Temperature Switches Can Conserve Costs
Is your company wasting money on equipment you don't need? Companies are evaluating components and no longer paying for capabilities unnecessary to the application.
Expensive Temperature Switches Foster Fast Response
There are a number of features companies might look for when buying temperature switches. They might examine range of operation, activation set point or material compatibility with the fluid in question. Buyers might also opt for quick acting switches.
Expensive temperature switches respond to temperature changes quickly. Even small rises or falls in fluid temperature set off these switches, notifying operators or activating other equipment. This can be an important feature if the fluid is stable only in a narrow range of temperature or the equipment will be operating near the breakdown point of the chemicals involved.
However, fast response comes at a price. These temperature switch [http://www.compac.com/] can be significantly more costly than their slower responding cousins. If many switches are used, this can turn into a major cost for the buyer.
Fast Response Always Necessary?
Buyers tend to gravitate to components with the best capabilities, and yet you need to ask yourself if you really need the fast response of expensive temperature switches.
How fast does the fluid temperature change? In many cases, temperature deltas may be a fraction of a degree per second. Tanks holding large volumes aren't going to be able to change temperature quickly no matter how much heat is applied to or taken from the fluid. Fast changes occur only in small volumes of fluid.
Another question to ask is how quickly does your temperature switch need to respond? In the event temperatures fall outside nominal range, how much of a problem is it? If operators will take many minutes or even hours to respond to the problem, a fast response switch is simply wasted capability.
Cost Effective Slow Response Switches
Companies are advised to determine how fast a response they really need from their temperature switches. If they can accept slower response time, this opens up a whole range of high quality switches that respond more slowly. This may be due to a lag as the temperature change migrates through the switch casing or it may reflect the response speed of the technology used.
Low cost doesn't mean low quality. Slow response switches are reliable and efficient, but cost less than their faster response counterparts. Companies can save money by using these affordable switches rather than investing in components that provide capabilities the application will never take advantage of.
The cost of a switch may not seem like much of a savings but some applications use many switches and the cost reduction can quickly become substantial. When this same analysis is applied to other components, manufacturers can cut costs and improve profit margins.
Expensive Temperature Switches Foster Fast Response
There are a number of features companies might look for when buying temperature switches. They might examine range of operation, activation set point or material compatibility with the fluid in question. Buyers might also opt for quick acting switches.
Expensive temperature switches respond to temperature changes quickly. Even small rises or falls in fluid temperature set off these switches, notifying operators or activating other equipment. This can be an important feature if the fluid is stable only in a narrow range of temperature or the equipment will be operating near the breakdown point of the chemicals involved.
However, fast response comes at a price. These temperature switch [http://www.compac.com/] can be significantly more costly than their slower responding cousins. If many switches are used, this can turn into a major cost for the buyer.
Fast Response Always Necessary?
Buyers tend to gravitate to components with the best capabilities, and yet you need to ask yourself if you really need the fast response of expensive temperature switches.
How fast does the fluid temperature change? In many cases, temperature deltas may be a fraction of a degree per second. Tanks holding large volumes aren't going to be able to change temperature quickly no matter how much heat is applied to or taken from the fluid. Fast changes occur only in small volumes of fluid.
Another question to ask is how quickly does your temperature switch need to respond? In the event temperatures fall outside nominal range, how much of a problem is it? If operators will take many minutes or even hours to respond to the problem, a fast response switch is simply wasted capability.
Cost Effective Slow Response Switches
Companies are advised to determine how fast a response they really need from their temperature switches. If they can accept slower response time, this opens up a whole range of high quality switches that respond more slowly. This may be due to a lag as the temperature change migrates through the switch casing or it may reflect the response speed of the technology used.
Low cost doesn't mean low quality. Slow response switches are reliable and efficient, but cost less than their faster response counterparts. Companies can save money by using these affordable switches rather than investing in components that provide capabilities the application will never take advantage of.
The cost of a switch may not seem like much of a savings but some applications use many switches and the cost reduction can quickly become substantial. When this same analysis is applied to other components, manufacturers can cut costs and improve profit margins.
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