L6386ED Datasheet L6386ED, L6386ED013TR, L6386E | P4-P6

Electrical data L6386E

4/19 DocID13989 Rev 4

2 Electrical data

2.1 Absolute maximum ratings

2.2 Thermal data

2.3 Recommended operating conditions

Table 1. Absolute maximum ratings

Symbol Parameter Value Unit

OUT

Output voltage -3 to V

BOOT

- 18 V

Supply voltage - 0.3 to +18 V

BOOT

Floating supply voltage -1 to 618 V

hvg

High-side gate output voltage - 1 to V

BOOT

lvg

Low-side gate output voltage -0.3 to V

+0.3 V

Logic input voltage -0.3 to V

+0.3 V

DIAG

Open drain forced voltage -0.3 to V

+0.3 V

CIN

Comparator input voltage -0.3 to V

+0.3 V

out

/dt Allowed output slew rate 50 V/ns

tot

Total power dissipation (T

= 85 °C) 750 mW

Junction temperature 150 °C

stg

Storage temperature -50 to 150 °C

Table 2. Thermal data

Symbol Parameter SO-14 DIP-14 Unit

th(JA)

Thermal resistance junction to ambient 165 100 °C/W

Table 3. Recommended operating conditions

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

OUT

12 Output voltage

(1)

1. If the condition V

BOOT

- V

OUT

< 18 V is guaranteed, V

OUT

can range from -3 to 580 V.

580 V

(2)

2. V

= V

BOOT

- V

OUT

14 Floating supply voltage

(1)

17 V

Switching frequency HVG, LVG load C

= 1 nF 400 kHz

4 Supply voltage 17 V

Junction temperature -45 125 °C

DocID13989 Rev 4 5/19

L6386E Pin connection

3 Pin connection

Figure 2.Pin connection (top view)

Table 4. Pin description

No. Pin Type Function

1 LIN I Low-side driver logic input

2 SD

(1)

1. The circuit guarantees 0.3 V maximum on the pin (at I

sink

= 10 mA), with V

> 3 V. 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; the gate driver assures low impedance also in SD condition.

I Shutdown logic input

3 HIN I High-side driver logic input

4 V

P Low voltage supply

5 DIAG O Open drain diagnostic output

6 CIN I Comparator input

7 SGND P Ground

8 PGND P Power ground

9 LVG

(1)

O Low-side driver output

10, 11 N.C. Not connected

12 OUT P High-side driver floating driver

13 HVG

(1)

O High-side driver output

14 V

BOOT

P Bootstrapped supply voltage

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Electrical characteristics L6386E

6/19 DocID13989 Rev 4

4 Electrical characteristics

4.1 AC operation

= 15 V; T

= 25 °C.

‘s

4.2 DC operation

= 15 V; T

= 25 °C.

Table 5. AC operation electrical characteristics

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

1, 3 vs. 9, 13

High/low-side driver turn-on

propagation delay

OUT

= 0 V

110 150 ns

off

High/low-side driver turn-off

propagation delay

110 150 ns

2 vs. 9, 13

Shut down to high/low-side

propagation delay

105 150

9, 13

Rise time C

= 1000 pF 50 ns

Fall time C

= 1000 pF 30 ns

Table 6. DC operation electrical characteristics

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

Low supply voltage section

CCTh1

UV turn-on threshold 11.5 12 12.5 V

CCTh2

UV turn-off threshold 9.5 10 10.5 V

CChys

UV hysteresis 2 V

QCCU

Undervoltage quiescent supply

current

11 V 200 A

QCC

Quiescent current V

= 15 V 250 320 A

Bootstrapped supply section

Bootstrap supply voltage 17 V

BSth1

UV turn-on threshold 10.7 11.9 12.9 V

BSth2

UV turn-off threshold 8.8 9.9 10.7 V

BShys

UV hysteresis 2 V

QBS

quiescent current HVG ON 200 A

High voltage leakage current V

hvg

= V

OUT

= V

BOOT

= 600 V 10 A

dson

Bootstrap driver on-resistance

(1)

12.5 V; V

= 0 V 125 

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P19

L6386ED

Mfr. #:

Buy L6386ED

Manufacturer:

STMicroelectronics

Description:

Gate Drivers Hi-Vltg and Lo Side Driver

Lifecycle:

New from this manufacturer.

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L6386ED

L6386ED

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