Abstract: A detection method for stain on a light cover of a LiDAR, including: transmitting a multi-pulse sequence with pulse coding; receiving an echo; obtaining an echo pulse sequence in the echo corresponding to the multi-pulse sequence; determining whether the light cover of the LiDAR has a stain based on a time of flight (TOF) of the echo pulse sequence. The present disclosure utilizes light beams generated by a transmitter unit of the LiDAR to detect a stain on the light cover, without the necessity to add an extra light source and/or detector device. The present disclosure provides a simple structure, which saves internal space of the LiDAR. In this application, the detection is completed by using the coded time, TOF and the number of echo points, and the detection accuracy is high and the misjudgment can be avoided.

Abstract: The present invention provide an light emitting device (LED) with wide color gamut (high NTSC), and a LED backlight module with the light emitting device, the light emitting device includes at least one LED chip, wherein the LED chip is a blue or ultraviolet (UV) LED chip, the light-out surface of the LED chip is covered by a phosphor-converted layer which consists of phosphor converted materials and thermosetting colloid materials, the phosphor converted materials contain green-converted phosphor, red-converted phosphor and a special phosphor material that has strong light-absorbing properties in the wavelength range of 460-510 nm. The present invention can reduce the stringent requirements of phosphor FWHM that needs to meet for conventional high NTSC solution.

Abstract: The present invention provide an light emitting device (LED) with wide color gamut (high NTSC), and a LED backlight module with the light emitting device, the light emitting device includes at least one LED chip, wherein the LED chip is a blue or ultraviolet (UV) LED chip, the light-out surface of the LED chip is covered by a phosphor-converted layer which consists of phosphor converted materials and thermosetting colloid materials, the phosphor converted materials contain green-converted phosphor, red-converted phosphor and a special phosphor material that has strong light-absorbing properties in the wavelength range of 460-510 nm. The present invention can reduce the stringent requirements of phosphor FWHM that needs to meet for conventional high NTSC solution.

Abstract: The present invention discloses a white LED chip and method of manufacturing the same. The white LED chip includes a flip blue LED chip and a preformed conversion layer for light conversion, the method of manufacturing the white LED chip includes the steps of preparing for a preformed conversion layer for light conversion, setting up at least one cavity on the conversion layer, for receiving a blue LED chip(s), attaching the blue LED chip into the cavity; and cutting the conversion layer into a single white LED chip based on each cavity that received a blue LED chip. The invention not only enhance the luminous efficiency of the white LED chip, but also avoid the pollution to bottom electrode of the LED chip, making easier manufacture and higher binning yield.

Abstract: A series of improved processes and methods to manufacture solder bumps on the wafer which shrink the space among solder bumps and reduce the cost of manufacturing. A design method and a relevant manufacturing process are introduced to form an organic material or metal material layer, which is called a Bump-Reflow-Control Layer. The pad patterns can be defined by this method. A mechanical part is designed with a hermetic cover to improve the photoresist process. The series of photolithography process including the designing method of related photolithography mask is introduced to achieve the high quality and thick photoresist.

Abstract: A method for the fine-pitch stencil mask design for stencil printing bumping technology for eutectic Sn/Pb and lead-free solder material is described. In the method, a reflowing enhancement layer is introduced to improve the solder quality and reduce the pitch of solder bumps. The method of forming the layer is described as well as the forming method of matching under-bump metallurgy layer. The method of stencil mask design can match various sizes and pitch of the solder bumps. The designed mask is fixed on the stencil printer to deposit the solder materials with the required patterns. This method can increase the solder paste volume to increase the height of solder bumps after the reflowing process.