HCPL3150300E AVAGO TECH, HCPL3150300E Datasheet - Page 19

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HCPL3150300E

Manufacturer Part Number

HCPL3150300E

Description

Manufacturer

AVAGO TECH

Datasheet

1.HCPL3150300E.pdf (21 pages)

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high state (assuming LED is

“ON”) with a typical delay, UVLO

TURN On Delay, of 0.8 s.

IPM Dead Time and

Propagation Delay

Specifications

The HCPL-3150/315J includes a

Propagation Delay Difference

(PDD) specification intended to

help designers minimize “dead

time” in their power inverter

designs. Dead time is the time

period during which both the

high and low side power

transistors (Q1 and Q2 in Figure

25) are off. Any overlap in Q1

and Q2 conduction will result in

large currents flowing through

the power devices from the high-

to the low-voltage motor rails.

Figure 29. Optocoupler Input to Output

Capacitance Model for Unshielded Optocouplers.

1

2

3

4

C

C

LEDP

LEDN

Figure 31. Equivalent Circuit for Figure 25 During Common Mode Transient.

+5 V

V

+

–

SAT

To minimize dead time in a given

design, the turn on of LED2

should be delayed (relative to the

turn off of LED1) so that under

worst-case conditions, transistor

Q1 has just turned off when

transistor Q2 turns on, as shown

in Figure 34. The amount of delay

necessary to achieve this condi-

tions is equal to the maximum

value of the propagation delay

difference specification, PDD

which is specified to be 350 ns

over the operating temperature

range of -40 C to 100 C.

Delaying the LED signal by the

maximum propagation delay

difference ensures that the

minimum dead time is zero, but it

does not tell a designer what the

8

7

6

5

* THE ARROWS INDICATE THE DIRECTION

OF CURRENT FLOW DURING –dV

1

2

3

4

C

C

I

LEDP

LEDP

LEDN

SHIELD

V

+

CM

–

Figure 30. Optocoupler Input to Output

Capacitance Model for Shielded Optocouplers.

CM

/dt.

8

7

6

5

MAX

,

1

2

3

4

0.1

µF

C

C

19

maximum dead time will be. The

maximum dead time is equivalent

to the difference between the

maximum and minimum propaga-

tion delay difference specifica-

tions as shown in Figure 35. The

maximum dead time for the

HCPL-3150/315J is 700 ns

(= 350 ns - (-350 ns)) over an

operating temperature range of

-40 C to 100 C.

Note that the propagation delays

used to calculate PDD and dead

time are taken at equal tempera-

tures and test conditions since

the optocouplers under consider-

ation are typically mounted in

close proximity to each other and

are switching identical IGBTs.

LEDP

LEDN

+

–

C

SHIELD

LEDO1

Rg

V

CC

= 18 V

• • •

• • •

C

LEDO2

8

7

6

5

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