= ±
= ±
DUAL CHANNEL
QUAD CHANNEL
ILD620/620GB
ILQ620/620GB
AC INPUT PHOTOTRANSISTOR
OPTOCOUPLER
FEATURES
• Identical Channel to Channel Footprint
ILD620 Crosses to TLP620-2
ILQ620 Crosses to TLP620-4
• Current Transfer Ratio (CTR) at I
5 mA
F
ILD/Q620: 50% Min.
ILD/Q620GB: 100% Min.
• Saturated Current Transfer Ratio (CTR
at I
1 mA
F
SAT
)
ILD/Q620: 60% Typ.
ILD/Q620GB: 30% Min.
• High Collector-Emitter Voltage, BV
CEO
=70 V
• Dual and Quad Packages Feature:
- Reduced Board Space
- Lower Pin and Parts Count
- Better Channel to Channel CTR Match
- Improved Common Mode Rejection
• Field-Effect Stable by TRIOS
(TR ansparent IO n S hield )
• Isolation Test Voltage from Double Molded
Package
• Underwriters Lab File #E52744
• VDE 0884 Available with Option 1
Maximum Ratings (Each Channel)
Emitter
Forward Current ......................................... ± 60 mA
Surge Current............................................... ±
1.5 A
Power Dissipation......................................100 mW
Derate from 25 °
C .................................. 1.3 mW/ ° C
Detector
Collector-Emitter Breakdown Voltage .............70 V
Collector Current.......................................... 50 mA
Collector Current (t <1 ms).........................100 mA
Power Dissipation......................................150 mW
Derate from 25 °
C..................................... 2 mW/ ° C
Package
Isolation Test V oltage(t=1 sec.).........5300 VAC
RMS
Package Dissipation, ILD620/GB............. 400 mW
Derate from 25 °
C............................... 5.33 mW/ ° C
Package Dissipation, ILQ620/GB............. 500 mW
Derate from 25 °
C............................... 6.67 mW/ ° C
Creepage................................................7 mm min.
Clearance ...............................................7 mm min.
Isolation Resistance
V
=500 V, T
IO
V
=500 V, T
IO
Storage Temperature.................. –55 ° C to +150 ° C
Operating Temperature............... –55 °
=25 ° C................................ ≥ 10
A
=100 ° C............................. ≥ 10
A
C to +100 ° C
Junction Temperature...................................100 °
12
11
Ω
Ω
C
Soldering Temperature
(2 mm from case bottom)..........................260 °
C
Dimensions in inches (mm)
.268 (6.81)
.255 (6.48)
4° Typ.
.022 (.56)
.018 (.46)
268 (6.81)
268 (6.81)
255 (6.48)
255 (6.48)
4° Typ.
.022 (.56)
.018 (.46)
34
65
.390 (9.91)
.379 (9.63)
.045 (1.14)
.030 (.76)
.100 (2.54) Typ.
.790 (20.07)
.779 (19.77 )
.045 (1.14)
.030 (.76)
.100 (2.54) Typ.
Pin One I.D.
12
87
.150 (3.81)
.130 (3.30)
.040 (1.02)
.030 (.76 )
K=Cathode
1
A/K
2
A/K
3
A/K
4
A/K
.305 Typ.
(7.75) Typ.
10° Typ.
3°–9°
.012 (.30)
.008 (.20)
Pin One I.D.
.150 (3.81)
.130 (3.30)
.040 (1.02)
.030 (.76 )
A/K
A/K
A/K
A/K
A/K
A/K
A/K
A/K
8
Collector
7
Emitter
Collector
6
Emitter
5
.135 (3.43)
.115 (2.92)
K=Cathode
1
2
3
4
5
6
7
8
(7.75) Typ.
3°–9°
.012 (.30)
.008 (.20)
.305 Typ.
10° Typ.
