S-Band Directional Antenna amd improve wifi signal

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Wire to wire Connectors Market Sales Size Share Forecast 2027

Wire to wire Connectors Market: Introduction

Wire to wire connectors are equipment used to connect two or more number of wires together. These are removable or temporary; however, some can be permanent, depending on the application. These make electrical and electronic connection and repair easy.

Moreover, they allow flexibility and modification in design of electrical circuits. Wire to wire connectors are available in various sizes depending on the wire gauges and number of wires connected together. These are extensively utilized for various applications including high speed digital communication, instrumentation, satellite communication equipment (SATCOM), cable assemblies, test and measurement, Internet of Things (IoT), 5G wireless infrastructure, smart cities and agriculture, embedded computing, precision thin substrate mounting.

Additionally, wire to wire connectors are also used in diverse industries such as consumer electronics, industrial automation, automotive and communications among others industries.

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Rising demand of electricity in emerging economies in APAC

Significant increase in industrialization in emerging economies is fueling the demand for energy in different countries across APAC such as China, India, Japan and South Korea. Furthermore, demand for network and infrastructure required to transmit power is also rising. This, in turn, is expected to increase the demand for Wire to wire connectors during the forecast period.

Demand of wire to wire connectors anticipated to remain high owing to technological advancements in telecommunication industry

Expansion of the wire to wire connectors market can be attributed to the ubiquitous usage of data and signal transmission for facilitating the various process. Trend of integrating electronics devices in various industries is gaining traction at a significant pace.

Additionally, increasing demand of various consumer electronics and communication systems is expected to boost the global Wire to wire connectors market during the forecast period

Asia Pacific to Lead Global Market for Wire to wire

In terms of region, the global wire to wire connector market can be split into: North America, Europe, Asia Pacific, South America, and Middle East & Africa

Wire to wire connector market in Asia Pacific is anticipated to expand at the maximum CAGR during the forecast period. This growth can be attributed to the factors such as the demand for high-speed connectivity and transmission bandwidth and low and stable raw material cost required for the manufacturing. Countries, such as India, Japan and China are the major contributors for the APAC wire to wire connector market.

Wire to wire connector market in North America and Europe is likely to witness stagnant growth. This market in South America and Middle East & Africa is estimated to show sluggish growth during the forecast period.

Key Players in Global Market

The global Wire to wire connector market is consolidated in nature. Prominent players operating in the global market are focusing on technological developments and expansions to meet the growing demand for wire to wire connector. Moreover, manufacturers are entering partnerships for the development of innovative products and gain higher profit margins.

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Wire to wire Connectors Market – Competition Landscape

In February 2019, AVX Corporation announced the launch of new 12–18AWG wire to wire connectors. These are designed to offer twist and pull extraction, strip and poke home insertion, and reliable wire retention.

In October 2018, RS Components announced the launch of 1.80 mm sealed wire to wire connectors. These connectors are designed to offer protection against liquid, dust, and dirt. They also fit into small spaces.

Key players operating in the global Wire to wire connector market include:

AVX Corporation

RS Components

Texas Instruments

Omron Corporation

Molex, LLC

JST (UK) Ltd.

Amphenol Corporation

Harting Technology Group

Kyocera Corporation

Global Wire to wire Connector Market: Research Scope

Global Wire to wire Connector Market, by Type

Twist-On

Push-In

Crimp-On

Global Wire to wire Connector Market, by Function

Power Transmission

Signal Transmission

Global Wire to wire Connector Market, by End use Industry

Consumer Electronics

Industrial Automation

Automotive

Communications

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All standards

NTSC, named after the National Television System Committee,[1] is the analog television system that is used in North America, and until digital conversion was used in most of the Americas (except Brazil, Argentina, Paraguay, Uruguay, and French Guiana); Myanmar; South Korea; Taiwan; Japan;[2] and some Pacific island nations and territories (see map).

The first NTSC standard was developed in 1941 and had no provision for color. In 1953 a second NTSC standard was adopted, which allowed for color television broadcasting which was compatible with the existing stock of black-and-white receivers. NTSC was the first widely adopted broadcast color system and remained dominant until the 2000s, when it started to be replaced with different digital standards such as ATSC and others.

Most countries using the NTSC standard, as well as those using other analog television standards, have switched to, or are in process of switching to newer digital television standards, there being at least four different standards in use around the world. North America, parts of Central America, and South Korea are adopting or have adopted the ATSC standards, while other countries (such as Japan) are adopting or have adopted other standards instead of ATSC. After nearly 70 years, the majority of over-the-air NTSC transmissions in the United States ceased on January 1, 2010,[3] and by August 31, 2011[4] in Canada and most other NTSC markets.[5] The majority of NTSC transmissions ended in Japan on July 24, 2011, with the Japanese prefectures of Iwate, Miyagi, and Fukushima ending the next year.[4] After a pilot program in 2013, most full-power analog stations in Mexico left the air on ten dates in 2015, with some 500 low-power and repeater stations allowed to remain in analog until the end of 2016. Digital broadcasting allows higher-resolution television, but digital standard definition television continues to use the frame rate and number of lines of resolution established by the analog NTSC standard.NTSC color encoding is used with the System M television signal, which consists of  30⁄1.001 (approximately 29.97) interlaced frames of video per second. Each frame is composed of two fields, each consisting of 262.5 scan lines, for a total of 525 scan lines. 483 scan lines make up the visible raster. The remainder (the vertical blanking interval) allow for vertical synchronization and retrace.

