Transistor in a sentence

(1) A transistor can amplify a signal.

(2) A transistor can act like a switch.

(3) The transistor is a solid-state device.

(4) A transistor is a semiconductor device.

(5) The transistor is in series with the IC.

(6) A transistor is a tiny electronic device.

(7) A transistor can be used to make a radio.

(8) A transistor can be used to make a robot.

(9) The first transistor was invented in 1947.

(10) The current gain of this transistor is 100.

Transistor sentence

(11) William Shockley co-invented the transistor.

(12) A transistor can be used to make a doorbell.

(13) A transistor can turn electricity on and off.

(14) A transistor can be used to make a pacemaker.

(15) The transistor was built with silicon dioxide.

(16) A transistor can be used to make a robot move.

(17) A transistor can be used to make a GPS device.

(18) A transistor can be used to make a calculator.

(19) A transistor can be either an NPN or PNP type.

(20) The NPN transistor acts as a current amplifier.

Transistor make sentence

(21) A transistor can be used to make a game or toy.

(22) A transistor is a type of semiconductor device.

(23) A transistor can be used to make a sound louder.

(24) A transistor can be as small as a grain of sand.

(25) A transistor can switch on and off very quickly.

(26) A transistor can be used to make a wind turbine.

(27) A transistor can be used to make a game console.

(28) The transistor was first developed in the 1940s.

(29) The first transistor radio was produced in 1954.

(30) I loved the retro design of the transistor radio.

Sentence of transistor

(31) A transistor can be used to make a burglar alarm.

(32) A transistor can be used to make a digital clock.

(33) The unijunction transistor is a type of thyristor.

(34) A transistor can be used to make a timer or clock.

(35) A transistor can be used to make a smoke detector.

(36) A transistor can be turned on and off very quickly.

(37) A transistor can be used to make a prosthetic limb.

(38) A transistor can be used to make a security system.

(39) The nominal voltage of this transistor is 0.7 volts.

(40) The field effect transistor is a solid-state device.

Transistor meaningful sentence

(41) A transistor can be used to control the flow of air.

(42) A transistor can be turned on and off like a switch.

(43) The transistor is a high-speed electronic component.

(44) Henry Moseley invented the first transistor in 1926.

(45) I bought a vintage transistor radio at a flea market.

(46) A transistor can be used to switch a light on or off.

(47) The unijunction transistor is a three-terminal device.

(48) A transistor can be used to control the flow of water.

(49) A transistor can amplify a signal, making it stronger.

(50) The transistor is a key component in digital circuits.

Transistor sentence examples

(51) The transistor radio was a popular gadget in the 1960s.

(52) Invert the voltage to switch the state of a transistor.

(53) A transistor can be used to control the speed of a fan.

(54) The transistor revolutionized the electronics industry.

(55) We need to calculate the current gain of the transistor.

(56) The forward voltage rating of this transistor is 5 volts.

(57) The transistor is a key component in integrated circuits.

(58) The abvolts of the transistor were amplifying the signal.

(59) A transistor can be used to control the speed of a motor.

(60) A transistor can be made from silicon or other materials.

Sentence with transistor

(61) A transistor can be used to make a microphone or speaker.

(62) I found an old transistor radio in my grandfather's attic.

(63) The transistor radio was small enough to fit in my pocket.

(64) The gate electrode is used to turn on or off a transistor.

(65) A transistor can be used to control the pressure of a gas.

(66) The transistor replaced vacuum tubes in many applications.

(67) A transistor can be used to control the volume of a speaker.

(68) A transistor can be used to control the position of a robot.

(69) A transistor can be used to control the flow of electricity.

(70) The transistor is a low-cost and widely available component.

Use transistor in a sentence

(71) The transistor is a small but powerful electronic component.

(72) The field effect transistor is a reliable and durable device.

(73) John Bardeen is known as the co-discoverer of the transistor.

(74) The gate current is used to switch the transistor on and off.

(75) The NPN transistor is a key component in digital electronics.

