Your Reliable RFlink PCB Manufacturer
PCBMay is a market leader in China when it comes to Rflink PCB. We offer a broad range of inverter power for use in any application.
- High-quality Rflink PCB
- A strict quality assurance team
- More than ten years Rflink PCB manufacturer
- 24/7 customer service
Why PCBMay is Expert in RFlink PCB Manufacturing
PCBMay is a professional rflink PCB maker. We provide various rflink PCBs that work excellently. To produce high-quality rflink PCB, we always use sturdy materials. PCBMay may concentrate on providing a superior rflink PCB system that meets your project’s requirements.
Types of RFlink PCB Meet Your Requirements
Our Micro Current Home RFlink PCB is a consumer electronics PCBA type. It has a 0.1mm minimum hole size and 3mil minimum line spacing.
This Quick Turn HDI RFlink PCB features a green solder mask and white silkscreen. It also has two layers of number and a 1.6mm board thickness.
High-Frequency Rogers RFlink PCB has a 1.6mm board thickness and 3mil minimum line width. It is an IPC-A-610 D PCB standard.
Our High-Quality Multilayer RFlink PCB features an IPC-A-600 PCB standard. It maxes with eight layers, and it is an FPC type.
This 8.2mhz Security System RFlink PCB has an FR-4 1.6mm 1oz copper base material. It has an 05mm minimum line width and 1mm board thickness.
Why Choose PCBMay for Your RFlink PCB
PCBMay’s primary objective is to provide a superior rflink printed circuit board (PCB) solution to meet your design specifications. PCBMay is also a leading rflink manufacturer in China and exporting products worldwide.
PCBMay is innately capable of shipping our rflink printed circuit boards (PCB) to the global electronics business. You may order rflink PCB in no minimum quantity. Even single purchase to bulk orders. We can guarantee you the highest quality of rflink PCB. You can trust PCBMay!
Related RFlink PCB
RFlink PCB Production Details As Following Up
- Production Facility
- PCB Capabilities
- PCB Materials
- Shipping Methods
- Payment Methods
- Send Us Inquiry
| Item | Capability |
| Layer Count | 1-40layers |
| Base Material | KB、Shengyi、ShengyiSF305、FR408、FR408HR、IS410、FR406、GETEK、370HR、IT180A、Rogers4350B、Rogers4000、PTFE Laminates(Rogers series、Taconic series、Arlon series、Nelco series)、Rogers/Taconic/Arlon/Nelco laminate with FR-4 material(including partial Ro4350B hybrid laminating with FR-4) |
| Board Type | Backplane、HDI、High multi-layer 、blind&buried PCB、Embedded Capacitance、Embedded resistance board 、Heavy copper power PCB、Backdrill. |
| Board Thickness | 0.2-5.0mm |
| Copper Thickness | Min. 1/2 OZ, Max. 10 OZ |
| PTH Wall | 25um(1mil) |
| Maximum Board Size | 1100*500mm(43”*19”) |
| Min laser drilling size | 4mil |
| Min. Spacing/Tracing | 2.7mil/2.7mil |
| Solder Mask | Green, Black, Blue, Red, White, Yellow,Purple matte/glossy |
| Surface Treatment | Flash gold(electroplated gold)、ENIG、Hard gold、Flash gold、HASL Lead free、OSP、ENEPIG、Soft gold、Immersion silver、Immersion Tin、ENIG+OSP,ENIG+Gold finger,Flash gold(electroplated gold)+Gold finger,Immersion silver+Gold finger,Immersion Tin+Gold finger. |
| Min. Annular Ring | 3mil |
| Aspect ratio | 10:1(HASL Lead free、HASL Lead、ENIG、Immersion Tin、Immersion silver、ENEPIG);8:1(OSP) |
| Impedance control | ±5ohm(<50ohm), ±10%(≥50ohm) |
| Other Techniques | Blind/Buried Via |
| Gold Fingers | |
| Press Fit | |
| Via in Pad | |
| Electrical Test |
