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No Hassle Rogers 3003 PCB
Do you need inexpensive Rogers 3003? Then, carry on with us, we present to you:
- We offer flexible payment plans
- 12+ years in the PCB industry
- Well-trusted brand, not just in Asia, but UK & EU
- We can give free samples first
We are eager to be your OEM. In addition to Rogers material, we work with firms other than Rogers that are experts in prepreg and high-performance laminate materials.
Qualified to Fulfill Your Rogers 3003 PCB Needs
Rogers 3003 PCB is used in a variety of commercial applications for a variety of high-performance reasons.
- These are high-performance PCBs low loss
- Ideal for high-frequency gadgets
- Preserve signal integrity
- Include Rogers 3003 that are V-score, jump-cut, tab-routed
Please inquire right away so you can begin profiting more.
For QC of your Rogers 3003, we are tough when it comes to regulating OSH workplace safety requirements.
Rogers 3003 PCB By Feature
HDI Rogers 3003 PCB is necessary for HDI display applications, particularly in radar displays. Monitors with PCBs are also available.
Rogers 3003 PTFE PCB is comprised of a ceramic composite material. As a result, the pricing is somewhat higher.
Ceramic Rogers PCBs are also referred to as PTFE Rogers PCBs. When utilized in aerospace, it shows an improved speed performance.
Making Multilayer Rogers 3003 PCB is a specialty in the industry. We can say we have it all and then more, building circuit board layers up to 40 counts.
These High Frequency Rogers 3003 PCBs are made up of numerous layers and have adequate power to handle commercial digitalization.
High Tg Rogers 3003 is made using high-quality materials. Isola 185HR and MEGTRON 7 (Panasonic) are two more materials . They include thermal performance.
Rogers 3003 PCB By Function (5)
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Chipsets developed for 77GH are frequently radar and/or automobile chipsets with long-range capabilities.
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Radar Rogers 3003 PCB functions flawlessly in active sensing devices like as laser radar, aircraft, air traffic control, and tracking radar.
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Backplane Rogers 3003 PCB can be used for extension devices (with slots). These are not motherboard PCBs, which are only for PCs.
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We achieve high-end fabrication of the GPS Rogers 3003 PCB. Taconic CER-10 and Arlon TC350 are two other comparable goods.
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Tested copper clad laminates are used in Semiconductor Rogers 3003 PCB, just as in other semiconductor boards.
Rogers 3003 PCB By PCB Technique (5)
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We laser drill holes precisely for PTH Rogers 3003 PCB since the through holes are regarded as the vital elements to stronger board layer connections.
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Solder paste and flux materials, as well as a chip mounter, are the materials/tools we have available to construct your solid SMD Rogers 3003 PCBs.
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If you want a different color PCB, such as Purple or Pink, the Customized Soldermask Rogers 3003 PCB is the one for you. Chemical resistance will be sound.
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In IC Substrate Rogers 3003 PCB, electrodeposited copper foil must be very smooth. The IC installed allows the board’s High-Frequency feature to function.
Rogers 3003 PCB Benefits
PCBTok can offer 24h online support for you. When you have any PCB-related questions, please feel free to get in touch.
PCBTok can build your PCB prototypes quickly. We also provide 24 hour production for quick-turn PCBs at our facility.
We often ship goods by international forwarders such as UPS, DHL, and FedEx. If they are urgent, we use priority express service.
PCBTok has passed ISO9001 and 14001, and also has USA and Canada UL certifications. We strictly follow IPC class 2 or class 3 standards for our products.
Turn-Key Solution for Rogers 3003
Rogers 3003 printed circuit boards for wireless and digital devices are what you need.
You’ll want PCBTok to assist you prepare for the task because we are experts at the job.
Because of our 12 year+ experience with PCBs, we are excellent too at PCB assembly.
When these qualifications are combined, we are ready to assemble PCBs from start to finish.
We do manufacture Rogers 3003 PCBs in large, medium and low volumes.
Producing Effective Rogers 3033
PCBTok is well-known for its expertise in RF/Microwave/ Rogers PCB manufacture and supply.
- Receive a weekly status update on your Rogers 3003 PCB
- We are very much concerned with after-sales service
- We have almost 500 qualified employees to aid you
Our company’s excellent help team (24/7) is likewise quite outstanding.
Communication Powered by Rogers 3003
Strict criteria and/or methods must be followed when constructing Rogers 3003 PCB.
