PhotoMOS
RF
SSOP 1 Form A Low C×R
Low C×R type SSOP package 60 V, 80 V and 100 V load voltage
FEATURES
2.65
Miniature SSOP package (Compared to SOP
4-pin models, volume ratio can be reduced by
approximately 53%.)
Load voltage: 60 V, 80 V and 100 V
Low C×R
60 V load voltage Output capacitance: Typ. 27 pF, On resistance: Typ. 0.8Ω
80 V load voltage Output capacitance: Typ. 4.5 pF, On resistance: Typ. 10.5Ω
100 V load voltage Output capacitance: Typ. 5.8 pF, On resistance: Typ. 8.8Ω
Turn on time (80 V and 100 V load voltage type: Typ.
0.05 ms)
4.45
1.80
1
4
2
3
TYPICAL APPLICATIONS
(Unit: mm)
Measuring and testing equipment
Semiconductor testing equipment, Probe cards,
Datalogger, Board tester and other testing equipment
Telecommunication and broadcasting equipment
Medical equipment
Ultrasonic wave diagnostic machine
Multi-point recorder
Data logger, Warping and Thermocouple, etc.
Note: Please contact our sales representative for automotive applications of PhotoMOS.
TYPES
Part No.
Output rating*1
Category
AC/DC dual use
Packing quantity
Tape and reel
packing style 1Y
Load voltage
Load current
Tape and reel
packing style Y*2
60 V
400 mA
AQY222R2VY
AQY222R2V1Y
80 V
120 mA
AQY225R2VY
AQY225R2V1Y
100 V
120 mA
AQY225R3VY
AQY225R3V1Y
Tape and reel
Packing style Y
1-reel: 3,500 pcs.
Outer carton: 3,500 pcs.
Packing style 1Y
1-reel: 1,000 pcs.
Outer carton: 1,000 pcs.
Note: For space reasons, the three initial letters of the part number “AQY”, the package (SSOP) indication “V”, and the packaging style “Y” are not marked on the device.
(Ex. the label for product number AQY222R2VY is 222R2.)
*1. Indicate the peak AC and DC values.
*2. Only tape and reel package is available.Tape and reel packing style Y: picked from the 1/4-pin side. For part numbers with picked from the 2/3-pin side, change the “Y" at the end
to “W" when ordering.
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Panasonic Corporation 2022
ASCTB34E 202201
PhotoMOS RF SSOP 1 Form A Low C×R
RATING
Absolute maximum ratings (Ambient temperature: 25°C)
Output side
Input side
Item
Symbol
AQY222R2V
AQY225R2V
LED forward current
IF
50 mA
LED reverse voltage
VR
5V
Peak forward current
IFP
1A
Pin
VL
60 V
Continuous load current
IL
0.4 A
Ipeak
Power dissipation
Pout
Remarks
f = 100 Hz,
Duty Ratio = 0.1%
75 mW
Power dissipation
Load voltage (peak AC)
Peak load current
AQY225R3V
80 V
1.2 A
100 V
0.12 A
Peak AC, DC
0.3 A
100 ms (1 shot),
VL = DC
250 mW
Total power dissipation
PT
300 mW
I/O isolation voltage
Viso
1,500 Vrms
Ambient temperature (Operating)
Topr
-40 to +85°C
Ambient temperature (Storage)
Tstg
-40 to +100°C
Junction temperature
Tj
125°C
(Avoid icing and
condensation)
Electrical characteristics (Ambient temperature: 25°C)
Item
Input
LED operate
current
LED turn off
current
LED dropout
voltage
Symbol
Typical
Maximum
Minimum
Typical
Typical
Maximum
IFon
Output
Transfer characteristics
Off state leakage
current
Turn on time*2
Turn off time*2
I/O capacitance
Initial I/O isolation
resistance
AQY225R3V
0.1 mA
IFoff
0.45 mA
1.32 V (1.14 V at IF = 5 mA)
VF
IF = 50 mA
1.5 V
0.8 Ω
10.5 Ω
8.8 Ω
1.25 Ω
15 Ω
14 Ω
27 pF
4.5 pF
5.8 pF
40 pF
6 pF
Ron
Typical
Maximum
Typical
Maximum
Typical
Maximum
Typical
Maximum
Typical
Maximum
Minimum
Cout
-
ILeak
8 pF
0.15 ms
0.08 ms
0.05 ms
AQY222R2V:
IF = 5 mA, VL = 10 V, RL = 100 Ω
AQY225R2V:
IF = 5 mA, VL = 10 V, RL = 125 Ω
AQY225R3V:
IF = 5 mA, VL = 10 V, RL = 125 Ω
0.05 ms
0.2 ms
0.8 pF
Ciso
Riso
IF = 0 mA
VB = 0 V
f = 1 MHz
IF = 0 mA
VL = Max.
