Search History
Clear History
{{item.search_key}}
Hot Searches
Change
{{item.name}}
{{item.english_name}}
Subscribe eNews
Once A Week Once Every Two Weeks
{{sum}}
Login Register

Applications

150 billion PET bottles recycled, Indorama Ventures reaches milestone

K 2025: CMG to roll out new large granulator for post-consumer recycling

What Is this summer's hottest packaging trend in China?

Products

Why and where are Chinese modified plastics companies expanding overseas?

Haitian International’s overseas sales up 34.7%

Top 10 Technology Trends: Recycled plastics and bioplastics

Activities

  • Round Table at Fakuma 2023: “Plastic – Recyclable Rather Than Problem Material!”

  • ArabPlast 2023 – The Success Journey Continues………..

  • GREAT NEWS! INAPA 2023 IS COMING BACK 24 - 26 May 2023 at JIExpo Jakarta, Indonesia

Pictorial

Industry Topic

ASEAN: The Next Manufacturing Hub

Innovative and Sustainable Packaging

Green Plastics: News & Insights

CHINAPLAS

CHINAPLAS 2025 Focus

CHINAPLAS 2024 Focus

CHINAPLAS 2023 Focus

Exhibition Topic

K 2025 FOCUS

CHINA INSIGHT

Fakuma 2024 Highlights

News Videos

CPRJ Packaging Conference: motan offers intelligent systems for packaging industry

CPRJ Packaging Conference: York Colour brings colors to packaging

CPRJ Packaging Conference: Fuhai's PET tackifying technology reduces production costs

Conference Videos

ENGEL e-cap 380

ENGEL e-speed 280 125ml thinwall container with 30% rPET

ENGEL e-speed 420 packaging

Corporate/Product Videos

Jiangsu Liside New Material Co., Ltd.

Dow 45 years in China

Carbon Removal and Carbon Emission Reduction Tech Solution——Yuanchu Technology (Beijing) Co. Ltd.

Exhibition

Playback TECHHUB 2025@CPRJ Live Streaming for CHINAPLAS

Playback TECHHUB@CPRJ Live Streaming for CHINAPLAS

Events

Playback On April 14, the "6th Edition CHINAPLAS x CPRJ Plastics Recycling and Circular Economy Conference and Showcase" at the Crowne Plaza Shenzhen Nanshan is currently being livestreamed!

Playback 5th Edition CHINAPLAS x CPRJ Plastics Recycling and Circular Economy Conference and Showcase

Home > News > Automotive

SABIC's two new compounds to improve signal gain of automotive GNSS antennas

Source:Adsale Plastics Network Date :2022-09-13 Editor :JK

SABIC has introduced two new LNP THERMOCOMP compounds that offer the potential to improve signal gain performance vs. ceramics in second-generation automotive global navigation satellite system (GNSS) antennas.

 

The new products, LNP THERMOCOMP ZKC0CXXD compound and LNP THERMOCOMP ZKC0DXXD compound, help enable the design and molding of antenna substrates with more-complex pattern markings that add effective surface area, a critical factor in enhancing signal capture.

 

For customers that currently use ceramics, switching to the LNP THERMOCOMP compounds can help lower system costs by avoiding secondary operations, as well as improving antenna performance.

 

Designers and engineers who find incumbent materials inadequate for developing novel, high-resolution GNSS antennas can help address new requirements with the SABIC products.

 

“As GNSS antenna technology advances to its second generation with higher resolution, SABIC continues to enhance the scope and capabilities of our LNP specialty compounds portfolio to meet new performance requirements,” said Joshua Chiaw, Director, Business Management, LNP & NORYL, SABIC.


1.jpg

SABIC’s new compounds offer the potential to improve signal gain performance vs. ceramics in second-generation automotive GNSS antennas.


The LNP THERMOCOMP compounds, which offer a high dielectric constant (Dk) for miniaturization and a low dissipation factor (Df) to facilitate signal acquisition, can be tailored to meet the electrical requirements of individual applications.

