Understanding a Camera PCB | PCBTok

A camera circuit board is an electronic device that controls the operation of a digital camera. The camera PCB contains all of the necessary components to make it function, as well as instructions for how to use them.

PCBTok is a supplier of high-quality camera printed circuit boards. Our products are designed and manufactured using the latest equipment and automation. We have an extensive range of cameras and related products.

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Top Quality Camera PCBs Fabricated by PCBTok

If you are looking for top quality camera PCBs, then you have found the right place. With over 20 years of experience in the fabrication of camera PCBs and a team of highly skilled engineers, PCBTok is able to offer our clients with high quality camera PCBs at competitive prices.

Our products are made using a combination of state-of-the-art equipment and techniques that ensure that our clients receive a product that is certified to be of high quality.

PCBTok’s mission is to provide our customers with the best quality camera PCBs at an affordable price. We are committed to providing our customers with the best service possible, which means that we will never stop working until they are completely satisfied with their purchase.

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Camera PCB By Imaging Technology


The CMOS sensor is an electronic chip. It receives photons from the outside and converts them into electrons for digital processing.


A CCD image sensor produces a signal when light reflects off an object and impinges on the sensor’s photodetector array.


It offers high sensitivity, low dark noise and broad wavelength coverage making it suitable for both scientific and OEM applications.


The market for this type of camera includes industrial and medical applications such as airport luggage screening, robotic guidance, and much more.


A hybrid structure consisting of a CMOS readout circuit and an active pixel array. Used in applications where high light sensitivity and small pixels are required.


Non-contact thermometers that detect thermal energy and then convert it into an image. Used in security, fire detection and safety, building automation, etc.

What are the Newest Camera PCBs?

Camera PCB is the main board in any camera. It is responsible for running the entire camera, and it is what allows you to use your camera. Without this board, you would not be able to take pictures or videos with your camera.

In the present generation, we use digital cameras for everything from social media to photography. A camera board is a printed circuit board that contains all the electronics required to operate a camera. It typically includes a lens, image sensor, and processor, as well as other components that allow you to capture photos and videos using your smartphone or tablet.

The purpose of the camera PCB is to capture images and video and store them in memory. The camera PCB also processes the image data before sending it to your computer or phone as a file so that you can view it. The PCBs also allow you to use features like zoom, autofocus, and white balance correction.

What are the Newest Camera PCBs
Camera PCB Production

Camera PCB's Lens Quality

The camera PCB’s lens quality is important to the quality of the photo. The lens is the part of the camera that allows light to pass through, and it helps to focus that light. A high-quality lens will have a clear view and produce high-quality images.

A good lens will show you clearly what is in front of you, so you can see every detail of your subject. If there are any problems with your camera’s lens, this could affect how well it works and how clear your pictures are.

If you are looking for a high-quality lens that will produce clear images, then you should look for one with low reflection properties so that you’ll get accurate images with minimal distortion.

Specifications of Camera PCBs

Camera PCB is printed circuit boards that are used to hold the components of a camera. The size and design of the PCB will vary based on the type of camera being made and the amount of space required for its components.

The components on a camera PCB are typically arranged in rows, with each row aligned vertically or horizontally. The rows may also be offset from one another so that they do not overlap.

The camera PCBs are made with a high-quality material and are designed to be durable. The PCBs have been tested for quality assurance. They have been designed to withstand high temperatures, which makes them ideal for use in environments that often have high temperatures, such as warehouses or factories.

Camera PCB's Lens Quality

Fast and First-Class Camera PCB from PCBTok

Fast and First-Class Camera PCB from PCBTok
Fast and First-Class Camera PCB from PCBTok (1)

If you are looking for a quality camera PCB, PCBTok is a good place to start. We offer high-quality, durable camera boards made from the best materials available.

Our camera PCBs are designed to be used in a variety of devices, ranging from cameras to computers and more. Our camera PCBs are also made to be long-lasting, so you can rest assured that your device will stay intact for years to come.

We work hard to ensure that every customer receives their camera PCB as soon as possible and that it has been manufactured with the highest quality standards in mind. We pride ourselves on our ability to provide our customers with top-of-the-line service and products every time they place an order with us!

