Quadcopter PCB Board

  • More than 10 years in manufacturing experience
  • Wide range of Quadcopter PCB Board
  • High-Quality Quadcopter PCB Board
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What is a quadcopter PCB board?

A drone power distribution board (PDB) is simply a printed circuit board (PCB) used to supply power from the source to the various parts of a drone.

Before the invention of PDBs, designers used to connect drone parts with a wire’s help, resulting in heavyweights because of copper and solder joints in the cables.

quadcopter PCB board
make a quadcopter PCB board

How do you make a quadcopter PCB board?

Summary: Creating the drone shape in AutoCAD and importing to EasyEDA and balancing the weight of the components along the PCB.
Circuit design in EASYEDA:

1.Now start designing the circuit in EASYEDA.
2.Create new project and draw the schematic.
3.Use the net port to make the schematic look clean and neat.

Can I use Arduino as a quadcopter PCB board?

It has support for various multi-copters with advanced features such as Bluetooth control via your smartphone, OLED display, barometer, magnetometer,GPS position hold and return to home, LED strips, and many more. So let’s build our flight controller using Arduino!

Arduino

Venture is one of the PCB board manufacturers in China. We will offer a high-class range of quality quadcopter PCB board that can skyrocket your business.

We have the full capability to offer custom solutions for you. If you are looking for the cheapest yet highest quality quadcopter PCB board manufacturer and supplier, then don’t look further than Venture!

Send us your inquiry!

Your Leading Quadcopter PCB Board Supplier in China

Venture is the famous PCB manufacturers and supplier in China. Through the years, we produce different types of PCBs like quadcopter PCB board.

As a leading manufacturer, Venture can fabricate different types of quadcopter PCB boards for your different types of applications. We manufacture a quadcopter PCB board that can use for DJI F450 Quadcopter.

Our quadcopter PCB board is fitted for standard 50mm controller board such as MK, KK, FF, MWC, etc. It can eliminate messy multi-connectors or the power distribution board needs keeping your electronics layout very tidy.

Venture quadcopter PCB board is designed with stronger molded construction. Through this unique feature, no more board breakage at the hard landing.

As a professional quadcopter PCB board manufacturer, Venture is devoted to fabricating real promising top-quality quadcopter PCB board.

Venture will provide a variety of quadcopter PCB board sizes. We can provide the most professional service for you.

Venture will be your reliable and one-stop solution for your quadcopter PCB board needs. Aside from our quadcopter PCB board, you can also avail of our radar PCB, rectifier PCB, bendable PCB, audio amplifier PCB, and so on.

Excellent quality quadcopter PCB board and services had made Venture, the top PCB manufacturer in the industry.

Since then, Venture is devoted to customer service guaranteed with our highly trained, experienced, workforce who focused on exceeding customer expectations.

Whether you need a quadcopter PCB board or need to custom any PCBs, Venture is always satisfied with your needs.

Contact us today!

Quadcopter PCB: The Ultimate FAQ Guide

Quadcopter-PCB-The-Ultimate-FAQ-Guide

If you have any question about Quadcopter PCB, you will find the answer right here.

So, keep reading to learn more.

What Is A Quadcopter PCB?

Quadcopter PCBs are an important component of unmanned aerial vehicles or unmanned aerial systems.

They function by giving the quadcopter control capabilities that enable you to fly them with ease.

Quadcopter PCB

Quadcopter PCB

What Is The Function Of Quadcopter PCB?

Quadcopter PCBs hold several components vital for the operation of a quadcopter.

Besides, you will use the quadcopter to perform various tasks such as surveys, videography, photography, scans, or visual inspections.

What Are Some Safety Features Of Quadcopter PCB?

Quadcopter PCBs come with safety features such as:

  • Collision detection
  • GPS calibration
  • Wind resistance
  • Long battery life
  • Long transmission range
  • Obstacle sensing

What Is The Cost Of Quadcopter PCB?

The cost of quadcopter PCBs will run you anywhere from 70 USD.

