{"data":{"allPosts":{"posts":[{"post":{"body":{"id":"a7ad2c8b-304b-5f5e-873f-12206f5d7a5f","text":"Selco was approached by a customer needing an electronic controller to replace a competitor product that would be used in a precision tank heater. The requirement was an electronic controller kit that included a proportional heating electronic control board assembly and a potentiometer assembly.\n\n![Success Story Electronics Sketch](//images.ctfassets.net/mavy5e93vdj4/5dgAKJU1BE4hoIDk0Xo5O7/0962ee9cfe3d4cac39be42ca9b2b1e45/Success_Story_Electronics_Sketch.png)\n\nWe were able to modify our custom [water heater control](https://www.selcoproducts.com/products/399-2701x-xxxx-water-heater-control \"Water Heater Control\") by removing the touch control and LED’s, accommodated a potentiometer and added the quick connect arrangement the customer needed. \n\nSpecs:\nPower supply \n90VAC to 250VAC ±10%, 50/60Hz\n\nInputs: 2\nQty 1 – Thermistor – Can program different curves\nQty 1 – Potentiometer\n\nSetpoint range: \nConfigurable - can program different ranges\n\nOutputs: 2\n1.\tTRIAC output. Up to 40A (depends on heatsink), 600V, zero-cross switching\n2.\tIndicator Light (0.5A)\n\nMating terminals:\n* ¼ Quick Connect for power input and LOAD\n* Sensor - 2 pins male, 0.1\" pitch, straight, friction lock, JST XH family\n* Potentiometer – 3 pins male, 0.1\" pitch, straight, friction lock, JST XH family\n\nOperation:\nProportional control or ON/OFF. It can be programmed based on the application\n\nOverall dimensions:\n2.5” x 3.5”, 1” height\n\nDoes this sound like something you are looking to do in your application? We can customize any of our electronic controls which are used in a variety of applications. Check out all the [industries](https://s3-us-west-2.amazonaws.com/selco-products-assets-production/resources/electronics_industry_matrix.pdf \"Industries/Applications\") these electronic controls can be used in. \n\n [Call or email us today!](https://www.selcoproducts.com/contact-us \"Contact us today!\")\n","mdx":{"code":{"body":"function _objectWithoutProperties(source, excluded) { if (source == null) return {}; var target = _objectWithoutPropertiesLoose(source, excluded); var key, i; if (Object.getOwnPropertySymbols) { var sourceSymbolKeys = Object.getOwnPropertySymbols(source); for (i = 0; i < sourceSymbolKeys.length; i++) { key = sourceSymbolKeys[i]; if (excluded.indexOf(key) >= 0) continue; if (!Object.prototype.propertyIsEnumerable.call(source, key)) continue; target[key] = source[key]; } } return target; }\n\nfunction _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; }\n\nreturn ((_ref) => {\n let {\n components\n } = _ref,\n props = _objectWithoutProperties(_ref, [\"components\"]);\n\n return React.createElement(MDXTag, {\n name: \"wrapper\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Selco was approached by a customer needing an electronic controller to replace a competitor product that would be used in a precision tank heater. The requirement was an electronic controller kit that included a proportional heating electronic control board assembly and a potentiometer assembly.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"img\",\n components: components,\n parentName: \"p\",\n props: {\n \"src\": \"//images.ctfassets.net/mavy5e93vdj4/5dgAKJU1BE4hoIDk0Xo5O7/0962ee9cfe3d4cac39be42ca9b2b1e45/Success_Story_Electronics_Sketch.png\",\n \"alt\": \"Success Story Electronics Sketch\"\n }\n })), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `We were able to modify our custom `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/products/399-2701x-xxxx-water-heater-control\",\n \"title\": \"Water Heater Control\"\n }\n }, `water heater control`), ` by removing the touch control and LED’s, accommodated a potentiometer and added the quick connect arrangement the customer needed. `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Specs:\nPower supply\n90VAC to 250VAC ±10%, 50/60Hz`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Inputs: 2\nQty 1 – Thermistor – Can program different curves\nQty 1 – Potentiometer`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Setpoint range:\nConfigurable - can program different ranges`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Outputs: 2\n1.\tTRIAC output. Up to 40A (depends on heatsink), 600V, zero-cross switching\n2.