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ONSEMI MC74LCX74DG
Integrated Circuits (ICs)

L6386AD

Active
STMicroelectronics

MOSFET DRIVER, HALF BRIDGE, 9.1V TO 17V SUPPLY, 650MA OUT, 110NS DELAY, SOIC-14

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Search across all available documentation for this part.

DocumentsProduct Change Notice ENTechnical Data Sheet EN+1
ONSEMI MC74LCX74DG
Integrated Circuits (ICs)

L6386AD

Active
STMicroelectronics

MOSFET DRIVER, HALF BRIDGE, 9.1V TO 17V SUPPLY, 650MA OUT, 110NS DELAY, SOIC-14

Deep-Dive with AI

DocumentsProduct Change Notice ENTechnical Data Sheet EN+1

Technical Specifications

Parameters and characteristics for this part

SpecificationL6386AD
Channel TypeIndependent
Current - Peak Output (Source, Sink) [custom]400 mA
Current - Peak Output (Source, Sink) [custom]650 mA
Driven ConfigurationHalf-Bridge
Gate TypeN-Channel MOSFET, IGBT, MOSFET (N-Channel)
High Side Voltage - Max (Bootstrap) [Max]600 V
Input TypeInverting
Logic Voltage - VIL, VIH [custom]1.5 V
Logic Voltage - VIL, VIH [custom]3.6 V
Mounting TypeSurface Mount
Number of Drivers2
Operating Temperature [Max]150 °C
Operating Temperature [Min]-40 °C
Package / Case3.9 mm, 0.154 in
Package / Case14-SOIC
Rise / Fall Time (Typ)50 ns, 30 ns
Supplier Device Package14-SO
Voltage - Supply17 V

L6386 Series

HV High and low side driver with embedded comparator and bootstrap diode

PartGate TypeInput TypeCurrent - Peak Output (Source, Sink) [custom]Current - Peak Output (Source, Sink) [custom]Voltage - SupplyDriven ConfigurationOperating Temperature [Min]Operating Temperature [Max]Supplier Device PackageChannel TypeLogic Voltage - VIL, VIH [custom]Logic Voltage - VIL, VIH [custom]Number of DriversMounting TypePackage / CasePackage / CasePackage / CaseHigh Side Voltage - Max (Bootstrap) [Max]Rise / Fall Time (Typ)Package / Case
14-DIP
STMicroelectronics
L6386E
IGBT
MOSFET (N-Channel)
N-Channel MOSFET
Inverting
400 mA
650 mA
17 V
Half-Bridge
-40 °C
150 °C
14-DIP
Independent
1.5 V
3.6 V
2
Through Hole
14-DIP
0.3 in
7.62 mm
600 V
30 ns
50 ns
14-SOIC
STMicroelectronics
L6386D
IGBT
MOSFET (N-Channel)
Inverting
400 mA
650 mA
17 V
Half-Bridge
-40 °C
150 °C
14-SO
Independent
1.5 V
3.6 V
2
Surface Mount
14-SOIC
600 V
30 ns
50 ns
0.154 in
3.9 mm
ONSEMI MC74HC02ADG
STMicroelectronics
L6386ADTR
IGBT
MOSFET (N-Channel)
N-Channel MOSFET
Inverting
400 mA
650 mA
17 V
Half-Bridge
-40 °C
150 °C
14-SO
Independent
1.5 V
3.6 V
2
Surface Mount
14-SOIC
600 V
30 ns
50 ns
0.154 in
3.9 mm
ONSEMI MC74LCX74DG
STMicroelectronics
L6386AD
IGBT
MOSFET (N-Channel)
N-Channel MOSFET
Inverting
400 mA
650 mA
17 V
Half-Bridge
-40 °C
150 °C
14-SO
Independent
1.5 V
3.6 V
2
Surface Mount
14-SOIC
600 V
30 ns
50 ns
0.154 in
3.9 mm
14-DIP
STMicroelectronics
L6386
IGBT
MOSFET (N-Channel)
N-Channel MOSFET
Inverting
400 mA
650 mA
17 V
Half-Bridge
-40 °C
150 °C
14-DIP
Independent
1.5 V
3.6 V
2
Through Hole
14-DIP
0.3 in
7.62 mm
600 V
30 ns
50 ns

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

DistributorPackageQuantity$
DigikeyN/A 0$ 3.25
Tube 50$ 1.37
100$ 1.12
250$ 1.05
500$ 0.93
1250$ 0.73
2500$ 0.68
5000$ 0.65
NewarkEach 1$ 1.76
10$ 1.39
100$ 1.19
500$ 1.11
1000$ 1.08
3000$ 1.06
5000$ 1.04

Description

General part information

L6386 Series

The L6386AD is a high voltage gate driver, manufactured with the BCD™ "offline" technology, and able to drive simultaneously one high and one low-side power MOSFET or IGBT device. The high-side (floating) section is able to work with voltage rail up to 600 V. Both device outputs can independently sink and source 650 mA and 400 mA respectively and can be simultaneously driven high in order to drive asymmetrical half-bridge configurations.

The L6386AD device provides two input pins, two output pins and an enable pin (SD), and guarantees the outputs switch in phase with inputs. The logic inputs are CMOS/TTL compatible to ease the interfacing with controlling devices.

The L6386AD integrates a comparator (inverting input internally referenced to 0.5 V) that can be used to protect the device against fault events, like overcurrent. The DIAG output is a diagnostic pin, driven by the comparator, and used to signal a fault event occurrence to the controlling device.