Abstract:
A laminate for a touch panel suppresses false operation through a wide range of temperatures. A flat panel display includes the laminate. The laminate includes an adhesive layer, and a capacitance touch panel sensor, in which the adhesive layer includes a poly(meth)acrylate which is formed by polymerizing (meth)acrylate and which has a polycyclic aliphatic hydrocarbon group and a saturated chain hydrocarbon group, the (meth)acrylate compound includes at least one type or 2 or more types of (meth)acrylate X which is represented by Formula (X) and which has a polycyclic aliphatic hydrocarbon group with 7 to 30 carbon atoms and one type or 2 or more types of (meth)acrylate Y which is represented by Formula (Y) and which has a saturated chain hydrocarbon group with 8 to 30 carbon atoms, and a temperature dependency of relative permittivity of the adhesive layer and a maximum value of relative permittivity are predetermined values.
Abstract:
Provided is a laminate for a touch panel that is a laminate that is used in a touch panel, and that can prevent migration of wiring caused by incursion of moisture. The laminate for a touch panel includes a substrate; wiring that is formed on a surface of the substrate; and an adhesive layer that is in contact with the wiring and is provided on the substrate, in which moisture permeability of the adhesive layer is 40 g/(m2·day) or less, and a shortest distance from an end surface to the wiring is 500 μm or greater.
Abstract:
There is provided a conductive film laminate used in a touch panel, including: a first pressure sensitive adhesive layer; a first conductive layer; a substrate; a second conductive layer; and a second pressure sensitive adhesive layer, in this order, in which a total moisture content of the substrate, the first pressure sensitive adhesive layer, and the second pressure sensitive adhesive layer is 1.0 g/m2 or less. There are provided a conductive film laminate, in which, even in a severe environment of high temperature and high humidity, a change of electrostatic capacitance between two layers of conductive films is small, high sensitivity can be maintained, and thus operation failure or malfunction can be prevented, and a touch panel using this conductive film laminate.
Abstract:
A solid-state imaging device comprises an image sensor, a circuit board, a support plate, an IR cut filter, a taking lens, a lens holder, and a support barrel. The image sensor is mounted on the circuit board. The circuit board is fixed to the support plate with the image sensor placed inside an opening of a plate body of the support plate. The sides of the image sensor are surrounded by the support plate. The IR cut filter is fixed to the support plate so as to cover the opening. The image sensor is disposed on an exit surface side of the taking lens. The IR cut filter is disposed between the taking lens and the image sensor. A light-shielding layer is formed over entire periphery of an inner wall of the plate body. Harmful rays are blocked by the light-shielding layer.
Abstract:
A solid-state imaging device comprises a CMOS sensor, a circuit board, a ceramic plate, an IR cut filter, a taking lens, a lens holder, and a support barrel. The CMOS sensor is mounted on the circuit board. The circuit board is fixed to the ceramic plate such that the CMOS sensor is placed inside an opening of the ceramic plate. The sides of the CMOS sensor are surrounded by the ceramic plate. The IR cut filter is fixed to the ceramic plate so as to cover the opening. The CMOS sensor is disposed behind the taking lens. The IR cut filter is disposed between the taking lens and the CMOS sensor. A light-shielding layer is formed over the entire periphery of edge portions of an incident surface of the IR cut filter. Harmful rays such as reflective light is blocked by the light-shielding layer.