\tIndicator Light (0.5A)`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Mating terminals:`), React.createElement(MDXTag, {\n name: \"ul\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"li\",\n components: components,\n parentName: \"ul\"\n }, `¼ Quick Connect for power input and LOAD`), React.createElement(MDXTag, {\n name: \"li\",\n components: components,\n parentName: \"ul\"\n }, `Sensor - 2 pins male, 0.1\" pitch, straight, friction lock, JST XH family`), React.createElement(MDXTag, {\n name: \"li\",\n components: components,\n parentName: \"ul\"\n }, `Potentiometer – 3 pins male, 0.1\" pitch, straight, friction lock, JST XH family`)), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Operation:\nProportional control or ON/OFF. It can be programmed based on the application`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Overall dimensions:\n2.5” x 3.5”, 1” height`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Does this sound like something you are looking to do in your application? We can customize any of our electronic controls which are used in a variety of applications. Check out all the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://s3-us-west-2.amazonaws.com/selco-products-assets-production/resources/electronics_industry_matrix.pdf\",\n \"title\": \"Industries/Applications\"\n }\n }, `industries`), ` these electronic controls can be used in. `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, ` `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/contact-us\",\n \"title\": \"Contact us today!\"\n }\n }, `Call or email us today!`)));\n});","scope":"/opt/build/repo/.cache/gatsby-mdx/mdx-scopes-dir/3010b3badc54a9dfa4a4c80e419a41b2.js"},"excerpt":"Selco was approached by a customer needing an electronic controller to replace a competitor product that would be used in a precision tank…"}},"heroImage":{"fluid":{"aspectRatio":1.7783094098883572,"src":"//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=1115&h=627&q=90&fit=thumb&f=top","srcSet":"//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=279&h=157&q=90&fit=thumb&f=top 279w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=558&h=314&q=90&fit=thumb&f=top 558w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=1115&h=627&q=90&fit=thumb&f=top 1115w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=1673&h=941&q=90&fit=thumb&f=top 1673w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=2230&h=1254&q=90&fit=thumb&f=top 2230w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=3345&h=1881&q=90&fit=thumb&f=top 3345w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=3832&h=2155&q=90&fit=thumb&f=top 3832w","srcWebp":"//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=1115&h=627&q=90&fm=webp&fit=thumb&f=top","srcSetWebp":"//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=279&h=157&q=90&fm=webp&fit=thumb&f=top 279w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=558&h=314&q=90&fm=webp&fit=thumb&f=top 558w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=1115&h=627&q=90&fm=webp&fit=thumb&f=top 1115w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=1673&h=941&q=90&fm=webp&fit=thumb&f=top 1673w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=2230&h=1254&q=90&fm=webp&fit=thumb&f=top 2230w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=3345&h=1881&q=90&fm=webp&fit=thumb&f=top 3345w,\n//images.ctfassets.net/mavy5e93vdj4/5pJ1zAJeGqACjQHOnW6iD0/fe94ff72077d0c7bc54b3d9eddfbce61/Success_Story_Electronics.png?w=3832&h=2155&q=90&fm=webp&fit=thumb&f=top 3832w","sizes":"(max-width: 1115px) 100vw, 1115px"}},"author":{"name":"The Marketing Lady"},"date":"October 28","id":"2ff4727a-2f78-565a-994c-1370046a62dc","slug":"success-story-custom-electronic-controller","tags":[{"name":"customers","slug":"customers"},{"name":"custom manufacturing","slug":"custom-manufacturing"},{"name":"thermistor","slug":"thermistor"},{"name":"thermostat","slug":"thermostat"},{"name":"electronic control","slug":"electronic-control"}],"title":"Success Story - Custom Electronic Controller "}},{"post":{"body":{"id":"a8fa66cf-de8d-560c-a480-585b971ab1c4","text":"Are you looking for more common sense? Spoiler alert - Selco Products manufactures sensors too!