Tel:(+86) 0755-86525983
Fax:(+86) 0755-86525983
Mob:+86-18928437035
Email:oversea-sales@sz-bgs.com
Address:
Room 308, Block B, Sibiono Gene Therapy Park, NO.19, 1st Science &Technology Middle Road, Hi-Tech Industry Park(Middle), Nanshan District, Shenzhen, P.R.China.
Fast Response
Bogesi team is take fast action for customer experience. We guarantee to reply your email in less than 24 hours in working days.
Production Market
Bogesi had build a balanced long-term relationship though out trading with our clients.
Production Management
With advanced production testing equipments, the Production Base in Dongguan strictly control the production process and quality according to ISO9001:2001 standard.
Quality & Risk Management
We ensure the high quality standard by industry-specific expertise and execute sample approval for every new business.
Transportation Management
We have long-term logistic partner to enhance the stability of transportation and well manage potential shipment risk with China Sinosure.
Export & Import Management
Rich experience to operate export & import document and meet relevant government department requirements.
A custom-made antenna is a radio frequency (RF) device that is designed and manufactured according to specific requirements that are not met by standard off-the-shelf antennas.
860-960MHz LoRa antenna is one of the low power WAN communication technologies, is a kind of ultra-long distance wireless transmission technology based on spread spectrum technology, has the characteristics of low power consumption, wide coverage, strong penetration. We can utilize the Lora...
Why choose us: 1. Our own R&D team more than 20 engineers with 15 years experiences ,give you strongest support. 2. We provide English,French and German service 3. Strict QC before shipment ensure the quality. 4. With our own 3000㎡ factory
Antenna test data MPQ: 100pcs MOQ: 5000pcs PE Bag package
Model: MDI-032A
Dimensions(mm):51*68.4*20
Frequency Temperature Coefficient(ppm/℃):0±10
Model: SK-017A
Dimensions(mm):41.6*9
Operating temperature:-40℃ - +85℃
The need for wireless connectivity for an ever-growing IoT market is driving the development of custom antennas, as off-the-shelf models may not be able to meet application requirements. Antennas that operate in a smaller footprint, at lower a cost, and with increased performance and coverage are required. However, before deciding on a fully customized antenna for a particular IoT device, it is important to consider all of the product requirements. Issues such as performance expectations, communications range, regulatory compliance needs, product packaging design and dimensions, the usage of specific materials, power levels, gain, frequency band, radiation efficiency, unit cost, and manufacturability must all be factored into the decision-making process. A custom antenna may be needed, or perhaps custom modification can be made to an existing design.
Maximum Performance
An antenna designed for a specific product line, which takes into account the device requirements as well as its enclosure design, will be able to elicit maximum performance from the unit. Custom antennas can be designed to be embedded into the electronic assembly, allowing it to be tuned to the surrounding materials for the best performance while eliminating the need for an external antenna.
Lower Cost Solution
Using custom antennas is often a lower cost solution, especially for high-volume product lines, since they are totally customized for the particular application. Such antennas can include everything that is needed by the product without adding unnecessary options, thus reducing bill of materials (BOM) costs in an efficient manner.
Custom Multi-Band Capabilities
Antennas that support multiple wireless technologies can provide custom multi-band capabilities to operate across the full range of needed frequencies. Multiple-band cellular/LTE, joule-band WiFi, and wireless LAN (WLAN) are examples of systems that would benefit from custom antennas. Multiple radio systems, such as cellular operating with an unlicensed system like Bluetooth, require a dual antenna.
Custom Mechanical Requirements
Certain IoT applications have custom mechanical requirements for their antennas, such as an IP rating for water ingress or a resistance to shock and vibration. Applications which are concerned about electrostatic discharge (ESD) may necessitate a custom antenna. Finally, there are specific applications that require an antenna resistant to environmental factors such as corrosion, heat, icing, and wind load, allowing the device to remain connected no matter what is happening around it. Antennas can be designed for omnidirectional performance, allowing them to be used in a variety of mounting positions.
The first is their ability to provide world-class support throughout the antenna development lifecycle, from the design to the finished product. Experienced antenna designers and industrial engineers should work directly with the customer to understand the performance requirements, size, and shape constraints, and any other factors that are critical to developing the optimal antenna solution. Issues with regulatory compliance in the locations where the antenna will be used must be taken into account during the development cycle. Once the antenna is designed, tested, and prototyped, it is important that the team follow through to the production process, making sure the product stays on track with respect to time and cost.
The use of state-of-the-art simulation tools, including both 3D simulation and artificial intelligence (AI), allows for fast iterations that optimize the antenna design in the shortest possible time. Such leading edge software can aid in minimizing the size of the antenna for its performance needs, while accounting for regulatory restrictions and mechanical and environmental requirements.
Once the custom antenna has been designed, rapid prototyping is used to make the first parts. A fully equipped machine shop, including 3D printing capabilities, is needed to quickly produce scale models of the antenna. These models can be used to evaluate the requirement specifications, measure critical parameters, test and make any needed changes to the product design.
The ability of a company to provide on-site testing and verification of their custom antennas is an important consideration. On-site testing to confirm performance requirements and regulatory compliance will save time and help to ensure that the antenna exceeds customer expectations. Equipment such as 3D antenna test chambers characterizes parameters including gain, efficiency and radiation patterns. Network analyzers and power testing equipment check that interference from other wireless devices will not compromise the performance of the antenna and its associated IoT device.
Finally, select a company to design and manufacture a customer antenna that has a record of proven, competitive, high-volume manufacturing capabilities. Look for a company with experience in the projected volume requirements, which has a reputation for the highest quality products manufactured at competitive prices within specified time frames.