Here there’re many laminate material datasheets, they’re useful and helpful for you, please see them:
| SUPPLIER | PCB LAMINATE | TYPE | MATERIAL DATASHEET | TG | TD | DK(1MHZ) | DK(1GHZ) | DK(10GHZ) |
| KB | KB-6160 | FR4 | DOWNLOAD | 135 | 305 | 4.35 | – | – |
| KB-6160A | FR4 | DOWNLOAD | 135 | 305 | 4.35 | – | – | |
| KB-6160C | FR4 | DOWNLOAD | 135 | 314 | 4.7 | – | – | |
| KB-6150 KB-6150C | FR4 | DOWNLOAD | 132 | 305 | 4.6 | – | – | |
| KB-6164 | FR4 | DOWNLOAD | 142 | 330 | 4.8 | – | – | |
| KB-6164F | FR4 | DOWNLOAD | 145 | 340 | 4.8 | – | – | |
| KB-6165F | FR4 | DOWNLOAD | 150 | 346 | 4.8 | – | – | |
| KB-6167F | FR4 | DOWNLOAD | 170 | 349 | 4.8 | – | – | |
| SHENGYI | S1141 | FR4 | DOWNLOAD | 135 | 310 | 4.6 | – | – |
| S1141KF | FR4 | DOWNLOAD | 140 | 350 | 4.7 | – | – | |
| S1000 | FR4 | DOWNLOAD | 155 | 335 | 4.9 | – | – | |
| S1170 | FR4 | DOWNLOAD | 170 | 335 | 4.6 | – | – | |
| S1000-2 | FR4 | DOWNLOAD | 170 | 335 | 4.8 | – | – | |
| S1155 | FR4 | DOWNLOAD | 135 | 370 | 4.7 | – | – | |
| ITEQ | IT-158 | FR4 | DOWNLOAD | 150 | 340 | 4.6-4.8 | – | – |
| IT-180 | FR4 | DOWNLOAD | 180 | 350 | 4.5-4.7 | – | – | |
| TUC | TU-768 | FR4 | DOWNLOAD | 180 | 350 | – | 4.3-4.4 | 4.3 |
| TU-872 | Modified Epoxy | DOWNLOAD | 200 | 340 | – | 3.8-4.0 | 3.8 | |
| ROGERS | RO 3003 | Cer/PTFE | DOWNLOAD | – | 500 | – | – | 3 |
| RO 3010 | Cer/PTFE | DOWNLOAD | – | 500 | – | – | 10.2 | |
| RO 4003 | Hydrocarbon/Cer | DOWNLOAD | >280 | 425 | – | – | 3.38 | |
| RO 4350B | Hydrocarbon/Cer | DOWNLOAD | >280 | 390 | – | – | 3.48 | |
| RT/duroid 5880 | PTFE/Glass | DOWNLOAD | – | 500 | – | – | 2.2 | |
| ISOLA | Polyclad 370HR | FR4 | DOWNLOAD | 170 | 340 | 4.8-5.1 | – | – |
| FR406-HR | FR4 | DOWNLOAD | 190 | 325 | 3.91 | 3.86 | 3.81 | |
| FR408-HR | FR4 | DOWNLOAD | 200 | 360 | 3.72 | 3.69 | 3.65 | |
| P96 | Polyimide | DOWNLOAD | 260 | 416 | – | 3.78 | 3.73 | |
| Hitachi | MCL-BE- 67G | Modified Epoxy | DOWNLOAD | 140 | 340 | 4.9 | 4.4 | – |
| MCL-E-679F | FR4 | DOWNLOAD | 170 | 350 | 4.2-4.4 | 4.3-4.5 | – | |
| MCL-LX-67Y | Special Laminate | DOWNLOAD | 185-195 | 325-345 | – | 3.4-3.6 | – | |
| Nelco | N4000-13 | Modified Epoxy | DOWNLOAD | 210-240 | 365 | – | 3.7 | 3.6 |
| N4000-13EP | Modified Epoxy | DOWNLOAD | 210-240 | 350 | – | 3.4 | 3.2 | |
| N4000-13SI | Modified Epoxy | DOWNLOAD | 210-240 | 350 | – | 3.4 | 3.2 | |
| N4000-13EP SI | Modified Epoxy | DOWNLOAD | 210-240 | 350 | – | 3.4 | 3.2 | |
| Taconic | TLX-6 | PTFE | DOWNLOAD | – | – | – | – | 2.65 |
| TLX-7 | PTFE | DOWNLOAD | – | – | – | – | 2.6 | |
| TLX-8 | PTFE | DOWNLOAD | – | – | – | – | 2.55 | |
| TLX-9 | PTFE | DOWNLOAD | – | – | – | – | 2.45 | |
| RF35 | PTFE | DOWNLOAD | <315 | – | 3.5 | – | 3.5 | |
| TLC-27 | PTFE | DOWNLOAD | – | – | – | – | 2.75 | |
| TLC-30 | PTFE | DOWNLOAD | – | – | – | – | 3 | |
| TLC-32 | PTFE | DOWNLOAD | – | – | – | – | 3.2 | |
| Arlon | Arlon 25N | Cer | DOWNLOAD | 260 | – | – | – | 3.38 |
| Arlon 25FR | Cer | DOWNLOAD | 260 | – | – | – | 3.58 | |
| Arlon 33N | Polymide | DOWNLOAD | >250 | 353 | 4 | – | – | |
| Arlon 35N | Polymide | DOWNLOAD | >250 | 363 | 4.2 | – | – | |
| Arlon 85N | Polymide | DOWNLOAD | 250 | 387 | 4.2 | – | – | |
| Stablcor | ST325 | – | DOWNLOAD | Thermal conductivity:75w/m.k(with 1oz copper) | ||||
| ST10 | – | DOWNLOAD | Thermal conductivity:325w/m.k(with 1oz copper) | |||||
| Panasonic | R-1566W | FR4 | DOWNLOAD | 140 | 330 | 4.95 | 4.7 | 4.65 |
| Ventec | VT-901 | Polymide | DOWNLOAD | 250 | 390 | 4.2-4.5 | 4.0-4.3 | – |
