MOTOROLA MOC223 Small outline optoisolators darlington output Datasheet

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by MOC223/D
SEMICONDUCTOR TECHNICAL DATA
Darlington Output
[CTR = 500% Min]
These devices consist of a gallium arsenide infrared emitting diode optically
coupled to a monolithic silicon photodarlington detector, in a surface mountable,
small outline, plastic package. They are ideally suited for high density
applications, and eliminate the need for through–the–board mounting.
Motorola Preferred Device
• Convenient Plastic SOIC–8 Surface Mountable Package Style
• High Current Transfer Ratio (CTR) at Low LED Input Current, for Easier Logic
Interfacing
SMALL OUTLINE
OPTOISOLATORS
DARLINGTON OUTPUT
• Standard SOIC–8 Footprint, with 0.050″ Lead Spacing
• Shipped in Tape and Reel, which Conforms to EIA Standard RS481A
• Compatible with Dual Wave, Vapor Phase and IR Reflow Soldering
• High Input–Output Isolation of 3000 Vac (rms) Guaranteed
• UL Recognized
File #E54915
Ordering Information:
• To obtain MOC223 in Tape and Reel, add R2 suffix to device numbers:
R2 = 2500 units on 13″ reel
• To obtain MOC223 in quantities of 50 (shipped in sleeves) — No Suffix
Marking Information:
• MOC223 = 223
CASE 846–01, STYLE 1
PLASTIC
Applications:
• Low power Logic Circuits
• Interfacing and coupling systems of different potentials and impedances
• Telecommunications equipment
SCHEMATIC
• Portable electronics
MAXIMUM RATINGS (TA = 25°C unless otherwise noted)
Rating
Symbol
Value
1
8
2
7
Unit
INPUT LED
IF
60
mA
3
6
IF(pk)
1.0
A
4
5
Reverse Voltage
VR
6.0
V
LED Power Dissipation @ TA = 25°C
Derate above 25°C
PD
90
0.8
mW
mW/°C
Forward Current — Continuous
Forward Current — Peak (PW = 100 µs, 120 pps)
OUTPUT DARLINGTON
Collector–Emitter Voltage
VCEO
30
V
Collector–Base Voltage
VCBO
70
V
Emitter–Collector Voltage
VECO
7.0
V
Collector Current — Continuous
IC
150
mA
Detector Power Dissipation @ TA = 25°C
Derate above 25°C
PD
150
1.76
mW
mW/°C
1.
2.
3.
4.
5.
6.
7.
8.
LED ANODE
LED CATHODE
NO CONNECTION
NO CONNECTION
EMITTER
COLLECTOR
BASE
NO CONNECTION
NOTE: Thickness through insulation between input and output is ≥ 0.5 mm.
Preferred devices are Motorola recommended choices for future use and best overall value.
(Replaces MOC221/D)
Optoelectronics
Device Data
Motorola
Motorola, Inc.
1995
1
MOC223
MAXIMUM RATINGS — continued (TA = 25°C unless otherwise noted)
Rating
Symbol
Value
Unit
VISO
3000
Vac(rms)
Total Device Power Dissipation @ TA = 25°C
Derate above 25°C
PD
250
2.94
mW
mW/°C
Ambient Operating Temperature Range(3)
Storage Temperature Range(3)
TA
Tstg
–55 to +100
°C
–55 to +150
°C
—
260
°C
TOTAL DEVICE
Input–Output Isolation Voltage(1,2)
(60 Hz, 1.0 sec. duration)
Lead Soldering Temperature
(1/16″ from case, 10 sec. duration)
ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted)(4)
Symbol
Min
Typ(4)
VF
IR
—
1.05
1.3
V
Reverse Leakage Current (VR = 6.0 V)
—
0.1
100
mA
Capacitance
C
—
18
—
pF
ICEO1
ICEO2
—
1.0
50
nA
—
1.0
—
µA
V(BR)CEO
V(BR)ECO
30
90
—
V
7.0
7.8
—
V
CCE
—
5.5
—
pF
IC (CTR)(5)
5.0 (500)
10 (1000)
—
mA (%)
VCE(sat)
ton
—
—
1.0
V
—
3.5
—
µs
—
95
—
µs
Rise Time (IF = 5.0 mA, VCC = 10 V, RL = 100 Ω)
toff
tr
—
1.0
—
µs
Fall Time (IF = 5.0 mA, VCC = 10 V, RL = 100 Ω)
tf
—
2.0
—
µs
VISO
RISO
CISO
3000
1011
—
—
Vac(rms)
—
—
Ω
—
0.2
—
pF
Characteristic
Max
Unit
INPUT LED
Forward Voltage (IF = 1.0 mA)
OUTPUT DARLINGTON
Collector–Emitter Dark Current
(VCE = 5.0 V, TA = 25°C)
(VCE = 5.0 V, TA = 100°C)
Collector–Emitter Breakdown Voltage (IC = 100 µA)
Emitter–Collector Breakdown Voltage (IE = 100 µA)
Collector–Emitter Capacitance (f = 1.0 MHz, VCE = 0)
COUPLED
Output Collector Current
(IF = 1.0 mA, VCE = 5.0 V)
Collector–Emitter Saturation Voltage (IC = 500 µA, IF = 1.0 mA)
Turn–On Time (IF = 5.0 mA, VCC = 10 V, RL = 100 Ω)
Turn–Off Time (IF = 5.0 mA, VCC = 10 V, RL = 100 Ω)
Input–Output Isolation Voltage (f = 60 Hz, t = 1.0 sec.)(1,2)
Isolation Resistance (VI–O = 500 V)(2)
Isolation Capacitance (VI–O = 0, f = 1.0 MHz)(2)
1.
