Lzc8650c Ic Datasheet Pdf Instant
The LZC8650C typically operates within the following parameters based on its manufacturer, (菱奇半导体): Package Type : SOP-8 (8-pin Surface Mount).
Reliability is paramount in power electronics, and the LZC8650C features a comprehensive suite of protections to ensure safe operation:
: Provides high power isolation to protect systems from electrical hazards . Core Features lzc8650c ic datasheet pdf
: Monitors line input trends for precise AC overvoltage and undervoltage cutoff thresholds. Key Technical Specifications & Electrical Limits
The internal parameters of the LZC8650C ensure safe, predictable power limits across universal input voltages (typically ranging from ). Below are the key electrical characteristics derived from the LZC8650 technical documentation : Electrical Characteristics ( VDDcap V sub cap D cap D end-sub Turn-on Voltage ( VDDONcap V sub cap D cap D cap O cap N end-sub ): 19.8V (Typical) VDDcap V sub cap D cap D end-sub Turn-off Voltage ( VDDOFFcap V sub cap D cap D cap O cap F cap F end-sub ): 8.0V (Typical) Startup Current ( ISTcap I sub cap S cap T end-sub ): 10 A (Maximum) Operating Current ( IOCcap I sub cap O cap C end-sub ): 1.5 mA ( VDDcap V sub cap D cap D end-sub Over-Voltage Protection ( VDDOVPcap V sub cap D cap D cap O cap V cap P end-sub ): 27V OTA Reference Voltage ( VREFcap V sub cap R cap E cap F end-sub ): 253.0 mV Cycle-by-Cycle Current Limit ( VCS_LIMcap V sub cap C cap S _ cap L cap I cap M end-sub ): 1.1V Leading-Edge Blanking Time ( TBK_CScap T sub cap B cap K _ cap C cap S end-sub ): 400 nS LZC8650C Pin Configurations and Functions 6. Typical Application Circuit Design Notes
Integrated safeguards handle Output Short-Circuit Protection (SCP) and Output Over-Voltage Protection (OVP) through real-time auxiliary tracking. Typical Application Circuit Profile
When you finally open the , pay close attention to these parameters: preventing thermal runaway.
: Internal thermal sensors shut down the IC if internal temperatures exceed safe operating limits, preventing thermal runaway. 6. Typical Application Circuit Design Notes