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Fully Equipped Wi-Fi PCB by PCBTok
Wi-Fi PCB is a class of wireless IP, it is frequently used for LAN and internet connectivity, enabling the radio waves emitted by neighboring electronic devices to share information.
In all new orders, PCBTok doesn’t have a minimum purchase amount. Further, we’re UL certified in both US and Canada, and we provide a variety of layer choices from 1 to 40.
Other than that, our expert team of sales, technical, and engineering are accessible around the clock and we provide weekly progress updates concerning your purchases.
Grab your quality performing Wi-Fi PCB with us today!
Striving to Supply Wi-Fi PCBs of the Highest Caliber
Excellence and customer service are values that PCBTok has held dear since we first entered this business. Our goal is to provide only the finest Wi-Fi PCB for our clientele.
When it comes to product manufacture, we only use top-notch raw materials, cutting-edge technologies, and incredibly skilled engineers at the facility.
In addition, PCBTok produces your orders strictly following worldwide standard rules, ensuring that it will operate effectively.
Enjoy the benefits of our exceptional Wi-Fi PCB by submitting your order with us promptly!
We shall gladly and enthusiastically comply if further work is required on our part to help you accomplish your projected board purposes.
Wi-Fi PCB By Feature
The Bluetooth PCB that we particularly integrate into this board has countless advantages when deployed in various applications, including the capability to process information within a 10-meter diameter, no wirings involved, and High TG value.
The Wi-Fi Camera PCB that we particularly incorporate in this board has gained popularity in modern technologies, especially in CCTV applications since it no longer requires various cablings for it to operate successfully and efficiently.
The Router PCB that we particularly integrate into this board can be the ideal option if you’re seeking to reduce the usage of vias in the board; it can offer efficient routing patterns that lessen the occurrence of left space in the board without problems.
The Wi-Fi Antenna PCB that we particularly incorporate in this board is highly essential in this product since it is the primary method for successful wireless communication. It is ideal for compact devices since it has simpler integration.
The Wi-Fi Module PCB that we particularly integrate into this board has a broad range of benefits, including simplicity to maintain and repair, a time-saving approach, a compact solution, minimal risk of short circuits, and minimal electrical noise.
The USB PCB that we particularly incorporate in this board has become popular in the industry because of its capability to aid efficient data transmission. They are commonly integrated into motherboards and used in computers, mobile, and chargers.
What is a Wi-Fi PCB?
Nowadays, all sorts of devices can connect over short ranges due to Wi-Fi, a Wireless Communication mechanism. The Wi-Fi standard has evolved into Wireless Fidelity (WiFi).
Modern technologies are supported electrically and mechanically by printed circuit boards (PCBs), which are panels. A system for creating and using circuitry on PCBs is also included. Since Wi-Fi technology ensures the wireless link between devices flawlessly, Wi-Fi PCBs are ones that feature it.
Many different parts are used in PCBs, including capacitors, inductors, resistors, transformers, and others. These components are used by PCBs for a variety of purposes. Antennas are also used by the WiFi PCB to pick up radio frequencies. Ultimately, WiFi PCBs use conductive traces to transfer energy from the source to the modules.
What is a Wi-Fi Router?
The unit that receives and distributes signals is termed the Wi-Fi Router. Additionally, the Wi-Fi Router is principally responsible for establishing connectivity to the internet and distributing it to Wi-Fi-enabled gadgets. As implied by the name, the router distributes Wi-Fi signals between the network and its linked endpoints.
It can be essential if you own several homes automation devices, like printers, TVs, iPads, and smartphones. By the use of Wi-Fi PCB technology, these gadgets create a wireless connection with the host.
Finally, the gateway rapidly and efficiently sends the network data it obtains from the web to the network devices. All home gadgets may receive an email, video, audio, photos, and SMS connected to the same Wi-Fi Router PCB.
How does a Wi-Fi PCB Function?