(76) The unijunction transistor is a type of semiconductor device.

(77) A transistor is like a tiny switch that controls electricity.

(78) The transistor is a small and efficient electronic component.

(79) The voltage across the transistor controlled the current flow.

(80) The cathode is connected to the base terminal in a transistor.

Sentence using transistor

(81) The soldering iron was used to unsolder the faulty transistor.

(82) The current passing through the transistor is 15 milliamperes.

(83) The NPN transistor is commonly used in amplification circuits.

(84) A transistor can be used to control the brightness of a light.

(85) A transistor can be used to control the temperature of a room.

(86) A transistor can amplify or increase the strength of a signal.

(87) A transistor can be used to control the temperature in a room.

(88) A transistor can act as a switch, turning a circuit on or off.

(89) The transistor is a reliable and durable electronic component.

(90) The unipolar transistor is commonly used in electronic devices.

Transistor example sentence

(91) The transistor radio was a revolutionary invention at the time.

(92) A transistor is like a tiny traffic cop for electronic signals.

(93) A transistor has three parts: the base, emitter, and collector.

(94) A transistor can be used to control the flow of gas in a stove.

(95) The transistor is a fundamental component of modern electronics.

(96) The transistor is a solid-state device that has no moving parts.

(97) The transistor is a reliable and efficient electronic component.

(98) The transistor is a key component in the operation of computers.

(99) The gate electrode controls the flow of current in a transistor.

(100) The sound quality on the transistor radio was surprisingly good.

Sentence with word transistor

(101) I used to fall asleep listening to music on my transistor radio.

(102) The current gain of the transistor is influenced by its biasing.

(103) The armatured transistor was able to amplify electrical signals.

(104) A transistor consists of three layers of semiconductor material.

(105) The transistor is a reliable device, and it has a long lifespan.

(106) The transistor replaced bulky vacuum tubes in electronic devices.

(107) The monopolar transistor is commonly used in electronic circuits.

(108) The unipolar transistor is a key component in electronic devices.

(109) The transistor radio had a built-in antenna for better reception.

(110) Germanium was the first substance used in transistor development.

Sentence of transistor

(111) The transistor is a solid-state device that replaced vacuum tubes.

(112) I accidentally dropped my transistor radio and it stopped working.

(113) The transistor radio was a popular gift during the holiday season.

(114) The current gain of this transistor is specified in the datasheet.

(115) The negative terminal of a transistor is connected to the emitter.

(116) The forward voltage of the transistor determines its conductivity.

(117) The current gain of the transistor can be affected by temperature.

(118) The gate current in the transistor controls the flow of electrons.

(119) The gate electrode is an important parameter in transistor sizing.

(120) The triode was eventually replaced by the transistor in the 1950s.

Transistor used in a sentence

(121) A transistor can be used to measure the amount of light in a room.

(122) A transistor can also act as a switch to turn something on or off.

(123) The obsolescence of tube radios was replaced by transistor radios.

(124) The current gain of this transistor is higher than its predecessor.

(125) The current gain of this transistor is higher in the active region.

(126) The transistor made it possible to miniaturize electronic circuits.

(127) The transistor is a building block of modern electronic technology.

(128) The p-type material is used in the base region of a PNP transistor.

(129) The transistor radio had a dial for tuning into different stations.

(130) The gate electrode is an integral part of the transistor structure.

Transistor sentence in English

(131) The volt across the transistor was causing it to switch on and off.

(132) The electrical transistor amplifies or switches electrical signals.

(133) The transistor is a crucial component in modern telecommunications.

(134) The transistor is a critical component in satellite communications.

(135) The transistor is a solid-state device, and it has no moving parts.

(136) The transistor allows for the precise control of electronic signals.

(137) The transistor allows for the miniaturization of electronic devices.

(138) The transistor is a fundamental element in the field of electronics.

(139) I used to listen to medium wave stations on my old transistor radio.

(140) The technician will solder out the faulty transistor and replace it.

(141) The field-effect transistor revolutionized the world of electronics.

