VDE
Max. high capacity 10A
in a slim SIL package
Power 1 Form A
DC High Capacity (AQZ19❍)
New
4.5
.177
24.5
.965
20.5
.807
Height includes
standoff
mm inch
1
−
2
+
3
−
4
+
RoHS compliant
FEATURES
TYPICAL APPLICATIONS
1. High capacity type power
PhotoMOS.
Can switch a wide range of currents and
voltages. Can control various types of
loads, from very small loads to a max.
10 A DC current for sequencers, motors,
and lamps.
2. Low on-resistance and high
sensitivity.
Low on-resistance of less than typ. 8 mΩ
(AQZ192). High sensitivity LED operate
current of typ. 0.7 mA.
3. 4-pin SIL type
(Thickness: Max. 4.5 mm .177 inch)
(L) 24.5 mm × (W) 4.5 mm × (H) 20.5 mm
(L) .965 inch × (W) .177 inch × (H) .807
inch.
4. Low-level off state leakage current
of max. 10 μA
5. Controls low-level analog signals
The triac, photocoupler, or SSR cannot
be used to control signals of less than
several hundred mV. The high capacity
type power PhotoMOS feature extremely
low closed-circuit offset voltage to enable
control of low-level analog signals without
distortion.
• Photovoltaic power generation system
• Battery system
• Measuring instruments
• Power supply unit
• Industrial machines
TYPES
DC only
Output rating*
Load voltage
Load current
60 V
10 A
200 V
5A
Package
Part No.
SIL4-pin
AQZ192
AQZ197
Packing quantity
Inner carton
Outer carton
20 pcs
500 pcs
Note: Please refer to the cautions for use regarding the recommended operation load voltage.
*Load voltage and load current of DC type: DC
RATING
1. Absolute maximum ratings (Ambient temperature: 25°C 77°F)
Item
LED forward current
LED reverse voltage
Peak forward current
Power dissipation
Load voltage (DC)
Continuous load current (DC)
Output
Peak load current
Power dissipation
Total power dissipation
I/O isolation voltage
Operating
Temperature limits
Storage
Input
Symbol
IF
VR
IFP
Pin
VL
IL
Ipeak
Pout
PT
Viso
Topr
Tstg
AQZ192
AQZ197
50 mA
5V
1A
75 mW
60 V
10 A
30 A
f = 100Hz, Duty factor = 0.1%
200 V
5A
15 A
2.0 W
2.0 W
3,000 V AC
–40°C to +85°C –40°F to +185°F
–40°C to +100°C –40°F to +212°F
–1–
Remarks
100 ms (1shot), VL = DC
Non-condensing at low temperatures
ASCTB308E-1 201404-T
Power 1 Form A DC High Capacity (AQZ19)
2. Electrical characteristics (Ambient temperature: 25°C 77°F)
Item
Symbol
Typical
LED operate current
Input
LED dropout voltage
On resistance
Output
Initial I/O isolation resistance
Maximum
Maximum
Typical
Maximum
Typical
Maximum
Typical
Maximum
Minimum
Maximum operating frequency
Maximum
Off state leakage current
Turn on time*
Turn off time*
Transfer
characteristics
I/O capacitance
AQZ197
Remarks
0.7 mA
IFon
Maximum
Minimum
Typical
Typical
Maximum
Typical
LED turn off current
AQZ192
3.0 mA
0.2 mA
0.5 mA
1.35 V (1.17 V at IF = 10 mA)
1.5 V
8 mΩ
31 mΩ
IFoff
VF
Ron
15 mΩ
IL = 100 mA
VL = 10 V
IF = 50 mA
IF = 10 mA, IL = Max.
Within 1 s on time
50 mΩ
10 μA
ILeak
1.0 ms
Ton
IF = 0 mA, VL = Max.
0.7 ms
IF = 10 mA, IL = 100 mA, VL = 10 V
3.0 ms
0.11 ms
Toff
0.05 ms
Riso
1.0 ms
1.3 pF
3.0 pF
1,000 MΩ
—
0.5 cps
Ciso
IF = 10 mA, IL = 100 mA, VL = 10 V
f = 1 MHz, VB = 0 V
500 V DC
IF = 10 mA, Duty factor = 50%,
VL = Max., IL = Max.