0.5 ms
Toff
AQY222R2V:
IF = 5 mA, IL = 400 mA
AQY225R2V:
IF = 5 mA, IL = 80 mA
AQY225R3V:
IF = 5 mA, IL = 80 mA
Within 1 s
0.01 nA
10 nA*1
Ton
Condition
AQY222R2V: IL = 400 mA
AQY225R2V: IL = 80 mA
AQY225R3V: IL = 80 mA
3.0 mA
Maximum
Output
capacitance
AQY225R2V
0.5 mA
Typical
On resistance
AQY222R2V
1.5 pF
f = 1 MHz
VB = 0 V
1,000 MΩ
500 V DC
Note: Variation possible through combinations of output capacitance and on resistance. For more information, please contact our sales representative.
*1.Available as custom orders (1 nA or less), except AQY222R2V
*2. Turn on/Turn off time
Input
90%
10%
Output
Ton
Toff
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ASCTB34E 202201
PhotoMOS RF SSOP 1 Form A Low C×R
Recommended operating conditions (Ambient temperature: 25°C)
Please use under recommended operating conditions to obtain expected characteristics.
Item
Symbol
Min.
Max.
Unit
LED current
IF
5
30
mA
Load voltage (Peak AC)
VL
-
30
V
Continuous load current
IL
-
0.4
A
Load voltage (Peak AC)
VL
-
40
V
AQY222R2V
AQY225R2V
AQY225R3V
Continuous load current
IL
-
0.12
A
Load voltage (Peak AC)
VL
-
50
V
Continuous load current
IL
-
0.12
A
REFERENCE DATA
1-1.Load current vs. ambient temperature
characteristics
Allowable ambient temperature: –40 to +85°C
1-2.Load current vs. ambient temperature
characteristics
Allowable ambient temperature: –40 to +85°C
0.3
0.2
2.0
AQY225R2V, AQY225R3V
On resistance (Ω)
120
AQY222R2V
Load current (mA)
Load current (A)
0.4
Measured portion: between terminals 3 and 4
LED current: 5 mA; Load voltage: 10 V (DC)
Continuous load current: Max. (DC)
140
0.5
2-1.On resistance vs. ambient temperature
characteristics
100
80
60
40
0.1
0
-40
1.0
AQY222R2V
0.5
20
-20
0
20
40
0
-40
8085 100
60
0
-20
Ambient temperature (°C)
20
40
60
0
8085 100
-40
Measured portion: between terminals 3 and 4;
LED current: 5 mA; Load voltage: 10 V (DC);
Continuous load current: 80 mA (DC)
3-1.Turn on time vs. ambient temperature
characteristics
0.4
0.16
Turn on time (ms)
40
Turn on time (ms)
0.20
0.3
0
-40
-20
0
AQY225R3V
20
40
60
Ambient temperature (°C)
8085
0.2
0.1
0
AQY225R2V
AQY225R3V
0.08
0.04
-40
-20
0
20
40
60
Ambient temperature (°C)
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80 85
0.12
AQY222R2V
AQY225R2V
60
LED current: 5 mA; Load voltage: 10 V (DC);
Continuous load current: 80 mA (DC)
0.5
10
40
3-2.Turn on time vs. ambient temperature
characteristics
50
20
20
Ambient temperature (°C)
LED current: 5 mA; Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC)
30
0
-20
Ambient temperature (°C)
2-2.On resistance vs. ambient temperature
characteristics
On resistance (Ω)
1.5
ー3ー
80 85
0
-40
0
-20
20
40
60
80 85
Ambient temperature (°C)
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ASCTB34E 202201
PhotoMOS RF SSOP 1 Form A Low C×R
4-1.Turn off time vs. ambient temperature
characteristics
LED current: 5 mA; Load voltage: 10 V (DC);
Continuous load current: 100 mA (DC)
4-2.Turn off time vs. ambient temperature
characteristics
LED current: 5 mA; Load voltage: 10 V (DC);
Continuous load current: 80 mA (DC)
0.5
3.0
0.3
0.2
AQY222R2V
LED operate current (mA)
0.16
Turn off time (ms)
Turn off time (ms)
Load voltage: 10 V (DC);
Continuous load current: 400 mA (DC)
0.20
0.4
5-1.LED operate current vs. ambient
temperature characteristics
0.12
0.08
AQY225R3V
2.5
2.0
1.5
1.0
AQY225R2V
0.1
0
0.04
-40
0
-20
20
40
60
0
80 85
-40
-20
Ambient temperature (°C)
20
40
60
0
80 85
-40
6-1.LED turn off current vs. ambient
temperature characteristics
3
2
60
2.0
1.5
1.0
AQY225R2V
4
3
2
AQY225R2V
1
AQY222R2V
AQY225R3V
-40
0
-20
20
40
60
80 85
Ambient temperature (°C)
-40
-20
0
20
40
60
0
80 85
8-1.Current vs. voltage characteristics of
output at MOS portion