This is especially true for Satellites, Microstripline, and Stripline applications in order to end up with excellent and effective goods.
Procedures and component placements in PCBA must likewise be closely monitored.
Choose the Rogers 3003 PCB leader.
Don’t compromise with these critical HF components.
Current & Updated Rogers 3003 PCB Methods
To manufacture Rogers 3003 PCB, we exclusively utilize very clean and well-maintained PCB fabrication equipment.
Aside from that, our team are professionals who attend PCB trade shows on a monthly basis, so they are well-versed in PCB ways.
If you are hesitant, then be comforted that we do not require a minimum order quantity.
We can surely make the Rogers 3003 PCB you want!
Rogers 3003 PCB Fabrication
Because of its capacity to carry signals swiftly, Rogers 3003 PCB are commonly used in wireless applications.
This, combined with signal integrity, qualifies it for radio transmission, military navigation, and LIDAR.
Microwave and RF PCBs are known to be highly sensitive to noise, therefore designers must be aware of the many factors that apply influence on signal integrity.
PCBTok is an authority in this field.
PCBTok would not be renown globally if we did not provide amazing customer service and effective Rogers 3003.
We’ve been in this field for over a decade, so you may rely on us without hesitation!
We’re fully accredited and certified in both Canada and the United States.
As soon as you are ready, our sales reps will give you a fast quote.
Try our Rogers 3003, and see the PCBTok difference.
OEM & ODM Rogers 3003 PCB Applications
Satellite applications are required for modern IT systems. Rogers 3003 in satellites is fit for outer space atmosphere.
Microstripline and stripline semiconductors are used in IoT, smart technologies, and broadband. Using Rogers 3003 for these will increase the speed of the connections.
Rogers 3003 Telecom PCB can also be used in Broadband Applications. Ceramic or PTFE boards are ideal for these applications because they reduce crosstalk.
Rogers 3003 PCB for Wireless Communication might be quite useful for automated devices. In this case, it can aid in expedited manufacturing production (devices communicate with each other remotely).
Rogers 3003 PCB for Digital Navigation Tools can be used in both the marine and cargo logistics industries. These tools will help you save a lot of time.
Rogers 3003 PCB Production Details As Following Up
- Production Facility
- PCB Capabilities
- Shipping Method
- Payment Methods
- Send Us Inquiry
| NO | Item | Technical Specification | ||||||
| Standard | Advanced | |||||||
| 1 | Layer Count | 1-20 layers | 22-40 layer | |||||
| 2 | Base Material | KB、Shengyi、ShengyiSF305、FR408、FR408HR、IS410、FR406、GETEK、370HR、IT180A、Rogers4350、Rogers400、PTFE Laminates(Rogers series、Taconic series、Arlon series、Nelco series)、Rogers/Taconic/Arlon/Nelco laminate with FR-4 material(including partial Ro4350B hybrid laminating with FR-4) | ||||||
| 3 | PCB Type | Rigid PCB/FPC/Flex-Rigid | Backplane、HDI、High multi-layer blind&buried PCB、Embedded Capacitance、Embedded resistance board 、Heavy copper power PCB、Backdrill. | |||||
| 4 | Lamination type | Blind&buried via type | Mechanical blind&burried vias with less than 3 times laminating | Mechanical blind&burried vias with less than 2 times laminating | ||||