\n\nAlong with a wide variety of electro-mechanical thermostats, there’s a whole world out there of temperature components that just sense. \n\nBy just sense, unlike thermostats that are sensing temperature AND opening/closing circuits accordingly, these sensors need some brains at the end of their wires to translate their reading into something that can be acted on and utilized.\n\nThermistors, Thermocouples, and RTD’s are all sensor options that provide a resistance or voltage output, but what makes them different than other components, such as a resistor? \n\nThese sensors’ resistance and voltage outputs mean something, that when paired with electronics utilizing the [corresponding RT (Resistance-Temperature) tables](https://s3-us-west-2.amazonaws.com/selco-products-assets-production/resources/rt_tables.pdf \"RT (Resistance-Temperature) Table\") or lookup tables, Base resistances and Beta value’s, etc., lets the system know what temperature the sensor is reading.\n\n![Common Sense Fig 7A Graph](//images.ctfassets.net/mavy5e93vdj4/1vVWhWxBwQFwVo0nTEHhwa/d7728f617c7140ef148fed898d922472/Common_Sense_Fig_7A_Graph.png)\n\nFor example, say you have a thermistor sensing the air temperature inside of a refrigerator. Someone leaves the door open too long so the air temperature starts increasing, thermistors (being NTC, or Negative Temperature Coefficient devices) “sense” this increase in air temperature by the reported resistance value decreasing. The electronics read this decrease in resistance and know the fridge is warming up, so it starts the cooling process to bring the temperature back down. \n\nWith this information...DING dinner’s ready, CRASH the ice-maker kicks on, or RUMBLE-RUMBLE the compressor in your fridge starts up!\n\nSelco can help provide all the information you need to correlate these readings and get the most out of your sensors…want to get even more technology? Check out what electronic temperature controls or “brains” needed for your next temperature control project here.\n\n","mdx":{"code":{"body":"function _objectWithoutProperties(source, excluded) { if (source == null) return {}; var target = _objectWithoutPropertiesLoose(source, excluded); var key, i; if (Object.getOwnPropertySymbols) { var sourceSymbolKeys = Object.getOwnPropertySymbols(source); for (i = 0; i < sourceSymbolKeys.length; i++) { key = sourceSymbolKeys[i]; if (excluded.indexOf(key) >= 0) continue; if (!Object.prototype.propertyIsEnumerable.call(source, key)) continue; target[key] = source[key]; } } return target; }\n\nfunction _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; }\n\nreturn ((_ref) => {\n let {\n components\n } = _ref,\n props = _objectWithoutProperties(_ref, [\"components\"]);\n\n return React.createElement(MDXTag, {\n name: \"wrapper\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Are you looking for more common sense? Spoiler alert - Selco Products manufactures sensors too!`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Along with a wide variety of electro-mechanical thermostats, there’s a whole world out there of temperature components that just sense. `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `By just sense, unlike thermostats that are sensing temperature AND opening/closing circuits accordingly, these sensors need some brains at the end of their wires to translate their reading into something that can be acted on and utilized.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Thermistors, Thermocouples, and RTD’s are all sensor options that provide a resistance or voltage output, but what makes them different than other components, such as a resistor? `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `These sensors’ resistance and voltage outputs mean something, that when paired with electronics utilizing the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://s3-us-west-2.amazonaws.com/selco-products-assets-production/resources/rt_tables.pdf\",\n \"title\": \"RT (Resistance-Temperature) Table\"\n }\n }, `corresponding RT (Resistance-Temperature) tables`), ` or lookup tables, Base resistances and Beta value’s, etc., lets the system know what temperature the sensor is reading.