The Radio Frequency is the main mechanism through which Wi-Fi technology functions. Moreover, electronic equipment can communicate with one another by emitting radiofrequency; radio frequency communication between the gadgets is what we might define. Also, the antenna and router are two more crucial components of a Wi-Fi connection.
On modems, the antenna serves as the recipient of data, whereas in the radio frequency, it serves as the transmitter. Apart from that, routers then provide the information to the endpoints to link them together.
The frequency is measured in Hertz, or Hz; Wi-Fi employs the Gigahertz (GHz) frequency range rather than the kHz and MHz used in traditional wireless technology.
Choose PCBTok's First-Class Performing Wi-Fi PCB
Since we began successfully functioning in the PCB sector more than twelve (12) years ago, PCBTok has established a trusted global name for its high-quality goods.
In addition, our business has adequate facilities, remarkable supplies, components, veteran experts, and qualified engineers to make remarkable Wi-Fi PCBs.
In storing building supplies, we have more than enough room. Further, we have countless professional teams available around-the-clock to help you with any PCB-related issues you may have. With that, we’ll be more than pleased to help.
Last but not least, we fully own the IPC and RoHS approvals. Obtain your high-quality PCB from us immediately; we provide 100% client satisfaction!
Wi-Fi PCB Fabrication
In our business, we offer four (4) different types of Wi-Fi technologies that you can integrate into various operations; we’ll provide insight into them.
First, we have the Wi-Fi-802.11a; it uses 5 GHz of bandwidth with a transmission rate of 6.75 GB/s. Then, we have the Wi-Fi-802.11b; it has 2.4 GHz bandwidth.
In addition, it is considered to be an extension of the 802.11a that can offer a 54 Mbps transfer rate. Third, we have Wi-Fi-802.11g; it has a 2.4 GHz frequency.
Moreover, it uses Orthogonal Frequency Division Multiplex (OFDM). Ultimately, we have the Wi-Fi-802.11n; it uses Multiple-Input and Multiple-Output (MIMO).
If you have any inquiries pertaining to these technologies, send us a message.
Generally, the key benefit of using this particular board is to implement wireless communications. But its advantages are not just limited to this.
One of the succeeding benefits of deploying a Wi-Fi PCB is the freedom, as long as you’re covered with the Wi-Fi network radius, you can browse through the web easily.
Secondly, it eliminates the use of obtrusive cables that can be distracting. Third, it helps in reducing network interference and poses lesser security risks.
Fourth, it is capable of withstanding countless devices connected to a single network at the same time without any problems. Finally, it is relatively inexpensive.
Take advantage of the benefits that Wi-Fi PCBs can provide by grabbing one today!
OEM & ODM Wi-Fi PCB Applications
In the present time, almost all homes have their smart automation activated in their places; hence, they require this kind of board for such purposes.
Since this particular board is capable of accommodating same-time connections without experiencing interruptions, they are used in commercial and industrial networks.
Due to the capability of this board to offer connectivity anywhere in the globe, they are preferred in connecting devices since it is way efficient and accessible.
Since this specific board reduces the usage of cables that can be quite unpleasing in the eyes, it has become a highly preferred in-home appliance.
