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ASSR-1611  
High Current, 1 Form A, Solid State Relay (MOSFET)  
(60V/2.5A/0.1)  
Data Sheet  
Description  
Features  
The ASSR-1611 is specifically designed for high current ap- Compact Solid-State Bi-directional Signal Switch  
plications, commonly found in the industrial equipments.  
The relay is a solid-state replacement for single-pole, nor-  
mally-open, (1 Form A) electromechanical relays.  
Single Channel Normally-off Single-Pole-Single-Throw  
(SPST) Relay  
60V Output Withstand Voltage  
The ASSR-1611 consists of an AlGaAs infrared light-emit-  
2.5A or 5A Current Rating  
ting diode (LED) input stage optically coupled to a high-  
Low Input Current: CMOS Compatibility  
voltage output detector circuit. The detector consists of a  
high-speed photovoltaic diode array and driver circuitry  
to switch on/off two discrete high voltage MOSFETs. The  
relay turns on (contact closes) with a minimum input cur-  
rent of 5mA through the input LED. The relay turns off  
(contact opens) with an input voltage of 0.8V or less.  
Low On-Resistance: 20mΩ Typical for DC-only, 65mΩ  
Typical for AC/DC  
High Speed Switching: 3.2ms (T ), 0.1ms (T ) Typical  
on  
off  
High Transient Immunity: >1kV/μs  
High Input-to-Output Insulation Voltage  
The ASSR-1611 connection A, as shown in the schematic,  
allows the relay to switch either ac or dc loads. The con-  
nection B, with its advantages of reduced on-resistance  
and higher output current, allows the relays to switch dc  
loads only.  
-
(Safety and Regulatory Approvals)  
UL recognized - 3750 V  
per UL1577  
and 5000 V * for 1 min  
RMS  
RMS  
-
CSA Component Acceptance  
RMS  
The electrical and switching characteristics are specified  
over the temperature range of -40°C to +85°C.  
*5000 V /1 Minute rating is for Option X21 only.  
(Please consult your regional Avago representatives)  
Applications  
Functional Diagram  
Industrial Controls  
Factory Automation  
Data Acquisition  
Opto-isolation  
Truth Table  
6
5
4
1
2
3
LED  
Off  
On  
Output  
Open  
Close  
Measuring Instrument  
Medical System  
Security System  
EMR / Reed Relay Replacement  
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  
ASSR-1611 is UL Recognized with 3750 V  
and 5000 V  
(option X21*) for 1 minute per UL1577 and is approved un-  
RMS  
RMS  
der CSA Components Acceptance Notice #5, File CA 88324  
Option  
Surface  
UL 5000 VRMS/  
Part Number RoHS Compliant  
Package  
Mount  
Gullwing Tape & Reel  
1 Minute Rating  
Quantity  
-001E  
50 units per tube  
1000 units per reel  
ASSR-1611  
-301E  
-501E  
300mil DIP-6  
X
X
X
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:  
ASSR-1611-501E to order product of 300mil DIP-6 Gull Wing Surface Mount package in Tape and Reel packaging and  
RoHS Compliant.  
x021* - 'Please consult your regional Avago representatives'  
Schematic  
ASSR-1611  
Opto-isolation  
Opto-isolation  
6
5
4
1
2
3
1
2
6
4
Equivalent  
Relay  
Diagram  
Vo  
Connection A – AC/DC  
Opto-isolation  
1
Opto-isolation  
6
+
1
2
4 and 6  
5
Vo  
Equivalent  
Relay  
Diagram  
5
2
3
-
4
Connection B – DC Only  
2
Package Outline Drawings  
ASSR-1611 6-Pin DIP Package  
7.36 (0.290)  
7.88 (0.310)  
9.40 (0.370)  
9.90 (0.390)  
TYPE  
6
5
4
NUMBER  
0.20 (0.008)  
0.33 (0.013)  
LEAD FREE  
DATE CODE  
UL  
A XXXX  
YYWW UR  
RECOGNITION  
5¡ TYP.  
PIN  
ONE  
DOT  
1
2
3
6.10 (0.240)  
6.60 (0.260)  
1.78 (0.070) MAX.  
4.70 (0.185) MAX.  
(0.020)  
(0.040)  
2.66 (0.105) MIN.  
0.45 (0.018)  
2.16 (0.085)  
2.54 (0.100)  
0.65 (0.025)  
2.28 (0.090)  
2.80 (0.110)  
DIMENSIONS IN MILLIMETERS AND (INCHES).  
ASSR-1611 6-Pin DIP Package with Gull Wing Surface Mount Option 300  
9.65 0.25  
(0.380 0.010)  
LAND PATTERN RECOMMENDATION  
6.35 0.25  
(0.250 0.010)  
10.9 (0.430)  
2.0 (0.080)  
1.27 (0.050)  
9.65 0.25  
(0.380 0.010)  
1.78  
(0.070)  
MAX.  