16
Collector
15
Emitter
Collector
14
Emitter
13
Collector
12
Emitter
11
Collector
10
Emitter
9
.135 (3.43
.115 (2.92
DESCRIPTION
The ILD/Q620 and ILD/Q620GB are multi-channel input phototran-sistor
optocouplers that use inverse parallel GaAs IRLED emitters and high gain
NPN silicon phototransistors per channel. These devices are constructed
using over/under leadframe optical coupling and double molded insulation
resulting in a Withstand Test Voltage of 7500 VAC
The LED parameters and the linear CTR characteristics combined with
PEAK
.
the
TRIOS field-effect process make these devices well suited for AC voltage
detection. The ILD/Q620GB with its low IF guaranteed CTR
power dissipation of the AC
voltage detection network that is placed in
CEsat
minimizes
series with the LEDs. Eliminating the phototransistor base connection provides added electrical noise immunity from the transients found in many
industrial control environments.
5–1
Characteristics
Symbol Min. Typ. Max. Unit Condition
Emitter
Forward Voltage V
Forward Current I
Capacitance C
Thermal Resistance, Junction to Lead R
F
F
O
THJL
Detector
Capacitance C
Collector-Emitter Leakage Current I
Collector-Emitter Leakage Current I
Thermal Resistance, Junction to Lead R
CE
CEO
CEO
THJL
Package T ransfer Characteristics
Channel/Channel CTR Match CTRX/CTRY 1 to 1 3 to 1 I
CTR Symmetry I
Off-State Collector Current I
CE(RATIO)
CE(OFF)
ILD/Q620
Saturated Current Transfer Ratio CTR
Current Transfer Ratio CTR
Collector-Emitter Saturation Voltage V
CEsat
CE
CEsat
ILD/Q620GB
Saturated Current Transfer Ratio CTR
Current Transfer Ratio (Collector-Emitter) CTR
Collector-Emitter Saturation Voltage V
CEsat
CE
CEsat
Isolation and Insulation
Common Mode Rejection, Output High CMH 5000 V/ µ sV
Common Mode Rejection, Output Low CML 5000 V/ µ sV
Common Mode Coupling Capacitance C
CM
Package Capacitance CI-O 0.8 pF V
Insulation Resistance R
S
Channel to Channel Insulation 500 VAC
1 1.15 1.3 V I
2.5 20
µ AV
25 pF V
750
° C/W
6.8 pF V
10 100 nA V
250
500
µ
AT
° C/W
0.5 2 I
110
µ
AV
60 % I
50 80 600 % I
0.4 V I
30 % I
100 200 600 % I
0.4 V I
0.01 pF
12
10
Ω
F
R
F
CE
CE
A
F
CE
F
F
F
F
F
F
F
CM
CM
I-O
V
I-O
= ± 10 mA
=
±
0.7 V
=0 V, f=1 MHz
=5 V, f=1 MHz
=24 V
=85 ° C, V
= ± 5 mA, V
=
= ± 1 mA, V
= ± 5 mA, V
= ± 8 mA, I
= ± 1 mA, V
= ± 5 mA, V
= ± 1 mA, I
(I
=–5 mA)/I
F
±
0.7 V, V
=50 V
=50 V
P-P
P-P
CE
CE
CE
CE
CE
CE
CE
CE
CE
, R
, R
=0 V, f=1 MHz
=500 V
=24 V
=5 V
(=+5 mA)
F
=24 V
=0.4 V
=5 V
=2.4 mA
=0.4 V
=5 V
=0.2 mA
=1 k Ω , I
L
=1 k Ω , I
L
=0 mA
F
=10 mA
F
Switching Times
Figure 1. Non-saturated switching timing
IF=10 mA
=10 KHz,
F=50%
VCC=5 V
V
O
RL=75 Ω
Figure 2. Saturated switching timing
=10 KHz,
F=50%
=10 mA
F
VCC=5
R
L
V
O
Figure 3. Non-saturated switching timing
F
t
PLH
0
t
t
R
D
5–2
t
PHL
t
S
50%
t
F
ILD/Q620/GB