摘要:
An improved apparatus and method for depositing thin films on a substrate. The apparatus utilizes two types of energy input. A pair of electrodes are provided in a reaction chamber and supplied with first AC electric energy at 1 to 100 MHz for generating a plasma gas in a reaction chamber therebetween. The substrate is mounted on a substrate holder to which second electric energy is supplied.
摘要:
An improved electric device and manufacturing method for the same are described. The device is for example an IC chip clothed in moulding. In advance of the moulding process, the IC chip is coated with silicon nitride in order to protect the IC chip from moisture invaded through cracks or gaps. The coating of silicon nitride is carried out by plasma CVD. Particularly, an AC voltage is applied to the IC chip during deposition for the purpose of obtaining an excellent property of the silicon nitride coating.
摘要:
An improved liquid crystal device is shown. The device comprises a pair of substrates, a liquid crystal layer disposed inbetween and a pair of electrodes formed on the opposed insides of the substrate for applying an electric field on the liquid crystal layer. Further a dielectric film is formed on a inside of the substrate of the device. In response to an electric field applied to the liquid crystal layer, an electric charge is accumulated on the dielectric film to enable the device to exhibit apparent coersive electric field.
摘要:
An improved liquid crystal device immune to contamination of the liquid crystal is shown. The liquid crystal is isolated from ion sources such as glass substrates, transparent electrodes or so on by means of a nitride layer positioned therebetween.
摘要:
A liquid crystal device including a unipolar driving source; a pair of substrates, at least one of which is transparent; a chiral smectic liquid crystal layer interposed between the substrates; and an electrode arrangement provided in order to apply an electric field normal to the liquid crystal layer, wherein the opposed inner surfaces of the substrates contiguous to the chiral smectic liquid crystal layer are formed of different materials having different surface energies such that upon application of the unipolar voltage to the chiral smectic liquid crystal, the chiral smectic liquid crystal molecules will be placed in a first state and upon removal of the unipolar voltage, the liquid crystal molecules will be returned to a second state.
摘要:
An improved liquid crystal device which is driven by applying electric field thereon is shown. The liquid crystal is contained in the device as a layer which is separated into pixel and the optical condition of which is changed by the electric field applied. Contiguous to the liquid crystal layer, a ferroelectric film is provided to impart hysteresis to the device.
摘要:
A liquid crystal display of the chiral smectic type is caused to have grey scales, by applying a voltage of an intermediate level to the liquid crystal. Within each picture element of the display, there are a number of domains of the liquid crystal layer, some being transparent while the other being opaque rendering grey tone to the picture element.
摘要:
An improved photoelectric conversion device is shown. The device includes a plurality of photoelectric semiconductor elements each of which are composed of a first electrode and a semiconductor layer and a second electrode. The opposed surfaces of semiconductor layer is completely covered by the first and second electrodes.
摘要:
A liquid crystal display of the chiral smectic type is caused to have grey scales, by applying a voltage of an intermediate level to the liquid crystal. Within each picture element of the display, there are a number of domains of the liquid crystal layer, some being transparent while the other being opaque rendering grey tone to the picture element.
摘要:
An improved liquid crystal filling device is shown. Prior to joining a substrate with another substrate between which the liquid crystal is to be charged, the liquid crystal is dropped on the substrate and then the other substrate is superimposed on the substrate under pressure. Sandwiched between the substrates, the liquid crystal spreads at high temperature.