| HDI PCB | 1+n+1,1+1+n+1+1,2+n+2,3+n+3(n buried vias≤0.3mm),Laser blind via can be filling plating | 1+n+1,1+1+n+1+1,2+n+2,3+n+3(n buried vias≤0.3mm),Laser blind via can be filling plating | ||||||
| 5 | Finished Board Thickness | 0.2-3.2mm | 3.4-7mm | |||||
| 6 | Minimum Core Thickness | 0.15mm(6mil) | 0.1mm(4mil) | |||||
| 7 | Copper Thickness | Min. 1/2 OZ, Max. 4 OZ | Min. 1/3 OZ, Max. 10 OZ | |||||
| 8 | PTH Wall | 20um(0.8mil) | 25um(1mil) | |||||
| 9 | Maximum Board Size | 500*600mm(19”*23”) | 1100*500mm(43”*19”) | |||||
| 10 | Hole | Min laser drilling size | 4mil | 4mil | ||||
| Max laser drilling size | 6mil | 6mil | ||||||
| Max aspect ratio for Hole plate | 10:1(hole diameter>8mil) | 20:1 | ||||||
| Max aspect ratio for laser via filling plating | 0.9:1(Depth included copper thickness) | 1:1(Depth included copper thickness) | ||||||
| Max aspect ratio for mechanical depth- control drilling board(Blind hole drilling depth/blind hole size) |
0.8:1(drilling tool size≥10mil) | 1.3:1(drilling tool size≤8mil),1.15:1(drilling tool size≥10mil) | ||||||
| Min. depth of Mechanical depth-control(back drill) | 8mil | 8mil | ||||||
| Min gap between hole wall and conductor (None blind and buried via PCB) |
7mil(≤8L),9mil(10-14L),10mil(>14L) | 5.5mil(≤8L),6.5mil(10-14L),7mil(>14L) | ||||||
| Min gap between hole wall conductor (Blind and buried via PCB) | 8mil(1 times laminating),10mil(2 times laminating), 12mil(3 times laminating) | 7mil(1 time laminating), 8mil(2 times laminating), 9mil(3 times laminating) | ||||||
| Min gab between hole wall conductor(Laser blind hole buried via PCB) | 7mil(1+N+1);8mil(1+1+N+1+1 or 2+N+2) | 7mil(1+N+1);8mil(1+1+N+1+1 or 2+N+2) | ||||||
| Min space between laser holes and conductor | 6mil | 5mil | ||||||
| Min space between hole walls in different net | 10mil | 10mil | ||||||
| Min space between hole walls in the same net | 6mil(thru-hole& laser hole PCB),10mil(Mechanical blind&buried PCB) | 6mil(thru-hole& laser hole PCB),10mil(Mechanical blind&buried PCB) | ||||||
| Min space bwteen NPTH hole walls | 8mil | 8mil | ||||||
| Hole location tolerance | ±2mil | ±2mil | ||||||
| NPTH tolerance | ±2mil | ±2mil | ||||||
| Pressfit holes tolerance | ±2mil | ±2mil | ||||||
| Countersink depth tolerance | ±6mil | ±6mil | ||||||
| Countersink hole size tolerance | ±6mil | ±6mil | ||||||
| 11 | Pad(ring) | Min Pad size for laser drillings | 10mil(for 4mil laser via),11mil(for 5mil laser via) | 10mil(for 4mil laser via),11mil(for 5mil laser via) | ||||
| Min Pad size for mechanical drillings | 16mil(8mil drillings) | 16mil(8mil drillings) | ||||||
| Min BGA pad size | HASL:10mil, LF HASL:12mil, other surface technics are 10mil(7mil is ok for flash gold) | HASL:10mil, LF HASL:12mil, other surface technics are 7mi | ||||||
| Pad size tolerance(BGA) | ±1.5mil(pad size≤10mil);±15%(pad size>10mil) | ±1.2mil(pad size≤12mil);±10%(pad size≥12mil) | ||||||
| 12 | Width/Space | Internal Layer | 1/2OZ:3/3mil | 1/2OZ:3/3mil | ||||
| 1OZ: 3/4mil | 1OZ: 3/4mil | |||||||
| 2OZ: 4/5.5mil | 2OZ: 4/5mil | |||||||
| 3OZ: 5/8mil | 3OZ: 5/8mil | |||||||
| 4OZ: 6/11mil | 4OZ: 6/11mil | |||||||
| 5OZ: 7/14mil | 5OZ: 7/13.5mil | |||||||
| 6OZ: 8/16mil | 6OZ: 8/15mil | |||||||
| 7OZ: 9/19mil | 7OZ: 9/18mil | |||||||
| 8OZ: 10/22mil | 8OZ: 10/21mil | |||||||
| 9OZ: 11/25mil | 9OZ: 11/24mil | |||||||
| 10OZ: 12/28mil | 10OZ: 12/27mil | |||||||
| External Layer | 1/3OZ:3.5/4mil | 1/3OZ:3/3mil | ||||||
| 1/2OZ:3.9/4.5mil | 1/2OZ:3.5/3.5mil | |||||||
| 1OZ: 4.8/5mil | 1OZ: 4.5/5mil | |||||||
