नमूना उत्पादक पैकेट पैकिंग विधि पैकेजिंग मात्रा (न्यूनतम) विवरण उद्धरण प्राप्त करें
BQ24040DSQT Texas Instruments WSON-10-EP(2x2) TAPE 250 BQ24040 Standalone Single-Cell 1A Linear Battery Charger with 4.2V VBAT and Temperature Sensing
BQ24040DSQR Texas Instruments WSON-10-EP(2x2) TAPE 3000 BQ24040 Standalone Single-Cell 1A Linear Battery Charger with 4.2V VBAT and Temperature Sensing
BQ24038RHLT Texas Instruments VQFN-20(3.6x4.6) TAPE 250 BQ24038 Standalone Single Cell 2A Battery Charger with Dynamic Power Path, 4.4V Regulated Output and 4.4V Vbat
BQ24038RHLR Texas Instruments VQFN-20-EP(3.6x4.6) TAPE 3000 BQ24038 Standalone Single Cell 2A Battery Charger with Dynamic Power Path, 4.4V Regulated Output and 4.4V Vbat
BQ24035RHLR Texas Instruments VQFN-20-EP(3.5x4.5) TAPE 3000 BQ24035 Standalone Single Cell 2A Battery Charger with Dynamic Power Path, 6V Output Cutoff and 4.2V Vbat
BQ24032ARHLT Texas Instruments VQFN-20-EP(3.5x4.5) TAPE 250 BQ24032A Standalone Single Cell 2A Battery Charger with Dynamic Power Path, 4.4V Regulated Output and 4.2V Vbat
BQ24032ARHLR Texas Instruments VQFN-20-EP(3.5x4.5) TAPE 3000 BQ24032A Standalone Single Cell 2A Battery Charger with Dynamic Power Path, 4.4V Regulated Output and 4.2V Vbat
BQ24031IRHLRQ1 Texas Instruments VQFN-20(3.6x4.6) TAPE 3000 BQ24031-Q1 Automotive Standalone Single-Cell 2-A Linear Battery Charger with Dual Inputs and 4.1-V Charge Voltage
BQ24031RHLT Texas Instruments VQFN-20(3.6x4.6) TAPE 250 BQ24031 Standalone Single-Cell 2A Battery Charger with Dynamic Power Path and 6V Battery Regulated Output
BQ24031RHLR Texas Instruments VQFN-20-EP(3.5x4.5) TAPE 3000 BQ24031 Standalone Single-Cell 2A Battery Charger with Dynamic Power Path and 6V Battery Regulated Output
BQ24030RHLR Texas Instruments VQFN-20(3.5x4.5) TAPE 3000 BQ24030 Dual-Input Single-Cell 2A Li-Ion Battery Charger with Dynamic Power Path Management
BQ24026DRCR Texas Instruments VSON-10-EP(3x3) TAPE 3000 BQ24026 Dual-Input USB/AC Adapter Single-Cell Li-Ion Battery Charger with Timer Enable and Temperature Sensing without Constant Voltage Charging