HCPL-253L [AVAGO]
Low power consumption;
| 型号: | HCPL-253L |
| 厂家: | 
AVAGO TECHNOLOGIES LIMITED |
| 描述: | Low power consumption |
| 文件: | 总12页 (文件大小:281K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HCPL-250L/050L/253L/053L
LVTTL/LVCMOS Compatible 3.3 V Optocouplers (1 Mb/s)
Data Sheet
Lead (Pb) Free
RoHS 6 fully
compliant
RoHS 6 fully compliant options available;
-xxxE denotes a lead-free product
Features
Description
• 3.3V/5V Dual Supply Voltages
• Low power consumption
• High speed: 1 Mb/s
These diode-transistor optocouplers use an insulating
layer between a LED and an integrated photodetector
to provide electrical insulation between input and out-
put. Separate connections for the photodiode bias and
output-transistor collector increase the speed up to a
hundred times that of a conventional photo-transistor
coupler by reducing the base-collector capacitance.
• LVTTL/LVCMOS compatible
• Available in 8-pin DIP, SO-8
• Open collector output
These optocouplers are available in an 8-pin DIP and in
an industry standard SO-8 package. The following is a
cross reference table listing the 8-pin DIP part number
and the electrically equivalent SO-8 part number.
• Guaranteed performance from temperature:
0˚C to +70˚C
• Safety approval, UL, CSA, IEC/EN/DIN EN 60747-5-2
Applications
The SO-8 does not require "through holes" in a PCB. This
package occupies approximately one-third the foot-
print area of the standard dual-in-line package. The lead
profile is designed to be compatible with standard sur-
face mount processes.
• High voltage insulation
• Video signal isolation
• Power translator isolation in motor drives
• Line receivers
These optocouplers can be used in LVTTL/LVCMOS or
wide bandwidth analog applications.
• Feedback element in switched mode power supplies
• High speed logic ground isolation – LVTTL/LVCMOS
• Replaces pulse transformers
The common mode transient immunity of 1000 V/µs
minimum to typical at VCM = 10 V guaranteed for these
optocouplers.
• Replaces slow phototransistor isolators
8-Pin DIP
SO-8 Package
HCPL-050L
HCPL-053L
Functional Diagram
HCPL–250L/HCPL–050L
HCPL-250L
HCPL-253L
HCPL–253L/HCPL–053L
8
7
6
5
8
7
6
5
ANODE
CATHODE
CATHODE
ANODE
1
2
3
4
V
V
V
NC
ANODE
CATHODE
NC
1
2
3
4
V
V
V
1
1
2
2
CC
O1
O2
CC
B
O
GND
GND
TRUTH TABLE
(POSITIVE LOGIC)
LED
V
O
ON
OFF
LOW
HIGH
A 0.1 µF bypass capacitor must be connected between pins 5 and 8.
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
HCPL-250L, HCPL-253L, HCPL-050L and HCPL-053L are UL Recognized with 3750 Vrms for 1 minute per UL1577 and
are approved under CSA Component Acceptance Notice #5, File CA 88324.
Option
Part
RoHS
non RoHS
Surface
Mount
Gull
Wing
Tape
UL 5000 Vrms/
IEC/EN/DIN
Number Compliant Compliant Package
& Reel 1 Minute rating EN 60747-5-2 Quantity
-000E
-300E
no option 300 mil DIP-8
50 per tube
-300
X
X
X
X
50 per tube
1000 per reel
50 per tube
50 per tube
1000 per reel
50 per tube
50 per tube
1000 per reel
100 per tube
1500 per reel
-500E
-500
X
X
HCPL-250L -020E
HCPL-253L -320E
-520E
-020
X
X
X
-320
X
X
X
X
-520
-060E
-060
X
X
X
-360E
-360
X
X
X
X
-560E
-560
X
X
HCPL-050L -000E
HCPL-053L -500E
no option SO-8
-500
X
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:
HCPL-253L-560E to order product of 300 mil DIP Gull Wing Surface Mount package in Tape and Reel packaging with
IEC/EN/DIN EN 60747-5-2 Safety Approval and RoHS compliant.
