Channel: RealPars

Category: Education

Tags: thermocouple connectionplc thermocouple input modulewire a thermocouple to a plchow to wire a thermocouple to a plcthermocouple wire typesthermocouple plck type thermocouple wiringthermocouple type kcold junction compensationplc thermocouple modulesthermocouple signals to plcthermocouplethermocouple extension wiresthermocouple wiring diagramthermocouple connection diagramthermocouple typesextending thermocouple wireswire a thermocouple

Description: ▶ C'mon over to realpars.com where you can learn PLC programming faster and easier than you ever thought possible! ▶ You can read the full post here realpars.com/thermocouple-plc ⌚Timestamps: 00:00 - Intro 00:36 - Junctions and voltages 01:08 - Thermocouple types 01:57 - Connect a thermocouple to a PLC 03:06 - 1) Connected directly to PLC 03:59 - 2) Located at a distance from the PLC ============================= In this video, we’re going to show you how to wire a thermocouple to a PLC analog input module. We’re also going to discuss thermocouple Cold Junction Compensation and challenges when working with Extension wires. A thermocouple is made up of two dissimilar metal wires. These two dissimilar metals are joined together at one end and open at the other end. The joined end is called the Measurement Junction. Heat applied to the Measurement Junction will produce a voltage across the open end. As the applied heat increases, so does the open-ended voltage. Thermocouple manufacturers have purposely chosen metal wire pairs that produce 0 volts at 0 °C. Certain wire pairs have become popular as industry standards and assigned letters to indicate their Type. For example, a Type K thermocouple is made from alloys Chromel and Alumel. Thermocouple Tables have been produced listing the resulting voltage at specific temperature values. Well, if we want to make a temperature reading it seems easy enough! All we need to do is measure the open-end voltage. Unfortunately, it isn’t that easy. - First of all, the voltages produced are very small and the actual change in voltage per degree Celsius is minuscule. - Secondly, as soon as you connect a measuring device to the open end, you create more junctions that create unwanted voltages! Most PLC vendors offer Thermocouple modules. These specially designed analog modules provide what’s referred to as Cold Junction Compensation that eliminates the effect of any new junctions created. The Siemens 6ES7 531-7PF00-0AB0 is an Analog Input module capable of connecting eight thermocouples. This particular module offers several options for providing cold junction compensation. Why are there different options? Well, for one reason, the cold junction can be at different locations depending upon the application and the location of the thermocouple. Scenario #1: Let’s look at an application where the thermocouple is connected directly to one of the module inputs. In this example, we’re wiring a Type K thermocouple to terminals 3 and 4 of the module. The positive yellow-insulated wire is connected to Terminal 3. The negative red-insulated wire is connected to Terminal 4. As a rule of thumb, thermocouple wires with red insulation are negative. In this wiring scenario, the Cold Junction is right at the terminals of the analog module. The module has an internal sensor that can compensate for the cold junction. The Thermocouple Type and the source of cold junction compensation are configured in the Siemens STEP 7 software program. Scenario #2: What if the thermocouple was located at a distance from the PLC? In this scenario, you can use the thermocouple extension wire because using standard copper wire creates new junctions and unwanted voltages. A thermocouple extension wire is made of the same material as the thermocouple thereby eliminating any possible new junctions. Using thermocouple termination blocks will ensure that new junctions are not created. With thermocouple extension wires, the Cold Junction is at the terminals of the analog module and therefore the module can be configured as in our first scenario. With thermocouple extension wires, the Cold Junction is at the terminals of the analog module and therefore the module can be configured as in our first scenario. ============================= Get a RealPars pro membership: learn.realpars.com/bundles/pro ============================= Missed our most recent videos? Watch them here: realpars.com/lvdt realpars.com/pressure-transducer realpars.com/end-of-arm_tool ============================= Thermocouple Explained | Working Principle realpars.com/thermocouple What is a Temperature Sensor? realpars.com/temperature-sensor Temperature Transmitter Explained realpars.com/temperature-transmitter ============================= To stay up to date with our last videos, make sure to subscribe to this YouTube channel: bit.ly/realpars ============================= TWEET THIS VIDEO: ctt.ac/esbL4 ============================= Follow us on Facebook 👉 facebook.com/therealpars Follow us on Twitter 👉 twitter.com/realpars Follow us on LinkedIn 👉 linkedin.com/company/realpars Follow us on Instagram 👉 instagram.com/realparsdotcom #RealPars #Thermocouple #Industry