ACPL-M43T
更新时间:2024-09-18 08:12:02
品牌:AVAGO
描述:Automotive Wide Operating Temperature 1MBd Digital Optocoupler in a 5-Pin Surface Mount Plastic Package
ACPL-M43T 概述
Automotive Wide Operating Temperature 1MBd Digital Optocoupler in a 5-Pin Surface Mount Plastic Package 汽车宽工作温度1MBd数字光电耦合器在5引脚表面贴装塑料封装 光耦合器
ACPL-M43T 规格参数
是否无铅: | 含铅 | 是否Rohs认证: | 不符合 |
生命周期: | Active | 包装说明: | MO-155, SURFACE MOUNT, SOP-5 |
Reach Compliance Code: | compliant | ECCN代码: | EAR99 |
HTS代码: | 8541.40.80.00 | Factory Lead Time: | 26 weeks |
风险等级: | 5.75 | Is Samacsys: | N |
其他特性: | HIGH RELIABILITY, UL RECOGNIZED | 配置: | SINGLE |
标称数据速率: | 1 MBps | 最大正向电流: | 0.02 A |
最大绝缘电压: | 3750 V | JESD-609代码: | e0 |
安装特点: | SURFACE MOUNT | 元件数量: | 1 |
最大通态电流: | 0.008 A | 最高工作温度: | 125 °C |
最低工作温度: | -40 °C | 光电设备类型: | LOGIC IC OUTPUT OPTOCOUPLER |
最大功率耗散: | 0.1 W | 标称响应时间: | 0.000001 ns |
子类别: | Optocoupler - IC Outputs | 最小供电电压: | 4.5 V |
标称供电电压: | 15 V | 表面贴装: | YES |
端子面层: | Tin/Lead (Sn/Pb) | Base Number Matches: | 1 |
ACPL-M43T 数据手册
通过下载ACPL-M43T数据手册来全面了解它。这个PDF文档包含了所有必要的细节,如产品概述、功能特性、引脚定义、引脚排列图等信息。
PDF下载ACPL-M43T
Automotive Wide Operating Temperature 1MBd Digital Optocoupler
in a 5-Pin Surface Mount Plastic Package
Data Sheet
Lead (Pb) Free
RoHS 6 fully
compliant
RoHS 6 fully compliant options available;
-xxxE denotes a lead-free product
Description
Features
The ACPL-M43T is a single channel, high temperature,
high CMR, high speed digital optocoupler in a five lead
miniature footprint specifically used in the automotive
applications. The SO-5 JEDEC registered (MO-155) pack-
age outline does not require“through holes”in a PCB. This
package occupies approximately one-fourth the footprint
area of the standard dual-in-line package. The lead profile
is designed to be compatible with standard surface mount
processes.
• High Temperature and Reliability IPM Driver for
Automotive Application.
• 30 kV/µs High Common-Mode Rejection
at V = 1500 V (typ)
CM
• Compact, Auto-Insertable SO5 Packages
• Wide Temperature Range: -40°C ~ 125°C
• High Speed: 1MBd (Typ)
This digital optocoupler uses an insulating layer between
the light emitting diode and an integrated photon detector
to provide electrical insulation between input and output.
Separate connections for the photodiode bias and output
transistor collector increase the speed up to a hundred
times over that of a conventional photo-transistor coupler
by reducing the base-collector capacitance.
• Low LED Drive Current: 10mA (typ)
• Low Propagation Delay: 300ns (typ)
• Worldwide Safety Approval:
− UL1577 recognized, 3750Vrms/1min
− CSA Approved
−
IEC/EN/DIN EN 60747-5-2 Approved
The ACPL-M43T has an increased common mode transient
immunity of 30kV/µs minimum at V = 1500V over ex-
CM
Applications
tended temperature range.
• Automotive IPM Driver for DC-DC converters
and motor inverters
Functional Diagram
• CANBus Communications Interface
• High Temperature Digital/Analog Signal Isolation
• Power Transistor Isolation
ICC
6
VCC
IF
+
ANODE
1
VF
IO
5
-
VO
CATHODE
3
4
SHIELD
GND
Note: The connection of a 0.1 µF bypass capacitor
between pins 4 and 6 is recommended.
Truth Table
LED
ON
Vo
LOW
HIGH
OFF
CAUTION: It is advised that normal static precautions be taken in handling and assembly
of this component to prevent damage and/or degradation which may be induced by ESD.
