Cleverly Designed Radio PCB by PCBTok

In the PCB industry, the Radio PCB is among the essential PCBs. Its name clearly states its application in the PCB industry; it primarily uses radiofrequency.

PCBTok provides a COC analysis, a micro-section, and a soldering prototype for your purchase. Also, we are accredited with UL in US and Canada.

Other than that, our entire line of boards adheres to IPC Class 2 or 3, we conduct full E-Test and AOI, and we deliver you a weekly report on the progress of your products.

Kindly send us your Radio PCB specifications, and we’ll work them out for you!

Get Our Best Quotation

Engaged in Providing Stellar Quality of Radio PCB

If you’re looking for a highly reliable manufacturer in the industry for your Radio PCB with extensive experience, then PCBTok is the right place for you.

All of our products adhere to ISO standards. In essence, we are ISO 1400:2015 compliant. We are doing this for the benefit of our consumers.

In addition, PCBTok has adequate facilities to produce all your PCB needs. We also have experienced and skilled personnel to facilitate your purchases.

Now is the time to act; come to us and get your outstanding PCBs!

No matter how complicated your demands are, we can accomplish them all. Additionally, we assure complete client satisfaction with our products and services.

Read More

Radio PCB By Type

Radio Frequency PCB

The Radio Frequency PCB that we incorporate in this particular board allows for faster signal transmission at high-frequency with less occurrence of impedance. Moreover, they are usually deployed in wireless technologies and high-speed devices.

Car Player PCB

The Car Player PCB we integrate into this particular board is commonly employed for automated controlling, auto-pilot, security, and even audio playing. Apart from that, it is responsible for maintaining the audio signals of the control system.

FM PCB

The FM PCB that we incorporate in this particular board has become popular in radio broadcasting because of its wide frequency range that can suffice 88 to 108 MHz VHF. Additionally, it has a large signal-to-noise ratio, thus, reducing interference.

AM PCB

The AM PCB that we integrate into this particular board mainly applies to transmitting data or information through the form of radio waves. In addition, it is utilized in the electronic analog communication system and even in Air Band Radios operations.

Microwave PCB

The Microwave PCB that we incorporate in this particular board offers high stability, high speed, and reduced cost in its production. Additionally, they have a broad array of applications, including high-power industry, military, and automotive.

Mobile PCB

The Mobile PCB that we integrate into this particular board has been one of the prevalent uses of this product; it is the one utilized as a means of paramount communication for this specific device that is explicitly powered by radiofrequency.

What is a Radio PCB?

The term “radiofrequency” refers to the frequency of repeated instances of an alternate stream oscillating in a mechanical framework or a magnetic, electric, or electromagnetic field (RF). Between 20 kHz and 300 GHz, radiofrequency can operate. Radio PCB refers to the PCB that includes radio frequency.

A Radio PCB is categorized as high-frequency if it operates at a bandwidth greater than 1000 MHz. But in PCBs, a microwave is a frequency that functions at or above 2 GHz.

The wavelength of Radio PCBs transmits and absorbs radio waves in the field of communication technology. Several wireless communication systems employ Radio PCB and microwave circuitry.

What is a Radio PCB?
Materials Employed in Radio PCB

Materials Employed in Radio PCB

One of the most crucial elements is PCB board materials; performance and durability are heavily reliant on PCB materials.

Usually, laminates and resins are utilized to create Radio PCB. Basically, polymers and thin fabric textiles are used to create laminates; Teflon, Polyimide, and FR4 Epoxy laminate are a few examples of laminates.

Among the most popular PCB materials in the industry is FR4 laminate. It is made of flame-resistant epoxy resin and glass fibers. In contrast, polyimide laminates are stronger laminates with marginally improved electrical performance and superior heat tolerance. Teflon is also more resilient and appropriate for electronics with greater frequencies and speed.

What is a Radio PCB Antenna and its Function?

An instrument that converts current spikes into electromagnetic waves and directs them at High-Frequency PCB circuits is classified as a Radio PCB antenna. The antenna then disperses the altered wave into the atmosphere; the waves are subsequently transmitted or received by a separate antenna in a different apparatus.

Customarily, a PCB has two PCB antennas. While another absorbs the information from other units, one emits frequencies to other machines. The PCB antenna is built into the circuits because it is small and compact. The antenna’s ability to receive and transmit radiofrequency is improved by its tiny and tight size.

What is a Radio PCB Antenna and its Function?

Grab PCBTok's Notable Quality Radio PCB

Grab PCBTok's Notable Quality Radio PCB
Grab PCBTok's Notable Quality Radio PCB

PCBTok can produce all types of Radio PCBs depending on your desired application. It is all thanks to our over twelve years of extensive experience in this field.