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"img\",\n components: components,\n parentName: \"p\",\n props: {\n \"src\": \"//images.ctfassets.net/mavy5e93vdj4/1vVWhWxBwQFwVo0nTEHhwa/d7728f617c7140ef148fed898d922472/Common_Sense_Fig_7A_Graph.png\",\n \"alt\": \"Common Sense Fig 7A Graph\"\n }\n })), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `For example, say you have a thermistor sensing the air temperature inside of a refrigerator. Someone leaves the door open too long so the air temperature starts increasing, thermistors (being NTC, or Negative Temperature Coefficient devices) “sense” this increase in air temperature by the reported resistance value decreasing. The electronics read this decrease in resistance and know the fridge is warming up, so it starts the cooling process to bring the temperature back down. `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `With this information...DING dinner’s ready, CRASH the ice-maker kicks on, or RUMBLE-RUMBLE the compressor in your fridge starts up!`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Selco can help provide all the information you need to correlate these readings and get the most out of your sensors…want to get even more technology? Check out what electronic temperature controls or “brains” needed for your next temperature control project here.`));\n});","scope":"/opt/build/repo/.cache/gatsby-mdx/mdx-scopes-dir/3010b3badc54a9dfa4a4c80e419a41b2.js"},"excerpt":"Are you looking for more common sense? Spoiler alert - Selco Products manufactures sensors too! Along with a wide variety of electro…"}},"heroImage":{"fluid":{"aspectRatio":1.7783094098883572,"src":"//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=1115&h=627&q=90&fit=thumb&f=top","srcSet":"//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=279&h=157&q=90&fit=thumb&f=top 279w,\n//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=558&h=314&q=90&fit=thumb&f=top 558w,\n//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=900&h=506&q=90&fit=thumb&f=top 900w","srcWebp":"//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=1115&h=627&q=90&fm=webp&fit=thumb&f=top","srcSetWebp":"//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=279&h=157&q=90&fm=webp&fit=thumb&f=top 279w,\n//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=558&h=314&q=90&fm=webp&fit=thumb&f=top 558w,\n//images.ctfassets.net/mavy5e93vdj4/2whqlkJafVTY1l39jrXgiS/89fbfe9250b83489216890fdb99dcaef/Common_Sense_Hero_Image.jpg?w=900&h=506&q=90&fm=webp&fit=thumb&f=top 900w","sizes":"(max-width: 1115px) 100vw, 1115px"}},"author":{"name":"Selco Products"},"date":"September 30","id":"65a8bee1-a27d-5343-a1c7-f4103f015d41","slug":"common-temperature-sense","tags":[{"name":"ask the expert","slug":"ask-the-expert"},{"name":"how it works","slug":"how-it-works"},{"name":"resistance","slug":"resistance"},{"name":"sensor","slug":"sensor"},{"name":"thermistor","slug":"thermistor"}],"title":"Common [Temperature] Sense?"}},{"post":{"body":{"id":"0be1d747-a710-5475-858f-d78d4d9013f5","text":"Selco takes pride in its ability to serve our customer’s requirements and needs without neglecting the application so we can produce great designs! We build close relationships with companies, both large and small, and help them get their crucial projects where they need to be.\n\nA most recent success for Selco was a thermistor probe design for a custom flow control manufacturer. Our Senior Mechanical Engineer, Tom Roth, designed and built prototypes for them and here is what their Test Engineering Manager had to say:\n\n__“We finished the evaluation of the [custom CP Series](https://www.selcoproducts.com/products/custom-cp-series-thermistor-probes \"CP Series\") samples that you sent us and everything went according to plan. We had no mechanical or performance issues in any of our test units and are ready to go to production. Thank you for all of your assistance on this project. I’m not sure anyone else would have been able to design such a great performing sensor with such unique design requirements.”__\n \nEach design is made possible by our talented and innovative engineers. [Need something custom](https://www.selcoproducts.com/custom-manufacturing \"Need something custom?\")?\nOur engineers provide an array of design and development services including complex 3D modeling, new product design and existing design recommendations, 3D printing, rapid prototyping, associative design tool development and much more. [Call or email us today!](https://www.selcoproducts.com/contact-us \"Contact us today!