Identify Your Requirements
Before you even think of designing an antenna, know what you need. Are you looking for an antenna for personal use, or do you need something more robust for commercial purposes? Think about the range, durability, and other features you'd require.
Understand the Environment
The second step is considering the environment where you'll use the antenna. Are you using it indoors, outdoors, or both? Environments can have different impacts on signals.
Choose the Frequency Band
Different applications need different frequency bands. That's why it's essential to know whether you should opt for Vhf Uhf Antenna or something more specific like Airband Antennas.
Decide on the Antenna Type
The next step is selecting the type of antenna. Here you can choose between omni-directional antennas, S-Band Directional Antenna, or other specialized types. Your choice should align with your requirements and your operating environment.
Add Additional Features
Once you've sorted out the basics, consider additional features you might need.
1. They Offer Superior Performance
One of the top benefits of buying custom antennas is that they will offer superior performance for your application.
A custom antenna will be designed to fit an enclosure’s design while also meeting important device requirements and specifications. This will help ensure that there are no frequency interruptions and that the antenna will be tuned perfectly to any materials that are surrounding it.
2. They Have the Ideal Amount of Features
Another great thing about going custom when purchasing antennas is that you’ll be able to get your specific needs met exactly.
Off-the-shelf antennas will sometimes be lacking in features and you may have to buy add-ons or modifications to your antenna. On the other hand, some antenna will have more features than you realistically need for your project.
3. Flexible Multi-Band Capabilities
One important benefit of going custom when buying antennas is that custom antennas will give you more flexibility. You’ll be able to have multiple bands in one antenna. This can make things straightforward and easier to manage when building a device or using the antenna for a specific application.
4. Meets Specific Mechanical Requirements
In addition to multi-band capabilities, customized antennas can also provide more when it comes to specific mechanical requirements.
If you have very specific needs for your device, then custom antennas make a great choice. They can allow you to better meet the needs of your device or application even if they are specialized in nature.
5. Custom Antennas Are More Cost-Effective
If you’re looking to save on costs, then buying custom antennas also makes for the superior option. Because custom antennas will be built to your specific application, you’ll be able to get your needs for a project met in a much more efficient way.
6. You’ll Get Great Support
While this won’t be true of all custom antenna providers, some will give you an increased level of support. This support can be incredibly valuable for your project.
This extended support can help greatly when building a device or a product and can help you reach a satisfying end result.
7. Extensive On-Site Testing
An advanced on-site testing chamber will allow an antenna to be tested and will ensure performance requirements are being met. Testing will also help to ensure the antenna is meeting regulatory compliance.
While not every custom antenna company will provide extensive testing services, these testing services can be incredibly beneficial for completing your project. Be sure that you work with a company that provides advanced testing for their antennas if you decide to go custom with your project.
Design the antenna. According to the application scenario and signal requirements, determine the frequency band, gain, power and other parameters of the antenna, and determine the final design through software simulation and actual testing.
Choose materials. Choose a suitable material, such as copper or aluminum, to build the antenna. These materials can affect antenna performance such as frequency response, operating temperature and mechanical strength.
Make the antenna body. According to the design, copper wire or other metal materials are used to bend into a specific shape, such as "Z" shape or spiral shape. Be careful to keep the copper wire vertical to facilitate signal reception.
Installation and fixing. Choose a suitable location to install the antenna, make sure there are no obstacles blocking the signal, and use wooden sticks, PVC pipes, or other supports to fix the antenna position.
Connecting cables. Use RG6 cable or other appropriate cables to connect the antenna to the receiving device.
Test and adjust. After completing the production, test the reception effect of the antenna and make adjustments as needed.
Demand for Wireless Connectivity: A growing number of industries, such as telecommunications, the Internet of Things, and smart gadgets, are requiring wireless connectivity, which is why custom-designed antennas that are optimized for certain applications are necessary.
Quick Progress in Technology: Custom designs are in demand as a result of ongoing technical breakthroughs like the creation of 5G networks and the expansion of IoT devices, which call for antennas with particular performance characteristics.
Iot And M2M Interaction: The expansion of Internet of Things (IoT) and machine-to-machine (M2M) communication calls for antennas designed for a variety of uses, from industrial IoT installations to smart cities and residences.
New Automotive Applications: The increasing adoption of cutting-edge communication technologies in cars, such as telematics and V2X (vehicle-to-everything) communication, is driving up demand for customized antennas made to operate best in moving vehicles.
Systems of Satellite Communication: Custom antennas must satisfy certain operating criteria due to the growing usage of satellite communication systems for a variety of applications, including broadcasting, maritime communication, and remote sensing.
Applications for the Military and Defense: Bespoke antenna designs are in high demand because military and defense applications frequently require antennas with special features including durability, dependability, and access to particular frequency bands.
Integration and Miniaturization Needs: Wearables and tiny Internet of Things sensors are examples of the more compact and integrated electronic devices that are becoming more popular. This calls for custom antenna designs that are lightweight, small, and effective in small spaces.
Electronics for the Home and Consumer: The growing trend of smart TVs and smart speakers, along with other consumer products with wireless networking capabilities, adds to the need for specialized antennas to provide the best possible performance in residential settings.
Science and Remote Sensing Applications: In scientific fields where precise antenna properties are needed for data collecting, such radio astronomy and remote sensing, bespoke antennas are essential.
Which apply to mobile phones, tablet PC, financial electronic terminals, wireless medical terminals, security monitoring, smart home, and automotive electronics. Products could be involved in all kinds of standards of wireless applications such as cellular networks (2G/2.5G/3G/4G/5G), Wi-Fi, Bluetooth, RFID, 433M, GPS and Compass, etc. The Antenna R&D Center is located in Shenzhen High-Tech Industrial Park, near by the Financial Science and Technology Building and Financial Base. By the excellent location we can better provide customers with convenient and efficient service.
