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Heizung PCB

  • More then 10 years of experience
  • Professional turnkey solution provider
  • Offers reliable quality heater PCB
  • Professional and skillful engineers

China’s Leading Heater PCB Supplier

Heater PCB

When choosing the best quality heater PCB, Venture is the right supplier for you! We the broadest range of heater PCB available for your business or projects. We have been in the industry of heater PCB manufacturing and assembly.

By providing the high-quality quality and the best solution, Venture becomes one of the most trusted heater PCB in China. All products are offered at an affordable cost and excellent customer services. We are also delivering customization services to meet the requirements of our clients.

Moreover, Venture supports your projects by offering no minimum order requirements. From design, layout, fabrication, to assembly, Venture is always reliable. Venture is indeed your best supplier of heater PCB in China!

The Best Heater PCB Manufacturer and Supplier in China

Heater PCB

Venture is a famous manufacturer of heater PCB in China for many years. The quality of our heater PCB has been proven and tested by thousands of satisfied clients around the world. We continue revolving in the industry by providing clients with the best services possible.

At Venture, we offer heater PCB with excellent soldering at a reduced temperature. Venture heater PCB also consume less time as well as reducing the risk of PCB thermal stress.

Venture heater PCBs are available in different sizes. All sizes and dimensions of our heater PCBs are customizable according to your requirements and applications. Request for a free quote from our professional staff.

Heater PCB

Additionally, Venture also manufactures heater PCB with different color variations. We have standard colors such as black, brown, and green. However, we can also customize the colors of your heater PCB as per requested.

Venture is a fast-growing and amongst of China’s largest PCB manufacturing company. We are a professional PCB manufacturer that is dedicated to meet every customers’ requirements. We offer excellent PCB design and layout services. Aside from that, Venture is also expert in heater PCB assembly, and fabrication.

Heater PCB

Besides, Venture also has a strict quality control to ensure the quality of our heater PCB in every production stage. We also adhere to international standards and strict guidelines for product quality. If you are interested with our heater PCB, ask for a free quote and our efficient service team will assist you 24/7.

Inquire now for your next heater PCB orders!

Heater PCB: The Ultimate FAQ Guide

If you’re looking for any information about heater PCB, you will find all information right here.

From design, specification, number of layers to features; this guide will make you an expert in heater PCB.

Lesen Sie also weiter, um mehr zu erfahren.

What Is A Heater PCB?

A heater PCB finds its application when soldering printed circuit boards since they provide suitable soldering at lower temperature levels.

Außerdem, Heizung PCBs will take minimal time and lower any risk of putting your PCB through thermal stress.

This proves beneficial since it will enhance your outcome.

Also, you can use preheaters when soldering or reworking mehrschichtige Leiterplatten.

A Heater PCB

 A Heater PCB

How Does Convection Preheaters And Infrared Preheaters Compare In Heaters PCB?

Here is how these two types of heater PCBs compare:

Convection Preheaters

They contain two convection heating regions that deliver heat evenly and progressively to prevent thermal stress.

Also, it allows you to keep track of your work while utilizing this heater PCB.

It includes a thermocouple that analyzes the environment and safeguards nearby parts.

Convection Pre heater

 Convection Pre heater

Infrared Preheaters

Anyone who will be heating tiny printed circuit boards will benefit from the infrared preheaters.

It contains a high-capacity infrared bulb that responds quickly and evenly to deliver maximum heating.

Infra Red pre Heater

An Infrared pre heater

What Are The Advantages Of Preheating In A Heater PCB?

When specialists and hobbyists hear the phrases temperature curves and temperature profiling, they instantly think of printed circuit board reflow ovens.

It’s simple to envision the four primary temperature-controlled areas that run the length of the oven.

Also, it may presumably culminate in precisely soldered printed circuit boards.

Each phase is meticulously managed, fine-tuned by professional expertise, and trial and error.

Furthermore, each phase will contribute to the quality of the solder joint and the reduction of defects.