Note: Please refer to the “Schematic and Wiring Diagrams” for connection method.
*Turn on/off time
Input
90%
Output
10%
Ton
Toff
RECOMMENDED OPERATING CONDITIONS
Please obey the following conditions to ensure proper device operation and resetting.
Item
Input LED current
Symbol
IF
Recommended value
Unit
10
mA
■ These products are not designed for automotive use.
If you are considering to use these products for automotive applications, please contact your local Panasonic Corporation
technical representative.
REFERENCE DATA
1. Load current vs. ambient temperature
characteristics
2. Load current vs. ambient temperature
characteristics in adjacent mounting
3. On resistance vs. ambient temperature
characteristics
Allowable ambient temperature: –40°C to +85°C
–40°F to +185°F
Sample: All types
IL: Load current;
IL (max.): Maximum continuous load current
LED current: 10 mA;
Continuous load current: 10 A DC (AQZ192)
5 A DC (AQZ197)
8
6
AQZ197
100
80
=5mm
.197 inch
60
40
2
20
0
20
40
60
8085 100
+32 +68 +104 +140 +176+185 +212
Ambient temperature, °C °F
0.08
0.06
AQZ197
0.04
4
0
-40 -20
-40 -4
=20mm
.787 inch
=10mm
.394 inch
On resistance, Ω
AQZ192
IL/IL(max.)×100, %
Load current, A
10
0.1
120
12
0
-40 -20
-40 -4
0.02
AQZ192
=Adjacent mounting pitch
0
20
40
60
8085 100
+32 +68 +104 +140 +176+185 +212
Ambient temperature, °C °F
–2–
0
-40
-40
-20
-4
0
20
40
60
80 85
+32 +68 +104 +140 +176 +185
Ambient temperature, °C °F
ASCTB308E-1 201404-T
Power 1 Form A DC High Capacity (AQZ19)
5. Turn off time vs. ambient temperature
characteristics
6. LED operate current vs. ambient
temperature characteristics
LED current: 10 mA; Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC)
LED current: 10 mA; Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC)
Sample: All types
Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC)
0.5
4
0.4
3
2
0.3
0.2
AQZ192
AQZ192
1
5
0.1
-40
-40
-20
-4
0
0
20
40
60
80 85
+32 +68 +104 +140 +176 +185
Ambient temperature, °C °F
-40
-40
-20
-4
4
3
2
1
AQZ197
AQZ197
0
LED operate current, mA
5
Turn off time, ms
Turn on time, ms
4. Turn on time vs. ambient temperature
characteristics
0
0
20
40
60
80 85
+32 +68 +104 +160 +176 +185
Ambient temperature, °C °F
-40
-40
-20
-4
0
20
40
60
80 85
+32 +68 +104 +140 +176 +185
Ambient temperature, °C °F
7. LED turn off current vs. ambient temperature
characteristics
8. LED dropout voltage vs. ambient
temperature characteristics
9. Current vs. voltage characteristics of output
at MOS portion
Sample: All types
Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC)
Sample: All types
LED current: 5 to 50 mA
Ambient temperature: 25°C 77°F
4
3
2
1
Current, A
1.5
LED dropout voltage, V
LED turn off current, mA
5
1.4
12
10
AQZ192
8
6
AQZ197
4
1.3
50mA
1.2
30mA
20mA
1.1
10mA
5mA
-0.5 -0.4 -0.3 -0.2 -0.1
2
0.1 0.2 0.3 0.4 0.5
-2
Voltage, V
-4
-6
-8
1
-10
0
-40
-40
-20
-4
0.9
0
20
40
60
80 85
+32 +68 +104 +140 +176 +185
Ambient temperature, °C °F
-40
-40
-20
-4
-12
0
20
40
60
80 85
+32 +68 +104 +140 +176 +185
Ambient temperature, °C °F
10. Leakage current vs. load voltage
characteristics
11. Turn on time vs. LED forward current
characteristics
12. Turn off time vs. LED forward current
characteristics
Ambient temperature: 25°C 77°F
Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC);
Ambient temperature: 25°C 77°F
Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC);
Ambient temperature: 25°C 77°F
10
0.5
8
0.4
10–6
AQZ192
10–9
Turn off time, ms
Turn on time, ms
–3
Leakage current, A
10
6
4
0.3
0.2
AQZ197
2
0
AQZ192
0.1
AQZ192
10–12
50
Load voltage, V
100
AQZ197
0
0
10
20
30
40
50
LED forward current, mA