Our Radio PCB can support various signal waves for AM and FM tuning and Digital Audio Broadcasting (DAB) and HD-compatible applications.

We strictly follow standard quality control procedures; thus, you can guarantee that your products can fulfill all types of operations without experiencing any problems. We can design your orders through Kicad, Solidworks, and other software.

As for the cost, we offer a variety of daily offers to meet your desired range of prices. In essence, we can make it at a reasonable rate without compromising its quality.

What are you waiting for? Grab your Radio PCB with us today!

Radio PCB Fabrication

Design Process of Radio PCB

There are various design processes involved in designing a Radio PCB; thus, we will briefly review the circuit design.

First, we have to design the schematic; this shows the plan and drawing of the whole PCB. Then, we conduct PCB Layout Design.

After that, we’ll proceed with making the board, wherein we incorporate high-quality materials. Next, we’re going to print the layout on the board.

Then, we’ll proceed with PCB Etching the traces by drying up the board. Finally, we perform PCB Assembly, wherein it’ll be prepared for usage.

If you have any questions about this matter, feel free to write us. We’ll be delighted to assist you!

Types of Radio Antenna PCB

In Radio PCBs, various types of PCB antennas are employed. The antennas operate in multiple ways; we have five of them.

First, we have the loop antenna; it is linked with the transmitter and the receiver terminal of the PCB. Second, we have the patch antenna.

It is primarily responsible for spreading half the board’s radio frequency. Then, we have the inverted-F antenna and WLAN gear.

Fourth, the meander line antenna; is primarily comprised of bending conductors. Finally, we have the slot antenna; which is utilized in radars.

Get your Radio PCB from us today! We’ll make sure to have our finest offers prepared!

OEM & ODM Radio PCB Applications

Wireless Communication

Nowadays, it is the most common application of this particular board; it has been referred to in walkie-talkies, remote control, and audio uses.

Consumer Electronics

Due to the advancement of technology in consumer electronics, it now requires a board that can support high-speed transmission, such as this board.

Entertainment

There are countless devices in the entertainment industry that prefers this kind of board due to its excellent benefits, including AM Radio, FM Radio, etc.

Medical Technologies

Many apparatuses in the medical sector utilizes this particular board due to its capabilities, such as for radio therapy technology for can

Automotive Industry

In the automotive industry, it frequently deploys this specific board for sensors that aid in the auto-controlling systems of the vehicles.

Radio PCB Banner
PCBTok | China's Certified Supplier of Radio PCB

All boards are subjected to extensive inspections to guarantee an efficient output.

Our main objective is to meet all of our consumers’ demands fully.

Radio PCB Production Details As Following Up

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.

DHL

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.

UPS

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.

TNT

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.

FedEx

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.

  • “No time was lost throughout my transaction with PCBTok because of how smoothly everything went. They handled my orders fast and according to my specified guidelines. I am also astonished by their competent customer service, which is available around the clock. They regarded me with courtesy and effectively addressed all of my needs. The products’ quality was just fantastic. Since they are so effective in this field, I highly recommend PCBTok as your PCB Manufacturer.”

    Scott Mcclure, Design Engineer from Preston, England
  • “In terms of adhering to my instructions, PCBTok outperformed my standards and expectations. They followed up on my demands very dignifiedly, ensuring that you were satisfied with their service. Regarding the things I bought, they seem really high-end, and it is obvious that they were made using premium materials because of this. Thank you, PCBTok. I’ll be sure to buy more when I need it.”

    Tyrone Shaffer, Process Engineer from Tacoma, Washington
  • “I’ll be upfront about it; PCBTok is a company that values its customers and their necessities. They will continually seek clarification about ways they may assist me and will offer their expert opinions. The fact that none of my items are faulty while they are being produced shows how much work they put into making them impeccable. It unmistakably demonstrates how they uphold their beliefs and goals. If you’re looking for a reliable supplier, I respectfully suggest PCBTok because I can confirm their excellent work firsthand.”

    Gregory Hutchinson, Electronics Technician from Laredo, Texas
Frequent Concerns in Radio PCB

Radio PCBs present a variety of difficulties as high-frequency PCBs would be anticipated to. Implementing Radio PCBs could provide you with the following challenges:

  • Analog and digital circuitry operate separately. If there are no interconnections between them, then there is no issue. However, if they are combined, the circuit as a whole will become unbalanced.
  • Powerful sounds will start to occur if correct power buffering is not used.
  • Without adequate conducting, circuits won’t produce precise efficiency.
  • If the ADC input port is processed improperly, an ADC deviation will happen. Additionally, the ESD diode will experience self-excitation caused by radiofrequency signals.
Send Your Inquiry Today
Scroll to Top