Packaging information
Package | Pins DSBGA (YFF) | 12 |
Operating temperature range (°C) -40 to 85 |
Package qty | Carrier 3,000 | LARGE T&R |
Features for the TPD4S214
- Input Voltage Protection at VBUS from –7 V to 30 V
- IEC61000-4-2 Level 4 ESD Protection
- ±15-kV Contact Discharge
- ±15-kV Air Gap Discharge
- IEC 61000-4-5 Surge Protection
- 7.8 A (8/20 μs)
- Low RDS(ON) N-CH FET Switch for High Efficiency
- Compliant with USB2.0 and USB3.0 OTG spec
- User Adjustable Current Limit From 250 mA to Beyond 1.2 A
- Built-in Soft-start
- Reverse Current Blocking
- Over Voltage Lock Out for VBUS
- Under Voltage Lock Out for VOTG_IN
- Thermal Shutdown and Short Circuit Protection
- Auto Retry on any Fault; No Latching Off States
- Integrated VBUS Detection Circuit
- Low Capacitance TVS ESD Clamp for USB2.0 High Speed Data Rate
- Internal 16ms Startup Delay
- Space Saving WCSP (12-YFF) Package
- UL Listed and CB File No. E169910
Description for the TPD4S214
The TPD4S214 is a single-chip protection solution for USB On-the-Go (OTG) and other current limited USB applications. This device includes an integrated low RDS(ON) N-channel current limited switch for the OTG current supply to peripheral devices. TPD4S214 offers low capacitance transient voltage suppression (TVS) electrostatic discharge (ESD) clamping diodes for the D+, D–, and ID pins for both USB2.0 and USB3.0 applications. The VBUS pin can handle continuous voltage ranging from –7 V to 30 V. The over voltage lock-out (OVLO) at the VBUS pin ensures that if there is a fault condition at the VBUS line, TPD4S214 is able to isolate it and protect the internal circuitry from damage. Similarly, the under voltage lock out (UVLO) at the VOTG_IN pin ensures that there is no power drain from the internal OTG supply to external VBUS if VOTG_IN droops below a safe operating level. When EN is high, the OTG switch is activated and the FLT pin indicates whether there is a fault condition. The soft start feature waits 16 ms to turn on the OTG switch after all operating conditions are met.