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the overlap of electrodes or wirings(passive) caused bycapacitance
electrodes and wiring(passive) caused bythe capacitance
the difference in threshold voltage(passive) caused bycapacitance
the electrodes or conductorscomposingthe capacitance
dielectric layer 50 in this manner(passive) caused bythe capacitance
an electrode or a wiring(passive) caused bycapacitance
electrodes included in the plurality of electrodes(passive) caused bycapacitance
the electrodes of the pressure transducer(passive) created bycapacitance
the capacitor electrodes(passive) created bythe capacitance
the contact of the object(passive) caused bythe capacitance
the proximity ( proximity ) of the finger of the operator(passive) caused bycapacitance
a change of the relative distance between the electrodes which is caused by a contact of the finger with the sample(passive) caused bythe capacitance
the approach or contact of a portion of a human body to the input electrode(passive) caused bycapacitance
the world of the surfaces , style of dielectric(passive) is set byThe capacitance
an external noise other than the approach or contact of a portion of a human body(passive) caused bycapacitance
the presence of the finger over the touch pad(passive) caused bycapacitance
the dielectric 201 with capacitance contributed by the air layer 208(passive) contributed bythe capacitance
gate dielectric layer 46(passive) is caused bythe capacitance
the volume of cell membranes and transport tissue between the electrodes(passive) set bycapacitance
the presence of the material(passive) created byThe capacitance
the electrodes in response thereto(passive) created bythe capacitance
a human touch at a touch sensitive control point of the device or appliance to be regulated(passive) caused bycapacitance
the silicon oxide film 6(passive) created bycapacitance
the finger pressing(passive) caused bythe capacitance
contact with the skin of a finger(passive) caused bycapacitance
The overlap of the active electrodes and the ground electrodescreatesthe capacitance
the bottom electrodes and the bottom gap(passive) contributed bythe capacitance
the top electrodes and the top gap(passive) contributed bythe capacitance
the vias connected to an embedded capacitor(passive) contributed bythe capacitance
the change in dielectric constant between the electrodes(passive) caused bycapacitance
the change in the volume of the thoracic cavity due to the respiration of the user(passive) caused byThe capacitance
three main factors(passive) is influenced byThe capacitance
the air layer 208 , which has a relative dielectric constant of 1.0(passive) contributed bythe capacitance
the parallel capacitors(passive) created bycapacitance
the distance between the electrode plates , their size and the dielectric value of the material between the electrodes(passive) is Influenced byCapacitance
human contact with , or a body part in close proximity to , a sensor 46(passive) created bythe capacitance
fabricating several smaller capacitors and using the MEMS devices to adjust the amount of plate area ( by connecting the desired number of smaller capacitors in parallelto setthe capacitance
the first internal electrodes 3(passive) created bythe capacitance
changes in the distances between the respective electrodes(passive) caused bythe capacitance
variations in printing of the respective electrodes(passive) caused bythe capacitance
the current to lead the voltage , the opposite effectcausesthe current to lead the voltage , the opposite effect
The impedance mismatch(passive) caused byThe impedance mismatch
the reactive impedance(passive) caused bythe reactive impedance
current and voltagecausescurrent and voltage
the feedback capacitor(passive) caused bythe feedback capacitor
a voltage phase shiftwill causea voltage phase shift
current to lead voltage by 90 . W = 0.5CVcausescurrent to lead voltage by 90 . W = 0.5CV
Voltage b. True Capacitive reactance(passive) is created byVoltage b. True Capacitive reactance
thermal noise(passive) caused bythermal noise
the current to lead the applied voltage Capacitive Reactance ( XC ) ocausesthe current to lead the applied voltage Capacitive Reactance ( XC ) o
in the reduction of line impedanceresultingin the reduction of line impedance
opposition to current flow(passive) is caused byopposition to current flow
a problem in increasing the operational speedcreatesa problem in increasing the operational speed
the resistance impedance of the cableinfluencesthe resistance impedance of the cable
in a majority of the final impedanceresultedin a majority of the final impedance
The actual voltage(passive) can be influenced byThe actual voltage
in the voltage at the capacitanceresultingin the voltage at the capacitance
voltage Vccsettingvoltage Vcc
circuit 30 in each unitsettingcircuit 30 in each unit
What type of feedback(passive) is caused byWhat type of feedback
another insidious problem that is easy to deal withcausesanother insidious problem that is easy to deal with
the voltage to lag behind the current ( Figcausesthe voltage to lag behind the current ( Fig
the voltage to electrically lag the currentcausesthe voltage to electrically lag the current
kTC noise(passive) caused bykTC noise
more turn on noisecreatedmore turn on noise
The input voltage ripple(passive) caused byThe input voltage ripple
The output voltage ripple(passive) is mainly caused byThe output voltage ripple
several problemscould causeseveral problems
some problems with inductorscan causesome problems with inductors
timing problems(passive) caused bytiming problems
problems as described abovecausesproblems as described above
to a detectable voltage changeleadingto a detectable voltage change
CR delay )(passive) caused byCR delay )
to device delaycontributeto device delay
the phase shift effects(passive) caused bythe phase shift effects
a flow of charge ( current ) towards the membrane on the side of the cytoplasmwill causea flow of charge ( current ) towards the membrane on the side of the cytoplasm
between charge tracking layer 337 ( FIGcreatedbetween charge tracking layer 337 ( FIG
the boosting effect(passive) caused bythe boosting effect
the current to lag behind the voltage creating a phase shift , which is quantified geometrically as the angular transformation of the ratio of capacitance to resistance , or the phase angle [ 24].Phase angle reflects the relative contributions of fluid ( resistance ) and cellular membranes ( capacitance ) of the human bodycausesthe current to lag behind the voltage creating a phase shift , which is quantified geometrically as the angular transformation of the ratio of capacitance to resistance , or the phase angle [ 24].Phase angle reflects the relative contributions of fluid ( resistance ) and cellular membranes ( capacitance ) of the human body
signal losses(passive) caused bysignal losses