This is an insightful video on RFID encoding schemes and standards! Understanding how RFID tags are encoded is crucial for ensuring compatibility and efficiency in various applications. The video does a great job explaining different encoding methods, helping to demystify how data is stored and transmitted via RFID technology. Whether you're looking into inventory management or automated tracking, knowing these standards can greatly enhance system performance. For those interested in exploring more about RFID technologies, I came across GAO RFID Inc. you might find it pretty useful for this topic.
"schematic" -- If you're referring to a particular format, structure or organization of data, the term used in the database and IT realm is "schema". The word "schematic" usually refers to a diagram of some sort, like an electrical or electronic circuit diagram.
Those with at least a passing familiarity with computing may be confused by this explanation of RAIN RFID Tag memory "blocks". So far as I can tell, "block" is not a term used in RAIN. What RAIN does describe are Memory Banks, and within those Banks, data is stored as Words. There are four Memory Banks: TID (tag id), EPC (or UII; product Id); User, and Reserved (used for things like passwords and locking). Within those banks, there are some number of data Words (varies according to chip), where a Word is defined as 16 bits, obviously equivalent to two bytes, or four 4-bit fields that can be displayed using hex notation as usual. When this video belabors the fact that you have to write an entire "block", this appears to be saying just that the memory is addressable word by word, which is to be expected. What would be quite useful to know is what baseline common features RFID chips are required to have (for example minimum tag id length), versus degree to which those features may be extended in different chip models and are thus the basis for distinguishing one chip from another (and tags that use each chip).
Nice video, would be cool if you could get a lot deeper into the encoding of EPC as this is still very superficial and not many people are covering this.
Appreciate the feedback. I've heard that a few times and am already preparing a follow-up video diving into more detail! Stay tuned on my channel because I plan to launch that video this month!
RAIN is still fairly recent in it's adoption over the past year, whereas GS1 has been widely recognized for many years. It also depends on your RFID system and whether your tags will be read by other organizations. If I had to boil it down to one answer, I'd say GS1, but I'd recommend contacting both for more information to see which one best fits your application.
This is an insightful video on RFID encoding schemes and standards! Understanding how RFID tags are encoded is crucial for ensuring compatibility and efficiency in various applications. The video does a great job explaining different encoding methods, helping to demystify how data is stored and transmitted via RFID technology. Whether you're looking into inventory management or automated tracking, knowing these standards can greatly enhance system performance. For those interested in exploring more about RFID technologies, I came across GAO RFID Inc. you might find it pretty useful for this topic.
Dear what you want to say about RFID chips used in industrial ink jet printers.
Hi can rf be used with package shipping
I want to learn more
"schematic" -- If you're referring to a particular format, structure or organization of data, the term used in the database and IT realm is "schema". The word "schematic" usually refers to a diagram of some sort, like an electrical or electronic circuit diagram.
Those with at least a passing familiarity with computing may be confused by this explanation of RAIN RFID Tag memory "blocks". So far as I can tell, "block" is not a term used in RAIN. What RAIN does describe are Memory Banks, and within those Banks, data is stored as Words. There are four Memory Banks: TID (tag id), EPC (or UII; product Id); User, and Reserved (used for things like passwords and locking). Within those banks, there are some number of data Words (varies according to chip), where a Word is defined as 16 bits, obviously equivalent to two bytes, or four 4-bit fields that can be displayed using hex notation as usual. When this video belabors the fact that you have to write an entire "block", this appears to be saying just that the memory is addressable word by word, which is to be expected.
What would be quite useful to know is what baseline common features RFID chips are required to have (for example minimum tag id length), versus degree to which those features may be extended in different chip models and are thus the basis for distinguishing one chip from another (and tags that use each chip).
Nice video, would be cool if you could get a lot deeper into the encoding of EPC as this is still very superficial and not many people are covering this.
Appreciate the feedback. I've heard that a few times and am already preparing a follow-up video diving into more detail! Stay tuned on my channel because I plan to launch that video this month!
Which one you prefer? Gs1 or rain?
RAIN is still fairly recent in it's adoption over the past year, whereas GS1 has been widely recognized for many years. It also depends on your RFID system and whether your tags will be read by other organizations.
If I had to boil it down to one answer, I'd say GS1, but I'd recommend contacting both for more information to see which one best fits your application.
🤣 translation 🤣
Closed-loop=paranoia
Open-loop=government control
👍
Hi