Capacitor in a sentence

(1) The capacitor stores kilovolt charge.

(2) The capacitor stores electrical energy.

(3) The amperages in the capacitor are high.

(4) The value of the capacitor is 10 abfarad.

(5) The resistance of the capacitor was 1 abohm.

(6) The capacitor has a capacitance of 10 farads.

(7) The resistor is in series with the capacitor.

(8) Watt without a capacitor is an unstable power.

(9) The abfarad value of the capacitor is too low.

(10) The abfarad value of the capacitor is too high.

Capacitor sentence

(11) The voltage rating of this capacitor is 50 volts.

(12) The electric charge flowed through the capacitor.

(13) The abfarad rating of the capacitor is important.

(14) The leyden jar is an early example of a capacitor.

(15) The nominal voltage of this capacitor is 50 volts.

(16) The volt on this capacitor needs to be discharged.

(17) The capacitor has a capacitance of 10 microfarads.

(18) The electrical capacitor stores electrical energy.

(19) The impedance of a capacitor varies with frequency.

(20) The capacitor has a capacitance of 100 microfarads.

Capacitor make sentence

(21) The impedance of a capacitor changes with frequency.

(22) The passive component in this filter is a capacitor.

(23) A ceramic capacitor can withstand high temperatures.

(24) The volt across the capacitor was slowly decreasing.

(25) The voltage drop across the capacitor was negligible.

(26) The capacitance of a capacitor is measured in farads.

(27) The motor start capacitor is rated at 50 microfarads.

(28) The abfarad value of the capacitor is not sufficient.

(29) The capacitor is rated at 1 microfarad and 100 volts.

(30) An electrical condenser is also known as a capacitor.

Sentence of capacitor

(31) The electrical condenser is also known as a capacitor.

(32) A faulty capacitor can cause a circuit to malfunction.

(33) The flyback capacitor stores energy for quick release.

(34) The solder inside the capacitor was starting to crack.

(35) The coupling capacitor is often used in audio filters.

(36) The voltage across the capacitor changed sinusoidally.

(37) The voltage rating of the capacitor is 50 microfarads.

(38) The capacitor is rated at 25 volts and 10 microfarads.

(39) The physicist measured the shunt behind the capacitor.

(40) The electrical capacitor stores energy in the circuit.

Capacitor meaningful sentence

(41) Dielectrics can store electrical energy in a capacitor.

(42) The resistor is connected in series with the capacitor.

(43) The high voltage capacitor stored energy for later use.

(44) Ec can stand for electrolytic capacitor in electronics.

(45) The capacitor is designed to discharge current quickly.

(46) The faulty capacitor caused the amplifier to short out.

(47) The coupling capacitor is commonly used in RF circuits.

(48) The coupling capacitor is often used in active filters.

(49) The passive component in this amplifier is a capacitor.

(50) The dielectrics in a capacitor store electrical energy.

Capacitor sentence examples

(51) One advantage of a ceramic capacitor is its small size.

(52) The voltage loop was interrupted by a faulty capacitor.

(53) The Murata capacitor is known for its high reliability.

(54) The voltage rating for the capacitor is 50 microfarads.

(55) The forward voltage across this capacitor is negligible.

(56) The solder underneath the capacitor secures it in place.

(57) The time delay relay uses a capacitor of 47 microfarads.

(58) The voltage rating of the ceramic capacitor is 25 volts.

(59) The capacitance of the capacitor is measured in abfarad.

(60) The capacitor is wired in series with the filter circuit.

Sentence with capacitor

(61) The voltage across the 2 microfarad capacitor is 5 volts.

(62) The abfarad value of the capacitor needs to be increased.

(63) Abohms are used to measure the resistance of a capacitor.

(64) The voltage across the 1 microfarad capacitor is 5 volts.

(65) The circuit board has a 2 microfarad capacitor installed.

(66) The electric discharge was a result of a faulty capacitor.

(67) The volt around the capacitor was being discharged slowly.

(68) The voltage across the 5 microfarad capacitor is 12 volts.

(69) The high-pass filter uses a capacitor of 0.47 microfarads.

(70) The time delay circuit uses a capacitor of 10 microfarads.

Use capacitor in a sentence

(71) A ceramic capacitor is often used for decoupling purposes.

(72) The ceramic capacitor is used to stabilize voltage levels.

(73) A ceramic capacitor can be found in computer motherboards.

(74) The capacitance of the capacitor is measured in picofarad.

(75) The ceramic capacitor is known for its low leakage current.

(76) A resonant circuit consists of an inductor and a capacitor.

(77) Electric potential energy is stored in a charged capacitor.

(78) The capacitance of a capacitor can be affected by humidity.

(79) The varactor is also known as a voltage-variable capacitor.