| VT-90H | Polymide | DOWNLOAD | 250 | 390 | 4.2-4.5 | 4.0-4.3 | – | |
| Bergquist | ht-04503 | – | DOWNLOAD | Thermal conductivity:2.2w/m.k(with 1oz copper) | ||||
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If your order is of large volume with PCBMay, you can also choose
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Please contact your sales representative for shipping solutions.
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PCBMay- The Ultimate Supplier of RFlink PCB
All electronic components are available from PCBMay. We have PCBs for all electronic fields. PCBMay is a leading supplier of rflink PCBs and other PCBs.
PCB May rflink PCB features various sizes and designs. The rflink PCB has unique features that make it ideal for industrial and commercial use.
PCBMay RFLink is an open-source project that creates a bridge between home automation software and radio-frequency modules. PCBMay RFLink can handle frequencies. That’s the good thing about the PCBMay is can customize rflink PCB for you.
You provide us with the details, including your rflink PCB layouts and designs. We can recommend the best rflinkPCB, which is constructed of durable and long-lasting materials.
PCBMay has a skilled engineer and designer team that may offer you the significant rflink PCB. From the time and after the production, we are here to assist your needs. We check completely the product to details to ensure the quality and frequency of the product.
PCBMay places a premium on inspecting and analyzing incoming material, particularly electronic components. PCBMay meticulously checking every detail of the products, especially in providing the best electronic components of our dear clients. To ensure the complete advantages of material quality, lead time, and prices. That can offer you an excellent product with affordable rflink PCB.
The rflink PCB we supply is always certified ISO, UL, and RoHS. We always maintain our reputation in the industry to ensure your trust. We will gladly supply your rflink PCB needs. As a skilled manufacturer, we are conversant with printed circuit boards and all electronic components.
We would be delighted to collaborate with you and assist your business in growing.
Kindly contact us if you require additional information about rflink PCB.
RFlink PCB: The Ultimate FAQ Guide
Do you have a desire to develop your RF communication system?
Then RFlink PCB will deliver you the best result. It lifts the efficiency of signal transmission in the RF module. Its compatibility with versatile frequencies is very impressive.
PCBMay renders trouble-free manufacturing of this PCB. There is a variation in its properties and assembly compared to other PCBs. This complete FAQ guide will provide you a detailed overview of RFlink PCB. Let’s begin.
- What Is The RFlink PCB?
- What Are The RFlink PCB Components?
- What Are The Different Types Of RFlink PCB?
- What Are The Applications Of RFlink PCB?
- What Are The Advantages Of RFlink PCB?
- What Is The Dielectric Strength In RFlink PCB?
- What Do You Need To Use RFlink PCB With Synology NAS?
- What Are The Frequencies Of RFlink PCB?
- Do You Need To Consider The Temperature Change In RFlink PCB?
- How Does Impedance Stability Affect The RFlink PCB?
- Which Factors Affect The Signal Transmission Of RFlink PCB?
- Does RFlink PCB Support The RTS Protocol?
- What Are The UART And SPI Protocols In RFlink PCB Assembly?