Ordering Information
Option
Non RoHS
UL 5000 Vrms
/ 1 Minute
rating
Part
number
RoHS
Compliant Compliant Package
Surface
Mount
Gull
Wing
Tape
& Reel
IEC/EN/DIN
EN 60747-5-2 Quantity
ACPL-M43T
-000E
-500E
No option
-500
SO-5
X
X
100 per tube
1500 per reel
X
To order, choose a part number from the part number column and combine with the desired option from the option
column to form an order entry.
Example 1:
ACPL-M43T-500E to order product of Mini-flat Surface Mount 5-pin package in Tape and Reel packaging with RoHS
compliant.
Example 2:
ACPL-M43T to order product of Mini-flat Surface Mount 5-pin package in tube packaging and non RoHS compliant.
Option datasheets are available. Contact your Avago sales representative or authorized distributor for information.
Remarks: The notation‘#XXX’is used for existing products, while (new) products launched since 15th July 2001 and RoHS
compliant option will use ‘-XXXE‘.
Package Outline Drawings
ACPL-M43T Small Outline SO-5 Package (JEDEC MO-155)
Extended Datecode
for lot tracking
ANODE
1
3
6
5
V
V
CC
M43T
YWW
EE
7.0 0.2
(0.276 0.00ꢀ)
4.4 0.1
(0.173 0.004)
OUT
CATHODE
4
GND
0.4 0.05
(0.016 0.002)
3.6 0.1ꢁ
(0.142 0.004)
0.102 0.102
(0.004 0.004)
0.20 0.025
(0.00ꢀ 0.001)
2.5 0.1
(0.09ꢀ 0.004)
7o MAX.
1.27
(0.050)
0.71
MIN.
BSC
(0.02ꢀ)
MAX. LEAD COPLANARITY
= 0.102 (0.004)
DIMENSIONS IN MILLIMETERS (INCHES)
ꢁ MAXIMUM MOLD FLASH ON EACH SIDE IS 0.15 mm (0.006)
NOTE: FLOATING LEAD PROTRUSION IS 0.15 mm (6 mils) MAX.
ꢀ
Land Pattern Recommendation
4.4
(0.17)
1.3
(0.05)
2.5
(0.10)
2.0
(0.0ꢀ0)
0.64
(0.025)
ꢀ.27
(0.325)
DIMENSIONS IN MILLIMETERS AND (INCHES)
Solder Reflow Temperature Profile
300
PREHEATING RATE 3 °C + 1 °C/- 0.5°C/SEC.
REFLOW HEATING RATE 2.5°C 0.5 °C/SEC.
PEAK
TEMP.
245°C
PEAK
TEMP.
240°C
PEAK
TEMP.
230°C
200
100
2.5°C 0.5 °C/SEC.
SOLDERING
TIME
30
160°C
200°C
SEC.
150°C
140°C
30
SEC.
3°C + 1 °C/- 0.5°C
PREHEATING TIME
150°C, 90 + 30 SEC.
50 SEC.
TIGHT
TYPICAL
LOOSE
ROOM
TEMPERATURE
0
0
50
100
150
200
250
TIME (SECONDS)
Note: Non-halide flux should be used.
Recommended Pb-Free IR Profile
TIME WITHIN 5°C of ACTUAL
PEAK TEMPERATURE
t
p
20-40 SEC.
260 +0/-5°C
T
T
p
L
217°C
RAMP-UP
3 °C/SEC.MAX.
RAMP-DOWN
6 °C/SEC. MAX.
150 - 200°C
T
smax
T
smin
t
s
t
L
60 to 150 SEC.
PREHEAT
60 to 180 SEC.
25
t 25°C to PEAK
TIME
NO TES:
THE TIME FROM 25°C to PEAK TEMPERATURE = 8 MINUTES MAX.
= 200°C, T = 150°C
T
smax
smin
Note: Non-halide flux should be used.
ꢁ
Regulatory Information
The ACPL-M43T is approved by the following organizations:
UL
IEC/EN/DIN EN 60747-5-2
Approved under UL 1577, component recognition pro-
Approved under:
gram up to V = 3750 V
expected prior to product
IEC 60747-5-2:1997 + A1
EN 60747-5-2:2001 + A1
DIN EN 60747-5-2 (VDE 0ꢀꢀ4 Teil 2)
ISO
RMS
release..
CSA
Approved under CSA Component Acceptance Notice #5.
