Thank you for the video . The only thing I wish was you showing on the schematic which points your were testing between a little more clearer. Otherwise I quite enjoyed your vid . Thank you for your effort to teach us things the technicons failed to do
Good Teaching! Just A Tip For The Young Bucks & Doe's Out There! When Your In Industrial Manufacturing As A Technician Responsible For Troubleshooting, Fixing And Preventive Maintenance Of Equipment. Your Ultimately Responsible For Optimum Up Time, Output And Quality Of Equipment And The Products Being Produced & Processed! Therefore, There's Not Much Time In Production For Testing & Troubleshooting! Remove Smoking, Burnt Defective Modules, Assemblies, Devices, Etc! Swapping Them With New Ones Whenever Possible! Once Verified The Equipment Was Up And Running In Optimum Condition By Troubleshooting With New Modules Along With All Other Equipment Of Responsibility Being Up And Running! Take The Suspect Modules, Etc, In Engineering/Technicians Lab To Repair By Opening And Removing, Replacing Said Burnt Defective Components! Then, Test As Needed Or You Could Send Them Out For Repair Or Replacement To Vendor(s) Depending On Free Time Of Up/Down Time Of High Volume Production Equipment! Most Of The Time As A Technician You Have To Learn To Put Out The Fire(s) And Read Every Vendor(s) Machine And Equipment User/Troubleshooting And Repair Manual You Can! The Internet Wont Always Be Here Or Up & Available Due To Censorship Or Who Knows What!?! Thus, There's Always Time To Learn To Wash, Polish And Wax The Fire Truck After It's Repaired, Maintained & In Working Order If You Spend Time Wisely Reading The User & Repair Manuals! 😎
Very nice. Helped a lot. Thank you. In my VFD 9600D-1T-00220M case, the brake resistor is internal. It has two output connectors to attach an external resistor but was internally not wired, so I had to open it to access P+ and P-.
Nice video - maybe you will be interested to know that the wiring in the bridge rectifier is what "magically" turns AC into the full wave rectified DC . The capacitor takes this wavy DC and then smooths that into the power that is used on the DC bus . The bridge rectifier wiring does some crafty re-routing to achieve this which had me confused for a while .... how does negative become positive ?? Regardless of the side that the AC wave is on compared to the zero volts line it is all voltage potential so half of the bridge flips the lower ( negative part of the AC wave ) up to the top to give you full rectification - no gaps ! Hope that helps
I don't believe so, a bridge rectifier turns AC to DC, an SCR in my understanding is a Thyristor with a Gate that will only conduct when the right current is applied to the Gate.
One possible solution is when configuring parameters, particularly current limits, you go for the upper limit. That value can give you an idea of that vsd capabilities Greetings from Colombia
Nice.simple.clear .suspect a grumpy VFD on my lovely old skool mill, this film gives me the enthusiasm to investigate .subbed.
Very good have 27kv pump motors and 12 wire soft start motors at work good testing thanks
Very useful I actually came across one today and I needed this video
This is why I make them, glad you found it useful
Thank you for the video . The only thing I wish was you showing on the schematic which points your were testing between a little more clearer. Otherwise I quite enjoyed your vid . Thank you for your effort to teach us things the technicons failed to do
Thanks for the feedback, I will try to do an update on the schematic
@@engineeringsupport247 I'd very much like that . Thank you so much ...legend
Good Teaching!
Just A Tip For The Young Bucks & Doe's Out There! When Your In Industrial Manufacturing As A Technician Responsible For Troubleshooting, Fixing And Preventive Maintenance Of Equipment.
Your Ultimately Responsible For Optimum Up Time, Output And Quality Of Equipment And The Products Being Produced & Processed! Therefore, There's Not Much Time In Production For Testing & Troubleshooting!
Remove Smoking, Burnt Defective Modules, Assemblies, Devices, Etc! Swapping Them With New Ones Whenever Possible! Once Verified The Equipment Was Up And Running In Optimum Condition By Troubleshooting With New Modules Along With All Other Equipment Of Responsibility Being Up And Running! Take The Suspect Modules, Etc, In Engineering/Technicians Lab To Repair By Opening And Removing, Replacing Said Burnt Defective Components! Then, Test As Needed Or You Could Send Them Out For Repair Or Replacement To Vendor(s) Depending On Free Time Of Up/Down Time Of High Volume Production Equipment! Most Of The Time As A Technician You Have To Learn To Put Out The Fire(s) And Read Every Vendor(s) Machine And Equipment User/Troubleshooting And Repair Manual You Can! The Internet Wont Always Be Here Or Up & Available Due To Censorship Or Who Knows What!?!
Thus, There's Always Time To Learn To Wash, Polish And Wax The Fire Truck After It's Repaired, Maintained & In Working Order If You Spend Time Wisely Reading The User & Repair Manuals! 😎
Very nice. Helped a lot. Thank you.
In my VFD 9600D-1T-00220M case, the brake resistor is internal. It has two output connectors to attach an external resistor but was internally not wired, so I had to open it to access P+ and P-.
Sounds like a nightmare, but good work for figuring it out 👍
Good video with a straight forward and simple explanation of theory. I work in hvac and run into these quite a lot. Just subbed.
Thanks
Nice one, I have an issue with a seimen 120 ac drive. When you put power on the 3phase incoming I don't get a DC voltage on the capacitor side.
"They explode a bit and let the smoke out.." LMAO...
Nice video - maybe you will be interested to know that the wiring in the bridge rectifier is what "magically" turns AC into the full wave rectified DC . The capacitor takes this wavy DC and then smooths that into the power that is used on the DC bus . The bridge rectifier wiring does some crafty re-routing to achieve this which had me confused for a while .... how does negative become positive ?? Regardless of the side that the AC wave is on compared to the zero volts line it is all voltage potential so half of the bridge flips the lower ( negative part of the AC wave ) up to the top to give you full rectification - no gaps ! Hope that helps
Thanks, that takes me back to college. It also stumped me for ages how the rectifier works.
So when your checking reverse bias, you want an infinite or OL reading?
I believe this depends on the meter, my Fluke multi meter will show OL and my Megger Low ohm meter will show infinity.
Good explanation, THANK YOU!
Thanks 👍
excellent video learned a lot, nicely explained
Thanks
Wow great tutorial.. please make more educational video.. you deserve to be subscribe.
Thanks, what other topics would you like to hear about?
Thanks, dear.
When you call those a bridge rectifier, is that the same thing as SCR silicone current rectifier
I don't believe so, a bridge rectifier turns AC to DC, an SCR in my understanding is a Thyristor with a Gate that will only conduct when the right current is applied to the Gate.
Great Content Learned Alot
Thanks - I really should do more content!
can you show how find out the kw of a vfd that has no data plate ?
I don’t know how to do that sorry
One possible solution is when configuring parameters, particularly current limits, you go for the upper limit. That value can give you an idea of that vsd capabilities
Greetings from Colombia
@@engineeringsupport247 can you post more videos very helpful
Panel got 'cleaned' 😂. I know exactly what you mean! 'hygiened' by any chance 😂
Yeah lol “what would happen if I put a high pressure hose on that”
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