Our product range of NeoTAG® HF RFID transponders/ RFID chips is constantly being expanded and new transponder versions are regularly added. In connection with the use of our transponders, we have compiled a large amount of background information on mounting, function, design, operating behaviour, etc. due to the many applications in which the products are used. As a supplement to our Product Information HF RFID Transponder data sheet, this article contains further technical explanations and application-supporting information.
The NeoTAG® plug transponders have a special design on the outside of the housing. This creates very good holding forces that fix the transponder in the drilled hole. Extensive tests were carried out to determine the holding forces in the marking object.
Depending on the size of the NeoTAG® Plug version, the following ejection forces can be determined at room temperature:
| NeoTAG® Plug version | Picture | Push-out force F without temperature load / N |
|---|---|---|
| Plug 3326 |  | 105 |
| Plug 4335 |  | 110 |
| Plug 8335 |  | 161 |
| Plug 10340 |  | 195 |
| Plug 4670 |  | 115 |
Push-out forces can be changed by varying the drill hole diameter.
The following values apply to the NeoTAG® Plug MFG/FG4335:
Increasing the recommended drill hole diameter by 0.1 mm leads to a reduction of the push-out force of approx. 40 %, i.e. it is still approx. F = 65 N.
Reducing the recommended drill hole diameter by 0.1 mm leads to an increase of the push-out force of 20 %, i.e. it is approx. F = 130 N.
Reducing the recommended drill hole diameter by 0.2 mm leads to an increase of the push-out force of 40 %, i.e. it is approx. F = 155 N.
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