- RS Stock No.:
- 815-3486
- Brand:
- RS PRO
- RS Stock No.:
- 815-3486
- Brand:
- RS PRO
Technical data sheets
Legislation and Compliance
RoHS Status: Not Applicable
- COO (Country of Origin):
- GB
Product Details
RS PRO Shielding Bubble Bag, 305 x 405 mm, Pack of 5
Need a safe way to package and transport components that are sensitive to electrostatic discharge? This RS PRO shielding bag is constructed from a metallised film, laminated to anti-static bubbled polyester. This creates the 'Faraday Cage' effect, forming a cushioning air gap that protects your most sensitive devices.
There's a closure flap to keep the bag's contents secure and it's made from a semi-transparent material so you can easily identify components without reopening. It's also made from a durable and reusable puncture-resistant fabric. Shielding bags like these are used to protect fragile electronic components such as semiconductors, microchips and circuit boards.
There's a closure flap to keep the bag's contents secure and it's made from a semi-transparent material so you can easily identify components without reopening. It's also made from a durable and reusable puncture-resistant fabric. Shielding bags like these are used to protect fragile electronic components such as semiconductors, microchips and circuit boards.
Features and Benefits
Pink bubble film
Pack of five
Dimensions of 405 (height) x 305 mm (width)
Dissipative and conductive
Static shielding
Puncture resistance of >
Pack of five
Dimensions of 405 (height) x 305 mm (width)
Dissipative and conductive
Static shielding
Puncture resistance of >
25 lbs
Transparency of >
Transparency of >
15%
Discharge shielding of
Discharge shielding of
Specifications
Attribute | Value |
---|---|
Packaging Type | Shielding Bubble Bags |
Type | Bag |
Colour | Pink |
Length | 405mm |
Width | 305mm |
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 |