ЛОГОТИП УГКПБ
Engineers need compact designs and reliable connections for smart wear.
УГКПБ представляет Model 8L Smart Wear Rigid-Flex PCB (R-FPCB). This board combines 6 rigid layers and 2 flexible layers. It solves space and bending challenges in wearable печатные платы.
1. What Is a Smart Wear Rigid-Flex PCB?
А жестко-гибкая печатная плата has both rigid sections (for soldering components) and flexible sections (for 3D interconnection).
Наш 8L Smart Wear R-FPCB works perfectly for smartwatches, health patches, and AR glasses.
The 6 rigid layers support high-density wiring. The 2 flexible layers allow free bending.
This design replaces board-to-board connectors and flat cables. It eliminates contact failures common in tiny devices. It also improves shock resistance by removing mechanical joints.
2. Научная классификация
Based on IPC-6013 (Qualification and Performance Specification for Flexible Printed Boards), this product falls under:
-
Тип: Сорт 3 (high-reliability – medical/military/wearable) multilayer rigid-flex.
-
Строительство: Asymmetric (6 жесткий + 2 flex).
-
Application level: Consumer high-reliability wearables.
3. Материал & Stack-Up: Why PI + ФР4?
We select materials based on physical properties and thermal stability.
Rigid Area – FR4
Мы используем Тг 170 ФР4 (high glass transition temperature). It keeps low Z-axis expansion during multiple reflow cycles. This ensures high BGA soldering yield.
Flexible Area – Polyimide (ПИ)
Мы используем Polyimide film for the flex layers. PI has a low dielectric constant and wide working temperature (-200°C to +300°C). It allows over 100,000 bending cycles without cracking. This is critical for гибкий печатные платы in wearables.
Stack-Up Construction
The flexible layers (L1/L2) embed inside the rigid section. We use stepped lamination at the transition boundary to spread mechanical stress.
Design rule: Never place vias in the bending area. That prevents micro-cracks from stress concentration. Our design follows this IPC-2223 rule strictly.
4. Key Performance & Design Parameters (IPC-2223 Compliant)
The table below shows critical specifications for the 8L wearable rigid-flex board.
| Параметр | UGPCB 8L R-FPCB Value | Design Insight |
|---|---|---|
| Структура слоев | Жесткий 6L + Флекс 2л | Asymmetric stack needs special compensation to avoid warpage |
| Готовая толщина | 1.2мм (rigid zone) | Optimized for controlled impedance – meets IPC Class 2/3 |
| Минимальная трассировка / Космос | 3мил / 3мил | ИЧР capability – fits narrow bezel designs |
| Min Mechanical Hole | 0.2мм | Increases routing density |
| Толщина меди | 1 унция (внутренний & внешний) | Supports high charging currents |
| Поверхностная отделка | Погружение Золото (СОГЛАШАТЬСЯ) | 2 microinches gold thickness |
5. Why Choose UGPCB for Your Wearable PCB Project?
А. No More Flex Breakage
Wearable devices bend repeatedly (например, watch straps). Мы используем adhesiveless base material в гибкой зоне. We also apply arc routing instead of 45° traces.
Data from our lab: Arc routing improves copper stress distribution by 40% compared to angled traces. This eliminates fatigue fractures.
Б. Immersion Gold for Sweat Resistance
We finish the surface with СОГЛАШАТЬСЯ (Погружение Золото), 2 microinches thick.
Почему? Sweat and humidity corrode exposed copper. ENIG provides a flat pad surface (better than OSP) and excellent corrosion resistance. It also supports direct contact for buttons.
В. Strong Signal Integrity
Smart wear PCBs need clean Bluetooth and Wi-Fi signals. Наш 6 rigid layers include dedicated power and ground planes. These provide a complete return path for RF signals. That reduces electromagnetic interference (Эми) to a minimum.
6. Производственный процесс & Контроль качества
UGPCB uses automated lines to ensure high yield for the 8L rigid-flex PCB.
-
Material cutting & бурение – UV laser drills 0.2mm micro-vias in PI film.
-
Десмеар & electroless copper – Plasma cleaning removes resin residue from holes.
-
Circuit patterning – LDI (Лазерная прямая визуализация) creates 3mil/3mil traces accurately.
-
Ламинирование – Low-flow prepreg controls resin bleed at the rigid-flex junction.
-
Чистота поверхности – Strict chemical control for even ENIG deposition.
7. Приложения: Where This Rigid-Flex PCB Excels
Этот R-FPCB fits devices that need both density and bending:
-
Умные часы & fitness bands – connect main board to side buttons and heart-rate sensors.
-
TWS earbuds – fit into curved stems and hinge areas.
-
Medical monitoring patches – ultra-thin, skin-conforming flexible circuits.
-
Smart glasses – link left and right arms around the hinge.
8. Стандарты & Reliability Data
We design and test this wearable PCB according to international specifications:
-
Design standard: IPC-2223 (Flexible Printed Board Design)
-
Performance test: IPC-6013 (Flexible Board Qualification)
-
Reliability validation (UGPCB lab):
-
10 reflow cycles (peak 260°C) – no delamination
-
1000 hours damp heat (85°С / 85% Раствор) – no corrosion
-
100,000 dynamic bends – no trace crack
-
9. Get a Quote – Start Your Wearable Project Today
УГКПБ offers prototyping and mass production. We understand your timeline and quality needs for smart wear PCBs.
Send us your Gerber files or schematics. Our engineers will reply within 24 часы с:
-
А DFM (Дизайн для производства) отчет
-
A competitive quote
[Call-to-action: Запросить цену / Contact Sales]