Example 2:
HCPL-253L to order product of 300 mil DIP 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 July 15, 2001 and
RoHS compliant will use ‘–XXXE.’
2
Schematic
HCPL-250L/HCPL-050L
HCPL-253L/HCPL-053L
I
CC
1
+
I
8
I
F1
CC
V
V
CC
CC
8
7
I
V
F
2
F1
I
ANODE
O1
+
V
O1
–
2
V
F
I
O
6
5
–
V
O
CATHODE
3
3
–
I
F2
SHIELD
GND
I
O2
V
O2
I
B
6
5
V
F2
7
V
B
*
+
4
GND
SHIELD
3
Package Outline Drawings
8-Pin DIP Package
7.62 0.25
(0.300 0.010)
9.65 0.25
(0.380 0.010)
8
1
7
6
5
6.35 0.25
(0.250 0.010)
TYPE NUMBER
OPTION CODE*
DATE CODE
A XXXXZ
YYWW
U R
UL
2
3
4
RECOGNITION
1.78 (0.070) MAX.
1.19 (0.047) MAX.
+ 0.076
- 0.051
0.254
5° TYP.
+ 0.003)
- 0.002)
3.56 0.13
(0.140 0.005)
(0.010
4.70 (0.185) MAX.
0.51 (0.020) MIN.
2.92 (0.115) MIN.
DIMENSIONS IN MILLIMETERS AND (INCHES).
1.080 0.320
(0.043 0.013)
0.65 (0.025) MAX.
* MARKING CODE LETTER FOR OPTION NUMBERS
"V" = OPTION 060
OPTION NUMBERS 300 AND 500 NOT MARKED.
2.54 0.25
(0.100 0.010)
NOTE: FLOATING LEAD PROTRUSION IS 0.25 mm (10 mils) MAX.
Small Outline SO-8 Package
LAND PATTERN RECOMMENDATION
8
7
6
5
4
5.994 0.203
(0.236 0.008)
XXXV
YWW
3.937 0.127
(0.155 0.005)
TYPE NUMBER
(LAST 3 DIGITS)
7.49 (0.295)
DATE CODE
1
2
3
PIN ONE
1.9 (0.075)
0.406 0.076
(0.016 0.003)
1.270
(0.050)
BSC
0.64 (0.025)
0.432
45° X
*
7°
5.080 0.127
(0.200 0.005)
(0.017)
3.175 0.127
(0.125 0.005)
0 ~ 7°
0.228 0.025
(0.009 0.001)
1.524
(0.060)
0.203 0.102
(0.008 0.004)
TOTAL PACKAGE LENGTH (INCLUSIVE OF MOLD FLASH)
5.207 0.254 (0.205 0.010)
*
0.305
(0.012)
MIN.
DIMENSIONS IN MILLIMETERS (INCHES).
LEAD COPLANARITY = 0.10 mm (0.004 INCHES) MAX.
OPTION NUMBER 500 NOT MARKED.
NOTE: FLOATING LEAD PROTRUSION IS 0.15 mm (6 mils) MAX.
4
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
0
2.5°C 0.5°C/SEC.
SOLDERING
TIME
30
160°C
150°C
140°C
200°C
SEC.
30
SEC.
3°C + 1°C/–0.5°C
PREHEATING TIME
150°C, 90 + 30 SEC.
50 SEC.
TIGHT
TYPICAL
LOOSE
ROOM
TEMPERATURE
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
217 °C
L
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
NOTES:
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 devices contained in this data sheet have been ap-
proved by the following organizations:
UL
IEC/EN/DIN EN 60747-5-2
Approval under UL 1577, Component Recognition Pro-
gram, File E55361.
Approved under :
IEC 60747-5-2:1997 + A1:2002
CSA
EN 60747-5-2:2001 + A1:2002
Approval under CSA Component Acceptance
Notice #5, File CA 88324.
DIN EN 60747-5-2 (VDE 0884Teil 2):2003-01
5
Insulation and Safety Related Specifications
8-Pin DIP
(300 Mil)
Value
SO-8
Value
Parameter
Symbol
Units
Conditions
Minimum External Air
Gap (External Clearance)
L (101)
7.1
4.9
mm
Measured from input terminals to output
terminals, shortest distance through air.
