Efficient Encapsulation, Zero Compromise | Elaplus Brings Comprehensive Protection to PCB
What is PCB?PCB, Printed circuit board, also known as printed circuit board, commonly abbreviated as PCB or PWB, is an important electronic component that serves as the support for electronic components and the carrier for their electrical interconnection. As it is made using electronic printing technology, it is called “printing”. Circuit boards are susceptible to adverse external factors during use, therefore ELAPLUS provides a range of PCB protection materials: PCB coating; Fixed components, heating devices, thermal conductivity, etc.Why choose ELAPLUS?Excellent waterproof, earthquake resistant, and absorption of expansion and contraction, corona resistance, and leakage resistanceCan form a durable coating to separate water vapor and pollutants; It can enhance the moisture and dirt resistance of electronic circuits and components, prevent solder joints and conductors from being corroded.ELAPLUS material recommendationCoating protective film is also beneficial for the wear resistance and solvent resistance of circuits and components, and can release the pressure caused by periodic temperature changes.Excellent high and low temperature resistance, weather resistance, and electrical insulation performancePCB Three DefensesCOATING 9067Solvent based, single component, transparent, ROHS compliant, low halogen, low viscosity, surface drying time 20-40min, 47% hydrocarbon solvent, easy to repairCOATING 9060Solvent free, single component, transparent, containing fluorescent indicator, low viscosity of 600cps, preliminary curing for 30 minutes (adhesive thickness of 0.1mm, 25 ° C)PCB thermal bondingSIPC 1908Single component silicone, dealcoholized titanium, low volatility, multiple product states to choose from (paste thixotropy, paste micro stepping), multiple hardness options (ShoreA3560), flame retardant UL 94 V-0SIPC 1910Single component silicone with high adhesive strength, fast curing speed, low volatility, and excellent resistance to yellowingPCB thermal managementTCMP 19351: 1. Mixing (thixotropic), low stress application, easy operation, low hardness and micro adhesion, compliant with ROHS, halogen-free, REACH certificationSIGR 2200 seriesThermal conductivity: 1.2-5.0W/m.K, low settling, room temperature storage, superior high and low temperature resistance, excellent weather resistance, radiation resistance, and…
Silicone Potting Gel for Thyristor, IGBT, SCR Rectifier modules
Shanghai Elaplus is a professional supplier of silicone, epoxy and polyurethane potting compound. In SCR Rectifier filed, we have rich experience, below is our silicone potting gel solution for SCR Rectifier. Thermal conductivity potting compound for Three-phase SCR Rectifier chip Silicone potting gel for SCR Rectifier bottom, polyurethane and epoxy potting on top of SCR Rectifier Silicone potting gel for IGBT SCR Rectifier Shell bonding and sealing for IGBT Rectifier Thermal grease heat dissipation for SCR Rectifier bottom
Learn about electronic epoxy encapsulation/potting materials in this article
Learn about electronic epoxy encapsulation/potting materials in this article
What is a photoelectric sensor? Why do photoelectric sensors need potting materials?
In modern automation and industrial control systems, photoelectric sensors are widely used in various detection and control fields as a key component. photoelectric sensors play an irreplaceable role whether in automatic door switch detection or object recognition on the production line, However, due to the complex and diverse application environments, photoelectric sensors need to rely on potting materials to improve their durability and reliability. What is a photoelectric sensor? Photoelectric sensors detect objects, changes in surface conditions, and other items through a variety of optical properties. A photoelectric sensor is mainly composed of an emitter for emitting light and a receiver for receiving light. When the emitted light is blocked or reflected by the sensing object, the amount of light reaching the receiver changes. The receiver detects this change and converts it into an electrical output. The light source for most photosensors is infrared or visible light (usually red, or green/blue for color recognition). Photoelectric sensors often face various harsh environmental conditions in practical applications, including high temperature, moisture, dust and mechanical vibration. In order to protect the precise electronic components inside the photoelectric sensor and extend its service life, potting materials are particularly important. The main functions of potting materials include: 1. Waterproof and dustproof: Protect the sensor from moisture and dust to ensure its normal operation in harsh environments. 2.Anti-vibration: Provides mechanical strength and reduces the impact of external vibrations on the sensor. 3.High temperature resistance: Maintain stable performance in high temperature environments to ensure the accuracy and reliability of the sensor. 4.Anti-corrosion: Resist corrosion of the sensor by chemical substances and extend its service life. Products Recommended
Elaplus internal potting of vortex sensor
The vortex sensor is a non-contact sensor based on the principle of electromagnetic induction. It is widely used in industrial automation, aerospace, automobile manufacturing and other fields to measure the position, speed, vibration and other parameters of metal objects. vortex sensors have become an important tool in the industrial field due to their high accuracy, fast response, and good stability. How Vortex Sensors Work? The working principle of vortex sensors is based on Faraday’s law of electromagnetic induction. When the coil in the sensor is energized, an alternating magnetic field is generated around it. When a metal object approaches the sensor, the alternating magnetic field generates vortex on the metal surface. These vortex will form a reverse magnetic field inside the metal, affecting the distribution of the original magnetic field. The sensor detects these changes and then calculates the position, speed and other parameters of the metal object. Advantage Of Vortex Sensors 1.High precision: Vortex sensors can provide micron-level measurement accuracy and are suitable for precision measurements. 2.Non-contact measurement: The vortex sensor has no direct contact with the object being measured and will not cause wear or damage to the object being measured. 3.Fast response: The vortex sensor has a fast response speed and can detect dynamic changes in real time. 4.Resistant to harsh environments: vortex sensors can work stably in harsh environments such as high temperature, high pressure, and oil pollution. Application Vortex sensors are widely used in many fields: Industrial automation: used for real-time monitoring and control of parameters such as position, distance, vibration, etc. Aerospace: used for condition monitoring of key components such as aircraft engines and turbines. Automobile manufacturing: used for testing body, engine and other components to ensure production quality. Machine tool equipment: used for real-time monitoring during processing to improve processing accuracy and efficiency….
EP 6113 A/B High temperature resistant two-component epoxy potting material
EP 6113A/B is a two-component solvent-free, room temperature curing epoxy potting material, which is suitable for packaging and protection of products with high thermal conductivity requirements in motors, automotive electronics, power tools, reactors, and meters, and has excellent adhesion and temperature resistance.
ELAPLUS SIPA 1865A/B Organic silicon potting compound
RTV SiPA 1865A/B silicone potting-sealant is a two-component addition to room temperature curing silicone rubber, which can also be heated to form a strong and soft high toughness silicone rubber elastomer.
