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L6386D датащи(PDF) 3 Page - STMicroelectronics |
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L6386D датащи(HTML) 3 Page - STMicroelectronics |
3 / 10 page RECOMMENDED OPERATING CONDITIONS Symbol Pin Parameter Test Condition Min. Typ. Max. Unit Vout 12 Output Voltage Note1 580 V Vboot- Vout 14 Floating Supply Voltage Note1 17 V fsw Switching Frequency HVG,LVG load CL = 1nF 400 kHz Vcc 4 Supply Voltage 17 V Tj Junction Temperature -45 125 °C Note 1: if the condition Vboot - Vout < 18V is guaranteed, Vout can range from -3 to 580V. ELECTRICAL CHARACTERISTICS AC Operation (Vcc = 15V; Tj = 25 °C) Symbol Pin Parameter Test Condition Min. Typ. Max. Unit ton 1.3 vs 9, 13 High/Low Side Driver Turn-On Propagation Delay Vout = 0V 110 150 ns toff High/Low Side Driver Turn-Off Propagation Delay Vout = 0V 105 150 ns tsd 2 vs 9,13 Shut Down to High/Low Side Propagation Delay Vout = 0V 105 150 ns tr 13,9 Rise Time CL = 1000pF 50 ns tf 13,9 Fall Time CL = 1000pF 30 ns DC Operation (Vcc = 15V; Tj = 25 °C) Symbol Pin Parameter Test Condition Min. Typ. Max. Unit Low Supply Voltage Section Vcc 4 Supply Voltage 17 V Vccth1 Vcc UV Turn On Threshold 11.5 12 12.5 V Vccth2 Vcc UV Turn Off Threshold 9.5 10 10.5 V Vcchys Vcc UV Hysteresis 2 V Iqccu Undervoltage Quiescent Supply Current Vcc ≤ 11V 200 µA Iqcc Quiescent Current Vcc = 15V 250 320 µA Bootstrapped Supply Section Vboot 14 Bootstrapped Supply Voltage 17 V Vbth1 Vboot UV Turn On Threshold 10.7 11.9 12.9 V Vbth2 Vboot UV Turn Off Threshold 8.8 9.9 10.7 V Vbhys Vboot UV Hysteresis 2 V Iqboot Vboot Quiescent Current Vout = Vboot 200 µA Ilk Leakage Current Vout = Vboot = 600V 10 µA Rdson Bootstrap Driver on Resistance (*) Vcc ≥ 12.5V; Vin = 0V 125 Ω Driving Buffers Section Iso 9, 13 High/Low Side Driver Short Circuit Source Current VIN = Vih (tp < 10 µs) 300 400 mA Isi High/Low Side Driver Short Circuit Sink Current 500 650 mA Logic Inputs Vil 1,2,3 Low Level Logic Threshold Voltage 1.5 V Vih High Level Logic Threshold Voltage 3.6 V Iih High Level Logic Input Current VIN = 15V 50 70 µA Iil Low Level Logic Input Current VIN = 0V 1 µA (*) RDSON is tested in the following way: RDSON = (VCC − V CBOOT1 ) −(VCC − V CBOOT2 ) I1 (VCC,VCBOOT1)− I2(VCC,VCBOOT2) where I1 is pin 8 current when VCBOOT =VCBOOT1,I2 when VCBOOT =VCBOOT2. L6386 3/10 |
Аналогичный номер детали - L6386D |
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Аналогичное описание - L6386D |
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