Other industrial soldering equipment, on the other hand, might not offer such precise temperature control.

The preheating step, however, is something they all share in common.

The function of the preheating phase is to gradually increase the temperature of the whole assembly.

It does this by increasing the temperature from room to soak temperature that sits beneath the solder paste melting point.

This temperature is usually around 150 °C.

The temperature rises and falls at a consistent rate of a few degrees per second.

Afterward, the soak phase follows the preheating phase and sustains the temperature for a while.

This is to ensure the printed circuit board has an even temperature.

The reflow step follows, which starts the solder joint creation process.

The volatile solvents within the solder paste get burnt off then the solder flux is generated during these two phases.

Fig 4- There Are Several Advantages Of Pre Heating A PCB Heater

Preheating A Heater PCB Has Several Advantages

Here are some of the advantages of preheating a printed circuit board in a heater PCB:

Vaporize Volatile Solvents

One of the main advantages of preheating the printed circuit boards is to slowly vaporize the volatile chemicals within the solder paste.

Also, it is important to ensure the temperature changes gradually.

Sudden temperature changes may cause the solder paste to splatter due to the outgassing or evaporation rate.

This will cause the formation of solder balls and lower the volume of solder within the joints.

Solder pastes containing more solvents may take longer to fully release these gases, justifying longer preheat and soak durations.

Activation Of The Flux

Flux, as everyone who uses a soldering iron learns, is a crucial part of solder that burns off when you apply the iron.

Flux tidies the oxides that contaminate the face of metal contacts, resulting in clear, excellent adhesion and adequate pad wetting.

Whereas if preheat temperatures are too low, the flux will not activate properly, resulting in cold joints and partial reflow.

Inhibits Thermal Shock

Preheating has the main goal of raising the temperature level of the whole assembly linearly and consistently to soak temperature levels.

When you increase the temperature steadily, you will minimize thermal stress in the parts and the entire printed circuit board.

Also, it ensures the protection of important parts like integrated circuits [ICs], BGAs, capacitors, and resistors.

This is because they are prone to thermal shock which may cause them to crack.

When it comes to selecting the preheating rate, the existence of thermally sensitive components has the most impact.

Decreases Reflow Temperature

Because the whole assembly is at high-temperature levels, soaking and preheating can lower the reflow temperature needed and time after soaking.

Since you will also avoid localized temperature variation, temperature gradients will be minimal when approaching the reflow temperature.

This is similar to using a soldering iron to link a thru-hole lead to a ground plane.

To counterbalance the heat exchange to the copper surface, you should apply a great temperature at that point.

Also, when you heat the points for longer periods at high temperatures can cause the pads to lift, burn, and delaminate.

What Is The Design Of A Heater PCB?

Das design of PCB heater is an easy process requiring you to illustrate simple patterns of the parts which you will use when making the preheater.

Besides, the first step entails coming up with the schematics of the heater PCB.

The next stage involves creating the board where you will print the circuit.

Afterward, you can use a toner transfer methodology when transferring the course to the circuit board.

Also, you can transfer the schematics by ironing the paper with the schematics after placing it on the board.

The next step involves dipping the board in water then washing off the form to remove it from the board.

Afterward, you will eliminate any remnants that are still on the board using items such as steel and wool.

The next step involves cleaning the circuit board with an acetone solution so that no leftovers of toners remain on the circuit board.

Drilling the circuit board is the next goal that you need to achieve and you can use normal drills or other tools available to you.

Besides, you can use a 1.0 mm drill bit to make two or three holes on the board.

Alternatively, you can use screwdrivers or other appropriate tools to make suitable holes.

Also, you need to examine the consistency of the printed circuit board after drilling.

Furthermore, you can measure the resistance of the board then compare the results before and after the heating process.

Besides, you may use high current power sources to evaluate the heating.

Fig 5- There Are Several Processes Involved In Heater PCB Designing

There Are Several Processes Involved In Heater PCB Design

What Are Some Important Factors To Consider When Making Trace Heaters In A Heater PCB?