IEC/EN/DIN EN 60747-5-2 Insulation Characteristics*
Description
Symbol
Characteristic
Unit
Installation classification per DIN VDE 0110/1.ꢀ9, Table 1
for rated mains voltage ≤ 150 Vrms
for rated mains voltage ≤ 300 Vrms
I – IV
I – III
I – II
for rated mains voltage ≤ 600 Vrms
Climatic Classification
55/125/21
Pollution Degree (DIN VDE 0110/1.ꢀ9)
Maximum Working Insulation Voltage
2
VIORM
VPR
567
1063
Vpeak
Vpeak
Input to Output Test Voltage, Method bꢁ
VIORM x 1.ꢀ75=VPR, 100% Production Test with tm=1 sec, Partial discharge < 5 pC
Input to Output Test Voltage, Method aꢁ
VIORM x 1.5=VPR, Type and Sample Test, tm=60 sec, Partial discharge < 5 pC
VPR
ꢀ51
Vpeak
Vpeak
Highest Allowable Overvoltage (Transient Overvoltage tini = 10 sec)
VIOTM
6000
Safety-limiting values – maximum values allowed in the event of a failure.
Case Temperature
Input Current
TS
175
230
600
°C
mA
mW
IS, INPUT
PS, OUTPUT
Output Power
>109
W
Insulation Resistance at TS, VIO = 500 V
RS
ꢁ
Refer to the optocoupler section of the Isolation and Control Components Designer’s Catalog, under Product Safety Regulations section, (IEC/EN/DIN
EN 60747-5-2) for a detailed description of Method a and Method b partial discharge test profiles.
Insulation and Safety Related Specifications
Parameter
Symbol
ACPL-M43T
Units
Conditions
Minimum External
Air Gap (Clearance)
L(101)
≥ 5
mm
Measured from input terminals to output
terminals, shortest distance through air.
Minimum External
Tracking (Creepage)
L(102)
CTI
≥ 5
mm
mm
Measured from input terminals to output
terminals, shortest distance path along body.
Minimum Internal
Plastic Gap
(Internal Clearance)
0.0ꢀ
Through insulation distance conductor to
conductor, usually the straight line distance
thickness between the emitter and detector.
Tracking Resistance
(Comparative
Tracking Index)
175
IIIa
V
DIN IEC 112/VDE 0303 Part 1
Isolation Group
(DIN VDE0109)
Material Group (DIN VDE 0109)
ꢂ
Absolute Maximum Ratings
Parameter
Symbol
TS
Min.
-55
-40
Max.
150
125
260
Units
°C
Note
Storage Temperature
Operating Temperature
Lead Soldering Cycle
TA
°C
Temperature
Time
°C
10
20
40
s
Average Forward Input Current
IF(avg)
mA
mA
1
Peak Forward Input Current
IF(peak)
2,
(50% duty cycle, 1ms pulse width)
Peak Transient Input Current
(<= 1us pulse width, 300ps)
IF(trans)
100
mA
Reversed Input Voltage
Input Power Dissipation
Output Power Dissipation
Average Output Current
Peak Output Current
VR
5
V
Pin 3 - 1
PIN
PO
30
100
ꢀ
mW
mW
mA
mA
V
3
4
IO
Io(pk)
VCC
VO
16
30
20
Supply Voltage (Pins 6-4)
Output Voltage (Pins 5-4)
Solder Reflow Temperature Profile
-0.5
-0.5
V
See Reflow Temperature Profile
Recommended Operating Conditions
Parameter
Symbol
Min.
Max.
15.0
125
Units
V
Note
Supply Voltage
Operating Temperature
VCC
TA
4.5
-40
°C
ꢃ
Electrical Specifications (DC)
Over recommended operating T = -40°C to 125°C, unless otherwise specified.
A
Parameter
Sym.
Min.
32
Typ.
45
Max.
Units
%
Conditions
Vo=0.4V
Fig.
