Setra Blog


July 24, 2013

How Do Shock & Vibration Affect a Pressure Transducer?

Shock & vibration are two potential mechanical problems for pressure transducers.

Shock is a sudden, unexpected impact that transmits energy to a device in a relatively short time interval. For a pressure transducer, that energy passes through the stainless steel up through the housing. Shock may originate from rough transportation and handling, such as by trucks, forklifts and conveyors. Alternately, shock can be caused simply by dropping the transducer on the shop floor or by an assembler slamming a cabinet door adjacent to it. A transducer may not be damaged by a single shock, but can experience fatigue failure with numerous low-level shocks over the course of its life.

Continue Reading →

July 10, 2013

Will Extreme Temperatures Cause Transducer Failures?

Excessively high temperatures are a common source of pressure transducer difficulties.

Like most other electronic equipment, pressure transducers are effected by temperature, shock and vibrations. They consist of numerous components that only function within specified temperature ranges. Transducers exposed to temperatures exceeding those ranges during the assembly process can be adversely affected.

Continue Reading →

April 03, 2013

Top 3 Design Considerations When Selecting an Industrial Pressure Transducer

After reviewing the top 5 product considerations (pressure, media, temperature, and environment) in which the pressure transducer will be installed, it’s time to look at transducer construction, circuit design and the pressure transducer manufacturer's supply chain.

Continue Reading →

November 28, 2012

Manufacturing in the US with the American Recovery & Reinvestment Act (ARRA)

On the heels of an economic crisis, the President of the United States signed the American Recovery & Reinvestment Act (ARRA) in 2009 with the goal of:

Continue Reading →

November 14, 2012

What applications are suitable for capacitive pressure transducers?

Capacitive pressure transducers have earned a reputation for consistently high accuracy and unmatched long-term stability. These sensors find broad application in areas where characteristics rate from important to vital. A few of these include:

Continue Reading →

October 24, 2012

8 Operating Features of Capacitance Based Transducers

Capacitance based pressure transducers provide many benefits over other technologies. 8 features that should be considered when choosing a pressure transducer are accuracy, minimal mechanical motion, range capabilities, long term stability, high-level output, media compatibility, electromagnetic compatibility and resistant to harsh environments..

Continue Reading →

October 17, 2012

Commonly Used Pressure Terminology & Acronyms

Often we hear terms used to describe pressure transducers or terms commonly used in the HVAC/R and industrial industries, but there may be some confusion as to their meaning. Here are a few commonly used terms and their definitions.

Continue Reading →

October 10, 2012

What are Capacitance Based Pressure Transducers?

Equipment designers today can choose from an impressive array of commercially available pressure sensors. 

Sensing devices range from modern versions of the venerable manometer and Bourdon tube, through bonded strain gauges to sophisticated units using, deposited or ion-implanted piezoresistive semiconductor elements on silicon or sapphire substrates.

Continue Reading →