Minimum External Tracking
(External Creepage)
L (102)
7.4
4.8
mm
mm
Measured from input terminals to output
terminals, shortest distance path along body.
Minimum Internal Plastic
Gap (Internal Clearance)
0.08
0.08
Through insulation distance, conductor to
conductor, usually the direct distance
between the photoemitter and photodetector
inside the optocoupler cavity.
Tracking Resistance
(Comparative Tracking
Index)
CTI
200
IIIa
200
IIIa
Volts
DIN IEC 112/VDE 0303 Part 1
Isolation Group
Material Group (DIN VDE 0110, 1/89, Table 1)
IEC/EN/DIN EN 60747-5-2Insulation Related Characteristics
Description
Symbol
PDIP Option 060
SO-8 Option 60
Units
Installation classification per DIN VDE 0110/1.89, Table 1
for rated mains voltage ≤ 150 V rms
I-IV
I-III
I-II
for rated mains voltage ≤ 300 V rms
for rated mains voltage ≤ 600 V rms
I-IV
I-III
Climatic Classification
55/85/21
55/85/21
Pollution Degree (DIN VDE 0110/1.89)
Maximum Working Insulation Voltage
2
2
VIORM
VPR
630
566
Vpeak
Vpeak
Input to Output Test Voltage, Method b*
VIORM x 1.875 = VPR, 100% Production Test
with tm = 1 sec, Partial Discharge < 5 pC
1181
1063
Input to Output Test Voltage, Method a*
VIORM x 1.5 = VPR, Type and Sample Test,
tm = 60 sec, Partial Discharge < 5 pC
VPR
945
849
Vpeak
Vpeak
Highest Allowable Overvoltage*
VIOTM
6000
4000
(Transient Overvoltage, tini = 10 sec)
Safety Limiting Values
(Maximum values allowed in the event of a failure,
also see Figure 16, Thermal Derating curve.)
Case Temperature
TS
IS,INPUT
PS,OUTPUT
175
230
600
150
150
600
˚C
mA
mW
Input Current
Output Power
Insulation Resistance at TS, VIO = 500 V
RS
≥ 109
≥ 109
Ω
*Refer to the front of the optocoupler section of the current catalog, under Product Safety Regulations section, IEC/EN/DIN EN 60747-5-2, for a
detailed description.
Note: Isolation characteristics are guaranteed only within the safety maximum ratings which must be ensured by protective circuits in applica-
tion.
6
Absolute Maximum Ratings
Parameter
Symbol
TS
Min.
–55
–55
Max.
125
100
25
Units
°C
Note
Storage Temperature
Operating Temperature
Average Forward Input Current
TA
°C
IF(AVG)
IF(PEAK)
mA
mA
1
2
Peak Forward Input Current
50
(50% duty cycle, 1 ms pulse width)
Peak Transient Input Current
(≤ 1 µs pulse width, 300 pps)
IF(TRANS)
1
A
Reverse LED Input Voltage (Pin 3-2)
Input Power Dissipation
Average Output Current (Pin 6)
Peak Output Current
VR
5
V
PIN
45
8
mW
mA
mA
V
3
IO(AVG)
IO(PEAK)
VEBR
VCC
VO
16
5
Emitter-Base Reverse Voltage
Supply Voltage (Pin 8-5)
Output Voltage (Pin 6-5)
Base Current
–0.5
–0.5
7
V
7
V
IB
5
mA
mW
Output Power Dissipation
PO
100
4
Lead Solder Temperature
(Through Hole Parts Only)
1.6 mm below seating plane, 10 sec.
up to seating plane, 10 seconds
TLS
TRP
260
260
°C
°C
Reflow Temperature Profile
See Package Outline Drawings section
Recommended Operating Conditions
Parameter
Symbol
Min.
2.7
16
0
Max.