(80) The ceramic capacitor has a capacitance of 0.1 microfarads.

Sentence using capacitor

(81) The varactor is also known as a voltage variable capacitor.

(82) The capacitor has a maximum capacitance of 500 microfarads.

(83) The capacitance of the capacitor is measured in picofarads.

(84) The ceramic capacitor is resistant to moisture and humidity.

(85) The capacitor is placed in series with the charging circuit.

(86) A charged capacitor can discharge its stored energy quickly.

(87) The electrization of the capacitor stored electrical energy.

(88) The emf of the capacitor is used to store electrical energy.

(89) The capacitance of the capacitor is measured in microfarads.

(90) The coupling capacitor is commonly used in audio amplifiers.

Capacitor example sentence

(91) The forward bias voltage across the capacitor charges it up.

(92) The capacitance of a capacitor can be measured using farads.

(93) The armatured capacitor was able to store electrical energy.

(94) The capacitance value of the capacitor is 1,000 microfarads.

(95) The capacitor has a capacitance range of 10-100 microfarads.

(96) Applying voltage to the capacitor caused it to store energy.

(97) The ceramic capacitor is an essential component in circuitry.

(98) The capacitor is labeled with its capacitance in microfarads.

(99) The old capacitor was unsoldered and replaced with a new one.

(100) The bypass capacitor value should be around 0.01 microfarads.

Sentence with word capacitor

(101) The voltage rating of the electrolytic capacitor is 50 volts.

(102) The commutating capacitor assists in the commutation process.

(103) This electrolytic capacitor has a high ripple current rating.

(104) The current passing through the capacitor is 50 milliamperes.

(105) The power factor correction capacitor stabilizes the voltage.

(106) I had to unsolder the damaged capacitor to install a new one.

(107) The ceramic capacitor is commonly used in electronic devices.

(108) The capacitance of the capacitor is marked as 47 microfarads.

(109) The capacitor is a crucial component of an electronic device.

(110) The resistor is in series with the capacitor in this circuit.

Sentence of capacitor

(111) The forward voltage across this capacitor increases with time.

(112) The kilovolt capacitor stores electrical energy for later use.

(113) The capacitor bank has a total capacitance of 500 microfarads.

(114) He unsolders the damaged capacitor and installs a replacement.

(115) The capacitor bank has a total capacitance of 100 microfarads.

(116) The coupling capacitor value should be around 0.1 microfarads.

(117) A ceramic capacitor is a type of passive electronic component.

(118) The coupling capacitor is often used in power supply circuits.

(119) The electrolytic capacitor is widely used in power amplifiers.

(120) This electrolytic capacitor has a compact radial lead package.

Capacitor used in a sentence

(121) The ceramic capacitor is widely used in power supply circuits.

(122) The susceptance of the capacitor was found to be 0.05 Siemens.

(123) The capacitance of the capacitor is marked as 220 microfarads.

(124) The voltage rating of the 10 microfarad capacitor is 50 volts.

(125) The dielectric constant affects the capacitance of a capacitor.

(126) The size of a capacitor can affect its ability to store energy.

(127) The electrolytic capacitor has a capacitance of 50 microfarads.

(128) The power supply filter capacitor is rated at 1000 microfarads.

(129) The decoupling capacitor value should be at least 1 microfarad.

(130) The ceramic capacitor is known for its high capacitance values.

Capacitor sentence in English

(131) The ceramic capacitor is known for its low cost and small size.

(132) This electrolytic capacitor is suitable for audio applications.

(133) The dielectrics in a capacitor determine its capacitance value.

(134) The input impedance of the capacitor affects the charging time.

(135) The faulty capacitor caused an overload current in the circuit.

(136) The abfarad value of the capacitor is too high for the circuit.

(137) The abvolts of the capacitor were storing energy for later use.

(138) The solder underneath the capacitor was not evenly distributed.

(139) The capacitor has a capacitance range of 10 to 100 microfarads.

(140) The circuit requires a capacitor with a value of 100 picofarad.

(141) The capacitance of the small capacitor is only a few picofarad.

(142) The voltage over the capacitor was discharged using a resistor.

(143) The ceramic capacitor is commonly used in power supply circuits.

(144) The voltage across the capacitor gradually discharged over time.

(145) The circuit requires a capacitor with a value of 10 microfarads.

(146) The power factor correction capacitor is rated at 5 microfarads.

(147) The ceramic capacitor is known for its high dielectric strength.

(148) An electrolytic capacitor stores and releases electrical energy.

(149) The circuit requires a capacitor with a capacitance of 5 farads.

(150) The energy stored in a capacitor can be calculated using farads.

(151) A ceramic capacitor is often used in voltage regulator circuits.

(152) The ceramic capacitor is commonly used in lighting applications.