(142) The field effect transistor revolutionized the field of electronics.

(143) The field effect transistor is a key element in integrated circuits.

(144) The field effect transistor is a key component in power electronics.

(145) I used to listen to my favorite radio shows on the transistor radio.

(146) The current gain of this transistor is higher than its voltage gain.

(147) The gate electrode determines the threshold voltage of a transistor.

(148) The dielectrics in a transistor help to control the flow of current.

(149) The mho rating of a transistor determines its amplification ability.

(150) The unijunction transistor was invented by William Shockley in 1952.

(151) A transistor can be used to control the flow of water in a fountain.

(152) Japanese engineers created the first single-chip transistor in 1959.

(153) The negative terminal of a transistor is where the current flows out.

(154) The current gain of this transistor decreases at higher temperatures.

(155) The current gain of this transistor is nonlinear at high frequencies.

(156) The gate current is responsible for turning the transistor on or off.

(157) The gate electrode is connected to the gate terminal of a transistor.

(158) The transistor radio was a portable way to listen to music on the go.

(159) The gate current is used to bias the transistor in the active region.

(160) The field-effect transistor is a key component in modern electronics.

(161) A transistor has three parts called the base, emitter, and collector.

(162) The current gain of this transistor is affected by the load impedance.

(163) A transistor can be used to control the temperature of a refrigerator.

(164) The astable operation of the transistor oscillator circuit is reliable.

(165) The unipolar junction transistor is widely used in electronic circuits.

(166) The field effect transistor allows for precise control of current flow.

(167) I could hear the faint sound of music coming from the transistor radio.

(168) The commutating transistor is used to commutate the electrical signals.

(169) The gate electrode is responsible for switching a transistor on or off.

(170) The transistor was encapsulated in silicon to protect it from moisture.

(171) The current gain of this transistor is limited by the collector current.

(172) The invention of the transistor revolutionized the field of electronics.

(173) The transistor is a crucial element in the design of electronic systems.

(174) The gate electrode is responsible for turning the transistor on and off.

(175) The gate electrode is responsible for controlling the transistor's gain.

(176) The field effect transistor is a critical component in audio amplifiers.

(177) The field effect transistor is a vital component in computer processors.

(178) My friend and I would listen to music together on our transistor radios.

(179) The transistor radio had a long battery life, perfect for camping trips.

(180) The current gain of the transistor determines its amplification ability.

(181) The gate electrode is connected to the gate contact pad in a transistor.

(182) A transistor can be turned on or off with a small amount of electricity.

(183) The invention of the transistor revolutionized the electronics industry.

(184) A transistor can be used to control the flow of air in a heating system.

(185) The field-effect transistor is a variant of the basic transistor design.

(186) The photocurrent in the phototransistor was amplified by the transistor.

(187) The current gain of this transistor is influenced by the biasing voltage.

(188) The gate current is usually specified in the datasheet of the transistor.

(189) The p-type material is used in the collector region of an NPN transistor.

(190) The field effect transistor is a versatile device with many applications.

(191) The size of a transistor in a microchip can be described in millimicrons.

(192) The current gain of this transistor is affected by the collector current.

(193) A voltage divider can be used to bias a transistor in amplifier circuits.

(194) The gate electrode is connected to the control circuitry in a transistor.

(195) The current gain of this transistor is higher when operated in saturation.

(196) The dopant diffusion process is crucial for creating transistor junctions.

(197) The unsoldered transistor caused the amplifier to produce distorted sound.

(198) I would often listen to the transistor radio while doing household chores.

(199) The transistor radio was a common sight at picnics and outdoor gatherings.

(200) The current gain of the transistor affects its ability to amplify signals.

(201) The gate electrode is subjected to voltage to control transistor behavior.

(202) The voltage gain of the transistor is crucial for amplifying weak signals.

(203) The forward voltage drop across this transistor increases with temperature.

(204) A voltage divider can be used to bias a transistor in an amplifier circuit.

(205) The voltage gain of a transistor determines its amplification capabilities.