 

They feature electroplating capability, good thermal resistance for reliability, and the design freedom and production efficiency of thermoplastics. Both are well-suited for shark fin-style and new conformal antenna designs.

 

The antenna serves as the front end of the GNSS signal processing chain. Optimal signal gain requires maximum surface area to capture radio signals from satellites. Second-generation GNSS antennas operate by combining signals from satellites with two different frequencies for high resolution, making signal capture even more demanding.

 

To expand the effective surface area of the antenna substrate, manufacturers create complex pattern markings. However, ceramic materials are restricted in the shape and complexity of patterns that can be used because of challenges in applying metal plating to small or constrained spaces. These factors can affect antenna performance and limit the suitability of ceramics for high-resolution GNSS systems.

 

In contrast, SABIC’s new LNP THERMOCOMP compounds can be easily injection molded into antenna substrates with a wide range of pattern markings.

 

Intricate shapes, indentations and other elements can significantly increase an existing part’s effective surface area, supporting the stringent signal gain requirements of high-resolution GNSS antennas.

 

Unlike the situation with plated ceramics, these compounds deliver a high yield rate following copper-, nickel- and/or silver-plating processes, thanks to their stable electroplating capability.

 

The new SABIC materials also help to reduce system costs compared to ceramic substrates, which require time-consuming secondary operations such as shaping, drilling and polishing. Injection molding with LNP THERMOCOMP compounds can deliver higher throughput and productivity and reduce scrap to keep costs down.

 Like 丨  {{details_info.likes_count}}
Automotive
SABIC
 Tangshan Zhonghao Chemical Co., Ltd      
 HEBEI LINGSHOU COUNTYZHONGKE MINERAL POWDERCO, LTD.      
 GANSU EILITE NEW MATERIALS CO., LTD.      
 HANGZHOU JUXING NEW MATERIAL TECHNOLOGY CO., LTD      
 MOTAN TAICANG CO., LTD.      
 SUZHOU FISA HOT RUNNER TRADE CO., LTD      
 SHENZHEN YUTIAN NEW MATERIALS TECHNOLOGY CO., LTD      
 ZHEJIANG HONGXIANG CONNECTOR CO.,LTD.      
 SHANGHAI SUNWAY CHEMICAL CO.,LTD      
 SUZHOU GELEFU M&E TECHNOLOGY CO., LTD.      
 GUANGDONG HTASO NEW MATERIALS TECHNOLOGY CO.,LTD      
 YONEI INNOVATIVE MATERIAL TECH LIMITED      
 Sinochem Internation Corporation      
 CATHAY (TAIYUAN) BIOMATERIAL CO., LTD.      

The content you're trying to view is for members only. If you are currently a member, Please login to access this content.   Login

Source:Adsale Plastics Network Date :2022-09-13 Editor :JK

SABIC has introduced two new LNP THERMOCOMP compounds that offer the potential to improve signal gain performance vs. ceramics in second-generation automotive global navigation satellite system (GNSS) antennas.

 

The new products, LNP THERMOCOMP ZKC0CXXD compound and LNP THERMOCOMP ZKC0DXXD compound, help enable the design and molding of antenna substrates with more-complex pattern markings that add effective surface area, a critical factor in enhancing signal capture.

 

For customers that currently use ceramics, switching to the LNP THERMOCOMP compounds can help lower system costs by avoiding secondary operations, as well as improving antenna performance.

 

Designers and engineers who find incumbent materials inadequate for developing novel, high-resolution GNSS antennas can help address new requirements with the SABIC products.

 

“As GNSS antenna technology advances to its second generation with higher resolution, SABIC continues to enhance the scope and capabilities of our LNP specialty compounds portfolio to meet new performance requirements,” said Joshua Chiaw, Director, Business Management, LNP & NORYL, SABIC.


1.jpg

SABIC’s new compounds offer the potential to improve signal gain performance vs. ceramics in second-generation automotive GNSS antennas.