Besides, factors that influence the price entail the following:

  • Features
  • Customization
  • Type of PCB
  • Country of origin
  • Sales and discounts

What Mistakes Should You Avoid While Buying Quadcopter PCB?

Here are some tips that you should keep in mind while purchasing quadcopter PCBs:

Expense

Quadcopter PCBs are always evolving, and the price of the latest technology will come down.

If a cheaper and older version fits your application, check it out.

  • Functionality

Hobbyist quadcopter PCBs are cheaper than professional quadcopter PCBs.

For this reason, always use professional quadcopter PCBs and not consumer quadcopter PCBs for professional purposes.

Geolocation

Ensure the quadcopter PCB allows you to geo-tag the information you are capturing.

What Are Some Mechanical Properties Of Quadcopter PCB?

These entail the following:

Density [g/cm3]

This is the mass per volume of the dielectric materials.

Time To Delamination

This is when it will take the layers of the quadcopter PCB to retain the bond in varying humidity and temperature environments.

Peel Strength

This is the capacity of the dielectrics and copper layers to retain the bond during chemical and thermal fatigue.

Bending Or Flexural Strength

This is the ability of the quadcopter PCB to retain its shape and form when experiencing bending stress.

Besides, the standards for rigid-flex, rigid, and flex quadcopter PCBs must adhere to IPC-6013C.

What Is The Difference Between Hex, Quad, And Octo copter PCB?

Here is how these compare:

Quadcopter PCB

This version can hold four rotors.

Hexcopter PCB

This version can hold 6 rotors.

Hexcopter PCB

Hexcopter PCB

Octocopter PCB

This version can hold 8 rotors.

Octocopter PCB

Octocopter PCB

What Should You Consider When Selecting Quadcopter PCB?

Here are some things worth considering when choosing quadcopter PCBs:

  • Flying time

Bigger quadcopter PCBs can fly for longer times, up to 30 minutes.

Smaller versions can fly at an average of 8 minutes.

  • Flight range

Ensure the quadcopter PCB has a range that will support your application when in use.

For instance, some may support a range of up to 500 meters while others may go as high as 2 km.

  • Cameras

Consider quadcopter PCBs that support high resolution and stabilization features on the cameras.

  • First-person view

This feature allows you to see the quadcopter in real-time.

  • Global Satellite Positioning [GPS]

This feature allows you to locate your quadcopter easily and assist onboard software in producing flight paths.

  • Repairs

There is a potential that a quadcopter may crash or collide while in flight.

Most quadcopter PCBs have replacement components, so ensure you select one that has easy-to-locate spare parts.

Also, consider choosing quadcopter PCBs that support brushless motors as they have a longer lifespan.

  • Obstacle Avoidance

Having this feature on your quadcopter PCB prevents the quadcopter from crashing.

What Are Some Types Of Quadcopter PCBs?

Quadcopter PCBs come in various types depending on the manufacturing methods, design, and application.

Here are some types of quadcopter PCBs:

Single-sided Quadcopter PCB

This is the most popular type of quadcopter PCB.

It contains one layer of conductive copper atop the substrate, and the electrical components are on one side of the board.

Besides, conductive paths in single-sided quadcopter PCBs cannot intersect or overlap.

Single Sides Quadcopter PCB

Single Sides Quadcopter PCB

Double-sided Quadcopter PCB

Double sided PCB version uses a thin layer of conductive material on both sides of the board.

Holes on the board will allow you to connect metal parts from one side to the other side of the board.

Besides, you can use either thru-hole technology or surface mount technology to place electrical components.

In thru-hole technology, you will place components in pre-drilled holes, then solder them to pads.

Surface mount technology involves precisely placing electrical parts on the surface of the quadcopter PCB.

Double Sided Quadcopter PCB

Double Sided Quadcopter PCB

Multilayer Quadcopter PCB

Multilayer PCB version has three or more conductive layers in a sandwich fashion.