\")\n","mdx":{"code":{"body":"function _objectWithoutProperties(source, excluded) { if (source == null) return {}; var target = _objectWithoutPropertiesLoose(source, excluded); var key, i; if (Object.getOwnPropertySymbols) { var sourceSymbolKeys = Object.getOwnPropertySymbols(source); for (i = 0; i < sourceSymbolKeys.length; i++) { key = sourceSymbolKeys[i]; if (excluded.indexOf(key) >= 0) continue; if (!Object.prototype.propertyIsEnumerable.call(source, key)) continue; target[key] = source[key]; } } return target; }\n\nfunction _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; }\n\nreturn ((_ref) => {\n let {\n components\n } = _ref,\n props = _objectWithoutProperties(_ref, [\"components\"]);\n\n return React.createElement(MDXTag, {\n name: \"wrapper\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Selco takes pride in its ability to serve our customer’s requirements and needs without neglecting the application so we can produce great designs! We build close relationships with companies, both large and small, and help them get their crucial projects where they need to be.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `A most recent success for Selco was a thermistor probe design for a custom flow control manufacturer. Our Senior Mechanical Engineer, Tom Roth, designed and built prototypes for them and here is what their Test Engineering Manager had to say:`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `“We finished the evaluation of the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"strong\",\n props: {\n \"href\": \"https://www.selcoproducts.com/products/custom-cp-series-thermistor-probes\",\n \"title\": \"CP Series\"\n }\n }, `custom CP Series`), ` samples that you sent us and everything went according to plan. We had no mechanical or performance issues in any of our test units and are ready to go to production. Thank you for all of your assistance on this project. I’m not sure anyone else would have been able to design such a great performing sensor with such unique design requirements.”`)), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Each design is made possible by our talented and innovative engineers. `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/custom-manufacturing\",\n \"title\": \"Need something custom?\"\n }\n }, `Need something custom`), `?\nOur engineers provide an array of design and development services including complex 3D modeling, new product design and existing design recommendations, 3D printing, rapid prototyping, associative design tool development and much more. `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/contact-us\",\n \"title\": \"Contact us today!\"\n }\n }, `Call or email us today!`)));\n});","scope":"/opt/build/repo/.cache/gatsby-mdx/mdx-scopes-dir/3010b3badc54a9dfa4a4c80e419a41b2.js"},"excerpt":"Selco takes pride in its ability to serve our customer’s requirements and needs without neglecting the application so we can produce great…"}},"heroImage":{"fluid":{"aspectRatio":1.7783094098883572,"src":"//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=1115&h=627&q=90&fit=thumb&f=top","srcSet":"//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=279&h=157&q=90&fit=thumb&f=top 279w,\n//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=558&h=314&q=90&fit=thumb&f=top 558w,\n//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=700&h=394&q=90&fit=thumb&f=top 700w","srcWebp":"//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=1115&h=627&q=90&fm=webp&fit=thumb&f=top","srcSetWebp":"//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=279&h=157&q=90&fm=webp&fit=thumb&f=top 279w,\n//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=558&h=314&q=90&fm=webp&fit=thumb&f=top 558w,\n//images.ctfassets.net/mavy5e93vdj4/WMl1tqP11c3RqQuCB257g/894ae2bd28c6e9f22a7c2b3629512f05/sucess_story_1.png?w=700&h=394&q=90&fm=webp&fit=thumb&f=top 700w","sizes":"(max-width: 1115px) 100vw, 1115px"}},"author":{"name":"The Marketing Lady"},"date":"June 11","id":"0b7a8519-02f9-52dd-a287-403ef04998d9","slug":"Success-Story-Engineering-Capabilities","tags":[{"name":"thermistor","slug":"thermistor"},{"name":"value added","slug":"value-added"},{"name":"custom manufacturing","slug":"custom-manufacturing"}],"title":"Success Story - Engineering Capabilities"}},{"post":{"body":{"id":"cffef35f-a3e7-5953-9128-725bd3f87756","text":"__ASK OUR EXPERT - What Sensor Do I Need?