(153) The circuit requires a capacitor with a value of 100 picofarads.

(154) The capacitance of the small capacitor is only a few picofarads.

(155) I need to purchase a ceramic capacitor for my electronic project.

(156) The ceramic capacitor is designed to withstand high temperatures.

(157) The ceramic capacitor is commonly used in automotive electronics.

(158) The voltage across the capacitor gradually increased to 50 volts.

(159) The ohmage of this capacitor affects its ability to store charge.

(160) I will carefully solder out the damaged capacitor and replace it.

(161) The capacitance of a typical capacitor is measured in picofarads.

(162) The audio amplifier circuit needs a capacitor of 2.2 microfarads.

(163) The depolarization of the capacitor discharged its stored energy.

(164) The depolarization of the capacitor discharged its stored charge.

(165) The ceramic capacitor is known for its stability and reliability.

(166) The ceramic capacitor is commonly used in printed circuit boards.

(167) The coupling capacitor helps in maintaining the signal integrity.

(168) The negative terminal of a capacitor is connected to the cathode.

(169) The technician will solder in the new capacitor to fix the issue.

(170) The forward voltage across the capacitor increased as it charged.

(171) A ceramic capacitor can be found in various consumer electronics.

(172) The ceramic capacitor is known for its low cost and availability.

(173) The ceramic capacitor is used to filter out unwanted frequencies.

(174) The electrolytic capacitor stores and releases electrical energy.

(175) The capacitor was designed with a dielectrically stable material.

(176) The capacitor stored a megavolt of energy for use in the circuit.

(177) The circuit requires a capacitor with a value of 100 microfarads.

(178) The capacitor is used to store energy in the form of microfarads.

(179) The electrolytic capacitor is often used in power supply circuits.

(180) He unsolders the old capacitor and installs a higher capacity one.

(181) The filter capacitor should have a capacitance of 220 microfarads.

(182) The absolute-scale capacitance of the capacitor is 50 microfarads.

(183) The ceramic capacitor is suitable for high-frequency applications.

(184) A large coupling capacitor can result in a lower cutoff frequency.

(185) The electrolytic solution in a capacitor stores electrical energy.

(186) This electrolytic capacitor is rated for a maximum voltage of 50V.

(187) The excess charge on the capacitor caused it to discharge rapidly.

(188) The negative terminal of a capacitor stores the electrical charge.

(189) The forward voltage across the capacitor was found to be 12 volts.

(190) A ceramic capacitor is often used in radio frequency applications.

(191) The abfarad value of the capacitor is within the acceptable range.

(192) The abfarad value of the capacitor is too low for the application.

(193) He unsolders the damaged capacitor and replaces it with a new one.

(194) Solder up the resistor and capacitor in parallel for this circuit.

(195) The negative terminal of a capacitor is where the voltage is lower.

(196) The faulty capacitor short-circuited and damaged the circuit board.

(197) The coupling capacitor helps eliminate any DC offset in the signal.

(198) The capacitor's capacitance determines its ability to store charge.

(199) The dielectric material inside a capacitor affects its performance.

(200) The farad is a unit that relates charge and voltage in a capacitor.

(201) The voltage across the capacitor gradually decreased in millivolts.

(202) The megohm rating of the capacitor was too low for the application.

(203) The megohm value of the capacitor was too high for the application.

(204) The microcontroller board has a built-in capacitor of 1 microfarad.

(205) The filter capacitor should have a capacitance of 1000 microfarads.

(206) The capacitor will not store charge until you complete the circuit.

(207) The electrical discharge from the capacitor created a bright spark.

(208) This electrolytic capacitor has a low equivalent series resistance.

(209) The electrolytic capacitor is often used in motor control circuits.

(210) The charge on a capacitor decreases exponentially as it discharges.

(211) The capacitance of an electrolytic capacitor is measured in farads.

(212) The equipotential surface of a parallel plate capacitor is a plane.

(213) Make sure to handle the ceramic capacitor with care to avoid damage.

(214) The ceramic capacitor is known for its excellent frequency response.

(215) A high voltage across the capacitor indicated a fully charged state.

(216) The depolarised state of the capacitor indicated a discharged state.

(217) The volage across the capacitor increases with time during charging.

(218) The coupling capacitor is an important component in audio equipment.

(219) This electrolytic capacitor has a high tolerance for voltage spikes.

(220) The total current passing through the capacitor is 500 microamperes.

(221) The capacitance of a parallel plate capacitor is measured in farads.

(222) The circuit requires a capacitor with a capacitance of 1 microfarad.

(223) The dielectric material used in a capacitor affects its performance.

(224) The electrolytic capacitor is typically made of aluminum or tantalum.

(225) The ceramic capacitor is widely used in telecommunications equipment.

(226) The ceramic capacitor is used to store and release electrical energy.