Besides, it contains many double-sided layers equally divided by insulating materials.

Also, you will use high pressure and temperatures to bond these layers together and ensure no gaps exist.

Rigid Quadcopter PCB

This type of quadcopter PCB cannot fold or twist since the base material is a rigid substrate, giving it the rigid trait.

They contain several layers of substrates, copper, solder mask, and silkscreen layers.

Once you manufacture rigid quadcopter PCBs, you cannot modify or change them.

Flexible Quadcopter PCB

This type of quadcopter PCB has printed boards and parts within a flexible substrate.

The standard material for this PCB is polyimide, polyester film, or polyether ether ketone [PEEK].

Besides, the design of this PCB enables it to bend or flex during its application.

Rigid-flex quadcopter PCB

This version combines both rigid and flexible quadcopter PCBs.

The flexible part operates as an interconnection between the rigid circuit board.

Also, the flexible portion eliminates the need to use connectors, which tend to be bulky.

What Are The Parts Of Quadcopter PCB?

Quadcopter PCB

Quadcopter PCB

Several electrical parts perform specific tasks in quadcopter PCBs.

Also, these components will enable the quadcopter PCB to function effectively.

Here are the parts you will find in quadcopter PCBs

Resistors

These parts are important for the operation of a quadcopter PCB.

Resistors operate by transmitting electric current to generate voltage and release electricity as heat.

Besides, you can make resistors with different materials, and their colors describe the resistance value.

Transistors

This part acts as an amplifier to control electric signals in a quadcopter PCB.

There are various transistors, but the most popular one is a bipolar transistor, which contains three pins.

The three pins are the collector, base, and emitter.

Capacitors

After resistors, capacitors are the second popular component in quadcopter PCBs.

Capacitors hold an electric charge in quadcopter PCBs then release it as another component requires more power.

It performs this task by collecting opposite charges on two conductive layers which have insulating materials between them.

Inductors

These parts, just like capacitors, will store energy as magnetic fields when an electric current passes through them.

Inductors block signals such as interference coming from other devices within the quadcopter PCB.

Transformers

These components function by relaying electrical energy from one circuit to another.

Transformers will perform this effect by lowering or increasing voltage levels.

Diodes

This part will allow electric charge to pass through in one direction.

Besides, this effect allows you to block current from moving in the opposite direction, damaging the quadcopter PCB.

The most common diode you can find is the LED that functions by producing light.

Sensors

This part detects fluctuations in the environment and solves them by producing corresponding electrical signals to the change.

Once it detects the change, it stops it from getting to other components within the quadcopter PCB.

The sensors can change physical attributes like electric charge, quality of air, or light motion.

What Are The Thermal Properties Of Quadcopter PCB?

Thermal properties include the following:

Coefficient Of Thermal Expansion [CTE]

This is the rate at which quadcopter PCB expands when you expose it to heat.

Ensure the coefficient of thermal expansion is as low as possible.

Thermal Conductivity [k]

This is the rate at which heat will move in a quadcopter PCB.

Thermal conductivity is higher in conductors than insulators.

Decomposition Temperature [Td]

At this temperature, the substrates in quadcopter PCBs will decompose permanently.

Besides, ensure that the decomposition temperature is lower than the solder temperature.

Glass Transition Temperature [Tg]

At this temperature, the substrates of quadcopter PCBs will reversible change to soft from hard.

Besides, ensure that the solder temperature is higher than the glass transition temperature.

How Will You Assemble Quadcopter PCBs?

The assembly process of quadcopter PCBs entail the following:

Solder Paste Stenciling

First, you will apply solder paste to the quadcopter PCB.

Solder paste stenciling entails the placement of stainless-steel stencils on quadcopter PCBs.

This process will enable the assembler to place solder paste on various parts of the PCB.

Besides, ensure that you apply solder paste at exact locations and in the correct amount.

Pick And Place

Once you apply the solder paste, the next stage entails routing the PCB to the pick and place device.

