Clearer Displays with PCBTok’s Monitor PCB
A monitor PCB is a circuit board that is used in computers and monitors. It is responsible for displaying images on the screen. The monitor PCB contains many components, including transistors, resistors, capacitors and diodes.
With PCBTok’s Monitor PCBs, designed with the most advanced technology available to ensure that your monitor displays clear images without any distracting artifacts or blurring effects.
Tested and High-Quality Monitor PCB from PCBTok
At PCBTok, we know all about the importance of quality. That’s why we’re proud to offer our customers a high-quality monitor PCB that is tested by our experts before it leaves our warehouse. Our customer service team will work with you to make sure you get exactly what you need!
We specialized in the production of high-quality monitor PCBs. With advanced production lines and skilled workers, we can provide you with the most effective and efficient services.
PCBTok have been focusing on improving our Monitor PCB for many years and has established a good reputation among clients in the world. We are confident that we can supply you with top quality products at competitive prices!
Monitor PCB By Types
Monitor PCB Introduction
Monitor PCB is a board that is used for the monitor. It is made up of a number of electronic components that are used to control, adjust and display data from a computer or other device. Most of these components are soldered onto the PCB to form a circuit and help in the functioning of the monitor. The main purpose of this board is to convert digital signals into analog signals and vice versa, so that they can be read by our eyes or ears.
The basic components of this board include resistors, capacitors, diodes and transistors which help in regulating voltage levels on different circuits throughout the monitor. Some monitors also have integrated circuits (ICs), wires and other components attached to them. This allows them to perform multiple functions such as detecting input from buttons on your keyboard or mouse as well as receiving data from an external source like your smartphone or tablet via Bluetooth connectivity.
Step-By-Step Process of Monitor PCB Manufacturing
Monitor PCB Manufacturing is a process that involves the creation of a printed circuit board (PCB) for monitors. This process includes the following steps:
·The first step is to create a design for the monitor PCB. This can be done using CAD software.
·Once the design has been made, it must be etched onto copper plates using an etching solution. The etching is done using an etching machine or by hand using a chemical solution.
·Once the design has been etched into the copper plates, it is time to lay out the components that will go on the monitor PCB. This can be done manually or with automated tools such as pick-and-place machines or computer-aided manufacturing systems.
LED and LCD Monitor Features and Difference
LCD technology uses liquid crystals to create images on screen. These crystals can be manipulated by applying an electric current, which in turn causes them to change their structure and reflect light in different ways. It’s this process that allows for different colors and brightness levels.
LED technology works differently than LCD by using backlighting instead of front lighting like with LCD technology. Instead of being made up of individual pixels like LCD screens are LEDs are essentially one large block that lights up when electricity passes through them.
PCBTok | Your Reliable and Dependable Monitor PCB Manufacturer
PCBTok is your reliable and dependable monitor PCB manufacturer. We offer quality, competitively priced PC boards designed to meet the needs of all of our clients.
We understand that you require a high-quality product to ensure you are getting the best value for your money. By offering a wide range of services including PCB design, production, assembly, testing and packaging, we ensure the best possible quality is maintained throughout the entire process.
We have been manufacturing monitor PCB for over 10 years and have built up a large customer base who continue to come back because they know that we will always deliver on time without fail. Our team are experts in their field and are always happy to help with any questions you may have regarding our products or services.
Monitor PCB Fabrication
A monitor PCB is an electronic component that is used in a monitor. It is also known as a display panel, or a video display unit (VDU). A monitor PCB contains several components and each component has its own function.
There are a number of components found in a monitor PCB, including resistors, capacitors, inductors, diodes and transistors. Resistors are used to control current flow and stabilize voltage levels.
Capacitors are used to temporarily store electricity. Inductors help regulate the electrical flow in circuits by creating magnetic fields. Diodes allow for current flow in one direction only, while transistors amplify or switch current signals.
The connectors used to connect the monitor PCB to other components in the system are:
• Power supply connector: This connector is a 24-pin connector that is used to supply power to the monitor. It supplies +5V, +12V, and -12V, as well as ground.
