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ACPL-P341 查看數據表(PDF) - Avago Technologies

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ACPL-P341 3.0 Amp Output Current IGBT Gate Drive Optocoupler with Rail-to-Rail Output Voltage in Stretched SO6 Avagotech
Avago Technologies Avagotech
ACPL-P341 Datasheet PDF : 19 Pages
First Prev 11 12 13 14 15 16 17 18 19
LED Current Input with Hysteresis
The detector has optical receiver input stage with built in
Schmitt trigger to provide logic compatible waveforms,
eliminating the need for additional wave shaping. The
hysteresis (Figure 6) provides differential mode noise
immunity and minimizes the potential for output signal
chatter.
Under Voltage Lockout
The ACPL-P341/W341 Under Voltage Lockout (UVLO)
feature is designed to prevent the application of insuffi-
cient gate voltage to the IGBT by forcing the ACPL-P341/
W341 output low during power-up. IGBTs typically require
gate voltages of 15 V to achieve their rated VCE(ON) voltage.
At gate voltages below 13 V typically, the VCE(ON) voltage
increases dramatically, especially at higher currents. At
very low gate voltages (below 10 V), the IGBT may operate
in the linear region and quickly overheat. The UVLO
function causes the output to be clamped whenever in-
sufficient operating supply (VCC) is applied. Once VCC
exceeds VUVLO+ (the positive-going UVLO threshold), the
UVLO clamp is released to allow the device output to turn
on in response to input signals.
Thermal Model for ACPL-P341/W341 Stretched SO6
Package Optocoupler
Definitions:
R11: Junction to Ambient Thermal Resistance of LED due
to heating of LED
R12: Junction to Ambient Thermal Resistance of LED due
to heating of Detector (Output IC)
R21: Junction to Ambient Thermal Resistance of Detector
(Output IC) due to heating of LED.
R22: Junction to Ambient Thermal Resistance of Detector
(Output IC) due to heating of Detector (Output IC).
P1: Power dissipation of LED (W).
P2: Power dissipation of Detector / Output IC (W).
T1: Junction temperature of LED (°C).
T2: Junction temperature of Detector (°C).
Ta: Ambient temperature.
Ambient Temperature: Junction to Ambient Thermal Re-
sistances were measured approximately 1.25 cm above
optocoupler at ~23° C in still air
Thermal Resistance °C/W
R11
135
R12
27
R21
39
R22
47
This thermal model assumes that an 6-pin single-channel
plastic package optocoupler is soldered into a 7.62 cm x
7.62 cm printed circuit board (PCB) per JEDEC standards.
The temperature at the LED and Detector junctions of
the optocoupler can be calculated using the equations
below.
T1 = (R11 * P1 + R12 * P2) + Ta
(1)
T2 = (R21 * P1 + R22 * P2) + Ta
(2)
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
maximum rating.
For example, given P1 = 25 mW, P2 = 173 mW, Ta = 85° C:
LED junction temperature,
T1 = (R11 * P1 + R12 * P2) + Ta
= (135 * 0.025 + 27 * 0.173) + 85
= 93° C
Output IC junction temperature,
T2 = (R21 * P1 + R22 * P2) + Ta
= (39 *0.025 + 47 * 0.173) + 85
= 94° C
T1 and T2 should be limited to 125° C based on the board
layout and part placement.
Related Application Noted
ThAN5336 – Gate Drive Optocoupler Basic Design for IGBT/
MOSFET
AN1043 – Common-Mode Noise: Sources and Solutions
AV02-0310EN – Plastics Optocouplers Product ESD and
Moisture Sensitivity
For product information and a complete list of distributors, please go to our web site: www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2011 Avago Technologies. All rights reserved.
AV02-2929EN - November 8, 2011
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