--- product_id: 333444464 title: "10 PCB Circuit Board Thermal Transfer Paper A4 Size Transfer Paper DIY Circuit Board Special Paper" brand: "bcqli" price: "Rp603358" currency: IDR in_stock: true reviews_count: 5 category: "Bcqli" url: https://www.desertcart.id/products/333444464-10-pcb-circuit-board-thermal-transfer-paper-a4-size-transfer store_origin: ID region: Indonesia --- # A4 size precision Optimal heat transfer 150-180°C Laser printer compatible only 10 PCB Circuit Board Thermal Transfer Paper A4 Size Transfer Paper DIY Circuit Board Special Paper **Brand:** bcqli **Price:** Rp603358 **Availability:** ✅ In Stock ## Summary > 🔥 Transfer your PCB game to pro-level precision! ## Quick Answers - **What is this?** 10 PCB Circuit Board Thermal Transfer Paper A4 Size Transfer Paper DIY Circuit Board Special Paper by bcqli - **How much does it cost?** Rp603358 with free shipping - **Is it available?** Yes, in stock and ready to ship - **Where can I buy it?** [www.desertcart.id](https://www.desertcart.id/products/333444464-10-pcb-circuit-board-thermal-transfer-paper-a4-size-transfer) ## Best For - bcqli enthusiasts ## Why This Product - Trusted bcqli brand quality - Free international shipping included - Worldwide delivery with tracking - 15-day hassle-free returns ## Key Features - • **DIY PCB Mastery:** Empowers electronics pros to create professional-grade boards at home - • **Bulk Pack Advantage:** 10 sheets per pack to fuel multiple projects without interruption - • **Laser-Only Printing:** Ensures crisp, high-resolution circuit diagrams every time - • **Precision A4 Format:** Perfectly sized sheets for detailed PCB layouts - • **Heat-Activated Transfer:** Optimized for 150-180°C laminator or iron for flawless toner adhesion ## Overview This pack of 10 yellow A4 thermal transfer papers is designed exclusively for laser printers to print circuit board wiring diagrams. Using heat (150-180°C) via laminator or iron, the toner transfers perfectly onto copper-clad boards for DIY PCB etching. Ideal for electronics enthusiasts seeking fast, reliable, and professional-quality PCB fabrication at home. ## Description Product: TONER TRANSFER PAPER Specifications: 10 sheets Color: Yellow Packing: File bag. Ensure paper integrity Note: This DIY tool is a very easy to use a product. Please do not because of lack of experience, production failure, to blame the performance of paper. Random to the poor assessment of the customer, please go to other businesses to buy Printed circuit board production, electronic enthusiasts often compare headache one thing, many electronics enthusiasts in order to produce a printed circuit board, often described using paint board, Daoke, stickers, paste and other amateur production methods, speed slow. Thermal transfer method produced circuit boards, is to draw a good board graphics, laser printer to print in thermal transfer paper, transfer paper and then covered in Bonded Copper, after heating, the melted toner completely adsorbed in deposited on copper, etc. after cooling tear transfer paper, you can see the graphics board has been transferred onto a copper-clad, black anti-corrosion layer, that is what we want PCB diagram, and finally corrosion, and that we want to obtain the PCB board. Thermal transfer board should pay attention to the following points: 1: Do not make the iron overheating or too cold, the best temperature is between 140 to 170, in this temperature range, the best transfer of plastic toner characteristics. 2: to wait for some lower temperature and then transfer paper peeled down, slowly exposing, and found no transfer of good parts, then cover, once again heating and heating for heat transfer. 3: some really problematic parts (such as broken) Please use oil-based carbon pen or nail polish, paint what remedial, but this is not a lot of this situation. Review: Falta un instructivo para utilizarlas. Son buenas hojas de transferencia para realizar pCB Review: I'm experienced with the "Press-n-Peel" blue transfer paper, but thought I would give this stuff a try. Making good PCBs with fine lines takes some practice and proper prep which I thought I would share here. First, the blue press-n-peel has the advantage of transferring an additional protective layer on your PCB when you iron it on. The blue stuff sticks to the toner, and when the transfer is done, your pcb traces will not only have the toner on them, but the blue stuff. This yellow transfer paper simply makes it where the toner is easily transferred off of the