7.62 0.25  
(0.300 0.010)  
0.20 (0.008)  
0.635 0.130  
(0.025 0.005)  
0.30 (0.013)  
4.19  
MAX.  
(0.165)  
0.635 0.25  
(0.025 0.010)  
2.54  
(0.100)  
TYP.  
2.29  
(0.090)  
12¡ NOM.  
NOTE: FLOATING LEAD PROTRUSION IS 0.25 mm (10 mils) MAX.  
3
Solder Reflow Temperature Profile  
Recommended reflow condition as per JEDEC Standard, J-STD-020 (latest revision). Non-Halide Flux should be used.  
Regulatory Information  
The ASSR-1611 is approved by the following organizations:  
UL  
Approved under UL 1577, component recognition program up to V = 3750 V  
and 5000 V  
(option x21).  
ISO  
RMS  
RMS  
Approved under CSA Component Acceptance Notice #5.  
Insulation and Safety Related Specifications  
Parameter  
Symbol  
ASSR-1611  
Units  
Conditions  
Minimum External Air Gap  
(Clearance)  
L(101)  
7.1  
mm  
Measured from input terminals to output terminals,  
shortest distance through air.  
Minimum External Tracking  
(Creepage)  
L(102)  
CTI  
7.4  
mm  
mm  
Measured from input terminals to output terminals,  
shortest distance path along body.  
Minimum Internal Plastic Gap  
(Internal Clearance)  
Through insulation distance conductor to conductor,  
usually the straight line distance thickness between the  
emitter and detector.  
0.08  
175  
Tracking Resistance  
V
DIN IEC 112/VDE 0303 Part 1  
(Comparative Tracking Index)  
Isolation Group (DIN VDE0109)  
IIIa  
Material Group (DIN VDE 0109)  
4
Absolute Maximum Ratings  
Parameter  
Symbol  
TS  
Min.  
-55  
-40  
Max.  
125  
85  
Units  
°C  
Note  
Storage Temperature  
Operating Temperature  
Junction Temperature  
Lead Soldering Cycle Temperature  
Time  
TA  
°C  
TJ  
125  
260  
10  
°C  
°C  
sec  
mA  
mA  
mA  
V
Input Current  
Average  
Surge  
IF  
25  
50  
Transient  
1000  
5
Reversed Input Voltage  
VR  
Input Power Dissipation  
PIN  
PO  
40  
mW  
mW  
mW  
Output Power  
Dissipation  
Connection A  
625  
880  
Connection B  
Connection A  
Average Output  
Current  
IO  
2.5  
5
A
A
1
1
(TA=25°C, TC ≤ 100°C) Connection B  
Output Voltage  
(TA=25°C)  
Connection A  
Connection B  
VO  
- 60  
0
60  
60  
V
V
2
Solder Reflow Temperature Profile  
See Lead Free IR Profile  
Recommended Operating Conditions  
Parameter  
Symbol  
Min.  
Max.  
20  
Units  
Note  
Input Current (ON)  
Input Voltage (OFF)  
Operating Temperature  
IF(ON)  
VF(OFF)  
TA  
5
mA  
V
0
0.8  
-40  
+85  
°C  
Package Characteristics  
Unless otherwise specified, operating temperature T = 25°C.  
A
Parameter  
Sym. Min.  
Typ.  
Max. Units Conditions  
Note  
Input-Output Momentary  
Withstand Voltage  
3750  
RH ≤ 50%, t=1min, TA=25°C  
VISO  
VRMS  
3, 4  
5000  
RH ≤ 50%, t=1min, TA=25°C, option X21  
VI-O=500 Vdc  
Input-Output Resistance  
Input-Output Capacitance  
RI-O  
CI-O  
1014  
0.8  
pF  
VI-O=0Vdc, f=1MHz  
3
5
Electrical Specifications (DC)  
Over recommended operating T = - 40°C to 85°C, I = 5mA to 10mA, unless otherwise specified.  
A
F
Parameter  
Sym.  
Min.  
60  
Typ.  
Max.  
Units  
V
Conditions  
Fig.  