(227) The positively charged plate in a capacitor stores electrical energy.

(228) A faulty coupling capacitor can cause distortion in the audio output.

(229) The overvoltage problem was resolved by replacing a faulty capacitor.

(230) The ceramic capacitor is resistant to high temperatures and humidity.

(231) In power inverters, the ceramic capacitor is used for energy storage.

(232) The lifespan of an electrolytic capacitor depends on various factors.

(233) The electrolytic capacitor is commonly used in computer motherboards.

(234) The faulty capacitor caused an overload current in the circuit board.

(235) Please solder in the capacitor carefully to avoid any short circuits.

(236) The capacitance of a capacitor is determined by the number of farads.

(237) The capacitance of a capacitor is denoted by the symbol F for farads.

(238) In audio applications, a ceramic capacitor can be used for filtering.

(239) The coupling capacitor is used to connect two stages of an amplifier.

(240) The hypercharge of the capacitor was too high, causing it to explode.

(241) The capacitance of a capacitor can be affected by temperature changes.

(242) The capacitance of a capacitor can be increased by adding more plates.

(243) The ohmage of this capacitor affects the time constant of the circuit.

(244) The ceramic capacitor is an essential component in voltage regulators.

(245) The coupling capacitor is used to eliminate any DC bias in the signal.

(246) The value of the coupling capacitor affects the gain of the amplifier.

(247) This electrolytic capacitor is designed for high voltage applications.

(248) The electrolytic capacitor is commonly used in automotive electronics.

(249) This electrolytic capacitor is suitable for DC filtering applications.

(250) The peak voltage of the capacitor was discharged to reset the circuit.

(251) The capacitance of a capacitor can be increased by adding more farads.

(252) Farads are used to measure the ability of a capacitor to store charge.

(253) Farads are used to measure the ability of a capacitor to store energy.

(254) Farads are used to quantify the amount of charge a capacitor can hold.

(255) In power amplifiers, a ceramic capacitor is used for coupling signals.

(256) The electric discharge from the capacitor caused a loud popping sound.

(257) A capacitor is a device used to store energy in an electrical circuit.

(258) The ceramic capacitor is known for its high reliability and durability.

(259) The ceramic capacitor helps to regulate voltage in electronic circuits.

(260) The ceramic capacitor is commonly used in audio amplifiers and filters.

(261) The ceramic capacitor is often used in timing circuits and oscillators.

(262) The ceramic capacitor is a crucial component in motor control circuits.

(263) The field of force around a charged capacitor stores electrical energy.

(264) The microfarads rating indicates the storage capacity of the capacitor.

(265) Electrostatic units are used to measure the capacitance of a capacitor.

(266) The volage across the capacitor needs to be discharged before handling.

(267) The ceramic capacitor is made of ceramic material and metal electrodes.

(268) In power electronics, the ceramic capacitor is used for energy storage.

(269) The coupling capacitor is connected in parallel with the load resistor.

(270) This electrolytic capacitor is designed for low impedance applications.

(271) The passive component in this signal generator is a variable capacitor.

(272) The electrician discharged the capacitor before working on the circuit.

(273) A bridge circuit can be used to measure the capacitance of a capacitor.

(274) The undischarged capacitor could potentially cause an electrical shock.

(275) The student measured the volt on the capacitor to determine its charge.

(276) The electrolytic capacitor is designed to withstand high voltage levels.

(277) The ceramic capacitor is available in various sizes and voltage ratings.

(278) It is recommended to discharge the ceramic capacitor before handling it.

(279) The ceramic capacitor is often used in power factor correction circuits.

(280) The coupling capacitor is an essential component in electronic circuits.

(281) The value of the coupling capacitor is usually specified in microfarads.

(282) I will solder out the damaged capacitor and replace it with a fresh one.

(283) The capacitor can discharge current to provide a sudden burst of energy.

(284) The breadboard allowed me to experiment with different capacitor values.

(285) The ceramic capacitor is known for its low equivalent series resistance.

(286) The forward bias voltage across the capacitor allows it to store energy.

(287) The impedance of a capacitor can be affected by its dielectric material.

(288) The negative terminal of a capacitor is connected to the negative plate.

(289) Farads are used to determine the amount of charge a capacitor can store.

(290) In medical devices, a ceramic capacitor is used for signal conditioning.

(291) The coupling capacitor helps eliminate any DC offset in the signal path.

(292) The feedpoint was tuned using a variable capacitor to achieve resonance.

(293) One advantage of an electrolytic capacitor is its high capacitance value.

(294) Make sure to precharge the capacitor before connecting it to the circuit.

(295) The capacitance of a capacitor can be measured using a capacitance meter.

(296) The farad is used to quantify the ability of a capacitor to store charge.

