ACPL-5160 Datasheet, PDF(6/36 Page) AVAGO TECHNOLOGIES LIMITED – 2.5 Amp Gate Drive Optocoupler with Integrated (VCE) Desaturation Detection and Fault Status Feedback

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ACPL-5160 Datasheet, PDF (6/36 Pages) AVAGO TECHNOLOGIES LIMITED – 2.5 Amp Gate Drive Optocoupler with Integrated (VCE) Desaturation Detection and Fault Status Feedback

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ACPL-5160 and ACPL-5161

Data Sheet

Hermetic Optocoupler Options

Option

200

300

Description

Lead finish is solder dipped rather than gold plated. This option is available on standard Commercial and Class H product.

Surface mountable hermetic optocoupler with leads cut and bent for gull wing assembly. This option is available on standard

Commercial and Class H product. This option has solder-dipped leads.

0.51 (0.020)

MIN.

2.29 (0.090)

2.79 (0.110)

4.57 (0.180)

MAX.

1.40 (0.055)

1.65 (0.065)

0.51 (0.020)

MAX.

0.51 (0.020)

MIN.

2.29 (0.090)

2.79 (0.110)

4.57 (0.180)

MAX.

1.40 (0.055)

1.65 (0.065)

0.51 (0.020)

MAX.

5Â° MAX.

0.20 (0.008)

0.33 (0.013)

9.65 (0.380)

9.91 (0.390)

4.57 (0.180)

MAX.

1.07 (0.042)

1.32 (0.052)

Absolute Maximum Ratings

Parameter

Symbol

Min

Max

Unit

Note

Storage Temperature

Operating Temperature

Output IC Junction Temperature

Peak Output Current

Fault Output Current

Positive Input Supply Voltage

Input Pin Voltages

Total Output Supply Voltage

Negative Output Supply Voltage

Positive Output Supply Voltage

Gate Drive Output Voltage

Collector Voltage

DESAT Voltage

Output IC Power Dissipation

Input IC Power Dissipation

â65

150

Â°C

â55

125

Â°C

150

Â°C

|Io(peak)|

2.5

IFAULT

8.0

VCC1

â0.5

5.5

VIN+, VINâ, and VRESET

â0.5

VCC1

(VCC2 â VEE)

â0.5

(VE â VEE)

â0.5

(VCC2 â VE)

â0.5

35 â (VE â VEE)

Vo(peak)

â0.5

VCC2

VEE + 5 V

VCC2

VDESAT

VE + 10

600

150

a. To achieve the absolute maximum power dissipation specified, pins 4, 9, and 10 require ground plane connections and may require airflow. For details on

how to estimate junction temperature and power dissipation, see the Thermal Model section in the application notes at the end of this data sheet. The actual

power dissipation achievable depends on the application environment (PCB layout, air flow, part placement, and so on). No power derating is required when

operating below 125 Â°C using a high conductivity board. If a low conductivity board is used, then output IC power dissipation is derated linearly at 20 mW/Â°C

above 120 Â°C. Input IC power dissipation is derated linearly at 5 mW/Â°C above 120Â°C.

b. Maximum pulse width = 10 Î¼s, maximum duty cycle = 0.2%. This value is intended to allow for component tolerances for designs with IO peak minimum =

2.0A. For additional details on IOH peak, see the applications section. Derate linearly from 3.0A at +25Â°C to 2.5A at +125Â°C. This compensates for increased

IOPEAK due to changes in VOL over temperature.

c. This supply is optional. Required only when negative gate drive is implemented.

Broadcom

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