LED current: 5 to 50 mA
1.5
Current (A)
1.4
AQY222R2V
40
60
80 85
8-2.Current vs. voltage characteristics of
output at MOS portion
200
150
AQY225R3V
100
AQY225R2V
50
1.3
50 mA
1.2
30 mA
10 mA
1.1
5 mA
-40
-20
0
20
40
60
-2.0 -1.5 -1.0 -0.5
-0.5 -0.4 -0.3 -0.2 -0.1
20 mA
1.0
20
250
1.0
0.5
0
-20
Measured portion: between terminals 3 and 4;
Ambient temperature: 25°C
Measured portion: between terminals 3 and 4;
Ambient temperature: 25°C
1.5
-40
Ambient temperature (°C)
Ambient temperature (°C)
7.LED dropout voltage vs. ambient
temperature characteristics
LED dropout voltage (V)
AQY225R3V
0
Current (mA)
0
80 85
5
2.5
0.5
40
Load voltage: 10 V (DC);
Continuous load current: 80 mA (DC)
LED turn off current (mA)
LED turn off current (mA)
4
20
6-2.LED turn off current vs. ambient
temperature characteristics
3.0
5
0
-20
Ambient temperature (°C)
Load voltage: 10 V (DC);
Continuous load current: 400 mA (DC)
Load voltage: 10 V (DC);
Continuous load current: 80 mA (DC)
LED operate current (mA)
0
Ambient temperature (°C)
5-2.LED operate current vs. ambient
temperature characteristics
1
AQY222R2V
0.5
80 85
0.1 0.2 0.3 0.4 0.5
-0.5
Voltage (V)
0 0.5 1.0 1.5 2.0
-50
Voltage (V)
-100
-150
-1.0
-200
-250
-1.5
Ambient temperature (°C)
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ASCTB34E 202201
PhotoMOS RF SSOP 1 Form A Low C×R
9-1.Off state leakage current vs. load
voltage characteristics
9-2.Off state leakage current vs. load
voltage characteristics
Measured portion: between terminals 3 and 4;
Ambient temperature: 25°C
10-1.Turn on time vs. LED forward current
characteristics
Measured portion: between terminals 3 and 4;
Ambient temperature: 25°C
Measured portion: between terminals 3 and 4;
Load voltage: 10 V (DC); Continuous load current:
100 mA (DC); Ambient temperature: 25°C
0.5
10-3
Off state leakage current (A)
10-6
10-9
AQY222R2V
0.4
Turn on time (ms)
Off state leakage current (A)
10-3
10-6
0.3
0.2
10-9
AQY225R2V
AQY222R2V
0.1
10-12
10-12
0
20
40
60
80
100
AQY225R3V
0
20
40
10-2.Turn on time vs. LED forward current
characteristics
0
100
11-1.Turn off time vs. LED forward current
characteristics
AQY225R2V
AQY225R3V
0.05
0.2
30
40
50
0
60
0
10
20
30
40
50
60
0.15
0.10
AQY225R2V
AQY225R3V
0.05
AQY222R2V
LED forward current (mA)
30
0.20
0.3
0.1
20
20
Measured portion: between terminals 3 and 4;
Load voltage: 10 V (DC); Continuous load current:
80 mA (DC); Ambient temperature: 25°C
Turn off time (ms)
Turn off time (ms)
0.10
10
10
11-2.Turn off time vs. LED forward current
characteristics
0.4
0.15
0
0
LED forward current (mA)
0.5
0.20
Turn on time (ms)
80
Measured portion: between terminals 3 and 4;
Load voltage: 10 V (DC); Continuous load current:
100 mA (DC); Ambient temperature: 25°C
Measured portion: between terminals 3 and 4;
Load voltage: 10 V (DC); Continuous load current:
80 mA (DC); Ambient temperature: 25°C
0
60
Load voltage (V)
Load voltage (V)
40
50
60
0
0
10
20
LED forward current (mA)
30
40
50
60
LED forward current (mA)
12-1.Output capacitance vs. applied voltage 12-2.Output capacitance vs. applied voltage
characteristics
characteristics
Measured portion: between terminals 3 and 4;
Measurement signal: 1 MHz;
Ambient temperature: 25°C
Measured portion: between terminals 3 and 4;
Measurement signal: 1 MHz;
Ambient temperature: 25°C
10
40
Output capacitance (pF)
Output capacitance (pF)
50
30
20
AQY222R2V
10
8
6
4
2
AQY225R2V
AQY225R3V
0
0
20
40
60
80
100
0
0
20
Applied voltage (V)
40
60
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80
100
Applied voltage (V)
ー5ー
Panasonic Corporation 2022
ASCTB34E 202201
PhotoMOS RF SSOP 1 Form A Low C×R
DIMENSIONS
Unit: mm
CAD The CAD data of the products with a “CAD” mark can be downloaded from our Website.