(297) The unsoldered capacitor affected the performance of the audio amplifier.

(298) The reactance of a capacitor is affected by the dielectric material used.

(299) She breadboarded a circuit to experiment with different capacitor values.

(300) The capacitor's microfarads rating should be checked before installation.

(301) The capacitor's microfarads value determines its ability to store energy.

(302) The energization of the capacitor stored electrical energy for later use.

(303) The three-phase power factor correction capacitor improves power quality.

(304) A faulty coupling capacitor can result in distorted or weak audio output.

(305) The circuit requires a capacitor with a capacitance of 1,500 microfarads.

(306) The capacitance of the capacitor can be measured using a picofarad meter.

(307) The capacitance of the capacitor is usually expressed in picofarad units.

(308) The tunable capacitor in this circuit board adjusts the electrical charge.

(309) The susceptance of the circuit can be reduced by adding a shunt capacitor.

(310) The coupling capacitor prevents any DC bias from affecting the next stage.

(311) The reactance of a capacitor is affected by the voltage applied across it.

(312) The dielectrically insulated capacitor stored energy in an electric field.

(313) In industrial automation, the ceramic capacitor is used for motor control.

(314) The electrolytic capacitor is commonly used in switch-mode power supplies.

(315) The electrolytic capacitor is known for its low cost and high reliability.

(316) The capacitor is used to attenuate the voltage ripple in the power supply.

(317) The capacitance of a capacitor can be converted from nanofarads to farads.

(318) The capacitance of a capacitor can be converted from picofarads to farads.

(319) The ceramic capacitor is used to improve the efficiency of power supplies.

(320) The abamperes in a capacitor change over time as it charges or discharges.

(321) The capacitor helps to smooth the voltage by storing and releasing energy.

(322) The susceptance of the circuit can be reduced by adding a series capacitor.

(323) The capacitor's voltage rating must be considered when designing a circuit.

(324) The farad is a unit that is used to measure the capacitance of a capacitor.

(325) The dielectrically sealed capacitor stored electrical charge for later use.

(326) The single-phase capacitor improves the power factor in electrical systems.

(327) The leakage current in the capacitor was causing the device to malfunction.

(328) The capacitance of a capacitor can be converted from microfarads to farads.

(329) The capacitance of a capacitor can be converted from millifarads to farads.

(330) In telecommunications, a ceramic capacitor is used for signal conditioning.

(331) In motor control circuits, a ceramic capacitor is used for noise reduction.

(332) In electronic filters, a ceramic capacitor is used for frequency selection.

(333) The passive component in this motor control circuit is a snubber capacitor.

(334) The susceptance of the circuit was reduced by adding a capacitor in series.

(335) The capacitance of the capacitor can be increased by adding more picofarad.

(336) The amperes in the capacitor were discharged before working on the circuit.

(337) The capacitance of a capacitor can be affected by temperature and humidity.

(338) The properties of dielectrics make them suitable for capacitor applications.

(339) The phase shift caused by the capacitor affects the behavior of the circuit.

(340) The potential difference across the capacitor gradually decreased over time.

(341) The reactance of a capacitor is dependent on the frequency of the AC signal.

(342) The reactance of a capacitor is affected by the distance between the plates.

(343) The flyback capacitor in the solar panel stores excess energy for later use.

(344) The picofarad is used to measure the amount of charge a capacitor can store.

(345) The picofarad is used to measure the amount of energy stored in a capacitor.

(346) The depolarization of the capacitor discharged its stored electrical energy.

(347) The ceramic capacitor is available in various sizes and capacitance ratings.

(348) In automotive applications, the ceramic capacitor is used for EMI filtering.

(349) The commutating capacitor bank assists in the commutation of reactive power.

(350) The electrolytic capacitor has a higher capacitance compared to other types.

(351) The capacitance value of an electrolytic capacitor is indicated on its body.

(352) The lifespan of an electrolytic capacitor can be affected by excessive heat.

(353) The induced voltage across the coil was used to charge the nearby capacitor.

(354) The capacitance of a cylindrical capacitor is typically expressed in farads.

(355) The electrical discharge from the capacitor created a bright flash of light.

(356) The electrical discharge from the faulty capacitor damaged the audio system.

(357) The passive component in this timer circuit is a resistor-capacitor network.

(358) The characteristic curve of a capacitor shows its charge-discharge behavior.

(359) The capacitance of the capacitor can be adjusted from 1 to 1000 microfarads.

(360) The capacitance of the capacitor can be increased by adding more picofarads.

(361) Capacitive reactance is a measure of a capacitor's opposition to AC current.

(362) The discharge current of the capacitor was too high, causing it to overheat.

(363) The dielectric constant of a material affects the capacitance of a capacitor.

(364) The ceramic capacitor provides stability and filtering in electronic devices.