(206) The astable operation of the transistor circuit creates a pulsating output.

(207) The transistor radio was a symbol of technological advancement in its time.

(208) The current gain of this transistor is dependent on the biasing conditions.

(209) The field effect transistor is a fundamental component in digital circuits.

(210) The field effect transistor has revolutionized the field of semiconductors.

(211) The Shockley model describes the behavior of a bipolar junction transistor.

(212) The gate electrode is designed to minimize leakage current in a transistor.

(213) The transistor is a critical component in the design of electronic circuits.

(214) The p-type layer is sandwiched between two n-type layers in this transistor.

(215) Avoid excessive soldering in front of the transistor to prevent heat damage.

(216) The field effect transistor is a versatile device with various applications.

(217) The gate electrode is typically the topmost layer in a transistor structure.

(218) The nonlinear distortion in the amplifier was caused by a faulty transistor.

(219) The field effect transistor is a key component in modern electronic devices.

(220) The gate current is used to switch the transistor between on and off states.

(221) The voltage gain of the transistor amplifier can be affected by temperature.

(222) A transistor can be used to control the flow of water in a sprinkler system.

(223) The commutating diode is used to protect the transistor from voltage spikes.

(224) The power gain of this transistor is 100 times greater than its base current.

(225) I remember my dad teaching me how to use a transistor radio when I was young.

(226) A forward bias is used to activate the base-emitter junction in a transistor.

(227) The gate current is used to control the switching behavior of the transistor.

(228) The forward voltage across the transistor was adjusted using a potentiometer.

(229) A small gate current is required to maintain the transistor in the off state.

(230) The gate current is influenced by the doping concentration in the transistor.

(231) The gate electrode is used to control the switching behavior of a transistor.

(232) The gate electrode is connected to the gate driver circuitry in a transistor.

(233) The bygone era of transistor radios is something my grandpa still listens to.

(234) A transistor can be used to control the opening and closing of a garage door.

(235) The current gain of this transistor is influenced by the base-emitter voltage.

(236) The transistor is a versatile device that can be used in various applications.

(237) The field effect transistor is a fundamental concept in semiconductor physics.

(238) I remember my mom listening to the news on her transistor radio every morning.

(239) I would spend hours exploring different radio stations on my transistor radio.

(240) The unijunction transistor is a type of transistor that has only one junction.

(241) The current gain of this transistor is higher when biased in the active region.

(242) The field effect transistor is a key element in wireless communication devices.

(243) The transistor radio crackled with static as I tuned it to my favorite station.

(244) The transistor radio was my only source of entertainment during a power outage.

(245) The field effect transistor allows for efficient control of electrical signals.

(246) The field effect transistor is a crucial element in the design of solar panels.

(247) The field effect transistor is a key element in the design of power amplifiers.

(248) The gate current is inversely proportional to the resistance of the transistor.

(249) A transistor is a tiny electronic device that controls the flow of electricity.

(250) The current gain of this circuit is dependent on the transistor's hFE parameter.

(251) The unipolar junction transistor is widely used in telecommunications equipment.

(252) The field effect transistor is a crucial component in modern electronic devices.

(253) The field effect transistor operates by controlling the flow of charge carriers.

(254) The field effect transistor plays a vital role in the field of microelectronics.

(255) The p-type material is used in the base region of a bipolar junction transistor.

(256) The photocurrent in the phototransistor was amplified by the transistor circuit.

(257) The field effect transistor enables the amplification of weak electrical signals.

(258) The field effect transistor offers high input impedance and low output impedance.

(259) The phototransistor is a type of transistor that is designed to respond to light.

(260) The gate electrode is biased with a voltage to control the transistor's operation.

(261) The saturability of a transistor determines its maximum current handling capacity.

(262) The field effect transistor is a fundamental building block in modern electronics.

(263) My dad used to listen to baseball games on his transistor radio when he was a kid.

(264) The transistor radio brought music and news into people's homes like never before.

(265) The field effect transistor is a key component in modern televisions and displays.