paper onto the pcb. I didn't have a problem with this, but I also haven't done any super fine lines yet. With the blue stuff, I can go down to about 10 mil without a problem. With either method, I'd like to explain my process: First, do yourself a favor and make your traces as large as you can if you have the space. There's no point trying to run 10 mil or less if you don't need to, and give yourself some clearance between traces and other pads. For general purpose stuff where I have plenty of room, I run 25 mil traces unless I need to go between some IC pads. I plug in my iron to let it start heating up. I also use Ferric Chloride for etch, and I also have a cheap stirring/hot plate and get it up to 125F. Trying to etch at 70F takes FOREVER. I found that 120-130F works great and I can etch a board in about 2-3 minutes. Hotter than 130F and fumes start to come off the FeCl. I 3d printed an "insert" into the bottom of my glass pan which raises the board off the bottom and allows room for the little stirrer pill to spin. The stirring is great as you don't have to agitate the solution while etching. I use an infrared laser beam thing that you can get for about 50 bucks to monitor the temp but a simple thermometer would work too. Next I cut my board to size and I bevel the edges of the copper slightly with a file. I find that board right from the factor can have their edges slightly raised which makes it difficult to get pressure down near the edge when ironing on. Just a couple of strokes across the edge takes care of that. I then put on rubber gloves so I don't get oils on the board. I scrub the board in 4 directions with steel wool, then wipe the whole thing down with acetone. I then do a 15-30 second "pre-etch" in my etching solution (I use Ferric Chloride) of the entire blank board. I found the pre-etch allows the toner to stick SOOO much better to the copper. After the pre-etch I rinse the board in water and dry it off completely. For ironing, I use what can be described on desertcart as a "Sealing iron" or "hobby iron". It's smaller than a regular clothes iron, and an exact temperature can be set, and there are no holes in the surface of the iron. One thing you need to make sure is that the iron is DEAD FLAT. I did this by running it over finer and finer grits of sandpaper on a slat surface. You're essentially honing the bottom. I went down to 800 grid to make it really smooth. I also beveled one of the edges of the iron with a roundover so I can put additional pressure on a small area. I don't think you can get enough pressure with a standard clothes iron and get good results. I run the iron at 400F (200C). Make sure the iron is fully heated. When I print out my PCB I also include the edge cuts of the board so I can line it up properly to the copper board. I cut it so that I have some extra paper where I can tape the paper to the PCB, but I don't want to iron over this tape because you can't get enough heat and pressure for any traces under that tape. I then start with an overall heating, starting at the tape edge and moving the iron slowly to the edge which isn't taped down (I only tape along one edge). This gets me an initial "stick" to the board. Then I work again starting at the tape edge with additional pressure. Pretty much as much pressure as I can put on the iron while still moving it. I work from one side to the other. The whole ironing process takes maybe 60 seconds for a 2.75 x 4" board, which is what I use for most of my small projects (sometimes I cut that board in half for 2x2.75" if I can fit everything). Then, and a really important part, is that you must let the board cool down to room temp before peeling off, otherwise the toner can just peel right off the copper. I mean, let it cool COMPLETELY. It doesn't take long, 3-4 minutes. I do all this work in my woodshop and I have a table saw with a cast iron top which is absolutely freezing, so I throw it on there for a minute! Once completely cool, slowly peel the toner off. I had 100% complete success using this paper the first time using this method, but sometimes you might need to touch some spots up. You can use a sharpie to do that. If my board is complex with very fine lines, I'll usually have an enlarged printout of the board that I can use for reference and fix any issues. Ok, time for etching. The solution is now up to 120-130F and I put the board in it. I check every minute for progress and pull it out when done. I usually don't use ground planes in my board, so I remove a lot of