7.0
20
Units
V
Power Supply Voltage
Forward Input Current
Forward Input Voltage
Operating Temperature
VCC
IF(ON)
VF(OFF)
TA
mA
V
0.8
85
0
°C
7
Electrical Specifications (DC)
Over Recommended Temperature (T = 0˚C to +70˚C), V = 3.3 V, I = 16 mA, unless otherwise specified. See Note 13.
A
CC
F
Parameter
Current Transfer
Ratio
Logic Low
Output Voltage
Sym. Device Min. Typ. Max. Units Test Conditions
Fig. Note
CTR
VOL
IOH
15
20
0.05 0.3
0.003
43.0 100
90 300
50
%
TA = 25˚C VO = 0.4 V
IF = 16 mA,
VCC = 3.3 V
IF = 16 mA,
VCC = 3.3 V
2
5, 11
V
TA = 25˚C IO = 3.0 mA
Logic High
Output Current
1
µA
µA
TA = 25˚C VO = VCC = 3.3 V IF = 0 mA
4
Logic Low
Supply Current
ICCL HCPL-050L
HCPL-250L
IF = 16 mA, VO = Open, VCC = 3.3 V
13
13
HCPL-053L
HCPL-253L
Logic High
Supply Current
ICCH HCPL-050L
HCPL-250L
0.005 0.3
0.01 10
µA
TA = 25˚C IF = 0 mA, VO = Open,
VCC = 3.3 V
HCPL-053L
HCPL-253L
Input Forward
Voltage
VF
1.52 1.7
V
V
TA = 25˚C IF = 16 mA
IR = 10 µA
1
Input Reverse
Breakdown
Voltage
BVR
CIN
5
Input
60
pF
f = 1 MHz, VF = 0 V
Capacitance
Electrical Specifications (DC)
Over Recommended DC Temperature (T = 0°C to +70°C, V = 5V, I = 16mA) unless otherwise specified.(See note 13.)
A
CC
F
Parameter
Sym. Device
Min. Typ.* Max. Units Test Conditions
Fig.
Note
Current Transfer CTR HCPL-050L 19
24
24
0.1
0.1
0
50
%
%
V
VO=0.4V
TA=25ºC,
VCC=4.5V,
IF = 16 mA
3
5,11
Ratio
HCPL-250L
HCPL-053L 19
HCPL-253L
50
VO=0.5V
Logic Low
Output Voltage
VOL
HCPL-050L
HCPL-250L
0.4
0.5
0.5
IO = 3.0 mA
TA=25ºC,
IF = 16 mA,
VCC=4.5V
HCPL-053L
HCPL-253L
V
Logic High
IOH
μA
VO = VCC = 5.5V
VCC = 7V
IF = 0 mA,
TA=25ºC
5
Output Current
Logic Low
Supply Current
ICCL
HCPL-050L
HCPL-250L
50
200 μA
IF = 16 mA
V0 = Open
13
13
HCPL-053L
HCPL-253L
100 400
Logic High
Supply Current
ICCH HCPL-050L
HCPL-250L
0.02
0.05
1.5
1
4
μA
TA=25ºC
IF = 0 mA
V0 = Open
VCC = 7V
HCPL-053L
HCPL-253L
Input Forward
Voltage
VF
1.7
1.8
V
TA = 25°C
IR = 10 μA
IF = 16 mA
1
Input Reverse
Breakdown
Voltage
BVR
5
V
Input
CIN
60
pF
f = 1 MHz, VF = 0
Capacitance
*All typical values at T = 25°C
A
8
Switching Specifications (AC)
Over Recommended Temperature (T = 0˚C to +70˚C), V = 3.3 V, I = 16 mA unless otherwise specified.
A
CC
F
All typicals at V = 3.3 V, T = 25°C.