(266) The circuit circuited through the transistor, amplifying or switching the current.

(267) The gate current is crucial for proper functioning of the field-effect transistor.

(268) The gate current should be carefully regulated to prevent damage to the transistor.

(269) The technician will solder off the faulty transistor and replace it with a new one.

(270) The current gain of this circuit is determined by the transistor's characteristics.

(271) The field effect transistor is a fundamental building block in electronic circuits.

(272) The transistor was created with a surface with silicon to enhance its conductivity.

(273) The size of a transistor has shrunk tens of thousands of times since its invention.

(274) The gate electrode is electrically isolated from other components in the transistor.

(275) The transistor was invented in 1947, and it revolutionized the electronics industry.

(276) The voltage gain of a transistor amplifier can be affected by temperature variations.

(277) The vacuum tube was eventually replaced by the transistor in most electronic devices.

(278) The technician unsolders the faulty transistor and replaces it with a compatible one.

(279) I used to take my transistor radio to the beach and listen to music while sunbathing.

(280) The transistor in series with the LED allows you to control its brightness and color.

(281) The transistor is a low-power device, and it is used in battery-powered applications.

(282) The performance of a field effect transistor depends on its design and materials used.

(283) The field effect transistor is a three-terminal device with a source, gate, and drain.

(284) The gate electrode is subjected to a gate voltage to control the transistor operation.

(285) The gate current is used to control the flow of electrons in a field-effect transistor.

(286) The gate electrode plays a crucial role in determining the performance of a transistor.

(287) The thickness of a thin film transistor in a display panel is measured in millimicrons.

(288) The forward bias state is essential for the proper functioning of a bipolar transistor.

(289) The transistor is a three-layer device, and it can be used as an amplifier or a switch.

(290) The gate current is measured in milliamperes and determines the state of the transistor.

(291) The gate electrode is carefully optimized to achieve desired transistor characteristics.

(292) The forward bias voltage across the transistor determines its operating characteristics.

(293) The field effect transistor is a fundamental component in the design of analog circuits.

(294) The gate electrode is responsible for controlling the flow of electrons in a transistor.

(295) The transistor is a versatile component that can be used in many different applications.

(296) The transistor is a versatile device, and it can be used in many different applications.

(297) The invention of the transistor paved the way for the development of modern electronics.

(298) The invention of the transistor marked the beginning of the Solid State Electronics Era.

(299) The gate electrode is positioned between the source and drain electrodes in a transistor.

(300) The gate current is a key parameter in determining the switching speed of the transistor.

(301) The gate electrode determines the threshold voltage required for a transistor to turn on.

(302) The transistor, which is a semiconductor device, revolutionized the field of electronics.

(303) The discovery of the transistor earned three researchers the 1956 Nobel Prize in Physics.

(304) My grandfather used to repair radios with vacuum tubes before the transistor was invented.

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

(306) The drift velocity of electrons in a transistor determines its amplification capabilities.

(307) The current gain of this transistor is lower than expected due to manufacturing variations.

(308) The gate electrode is one of the key factors influencing the transistor's threshold voltage.

(309) The invention of the transistor was a major breakthrough in semiconductor device technology.

(310) The field effect transistor has greatly contributed to the advancement of modern technology.

(311) The voltage gain of a transistor circuit can be affected by variations in the supply voltage.

(312) The transistor is a small semiconductor device that amplifies or switches electronic signals.

(313) The gate electrode is patterned on the semiconductor substrate during transistor fabrication.

(314) The field effect transistor has greatly contributed to the advancement of telecommunications.

(315) The gate electrode is used to modulate the conductivity of the channel region in a transistor.

(316) The breadboard provided a convenient platform for testing different transistor configurations.

(317) John Bardeen, Walter Brattain, and William Shockley were the co-discoverers of the transistor.

(318) The electromotance of a transistor is crucial for its amplification and switching capabilities.

(319) Understanding the operation of a field effect transistor is essential for electrical engineers.

(320) I would often lend my transistor radio to friends so they could listen to their favorite music.