- How To Use RFlink PCB With Domoticz?
- How To Wire An RFlink PCB?
- What Is The RFlink PCB Kit?
- What Is The Operating Principle Of Transmitter RFlink PCB?
- Can You Connect RFlink PCB To Rasp GPIO Instead Of USB?
- Can An RFlink PCB Be Customized?
- What Is The Ideal Surface Finish For RFlink PCB?
- How To Etch An RFlink PCB?
- How Can You Design A Rover Robot By Using RFlink PCB?
- How Do You Add RFlink PCB To Raspberry Pi?
- Is RFlink PCB Good For Multilayer PCB Stackup?
- What Are The Limitations Of RFlink PCB?
- How Can You Test A RFlink PCB?
- How To Choose The Best Manufacturer Of RFlink PCB?
What Is The RFlink PCB?
RFlink PCB is an electric circuit that interconnects the RF modules and the software used for home automation. It supports different frequencies through an open-source system.
This PCB has numerous designs and shapes. It delivers immense positive sides to the modern communication system. That’s why RFlink PCB is the ultimate option for versatile commercial fields and industry sectors.
RFlink PCB
It is made of long-lasting and highly durable materials. These have a significant role in the immense uses of this PCB. You can establish control over actuators via the radio frequency of RFlink-based electronic devices.
What Are The RFlink PCB Components?
The most essential components of the Rflink PCB includes-
- Transceiver
- Arduino Mega
- PIN header male
- PIN header female
- Print connector
- Dipole antenna
- RFlink enclosure
RFlink PCB Components
What Are The Different Types Of RFlink PCB?
It offers a huge variation in terms of its use, features, etc. Its significant types are-
- Electronic RFlink PCB
- Remote control PCB
- Quick turn FR4 PCB
- Transmitter PCB
- Multiprotocol PCB
- Multilayer PCB
- Transceiver RFlink PCB
Security System RFlink PCB
What Are The Applications Of RFlink PCB?
RFlink PCB has brought out a great change in the signal transmission system. Its top-notch performance makes it compatible with high frequency PCB applications. Such as:
- Home automation
- Motion detector
- Doorbells
- Alarm
- Power consumption system
- Heating system
- Switch
- Fire detectors
- Gas detectors
- Water thermometer
- Moisture sensor
- Relay
- Weather sensors
- Remote control
- Thermostat
- Dimmers
- Window sensors
- RFID keypad
- Lighting systems
- Flap opening controller
- Military industry
Widely Used RFlink PCB
What Are The Advantages Of RFlink PCB?
The most significant benefits of RFlink PCB are described here.
Functionality
It consists of materials having a low coefficient of thermal expansion. This property makes this PCB highly functional. You can make use of it in a multilayer PCB stackup. It enables you to have a low production cost.
Stability
This effective PCB operates at a high thermal state. It resists mechanical forces efficiently. That means it boosts the efficiency parameters.
Wide-scale Application
RFlink is used in various home automation services. Its low loss tangent, a wide range of dielectric constants make it worthwhile in numerous large-scale applications.
Effective RFlink PCB
High-Speed Transmission
RFlink PCB materials promote impedance stability that leads to uniform current flow. It improves the data transmission rate in a high-speed PCB project.
What Is The Dielectric Strength In RFlink PCB?
Dielectric strength is a vital factor that affects the efficiency of the RFlink PCB. It refers to the threshold voltage for the breakdown of insulation properties. This voltage is measured per unit thickness of dielectric materials.
Usually, RFlink PCB materials have a large insulation band. At a certain electric potential, electrons move to the conduction region and cause extra current flow through the PCB layers. This issue leads to the overheating problem.
RFlink PCB Dielectric Constant
The higher dielectric strength indicates the uniform electricity conduction in electric circuits. That means it affects the performance of this PCB to a large extent. You can ensure proper dielectric constant by using effective dielectric materials during the RFlink PCB assembly.
What Do You Need To Use RFlink PCB With Synology NAS?
You can use RFlink PCB with the Synology NAS (Network Attached Storage). It uses DiskStation Manager to store and transfer the data. You have to apply an Arduino Mega clone for using the RFlink and Synology NAS together.
RFlink PCB
Besides, you can connect a capacitor between GND and RESET pins of Arduino. Again, you have to connect the power socket to the capacitor pin. You have a chance to remove these components when you are done with the operation.
What Are The Frequencies Of RFlink PCB?