–3–
AQZ197
60
0
0
10
20
30
40
50
LED forward current, mA
60
ASCTB308E-1 201404-T
Power 1 Form A DC High Capacity (AQZ19)
14. Output capacitance vs. applied voltage
characteristics
Sample: All types; LED current: 10 mA;
Ambient temperature: 25°C 77°F
VL: Load voltage, VL (Max.): Max. rated load voltage
IL: Load current, IL (Max.): Max. rated continuous load
current
Frequency: 1 MHz; Ambient temperature: 25°C 77°F
10
3000
duty = 50%
9
Output capacitance, pF
Maximum operating frequency, time/s
13. Maximum operating frequency vs. load
voltage/current characteristics
8
7
6
5
4
3
2
2500
2000
1500
AQZ197
1000
500
AQZ192
1
0
0
0
0
10 20 30 40 50 60 70 80 90 100
VL × I L
× 100, %
VL (max.) × IL (max.)
DIMENSIONS (mm inch)
20
40
60
80
Applied voltage, V
The CAD data of the products with a
CAD Data
CAD Data
100
mark can be downloaded from: http://industrial.panasonic.com/ac/e/
External dimensions
PC board pattern (Bottom view)
4.5 max.
.177 max.
24.5 max.
.965 max.
2.54
.100
10.16
.400
1.2
.047
7.62
.300
4-1.0 dia.
4-.039 dia.
20.5 max.
0.8 .807 max.
.031
Tolerance: ±0.1 ±.004
Schematic
4-1.6
4-.063
2.54
.100
1.2
.047
4-0.7
4-.028
10.16
.400
7.62
.300
3.7
.146
0.25
.010
Input
– +
Output
–
+
General tolerance: ±0.2 ±.008
CAUTIONS FOR USE
SAFETY WARNINGS
• Do not use the product under conditions
that exceed the range of its specifications. It may cause overheating, smoke,
or fire.
1. Applying stress that exceeds the
absolute maximum rating
If the voltage or current value for any of
the terminals exceeds the absolute
maximum rating, internal elements will
deteriorate because of the overvoltage or
overcurrent. In extreme cases, wiring
may melt, or silicon P/N junctions may be
destroyed.
Therefore, the circuit should be designed
in such a way that the load never exceed
the absolute maximum ratings, even
momentarily.
• Do not touch the recharging unit while
the power is on. There is a danger of
electrical shock.
Be sure to turn off the power when
performing mounting, maintenance, or
repair operations on the device (including
connecting parts such as the terminal
board and socket).
• Check the connection diagrams in the
catalog and be sure to connect the
terminals correctly.
Erroneous connections could lead to
unexpected operating errors, overheating, or fire.
2. Derating design
Derating is essential in any reliable
design and is a significant factor for
product life.
Even if the conditions of use
(temperature, current, voltage, etc.) of the
product fall within the absolute maximum
ratings, reliability can be reduced
remarkably when continually used under
high load (high temperature, high
humidity, high current, high voltage, etc.).
Therefore, please derate sufficiently
below the absolute maximum rating and
verify operation of the actual design
before use.
Also, if there is the possibility that the
inferior quality of this product could
possibility cause great adverse affect on
human life or physical property we
recommend that, from the perspective of
a manufacturer’s liability, sufficient
amount of derating to be added to the
maximum rating value and implement
safety measures such as fail-safe circuit.
–4–
ASCTB308E-1 201404-T
Power 1 Form A DC High Capacity (AQZ19)
3. Short across terminals
Do not short circuit between I/O terminals
when device is energized, since there is
possibility of breaking of the internal IC.
Power type
1
4. Surge voltages at the input
If reverse surge voltages are present at
the input terminals, connect a diode in
reverse parallel across the input
terminals and keep the reverse voltages
below the reverse breakdown voltage.
