Low Resistance ITO Transparent Conductive Film

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seat: Beijing
Validity to: Long-term effective
Last update: 2018-09-30 01:06
Browse the number: 211
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Product details

2 in 1, 3 in1 AG AR anti-glare electromagnetic shielding ITO transparent conductive film

1. Introduction

The ITO electromagnetic shielding transparent conductive film is a transparent conductive film formed by coating a transparent indium tin oxide (ITO) film on the surface of different substrates (glass/PET/PC, etc.) by electron beam evaporation. The resistors achieve EMI electromagnetic interference shielding.

When the electromagnetic wave propagation path encounters the electromagnetic shielding film, it will change the transmission direction of the electromagnetic wave, effectively block the radio wave propagation, block the interference effect of the electromagnetic radiation, ensure the normal operation of the equipment, and avoid the influence of the electromagnetic radiation by the instrument and meter workers. AR glass is anti-reflective glass and AG glass is anti-glare glass.

(ITO electromagnetic shielding transparent conductive film)


2. ITO parameters:


R

Tave(450-650nm)

Rave(450-650nm)



≤20Ω

>90%

<0.5%

On demand


Transmittance Reflectance (Zoom in 24 times)



3. Application of ITO transparent conductive film:

ITO electromagnetic shielding film is widely used in military, communications, automotive electronics, medical equipment and other industries that require high light transmission, low reflectivity window electromagnetic shielding. Many electronic products, such as device windows, computer monitors, and instrumentation displays, often need to prevent electromagnetic interference between components. The electromagnetically-shielded ITO high-transparent conductive film has a much higher spectral transmittance than the metal mesh.


4. Company

As early as in the early 1980s, Kingki engineers pioneered the development of ITO transparent conductive film for tank window heating and frost protection and ITO transparent conductive film for aircraft instrument glass electromagnetic shielding. It has a long-term relationship with the Chinese Ministry of Weapons and military research institutions. In cooperation, Jinjiao Dream's ITO electromagnetic shielding transparent film is characterized by high transmittance, low reflectivity and low surface resistance, and is a major supplier in this field in China.

Kingki has long been responsible for the research and production of military optical coatings. The chief engineer has 45 years of military optical coating experience, 33 national authorized patents, and nine optical films won the People's Republic of China Science and Technology Progress Award.

Kingki has a high-rise factory with 4,100 square meters, 13 sets of advanced coating machines and complete testing equipment, and long-term mass production of high-end filters and optical coating products.

Kingki's wide range of products, excellent performance, quality and cheap, prompt delivery.


5.Your needs

ITO Transparent conductive film

needs

sides

R

spectral range

Rave

Tave

Tem/℃

l*w*h(mm)

material

using

Gluing

Electric

Num

e.g.1

A

≤15Ω

420-680nm

≤1%

≥90%

≤100

110x150x1

D263

Monitor

NO

Y

100

B

420-680nm

≤0.5%

≥99%

≤100

e.g.2

A

≤12Ω

420-680nm

≤1%

≥90%

≤100

260x150x1

B270

Monitor

YES

N

300

B

no coating




e.g.3

A

50±10Ω

420-680nm

≤10%

≥80%

≤300

110x150x1

D263

window

NO

Y

200

B

BBAR

420-680nm

≤0.5%

≥99%

≤300

yours






















Antireflection coatings can range from a simple single layer having virtu- ally zero reflectance at just one wavelength, to a multilayer system of more than a dozen layers, having virtually zero reflectance over a range of several octaves. The type used in any particular application will depend on a vari- ety of factors, including the substrate material, the wavelength region, the required performance, and the cost.

In the visible region, crown glass, which has a refractive index of around 1.52, is most commonly used. As we shall see, this presents a very different problem from infrared materials, which can have very much higher refrac- tive indices. It is convenient, therefore, to split what follows into antireflection coatings for low-index substrates and antireflection coatings for high-index substrates, corresponding roughly to the visible and infrared. Since, from the point of view of design, antireflection coatings for high-index substrates are more straightforward, they are considered first.


http://www.kkopticalfilter.com/

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