Dịch Vụ Thành Lập Công Ty Đà Nẵng

3 KHÓ KHĂN KHI THÀNH LẬP CÔNG TY CẦN PHẢI BIẾT
1. Ý tưởng
Vốn ý tưởng cho việc thành lập công ty là gì?
Những câu hỏi đơn giản nhất khi thành lập công ty là Công ty của bạn sẽ kinh doanh cái gì? Lĩnh vực sản xuất hay dịch vụ? Sản xuất mặt hàng gì? Cung cấp loại hình dịch vụ gì? Kinh doanh như thế nào?
https://danangnet.com/thanh-lap-cong-ty-tai-da-nang.html
2. Cơ sở vật chất
Vốn cơ sở vật chất cho một công ty là gì?Khi thành lập công ty và đưa vào hoạt động, bạn phải có vốn cơ sở vật chất đủ vững. Vốn này bao gồm hệ thống văn phòng làm việc, nhà xưởng nếu có, kho bãi và trang thiết bị cần thiết cho những nơi này; dây chuyền công nghệ sản xuất và tất nhiên không thể thiếu đội ngũ nhân lực vận hành.
3.Các khó khăn bạn sẽ gặp phải
Thành lập công ty thì phải có văn phòng cụ thể, hoặc văn phòng đại diện cho công ty. Đây là yêu cầu bắt buộc của các chi cục thuế. Bạn có thể tham khảo thêm về dịch vụ thành lập văn phòng đại diện công ty nếu gặp khó khăn hoặc tham khảo thông tin cần thiết.

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week 9 Socio-cultural aspects

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Week 10 Dreams and Spirituality

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Week 11 Lucid Dreaming

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Syllabus

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Assignments

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Contains the detailed description of the work-in-progress assignments  
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General Resources

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Flex NB IoT PCB Antenna

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The Flex NB IoT PCB Antenna CTRF-FPC-8242170-4509-UFL-100 internal antenna is a flexible PCB antenna with NB-IoT frequency, it has a 45x9mm flex PCB trace board size, 100mm length RG 1.13 cable, Ipex / U.FL connector, 3M type self-adhesive sticker for an easy installation to the terminals.

Narrowband Internet of Things (NB-IoT) is a Low Power Wide Area Network (LPWAN) radio technology standard developed to meet the emerging demands and challenges of IoT devices and services.

NB-IoT allows for extended coverage in both rural and deep indoor environments and improves device power consumption, system capacity, and spectral efficiency.

In many cases, a battery life of over 10 years can be supported. With its relative simplicity compared to GSM/GPRS, NB-IoT technology promises to provide a cost-effective solution for years to come.

NB-IoT is supported by all major mobile equipment, chipset, and module manufacturers and benefits from the security and privacy features of cellular networks, including support for user confidentiality, data integrity, and mobile equipment identification.

C&T RF Antennas Inc is a leading provider of high-performance NB IoT antennas and RF solutions for wireless M2M, IoT, and consumer electronics.

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

How do I choose the best antenna for LoRa nodes and LoRaWAN gateways?

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

What is LTE-M Technology?

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Today, we talk about the LTE-M technology and the LTE Cat M1 technology communications.

LTE-M technology communication

LTE-M technology is a cellular technology specifically designed to meet the needs of the Internet of Things (IoT) or machine-to-machine communication applications.
LTE-M technology is the simplified industry term for the LTE-MTC low power wide area (LPWA) technology standard published by 3GPP in the Release 13 specification. It specifically refers to LTE CatM1, suitable for the IoT. Commercial launches of LTE-M networks will take place globally in 2017.

What is LTE Cat M1?

The LTE Cat M1 in LTE-M technology is a low power wide area (LPWA) air interface that can connect to IoT and M2M devices with medium data rate requirements (upload and download speeds in half-duplex mode is 375 kb / s).

It offers longer battery life and wider coverage compared to standard cellular technologies such as 2G, 3G and LTE Cat 1. The main functions are as follows.

How do I choose the best antenna for LoRa nodes and LoRaWAN gateways?

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

5 Tips for Connecting IoT Products

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Today, we talk about how the 5 tips for connecting IoT products quickly and successfully.

For IoT device manufacturers, cellular IoT is one of the most reliable and easily accessible ways to achieve internet connectivity. By 2026, the total number of cellular IoT devices in the world will reach 5.7 billion, according to ABI Research data. The adoption of cellular IoT is growing due to its ease of deployment and expansion.

Alternatively, you may be enhancing product capabilities and need new technology features such as the potential battery savings provided by LTE-M and NB-IoT networks.