| 1.43OZ(positive):4.5/7 | 1.43OZ(positive):4.5/6 | |||||||
| 1.43OZ(negative ):5/8 | 1.43OZ(negative ):5/7 | |||||||
| 2OZ: 6/8mil | 2OZ: 6/7mil | |||||||
| 3OZ: 6/12mil | 3OZ: 6/10mil | |||||||
| 4OZ: 7.5/15mil | 4OZ: 7.5/13mil | |||||||
| 5OZ: 9/18mil | 5OZ: 9/16mil | |||||||
| 6OZ: 10/21mil | 6OZ: 10/19mil | |||||||
| 7OZ: 11/25mil | 7OZ: 11/22mil | |||||||
| 8OZ: 12/29mil | 8OZ: 12/26mil | |||||||
| 9OZ: 13/33mil | 9OZ: 13/30mil | |||||||
| 10OZ: 14/38mil | 10OZ: 14/35mil | |||||||
| 13 | Dimension Tolerance | Hole Position | 0.08 ( 3 mils) | |||||
| Conductor Width(W) | 20% Deviation of Master A/W |
1mil Deviation of Master A/W |
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| 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 |
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| Base coppe 1 oz: 4mil(Green), 5mil(Other color) , 5.5mil(Black,extremity 5mil),8mil( on copper area) | ||||||||
| Base copper 1.43 oz: 4mil(Green), 5.5mil(Other color) , 6mil(Black), 8mil( on copper area) | ||||||||
| Base copper 2 oz-4 oz: 6mil, 8mil( on copper area) | ||||||||
| 15 | Surface Treatment | Lead free | Flash gold(electroplated gold)、ENIG、Hard gold、Flash gold、HASL Lead free、OSP、ENEPIG、Soft gold、Immersion silver、Immersion Tin、ENIG+OSP,ENIG+Gold finger,Flash gold(electroplated gold)+Gold finger,Immersion silver+Gold finger,Immersion Tin+Gold finge | |||||
| Leaded | Leaded HASL | |||||||
| Aspect ratio | 10:1(HASL Lead free、HASL Lead、ENIG、Immersion Tin、Immersion silver、ENEPIG);8:1(OSP) | |||||||
| Max finished size | HASL Lead 22″*39″;HASL Lead free 22″*24″;Flash gold 24″*24″;Hard gold 24″*28″;ENIG 21″*27″;Flash gold(electroplated gold) 21″*48″;Immersion Tin 16″*21″;Immersion silver 16″*18″;OSP 24″*40″; | |||||||
| Min finished size | HASL Lead 5″*6″;HASL Lead free 10″*10″;Flash gold 12″*16″;Hard gold 3″*3″;Flash gold(electroplated gold) 8″*10″;Immersion Tin 2″*4″;Immersion silver 2″*4″;OSP 2″*2″; | |||||||
| PCB thickness | HASL Lead 0.6-4.0mm;HASL Lead free 0.6-4.0mm;Flash gold 1.0-3.2mm;Hard gold 0.1-5.0mm;ENIG 0.2-7.0mm;Flash gold(electroplated gold) 0.15-5.0mm;Immersion Tin 0.4-5.0mm;Immersion silver 0.4-5.0mm;OSP 0.2-6.0mm | |||||||
| Max high to gold finger | 1.5inch | |||||||
| Min space between gold fingers | 6mil | |||||||
| Min block space to gold fingers | 7.5mil | |||||||
| 16 | V-Cutting | Panel Size | 500mm X 622 mm ( max. ) | 500mm X 800 mm ( max. ) | ||||
| Board Thickness | 0.50 mm (20mil) min. | 0.30 mm (12mil) min. | ||||||
| Remain Thickness | 1/3 board thickness | 0.40 +/-0.10mm( 16+/-4 mil ) | ||||||
| Tolerance | ±0.13 mm(5mil) | ±0.1 mm(4mil) | ||||||
| Groove Width | 0.50 mm (20mil) max. | 0.38 mm (15mil) max. | ||||||
| Groove to Groove | 20 mm (787mil) min. | 10 mm (394mil) min. | ||||||
| Groove to Trace | 0.45 mm(18mil) min. | 0.38 mm(15mil) min. | ||||||
| 17 | Slot | Slot size tol.L≥2W | PTH Slot: L:+/-0.13(5mil) W:+/-0.08(3mil) | PTH Slot: L:+/-0.10(4mil) W:+/-0.05(2mil) | ||||
| NPTH slot(mm) L+/-0.10 (4mil) W:+/-0.05(2mil) | NPTH slot(mm) L:+/-0.08 (3mil) W:+/-0.05(2mil) | |||||||
| 18 | Min Spacing from hole edge to hole edge | 0.30-1.60 (Hole Diameter) | 0.15mm(6mil) | 0.10mm(4mil) | ||||
| 1.61-6.50 (Hole Diameter) | 0.15mm(6mil) | 0.13mm(5mil) | ||||||
| 19 | Min spacing between hole edge to circuitry pattern | PTH hole: 0.20mm(8mil) | PTH hole: 0.13mm(5mil) | |||||
| NPTH hole: 0.18mm(7mil) | NPTH hole: 0.10mm(4mil) | |||||||