This piece of robotic equipment will place surface-mounted devices [SMD] to the quadcopter PCB.

After that process, you will solder the surface-mounted devices on the circuit board.

Besides, the robot offers more precision and consistency than the manual assembly process.

Pick vacuum grips to pick the board and relay and orients it to the pick and place location.

Reflow Soldering

This process entails performing reflow processes to make sure the solder paste solidifies to the quadcopter PCB.

The quadcopter PCB will move through a conveyor system after exiting the pick and place process.

It moves within a reflow oven that gradually heats the quadcopter PCB to an average of 250 °C.

This temperature will cause the melting of the solder within the solder paste.

After the heating process, the quadcopter PCB moves to coolers to solidify them, forming permanent solder joints.

Inspection And Quality Measurements

This stage entails testing if the quadcopter PCB is functional.

This is because movement during the reflow stage may lead to low-quality connections or no connections.

When this happens, shorts are prone to occur as the misplaced components can wrongly connect to other parts.

Thru-hole Component Insertion

Depending on the type of quadcopter PCB, it may contain many parts besides surface-mount devices.

This may lead to you involving plated-thru hole [PTH] components.

PTH on quadcopter PCB are holes that pass through the circuit board since they help relay signals from one area to another.

The assembling techniques for PTH in quadcopter PCBs include:

Manual Soldering

This technique is simple since one person will place the parts via the plated-thru holes.

Besides, the process is repetitive since you need to fit each component, one by one, manually.

Wave Soldering

This is an automatic technique entailing the placement of components on the board as it moves to ovens from the conveyor systems.

Waves of molten solder wash over the lower part of the quadcopter PCB, hence soldering the pins.

Inspection And Testing

This stage entails confirming if the quadcopter PCB is operational by conducting functional tests.

The test emulates real-world operating conditions of the quadcopter PCB as power and signals flow through the board.

Inspection and testing also involve using testers to confirm the electrical traits of the quadcopter PCB.

If the quadcopter PCB fails the test, you will either scrap or recycle it.

Inspection and testing will assist you in knowing if the quadcopter PCB is a success or a failure.

What Is The Warranty Of Quadcopter PCB?

Quadcopter PCBs can last for between 10 and 25 years under suitable conditions.

How Can You Prevent Quadcopter PCBs From Failing?

Some reasons quadcopter PCBs fail is due to the following:

Component Design Failure

This can be due to:

  • Incorrectly placing the parts
  • Power failure
  • Overheating

Solve this by using the correct assembly techniques.

Poor Quality Parts

This entails using the following:

  • Placing traces and pathways close to one another
  • Poor solder to cold joints
  • Bad connectivity in the circuit board
  • Insufficient board thickness
  • Using counterfeit components

Solve this issue by using genuine parts and correct assembly processes.

Environmental Factors

Here are some factors that may lead to the failure of quadcopter PCBs:

  • Heat
  • Dust
  • Moisture
  • Power surges
  • Accidental impacts

Ensure you use the quadcopter PCB in suitable conditions to minimize this effect.

Age

It is hard to avoid failure on the quadcopter PCB due to the aging effect.

However, you can control the cost of replacing parts by swapping old components with new ones.

This is cost-effective than conducting a new quadcopter PCB assembly.

What Are The Electrical Properties Of Quadcopter PCB?

Electrical properties entail the following:

Surface Resistivity [𝛒S]

This is the measurement of the surface resistance of the dielectric material to electricity flow.

Besides, they are prone to temperature and humidity.

Ensure surface resistivity is high to assure you good signal integrity.

Electrical Strength

This is the capability of quadcopter PCBs to resist electrical breakdown in the z-direction.

Dielectric Constant [dk]

This factor will affect the impedance and signal integrity of quadcopter PCBs.

Volume Resistivity [𝛒]

This is the measurement of quadcopter PCB dielectric material to volume resistance.

Ensure the volume resistivity is high to assure you obtain isolation between the layers.

Dissipation Factor [Df]

This is a measurement of how quadcopter PCB materials lose power or signals.