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

How do I choose the best antenna for LoRa nodes and LoRaWAN gateways?

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

IoT geolocation is one of the most powerful and fast-growing IoT applications, and Market Insight Reports that the market for the "Internet of Things with geolocation" is expected to grow from $40 billion today to $74 billion by 2025.

This is because traditional GPS technology, which has enabled geolocation in the past, is costly, faces technical challenges to its successful deployment, and requires high power consumption to operate.

(.pdf, 259K | Downloaded 2 times)

5 Tips for Connecting IoT Products

Edit setfor 5 Tips for Connecting IoT Products

Today, we talk about how the 5 tips for connecting IoT products quickly and successfully.

For IoT device manufacturers, cellular IoT is one of the most reliable and easily accessible ways to achieve internet connectivity. By 2026, the total number of cellular IoT devices in the world will reach 5.7 billion, according to ABI Research data. The adoption of cellular IoT is growing due to its ease of deployment and expansion.

Alternatively, you may be enhancing product capabilities and need new technology features such as the potential battery savings provided by LTE-M and NB-IoT networks.

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

13 Common IoT Communication Technologies

Edit setfor 13 Common IoT Communication Technologies

Today, we talk about the wired and wireless IoT Communication Technologies, the simple 13 common communication technologies in IoT.

We have compiled and summarized the commonly used wired and wireless communication methods of IoT for future reference.

Communication frequency band: license-free frequency band. Use Industrial Scientific Medical (ISM) frequency band, 915MHz (U.S.), 868MHz (Europe), 2. 4GHz (Global)

 

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

6 Characteristics of 5G NR Technology

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Today, we talk about the 5G NR technology and the 6 Characteristics of 5G NR Technology.

What is 5G NR technology?

The 5th generation mobile networks or 5th generation wireless systems, 5th-Generation, referred to as 5G or 5G NR technology is the latest generation of cellular mobile communication technology, namely 4G (LTE-A, WiMax), 3G ( Extension after UMTS, LTE) and 2G (GSM) systems.

5G NR technology has set a new standard for wireless, opening up the spectrum above 6 GHz that has been previously unusable by cellular services.

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

IoT geolocation is one of the most powerful and fast-growing IoT applications, and Market Insight Reports that the market for the "Internet of Things with geolocation" is expected to grow from $40 billion today to $74 billion by 2025.

This is because traditional GPS technology, which has enabled geolocation in the past, is costly, faces technical challenges to its successful deployment, and requires high power consumption to operate.

(.pdf, 259K | Downloaded 1 times)

6 Characteristics of 5G NR Technology

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Today, we talk about the wired and wireless IoT Communication Technologies, the simple 13 common communication technologies in IoT.

We have compiled and summarized the commonly used wired and wireless communication methods of IoT for future reference.

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

6 Characteristics of 5G NR Technology

Edit setfor 6 Characteristics of 5G NR Technology

Today, we talk about the wired and wireless IoT Communication Technologies, the simple 13 common communication technologies in IoT.

We have compiled and summarized the commonly used wired and wireless communication methods of IoT for future reference.

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 2 times)

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

For example, the built-in antenna, subject to the size, generally with spring antenna, PCB antenna, FPC antenna. Of course, the antenna needs to be re-matched according to the structure and material of the housing.

(.pdf, 423K | Downloaded 1 times)

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

How do I choose the best antenna for LoRa nodes and LoRaWAN gateways?

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

6 Characteristics of 5G NR Technology

Edit setfor 6 Characteristics of 5G NR Technology

Today, we talk about the wired and wireless IoT Communication Technologies, the simple 13 common communication technologies in IoT.

We have compiled and summarized the commonly used wired and wireless communication methods of IoT for future reference.

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

IoT geolocation is one of the most powerful and fast-growing IoT applications, and Market Insight Reports that the market for the "Internet of Things with geolocation" is expected to grow from $40 billion today to $74 billion by 2025.

This is because traditional GPS technology, which has enabled geolocation in the past, is costly, faces technical challenges to its successful deployment, and requires high power consumption to operate.

(.pdf, 259K | Downloaded 1 times)

UWB technology is the best and most advanced positioning technology available today, and why?

This chapter explores the inner workings of UWB technology and provides an overview of the differences between UWB technology and narrowband positioning methods. In addition, the chapter explains how to select the best system architecture for different applications or use case scenarios.

Another system consideration is the UWB antenna. Different applications will require different antennas. For example, tags typically use small omnidirectional antennas. Anchor points, on the other hand, may want to use directional antennas, depending on the topology.