| 20 | Image transfer Registration tol | Circuit pattern vs.index hole | 0.10(4mil) | 0.08(3mil) | ||||
| Circuit pattern vs.2nd drill hole | 0.15(6mil) | 0.10(4mil) | ||||||
| 21 | Registration tolerance of front/back image | 0.075mm(3mil) | 0.05mm(2mil) | |||||
| 22 | Multilayers | Layer-layer misregistration | 4layers: | 0.15mm(6mil)max. | 4layers: | 0.10mm(4mil) max. | ||
| 6layers: | 0.20mm(8mil)max. | 6layers: | 0.13mm(5mil) max. | |||||
| 8layers: | 0.25mm(10mil)max. | 8layers: | 0.15mm(6mil) max. | |||||
| Min. Spacing from Hole Edge to Innerlayer Pattern | 0.225mm(9mil) | 0.15mm(6mil) | ||||||
| Min.Spacing from Outline to Innerlayer Pattern | 0.38mm(15mil) | 0.225mm(9mil) | ||||||
| Min. board thickness | 4layers:0.30mm(12mil) | 4layers:0.20mm(8mil) | ||||||
| 6layers:0.60mm(24mil) | 6layers:0.50mm(20mil) | |||||||
| 8layers:1.0mm(40mil) | 8layers:0.75mm(30mil) | |||||||
| Board thickness tolerance | 4layers:+/-0.13mm(5mil) | 4layers:+/-0.10mm(4mil) | ||||||
| 6layers:+/-0.15mm(6mil) | 6layers:+/-0.13mm(5mil) | |||||||
| 8-12 layers:+/-0.20mm (8mil) | 8-12 layers:+/-0.15mm (6mil) | |||||||
| 23 | Insulation Resistance | 10KΩ~20MΩ(typical:5MΩ) | ||||||
| 24 | Conductivity | <50Ω(typical:25Ω) | ||||||
| 25 | Test voltage | 250V | ||||||
| 26 | Impedance control | ±5ohm(<50ohm), ±10%(≥50ohm) | ||||||
PCBTok offers flexible shipping methods for our customers, you may choose from one of the methods below.
1. DHL
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.
2. UPS
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.
3. TNT
TNT has 56,000 employees in 61 countries.
It takes 4-9 business days to deliver the packages to the hands
of our customers.
4. FedEx
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.
Related Products
Rogers 3003 – The Ultimate FAQ Guide
If you want to buy a Rogers 3003 circuit board, then you’re in luck! This product is suitable for a wide range of applications and manufacturers often rely on it. Not only does it have good electrical and mechanical stability, but it is also very inexpensive and easy to build. Here are some of the most frequently asked questions about this product. Let’s start with the benefits of the Rogers 3003 circuit board.
The first thing to remember about the Rogers 3003 is its low CTE value. It has a low CTE of 17.16 and 25 ppm per degree Celsius, indicating that it can withstand high temperatures. The lower the CTE, the better. Therefore, this product is ideal for applications with stringent temperature requirements. Read this guide to learn more about this product.
Rogers 3003 and 4003 look very similar, but they have different characteristics. On the other hand, the 4003 is better suited for high-frequency applications. These boards are often used in RF microwave applications and are very important in the automotive, telecommunications, and military industries. Whether you are new to the field or an expert, the Rogers 4003 PCB will serve you well.
The Rogers 3003 includes many tools to help engineers and designers make material and design decisions. This includes technical papers, data sheets, literature, videos, calculators, white papers, and other materials. Available tools include ring resonators and other microwave circuit design tools that are organized by design attributes. The tool can also help engineers determine dielectric constants from measurements. It can also be used for RF engineering.