ACPL-H312-000E Avago Technologies US Inc., ACPL-H312-000E Datasheet - Page 17

ACPL-H312-000E

Manufacturer Part Number

ACPL-H312-000E

Description

Amplifier-Output Optocoupler,1-CHANNEL,3.75kV ISOLATION,SO

Manufacturer

Avago Technologies US Inc.

Datasheet

1.ACPL-H312-500E.pdf (17 pages)

Specifications of ACPL-H312-000E

Voltage - Isolation

3750Vrms

Number Of Channels

1, Unidirectional

Current - Output / Channel

2.5A

Propagation Delay High - Low @ If

260ns @ 7mA ~ 16mA

Current - Dc Forward (if)

25mA

Input Type

Output Type

Push-Pull, Totem-Pole

Mounting Type

Surface Mount

Package / Case

SO-8 Wide

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

H&T Electronics

Part Number:

ACPL-H312-000E

Quantity:

8 000

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Quick Gate Drive Design Example using ACPL-H312/K312

The total power dissipation (PT) is equal to the sum of the

LED input-side power (PI) and detector output-side power

(PO) dissipation:

PT = PI + PO

PI = I

where,

PO = PO(BIAS) + PO(SWTICH) = I

where,

PO(BIAS) = steady-state power dissipation in the driver

due to biasing the device.

PO(SWITCH) = power dissipation in the driver due to charg-

ing and discharging of power device gate capacitances.

(Table 5)

ΔV

ple)

in the manufacturer specification = 240nC (approxima-

tion of 100A IGBT which can be obtained from IGBT data-

sheet)

Similarly using the maximum supply current I

mA.

PI = 16 mA * 1.8 V = 28.8mW

PO = PO(BIAS) + PO(SWITCH)

= 3.0 mA * (18 V – (–5 V)) + (18V + 5V) * 240nC * 10 kHz

= 69mW + 55.2mW

= 124.2 mW

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Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.

AV02-0821EN - June 3, 2010

F(ON),max

CC2

SWITCH

F,max

* f

= Total gate charge of the IGBT or MOSFET as described

= Supply Current to power internal circuity = 3.0mA

F(ON) ,max

= V

SWITCH

= 1.8V (Table 5)

= switching frequency of application = 10kHz

CC2

= 16mA (Table 4)

+ |V

* V

F,max

| = 18 – (-5V) = 23V (Application exam-

CC2

* (V

CC2

–V

) + ΔV

CC2

= 3.0

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Using the given thermal resistances and thermal model

formula in this datasheet, we can calculate the junction

temperature for both LED and the output detector. Both

junction temperature should be within the absolute maxi-

mum rating. For this application example, we set the am-

bient temperature as 78 ºC and use the high conductivity

thermal resistances.

LED junction temperature,

T1 = (R

Output IC junction temperature,

T2 = (R

In this example, both temperature are within the maxi-

mum 125qC. If the juntion temperature is higher than the

maximum junction temperature rating, the desired speci-

fication must be derated according.

= 22.7 + 78 = 100.7 ºC

= (311 * 28.8 + 111 * 124.2) + 78

= (111 * 28.8 + 168 * 124.2) + 78

= 24 + 78 = 102 ºC

* P

x P

+ R

* P

x P

) + T

ACPL-H312-000E Avago Technologies US Inc., ACPL-H312-000E Datasheet - Page 17

ACPL-H312-000E

Specifications of ACPL-H312-000E

Available stocks

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