External dimensions
CAD
Recommended mounting pad
(TOP VIEW)
0.7
2.65
4.45
0.9
1.8
1.27
4.35
0.2
0.2
0.4
(4.85)
0.4
Tolerance: ±0.1
1.27
Terminal thickness: t = 0.15
General tolerance: ±0.1
SCHEMATIC AND WIRING DIAGRAMS
Output
configuration
Schematic
1
Connection
Wiring diagram
4
1 Form A
2
Load
type
AC/DC
-
E1
1
4
2
3
IF
3
4
IL
VL (AC, DC)
3
Load
IL
VL (AC, DC)
Load
Please refer to "the latest product specifications"
when designing your product.
•Requests to customers:
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ASCTB34E 202201
PhotoMOS® Cautions for Use
SAFETY WARNINGS
o not use the product under conditions that exceed the range
D
of its specifications. It may cause overheating, smoke, or fire.
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).
heck the wiring diagrams in the catalog and be sure to
C
connect the terminals correctly. If the device is energized
with short circuit or any wrong connection, it may cause
unexpected malfunction, abnormal heat or fire.
PhotoMOS® Cautions for Use
Derating design
Derating is a significant factor for reliable design and product life.
Even if the conditions of use (temperature, current, voltage, etc.) of
the product are within the absolute maximum ratings, reliability may
be lowered remarkably when continuously used in high load
conditions (high temperature, high humidity, high current, high
voltage, etc.) Therefore, please derate sufficiently below the
absolute maximum ratings and evaluate the device in the actual
condition.
Moreover, regardless of the application, if malfunctioning can be
expected to pose high risk to human life or to property, or if products
are used in equipment otherwise requiring high operational safety, in
addition to designing double circuits, that is, incorporating features
such as a protection circuit or a redundant circuit, safety testing
should also be carried out.
pplying stress that exceeds the absolute maximum
A
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.
5) When packing printed circuit boards and equipment, avoid using
high-polymer materials such as foam styrene, plastic, and other
materials which carry an electrostatic charge.
6) When storing or transporting PhotoMOS®, the environment should
not be conducive to generating static electricity (for instance, the
humidity should be between 45% and 60%), and PhotoMOS®
should be protected using conductive packing materials.
Unused terminals
The No. 3 terminal is used with the circuit inside the device.
Therefore, do not connect it to the external circuitry with either
connection method A, B or C. (1 Form A 6-pin type)
Short across terminals
Do not short circuit between terminals when device is energized,
since there is possibility of breaking of the internal IC.
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.
Typical circuits are below shown.
1) 6-pin
Input voltage (for Voltage-sensitive type)
For rising and dropping ratio of input voltage(dv/dt), maintain Min.
100mV/ms.
Oscillation circuit and control circuit (for CC Type)
The oscillation circuit and control circuit of product may be destroyed
by external noise, surge, static electricity and so on.
For noise effect to peripheral circuits when oscillation circuit
operates, please implement safety measures on the system before
use by verifying operation under the actual design.
1
6
2
5
3
4
2) Power type
eterioration and destruction caused by discharge of
D
static electricity
This phenomenon is generally called static electricity destruction,
and occurs when static electricity generated by various factors is
discharged while the PhotoMOS® terminals are in contact, producing
internal destruction of the element.
To prevent problems from static electricity, the following precautions
and measures should be taken when using your device.
1) Employees handling PhotoMOS® should wear anti-static clothing
and should be grounded through protective resistance of 500kΩ
to 1MΩ.
2) A conductive metal sheet should be placed over the worktable.
Measuring instruments and jigs should be grounded.
3) When using soldering irons, either use irons with low leakage
current, or ground the tip of the soldering iron. (Use of low-voltage
soldering irons is also recommended.)