copper but it will only takes a couple of minutes when the solution is warmed. I then rinse the board in the sink and examine it to make sure all copper is removed. If not, I'll throw it back in for 30 seconds. I then leave the toner on because it makes finding thru pads easier, and drill any necessary holes for the thru holes. I have a benchtop drill press and it works great. I put a piece of MDF under the board for support and have some cheap drills I bought here. The ones I have have a larger shaft and are much easier to use. You can hold the board up to a light to make sure you've drilled all necessary holes out. Don't forget mounting holes! I always use 3mm screws for mounting and drill out 3.5mm holes so I have some leeway. Finally, I scrub off the toner first with the steel wool, then clean up the rest with acetone. You CAN just use acetone, but I found when I do that the whole thing stains the rest of the board, so I try to get almost all of the toner off first with the steel wool. Hope this helps! ## Features - Size: A4 / Color: Yellow / Quantity: 10(Please do not because of lack of experience, blame the thickness of the paper.Very sad) - 1 with a laser printer to print circuit board wiring diagram of the heat transfer paper surface(Note: can only be printed with a laser printer can not use inkjet printer!) - 2 with a laminator adjusted to between 150-180 degrees Celsius, the heat transfer paper printed with a circuit diagram deposited in the copper-clad side for transfer; the system can also be used in place of iron plate machine, hand transfer - 3 After printing remove the transfer paper, CCL will be etched into the ferric chloride solution - 4 Finally, cleaning with gasoline toner board, sanding paper or water in the water to flush out carbon(For more success stories please check customer reviews) ## Technical Specifications | Specification | Value | |---------------|-------| | ASIN | B01CGRL2G0 | | Batteries required | No | | Customer Reviews | 4.0 4.0 out of 5 stars (247) | | Date First Available | 29 June 2016 | | Item Weight | 100 g | | Item model number | 6285693 | | Package Dimensions | 29.79 x 21.31 x 1.19 cm; 99.79 g | ## Images ![10 PCB Circuit Board Thermal Transfer Paper A4 Size Transfer Paper DIY Circuit Board Special Paper - Image 1](https://m.media-amazon.com/images/I/51UowMGcFpL.jpg) ## Customer Reviews ### ⭐⭐⭐⭐ Review *by R***A on 14 April 2019* Falta un instructivo para utilizarlas. Son buenas hojas de transferencia para realizar pCB ### ⭐⭐⭐⭐⭐ Review *by B***. on 26 December 2024* I'm experienced with the "Press-n-Peel" blue transfer paper, but thought I would give this stuff a try. Making good PCBs with fine lines takes some practice and proper prep which I thought I would share here. First, the blue press-n-peel has the advantage of transferring an additional protective layer on your PCB when you iron it on. The blue stuff sticks to the toner, and when the transfer is done, your pcb traces will not only have the toner on them, but the blue stuff. This yellow transfer paper simply makes it where the toner is easily transferred off of the paper onto the pcb. I didn't have a problem with this, but I also haven't done any super fine lines yet. With the blue stuff, I can go down to about 10 mil without a problem. With either method, I'd like to explain my process: First, do yourself a favor and make your traces as large as you can if you have the space. There's no point trying to run 10 mil or less if you don't need to, and give yourself some clearance between traces and other pads. For general purpose stuff where I have plenty of room, I run 25 mil traces unless I need to go between some IC pads. I plug in my iron to let it start heating up. I also use Ferric Chloride for etch, and I also have a cheap stirring/hot plate and get it up to 125F. Trying to etch at 70F takes FOREVER. I found that 120-130F works great and I can etch a board in about 2-3 minutes. Hotter than 130F and fumes start to come off the FeCl. I 3d printed an "insert" into the bottom of my glass pan which raises the board off the bottom and allows room for the little stirrer pill to spin. The stirring is great as you don't have to agitate the solution while etching. I use an infrared laser beam thing that you can get for about 50 bucks to monitor the temp but a simple thermometer would work too. Next I cut my board to size and I bevel the edges of the copper slightly with a file. I find that board right from the factor can have their edges slightly raised which