(321) The field effect transistor is a solid-state device that offers high reliability and stability.

(322) The metal oxide semiconductor field-effect transistor is a key component in modern electronics.

(323) The gate electrode is responsible for modulating the conductivity of the channel in a transistor.

(324) The first transistor was invented in 1947 by John Bardeen, Walter Brattain, and William Shockley.

(325) The first transistor was made of germanium, and it was a breakthrough in semiconductor technology.

(326) The voltage difference across the base-emitter junction of a transistor controls its amplification.

(327) The ohmic contact between the transistor terminals and the circuit board ensured proper functioning.

(328) The field effect transistor has replaced the older bipolar junction transistor in many applications.

(329) The characteristic curve of this transistor shows its behavior under different operating conditions.

(330) I discovered a hidden compartment in the transistor radio where my dad used to store spare batteries.

(331) The field effect transistor is a versatile component that can be used in various electronic circuits.

(332) The gate electrode is designed to have a specific width and length for optimal transistor performance.

(333) The coupling capacitor is typically placed between the collector of a transistor and the load resistor.

(334) The spin valve transistor is a device that utilizes magnetoresistance to control the flow of electrons.

(335) John Bardeen, Walter H. Brattain, and William Shockley are known as the codiscoverers of the transistor.

(336) The field effect transistor operates by controlling the flow of current through a semiconductor channel.

(337) The study of atoms has led to many technological advancements, such as the development of the transistor.

(338) The gate electrode is designed to have a high capacitance to efficiently control the transistor operation.

(339) The transistor is a key component in power electronics, and it is used to control the flow of electricity.

(340) The unipolar transistor is a type of electronic device that is commonly used in amplifiers and switching circuits.

(341) The field effect transistor is a solid-state device that relies on an electric field to control the flow of current.

(342) The transistor is a fundamental building block of modern electronics, and it has enabled many technological advances.

(343) The transistor is wired in series with the load, and it acts as a switch to control the current flowing through the load.

(344) Although the transistor was invented in 1947, it wasn't until the 1960s that it became widely used in electronic devices.

(345) The characteristic curve of this transistor shows a linear relationship between collector current and base-emitter voltage.

(346) The time it takes for a single electron to travel through a nanoscale transistor is measured in picoseconds or even attoseconds.

(347) The choice of dopant material can have a significant impact on the efficiency of a transistor, as it affects its switching speed.

(348) Free electrons in a semiconductor can be controlled by applying an electric field, and this is the principle of transistor operation.

(349) The invention of the transistor led to the development of integrated circuits, and this made computers much smaller and more powerful.

(350) The transistor is a versatile device that can be used in a wide range of applications, from simple switches to complex computer processors.

(351) The study of physics has led to countless technological advancements, from the development of the transistor to the creation of the internet.

(352) When the transistor was first introduced, it was expensive and difficult to manufacture, but over time it became cheaper and more accessible.

(353) The invention of the transistor was a major breakthrough in the field of electronics, and it paved the way for many other important discoveries.

(354) When the first transistor was created, it was made of germanium, but today most transistors are made of silicon, and they are much more efficient.

(355) Although the transistor is a relatively simple device, it has had a profound impact on the world, and it has transformed the way we live and work.

(356) Although the transistor was invented in 1947, it wasn't until the 1950s that it became widely used, and it revolutionized the electronics industry.

(357) The transistor is a small electronic device that can amplify or switch electronic signals, and it is a fundamental component of modern electronics.

(358) Although the transistor is a small and seemingly insignificant device, it has had a huge impact on the world, and it has changed the course of history.

(359) The transistor is a remarkable invention that has transformed the world of electronics, and it continues to play a vital role in the development of new technologies.

(360) The transistor is a key component in many electronic devices, such as computers, smartphones, and televisions, and it has enabled the development of many new technologies.

(361) Bloch's work on the properties of semiconductors has been instrumental in the development of modern electronics, and his findings have paved the way for innovations such as the microchip and the transistor.

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