Wi-Fi PCB Production Details As Following Up
- Production Facility
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| NO | Item | Technical Specification | ||||||
| Standard | Advanced | |||||||
| 1 | Layer Count | 1-20 layers | 22-40 layer | |||||
| 2 | Base Material | KB、Shengyi、ShengyiSF305、FR408、FR408HR、IS410、FR406、GETEK、370HR、IT180A、Rogers4350、Rogers400、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) | ||||||
| 3 | PCB Type | Rigid PCB/FPC/Flex-Rigid | Backplane、HDI、High multi-layer blind&buried PCB、Embedded Capacitance、Embedded resistance board 、Heavy copper power PCB、Backdrill. | |||||
| 4 | Lamination type | Blind&buried via type | Mechanical blind&burried vias with less than 3 times laminating | Mechanical blind&burried vias with less than 2 times laminating | ||||
| HDI PCB | 1+n+1,1+1+n+1+1,2+n+2,3+n+3(n buried vias≤0.3mm),Laser blind via can be filling plating | 1+n+1,1+1+n+1+1,2+n+2,3+n+3(n buried vias≤0.3mm),Laser blind via can be filling plating | ||||||
| 5 | Finished Board Thickness | 0.2-3.2mm | 3.4-7mm | |||||
| 6 | Minimum Core Thickness | 0.15mm(6mil) | 0.1mm(4mil) | |||||
| 7 | Copper Thickness | Min. 1/2 OZ, Max. 4 OZ | Min. 1/3 OZ, Max. 10 OZ | |||||
| 8 | PTH Wall | 20um(0.8mil) | 25um(1mil) | |||||
| 9 | Maximum Board Size | 500*600mm(19”*23”) | 1100*500mm(43”*19”) | |||||
| 10 | Hole | Min laser drilling size | 4mil | 4mil | ||||
| Max laser drilling size | 6mil | 6mil | ||||||
| Max aspect ratio for Hole plate | 10:1(hole diameter>8mil) | 20:1 | ||||||
| Max aspect ratio for laser via filling plating | 0.9:1(Depth included copper thickness) | 1:1(Depth included copper thickness) | ||||||
| Max aspect ratio for mechanical depth- control drilling board(Blind hole drilling depth/blind hole size) |
0.8:1(drilling tool size≥10mil) | 1.3:1(drilling tool size≤8mil),1.15:1(drilling tool size≥10mil) | ||||||
| Min. depth of Mechanical depth-control(back drill) | 8mil | 8mil | ||||||
| Min gap between hole wall and conductor (None blind and buried via PCB) |
7mil(≤8L),9mil(10-14L),10mil(>14L) | 5.5mil(≤8L),6.5mil(10-14L),7mil(>14L) | ||||||
| Min gap between hole wall conductor (Blind and buried via PCB) | 8mil(1 times laminating),10mil(2 times laminating), 12mil(3 times laminating) | 7mil(1 time laminating), 8mil(2 times laminating), 9mil(3 times laminating) | ||||||
| Min gab between hole wall conductor(Laser blind hole buried via PCB) | 7mil(1+N+1);8mil(1+1+N+1+1 or 2+N+2) | 7mil(1+N+1);8mil(1+1+N+1+1 or 2+N+2) | ||||||
| Min space between laser holes and conductor | 6mil | 5mil | ||||||
| Min space between hole walls in different net | 10mil | 10mil | ||||||
| Min space between hole walls in the same net | 6mil(thru-hole& laser hole PCB),10mil(Mechanical blind&buried PCB) | 6mil(thru-hole& laser hole PCB),10mil(Mechanical blind&buried PCB) | ||||||
| Min space bwteen NPTH hole walls | 8mil | 8mil | ||||||
| Hole location tolerance | ±2mil | ±2mil | ||||||
| NPTH tolerance | ±2mil | ±2mil | ||||||
| Pressfit holes tolerance | ±2mil | ±2mil | ||||||
| Countersink depth tolerance | ±6mil | ±6mil | ||||||
| Countersink hole size tolerance | ±6mil | ±6mil | ||||||
