A manufacturing method of a thin film transistor substrate and a thin film transistor substrate are provided. In the manufacturing method of the thin film transistor substrate, a buffer layer, a metal oxide semiconductor layer, and a first insulating layer are sequentially deposited on a substrate, and then the first insulating layer and the metal oxide semiconductor layer are patterned according to a pattern of an active layer. The metal oxide semiconductor layer forms the active layer. A second insulating layer and a gate metal layer are then sequentially deposited. The first insulating layer and the second insulating layer together form a gate insulating layer. The first insulating layer can be used to protect the metal oxide semiconductor layer, such that defects on a contact surface between the active layer and the gate insulating layer are reduced, thereby improving the stability of a device.

A display device is provided including a substrate. A second semiconductor layer is disposed on the substrate. The second semiconductor layer includes Si. A second gate lower electrode overlaps a channel region of the second semiconductor layer. A second gate insulating layer is disposed on the second gate lower electrode. A second gate upper electrode and a light blocking layer are disposed on the second gate insulating layer. A first auxiliary layer is disposed on the second gate upper electrode and the light blocking layer. A first semiconductor layer overlaps the light blocking layer. The first semiconductor layer includes an oxide semiconductor. A first gate electrode overlaps a channel region of the first semiconductor layer. The first auxiliary layer includes an insulating layer including at least one compound selected from SiNx, SiOx, and SiON, and at least one material selected from F, Cl, and C.

The present disclosure is related to a thin film transistor. The thin film transistor may include an active layer; a gate insulating layer on the active layer; and a gate and a plurality of metal films on the gate insulating layer. The plurality of metal films may be spaced apart from the gate, and insulated from the gate and the active layer.

The present invention provides an array substrate, a manufacturing method thereof, and a display panel. Orthographic projections of channel layers of two types of thin film transistors in a design of a driving circuit on the array substrate at least partially overlap, that is, two thin film transistors are stacked on top of each other, thereby facilitating a narrow border design of the display panel. In addition, a channel layer of one of the thin film transistors is an amorphous oxide semiconductor layer, which can reduce node leakage in the driving circuit, which is conducive to improving circuit stability and reducing power consumption.

ESD protection devices and methods are provided. In at least one embodiment, a device includes a first stack that forms a Zener diode. The first stack includes a substrate of a first conductivity type having a first region of a second conductivity type located therein. The first area is flush with a surface of the substrate. A second stack forms a diode and is located on and in contact with the surface of the substrate. The second stack includes a first layer of the second conductivity type having a second region of the first conductivity type located therein. The second area is flush, opposite the first stack, with the surface of the first layer. A third stack includes at least a second layer made of an oxygen-doped material, on and in contact with the second stack.

There is provided a technique that enables a reduction in the display failure of a display device and the improvement of the yields of the display device in a display device that adopts a semiconductor device including a thin film transistor using an oxide semiconductor. A semiconductor device according to an embodiment includes a thin film transistor having an oxide semiconductor. The oxide semiconductor has a drain region, a source region, and a channel region provided between the drain region and the source region. The thin film transistor includes a gate insulating film provided on the channel region, an aluminum oxide film provided on the gate insulating film, an insulating film provided on the aluminum oxide film, and a gate electrode provided on the insulating film.

A thin film transistor includes an active layer, a source electrode and a drain electrode. The active layer includes a conductive region and the conductive region is between the source electrode and the drain electrode and is spaced apart from at least one of the source electrode and the drain electrode.

The present disclosure provides an array substrate, a manufacturing method of the array substrate, and a display device. The array substrate includes a hydrogen ion film formed between an active layer and a source/drain electrode of a low temperature poly-silicon thin film transistor, and a hole is formed in a region of the hydrogen ion film where a metal-oxide-semiconductor thin film transistor is disposed. Based on the hydrogen ion film, the electrical performance and stability of the low temperature poly-silicon thin film transistor are improved. Furthermore, hydrogen elements are not diffused to the region where the metal-oxide-semiconductor thin film transistor is disposed.

An object is to provide a semiconductor device having a structure with which parasitic capacitance between wirings can be sufficiently reduced. An oxide insulating layer serving as a channel protective layer is formed over part of an oxide semiconductor layer overlapping with a gate electrode layer. In the same step as formation of the oxide insulating layer, an oxide insulating layer covering a peripheral portion of the oxide semiconductor layer is formed. The oxide insulating layer which covers the peripheral portion of the oxide semiconductor layer is provided to increase the distance between the gate electrode layer and a wiring layer formed above or in the periphery of the gate electrode layer, whereby parasitic capacitance is reduced.

The purpose of the present invention is to realize the display device having thin film transistors of the oxide semiconductor of stable characteristics. An example of the concrete structure is that: A display device having a substrate including a display area, plural pixels formed in the display area, the pixel includes a first thin film transistor having an oxide semiconductor film, a first insulating film made of a first silicon oxide on a first side of the oxide semiconductor film, a second insulating film made of a second silicon oxide on a second side of the oxide semiconductor film, wherein oxygen desorption amount per unit area from the first insulating film is larger than that from the second insulating film, when measured by TDS (Thermal Desorption Spectrometry) provided M/z=32 and a measuring range in temperature is from 100 centigrade to 500 centigrade.