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Электронный компонент: ICPL2533

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ISOCOM COMPONENTS LTD
Unit 25B, Park View Road West,
Park View Industrial Estate, Brenda Road
Hartlepool, Cleveland, TS25 1YD
Tel: (01429) 863609 Fax :(01429) 863581
7/12/00
DB91038-AAS/A3
ICPL2533
HIGH SPEED DUAL CHANNEL
OPTICALLY COUPLED ISOLATOR
PHOTOTRANSISTOR OUTPUT
ABSOLUTE MAXIMUM RATINGS
(25C unless otherwise specified)
Storage Temperature
-55C to + 125C
Operating Temperature
-55C to + 100C
Lead Soldering Temperature
(1/16 inch (1.6mm) from case for 10 secs) 260C
INPUT DIODE
Average Forward Current
25mA ( 1 )
Peak Forward Current
50mA ( 2 )
( 50% duty cycle, 1ms pulse width )
Peak Transient Current
1.0A
(equal to or less than 1
s P.W., 300 pps)
Reverse Voltage
5V
Power Dissipation
45mW( 3 )
DETECTOR
Average Output Current
8mA
Peak Output Current
16mA
Supply Voltage
-0.5 to +30V
Output Voltage
-0.5 to +20V
Power Dissipation
35mW( 4 )
APPROVALS
l
UL recognised, File No. E91231
DESCRIPTION
These dual channel diode-transistor optocouplers
use a light emitting diode and an integrated photon
detector to provide 2500Volts
RMS
electrical isolation
between input and output. Seperate connection for
the photodiode bias and output transistor collector
improve the speed up to a hundred times that of a
conventional photo-transistor coupler by reducing
the base-collector capacitance.
FEATURES
l
High speed - 250k b/s NRZ
l
High Common Mode Transient
Immunity 1000V/
s
l
TTL Compatible
l
Open Collector Outputs
l
2500V
RMS
Withstand Test Voltage,1 Min
l
Options :-
10mm lead spread - add G after part no.
Surface mount - add SM after part no.
Tape&reel - add SMT&R after part no.
l
All electrical parameters 100% tested
l
Custom electrical selections available
APPLICATIONS
l
Line receivers
l
Pulse transformer replacement
l
Wide bandwidth analog coupling
l
Output interface to CMOS-LSTTL-TTL
0.3
0.5
Dimensions in mm
6.9
6.3
1.3
15
Max
3.3
4.0
3.6
2.54
9.7
9.1
0.5
1.3
* ICPL2531 NOISE SHIELD
4
3
2
1
8
7
6
5
7.62
*
OPTION G
OPTION SM
10.16
10.2
9.5
0.3
1.2
0.6
1.4
0.9
7.62
SURFACE MOUNT
ISOCOM INC
1024 S. Greenville Ave, Suite 240,
Allen, TX 75002 USA
Tel: (214) 495-0755 Fax: (214) 495-0901
e-mail info@isocom.com
http://www.isocom.com
DB91038-AAS/A3
7/12/00
ELECTRICAL CHARACTERISTICS ( T
A
= 0C to 70C Unless otherwise noted )
PARAMETER
SYM DEVICE
MIN TYP* MAX UNITS TEST CONDITION
15
21
%
I
F
= 8mA, V
O
= 0.5V,
V
CC
= 4.5V, T
A
= 25C
12
19
%
I
F
= 16mA, V
O
= 0.5V,
V
CC
= 4.5V, T
A
= 25C
Current Transfer Ratio
CTR
(note 5,6 )
11
14
%
I
F
= 8mA, V
O
= 0.5V,
V
CC
= 4.5V
9
12
%
I
F
= 16mA, V
O
= 0.5V,
V
CC
= 4.5V
0.2
0.5
V
I
F
= 8mA, I
O
=0.7mA,
Logic Low Output Voltage
V
OL
V
CC
= 4.5V
(note 5 )
0.2
0.5
V
I
F
= 16mA, I
O
=1.1mA,
V
CC
= 4.5V
0.02
500
nA
I
F1
= I
F2
=0mA,T
A
= 25C,
V
O1
= V
O2
= V
CC
= 5.5V
Logic High Output Current
I
OH
(note 5 )
50
A
I
F1
= I
F2
= 0mA,
V
O1
= V
O2
= V
CC
= 15V
40
A
I
F1
= I
F2
=8mA,V
CC
=5.5V,
V
O1
= V
O2
= open
Logic Low Supply Current
I
CCL
80
A
I
F1
= I
F2
=16mA,V
CC
=5.5V,
V
O1
= V
O2
= open
Logic High Supply Current
I
CCH
0.05
4
A
I
F1
= I
F2
= 0mA,V
CC
=5.5V,
V
O1
= V
O2
= open
1.5
1.7
V
I
F
= 8mA, T
A
= 25C
Input Forward Voltage
V
F
(note 5 )
1.5
1.7
V
I
F
= 16mA, T
A
= 25C
Temperature Coefficient
V
F
-1.6
mV/C
I
F
= 8mA
of Forward Voltage
T
A
(note 5 )
-1.6
mV/C
I
F
= 16mA
Input Reverse Voltage (note 5 )
V
R
5
V
I
R
= 10
A,T
A
= 25C
Input Capacitance (note 5 )
C
IN
60
pF
f
= 1MHz, V
F
= 0
Input-output Isolation Voltage
V
ISO
2500
5000
V
RMS
R.H.equal to or less than
(note 7)
50%, t = 1min. T
A
= 25C
Resistance (Input to Output)(note 7) R
I-O
10
12
V
= 500V dc
Capacitance (Input to Output)(note7) C
I-O
pF
f = 1MHz
I