| 11 | Pad(ring) | Min Pad size for laser drillings | 10mil(for 4mil laser via),11mil(for 5mil laser via) | 10mil(for 4mil laser via),11mil(for 5mil laser via) | ||||
| Min Pad size for mechanical drillings | 16mil(8mil drillings) | 16mil(8mil drillings) | ||||||
| Min BGA pad size | HASL:10mil, LF HASL:12mil, other surface technics are 10mil(7mil is ok for flash gold) | HASL:10mil, LF HASL:12mil, other surface technics are 7mi | ||||||
| Pad size tolerance(BGA) | ±1.5mil(pad size≤10mil);±15%(pad size>10mil) | ±1.2mil(pad size≤12mil);±10%(pad size≥12mil) | ||||||
| 12 | Width/Space | Internal Layer | 1/2OZ:3/3mil | 1/2OZ:3/3mil | ||||
| 1OZ: 3/4mil | 1OZ: 3/4mil | |||||||
| 2OZ: 4/5.5mil | 2OZ: 4/5mil | |||||||
| 3OZ: 5/8mil | 3OZ: 5/8mil | |||||||
| 4OZ: 6/11mil | 4OZ: 6/11mil | |||||||
| 5OZ: 7/14mil | 5OZ: 7/13.5mil | |||||||
| 6OZ: 8/16mil | 6OZ: 8/15mil | |||||||
| 7OZ: 9/19mil | 7OZ: 9/18mil | |||||||
| 8OZ: 10/22mil | 8OZ: 10/21mil | |||||||
| 9OZ: 11/25mil | 9OZ: 11/24mil | |||||||
| 10OZ: 12/28mil | 10OZ: 12/27mil | |||||||
| External Layer | 1/3OZ:3.5/4mil | 1/3OZ:3/3mil | ||||||
| 1/2OZ:3.9/4.5mil | 1/2OZ:3.5/3.5mil | |||||||
| 1OZ: 4.8/5mil | 1OZ: 4.5/5mil | |||||||
| 1.43OZ(positive):4.5/7 | 1.43OZ(positive):4.5/6 | |||||||
| 1.43OZ(negative ):5/8 | 1.43OZ(negative ):5/7 | |||||||
| 2OZ: 6/8mil | 2OZ: 6/7mil | |||||||
| 3OZ: 6/12mil | 3OZ: 6/10mil | |||||||
| 4OZ: 7.5/15mil | 4OZ: 7.5/13mil | |||||||
| 5OZ: 9/18mil | 5OZ: 9/16mil | |||||||
| 6OZ: 10/21mil | 6OZ: 10/19mil | |||||||
| 7OZ: 11/25mil | 7OZ: 11/22mil | |||||||
| 8OZ: 12/29mil | 8OZ: 12/26mil | |||||||
| 9OZ: 13/33mil | 9OZ: 13/30mil | |||||||
| 10OZ: 14/38mil | 10OZ: 14/35mil | |||||||
| 13 | Dimension Tolerance | Hole Position | 0.08 ( 3 mils) | |||||
| Conductor Width(W) | 20% Deviation of Master A/W |
1mil Deviation of Master A/W |
||||||
| Outline Dimension | 0.15 mm ( 6 mils) | 0.10 mm ( 4 mils) | ||||||
| Conductors & Outline ( C – O ) |
0.15 mm ( 6 mils) | 0.13 mm ( 5 mils) | ||||||
| Warp and Twist | 0.75% | 0.50% | ||||||
| 14 | Solder Mask | Max drilling tool size for via filled with Soldermask (single side) | 35.4mil | 35.4mil | ||||
| Soldermask color | Green, Black, Blue, Red, White, Yellow,Purple matte/glossy | |||||||
| Silkscreen color | White, Black,Blue,Yellow | |||||||
| Max hole size for via filled with Blue glue aluminium | 197mil | 197mil | ||||||
| Finish hole size for via filled with resin | 4-25.4mil | 4-25.4mil | ||||||
| Max aspect ratio for via filled with resin board | 8:1 | 12:1 | ||||||
| Min width of soldermask bridge | Base copper≤0.5 oz、Immersion Tin: 7.5mil(Black), 5.5mil(Other color) , 8mil( on copper area) | |||||||
| Base copper≤0.5 oz、Finish treatment not Immersion Tin : 5.5 mil(Black,extremity 5mil), 4mil(Other color,extremity 3.5mil) , 8mil( on copper area |
||||||||
| Base coppe 1 oz: 4mil(Green), 5mil(Other color) , 5.5mil(Black,extremity 5mil),8mil( on copper area) | ||||||||
| Base copper 1.43 oz: 4mil(Green), 5.5mil(Other color) , 6mil(Black), 8mil( on copper area) | ||||||||
| Base copper 2 oz-4 oz: 6mil, 8mil( on copper area) | ||||||||
| 15 | Surface Treatment | Lead free | 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 finge | |||||