__\n\nHow do you know which sensor is best for your particular application? It depends on your needs!\n\nThis post will go over three main types of non-mechanical sensors: they are the [NTC thermistor](https://www.selcoproducts.com/ntc-thermistors \"NTC thermistor\"), the [thermocouple](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"thermocouple\"), and the [RTD](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"RTD\"). We provide you some information to help you determine which one is best for your application.\n\n__Negative Temperature Coefficient (NTC) thermistor__\n![IN-01](//images.ctfassets.net/mavy5e93vdj4/6VQACqxcjtUWeG6mth3o4n/4d5fbe9a227a5338076b97af79c3054b/IN-01.jpg)\nAn [NTC thermistor](https://www.selcoproducts.com/products/in-series \"NTC thermistor\") measures temperature based on the resistance changes of a ceramic or polymer resistor. This resistance is read by an electronic control and converted into a temperature reading.\n\n____ Thermocouple____\n![Thermocouple3](//images.ctfassets.net/mavy5e93vdj4/2MP002LNclu9fN6osxvbBi/7df5112eccd0894e94b1fb32a7a91325/Thermocouple3.png)\nA [thermocouple](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"thermocouple\") uses two wires made up of different materials to produce a voltage. This voltage changes relative to the temperature, so the electronic control can read the voltage and convert it to a temperature reading. There are type J and type K.\n\n__Resistance Temperature Detector (RTD)__\n![RTD1](//images.ctfassets.net/mavy5e93vdj4/2p4cwJvq3C9qHt2bzDtKl/887f5483b64fc8d2f9e2aae342d2b0c5/RTD1.png)\nAn [RTD](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"RTD\") is like an NTC thermistor, but uses a metal resistance wire element. They can be manufactured using platinum RTDs.\n\n*So which one do I need?*\nIt depends on what is most important in your application. Do you need something very high temp? The [thermocouple](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"thermocouple\") can handle higher temperatures than the [NTC thermistor](https://www.selcoproducts.com/ntc-thermistors \"NTC thermistor\") and [RTD](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"RTD\"). Is accuracy key? Try an NTC thermistor or an RTD as they tend to have better accuracy than thermocouples. Response time critical? An NTC thermistor or thermocouple could work well. Do you need long-term stability? RTD’s are the best (though likely also the most expensive) option.\n\n__Selection chart__\n\n| Sensor Type | Temp Range | Accuracy | Response Time* | Price (USD)|\n| ------------- | ---------- | ---------- | ---------- | ---------- |\n| NTC Thermistor | -50-300°C | ±0.05-1.0°C over an accuracy range| 0.4-5 seconds| $-$$ |\n| Thermocouple| -100-1750°C | ±1.1-2.2°C | 0.1-10 seconds | $-$$ |\n| Platinum RTD | -200-1000°C | ±0.03-0.3°C at 0°C | 5-50 seconds| $$$ |\n\n*Based on bare elements. Element packaging, housing and environment can affect response time. \n\n__Typical applications for each sensor type__\n[Thermocouples](https://www.selcoproducts.com/thermocouple-and-rtd-assemblies \"Thermocouples\") are most commonly used in industrial settings. Thermocouples are vibration resistant, relatively low cost, can measure high temperatures, and have fast response times. RTDs are also suitable for high temperatures, and have the added bonus of a high immunity to electrical noise. This makes the RTD a great option for industrial automation environments or anywhere else you would find generators, motors and other high voltage equipment. Lastly, NTC thermistors are best when consistent accuracy is needed over a specific temperature range (RTDs and thermocouples measure their accuracy at 0°C only). NTC thermistors also have the best sensitivity, and are typically 2-3 times less expensive than RTD’s.