摘要:
An organic electroluminescent display apparatus and method for manufacturing same is disclosed; the method prevents the anode and the cathode from defects and short circuit, and with the suitable geometry of the electrical insulation ramparts, the mechanical properties of the cathode insulating ramparts are increased such that the adhesion between the cathode insulating ramparts and the substrate is enhanced.
摘要:
A method for manufacturing an organic electroluminescent display is disclosed; the method utilizes only one photo mask to produce the cathode ramparts and insulating layer so as to simply the manufacturing procedure, reduce the time and the cost required for manufacture and reduce the inaccuracy of alignment. The manufacturing method according to the present invention firstly forms a plurality of first display electrodes arranged in parallel on a substantially transparent substrate, and forms a non-photosensitive and a photosensitive insulating layer thereon. After proceeding a photolithography process, developing processes, the cathode ramparts and the insulating layer are formed simultaneously and the first display electrodes are exposed partially. An organic electroluminescent material is then formed on the exposed first display electrodes and a plurality of second display electrodes are formed on the organic electroluminescent material to complete an organic electroluminescent display.
摘要:
An organic electroluminescent display apparatus and method for manufacturing same is disclosed; the method prevents the anode and the cathode from defects and short circuit, and with the suitable geometry of the electrical insulation ramparts, the mechanical properties of the cathode insulating ramparts are increased such that the adhesion between the cathode insulating ramparts and the substrate is enhanced.
摘要:
An organic electro-luminescence (EL) element used for a display device has a glass substrate having a luminescent device on the inner surface, a drying layer formed on the rim of the inner surface of the glass substrate, a sealing layer formed on the rim of the inner surface of the glass substrate and surrounding the drying layer, and a sealing case bonded to the rim of the glass substrate to form an airtight space.
摘要:
A plastic substrate for OLED, fabrication method thereof and device using the substrate. The OLED comprises a plastic substrate with a deposition film of predetermined thickness formed thereon by plasma CVD. The deposition film has the formula SiOeCaHbXcYdZf (e≦2, 2−e=a+b+c+d+f), wherein X, Y and Z are periodic table IA, IIA, IIIA, IVA, VA, VIA or VIIA elements excepting H. X, Y and Z also can be selected from the group consisting of Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Pd, Ag, Pt and Au. The OLED with the plastic substrate has both glass and plastic properties, including high temperature tolerance, good gas and liquid resistance, superior planarity, and high transparency and high flexibility.
摘要翻译:一种用于OLED的塑料基板,其制造方法和使用该基板的装置。 OLED包括通过等离子体CVD在其上形成有预定厚度的沉积膜的塑料基板。 沉积膜具有以下分子式:SiO 2 C 1 H 2 C (e <= 2,2-e = a + b + c + d + f)其中X,Y和Z是周期表IA,IIA,IIIA,IVA,VA, 除了H. X,Y和Z之外的VIA或VIIA元素也可以选自Sc,Ti,V,Cr,Mn,Fe,Co,Ni,Cu,Zn,Pd,Ag,Pt和Au。 具有塑料基板的OLED具有玻璃和塑料性能,包括耐高温,气体和液体阻力好,平面性优异,透明度高,灵活性高。
摘要:
Polymer thick film resistor pastes with dimensionally stability and excellent processibility, such as coating, printing, and extruding, are disclosed. The resistor paste composition in accordance with the present invention comprises a low-k cycloaliphatic epoxy resin vehicle loaded with electrically conductive particles, a cationic photoinitiator, a thermal catalyst, and optionally a reactive diluent.
摘要:
A multichip package structure includes a substrate unit, a light-emitting unit, a control module, a frame unit and a package unit. The substrate unit includes a first chip-placing region and a second chip-placing region. The light-emitting unit includes a plurality of light-emitting chips electrically connected to the first chip-placing region. The control module includes at least one current-limiting unit and the rectifier unit electrically connected to the second chip-placing region and the light-emitting unit. The frame unit includes a first annular colloid frame surrounding the light-emitting chips and a second annular colloid frame surrounding the current-limiting unit and the rectifier unit. The package unit includes a first package colloid body surrounded by the first annular colloid frame to cover the light-emitting chips and a second package colloid body surrounded by the second annular colloid frame to cover the current-limiting unit and the rectifier unit.
摘要:
An LED package structure includes a substrate unit, a light-emitting unit, a light-reflecting unit and a package unit. The substrate unit has a substrate body and a chip-placing area, and the substrate body has a cutting chamfer formed on one side thereof. The light-emitting unit has a plurality of LED chips electrically disposed on the chip-placing area. The light-reflecting unit has an annular reflecting resin body surroundingly formed on the substrate body by coating. A distance between an outermost side of the annular reflecting resin body and an outermost side of the substrate body is between 0 and 1.5 mm, and the annular reflecting resin body surrounds the LED chips to form a resin position limiting space. The package unit has a translucent package resin body for covering the LED chips, and the position of the translucent package resin body is limited in the resin position limiting space.
摘要:
The present invention relates to a display device comprising a substrate, a display module, a lenticular lens and a glass cap. The display module is attached to the substrate and is used for emitting light. The lenticular lens is disposed above the display module and is used for changing the luminous intensity distribution of the light emitted by the display module. The glass cap is disposed above the lenticular lens and is sealed with the substrate for capping the lenticular lens and the display module. According to the display device of the invention, the disunity of the luminous intensity distribution of the light emitted by the display module in different view angles is improved, which facilitates the color control. The present invention also relates to a method of making a display device with a lenticular lens.
摘要:
A top-emission organic electro-luminescent display (OLED) has a substrate with at least a anode layer, an organic fluorescent film, at least a cathode layer, a barrier layer and a protection layer. A transparent sealing structure is glued to the top of the substrate. Wherein, the transparent sealing structure has an adhesion layer glued to the protection layer, a plurality of organic resin layers formed on the adhesion layer, a plurality of inorganic barrier layers disposed between the organic resin layers, a flexible polymer film formed on the organic resin layer, and a hard coat formed on the flexible polymer film.