Note
Current Transfer
Ratio
CTR
ꢀ0
TA=25°C
TA=25°C
Vcc=4.5V 1,2,4
IF=10mA
5
20
45
%
Vo=0.5V
Logic Low
Output Voltage
VOL
0.1
0.4
0.5
V
Io=3mA
V
Io=2.4mA
Vo=Vcc=5.5V
Logic High
Output Current
IOH
0.003 0.5
µA
TA=25°C
TA=25°C
IF=0mA
7
0.01
1
µA
µA
µA
Vo=Vcc=15V
50
200
Logic Low
Supply Current
ICCL
50
IF=10mA,
Vo=open,
Vcc=15V
11
11
Logic High
Supply Current
ICCH
0.02
1
µA
TA=25°C
TA=25°C
IF=0mA,
Vo=open,
Vcc=15V
2.5
µA
V
Input Forward
Voltage
VF
1.45
1.35
5
1.5
1.5
1.ꢀ5
1.95
IF=10mA
IF=10mA
IR=10µA
3
V
Input Reversed
Breakdown Voltage
BVR
V
Temperature
Coefficient of
Forward Voltage
DV/
DTA
-1.5
90
mV/°C
IF=10mA
Input Capacitance
CIN
pF
F=1MHz, VF=0
Input-Output
Insulation
VISO
3750
VRMS
RH≤50%, t=1min,
6,7
6
TA =25°C
Resistance
(Input-Output)
RI-O
CI-O
1012
0.6
W
VI-O = 500VDC
Capacitance
pF
F=1MHz
6
(Input-Output)
ꢄ
Switching Specifications (AC)
Over recommended operating (T = -40°C to 125°C), I = 10mA, V = 5.0 V unless otherwise specified.
A
F
CC
Parameter
Symbol
Min
Typ Max Units
Test Conditions
Fig. Note
Propagation Delay
Time to Logic Low
at Output
TPHL
0.0ꢀ
0.06
0.2
0.3
0.4
0.4
30
0.ꢀ
1.0
µs
µs
TA=25°C
Pulse: f=10kHz, Duty cycle =50%, 5,6,
9
IF = 10mA, VCC = 5.0 V, RL = 1.9kW,
ꢀ
CL = 15pF VTHHL=1.5V
Propagation Delay
Time to Logic High
at Output
TPLH
0.15
0.03
0.ꢀ
1.0
µs
µs
TA=25°C
TA=25°C
TA=25°C
Pulse: f=10kHz, Duty cycle =50%, 5,6,
9
IF = 10mA, VCC = 5.0 V, RL = 1.9kW
ꢀ
CL = 15pF VTHLH=2.0V
Pulse Width
Distortion
PWD
0
0
0. 45 µs
0.ꢀ5 µs
Pulse: f=10kHz, Duty cycle =50%,
IF=10mA, VCC=5.0V, RL=1.9kW,
CL=15pF, VTHHL=1.5V, VTHLH=2.0V
12
13
ꢀ, 9
Propagation Delay
Difference Between
Any 2 Parts
tPLH-tPHL
|CMH|
|CML|
0
0
0.5
0.9
µs
µs
Pulse: f=10kHz, Duty cycle =50%,
IF=10mA, VCC=5.0V, RL=1.9kW,
CL=15pF, VTHHL=1.5V, VTHLH=2.0V
Common Mode
Transient Immunity
at Logic High Output
15
kV/μs
VCM=1500Vp-p, IF=0mA, TA=25°C,
9
RL=1.9kW
Common Mode
15
30
kV/μs
VCM=1500Vp-p, IF=10mA,
Transient Immunity
at Logic Low Output
TA=25°C, RL=1.9kW
Package Characteristics
ꢁThe Input-Output Momentary Withstand Voltage is a dielectric voltage rating that should not be interpreted as an in-
put-output continuous voltage rating.
Parameter
Symbol
Min.
Typ.
Max.
Units
Test Conditions
Fig.
Note
Input-Output Momentary
Withstand Voltageꢁ
VISO
3750
Vrms
RH ≤ 50%, t = 1 min;
TA = 25°C
6, 7
Input-Output Resistance
RI-O
CI-O
1012
0.6
W
VI-O = 500 Vdc
6
6
Input-Output Capacitance
Notes:
pF
f = 1 MHz; VI-O = 0 Vdc
1. Derate linearly above ꢀ5°C free-air temperature at a rate of 0.25 mA/°C.
2. Derate linearly above ꢀ5°C free-air temperature at a rate of 0.30 mA/°C.
3. Derate linearly above ꢀ5°C free-air temperature at a rate of 0.375 mW/°C.
4. Derate linearly above ꢀ5°C free-air temperature at a rate of 1.ꢀ75 mW/°C.
5. CURRENT TRANSFER RATIO in percent is defined as the ratio of output collector current, I , to the forward LED input current, I , times 100.
