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RTM-X22 | Pluggable Phase Change Pad

Harmonization Code : 3824.99.96.99 |   Prepared binders for foundry moulds or cores; chemical products and preparations of the chemical or allied industries (including those consisting of mixtures of natural products), not elsewhere specified or included : Other : Other: Other
RTM-X22 | Pluggable Phase Change Pad
RTM-X22 | Pluggable Phase Change Pad
RTM-X22 | Pluggable Phase Change Pad
Main features
  • 0.7 Thermal Impedance
  • >50 Pluggable performance
  • 0.15 - 0.22mm Thickness

Product Description

Honeywell RTM-X22, a pluggable thermally conductive Phase Change Material (PCM), offers multiple pluggable performance. It is designed to minimize thermal resistance at interfaces, maintain excellent performance through reliability testing, and provide scalable application at a competitive cost.

Based on a novel polymer PCM system, Polyimide (PI) film was used as substrate, allowing direct contact of PCM to provide multiple pluggable performance. The edge is coated with pressure sensitive adhesive (PSA) to provide adhesion with other devices. This material exhibits excellent wetting at interfaces during typical operating temperature ranges, resulting in very low surface contact resistance.

Honeywell RTM-X22 Pluggable TIM for pluggable optical modules reduces operational temperature and can withstand repeated mechanical insertions. We can share a plethora of Technical Information with a signed NDA. Contact us for more information.

Product Family
RTM-X22  
13mm x 34mm x 0.25mm

Catalog Product

Unlike other products we offer, the products listed on this page cannot currently be ordered directly from the website.
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Packaging
TDS, SDS & Technical documents

Technical Specifications

General Properties
Thickness range 0.15 - 0.22 mm
Electrical Properties
Breakdown Voltage
Breakdown Voltage
Breakdown voltage is the minimum voltage necessary to force an insulator to conduct some amount of electricity.
It is the point at which a material ceases to be an insulator and becomes a resistor that  conducts electricity at some proportion of the total current. 

After dielectric breakdown, the material may or may not behave as an insulator any more because of the molecular structure alteration. The current flow tend to create a localised puncture that totally alters the dielectric properties of the material.

This electrical property is thickness dependent and is the maximum amount of voltage that a dielectric material can withstand before breaking down. The breakdown voltage is calculated by multiplying the dielectric strength of the material times the thickness of the film.
 5000 V
Thermal Properties
Thermal Impedance 0.7 °C·cm²/W