Relative Permittivity [Er]

This factor is known as the dielectric constant.

Which Materials Are Suitable For Fabricating Quadcopter PCB?

These are some PCB materials you can use to fabricate quadcopter PCBs:

FR-4

This is a popular substrate for fabricating quadcopter PCBs.

FR4 materials have good mechanical, electrical, and thermal properties.

Polyimide

This material provides high-temperature performance than FR4.

Polyimide is expensive than FR4 but can withstand high-temperature environments.

Teflon

This material will offer suitable electrical traits hence good for high-speed circuitry usages.

Besides, Teflon is expensive than polyimide.

Flexible Laminate

This material will allow you to bend the design without affecting electrical continuity.

What Are Hybrid Quadcopter PCB?

This is a quadcopter PCB that combines both rigid and flexible PCBs in one package.

The flexible parts allow you to bend the circuit board while maintaining electrical continuity.

Rigid sections offer high electrical routing for modern electronics.

Hybrid Quadcopter PCB

Hybrid Quadcopter PCB

Which Software Is Suitable For Designing Quadcopter PCB?

Here is some PCB design software you can use to design quadcopter PCBs:

Eagle PCB

This software allows you to produce 3D designs.

Proteus

This software is good for automatic electronic designs popular with technicians and electronic designers.

DipTrace

This software is suitable for designing simple quadcopter PCBs containing four modules and operates on all computer software.

FreePCB

This is open-source software that operates on windows computers.

KiCad

This software is simple to use and will operate on a windows computer.

Besides, it includes BOM, 3D designs, and Gerber files.

ZenitPCB

This software allows you to design unique quadcopter PCBs containing up to 800 pins.

Osmond PCB

This flexible software allows you to design quadcopter PCBs of any size, with several components and layers.

OrCAD

This software has rule checks and analysis levels for quadcopter PCBs.

How Do You Test Quadcopter PCB?

The testing methods you can use with quadcopter PCBs are:

The methods entail the following:

In-circuit Testing

It is important to check the fitment and position of the parts on the quadcopter PCB.

An electric probe will inspect the capacitance, shorts, resistance, open ends, etc., within the quadcopter PCB.

Visual Testing

This process involves using certified experts to inspect the external physical characteristics of the quadcopter PCB.

Visual testing is cost-effective and simple to perform.

It entails checking for any issues such as solder issues, bad mask application, scratches, etc.

X-ray Inspection

Complex quadcopter PCB contains several densely packed components on the board.

Automated Optical Inspection is not fail-safe and may miss some flaws on the surface of the board.

For this reason, it is vital to inspect the solder joints in the dense components.

Heavy metals make up quadcopter PCB absorb X-ray, thus allowing you to inspect internal components.

Functional Testing

This method entails verifying the functionality of quadcopter PCB.

For instance, you can inspect to see if the board powers on and off.

Also, you can inspect the quadcopter PCB after installing it in various systems and checking how it performs.

Functional testing assures you that the assembly of quadcopter PCB assembly meets the set international and local quality standards.

Automated Optical Inspection [AOI]

This process solves the issue which may arise with visual testing as humans may miss some flaws.

AOI is an automatic technique that compares the quadcopter PCB using an inbuilt blueprint of the circuit board.

What Are The Quality Standards Of Quadcopter PCB?

Quality standards assure you that the quadcopter PCB is safe and functional.

These quality standards entail the following:

  • CE mark of quality
  • UL certification
  • Restriction of Hazardous Substances [RoHS]
  • IATF16949
  • ISO certification

What Are The Chemical Properties Of Quadcopter PCB?

The chemical properties entail:

Water Absorption

This value shows the moisture that the quadcopter PCB will absorb if you submerge it.

Methylene Chloride Resistance [MCR]

MCR shows the absorption of methylene chloride, which is a volatile toxic solvent.

Besides, you will use MCR when producing quadcopter PCBs.

