pressure by measuring the change of electrical conductivity of the magnetic nanoparticles (3) in response to the application of mechanical stress onto the diaphragm (1). The pressure sensor comprises conductive electrodes (2) formed on the diaphragm (1) which is provided on a substrate (4). Magnetic nanoparticles (3) are deposited on the conductive electrodes (2) for electrically connecting the conductive electrodes (2) and changing electrical conductivity when stress is applied.

    A METHOD FOR MONITORING ANTHESIS OF AN INFLORESCENCE AND A SYSTEM FOR IMPLEMENTING THE SAME

    公开(公告)号:MY183702A

    公开(公告)日:2021-03-09

    申请号:MYPI2013702363

    申请日:2013-12-04

    Abstract: The present invention relates to a method for monitoring anthesis of an inflorescence (1). The method comprises detecting the temperature of the inflorescence by having a main temperature sensor (2) installed adjacent to the inflorescence. The monitored temperature is transmitted to a decision support system (4) for determining whether anthesis has occurred. A notification is sent to a user if anthesis is determined to have occurred. The present invention also relates to a system for monitoring anthesis of an inflorescence. The system comprises a main temperature sensor (2) installed adjacent to the inflorescence (1) which has been covered, a transmissaon means for transmitting data on the temperature detected to a decision support system (4) so that anthesis can be determined.

    METAL ELECTRODE WITH HIGH ASPECT RATIO STRUCTURES AND METHOD OF FABRICATING THE SAME

    公开(公告)号:MY158780A

    公开(公告)日:2016-11-15

    申请号:MYPI2013701092

    申请日:2013-06-25

    Applicant: MIMOS BERHAD

    Abstract: DESCRIBED HEREIN IS A METAL ELECTRODE (100) HAVING AT LEAST ONE HIGH ASPECT RATIO STRUCTURE. THE METAL ELECTRODE (100) COMPRISES A SILICON LAYER (101) HAVING THE HIGH ASPECT RATIO STRUCTURE, AN OXIDE LAYER (102) ON TOP OF THE SILICON LAYER (101), AN ADHESIVE LAYER (103) ON TOP OF THE OXIDE LAYER (102), AND A METAL LAYER (104) ON TOP OF THE ADHESIVE LAYER (103). THE THICKNESS OF THE METAL LAYER (104) IS AT LEAST 15 TIMES LESSER THAN THE HEIGHT OF THE HIGH ASPECT RATIO STRUCTURE. DUE TO THIS PARTICULAR FEATURE, THE METAL LAYER (104) IS DEPOSITED ON TOP OF THE ADHESIVE LAYER (103) IN A SELF-ALIGNED MANNER, TAKING THE SHAPE OF THE HIGH ASPECT RATIO STRUCTURE, AND DISCONNECTED AT THE WALL OF THE HIGH ASPECT RATIO STRUCTURE. FURTHER, THE METAL ELECTRODE (100) CAN BE MODIFIED ACCORDINGLY TO SUIT DIFFERENT APPLICATIONS. ALSO DESCRIBED HEREIN IS A METHOD FOR FABRICATING THE AFOREMENTIONED METAL ELECTRODE (100). BEST ILLUSTRATIVE

    A CAPACITIVE HUMIDITY SENSOR
    9.
    发明申请
    A CAPACITIVE HUMIDITY SENSOR 审中-公开
    电容式湿度传感器

    公开(公告)号:WO2014185771A3

    公开(公告)日:2015-04-30

    申请号:PCT/MY2014000093

    申请日:2014-05-02

    Applicant: MIMOS BERHAD

    CPC classification number: G01N27/223

    Abstract: The present invention relates to a capacitive humidity sensor (100) comprising: a semiconductor substrate (101), an insulating layer (103) resting on the semiconductor substrate (101), a sensing membrane (105), a plurality of interdigitated electrodes (107) and a plurality of electrode contacts (109). The present invention has ground plane connections (111) and the interdigitated electrodes (107) are sandwiched by the sensing membrane (105). The ground plane connections (111) and the sandwiching sensing membrane (105) are configured to eliminate stray capacitance and to provide optimal utilisation of fringing field effect respectively.

    Abstract translation: 电容式湿度传感器技术领域本发明涉及一种电容式湿度传感器(100),包括:半导体衬底(101),保持在半导体衬底(101)上的绝缘层(103),感测膜(105),多个交叉指示电极 )和多个电极触点(109)。 本发明具有接地平面连接(111),并且叉指电极(107)被感测膜(105)夹在中间。 接地平面连接(111)和夹层感测膜(105)被配置为消除杂散电容并且分别提供边缘场效应的最佳利用。

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