I-I
A
45 % Relative Humidity
t = 5s, V = 500V dc
Resistance (Input to Input)(note8)
R
10
11
V
I-I
= 500V dc
Capacitance (Input to Input)(note8)
C
I-I
0.25
pF
f = 1MHz
*All typicals at T
A
= 25C
SWITCHING SPECIFICATIONS AT T
A
= 25C ( V
CC
= 5V Unless otherwise noted )
0
I
F
V
O
1.3V
1.3V
5V
t
PHL
t
PLH
V
OL
DB91038-AAS/A3
7/12/00
2
I
F
Monitor
100
R
L
V
O
C
L
= 15pF
8
7
6
5
I
F
1
4
3
10% Duty Cycle
1/f < 100
s
5V
PARAMETER
SYM DEVICE
MIN TYP MAX UNITS TEST CONDITION
0.8
1.5
s
I
F
= 8mA,R
L
= 7.5k
Propagation Delay Time
t
PHL
(note 10 )
to
Logic Low at Output ( fig 1 )
0.3
1.5
s
I
F
= 16mA,R
L
= 4.7k
,
(note11 )
1.0
2.5
s
I
F
= 8mA,R
L
= 7.5k
,
Propagation Delay Time
t
PLH
(note 10 )
to
Logic High at Output ( fig 1 )
1.1
2.5
s
I
F
= 16mA,R
L
= 4.7k
,
(note11 )
1000
V/
s
I
F
= 0mA, V
CM
= 10V
PP
Common Mode Transient
R
L
= 7.5k
,
(note9,10 )
Immunity at Logic High
CM
H
Level Output ( fig 2 )
1000
V/
s
I
F
= 0mA, V
CM
= 10V
PP
R
L
= 4.7k
,
(note9,11 )
-1000
V/
s
I
F
= 8mA,V
CM
= 10V
PP
Common Mode Transient
R
L
= 7.5k
,
(note9,10 )
Immunity at Logic Low
CM
L
Level Output ( fig 2 )
-1000
V/
s
I
F
= 16mA,V
CM
= 10V
PP
R
L
= 1.9k
,
(note9,11 )
NOTES:-
1.
Derate linearly above 70
o
C free air temperature at a rate of 0.8 mA/C.
2.
Derate linearly above 70
o
C free air temperature at a rate of 1.6 mA/C.
3.
Derate linearly above 70
o
C free air temperature at a rate of 0.9 mW/C.
4.
Derate linearly above 70
o
C free air temperature at a rate of 1.0 mW/C.
5.
Each channel .
6.
CURRENT TRANSFER RATIO is defined as the ratio of output collector current,I
O
, to the forward LED
input current, I
F
times 100%.
7.
Device considered a two-terminal device: pins 1,2,3,and 4 shorted together and pins 5,6,7,and 8 shorted
together.
8.
Measured between pins 1 and 2 shorted together, and pins 3 and 4 shorted together.
9.
Common mode transient immunity in Logic High level is the maximum tolerable (positive) dVcm/dt on
the leading edge of the common mode pulse V
CM
to assure that the output will remain in a Logic High
state (i.e. V
O
> 2.0V). Common mode transient immunity in Logic Low level is the maximum tolerable
(negative) dVcm/dt on the trailing edge of the common mode pulse signal, V
CM
to assure that the output
will remain in Logic Low state (i.e. V
O
< 0.8V).
10. The 7.5k
load represents 1 LSTTL unit load of 0.36mA and a 20k
pull-up resistor.
11. The 4.7k
load represents 1 LSTTL unit load of 0.36mA and a 8.2k
pull-up resistor.
12. The 2500 V
RMS
/ 1minute capability is validated by a factory 3.1k V
RMS
/ 1 second dielectric test.
FIG.1 SWITCHING TEST CIRCUIT
PULSE
GENERATOR
Z
O
= 50
t
r
= 5ns
DB91038-AAS/A3
7/12/00
Logic high output current I
OH
(nA)
Logic High Output Current vs.
Ambient Temperature
1 2 5 10 20 50
0.9
1.0
1.1
1.2
1.3
Normalized current transfer ratio
Normalized Current Transfer
Ratio vs. Forward Current
Forward current I
F
(mA)
0.8
0.7
0.7
0.8
0.9
Normalized Current Transfer
Ratio vs. Ambient Temperature
Normalized current transfer ratio
Ambient temperature T
A
( C )
-55 -25 0 25 50 75 100
-25 0 25 50 70
Ambient temperature T
A
( C )
Normalized propagation delay
0.7
0.8
0.9
1.0
1.1
1.2
1.3
FIG. 2 TEST CIRCUIT FOR TRANSIENT IMMUNITY AND TYPICAL WAVEFORMS
1
3
4
+
-
A
PULSE GEN.
V
CM
0V
V
CM
I
F
V
FF
5V
5V
V
OL
V
O
V
O
SWITCH AT A: I
F
= 0mA
SWITCH AT B: I
F
= 16mA
10V
10%
90%
10%
90%
t
r
t
f
B
8
7
6
5
2
R
L
V
O
1.4
1.5
1.6
Normalized
to I
F
= 16mA
V
O
= 0.5V
V
CC
= 5V
T
A
= 25C
1.0
1.1
1.2
1.3
-55 -25 0 25 50 75 100
Ambient temperature T
A
( C )
I
F
= 0mA
V
O
= V
CC
= 5V
10
-1
10
0
10
1
10
-2
10
-3
Normalized
to I
F
= 16mA
V
CC
= 5V
R
L
= 4.7k
T
A
= 25C
t
PLH
t
PHL
1.4
1.5
Normalized Propagation Delay
vs. Ambient Temperature
Normalized
to I
F
= 16mA
V
O
= 0.5V
V
CC
= 5V
T
A
= 25C