• Video connector: This 15-pin D-subminiature connector is used for video signals, such as RGB signals and sync signals.
• Audio connector: This 4-pin mini-DIN connector is used for audio signals.
Monitor PCB Production Details As Following Up
|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|
|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)
|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|
|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)|
|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|
|1OZ: 4.8/5mil||1OZ: 4.5/5mil|
|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|
|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.|
|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)|
|Board thickness tolerance||4layers:+/-0.13mm(5mil)||4layers:+/-0.10mm(4mil)|
|8-12 layers:+/-0.20mm (8mil)||8-12 layers:+/-0.15mm (6mil)|
|26||Impedance control||±5ohm(＜50ohm), ±10%(≥50ohm)|
PCBTok offers flexible shipping methods for our customers, you may choose from one of the methods below.
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.
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.
TNT has 56,000 employees in 61 countries.
It takes 4-9 business days to deliver the packages to the hands
of our customers.
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.
“Over the past few years, I have worked with PCBTok on several PCB designs. During that time, I have found them to be a professional, reliable partner. They delivered high quality products and provided excellent support whenever any problems arose. They were also very helpful during the design process, providing valuable input based on their experience as well as helping me refine my designs.”Guy Georges, Electronics Entrepreneur from Vitry-le-François, France
“I have been ordering PCBs from PCBTok for almost 2 years now. I have never had a single issue with the quality of their PCBs, or the speed at which they deliver them to me. I have also been impressed by their customer service, who have always been quick to respond to any of my questions or concerns. I can honestly say that I am thoroughly impressed with the product quality and service given. They are one of the best suppliers that I’ve dealt with thus far, and I will be ordering more PCBs from them soon.”Alexander Pichushkin, Electronics Expert from Russia
“I’m an entrepreneur and I use PCBTok for my business. They have provided me with the greatest and fantastic service I deserve, and they have promised to deliver the best product without sacrificing its quality. They are straightforward in providing their people with the best service and products they can offer, as demonstrated by their website; they can stand and live with it. They are always striving to provide me with the best and are considerate of my needs. I strongly advise you to try PCBTok”Vasile Tcaciuc, Electronics Engineer and Entrepreneur from Delaware, U.S.A
When you’re working with a monitor PCB, you have to be aware of the mutual inductance between the transformer and the inductor.
The mutual inductance is a measure of how much current can be transferred from one part to another without any external voltage being applied. In other words, it’s how easily the electricity moves between two parts.
The mutual inductance between two coils is the induced voltage in one coil when the other is subjected to an alternating current. This induced voltage is proportional to the rate of change of current in the second coil and inversely proportional to the square of its distance from the first. A transformer uses this principle to step up or step-down electrical energy from one level to another. The mutual inductance between primary and secondary windings is used to control power flow by regulating current in one winding with respect to voltage in another.
The difference between analog and digital circuitry in a monitor PCB is that analog circuitry is able to produce all possible voltages, while digital circuitry can only produce two values (on or off).
Analog circuitry is the process of taking an electrical signal and converting it into another form that has a directly related value to the original signal. For example, if you were to take your analog signal from a microphone and convert it into digital data, then you could do things like amplify or filter that data to make it sound better.
Digital circuitry on the other hand works by taking binary values (ones or zeros) and processing them in some way. An example of this would be if you had an LED light and wanted to turn it on with just one button press instead of having to hold down multiple buttons at once.
The main reason for the high heat generation of a monitor PCB is the amount of power that it consumes. The more power a device consumes, the more heat it generates. The monitor PCB contains many components that are connected to each other by traces on the board. These components include transistors, capacitors, resistors and diodes. These components use electricity in order to function and they generate heat as a by-product of this process.
There are many other reasons for the high heat generation of a monitor PCB, such as:
- The use of multiple transistors in series to form an amplifier circuit, which creates a relatively large voltage drop across each transistor and results in a large current flow through each transistor.
- The use of many logic circuits on the same substrate, so that the total power consumption is large, and the circuit board cannot be cooled by convection.
- The use of high-speed ICs and other ICs with high power consumption, resulting in a large amount of heat generated by electronic components.