| Leaded | Leaded HASL | |||||||
| Aspect ratio | 10:1(HASL Lead free、HASL Lead、ENIG、Immersion Tin、Immersion silver、ENEPIG);8:1(OSP) | |||||||
| Max finished size | HASL Lead 22″*39″;HASL Lead free 22″*24″;Flash gold 24″*24″;Hard gold 24″*28″;ENIG 21″*27″;Flash gold(electroplated gold) 21″*48″;Immersion Tin 16″*21″;Immersion silver 16″*18″;OSP 24″*40″; | |||||||
| Min finished size | HASL Lead 5″*6″;HASL Lead free 10″*10″;Flash gold 12″*16″;Hard gold 3″*3″;Flash gold(electroplated gold) 8″*10″;Immersion Tin 2″*4″;Immersion silver 2″*4″;OSP 2″*2″; | |||||||
| PCB thickness | HASL Lead 0.6-4.0mm;HASL Lead free 0.6-4.0mm;Flash gold 1.0-3.2mm;Hard gold 0.1-5.0mm;ENIG 0.2-7.0mm;Flash gold(electroplated gold) 0.15-5.0mm;Immersion Tin 0.4-5.0mm;Immersion silver 0.4-5.0mm;OSP 0.2-6.0mm | |||||||
| Max high to gold finger | 1.5inch | |||||||
| Min space between gold fingers | 6mil | |||||||
| Min block space to gold fingers | 7.5mil | |||||||
| 16 | V-Cutting | Panel Size | 500mm X 622 mm ( max. ) | 500mm X 800 mm ( max. ) | ||||
| Board Thickness | 0.50 mm (20mil) min. | 0.30 mm (12mil) min. | ||||||
| Remain Thickness | 1/3 board thickness | 0.40 +/-0.10mm( 16+/-4 mil ) | ||||||
| Tolerance | ±0.13 mm(5mil) | ±0.1 mm(4mil) | ||||||
| Groove Width | 0.50 mm (20mil) max. | 0.38 mm (15mil) max. | ||||||
| Groove to Groove | 20 mm (787mil) min. | 10 mm (394mil) min. | ||||||
| Groove to Trace | 0.45 mm(18mil) min. | 0.38 mm(15mil) min. | ||||||
| 17 | Slot | Slot size tol.L≥2W | PTH Slot: L:+/-0.13(5mil) W:+/-0.08(3mil) | PTH Slot: L:+/-0.10(4mil) W:+/-0.05(2mil) | ||||
| NPTH slot(mm) L+/-0.10 (4mil) W:+/-0.05(2mil) | NPTH slot(mm) L:+/-0.08 (3mil) W:+/-0.05(2mil) | |||||||
| 18 | Min Spacing from hole edge to hole edge | 0.30-1.60 (Hole Diameter) | 0.15mm(6mil) | 0.10mm(4mil) | ||||
| 1.61-6.50 (Hole Diameter) | 0.15mm(6mil) | 0.13mm(5mil) | ||||||
| 19 | Min spacing between hole edge to circuitry pattern | PTH hole: 0.20mm(8mil) | PTH hole: 0.13mm(5mil) | |||||
| NPTH hole: 0.18mm(7mil) | NPTH hole: 0.10mm(4mil) | |||||||
| 20 | Image transfer Registration tol | Circuit pattern vs.index hole | 0.10(4mil) | 0.08(3mil) | ||||
| Circuit pattern vs.2nd drill hole | 0.15(6mil) | 0.10(4mil) | ||||||
| 21 | Registration tolerance of front/back image | 0.075mm(3mil) | 0.05mm(2mil) | |||||
| 22 | Multilayers | Layer-layer misregistration | 4layers: | 0.15mm(6mil)max. | 4layers: | 0.10mm(4mil) max. | ||
| 6layers: | 0.20mm(8mil)max. | 6layers: | 0.13mm(5mil) max. | |||||
| 8layers: | 0.25mm(10mil)max. | 8layers: | 0.15mm(6mil) max. | |||||
| Min. Spacing from Hole Edge to Innerlayer Pattern | 0.225mm(9mil) | 0.15mm(6mil) | ||||||
| Min.Spacing from Outline to Innerlayer Pattern | 0.38mm(15mil) | 0.225mm(9mil) | ||||||
| Min. board thickness | 4layers:0.30mm(12mil) | 4layers:0.20mm(8mil) | ||||||
| 6layers:0.60mm(24mil) | 6layers:0.50mm(20mil) | |||||||
| 8layers:1.0mm(40mil) | 8layers:0.75mm(30mil) | |||||||
| Board thickness tolerance | 4layers:+/-0.13mm(5mil) | 4layers:+/-0.10mm(4mil) | ||||||
| 6layers:+/-0.15mm(6mil) | 6layers:+/-0.13mm(5mil) | |||||||
| 8-12 layers:+/-0.20mm (8mil) | 8-12 layers:+/-0.15mm (6mil) | |||||||