The length of the trace arrangement is critical when designing a heater PCB tracer.

Besides, you can create a printed circuit board trace with a width of 0.254 millimeters and a length of 2 meters.

It would be easier to choose between the heater sizes and trace spacing measurements because they are indirectly linked.

It implies that when the size of the heater PCB grows, the trace grows as well, reducing heating equality.

One illustration is when you need to make smaller heater PCBs whose dimension is about 5 centimeters.

In this scenario, you need the trace to go in front and back for almost 5 centimeters.

For instance, for a path that is 2 meters, you need about 40 trails.

If you opt to separate them with a distance of 2 millimeters, the heater PCB will have a final output of almost 8 centimeters long.

Furthermore, when you increase the trance length, you will need extra voltage to generate a similar increase in temperature.

What Should You Consider When Selecting A Suitable Bed Heater For A Heater PCB?

For most individuals, deciding on the best bed heater for a heater PCB is a challenging task.

In most circumstances, some individuals will want to view the footage and do some research online on the best bed heaters.

However, this only adds to their uncertainty and as a result, we must determine some of the best bed heaters for heater PCBs in the market.

To accomplish this, let us have a look at a few of the points you should think about.

As a starting point, bed heaters come in a variety of configurations and power requirements.

Even if there are exceptions, the majority of heater PCBs are squared.

One of the choices you may want to explore is a silicone heated pad since it has an adhesive backing and built-in thermostat units.

There is no permanent plate on the silicone heater PCB bed with adhesives since it has a fixed construction blade.

It warms up more consistently and is simple to operate and comes with inductive sensors suitable for leveling corrections.

Also, you can use in it several ways without the danger of breaking or shattering.

This device will provide you with several power options, allowing you to bypass power supply limits.

It will also enable you to reduce the time it takes to heat up.

Can You Make A Heater PCB?

Yes, you can make a heater PCB using the following steps:


In this stage, you will design the printed circuit board and the schematics using design software such as Eagle.

For instance, you will make the board with a serpentine pattern that would generate resistance.

It will heat up after you apply current to it.

Forming The Board

Afterward, you will print the pattern on glossy paper.

Then you will use a toner transfer methodology when transferring the design to the board with a copper-clad.

The steps you will conduct here entail the following:

  1. Use a laser printer to print the design as inkjet printers will not work.
  2. Also, use glossy paper for suitable results.
  3. Iron the paper with the design using an iron at the hottest temperature for almost 5 minutes once you place it on the copper clad board.
  4. This ensures that you transfer all the toner substances.
  5. Proceed to cool the board by placing it in cool water for some minutes.
  6. You will remain with the copper clad board with the design once you rub off the paper from the board.
  7. Etch the circuit board using an etchant such as ferric chloride.
  8. The final step entails using steel wool to remove surplus toner then lean the circuit board with acetone.

Drill And Solder Board

This step entails drilling and soldering the board after etching and cleaning processes.

The design is simple since you can drill about two or three holes using a 1.0 mm drill bit.

Proceed to drill the holes using screwdrivers or a suitable tool and confirm the continuity using a multimeter.

This ensures that the board has no breaks then proceed to measure the resistance.

Power Source

To ensure the heater PCB operates efficiently, you require a high current power source.

What Are Some Thermal Management Methods You Can Use To Minimize Heating In A Heater PCB?

Dazu gehören folgende:

Locating Thermal Hotspots

Here, you will apply thermal simulation and modeling to locate thermal hotspots.

Also, you will use current flow analysis to locate high-current traces as they generate heat.

Afterward, you will arrange the parts suitably to ensure even heat distribution.

Also, route the high-current traces from thermally sensitive parts.

Thickness Of Copper And Trace Width

The thickness and width of copper traces should be suitable to offer a path of low impedance when current passes through it.


Ensure the top copper layer has ample thickness and surface area to ensure adequate heat dissipation.