3
Note  
Output Withstand Voltage  
|
|
68  
VF=0.8V, IO=250µA, TA=25°C  
VF=0.8V, IO=250µA  
VF=0.8V, VO=60V, TA=25°C  
VF=0.8V, VO=55V  
VO(OFF)  
55  
V
3
Output Leakage Current  
IO(OFF)  
0.01  
0.1  
5
µA  
µA  
pF  
µV  
V
5
4
Output Off-Capacitance  
Output Offset Voltage  
C(OFF)  
1400  
1
VF=0.8V, VO=0V, f=1MHz  
IF=5mA, IO=0mA  
6
| V(OS)  
|
Input Reverse Breakdown  
Voltage  
VR  
5
IR=10µA  
Input Forward Voltage  
VF  
1.1  
1.3  
1.7  
0.1  
V
IF=5mA  
7, 8  
9, 10  
11  
Output On-  
resistance  
Connection A R(ON)  
Connection B  
0.065  
0.02  
IF=5mA, IO=2.5A,  
Pulse ≤30ms, TA=25°C  
5
0.035  
Switching Specifications (AC)  
Over recommended operating T = - 40°C to 85°C, I = 5mA to 10mA, unless otherwise specified.  
A
F
Parameter  
Sym.  
Min.  
Typ.  
Max.  
5.0  
10.0  
2.5  
5.0  
0.5  
1
Units  
ms  
Conditions  
Fig.  
Note  
Turn On Time  
TON  
3.2  
IF=5mA, IO=1.0A, TA=25°C  
IF=5mA, IO=1.0A  
12, 13  
ms  
1.6  
ms  
IF=10mA, IO=1.0A, TA=25°C  
IF=10mA, IO=1.0A  
12, 14  
15, 16  
15, 17  
ms  
Turn Off Time  
TOFF  
0.1  
ms  
IF=5mA, IO=1.0A, TA=25°C  
IF=5mA, IO=1.0A  
ms  
0.06  
0.2  
0.5  
ms  
IF=10mA, IO=1.0A, TA=25°C  
IF=10mA, IO=1.0A  
ms  
Output Transient  
Rejection  
dVO/dt  
1
1
7
kV/µs  
∆VO=60V, RM ≥ 1MΩ,  
CM=1000pF, TA=25°C  
6
6
Input-Output  
dVI-O/dt  
≥10  
kV/µs  
VDD=5V, ∆VI-O=1000V,  
Transient Rejection  
RL=1kΩ, CL=25pF, TA=25°C  
Notes:  
1. For derating, refer to Figure 1 and 2.  
2. The voltage across the output terminals of the relay should not exceed this rated withstand voltage. Over-voltage protection circuits should be  
added in some applications to protect against over-voltage transients.  
3. Device is considered as a two terminal device: pins 1, 2, and 3 shorted together and pins 5, 6, and 7 shorted together.  
4. The Input-Output MomentaryWithstandVoltage 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 Characteristics Table (if applicable), your equipment level  
safety specification, or Avago Application Note 1074, “Optocoupler Input-Output Endurance Voltage.”  
5. During the pulsed R  
measurement ( I duration ≤30ms), ambient (T ) and case temperature (T ) are equal.  
(ON)  
O A C  
6. For the transient rejection measurements, refer to Avago whitepaper, AV01-0610EN, “Solid State Relay Transient Immunity.  
6
2.5  
2
IF= 10mA,  
4-Layer  
IF= 10mA,  
4-Layer  
5
4
3
2
1
0
1.5  
1
Safe  
Operating  
Area  
Safe  
Operating  
Area  
0.5  
0
-40  
-20  
0
20  
40  
60  
80  
100  
-40  
-20  
0
20  
40  
60  
80  
100  
TA-TEMPERATURE-˚C  
TA-TEMPERATURE-˚C  
Figure 1. Maximum Output Current rating vs Ambient Temperature  
(AC/DC Connection)  
Figure 2. Maximum Output Current rating vs Ambient Temperature  
(DC Connection)  
1.E-05  
1.E-06  
1.E-07  
1.E-08  
1.E-09  
1.E-10  
1.E-11  
1.1  
1.05  
1
0.95  
0.9  
-40  
-40  
-15  
10  
35  
60  
85  
-20  
0
20  
40  
60  
80  
100  
TA-TEMPERATURE-˚C  
TA-TEMPERATURE-˚C  
Figure 3. Normalized Typical Output Withstand Voltage vs Ambient  
Termperature  
Figure 4. Typical Output Leakage vs Ambient Temperature  
50  
40  
30  
20  
10  
0
1500  
1300  
1100  
900  
700  
500  
300  
100  
0
10  
20  
30  
40  
50  
60  
