- RS Stock No.:
- 815-3499
- Manufacturer:
- RS PRO
- RS Stock No.:
- 815-3499
- Manufacturer:
- RS PRO
Product overview and Technical data sheets
Legislation and Compliance
RoHS Status: Not Applicable
- COO (Country of Origin):
- GB
Product Details
RS PRO Shielding Bubble Bag, 255 x 355 mm, Pack of 5
This shielding bag from RS PRO provides excellent ESD(electrostatic discharge) protection for transporting and packaging electronic components. It's made from a metallised film that's laminated to anti-static bubbled polyester, so it creates a cushioning air gap to shield your devices from ESD.
The bag has a closure flap for secure packaging, and it's partially transparent to allow for easy identification of the contents. You can also reuse it thanks to its heavy-duty, puncture-resistant construction. This shielding bag is often used to protect components such as microchips, semiconductors and circuit boards for safe storage and shipping.
The bag has a closure flap for secure packaging, and it's partially transparent to allow for easy identification of the contents. You can also reuse it thanks to its heavy-duty, puncture-resistant construction. This shielding bag is often used to protect components such as microchips, semiconductors and circuit boards for safe storage and shipping.
Features and Benefits
- Pink bubble film
- Pack of five
- Dimensions of 355 (height) x 255 mm (width)
- Dissipative and conductive
- Static shielding
- Transparency of >15%
- Puncture resistance of >25 lbs
- Polyester thickness of 13 microns
- Anti-static
- Complies with EN 61340-5-1 and packaging standard IEC 61340-5-3 per IEC 61340-2-3, ANSI/ESD STM11.31 standards for packaging
- Made in the UK
Specifications
Attribute | Value |
---|---|
Packaging Type | Shielding Bubble Bags |
Type | Bag |
Colour | Pink |
Length | 355mm |
Width | 255mm |
Quantity Per Package | 5 |
Dissipative | Yes |
Conductive | Yes |
Closure Type | Flap |
Static Shielding | Yes |
Complies with EN 61340-5-1 | Yes |
Tensile Strength | > 15 lbs/in^2 |
Surface Resistance | 1 x 10^4 → < 1 x 10^11Ω |