Make sure the copper pad with heat sinks on the lower copper layer is thick enough to allow heat transfer to the heat sinks.

Use thermal pads to weld pads that connect components that offer low thermal resistance.

Also, use a minimal amount of solder paste to link parts to the heater PCB as a lot of paste can cause the parts to move during reflow.

Placement Of High Power Parts

Place high-power parts at the center of the heater PCB to ensure suitable heat dissipation.

Design Of Thermal Vias

Manufacturers can transfer heat vertically using vias from the different layers of the heater PCB.


These are components that dissipate heat from the heater PCB parts into cooling mediums.

Integrating Heat Pipes

These are cooling devices suitable for high-temperature usages and are mostly available in cylindrical shapes.


This entails maximizing the thermal conductivity of the heater PCB as small PCBs cannot hold heat sinks or cooling fans.

Thick heater PCBs with large surface areas will quickly dissipate heat.

Cooling Technique Integration

Using integrated cooling techniques will enable you to reach higher heat conductivity values than standard fans and heatsinks.


These cooling systems will dissipate heat using convective methods as they push air within the system.

Concentration Of Solder

Ensure the thickness of solder is even as it will lower heat concentration on the lead components.

Thermoelektrische Kühler

These systems use Peltier cooling effect to cool parts of the heater PCB to sub-ambient temperature levels.

What Is The Significance Of Conducting Thermal Simulation In A Heater PCB?

Die Vorteile umfassen Folgendes:

  • Identification of thermal hotspots to prevent the device from failing.
  • Determine the dielectric material’s potential for dependability using diverse CTE values.
  • Enhances product dependability.
  • By decreasing engineering delays, field errors, and device revisions, thermal simulations may cut the cost of deployment.
  • Boosting the technical and electrical groups’ productivity and interaction

What Challenges Should You Consider When Designing A Heater PCB?

When developing a heater PCB that incorporates a variety of materials, there are a few things to keep in mind.

It is critical to recognize that the CTE values of different materials vary.

When subjected to diverse temperatures, the figures reflect the degree of deformation that each substance will endure.

As one laminate stretches while another laminate contracts, this might cause registration complications.

It is crucial to remember that certain materials are not ideal for heater PCB applications.

When constructing multilayered heater PCBs, layer separation is a critical issue that you should consider.

Delamination is another problem that might occur as the laminate sheets start breaking apart in this situation.

Recognizing the time of delamination for substances is significant when tackling the problem of delamination.

Another important challenge encountered while developing heater PCBs is the stack-up procedure.

Manufacturers must have the correct board thickness for each component and panel to satisfy the requisite thickness without compromising the acceptable frequencies.

The adhesive technology used for heater PCBs differs due to the type of materials.

If the proper quantity of insulation is present, the heater PCBs will have the proper thickness.

Abb. 6 – Die richtige Plattendicke ist während des Designs von entscheidender Bedeutung

Correct Board Thickness Is Vital During Design Of Heater PCB

What Are The Mechanical Features Of A Heater PCB?

Diese umfassen:

Board Outlines In Unusual Shapes

Laminates need to fit in the available space at most times and at other times, the heater PCB may contain an odd shape.

It is sensitive to outline the route of hybrid heater PCBs s feed and the speed should be minimal for crisp edges.

Also, ensure you cut the board properly as RF materials can fray during drilling processes.

Consistency Of Plated Thru-hole

Fabricators must be aware that hole preparation before coating for FR4 is distinct.

It’s important to understand how these activities affect the quality of the holes within the walls.

Fabricators must be aware that hole preparation before coating for FR4 is distinct.

It’s important to understand how these activities affect the integrity of the hole in the walls.

To desmear the holes in PTFE, you should employ the plasma etch procedure.

This isn’t the best way to work with FR4 since it might generate uneven surfaces, which leads to inconsistent copper inside the holes.

Controlled Rout Process Depth

Fabricators need to rout patterns in production and prepreg when using various lamination cycles when building cavities.