The LNP THERMOCOMP compounds, which offer a high dielectric constant (Dk) for miniaturization and a low dissipation factor (Df) to facilitate signal acquisition, can be tailored to meet the electrical requirements of individual applications.

 

They feature electroplating capability, good thermal resistance for reliability, and the design freedom and production efficiency of thermoplastics. Both are well-suited for shark fin-style and new conformal antenna designs.

 

The antenna serves as the front end of the GNSS signal processing chain. Optimal signal gain requires maximum surface area to capture radio signals from satellites. Second-generation GNSS antennas operate by combining signals from satellites with two different frequencies for high resolution, making signal capture even more demanding.

 

To expand the effective surface area of the antenna substrate, manufacturers create complex pattern markings. However, ceramic materials are restricted in the shape and complexity of patterns that can be used because of challenges in applying metal plating to small or constrained spaces. These factors can affect antenna performance and limit the suitability of ceramics for high-resolution GNSS systems.

 

In contrast, SABIC’s new LNP THERMOCOMP compounds can be easily injection molded into antenna substrates with a wide range of pattern markings.

 

Intricate shapes, indentations and other elements can significantly increase an existing part’s effective surface area, supporting the stringent signal gain requirements of high-resolution GNSS antennas.

 

Unlike the situation with plated ceramics, these compounds deliver a high yield rate following copper-, nickel- and/or silver-plating processes, thanks to their stable electroplating capability.

 

The new SABIC materials also help to reduce system costs compared to ceramic substrates, which require time-consuming secondary operations such as shaping, drilling and polishing. Injection molding with LNP THERMOCOMP compounds can deliver higher throughput and productivity and reduce scrap to keep costs down.

全文内容需要订阅后才能阅读哦~
立即订阅

Recommended Articles

Automotive
MATERI’ACT unveils sustainable bio composites for automotive decoration
 2025-08-18
Automotive
KRAIBURG TPE drives innovation for next generation EV and vehicle interior
 2025-08-18
Automotive
K 2025: New silicone from WACKER rubber insulates busbars in EV batteries
 2025-08-13
Automotive
AutoFlight eVTOL completes world’s first offshore oil platform cargo transport mission
 2025-08-07
Automotive
Covestro launches advanced flame-retardant encapsulation foam for EV batteries
 2025-07-18
Automotive
BASF Coatings wins award with sustainable two-tone painting process for automotive
 2025-07-17

You May Be Interested In

Change

  • People
  • Company
loading... No Content
{{[item.truename,item.truename_english][lang]}} {{[item.company_name,item.company_name_english][lang]}} {{[item.job_name,item.name_english][lang]}}
{{[item.company_name,item.company_name_english][lang]}} Company Name    {{[item.display_name,item.display_name_english][lang]}}  

Polyurethane Investment Medical Carbon neutral Reduce cost and increase efficiency CHINAPLAS Financial reports rPET INEOS Styrolution Evonik Borouge Polystyrene (PS) mono-material Sustainability Circular economy BASF SABIC Multi-component injection molding machine All-electric injection molding machine Thermoforming machine

SABIC's two new compounds to improve signal gain of automotive GNSS antennas

识别右侧二维码,进入阅读全文
下载
x 关闭
订阅
亲爱的用户,请填写一下信息
I have read and agree to the 《Terms of Use》 and 《Privacy Policy》
立即订阅
Top
Feedback
Chat
News
Market News
Applications
Products
Video
In Pictures
Specials
Activities
eBook
Front Line
Plastics Applications
Chemicals and Raw Material
Processing Technologies
Products
Injection
Extrusion
Auxiliary
Blow Molding
Mold
Hot Runner
Screw
Applications
Packaging
Automotive
Medical
Recycling
E&E
LED
Construction
Others
Events
Conference
Webinar
CHINAPLAS
CPS+ eMarketplace
Official Publications
CPS eNews
Media Kit
Social Media
Facebook
Youtube