\n\nArmed with this new knowledge, we hope you are better able to decide which sensor will work best for your specific application. Still not sure or have more questions? Feel free to contact Selco Products and check with a technical expert here. \n\n\nThermally Yours,\nSelco Thermal Experts\n","mdx":{"code":{"body":"function _objectWithoutProperties(source, excluded) { if (source == null) return {}; var target = _objectWithoutPropertiesLoose(source, excluded); var key, i; if (Object.getOwnPropertySymbols) { var sourceSymbolKeys = Object.getOwnPropertySymbols(source); for (i = 0; i < sourceSymbolKeys.length; i++) { key = sourceSymbolKeys[i]; if (excluded.indexOf(key) >= 0) continue; if (!Object.prototype.propertyIsEnumerable.call(source, key)) continue; target[key] = source[key]; } } return target; }\n\nfunction _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; }\n\nreturn ((_ref) => {\n let {\n components\n } = _ref,\n props = _objectWithoutProperties(_ref, [\"components\"]);\n\n return React.createElement(MDXTag, {\n name: \"wrapper\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `ASK OUR EXPERT - What Sensor Do I Need?`)), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `How do you know which sensor is best for your particular application? It depends on your needs!`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `This post will go over three main types of non-mechanical sensors: they are the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/ntc-thermistors\",\n \"title\": \"NTC thermistor\"\n }\n }, `NTC thermistor`), `, the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"thermocouple\"\n }\n }, `thermocouple`), `, and the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"RTD\"\n }\n }, `RTD`), `. We provide you some information to help you determine which one is best for your application.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `Negative Temperature Coefficient (NTC) thermistor`), React.createElement(MDXTag, {\n name: \"img\",\n components: components,\n parentName: \"p\",\n props: {\n \"src\": \"//images.ctfassets.net/mavy5e93vdj4/6VQACqxcjtUWeG6mth3o4n/4d5fbe9a227a5338076b97af79c3054b/IN-01.jpg\",\n \"alt\": \"IN-01\"\n }\n }), `\nAn `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/products/in-series\",\n \"title\": \"NTC thermistor\"\n }\n }, `NTC thermistor`), ` measures temperature based on the resistance changes of a ceramic or polymer resistor. This resistance is read by an electronic control and converted into a temperature reading.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `_`, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `_ Thermocouple__`), React.createElement(MDXTag, {\n name: \"img\",\n components: components,\n parentName: \"p\",\n props: {\n \"src\": \"//images.ctfassets.net/mavy5e93vdj4/2MP002LNclu9fN6osxvbBi/7df5112eccd0894e94b1fb32a7a91325/Thermocouple3.png\",\n \"alt\": \"Thermocouple3\"\n }\n }), `\nA `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"thermocouple\"\n }\n }, `thermocouple`), ` uses two wires made up of different materials to produce a voltage. This voltage changes relative to the temperature, so the electronic control can read the voltage and convert it to a temperature reading. There are type J and type K.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `Resistance Temperature Detector (RTD)`), React.createElement(MDXTag, {\n name: \"img\",\n components: components,\n parentName: \"p\",\n props: {\n \"src\": \"//images.ctfassets.net/mavy5e93vdj4/2p4cwJvq3C9qHt2bzDtKl/887f5483b64fc8d2f9e2aae342d2b0c5/RTD1.png\",\n \"alt\": \"RTD1\"\n }\n }), `\nAn `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"RTD\"\n }\n }, `RTD`), ` is like an NTC thermistor, but uses a metal resistance wire element. They can be manufactured using platinum RTDs.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"em\",\n components: components,\n parentName: \"p\"\n }, `So which one do I need?`), `\nIt depends on what is most important in your application. Do you need something very high temp? The `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"thermocouple\"\n }\n }, `thermocouple`), ` can handle higher temperatures than the `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/ntc-thermistors\",\n \"title\": \"NTC thermistor\"\n }\n }, `NTC thermistor`), ` and `, React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"RTD\"\n }\n }, `RTD`), `. Is accuracy key? Try an NTC thermistor or an RTD as they tend to have better accuracy than thermocouples. Response time critical? An NTC thermistor or thermocouple could work well. Do you need long-term stability? RTD’s are the best (though likely also the most expensive) option.