O
F
6. Device considered a two terminal device: pins 1 and 3 shorted together, and pins 4, 5 and 6 shorted together.
7. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 4500 V
for 1 second (leakage detection
RMS
current limit, I ≤ 5 µA).
I-O
ꢀ. Common transient immunity in a Logic High level is the maximum tolerable (positive) dV /dt on the rising edge of the common mode pulse, V
,
CM
CM
to assure that the output will remain in a Logic High state (i.e., V > 2.0 V). Common mode transient immunity in a Logic Low level is the maximum
O
tolerable (negative) dVCM/dt on the falling edge of the common mode pulse signal, V to assure that the output will remain in a Logic Low state
CM
(i.e., V < 0.ꢀ V).
O
9. The 1.9 kW load represents 1 TTL unit load of 1.6 mA and the 5.6 kW pull-up resistor.
10. The frequency at which the ac output voltage is 3 dB below its mid-frequency value.
11. Use of a 0.1 µF bypass capacitor connected between pins 4 and 6 is recommended.
12. Pulse Width Distortion (PWD) is defined as |t - t | for any given device.
PHL PLH
13. The difference between t
and t
between any two parts under the same test condition.
PLH
PHL
ꢅ
30
25
20
15
10
5
2.0
1.ꢀ
1.6
1.4
1.2
1.0
0.ꢀ
0.6
0.4
0.2
0
V
T
= 5.0V
CC
40mA
35mA
30mA
o
= 25 C
Normalized
A
I
= 10mA
= 0.4V
F
V
V
T
O
25mA
= 5V
= 25
CC
o
20mA
C
A
15mA
10mA
IF=5mA
0
0.1
1
10
100
0
10
20
I
- INPUT CURRENT - mA
F
VO - OUTPUT VOLTAGE - V
Figure 1. DC and Pulsed Transfer Characteristics.
Figure 2. Current Transfer Ratio vs Input Current
1.1
1.0
100.00
10.00
1.00
TA = 25oC
0.9
Normalized
0.ꢀ
0.7
0.6
IF = 10mA,
VO = 0.4V
VCC = 5.0V
TA = 25oC
0.10
0.01
-60
-20
20
60
100
140
1.2
1.3
1.4
1.5
1.6
TA - TEMPERATURE - o
C
VF - Forward Voltage - VOLTS
Figure 3. Input Current vs Forward Voltage
Figure 4. Current Transfer Ratio vs Temperature
ꢀ00
600
1
VCC = 5.0 V, TA = 25 o
C
IF =10mA, VCC =5.0V
RL=1.9k
CL = 15pF, RL = 1.9 kΩ
0.ꢀ
0.6
0.4
0.2
0
V THHL = 1.5V
TPLH
V THLH = 2.0V, 50% Duty Cycle
IF = 10mA
TpLH
TpHL
400
200
0
TPHL
0
2
4
6
ꢀ
10
-60
-20
20
60
100
140
TA - TEMPERATURE - o C
RL - Load Resistance - kohm
Figure 5. Propagation Delay vs Temperature
Figure 6. Propagation Delay Time vs Load Resistance
1000
100
10
IF = 0mA
VO = VCC = 5.0V
1
0.1
0.01
-60
-20
20
60
100
140
TA - TEMPERATURE - oC
Figure 7. Logic High Output Current vs Temperature.
IF
PULSE
GEN.
ZO = 50Ω
tr = 5 ns
IF
0
+5 V
1
3
6
5
4
R L
10% DUTY CYCLE
1/f 100 µs
5 V
VO
V
O
0.1µF
1.5 V
1.5 V
I F MONITOR
VOL
C L = 15 pF
100 Ω
t PHL
tPLH
Figure 8. Switching Test Circuit
IF
tr, tf = 16 ns
90% 90%
VCC
10 V
tr
B
A
VCM
0 V
1
3
6
5
4
10%
10%
R
L
tf
VO
VFF
0.1µF
VO
VO
5 V
SWITCH AT A: IF = 0 mA
SWITCH AT B: IF = 1.6 mA
VCM
VOL
+
-
PULSE GEN.
Figure 9. Test Circuit for Transient Immunity and Typical Waveforms.
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, Limited in the United States and other countries.
Data subject to change. Copyright © 2008 Avago Technologies Limited. All rights reserved. Obsoletes AV01-0458EN
AV02-0565EN - February 1, 2008
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