RFlink PCB has a specialty in dealing with wide-scale frequency. This property plays a big role in its compatibility with modern data communication devices. Usually, you can use RFlink at 315mHz, 433mHz, 868mHz, and 2.4GHz.
There are some regulations for choosing the frequencies while applying Arduino Mega. You can use 2.4GHz and 433mHz simultaneously. But, you have some obstruction in using any two of 315, 433, 868mHz.
Do You Need To Consider The Temperature Change In RFlink PCB?
Of course. It is essential for you to consider the temperature change. Rapid change of temperature causes serious harm to the RFlink PCB. That’s why you need to ensure the temperature consistency in your PCB device.
When PCB materials go through different thermal states, the kinetic energy of molecules changes. This incident leads to the molecular polarity that results in a frequent change of the dielectric constant.
RFlink PCB Controlled Temperature
This property makes an imbalance of thermal characteristics of the RFlink PCB materials. You don’t achieve the maximum performance in this condition. Besides, the temperature change affects the impedance control and thermal management of this multipurpose PCB.
How Does Impedance Stability Affect The RFlink PCB?
Impedance has a significant negative effect on the effectiveness of RFlink PCB. It resists the transmission of the electric signals from the source to the load. That’s why you need to ensure impedance control for a smooth circuit operation.
Impedance Control RFlink PCB
Impedance also promotes signal noise during data transferring. So, impedance control ensures the noise-free feature of the RFlink PCB. You should control the dielectric constant, trace width, copper thickness, and dielectric thickness. Impedance stability depends on these factors during the PCB design.
Which Factors Affect The Signal Transmission Of RFlink PCB?
The signal transmission of RFlink PCB is dependent on many factors. Such as power, component placement, noise, etc.
RFlink Signal Transmission
Usually, additional power causes the communication gap during data transmission. It promotes the power drain in RFlink PCB. Electrical drainage of power lessens the working life of the PCB components.
Besides, This PCB delivers data with outstanding efficiency because of its well-designed placement of the components. Improper use of these useful components affects the performance of communication devices negatively.
Again, noise is another vital factor. It hampers the data transmission rate and overall integrity of RFlink PCB applications. That’s why you need to consider these factors during the PCB design.
Inquire us. We have been delivering quality manufacturing and assembly service of the RFlink PCB for more than 15 years.
Does RFlink PCB Support The RTS Protocol?
RTS (Request To Send) protocol is effective for lessening the frame collision during data transmission. RFlink supports this protocol. It is compatible with RTS signal transferring and receiving.
You can control RTS by using RFlink along with the typical remote. You don’t require compromising the efficiency of the communication system. But, RFlink has a deviation in the operating frequency that is standard for the RTS protocol.
The ideal frequency of RTS is 433.42mHz, where RFlink operates at 433mHz frequency. This variation is responsible for the limitation of the range of receiver and transmitter.
What Are The UART And SPI Protocols In RFlink PCB Assembly?
UART (Universal asynchronous Receiver/Transmitter) and SPI (Serial Peripheral Interface) are two common protocols. These are applied in RFlink PCB-driven communication technology.
In the case of UART protocol, receiving and transmitting ends are connected through a couple of cables. It supports the microcontrollers operating at a low voltage. You can control the voltage, timing, errors, etc in the UART.
On the contrary, SPI protocol is not effective for long-distance signal transmission. This 4-wire serial bus system utilizes different clock signals and data lines. It maintains the signal’s integrity properly.
How To Use RFlink PCB With Domoticz?
Domoticz is an automated system. It enables you to configure sensors, lights, etc. You can use RFlink with domotics. You just need to connect the remote command similar to the switch.
RFlink With Domoticz
Then you can see an icon. This icon contains up, down, stop, etc options. Domoticz can identify the command of RFlink. It produces switching devices. After completing this, it also acts to regulate the blinds.
How To Wire An RFlink PCB?
RFlink PCB wiring is different based on the application. But, the basic wiring structure is the same. You need to connect a radio module in this PCB design. It ensures effective signal transmission through the electronic device.
Here, the required components are Arduino Mega 2560, 433 MHz emitters and transmitter, antenna, etc. You have to wire GND, antenna, and +5V supply voltage source.
RFlink PCB Wiring
You can follow the following pin connection for the Aurel RTX MID 5V transceiver in RFlink PCB wiring.