| 23 | Insulation Resistance | 10KΩ~20MΩ(typical:5MΩ) | ||||||
| 24 | Conductivity | <50Ω(typical:25Ω) | ||||||
| 25 | Test voltage | 250V | ||||||
| 26 | Impedance control | ±5ohm(<50ohm), ±10%(≥50ohm) | ||||||
PCBTok offers flexible shipping methods for our customers, you may choose from one of the methods below.
1. DHL
DHL offers international express services in over 220 countries.
DHL partners with PCBTok and offers very competitive rates to customers of PCBTok.
It normally takes 3-7 business days for the package to be delivered around the world.
2. UPS
UPS gets the facts and figures about the world’s largest package delivery company and one of the leading global providers of specialized transportation and logistics services.
It normally takes 3-7 business days to deliver a package to most of the addresses in the world.
3. TNT
TNT has 56,000 employees in 61 countries.
It takes 4-9 business days to deliver the packages to the hands
of our customers.
4. FedEx
FedEx offers delivery solutions for customers around the world.
It takes 4-7 business days to deliver the packages to the hands
of our customers.
5. Air, Sea/Air, and Sea
If your order is of large volume with PCBTok, you can also choose
to ship via air, sea/air combined, and sea when necessary.
Please contact your sales representative for shipping solutions.
Note: if you need others, please contact your sales representative for shipping solutions.
You can use the following payment methods:
Telegraphic Transfer(TT): A telegraphic transfer (TT) is an electronic method of transferring funds utilized primarily for overseas wire transactions. It’s very convenient to transfer.
Bank/Wire transfer: To pay by wire transfer using your bank account, you need to visit your nearest bank branch with the wire transfer information. Your payment will be completed 3-5 business days after you have finished the money transfer.
Paypal: Pay easily, fast and secure with PayPal. many other credit and debit cards via PayPal.
Credit Card: You can pay with a credit card: Visa, Visa Electron, MasterCard, Maestro.
Related Products
A link between devices is made possible through the short-range wireless communication technology known as Bluetooth. WiFi and Bluetooth both employ wireless technology and radio waves, however, they are very different from one another.
Below is a detailed distinction between these two:
|
Wi-Fi |
Bluetooth |
| It utilizes bandwidth. |
It utilizes low bandwidth. |
| It necessitates adapters in particular devices, then a router to build network and link devices to each other. |
It requires the users to have adapters on their devices to link them. |
| It features high power consumption. |
It features low power consumption. |
| It is a little bit complex compared to Bluetooth because of its challenging configuration. |
It is fairly simple to utilize. |
| It offers more security and its connecting range is about 10-meter. |
It has less security and a connectivity range of up to 100 meters and more. |
|
It can accommodate a large count of devices at the same time. |
It has limited interconnection. |
| In terms of modulation technique, it utilizes the OFDM. |
In terms of modulation technique, it uses GFSK. |