(365) I accidentally damaged the ceramic capacitor while soldering it onto the PCB.

(366) The capacitance of a capacitor can affect the time constant of an RC circuit.

(367) The positive ion is attracted to the negatively charged plate in a capacitor.

(368) The reactance of a capacitor is affected by the size and shape of the plates.

(369) The faulty capacitor shorted and caused the electronic device to malfunction.

(370) The microfarads value determines the amount of charge the capacitor can hold.

(371) In circuit boards, the ceramic capacitor is often used for noise suppression.

(372) The line-of-force in a parallel plate capacitor is denser between the plates.

(373) The measurement value of the capacitance of the capacitor was 10 microfarads.

(374) The coupling capacitor is often chosen based on the desired cutoff frequency.

(375) The Leyden jar is an early form of capacitor used to store electrical energy.

(376) The electric pressure in the capacitor discharged suddenly, creating a spark.

(377) The electrical capacitance of a capacitor can be measured using a multimeter.

(378) The Leyden plate is a type of capacitor used in early electrical experiments.

(379) The negative terminal of a capacitor is where the excess electrons accumulate.

(380) The susceptance of the capacitor needs to be adjusted for optimal performance.

(381) The flyback capacitor in the electronic device stores energy for power backup.

(382) The capacitance of the ceramic capacitor is typically measured in microfarads.

(383) The microfarads value determines the amount of energy the capacitor can store.

(384) The negative current flow was stabilized by adding a capacitor to the circuit.

(385) In audio equipment, the ceramic capacitor is used for coupling and decoupling.

(386) In aerospace applications, the ceramic capacitor is used for signal filtering.

(387) The electric pressure in the capacitor was discharged to avoid electric shock.

(388) The electrolytic capacitor is known for its compact size and high capacitance.

(389) This electrolytic capacitor has a long shelf life and can be stored for years.

(390) The self-energy of a charged capacitor depends on its capacitance and voltage.

(391) The susceptance of the capacitor needed to be adjusted for voltage regulation.

(392) A high-quality coupling capacitor is crucial for maintaining signal integrity.

(393) The electric potential of the charged capacitor is highest when fully charged.

(394) The electrolytic capacitor is commonly used in power supply smoothing circuits.

(395) The precharge time constant determines the rate at which the capacitor charges.

(396) The coupling capacitor is commonly used in audio amplifiers and power supplies.

(397) I'm going to use the multimeter to check if this capacitor is properly charged.

(398) The farad is a unit that quantifies the ability of a capacitor to store energy.

(399) The reactance of a capacitor is directly proportional to the capacitance value.

(400) A bridge circuit can be used to measure the unknown capacitance of a capacitor.

(401) The saturability of a capacitor determines its maximum energy storage capacity.

(402) In lighting systems, the ceramic capacitor is used for power factor correction.

(403) The coupling capacitor is connected in series with the input of the next stage.

(404) The coupling capacitor blocks any DC voltage that may be present in the signal.

(405) The coupling capacitor is an essential component in signal processing circuits.

(406) The electrical discharge from the faulty capacitor damaged the audio amplifier.

(407) The capacitance of an electrolytic capacitor can vary depending on temperature.

(408) The line-of-force in a parallel plate capacitor is perpendicular to the plates.

(409) The passive component in this bandpass filter is an inductor-capacitor network.

(410) The tesla coil is made up of a primary coil, a secondary coil, and a capacitor.

(411) The choice of dielectric material is crucial for the performance of a capacitor.

(412) A farad is a measure of how much electrical energy can be stored in a capacitor.

(413) The farad is a unit that measures the ratio of charge to voltage in a capacitor.

(414) The milliamp value of this capacitor affects its charging and discharging speed.

(415) The reactance of a capacitor is inversely proportional to the capacitance value.

(416) The circuit requires a capacitor with a capacitance of 50 microfarads or higher.

(417) The capacitor's microfarads rating should be verified using a capacitance meter.

(418) The breadboard made it simple to test different resistor-capacitor combinations.

(419) The centrifugal switch is typically connected to the motor's starting capacitor.

(420) A coupling capacitor is used to transfer the signal from one circuit to another.

(421) The power density of a capacitor affects its ability to store electrical energy.

(422) The coupling capacitor is used to isolate the DC bias of one stage from another.

(423) The company used a bypass capacitor to reduce noise in their electronic devices.

(424) The mho rating of a capacitor determines its ability to store electrical charge.

(425) The voltage rating of a capacitor determines its maximum safe operating voltage.

(426) The electric potential of the charged capacitor is stored in the electric field.

(427) The time constant of a capacitor is determined by its capacitance and resistance.

(428) The permittivity of a dielectric material affects the capacitance of a capacitor.