Camera PCB Fabrication

Customizable Resolution on your Camera PCBs

It is important that you understand the resolution of your camera PCBs in order to get the best results.

The resolution of your camera is a measure of how many pixels it can capture on a single image. The higher the resolution, the larger the image will be and the more detail it will have. A high-resolution camera can create images with very little noise or graininess, which can make it easier to see details and make out facial features.

The resolution of your camera will depend on its size, so it’s important to know what size camera you’ll need before making any purchase decisions.

Camera PCB's Output

The camera PCB is the main component of any camera. It captures the image of the subject, and then transfers that information to another circuit, which processes it before sending it to your screen. This allows you to see what you are recording in real time.

The Camera PCB Output is important as it captures the image of the subject and transmits it to the CMOS sensor, which then converts it into an analog signal. This signal is then sent to the A/D converter, where it is converted into digital data. The camera board is responsible for taking the picture, so it is very important to ensure that you have a high-quality camera PCB in your device.

OEM & ODM Camera PCB Applications


This camera PCB is the main circuit board in the laptop that enables the webcam to function. Process and transfer signals between the laptop’s motherboard and camera.

PCB Reverse Engineering for CCTV

Camera PCB used in manufacturing CCTV. This PCB has been designed and constructed to provide crisp, clear and detailed video in high-resolution.


The camera PCB is an important part of a smartphone. It’s responsible for capturing and processing images and is directly related to the quality of a phone’s camera.


Main component in manufacturing webcam. It is used for inner production to support the camera module and protect it from external damage.

Digital Still Cameras

Used in Digital Still Camera operations from photo taking to storing the picture can be done electronically with the help of an image processing IC built in it.

PCBTok for High-Resolution, High-Quality Camera PCBs
PCBTok for High-Resolution, High-Quality Camera PCBs

PCBTok is a high-quality PCB manufacturer specializing in producing camera PCBs. We are dedicated to providing customers with the most affordable and reliable products available.

Camera 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
1mil Deviation of Master
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)

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Note: if you need others, please contact your sales representative for shipping solutions.

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Monochrome Vs Colored Camera PCB

A camera is a hardware device that captures images. A PCB is a printed circuit board, which is a type of electronic component used to transmit signals and power in electronic devices.

The choice between monochromatic and colored cameras depends on the needs of your project. Monochromatic cameras are cheaper than colored cameras, but they cannot capture color images. Color cameras can capture both black-and-white and color images, but they are more expensive than monochromatic cameras.

The choice between monochrome and colored PCBs depends on your needs as well. Monochrome PCBs are cheaper than colored PCBs because they do not need the extra layer that goes into making them look like the final product

Still Camera PCB vs Video Camera PCB

Still camera printed circuit boards and video camera printed circuit boards are similar in that they are both used to connect the internal components of a camera to each other, and then to the outside world via various electrical ports. However, there are some key differences between still cameras and video cameras that make their PCBs different as well.

Stills cameras have fewer ports than video cameras do. They don’t need many ports because still images are not as complex or dynamic as video is. For example, a still camera might have a port for an LCD display, while a video camera will likely have multiple ports for different types of displays.

Video cameras have significantly more RAM than still cameras do because they need more memory to store all of their data until it can be transferred to another device (like your computer). Video cameras also often have more storage space.

Other Performance Features of Camera PCBs

While we’ve covered the most important features of camera PCBs, there are still a few other factors to consider. If you’re designing your own camera board, here are a few more things to keep in mind:

  • Battery Connector. High-quality, high-reliability battery connector is available in a wide range of shapes and sizes. The PCB has a spring-loaded mechanism to prevent reverse polarity, ensuring that the battery can be connected safely.
  • I/O Interface. A high-speed interface is used for high-definition video output, supporting various standards such as HDMI and DVI. The interface is also compatible with USB and SD card interfaces.
  • Thermal Management System. The use of thermal management systems helps improve the performance and reliability of electronic devices, especially when there are many heat sources in a small area, or when power consumption is high. The PCB has an efficient thermal design structure that can effectively dissipate heat from all components on the PCB to maintain a stable operation environment.
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