L6387 Datasheet L6387D, L6387DTR, L6387 | P1-P3

HIGH VOLTAGE RAIL UP TO 600 V

dV/dt IMMUNITY +- 50 V/nsec IN FULL TEM-

PERATURE RANGE

DRIVER CURRENT CAPABILITY:

400 mA SOURCE,

650 mA SINK

SWITCHING TIMES 50/30 nsec RISE/FALL

WITH 1nF LOAD

CMOS/TTL SCHMITT TRIGGER INPUTS

WITH HYSTERESIS AND PULL DOWN

INTERNAL BOOTSTRAP DIODE

OUTPUTS IN PHASE WITH INPUTS

DESCRIPTION

The L6387 is an high-voltage device, manufac-

tured with the BCD"OFF-LINE" technology. It has

a Driver structure that enables to drive inde-

pendent referenced N Channel Power MOS or

IGBT. The Upper (Floating) Section is enabled to

work with voltage Rail up to 600V. The Logic In-

puts are CMOS/TTL compatible for ease of inter-

facing with controlling devices.

May 2001

LOGIC

DETECTION

LEVEL

SHIFTER

BOOTSTRAP DRIVER

LVG

DRIVER

HIN

LIN

HVG

DRIVER

HVG

H.V.

TO LOAD

OUT

LVG

GND

D00IN1135

Vboot

Cboot

BLOCK DIAGRAM

SO8 Minidip

ORDERING NUMBERS:

L6387D L6387

L6387

HIGH-VOLTAGE HIGH AND LOW SIDE DRIVER

1/9

Obsolete Product(s) - Obsolete Product(s) Obsolete Product(s) - Obsolete Product(s)

THERMAL DATA

Symbol Parameter SO8 Minidip Unit

th j-amb

Thermal Resistance Junction to Ambient 150 100 °C/W

PIN DESCRIPTION

N. Name Type Function

1 LIN I Lower Driver Logic Input

2 HIN I Upper Driver Logic Input

3 Vcc I Low Voltage Power Supply

4 GND Ground

5 LVG (*) O Low Side Driver Output

6 VOUT O Upper Driver Floating Reference

7 HVG (*) O High Side Driver Output

8 Vboot Bootstrap Supply Voltage

(*) The circuit guarantees 0.3V maximum on the pin (@ I

sink

= 10mA). This allows to omit the "bleeder" resistor connected between the gate

and the source of the external MOSFET normally used to hold the pin low.

Vcc

HIN

LIN

GND

4LVG

OUT

HVG

Vboot8

D97IN517

PIN CONNECTION

ABSOLUTE MAXIMUM RATINGS

Symbol Parameter Value Unit

Vout Output Voltage -3 to Vboot - 18 V

Vcc Supply Voltage - 0.3 to +18 V

Vboot Floating Supply Voltage - 1 to 618 V

Vhvg Upper Gate Output Voltage - 1 to Vboot V

Vlvg Lower Gate Output Voltage -0.3 to Vcc +0.3 V

Vi Logic Input Voltage -0.3 to Vcc +0.3 V

dVout/dt Allowed Output Slew Rate 50 V/ns

Ptot Total Power Dissipation (Tj = 85 °C) 750 mW

Tj Junction Temperature 150 °C

Ts Storage Temperature -50 to 150 °C

Note:

ESD immunity for pins 6, 7 and 8 is guaranteed up to 900V (Human Body Model)

L6387

2/9

Obsolete Product(s) - Obsolete Product(s) Obsolete Product(s) - Obsolete Product(s)

RECOMMENDED OPERATING CONDITIONS

Symbol Pin Parameter Test Condition Min. Typ. Max. Unit

Vout 6 Output Voltage Note 1 580 V

Vboot-

Vout

8 Floating Supply Voltage Note 1 17 V

fsw Switching Frequency HVG,LVG load CL = 1nF 400 kHz

Vcc 2 Supply Voltage 17 V

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 vs 7 High/Low Side Driver Turn-On

Propagation Delay

Vout = 0V 110 ns

toff 2 vs 5 High/Low Side Driver Turn-Off

Propagation Delay

Vout = 600V 105 ns

tr 7,5 Rise Time CL = 1000pF 50 ns

tf 7,5 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 3 Supply Voltage 17 V

Vccth1 Vcc UV Turn On Threshold 5.5 6 6.5 V

Vccth2 Vcc UV Turn Off Threshold 5 5.5 6 V

Vcchys Vcc UV Hysteresis 0.5 V

Iqccu Undervoltage Quiescent Supply

Current

Vcc ≤ 9V 150 220 µA

Iqcc Quiescent Current Vcc = 15V 250 320 µA

dson

Bootstrap Driver on Resistance (*) Vcc ≥ 12.5V 125 Ω

Bootstrapped supply Voltage Section

VBS 8 Bootstrap Supply Voltage 17 V

IQBS VBS Quiescent Current HVG ON 200 µA

ILK High Voltage Leakage Current VS = VB = 600V 10 µA

High/Low Side Driver

Iso 5,7 Source Short Circuit Current VIN = Vih (tp < 10µs) 300 400 mA

Isi Sink Short Circuit Current VIN = Vil (tp < 10µs) 450 650 mA

Logic Inputs

Vil 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

(*) R

DSON

is tested in the following way: R

DSON

(

−

CBOOT1

)

−

(

−

CBOOT2

)

(

CC,

CBOOT1

)

−

(

CBOOT2

)

where I

is pin 8 current when V

CBOOT

= V

CBOOT1

, I

when V

CBOOT

= V

CBOOT2

L6387

3/9

P1-P3 P4-P6 P7-P9

L6387

Mfr. #:

Buy L6387

Manufacturer:

STMicroelectronics

Description:

Gate Drivers Hi-Volt Hi-Low Side

Lifecycle:

New from this manufacturer.

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L6387

L6387

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