(429) The capacitance of a capacitor determines its ability to store electrical charge.

(430) The capacitance of a capacitor can be affected by the surface area of the plates.

(431) The size of the coupling capacitor affects the bass response of the audio system.

(432) The coupling capacitor is typically connected between two stages of an amplifier.

(433) The charging and discharging of a capacitor can create a time delay in a circuit.

(434) The unsoldered capacitor bank affected the power factor of the electrical system.

(435) The voltage across the capacitor gradually increased during the charging process.

(436) The voltage difference across the capacitor gradually decreased as it discharged.

(437) The electric pressure in the capacitor discharged when the switch was turned off.

(438) The susceptance of the capacitor was causing a reactive power flow in the system.

(439) The capacitance of a capacitor is inversely proportional to the number of farads.

(440) The capacitance of the capacitor can be adjusted by changing the picofarad value.

(441) Self-induction can be reduced by using a capacitor in parallel with the inductor.

(442) It is important to select the correct capacitance value for the ceramic capacitor.

(443) It is important to check the datasheet for the ceramic capacitor's specifications.

(444) It is recommended to use a multimeter to test the ceramic capacitor's capacitance.

(445) The capacitance of a capacitor can be increased by adding more plates in parallel.

(446) The capacitance of a capacitor can be adjusted by changing the area of its plates.

(447) The capacitor's microfarads rating should be within the specified tolerance range.

(448) The microfarads rating is printed on the capacitor's body for easy identification.

(449) Carefully solder off the damaged capacitor without touching any nearby components.

(450) The value of the coupling capacitor affects the frequency response of the circuit.

(451) The passive component in this power factor correction circuit is a capacitor bank.

(452) The size of the coupling capacitor affects the overall performance of the circuit.

(453) The volt in this capacitor needs to be discharged before it can be safely handled.

(454) The capacitor is used to attenuate the high-frequency noise in the voltage signal.

(455) The capacitance of the capacitor is inversely proportional to the picofarad value.

(456) The capacitance of the capacitor is typically measured in microfarad or picofarad.

(457) The commutating capacitor is used to filter out high-frequency noise in a circuit.

(458) The supply voltage ripple was reduced by adding a filter capacitor to the circuit.

(459) The electrolytic capacitor is known for its ability to handle high ripple currents.

(460) The ceramic capacitor is available in both surface mount and through-hole packages.

(461) A high-quality coupling capacitor ensures efficient signal transfer between stages.

(462) The coupling capacitor blocks DC voltage while allowing AC signals to pass through.

(463) The reactance of a capacitor is purely imaginary and is denoted by a negative sign.

(464) The capacitance of the electrolytic capacitor is typically measured in microfarads.

(465) The capacitor bank is made up of multiple capacitors, each rated at 10 microfarads.

(466) The technician will solder off the damaged capacitor and replace it with a new one.

(467) The coupling capacitor helps in preventing any voltage fluctuations between stages.

(468) The electrolytic capacitor is known for its ability to withstand high temperatures.

(469) The coupling capacitor is crucial for maintaining signal fidelity in audio systems.

(470) The coupling capacitor plays a vital role in achieving accurate audio reproduction.

(471) The susceptance of the circuit was adjusted by changing the value of the capacitor.

(472) The electric pressure in the capacitor was discharged to prevent electrical shocks.

(473) The capacitance of the capacitor can be expressed in terms of picofarads or farads.

(474) I was able to fix my broken TV by soldering a new capacitor onto the circuit board.

(475) The technician will solder in the new capacitor to improve the device's performance.

(476) The ceramic capacitor is a cost-effective solution for many electronic applications.

(477) Increasing the distance between the plates of a capacitor decreases its capacitance.

(478) The coupling capacitor is crucial for maintaining signal integrity in audio systems.

(479) The coupling capacitor is connected in series with the input or output of a circuit.

(480) The coupling capacitor helps prevent any DC voltage from damaging subsequent stages.

(481) The electromotance of a capacitor determines its ability to store electrical energy.

(482) The voltage across the capacitor decreased gradually during the discharging process.

(483) The coupling capacitor allows the AC signal to pass while blocking the DC component.

(484) The coupling capacitor is used to block any DC voltage from reaching the next stage.

(485) The coupling capacitor is used to prevent any DC bias from affecting the next stage.

(486) The susceptance of the capacitor needed to be increased for power factor correction.

(487) The susceptance of the capacitor needed to be decreased for power factor correction.

(488) The time constant of the capacitor determines its charging and discharging behavior.

(489) The capacitance value of an electrolytic capacitor is usually indicated on its body.

(490) The student was asked to measure the voltage of the capacitor in the lab experiment.

(491) The capacitance of the capacitor is typically measured in microfarads or picofarads.

(492) The capacitance of the capacitor can be calculated using the formula for picofarads.

