Description
ABB SYN5202A Industrial High Voltage Modules
ABB SYN5202A have an extensive area known as “land” to cover and find fluid passage in the ports of the valve body.The exact match between the outside diameter of the land and the inside diameter of the valve body bore is the only factor limiting leakage through this shaft valve in a closed condition.Dirty hydraulic fluid will wear out during this exact fit time until the valve is no longer able to seal fluid in its “closed” position. Extreme cycling of temperature can also affect the exact fit between the valve ring and the valve body.Pneumatic fluid power systems also require cleanliness, as any particulate contamination in the air can also cause undue wear. Compressors, motors, valves and cylinders.Unlike hydraulic fluids, compressed air is not a natural lubricant, which means that many pneumatic power units benefit from small amounts of oil vapor in the air.Pneumatic “oilers” designed to introduce lubricating oil into the flowing air stream are usually located near the point of use (e.g. (motor or cylinder) to ensure that the oil does not condense and “settle” in the air line.In general, fluid power systems tend to be inefficient and require more energy to be fed into the fluid than can be extracted at the point of use.When large amounts of energy need to be transmitted over long distances, electricity is a more practical medium. However, fluid power systems have certain advantages over electric power systems, some of which are listed here.Fluid-powered motors and cylinders are not overloaded at low speeds or in lockout situations.Fluid power systems can be safely used in underwater environmentsPneumatic systems are relatively easy to equip with back-up energy reserves (e.g., liquefied nitrogen as a back-up gas supply in the event of compressor shutdown)
Pneumatic systems are self-cleaning (i.e., naturally removing dust and vapors from the air through leakage air.
ABB SYN5202A is a device that converts one standard signal to another standard instrument signal and/or performs some processing on that signal. Often called a converter, sometimes called a “relay”. Examples: I/P converter (converts a 4-20MA electrical signal to a 3-15psi pneumatic signal), P/I converter (converts a 3-15psi pneumatic signal to a 4-20mA electrical signal).In general scientific terms, a “sensor” is a device that converts one form of energy into another, such as a microphone or thermocouple. However, in industrial instrumentation, we usually use the term “primary sensing element” to describe this concept, and reserve the term “transducer” to refer specifically to standard instrumentation signal conversion devices.This device is capable of converting a signal generated by a Primary Sensing Element (PSE) into a standardized instrument signal, such as 3-15 psi barometric pressure, 4-20 mA DC current, fieldbus digital signal packages, etc., which can then be transmitted to an indicator. These signals can then be transmitted to an indicating device, a control device, or both.Low and high range values, abbreviated as lrv and urv, respectively: Process measurements are considered to be 0% and 100% of the transmitter’s calibration range. For example, if a temperature transmitter is calibrated to measure a temperature range starting at 300 degrees Celsius and ending at 500 degrees Celsius, its level radiance will be 300 degrees Celsius and its level radiance 500 degrees Celsius.