(.pdf, 369K | Downloaded 1 times)

13 Common IoT Communication Technologies

Edit setfor 13 Common IoT Communication Technologies

Today, we talk about the wired and wireless IoT Communication Technologies, the simple 13 common communication technologies in IoT.

We have compiled and summarized the commonly used wired and wireless communication methods of IoT for future reference.

Communication frequency band: license-free frequency band. Use Industrial Scientific Medical (ISM) frequency band, 915MHz (U.S.), 868MHz (Europe), 2. 4GHz (Global)

IoT geolocation is one of the most powerful and fast-growing IoT applications, and Market Insight Reports that the market for the "Internet of Things with geolocation" is expected to grow from $40 billion today to $74 billion by 2025.

This is because traditional GPS technology, which has enabled geolocation in the past, is costly, faces technical challenges to its successful deployment, and requires high power consumption to operate.

 

(.pdf, 259K | Downloaded 1 times)

13 Common IoT Communication Technologies

Edit setfor 13 Common IoT Communication Technologies

Today, we talk about the wired and wireless IoT Communication Technologies, the simple 13 common communication technologies in IoT.

We have compiled and summarized the commonly used wired and wireless communication methods of IoT for future reference.

Communication frequency band: license-free frequency band. Use Industrial Scientific Medical (ISM) frequency band, 915MHz (U.S.), 868MHz (Europe), 2. 4GHz (Global)

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

 

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

5G NR Communication Technology And Characteristics

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Today, we talk about the 5G NR communication technology and its characteristics.

The current communication technology is mainly divided into two types: wired communication and wireless communication. Wired communication uses wired media for conduction, such as copper wire, optical fiber, and so on.

Data transmission in wired media can reach a very high rate, and the current maximum experimental rate of a single fiber can reach 26Tbps. But the bottleneck of mobile communication lies in the wireless communication part. The current mainstream mobile communication standard is LTE, with a theoretical speed of 150Mbps, which is much lower than the wired transmission rate.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

For example, the built-in antenna, subject to the size, generally with spring antenna, PCB antenna, FPC antenna. Of course, the antenna needs to be re-matched according to the structure and material of the housing.

(.pdf, 423K | Downloaded 1 times)

4G PCB Antenna Design Manufacturer

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C&T RF Antennas Inc supplies the embedded antenna 4G PCB antenna design with the internal PCB 4G antenna design, embedded FPC 4G antenna design, etc.

C&T RF Antennas Inc is the 4G PCB Antenna Design Manufacturer in China, we provide the 4G Antenna Design and 4G Antenna production. Contact us for more 4G Antenna Design information.

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)

4G LTE PCB Antenna Design

Edit setfor 4G LTE PCB Antenna Design

The 4G Antenna Design Dipole Antenna Design service is provided by C&T RF Antennas Inc, we provide the Omni dipole antenna design, directional dipole antenna design, etc.

C&T RF Antennas Inc provides the 4G LTE PCB Antenna Design Dipole Antenna Design, 3G antenna design, GSM antenna design, 4G antenna design, LTE antenna design, Wifi antenna design, embedded antenna design, etc.

How do I choose the best antenna for LoRa nodes and LoRaWAN gateways?

Antennas are a key part of the RF chip and are particularly important when choosing the best antenna for LoRa devices (such as LoRa nodes and LoRaWAN gateways) that transmit and receive data in the RF band.

It can be understood that there are different antenna types on the market, such as Lora spring antenna, Lora fiberglass antenna, Lora magnetic antenna, Lora rubber duck antenna, flexible PCB/PCB Lora antenna, etc. When choosing an antenna, it is not the form itself that is important, but the parameters of the antenna and the site environment.

(.pdf, 423K | Downloaded 1 times)

4G PCB Antenna Design Manufacturer

Edit setfor 4G PCB Antenna Design Manufacturer

C&T RF Antennas Inc supplies the embedded antenna 4G PCB antenna design with the internal PCB 4G antenna design, embedded FPC 4G antenna design, etc.

C&T RF Antennas Inc is the 4G PCB Antenna Design Manufacturer in China, we provide the 4G Antenna Design and 4G Antenna production. Contact us for more 4G Antenna Design information.

Why is LoRa vs Wifi positioning technology?

There are various wireless technologies applied in industrial personnel location systems, which can form local area networks or wide area networks. Today we will mainly discuss the Lora vs Wifi positioning technology difference.

Before discussing the Lora vs WiFi positioning technology, we need to understand the positioning principle.

LoRa antennas are used in remote meter reading, security systems, access control systems, real-time positioning, and other fields.

(.pdf, 250K | Downloaded 1 times)
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