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Pressure Transmitter and Level Transmitter report describes the development of the industry by upstream & downstream, overall market and development, key companies, as well as type segment & market application and so on, and makes a scientific prediction for the development of global pressure transmitter industry prospects on the basis of analysis, finally, analyzes opportunities for investment in the industry at the end of the report. This report delivers a brief summary of the global high temperature pressure transmitter market and reviews the market volume. The all-inclusive report will aid users to understand the global high temperature pressure transmitter market trends, forecast trends, industry status, growth drivers, high temperature pressure transmitter market share, analysis, production, demands, supply, sales, size by key players, type, application and region, and many other aspects.
The major manufacturer operating into Pressure Transmitter and Level Transmitter market include:
1 Emerson
2 Siemens
3 ABB
4 Honeywell
5 WIKA (USA)
6 Holykell (CHINA)
7 E+H
8 Dwyer
9 Danfoss
10 KROHNE
11 Yokogawa
12 OMEGA
13 Hawk
14 Keller
15 Flowline
Global Pressure Transmitter and Level Transmitter Market: Regional Analysis
North America (U.S., Canada, Mexico)
Europe (U.K., France, Germany, Spain, Italy, Central , Eastern Europe, CIS)
Asia Pacific (China, Japan, South Korea, ASEAN, India, Rest of Asia Pacific)
Latin America (Brazil, Rest of L.A.)
Middle East And Africa(Turkey, GCC, Rest of Middle East)
Market Synopsis:
Pressure transmitters are devices that are used to measure the pressure and flow rate of fluids and gases. These are mainly used in industrial machinery to monitor the pressure levels. These devices help in preventing any accidents that might occur due to high pressure. These devices alert/warn the users about the increase in pressure. Pressure transmitters are devices used to measure the pressure of gases and liquids. They are used in industrial machinery to calculate the pressure and issue a warning if there is a sudden increase in pressure, which could lead to a catastrophe. There are three types of pressure transmitters, out of which differential pressure transmitters dominate in terms of revenue. Multivariable transmitters experience a higher growth due to the functional capabilities provided by these models. Multivariable transmitters help end-users avoid the use of an additional computer to calculate the flowrates
A level transmitter is used to measure the level of liquid or solid at any point of time. Level transmitters provide continuous information, unlike level switches that are used to raise alarm when the liquid reaches a pre-defined level. The need for continuous level monitoring and wireless detection systems for level measuring in industries is primarily driving the level transmitter market. Features such as ease of installation and remote deployment are propelling the market for global level transmitters.
On the basis of technology, level transmitters are classified into contact type and non-contact type. Radar level transmitters are mostly deployed in non-contact type. Radar transmitters measure the level of liquid by calculating the time of flight of the travelling wave, which is similar to the working principle of ultrasonic level sensors. However, radar transmitter differs from ultrasonic sensors in the waves they transmit. Radar transmitters propagate radio waves for measuring the level, while ultrasonic sensor use sound waves. In general, there are two types of radar transmitters, guided wave radar transmitters and non-contact radar transmitters. Guided wave radar transmitters use probes to guide radar waves to the surface of liquid or solid that needs to be measured. Received radar signals are collected by the antenna of the transmitter, therefore, measuring the exact level of fluid in the tank. In the case of non-contact type transmitters, the level of desired liquid or solid is obtained by the delay in receiving the signal, which is calculated within the microprocessor embedded in transmitter.
The major manufacturer operating into Pressure Transmitter and Level Transmitter market include:
1 Emerson
2 Siemens
3 ABB
4 Honeywell
5 WIKA (USA)
6 Holykell (CHINA)
7 E+H
8 Dwyer
9 Danfoss
10 KROHNE
11 Yokogawa
12 OMEGA
13 Hawk
14 Keller
15 Flowline
Global Pressure Transmitter and Level Transmitter Market: Regional Analysis
North America (U.S., Canada, Mexico)
Europe (U.K., France, Germany, Spain, Italy, Central , Eastern Europe, CIS)
Asia Pacific (China, Japan, South Korea, ASEAN, India, Rest of Asia Pacific)
Latin America (Brazil, Rest of L.A.)
Middle East And Africa(Turkey, GCC, Rest of Middle East)
Market Synopsis:
Pressure transmitters are devices that are used to measure the pressure and flow rate of fluids and gases. These are mainly used in industrial machinery to monitor the pressure levels. These devices help in preventing any accidents that might occur due to high pressure. These devices alert/warn the users about the increase in pressure. Pressure transmitters are devices used to measure the pressure of gases and liquids. They are used in industrial machinery to calculate the pressure and issue a warning if there is a sudden increase in pressure, which could lead to a catastrophe. There are three types of pressure transmitters, out of which differential pressure transmitters dominate in terms of revenue. Multivariable transmitters experience a higher growth due to the functional capabilities provided by these models. Multivariable transmitters help end-users avoid the use of an additional computer to calculate the flowrates
A level transmitter is used to measure the level of liquid or solid at any point of time. Level transmitters provide continuous information, unlike level switches that are used to raise alarm when the liquid reaches a pre-defined level. The need for continuous level monitoring and wireless detection systems for level measuring in industries is primarily driving the level transmitter market. Features such as ease of installation and remote deployment are propelling the market for global level transmitters.
On the basis of technology, level transmitters are classified into contact type and non-contact type. Radar level transmitters are mostly deployed in non-contact type. Radar transmitters measure the level of liquid by calculating the time of flight of the travelling wave, which is similar to the working principle of ultrasonic level sensors. However, radar transmitter differs from ultrasonic sensors in the waves they transmit. Radar transmitters propagate radio waves for measuring the level, while ultrasonic sensor use sound waves. In general, there are two types of radar transmitters, guided wave radar transmitters and non-contact radar transmitters. Guided wave radar transmitters use probes to guide radar waves to the surface of liquid or solid that needs to be measured. Received radar signals are collected by the antenna of the transmitter, therefore, measuring the exact level of fluid in the tank. In the case of non-contact type transmitters, the level of desired liquid or solid is obtained by the delay in receiving the signal, which is calculated within the microprocessor embedded in transmitter.