2.
3.
4.
5.
2
Input–Output Isolation Voltage, VISO, is an internal device dielectric breakdown rating.
For this test, pins 1 and 2 are common, and pins 5, 6 and 7 are common.
Refer to Quality and Reliability Section in Opto Data Book for information on test conditions.
Always design to the specified minimum/maximum electrical limits (where applicable).
Current Transfer Ratio (CTR) = IC/IF x 100%.
Motorola Optoelectronics Device Data
MOC223
VF , FORWARD VOLTAGE (VOLTS)
2
PULSE ONLY
PULSE OR DC
1.8
1.6
1.4
TA = – 55°C
1.2
1
25°C
100°C
1
10
100
IF, LED FORWARD CURRENT (mA)
1000
IC, OUTPUT COLLECTOR CURRENT (NORMALIZED)
TYPICAL CHARACTERISTICS
100
NORMALIZED TO:
IF = 1 mA
10
1
0.1
0.1
I C, OUTPUT COLLECTOR CURRENT (mA)
14
12
10
8
6
4
2
0
ICEO, COLLECTOR–EMITTER DARK CURRENT
(NORMALIZED)
IF = 1 mA
0
1
2
3
4
5
6
7
8
9
10
10
NORMALIZED TO:
TA = 25°C
1
0.1
–60
–40
–20
0
20
40
60
80
VCE, COLLECTOR–EMITTER VOLTAGE (VOLTS)
TA, AMBIENT TEMPERATURE (°C)
Figure 3. Output Current versus
Collector–Emitter Voltage
Figure 4. Output Current versus
Ambient Temperature
100
120
20
1000
C, CAPACITANCE (pF)
10 V
1
5V
0
20
f = 1 MHz
16
VCE = 30 V
10
CLED
18
NORMALIZED TO:
VCE = 5 V
TA = 25°C
100
0.1
100
Figure 2. Output Current versus Input Current
I C, OUTPUT COLLECTOR CURRENT (NORMALIZED)
Figure 1. LED Forward Voltage versus Forward Current
1
10
IF, LED INPUT CURRENT (mA)
40
60
80
100
14
CCB
12
10
8
6
4
2
0
0.01
CEB
0.1
1
CCE
10
TA, AMBIENT TEMPERATURE (°C)
V, VOLTAGE (VOLTS)
Figure 5. Dark Current versus Ambient Temperature
Figure 6. Capacitance versus Voltage
Motorola Optoelectronics Device Data
100
3
MOC223
PACKAGE DIMENSIONS
–A–
8
5
K
1
4
D 8 PL
0.13 (0.005)
G
–T–
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
2. CONTROLLING DIMENSION: INCH.
B
SEATING
PLANE
T A
M
M
C
0.038 (0.0015)
H
J
DIM
A
B
C
D
G
H
J
K
INCHES
MIN
MAX
0.182
0.202
0.144
0.164
0.123
0.143
0.011
0.021
0.050 BSC
0.003
0.008
0.006
0.010
0.224
0.244
STYLE 1:
PIN 1.
2.
3.
4.
5.
6.
7.
8.
MILLIMETERS
MIN
MAX
4.63
5.13
3.66
4.16
3.13
3.63
0.28
0.53
1.27 BSC
0.08
0.20
0.16
0.25
5.69
6.19
ANODE
CATHODE
NC
NC
EMITTER
COLLECTOR
BASE
NC
CASE 846–01
ISSUE B
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the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit,
and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters can and do vary in different
applications. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. Motorola does
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4
◊
*MOC223/D*
Motorola Optoelectronics Device
Data
MOC223/D
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