Overview of TWS Earphones
TWS stands for True Wireless Stereo, meaning truly wireless stereo. TWS technology is based on Bluetooth chip technology. Tracing its development, it all started with Apple. In 2017, when the iPhone 7 removed the 3.5mm headphone jack, the Bluetooth earphone market experienced rapid growth. Apple then led the way by launching the world’s first TWS Bluetooth earphones, AirPods, bringing new vitality to the Bluetooth earphone industry.
Composition of TWS Earphones
TWS Bluetooth earphones consist of two main components: the charging case and the earbuds.
Charging Case
Battery capacity: 450-750mAh
Composed of a charging management IC, MCU, and battery
The charging port typically includes TVS and OVP protection
Earbuds
Battery capacity: 50-55mAh
Consist of a Bluetooth chip, G-sensor, in-ear detection module, lithium battery management chip, and battery
TWS Earphone Overcurrent Protection – Recommended Jeff Micro Components
Jeff Micro (GLF) provides load switches designed for TWS products:
GLF73910 – Lithium battery protection (WLCSP-4L, 0.8uA), smaller than a 0603 resistor
GLF76321 – Deep Sleep mode (0.97mm × 1.47mm, WLCSP-6L), ultra-compact, ultra-low R(dson) of 31mΩ
TWS Earphone – Recommended Canrui Components
As the TWS earphone market adopts screen display functionality in charging cases, our company recommends OCS (Canrui) brand Hall sensors for lid detection:
OCH4002 – Unipolar Hall sensor, cost-effective (recommended product)
OCH1608 – Omnipolar Hall sensor, industry-leading ultra-low power consumption (0.8uA)
OCH166A – Omnipolar Hall sensor, compact packaging (DFN1216, etc.)
OCH1661 – Omnipolar Hall sensor, available in plug-in packaging
Example Application
The Motorola Verve Buds 200 TWS Bluetooth earphones use 1608 80AG Hall sensor to detect lid opening and closing.
TWS Earphone Application Solution – Prisemi Component Recommendation
Prisemi primarily promotes the PB15305 charging chip for TWS earphone charging cases.
Advantages: 2A charging, three independent outputs, and independent detection.
In TWS earphone applications for electrostatic protection, surge protection, and OVP overvoltage protection, Prisemi has developed corresponding targeted products for effective protection, as detailed in the table below:
類別 | prisemi型號 | 應(yīng)用位置 |
充電IC | PB15305 | 充電方案 |
TVS | PTVSHC1TF24VU | 充電口浪涌保護(hù) |
TVS | PTVSHC2EN12VU | 充電口浪涌保護(hù) |
TVS | PTVSHC3N12VU | 充電口浪涌保護(hù) |
過壓保護(hù)IC | P1405A�,P1465��、P1495�、P14C5N | 充電口OVP保護(hù) |
ESD | PESDNC2FD5VBS | TWS耳機(jī)充電觸點(diǎn),MCU供電��、復(fù)位等位置 |
ESD | PESDNC2XD5VB | Charge充電口��,GSENSOR,充電觸點(diǎn)���,MCU供電��、芯片復(fù)位、放電觸點(diǎn)�、USB等位置 |
ESD | PESDNC2XD3V3B | MCU?VIO |
NMOS | PNM3FD20V1E����、PNM723T201E0 | Charge充電口 |
TWS Earphone – Harvatek Component Recommendation
類別 | HARVATEK系列 | 型號系列 |
SMD??LED | 0603?SERIES | B2972?Series,B1931?Series,B19Y1?Series |
SMD??LED | 0402?SERIES | B2841?Series,B1851?Series,B1851?Series |
Emitter?&?Receiver | Emitter?Series | B13V1?IR?Series,B13W1?IRP?Series,B2851?IR/IRP?Series,B1861?IR/IRP?Series |
Emitter?&?Receiver | Receiver?Phototransistor?Series | B13V1?PT?Series�����,B13V1?PT?Series���,B1701?PT?Series |
Ambient?Light?Sensor | Ambient?Light?Sensor?Series–?In?Ear?Detection | B15P1LS?Series��,B19H1LS?Series,B15V1LS?Series |
TWS Earphone – PIONEER Agency Component Recommendation
Our agency also provides other products suitable for TWS earphone applications, such as boost chips, crystals, and sensors. The recommended components are listed in the table below.
A key recommendation is ROHM's miniature proximity sensor, which is currently used in Huawei smartphones.
Advantages:
Compact size
Simple design
Cost-effective
Sensor Model: RPR-0521RS
類別 | 品牌 | 型號 |
微型距離傳感器 | ROHM | RPR-0521RS |
MCU | 華大 | HC32L110B6PA-TSSOP16? |
升壓芯片 | HTC | LM1937��,LM1938 |
ROHM | BU33DV7NUX |
晶振 | Abracon | ABM11W-16.0000MHZ-7-B2U-T3 |
Abracon | ABS05-32.768KHZ-T |