PIN1: Antenna
PIN2: GND
PIN3: Not Connected
PIN4: MEGA TX3/PIN14 (Transmitter data)
PIN5: MEGA RX3/PIN15
PIN6: MEGA PIN22
PIN7: GND
PIN8: GND
PIN9: MEGA RX1/PIN19 (Receiver data)
PIN10: MEGA VCC (100nF to GND)
These pinouts will be different for other modules. You should consult a reliable manufacturer to take care of the RFlink PCB wiring.
What Is The RFlink PCB Kit?
RFlink PCB kit is a combination that consists of different vital components for the assembly of this PCB. It enables the technicians of rapid PCB assembly when you don’t have factory facilities. This kit contains the following parts:
- A PCB
- SMD components
- Connectors
- MCU generators
- Transceivers
- A driver circuit
- User interface circuit
- Cables
- Soldering components
RFlink PCB Kit
This PCB kit is effective for its low-cost service. Besides, you get your desired assembly within a short period through the RFlink PCB kit. Contact us for a one-stop assembly service of this highly functional PCB.
What Is The Operating Principle Of Transmitter RFlink PCB?
The operation of a transmitter RFlink PCB follows a definite principle. Here, A pre-amplifier receives the signal and amplifies it to a certain level. Then, it passes the signal to the oscillator.
RFlink Transmitter PCB
A coupling capacitor is applied to specify the signal at this stage and sends it to the power amplifier. This amplifier again intensified the signal having different capacitance. An antenna receives the output of the power amplifier and transmits the signal.
This is the basic structure of signal transmission in the RFlink transmitter PCB.
Can You Connect RFlink PCB To Rasp GPIO Instead Of USB?
There is no restriction on connecting RFlink PCB to Raspberry GPIO (General Purpose Input/Output). You just need to apply a level shifter to use Rasp GPIO instead of USB. It acts to make up the voltage variation between Arduino Mega of RFlink and Raspberry pi.
In this case, you can join the input-output pin of Rasp GPIO to the TX0 and RX0 of Arduino Mega.
Can An RFlink PCB Be Customized?
Yes. An RFlink PCB can be customized. It improves the performance of this PCB in versatile communication applications. You can incorporate additional features in this PCB to make it more convenient.
Customized RFlink PCB
It is obvious that high-speed, high-frequency, multilayer compatibility, etc are the most desired properties of communication devices. You can experience these features in your RFlink PCB through trouble-free customization.
Again, you can increase its frequency range for applying it to security devices. This is possible due to the custom solution of this PCB. We provide professional technical support in a well-equipped factory for many years.
Inquire us to ensure proper customization of your project. Watch this video:
What Is The Ideal Surface Finish For RFlink PCB?
The surface finish of PCB promotes the productivity of an electric circuit to a great extent. For the RFlink PCB, electroless nickel immersion gold (ENIG) is the most appropriate surface finish.
ENIG Surface Finish
It adds some viable benefits to this PCB. Such as:
- ENIG impedes the decay of the PCB surface greatly.
- This is effective for preventing oxidation that causes harm to the PCB components.
- It promotes hassle-free soldering.
- This surface finish broadens the PCB surface so that you can place the components efficiently. It ensures smooth current flow in the PCB layers.
- ENIG is compatible with the technology that is free from lead. That’s why it makes the PCB nature-friendly.
How To Etch An RFlink PCB?
Etching is a supremely important part of PCB fabrication. Its success enhances the quality of manufacturing. There are many effective processes to etch an RFlink PCB. Here, necessary steps for an easy way of etching this PCB are given.
- First, print the PCB layout design on a suitable sheet.
- To make the surface rough, sand it.
- Now, you need to clean the plate by using water, polish it through alcohol, and make it dry.
- Take a standard etching solution. Usually, ferric chloride is the best choice in this case due to its corrosive property. It dissolves the copper of the PCB surface quickly. This is easy to handle and less expensive as well.
- You can think about cupric chloride or a combination of hydrochloric acid and hydrogen peroxide. But, these solutions don’t deliver enough toxicity to reduce the copper from the surface of RFlink PCB.
- Cover the essential segment of the PCB and put it into the etching solution.
- Pick up the PCB after all copper is being dissolved in the solution.
- Clean it again with water and dry it.
Now, you have a clear idea about how to etch a PCB. Next, you just need to drill the PCB and place the components on the surface.
How Can You Design A Rover Robot By Using RFlink PCB?