makes it difficult to get pressure down near the edge when ironing on. Just a couple of strokes across the edge takes care of that. I then put on rubber gloves so I don't get oils on the board. I scrub the board in 4 directions with steel wool, then wipe the whole thing down with acetone. I then do a 15-30 second "pre-etch" in my etching solution (I use Ferric Chloride) of the entire blank board. I found the pre-etch allows the toner to stick SOOO much better to the copper. After the pre-etch I rinse the board in water and dry it off completely. For ironing, I use what can be described on Amazon as a "Sealing iron" or "hobby iron". It's smaller than a regular clothes iron, and an exact temperature can be set, and there are no holes in the surface of the iron. One thing you need to make sure is that the iron is DEAD FLAT. I did this by running it over finer and finer grits of sandpaper on a slat surface. You're essentially honing the bottom. I went down to 800 grid to make it really smooth. I also beveled one of the edges of the iron with a roundover so I can put additional pressure on a small area. I don't think you can get enough pressure with a standard clothes iron and get good results. I run the iron at 400F (200C). Make sure the iron is fully heated. When I print out my PCB I also include the edge cuts of the board so I can line it up properly to the copper board. I cut it so that I have some extra paper where I can tape the paper to the PCB, but I don't want to iron over this tape because you can't get enough heat and pressure for any traces under that tape. I then start with an overall heating, starting at the tape edge and moving the iron slowly to the edge which isn't taped down (I only tape along one edge). This gets me an initial "stick" to the board. Then I work again starting at the tape edge with additional pressure. Pretty much as much pressure as I can put on the iron while still moving it. I work from one side to the other. The whole ironing process takes maybe 60 seconds for a 2.75 x 4" board, which is what I use for most of my small projects (sometimes I cut that board in half for 2x2.75" if I can fit everything). Then, and a really important part, is that you must let the board cool down to room temp before peeling off, otherwise the toner can just peel right off the copper. I mean, let it cool COMPLETELY. It doesn't take long, 3-4 minutes. I do all this work in my woodshop and I have a table saw with a cast iron top which is absolutely freezing, so I throw it on there for a minute! Once completely cool, slowly peel the toner off. I had 100% complete success using this paper the first time using this method, but sometimes you might need to touch some spots up. You can use a sharpie to do that. If my board is complex with very fine lines, I'll usually have an enlarged printout of the board that I can use for reference and fix any issues. Ok, time for etching. The solution is now up to 120-130F and I put the board in it. I check every minute for progress and pull it out when done. I usually don't use ground planes in my board, so I remove a lot of copper but it will only takes a couple of minutes when the solution is warmed. I then rinse the board in the sink and examine it to make sure all copper is removed. If not, I'll throw it back in for 30 seconds. I then leave the toner on because it makes finding thru pads easier, and drill any necessary holes for the thru holes. I have a benchtop drill press and it works great. I put a piece of MDF under the board for support and have some cheap drills I bought here. The ones I have have a larger shaft and are much easier to use. You can hold the board up to a light to make sure you've drilled all necessary holes out. Don't forget mounting holes! I always use 3mm screws for mounting and drill out 3.5mm holes so I have some leeway. Finally, I scrub off the toner first with the steel wool, then clean up the rest with acetone. You CAN just use acetone, but I found when I do that the whole thing stains the rest of the board, so I try to get almost all of the toner off first with the steel wool. Hope this helps! ### ⭐⭐⭐⭐⭐ Review *by N***7 on 16 January 2019* So, ok... First off, I've been doing boards since I was uhhhh 14? I'm 49 now, so I've seen a lot with PCB fabrication. I've used Sharpie, tape, decals, photo-resist, and of course, toner. I've even worked in a place that made PCBs the industrial way. Out of all this, toner is my first choice because it's cheap as dirt and all the other methods