CC
A
Parameter
Sym. Device Min. Typ.* Max. Units Test Conditions
Fig. Note
Propagation
Delay Time to
Logic Low at
Output
tPHL
0.35
0.65
1
1
µs
RL = 1.9 kΩ
RL = 1.9 kΩ
7
7
8
8, 9
Propagation
Delay Time to
Logic High at
Output
tPLH
1
µs
8, 9
Common Mode |CMH|
Transient
Immunity at
kV/µs RL = 4.1 kΩ
RL = 1.9 kΩ
IF = 0 mA, TA = 25˚C,
VCM = 10 Vp-p
CL = 15 pF
7, 8, 9
Logic High
Level Output
Common Mode |CML|
Transient
1
kV/µs RL = 4.1 kΩ
RL = 1.9 kΩ
IF = 16 mA, TA = 25˚C,
VCM = 10 Vp-p
8
7, 8, 9
Immunity at
CL = 15 pF
Logic Low
Level Output
*All typicals at T = 25˚C
A
Switching Specifications (AC)
Over Recommended Temperature (T = 0°C to +70°C, V = 5 V, I = 16mA, unless otherwise specified.
A
CC
F
Parameter
Sym.
Device Min. Typ.* Max. Units Test Conditions
Fig.
Note
Propagation
Delay Time to
LogicLow at
Output
tPHL
0.2
0.8
μs
μs
TA = 25°C,
RL= 1.9KΩ
7
8,9
Propagation De- tPLH
lay Time to Logic
High at Output
0.6
1
0.8
TA = 25°C,
RL = 1.9 kΩ
7
8
8,9
Common Mode |CMH|
Transient Im-
munity at Logic
High Output
kV/μs RL = 1.9 kΩ
kV/μs RL = 1.9 kΩ
IF = 0 mA, TA = 25°C,
|VCM| = 10 Vp-p
CL = 15 pF
7,8,9
,
Common Mode |CML|
Transient Immu-
nity at Logic Low
Output
1
IF = 16 mA, TA = 25°C,
|VCM| = 10 Vp-p
8
7,8,9
*All typical values at T = 25°C
A
9
Package Characteristics
Over Recommended Temperature (T = 0˚C to 70˚C) unless otherwise specified.
A
Parameter
Sym.
Device
Min. Typ.* Max.
Units
Test Conditions
Fig. Note
Input-Output
Momentary
Withstand
Voltage**
VISO
8-Pin DIP
SO-8
3750
V rms
RH < 50%,
t = 1 min.,
TA = 25˚C
6, 14
II-O
8-Pin DIP
1
µA
45% RH, t = 5 s,
VI-O = 3 kVdc,
TA = 25˚C
6, 16
Input-Output
Resistance
RI-O
CI-O
8-Pin DIP
SO-8
1012
0.6
Ω
VI-O = 500 Vdc
6
6
Input-Output
Capacitance
8-Pin DIP
SO-8
pF
f = 1 MHz
*All typicals at T = 25˚C.
A
**The Input-Output Momentary Withstand Voltage is a dielectric voltage rating that should not be interpreted as an input-output continuous
voltage rating. For the continuous voltage rating refer to the IEC/EN/DIN EN 60747-5-2 Insulation Related Characteristics Table (if applicable),
your equipment level safety specification or Avago Application Note 1074 entitled "Optocoupler Input-Output Endurance Voltage," publica-
tion number 5963-2203E.
Notes:
1. Derate linearly above 70˚C free-air temperature at a rate of 0.8 mA/˚C (8-Pin DIP).
Derate linearly above 85˚C free-air temperature at a rate of 0.5 mA/˚C (SO-8).
2. Derate linearly above 70˚C free-air temperature at a rate of 1.6 mA/˚C (8-Pin DIP).
Derate linearly above 85˚C free-air temperature at a rate of 1.0 mA/˚C (SO-8).
3. Derate linearly above 70˚C free-air temperature at a rate of 0.9 mW/˚C (8-Pin DIP).
Derate linearly above 85˚C free-air temperature at a rate of 1.1 mW/˚C (SO-8).
4. Derate linearly above 70˚C free-air temperature at a rate of 2.0 mW/˚C (8-Pin DIP).
Derate linearly above 85˚C free-air temperature at a rate of 2.3 mW/˚C (SO-8).
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, 2, 3, and 4 shorted together and Pins 5, 6, 7, and 8 shorted together.