What Are Some Types Of Heater PCB?

Dazu gehören folgende:

Single-sided Heater PCB

This version has one copper conductive layer above the substrate layer.

Double-sided Heater PCB

This type has conductive material to the upper and lower part of the heater PCB.

Multilayer Heater PCB

This version contains 3 or more conductive layers.

Rigid Heater PCB

This is a heater PCB that you cannot fold or twist as the base material is rigid.

Flexible Heater PCB

This is a heater PCB that you can fold or flex.

Rigid-flex Heater PCB

This is a combination of the rigid and flexible heater PCB.

What Parts Are Within A Heater PCB?

Dazu gehören folgende:

  • Resistors that restrict current from flowing by releasing electric energy as heat.
  • Capacitors hold electric charges temporarily, only releasing them when another part in the circuit needs it.
  • Inductors store energy as magnetic fields which generate when electric current flows in them.
  • Transformers that will relay electrical energy from one circuit to another circuit by either increasing or decreasing voltage.
  • Diodes that allow current to move linearly, that is, from the anode to cathode.
  • Transistors that will amplify a charge.
  • Batteries that will provide voltage to the heater PCB.

Can You Find A Heater PCB In Different Colors?

Yes, they are available in red, green, yellow, purple, black, and blue colors.

What Layers Are Available Within A Heater PCB?

These layers include:

  • Substrate layer that gives it the core strength.
  • Solder mask layer that protects copper layer from short circuit.
  • Copper layer that carries electric signals within the heater PCB.
  • Silkscreen layer that contains numbers, letters, symbols, etc. of parts of the board.

What Are The Electrical Properties Of A Heater PCB?

Diese umfassen:

  • Verlustfaktor
  • Relative Permittivität
  • Volumenwiderstand
  • Oberflächenwiderstand
  • Dielektrizitätskonstante
  • Elektrische Stärke

What IPC Standards Should A Heater PCB Conform To?

The standards entail the following:

  • IPC-A-630
  • IPC-A-600
  • IPC/WHMA-A-620C
  • IPC 7711/7721C

How Can You Test The Quality Of Assembly Of A Heater PCB?

Such methods include:

  • In-circuit testing that checks the quality and integrity of connections.
  • Flying probe testing uses needles on probes to test for opens, diode flaws, shorts, resistance, inductance, capacitance, and resistance.
  • Automated optical inspection that compares the heater PCB photo to the schematic design.
  • Burn-in testing evaluates the load capacity.
  • X-ray inspection to locate defects within the board.
  • Functional testing is where you test if the heater PCB powers up.

What Are Some Mechanical Properties Of A Heater PCB?

Diese umfassen:

  • Biegefestigkeit
  • Schälfestigkeit
  • Dichte
  • Delaminationszeit

What Is The Cost Of A Heater PCB?

The price can be anywhere from 20 USD.

What Silkscreen Methods Can You Perform On A Heater PCB?

Zu den Methoden, die Sie verwenden können, gehören:

  • Manuelle Inspektion
  • Flüssige Fotoabbildung
  • Direct legend printing

What Are The Chemical Properties Of A Heater PCB?

These entail combustibility, water absorption, and Methylene Chloride Resistance.

Should A Heater PCB Conform To International Quality Certifications?

Heater PCBs need to comply with quality standards as it ensures their safety and application.

Einige dieser Standards umfassen:

  • UL
  • GMP
  • ISO 9001:2008
  • CE
  • RoHS
  • IATF16949

How Does Surface Mount Technology And Through Hole Technology Compare In A Heater PCB?

In oberflächenmontierte Technologie, you will directly place the parts of the heater PCB directly on the board.

Durchgangsbohrtechnik entails inserting and soldering the component leads in pre-drilled holes within the heater PCB.

Fig 7- Surface Mount Technology In A Heater PCB

Surface Mount Technology In A PCB

For all your heater PCB needs, Kontaktieren Sie jetzt Venture Electronics.

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