You can design a Rover robot by using RFlink PCB having a frequency of 433mHz. You need to use Arduino Mega, joystick, Aluminum box, H-bridge DC motor, capacitor, a 9-12V battery, and jumper for an effective design.
You should follow this diagram for having a well-designed Rover robot. There are transmitter and receiver radio frequency configurations in this design.
Rover Robot Design
Here, the H-bridge DC motor causes interference in the signal transmission. A capacitor is applied to minimize this factor.
How Do You Add RFlink PCB To Raspberry Pi?
Raspberry pi causes radio frequency noise and interference during data transmission in electric circuits. You need to place Rasp pi far away from the RFlink PCB. Besides, you can apply the RF shielding method to avoid interference.
RFlink Raspberry Pi
Is RFlink PCB Good For Multilayer PCB Stackup?
PCB stackup improves the compatibility of the PCB in electromagnetic projects. When you think about the multilayer PCB stackup, RFlink PCB is a good choice. Its features make it compatible with 8 to 16 layers PCB assembly.
RFlink PCB accommodates different dielectric materials like prepreg, FR4, epoxy resins, etc. These materials render sufficient dielectric strength in different PCB layers. It develops the electrical conduction in a multilayer PCB stackup.
Multilayer PCB
Besides, you need to deliver the different values of the dielectric constant (DK) for each PCB layer. Here, the PCB materials assure you of a wide scale of DK that accelerates the performance of your multilayer PCB applications.
Moreover, it helps to manage the thermal characteristics in separate layers. This is useful for preventing overheating during the PCB stackup having multilayers.
What Are The Limitations Of RFlink PCB?
Along with immense advantages, RFlink PCB also has some limitations. The most prominent drawbacks are-
- It is comparatively expensive.
- Sometimes it is difficult to pair this PCB with other portions of the electric circuit.
- The design of this PCB has a few complications.
Functional RFlink
You don’t need to be worried about these limitations. You can reduce the negative effects of this PCB through the perfect manufacture.
How Can You Test A RFlink PCB?
You have to be assured of the high-quality performance of the RFlink PCB in your projects. That’s why it is important to test this PCB. A reliable inspection makes you aware of the maximum output of your PCB.
Some worthwhile testing methods of this PCB are explained here for you. Let’s have a look.
Flying Probe Test
In this test, some probes are set in different directions. When these probes create a connection with the PCB, they transmit signals. Thus you can find out the defects of your RFlink PCB.
It checks the soldering, wrong connections, current flow, power dissipation, etc. You don’t need a lot of fixtures to conduct this test. That makes it convenient and less expensive. But, it takes a huge time for a high-volume PCB assembly.
PCB Testing
You can test a high-density PCB efficiently through the flying probe test. Here, the probes move from one portion to another. It looks like they are flying. So, this test has got such a name.
AOI Test
AOI means automated optical inspection. Here, an AOI machine identifies the faults of the PCB. This test is conducted without making a contact. Some high-resolution cameras capture 2D and 3D images of RFlink PCB from various directions.
The AOI machine differentiates between these images and the ideal PCB features. It detects the quality factors like the component’s skew, fillet shape, etc. Besides, you also find out the missing parts of the PCB, improper solder joints, etc through this test.
The AOI test is very fast and trustworthy. This is a high-budget inspection method. But, it makes sure that the RFlink PCB will be free from any manufacturing defects after the production.
How To Choose The Best Manufacturer Of RFlink PCB?
The performance of RFlink PCB depends on choosing a skilled manufacturer. You should give importance to this factor. But, which factors should you look for?
A reliable manufacturer should have enough experience in PCB assembly. Your PCB needs to be customized and manufactured in a smart factory. Again, RFlink PCB should be IPC Class 2 standard.
Besides, certification from UL, RoHS, ISO, etc is a must for a reliable manufacturer. You have to verify its technical support, cost, etc from the consumer’s review. All of these factors help you to make a great choice.
We supply RFlink PCB constructed of high-quality materials. The PCB we deliver maintains IPC standards and is RoHS certified. We provide the best PCB at affordable prices. Contact us to ensure the quality of your projects.
Conclusion
RFlink PCB ensures the top-class performance of radio frequency communication devices. Its features and benefits are so tremendous that its use is constantly increasing day by day. PCBMay delivers the superlative manufacturing service of this PCB.
We provide the best service to high-volume PCB production. We hope this FAQ guide will help you to enjoy the complete advantages of PCB. Contact us in case you want to know more information about RFlink.