7. Common mode transient immunity in a Logic High level is the maximum tolerable (positive) dV /dt on the leading edge of the com-
CM
mon mode pulse signal, V , to assure that the output will remain in a Logic High state (i.e., V > 2.0 V). Common mode transient im-
CM
O
munity in a Logic Low level is the maximum tolerable (negative) dV /dt on the trailing edge of the common mode pulse signal, V , to
CM
CM
assure that the output will remain in a Logic Low state (i.e., V < 0.8 V).
O
8. The 1.9 kΩ load represents 1 TTL unit load of 1.6 mA and the 5.6 mA kΩ pull-up resistor.
9. The 4.1 kΩ load represents 1 LSTTL unit load of 0.36 mA and 6.1 kΩ pull-up resistor.
10. The frequency at which the AC output voltage is 3 dB below its mid-frequency value.
11. The JEDEC registration for the 6N136 specifies a minimum CTR of 15%. Avago guarantees a minimum CTR of 15%.
12. See Option 020 data sheet for more information.
13. Use of a 0.1 µf bypass capacitor connected between pins 5 and 8 is recommended.
14. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 4500 V rms for 1 second (leakage
detection current limit, I ≤ 5 µA). This test is performed before the 100% Production test shown in the IEC/EN/DIN EN 60747-5-2 Insula-
I-O
tion Related Characteristics Table, if applicable.
15. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 6000 V rms for 1 second (leakage
detection current limit, I ≤ 5 µA). This test is performed before the 100% Production test shown in the IEC/EN/DIN EN 60747-5-2 Insula-
I-O
tion Related Characteristics Table, if applicable.
16. This rating is equally validated by an equivalent AC proof test.
10
8 PIN DIP, SO-8
8 PIN DIP, SO-8
8 PIN DIP, SO-8
1.1
1.0
0.9
1000
100
10
I
F
T
A
= 25°C
+
NORMALIZED
= 16 mA
V
F
I
F
O
–
V
= 0.4 V
1.0
V
T
= 3.3 V
CC
= 25°C
0.8
0.7
0.6
A
0.1
0.01
0.001
-60 -40 -20
0
20 40 60 80 100
1.1
1.2
1.3
1.4
1.5
1.6
V
– FORWARD VOLTAGE – VOLTS
T
– TEMPERATURE – °C
F
A
Figure 3. Current transfer ratio vs. temperature
Figure 1. Input current vs. forward voltage.
Figure 2. Current transfer ratio vs. temperature.
8 PIN DIP, SO-8
8 PIN DIP, SO-8
8 PIN DIP, SO-8
+4
10
800
I
= 0
O
P
(mW)
F
S
V
= V = 3.3 V
CC
700
600
500
400
300
200
100
0
+3
I
(mA)
S
10
+2
10
+1
10
0
10
-1
10
10
-2
-75 -50 -25
0
+25 +50 +75 +100
0
25 50 75 100 125 150 175 200
– CASE TEMPERATURE – °C
T
S
T
– TEMPERATURE – °C
A
Figure 5. Logic high output current vs. temperature Figure 6. Thermal derating curve, dependence of
safety limiting value with case temperature per
Figure 4. Logic high output current vs. tempera-
ture.
IEC/EN/DIN EN 60747-5-2.
11
I
F
I
PULSE
GEN.
F
8
7
6
5
1
2
3
4
Vcc+
0
Z
t
= 50Ω
O
= 5 ns
r
R
L
V
O
10% DUTY CYCLE
1/f < 100 µS
V
O
50%
50%
0.1µF
V
I
MONITOR
F
OL
C
= 1.5 µF
L
R
M
t
t
PHL
PLH
Figure 7. Switching test circuit.
I
F
1
8
7
6
5
Vcc+
B
R
2
L
*
V
CM
A
90% 90%
10%
r
10%
0 V
3
V
O
t
t
f
0.1 µF
V
O
4
3.3 V
V
FF
SWITCH AT A:
SWITCH AT B:
I
I
= 0 mA
F
F
V
O
V
OL
V
CM
= 16 mA
–
+
PULSE GEN.
Figure 8. Test circuit for transient immunity and typical waveforms.
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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 AV01-0549EN
AV02-1200EN - May 5, 2008
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