0
10  
20  
30  
40  
50  
60  
V0(OFF)-OUTPUT VOLTAGE - V  
V0(OFF)-OUTPUT VOLTAGE - V  
Figure 5. Typical Output Leakage vs Output Voltage  
Figure 6. Typical Output Capacitance vs Output Voltage  
7
20  
18  
16  
14  
12  
10  
8
1.7  
1.6  
1.5  
1.4  
1.3  
1.2  
1.1  
1
TA = -40˚C  
TA = 0˚C  
IF = 10mA  
TA = 25˚C  
TA = 85˚C  
IF = 5mA  
6
4
2
0.8  
1
1.2  
1.4  
1.6  
1.8  
-40  
-20  
0
20  
40  
60  
80  
100  
TA - TEMPERATURE - ˚C  
VF - FORWARD VOLTAGE -V  
Figure 7. Typical Forward Voltage vs Temperature  
Figure 8. Typical Forward Current vs Forward Voltage over Temperature  
2.5  
120  
2
1.5  
1
TA = -40˚C  
100  
TA = 25˚C  
TA = 85˚C  
IF = 5mA and 10mA  
0.5  
0
80  
60  
40  
-0.5  
-1  
-1.5  
-2  
-2.5  
-0.3  
-0.2  
-0.1  
0
0.1  
0.2  
0.3  
-50  
-25  
0
25  
50  
75  
100  
125  
VO - OUTPUT VOLTAGE - V  
TA - TEMPERATURE - ˚C  
Figure 9. Typical Output Current vs Typical Output Voltage over Temperature  
Figure 10. Typical Ron (AC/DC Connection) vs Temperature  
50  
5
40  
4
TA = 25˚C  
IF= 5mA and 10mA  
30  
3
2
1
0
20  
10  
0
0
5
10  
15  
20  
-50  
-25  
0
25  
50  
75  
100  
125  
IF (ON) - INPUT CURRENT - mA  
T
A
- TEMPERATURE - ˚C  
Figure 11. Typical Ron (DC Connection) vs Temperature  
Figure 12. Typical Turn On Time vs Input Current  
8
100  
80  
5
4
3
2
1
0
IF = 5mA  
TA = 25˚C  
60  
40  
20  
IF = 10mA  
0
0
5
10  
15  
20  
-40  
-20  
0
20  
40  
60  
80  
100  
TA - TEMPERATURE - ˚C  
IF(ON) - INPUT CURRENT - mA  
Figure 13. Typical Turn On Time vs Ambient Temperature  
Figure 14. Typical Turn Off Time vs Input Current  
100  
80  
IF = 5mA  
60  
IF = 10mA  
40  
20  
0
-40  
-20  
0
20  
40  
60  
80  
100  
TA - TEMPERATURE - ˚C  
Figure 15. Typical Turn Off Time vs Ambient Temperature  
PULSE GEN.  
VDD  
Zo = 50  
tf=tr=5ns  
50%  
50%  
ASSR-1611  
R
L
OUTPUT  
IF  
IF  
1
6
P.W. = 10ms  
OUTPUT Vo  
MONITORING  
NODE  
CL*  
INPUT  
MONITORING  
NODE  
90%  
OUTPU T  
Vo  
2
3
5
4
R
200ohm  
10%  
(*CLIS APPROXIMATELY  
25pF WHICH INCLUDES  
PROBE AND STRAY  
tON  
tOFF  
WIRING CAPACITANCE)  
Figure 16. Switching Circuit  
9
OUTPUT Vo  
MONITORING  
NODE  
ASSR-1611  
1
6
INPUT OPEN  
5
4
2
3
VPEAK  
CM=1nF RM=1Mohm  
+
PULSE GEN  
Zo = 50  
CM INCLUDES PROBE AND FIXTURE CAPACITANCE  
RM INCLUDES PROBE AND FIXTURE RESISTANCE  
90%  
90%  
VPEAK  
10%  
10%  
tR  
tF  
VO(MAX)< 0.6V  
dV0  
dt  
( 0 .8 )VPEAK  
tR  
( 0 .8 )VPEAK  
=
OR  
tF  
OVER SHOOT ON VPEAK IS TO BE 10%  
Figure 17. Output Transient Rejection Test Circuit  
10  
VDD = 5V  
IF  
ASSR-1611  
RL =1koh m  
OUTPUT Vo  
MONITORING  
NODE  
B
A
1
6
CL*  
2
3
5
4
(*CLIS APPROXIMATELY 25pF WHICH  
INCLUDES PROBE AND STRAY WIRING  
CAPACITANCE)  
+
V
FF  
VI-O  
+
PULSE GEN.  
Zo =50  
90%  
90%  
VI-O(PEAK)  
10%  
10%  
t
t
R
F
VO(OFF)  
SWITCH AT POSITION ‘A’: IF = 0mA  
VO(OFF) (min)> 4V  
VO(ON) (min)> 0.8V  
VO(ON)  
SWITCH AT POSITION ‘B’: IF = 5mA  
Figure 18. Input-Output Transient Rejection Test Circuit  
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 in the United States and other countries.  
Data subject to change. Copyright © 2005-2009 Avago Technologies. All rights reserved.  
AV02-1181EN - June 11, 2009