have their issues. Working with toner, I've used glossy laser paper, magazine paper, clear cutter machine vinyl, and now this paper. Believe it or not, my two favorites are now the vinyl film and this paper. Vinyl actually works very well, you'd be surprised, but it can't do miracles any more than this paper can, and thus you'll still have printer and laminator/iron issues. On my first try, I don't think the laminator was hot enough, and my print along the edge of the PCB cracked and moved a teeny bit in places. The traces came out fine to the eye except for one very tiny crack in one place across the entire board, and since it was in a pad it didn't matter. I etched the resulting board straight away in 1 part hydrochloric + 2 parts hydrogen peroxide, and in a shocking 5 mins it was done. Only one problem - all of the artwork pitted a bit. This is NOT the fault of the paper, not even the fault of the laminator that i use, really. It's the simple fact that laser printers generally don't make a solid coating of toner, period. They print documents, bro, it's what they're actually for. So, the board is going to work, since the pits don't extend through the whole foil thickness. It just isn't very pretty. I've noticed that this paper is a bit more translucent than normal paper, so next time I'm going to print two copies of the art, laminate the first, and use registration marks in the artwork to mount and laminate the second copy over the first. With a little luck, it won't drift out, and I'll get a much better etch due to the 2x thickness of the toner transfer. I'll come back and let you all know how that went. I like this stuff so far. Any method that works the first time, pits or not, has a lot of promise. Once you work out your method, I think this paper will treat you very well. Edit for 2023: A lot of years went by and I tried some interesting alternative methods for PCB fabrication, amounting to a cold process where you mix acetone and alcohol -just right- and apply that to your printed artwork, slap it against your cleaned blank PCB piece, and press hard till it dries. It worked well for me so I stopped using heat transfer... but then I looked back at my older work and was like "IS it better? Is it really?" Pits and cracks and you name it. So I went back to trying this stuff again and was blown away by the superior results. But I also didn't use a laminator this time. Instead, I just whipped out my trusty clothes iron, ramped up the heat to say a 7 out of 10, and LEANED on that sucker nice and hard. Board got so frickin hot I had to let it cool before I could even touch it, lol, but omg what nice results. Not a pit nor crack to be found, and I didn't even have to soak it to remove the paper. It practically just fell off with the artwork neatly bonded to the copper. Just make absolutely sure your copper is CLEAN, like NASA level cleanroom clean. I use steel wool to polish and then a toothpaste rub and thorough rinse to do a final cleaning. Make sure your print is as dense and dark as you can make it. Make sure your heater is HOT, like whoopsie the paper got a little singed kind of hot. Make sure you allow the board to cool so that the ink isn't still molten AT ALL. I think if you do these basic steps, you'll love this stuff. Rick NR417 ## Frequently Bought Together - Fine commodities 10 PCB Circuit Board Thermal Transfer Paper A4 size Transfer Paper DIY Circuit Board Special Paper - EEEEE 30 Kinds 300pcs Assorted Type General Purpose TO92 Transistors PNP NPN Bipolar Power Transistor Assortment Kit with Individual Compartment (300pcs 30 Models) - EEEEE 10 Values 70 Pcs MOSFET Kit Transistor Kit Assortment Kit, Logic Level, HIGH Current Mosfet with NMOS and PMOS --- ## Why Shop on Desertcart? - 🛒 **Trusted by 1.3+ Million Shoppers** — Serving international shoppers since 2016 - 🌍 **Shop Globally** — Access 737+ million products across 21 categories - 💰 **No Hidden Fees** — All customs, duties, and taxes included in the price - 🔄 **15-Day Free Returns** — Hassle-free returns (30 days for PRO members) - 🔒 **Secure Payments** — Trusted payment options with buyer protection - ⭐ **TrustPilot Rated 4.5/5** — Based on 8,000+ happy customer reviews **Shop now:** [https://www.desertcart.id/products/333444464-10-pcb-circuit-board-thermal-transfer-paper-a4-size-transfer](https://www.desertcart.id/products/333444464-10-pcb-circuit-board-thermal-transfer-paper-a4-size-transfer) --- *Product available on Desertcart Indonesia* *Store origin: ID* *Last updated: 2026-05-11*