Combustibility

The Standard for Safety of Flammability of Plastic Materials for Parts in Devices and Appliances shows limits in combustion.

For example, quadcopter PCBs should burn for less than 1o seconds for every specimen.

What Are Some Surface Finish For Quadcopter PCB?

These include:

Electroless Nickel Immersion Gold (ENIG)

This finish has a thin layer of gold that covers an electroless or electrolytic nickel.

The benefits include:

  • Excellent immersion finish
  • Tried and tested technique
  • Wire bondable
  • Suitable for fine pitch

The limitations include:

  • Costly finish
  • BGA has concerns about black pads
  • Aggressive on solder masks
  • Immersion Silver (IAg)

This finish does not react with copper the same way tin does but rather tarnishes when in the presence of air.

Some benefits include:

  • Relatively cost-effective
  • Excellent immersion finish
  • Suitable for fine pitch
  • Can be reworked

Some limitations include:

  • Can tarnish
  • Needs special packaging
  • Short operating window
  • Not suitable for peelable masks
  • Immersion Tin (ISn)

This process entails using a chemical process to apply the surface finish.

Some benefits include:

  • Excellent flat finish
  • Good solderability following several thermal excursions
  • Suitable for fine pitch
  • Relatively cost-effective

Some limitations include:

  • Sensitive to handle
  • Aggressive to the solder mask
  • Tin whisker concerns
  • Not suitable for peelable masks
  • Baking has negative effects

Lead-Free HASL

This surface finish is similar to standard HASL but does not use tin-lead solder.

Besides, it uses tin-copper, tin-copper-nickel germanium, or tin-nickel.

The benefits include:

  • Excellent solderability
  • Multiple thermal excursions
  • Inexpensive
  • Allows for large processing

The limitations include:

  • Bridging on the fine pitch
  • Requires high processing temperatures
  • Variation in thickness between the pads

Hot Air Solder Leveling (HASL)

This is the least expensive surface finish making it widely available and economical.

The benefits of this surface finish include:

  • Excellent solderability
  • Popular surface finish
  • Inexpensive
  • Allows for large processing

Some limitations include:

  • Not suitable for HDI boards
  • Bridging on the fine pitch
  • Variation of thickness between smaller and larger pads

How Can You Manage How Quadcopter PCB Material Properties Impact The Manufacturing Process?

The following processes can assist with this issue:

  • Use the best materials when designing the quadcopter PCB
  • Determine the vertical layout or the stackup of the quadcopter PCB, especially the thickness of the layers
  • Understand the quadcopter PCB manufacturing process to meet quality control, critical unit, or turnaround time

What Is The Difference Between The Colors On Quadcopter PCB?

These entail the following:

Cost Performance

The green color is always the cheapest option; hence most designers will use this color.

Besides, it is a widely accepted color and is cost-effective.

Functional Differences

Besides repair or assembly processes, the functionality of the solder mask is similar no matter the color selection.

The main function of to coat the components of the quadcopter PCB

Possible Problems During Printing

No matter the color choice, ink viscosity may be low during printing, making it not stick properly on the board.

Ensure you increase the ink concentration to counteract this issue.

How Do You Select Colors For Your Quadcopter PCB?

To select the colors, consider the following:

Matte Or Glossy Surface

Glossy surfaces are reflective, while matter surfaces are not reflective.

Price And Batch Application

Here, you will consider the cost of applying the color choice.

Quadcopter PCB Consideration

Green happens to be popular to work with as it gives the thinnest coat.

What Are The Benefits Of Quadcopter PCB?

These entail the following:

  • Low electric noise production
  • They are compact
  • Excellent shelf life
  • Low cost enabling mass production

What Are Some Limitations Of Quadcopter PCB?

These include:

  • High cost if customizing
  • Risk of thermal shock
  • Not easy to repair after damage
  • It contains lead

At Venture Electronics, we offer a range of Quadcopter PCBs depending on your unique requirements and specification.

For any inquiry or questions on Quadcopter PCBs, contact us now.

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