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `Selection chart`)), React.createElement(MDXTag, {\n name: \"table\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"thead\",\n components: components,\n parentName: \"table\"\n }, React.createElement(MDXTag, {\n name: \"tr\",\n components: components,\n parentName: \"thead\"\n }, React.createElement(MDXTag, {\n name: \"th\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Sensor Type`), React.createElement(MDXTag, {\n name: \"th\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Temp Range`), React.createElement(MDXTag, {\n name: \"th\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Accuracy`), React.createElement(MDXTag, {\n name: \"th\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Response Time*`), React.createElement(MDXTag, {\n name: \"th\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Price (USD)`))), React.createElement(MDXTag, {\n name: \"tbody\",\n components: components,\n parentName: \"table\"\n }, React.createElement(MDXTag, {\n name: \"tr\",\n components: components,\n parentName: \"tbody\"\n }, React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `NTC Thermistor`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `-50-300°C`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `±0.05-1.0°C over an accuracy range`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `0.4-5 seconds`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `\\$-\\$\\$`)), React.createElement(MDXTag, {\n name: \"tr\",\n components: components,\n parentName: \"tbody\"\n }, React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Thermocouple`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `-100-1750°C`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `±1.1-2.2°C`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `0.1-10 seconds`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `\\$-\\$\\$`)), React.createElement(MDXTag, {\n name: \"tr\",\n components: components,\n parentName: \"tbody\"\n }, React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `Platinum RTD`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `-200-1000°C`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `±0.03-0.3°C at 0°C`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `5-50 seconds`), React.createElement(MDXTag, {\n name: \"td\",\n components: components,\n parentName: \"tr\",\n props: {\n \"align\": null\n }\n }, `\\$\\$\\$`)))), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `*Based on bare elements. Element packaging, housing and environment can affect response time. `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, React.createElement(MDXTag, {\n name: \"strong\",\n components: components,\n parentName: \"p\"\n }, `Typical applications for each sensor type`), React.createElement(MDXTag, {\n name: \"a\",\n components: components,\n parentName: \"p\",\n props: {\n \"href\": \"https://www.selcoproducts.com/thermocouple-and-rtd-assemblies\",\n \"title\": \"Thermocouples\"\n }\n }, `Thermocouples`), ` are most commonly used in industrial settings. Thermocouples are vibration resistant, relatively low cost, can measure high temperatures, and have fast response times. RTDs are also suitable for high temperatures, and have the added bonus of a high immunity to electrical noise. This makes the RTD a great option for industrial automation environments or anywhere else you would find generators, motors and other high voltage equipment. Lastly, NTC thermistors are best when consistent accuracy is needed over a specific temperature range (RTDs and thermocouples measure their accuracy at 0°C only). NTC thermistors also have the best sensitivity, and are typically 2-3 times less expensive than RTD’s.`), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Armed with this new knowledge, we hope you are better able to decide which sensor will work best for your specific application. Still not sure or have more questions? Feel free to contact Selco Products and check with a technical expert here. `), React.createElement(MDXTag, {\n name: \"p\",\n components: components\n }, `Thermally Yours,\nSelco Thermal Experts`));\n});","scope":"/opt/build/repo/.cache/gatsby-mdx/mdx-scopes-dir/3010b3badc54a9dfa4a4c80e419a41b2.js"},"excerpt":"ASK OUR EXPERT - What Sensor Do I Need? How do you know which sensor is best for your particular application? It depends on your needs! 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