Advanced Television Systems Committee (ATSC) standards are a set of standards for digital television transmission over terrestrial, cable, and satellite networks. It is largely a replacement for the analog NTSC standard, and like that standard, used mostly in the United States, Mexico and Canada. Other former users of NTSC, like Japan, have not used ATSC during their digital television transition.

The ATSC standards were developed in the early 1990s by the Grand Alliance, a consortium of electronics and telecommunications companies that assembled to develop a specification for what is now known as HDTV. The standard is now administered by the Advanced Television Systems Committee. The standard includes a number of patented elements, and licensing is required for devices that use these parts of the standard. Key among these is the 8VSB modulation system used for over-the-air broadcasts.

ATSC includes two primary high definition video formats, 1080i and 720p. It also includes standard-definition formats, although initially only HDTV services were launched in the digital format. ATSC can carry multiple channels of information on a single stream, and it is common for there to be a single high-definition signal and several standard-definition signals carried on a single (former) NTSC channel allocation.The ATSC system supports a number of different display resolutions, aspect ratios, and frame rates. The formats are listed here by resolution, form of scanning (progressive or interlaced), and number of frames (or fields) per second (see also the TV resolution overview at the end of this article).

For transport, ATSC uses the MPEG systems specification, known as an MPEG transport stream, to encapsulate data, subject to certain constraints. ATSC uses 188-byte MPEG transport stream packets to carry data. Before decoding of audio and video takes place, the receiver must demodulate and apply error correction to the signal. Then, the transport stream may be demultiplexed into its constituent streams.

MPEG-2 Edit

There are four basic display sizes for ATSC, generally known by referring to the number of lines of the picture height. NTSC and PAL image sizes are smallest, with a width of 720 (or 704) and a height of 480 or 576 lines. The third size is HDTV images that have 720 scan lines in height and are 1280 pixels wide. The largest size has 1080 lines high and 1920 pixels wide. 1080-line video is actually encoded with 1920×1088 pixel frames, but the last eight lines are discarded prior to display. This is due to a restriction of the MPEG-2 video format, which requires the height of the picture in luma samples (i.e. pixels) to be divisible by 16.

The lower resolutions can operate either in progressive scan or interlaced mode, but not the largest picture sizes. The 1080-line system does not support progressive images at the highest frame rates of 50, 59.94 or 60 frames per second, because such technology was seen as too advanced at the time. The standard also requires 720-line video be progressive scan, since that provides better picture quality than interlaced scan at a given frame rate, and there was no legacy use of interlaced scan for that format. The result is that the combination of maximum frame rate and picture size results in the same maximum number of samples per second for both the 1080-line interlaced format and the 720-line format, as 1980*1080*30 is equal to 1280*720*60. A similar equality relationship applies for 576 lines at 25 frame per second versus 480 lines at 30 frames per second.

A terrestrial (over-the-air) transmission carries 19.39 megabits of data per second (a fluctuating bandwidth of about 18.3 Mbit/s left after overhead such as error correction, program guide, closed captioning, etc.), compared to a maximum possible MPEG-2 bitrate of 10.08 Mbit/s (7 Mbit/s typical) allowed in the DVD standard and 48 Mbit/s (36 Mbit/s typical) allowed in the Blu-ray disc standard.

Although the ATSC A/53 standard limits MPEG-2 transmission to the formats listed below (with integer frame rates paired with 1000/1001-rate versions), the U.S. Federal Communications Commission declined to mandate that television stations obey this part of the ATSC's standard. In theory, television stations in the U.S. are free to choose any resolution, aspect ratio, and frame/field rate, within the limits of Main Profile @ High Level. Many stations do go outside the bounds of the ATSC specification by using other resolutions – for example, 352 x 480 or 720 x 480.

"EDTV" displays can reproduce progressive scan content and frequently have a 16:9 wide screen format. Such resolutions are 704×480 or 720×480[citation needed] in NTSC and 720×576 in PAL, allowing 60 progressive frames per second in NTSC or 50 in PAL.

Phase Alternating Line (PAL) is a colour encoding system for analogue television used in broadcast television systems in most countries broadcasting at 625-line / 50 field (25 frame) per second (576i). Other common colour encoding systems are NTSC and SECAM.

All the countries using PAL are currently in process of conversion or have already converted standards to DVB, ISDB or DTMB.PAL usually has 576 visible lines compared with 480 lines with NTSC, meaning that PAL has a 20% higher resolution, in fact it even has a higher resolution than Enhanced Definition standard (854x480).[citation needed] Most TV output for PAL and NTSC use interlaced frames meaning that even lines update on one field and odd lines update on the next field. Interlacing frames gives a smoother motion with half the frame rate. NTSC is used with a frame rate of 60i or 30p whereas PAL generally uses 50i or 25p; both use a high enough frame rate to give the illusion of fluid motion. This is due to the fact that NTSC is generally used in countries with a utility frequency of 60 Hz and PAL in countries with 50 Hz, although there are many exceptions. Both PAL and NTSC have a higher frame rate than film which uses 24 frames per second. PAL has a closer frame rate to that of film, so most films are sped up 4% to play on PAL systems, shortening the runtime of the film and, without adjustment, slightly raising the pitch of the audio track. Film conversions for NTSC instead use 3:2 pull down to spread the 24 frames of film across 60 interlaced fields. This maintains the runtime of the film and preserves the original audio, but may cause worse interlacing artifacts during fast motion