Power type
2
3
4
Load
Add a clamp diode
to the load
1
2
3
4
Load
Add a CR snubber
circuit to the load
1
2
3
4
Load
3
1
2
LED current, mA
100
80
60
40
20
-20
-4
0
20
40
60
80 85 100
+32 +68 +104 +140 +176 +185 +212
Ambient temperature, °C °F
6. Ripple in the input power supply
If ripple is present in the input power
supply, observe the following:
1) Please maintain the LED current at
10 mA for Emin.
2) Please make sure for Emax. is no higher
the LED current at than 50 mA.
Emin.
11. Packing format for relay
Tube packaging
The relays are packaged in a tube so that
pin No. 1 is on the stopper B side.
Observe correct orientation when
mounting them on PC boards.
(Power type)
Stopper B
Stopper A
4
5. LED current vs. ambient
temperature characteristics
Please keep the LED current to within the
range given below.
0
-40
-40
Add a varistor to the
PhotoMOS®
10. Soldering
When soldering PC board terminals,
keep soldering time to within 10 seconds
at 260°C 500°F.
• When using lead-free solder, we
recommend a type with an alloy
composition of Sn 3.0 Ag 0.5 Cu. Please
inquire about soldering conditions and
other details.
Emax.
7. Spike voltages at the output
1) If an inductive load generates spike
voltages which exceed the absolute
maximum rating, the spike voltage must
be limited.
2) Even if spike voltages generated at the
load are limited with a clamp diode or
snubber circuit if the circuit wires are
long, spike voltages will occur by
inductance. Keep wires as short as
possible to minimize inductance.
8. Cleaning solvents compatibility
We recommend cleaning with an organic
solvent. If you cannot avoid using
ultrasonic cleansing, please ensure that
the following conditions are met, and
check beforehand for defects.
• Frequency: 27 to 29 kHz
• Ultrasonic output: No greater than
0.25W/cm2 (Note)
• Cleaning time: No longer than 30
seconds
• Cleanser used: Asahiklin AK-225
• Other: Submerge in solvent in order to
prevent the PC board and elements
from being contacted directly by the
ultrasonic vibrations.
Note: Applies to unit area ultrasonic output for
ultrasonic baths.
9. Notes for mounting
1) If many different packages are
combined on a single substrate, then
lead temperature rise is highly dependent
on package size. For this reason, please
make sure that the temperature of the
terminal solder area of the PhotoMOS ®
falls within the temperature conditions
“10. Soldering” before mounting.
2) If the mounting conditions exceed the
recommended solder conditions, resin
strength will fall and the nonconformity of
the heat expansion coefficient of each
constituent material will increase
markedly, possibly causing cracks in the
package, severed bonding wires, and the
like. For this reason, please inquire with
us about whether this use is possible.
–5–
12. Transportation and storage
1) Extreme vibration during transport will
warp the lead or damage the device.
Handle the outer and inner cartons with
care.
2) Storage under extreme conditions will
cause soldering degradation, external
appearance defects, and deterioration of
the characteristics. The following storage
conditions are recommended:
• Temperature: 0 to 45°C 32 to 113°F
• Humidity: Less than 70% R.H.
• Atmosphere: No harmful gasses such
as sulfurous acid gas, minimal dust.
13. Input LED current (Standard power
type)
For rising and dropping ratio (di/dt) of
input LED current, maintain min. 100
μA/s.
14. Adjacent mounting (Power type)
1) When relays are mounted close
together with the heat-generated devices,
ambient temperature may rise
abnormally. Mounting layout and
ventilation of power type should be
considered.
2) When many power type relays are
mounted close together, load current
should be reduced. (Refer to the date of
“Load current vs. ambient temperature
characteristics in adjacent mounting.”)
15. Recommended load voltage
As a guide in selecting PhotoMOS ® ,
please refer to the following table.
Part No.
AQZ192
AQZ197
Absolute maximum
ratings
Load
voltage
60 V DC
200 V DC
Load
current
10 A DC
5 A DC
Recommended
load voltage
5, 12, 24 V DC
100 V DC
ASCTB308E-1 201404-T