(493) The electrolytic capacitor is often used in filter circuits to remove unwanted noise.

(494) The electric pressure in the capacitor was discharged when the switch was turned off.

(495) The specific energy of a capacitor determines its ability to store electrical charge.

(496) The electrical discharge from the faulty capacitor damaged the electronic components.

(497) The value of the coupling capacitor determines the frequency response of the circuit.

(498) The picofarad is used to measure the amount of charge a capacitor can store per volt.

(499) The value of the coupling capacitor can be adjusted to modify the frequency response.

(500) The coupling capacitor helps in maintaining the signal integrity during transmission.

(501) The circuit circuited through the capacitor, storing and releasing electrical energy.

(502) The voltage smoothing capacitor is essential to smooth the voltage and reduce ripple.

(503) The coupling capacitor allows the AC signal to be coupled while blocking any DC bias.

(504) The coupling capacitor is commonly used in audio equipment to prevent unwanted noise.

(505) The passive component in this voltage multiplier circuit is a diode-capacitor ladder.

(506) An electrolytic capacitor is a type of capacitor commonly used in electronic devices.

(507) The dielectric material in an electrolytic capacitor is typically a thin oxide layer.

(508) In series with the other components, the capacitor regulates the flow of electricity.

(509) Capacitive reactance is a measure of how much a capacitor resists changes in voltage.

(510) An electrolytic capacitor is a type of capacitor commonly used in electronic circuits.

(511) The coupling capacitor is responsible for blocking any unwanted noise or interference.

(512) The electrolytic capacitor is known for its ability to handle large amounts of charge.

(513) The coupling capacitor is often used in audio amplifiers and radio frequency circuits.

(514) The coupling capacitor is crucial for maintaining proper signal flow in audio systems.

(515) The positive terminal of an electrolytic capacitor is usually marked with a plus sign.

(516) The capacitance of the capacitor can be adjusted by changing the number of picofarads.

(517) The capacitance of the capacitor is directly proportional to the number of picofarads.

(518) The capacitance of a capacitor decreases as the distance between its plates increases.

(519) The electrical noise from the faulty capacitor was causing fluctuations in the voltage.

(520) It is important to avoid exceeding the maximum voltage rating of the ceramic capacitor.

(521) The dielectric constant of a material can be measured using a parallel plate capacitor.

(522) The field strength of the electric field was highest near the charged capacitor plates.

(523) The farad is a unit that is used to describe the amount of charge a capacitor can hold.

(524) The technician had to solder around the damaged capacitor to fix the electronic device.

(525) I accidentally connected the 100 microfarad capacitor instead of the 10 microfarad one.

(526) Apply solder evenly when soldering in front of the capacitor for a reliable connection.

(527) The coupling capacitor is commonly found in audio amplifiers and tone control circuits.

(528) The negative terminal of an electrolytic capacitor is usually marked with a minus sign.

(529) The capacitance of the capacitor is inversely proportional to the number of picofarads.

(530) Inductive reactance can be reduced by adding a capacitor in parallel with the inductor.

(531) The coupling capacitor is selected based on the desired cutoff frequency of the circuit.

(532) The farad is a unit that is used to quantify the ability of a capacitor to store charge.

(533) The electrician was able to rectify the voltage problem by replacing a faulty capacitor.

(534) A properly selected coupling capacitor ensures efficient signal transfer between stages.

(535) The field of force around a charged capacitor can be discharged to release stored energy.

(536) The capacitance of a capacitor can be influenced by the type of dielectric material used.

(537) The circuit requires a capacitor with a capacitance of 1 microfarad for proper operation.

(538) The coupling capacitor allows the AC signal to pass through while blocking any DC offset.

(539) The value of the coupling capacitor can be calculated using the desired cutoff frequency.

(540) The electrolytic capacitor is polarized, meaning it has a positive and negative terminal.

(541) The coupling capacitor helps prevent any DC voltage from affecting the subsequent stages.

(542) The voltage difference across the capacitor determines the amount of charge it can store.

(543) The electrolytic capacitor consists of two conductive plates separated by an electrolyte.

(544) The electrolyte in an electrolytic capacitor is typically a liquid or gel-like substance.

(545) The voltage rating of an electrolytic capacitor should not be exceeded to prevent damage.

(546) The coupling capacitor is designed to have a low impedance at the desired frequency range.

(547) The coupling capacitor is crucial for maintaining proper biasing in transistor amplifiers.

(548) A capacitor stores electrical energy in an electrical circuit and releases it when needed.

(549) The microfarads rating is crucial for selecting the appropriate capacitor for the circuit.

(550) The microfarads value affects the time it takes for the capacitor to charge and discharge.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Capacitor. They do not represent the opinions of TranslateEN.com.