4) Devices and equipment used in assembly should also be
grounded.
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3
1
4
2
Reverse voltages at the input (for CC Type)
If reverse voltages are present at the input terminals, for example,
connect a schottky barrier diode in reverse parallel across the input
terminals and keep the reverse voltages below the reverse
breakdown voltage. Typical circuit is shown below.
1
4
2
3
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ASCTB65E 202201
PhotoMOS® Cautions for Use
ecommended LED forward current or recommended
R
input voltage
8) Please keep amplitude voltage of ripple within ±0.5V.
(for CC Type)
Design in accordance with the recommended operating conditions
for each product.
Since these conditions are affected by the operating environment,
ensure conformance with all relevant specifications.
within ±0.5 V
Set voltage
within ±0.5 V
ED forward current vs. Ambient temperature
L
characteristics
Output spike voltages
1) If an inductive load generates spike voltages which exceed the
absolute maximum rating, the spike voltage shall be limited.
Representative circuit examples of AC/DC dual use type are
shown below. There are the same with DC only type.
(1) 6-pin
Please keep the LED forward current to within the range given
below.
LED forward current (mA)
100
1
6
2
5
3
4
80
60
Clamp diode is
connected in parallel
with the load.
40
20
0
-40
Load
-20
0
20
40
60
8085 100
Ambient temperature (°C)
1
6
2
5
3
4
Load
For AQV209G, APV1111GV, APV3111GV
CR snubber is
connected in parallel
with the load.
LED forward current (mA)
50
40
(2) Power type
30
20
1
2
3
4
Load
10
0
-40
-20
0
20
40
60
Clamp diode is
connected in parallel
with the load.
80 85 100
Ambient temperature (°C)
1
2
3
4
Load
Ripple in the input power supply
If ripple is present in the input power supply, observe the following:
1) For LED forward current at Emin, please maintain the value
mentioned at “■Recommended LED forward current.”
1
2) Please make sure the LED forward current for Emax. is no higher
than 50 mA.
4
A varistor is
connected in parallel
with PhotoMOS®
(3) CC Type
4) Please make sure the input voltage for Emax. is no higher than 6V
(GU and RF voltage-sensitive type).
5) Please make sure the input voltage for Emax. is no higher than 30V
(Power voltage-sensitive type).
1
4
2
3
Load
Clamp diode is
connected in parallel
with the load.
1
4
2
3
Load
CR snubber is
connected in parallel
with the load.
Emax.
6) Please maintain the input voltage at least 3V for Emin.
(for CC Type)
7) Please make sure the input voltage for Emax. is no higher than 5.5V.
(for CC Type)
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3
Load
3) Please maintain the input voltage at least 4V for Emin. (GU, RF
and Power voltage-sensitive type).
Emin.
2
CR snubber is
connected in parallel
with the load.
ー8ー
2) When Clamp diode or CR Snubber is used in the circuit, the spike
voltages from the load are limited. But the longer wire may
become the inductance and cause the spike voltage. Keep the
wire as short as possible.
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ASCTB65E 202201
PhotoMOS® Cautions for Use
Output Waveform (CC Type)
This product has the capacitor coupled isolation. Therefore, if output
waveform fluctuates along the time axis (e.g. AC waveform or
pulsating waveform), it may affect the operation of this product and
peripheral circuit. Please evaluate the device in the actual condition.
Continual DC bias (AQV259 and AQV258)
IF
1
6
2
5
3
4
(Output terminal side)
Input wiring
pattern
(Input terminal side)
IL
May not allow the prescribed I/O withstand
voltage (Viso) to be achieved
Load
* Excluding high I/O isolation voltage products and SSOP, SON, and TSON
packages
2) Exposed terminals are electrically connected to internal elements.
Be aware that contact with external circuits may cause
deterioration of insulation between input and output, leading to
destruction of internal elements.
3) If installed in proximity to other device, take care to avoid short
circuits between device, which may occur if exposed frames of
adjacent device come too close.
Connections Between Input and Output (CC Type)
If you wish to use the product with a connection between input and
output, you may not obtain expected performance. Therefore,
please be sure to evaluate the device in the actual usage. A circuit
example is shown below that may negatively affect PhotoMOS
characteristics.
1
VIN
4
IL
IIN
2
1) With AQY* or AQW* series avoid installing the input (LED side)
wiring pattern to the bottom side of the package if you require the
specified I/O isolation voltage (Viso) after mounting the PC board.
Since part of the frame on the output side is exposed, it may
cause fluctuations in the I/O isolation voltage.
Portion of output side frame
If a continual DC bias will be applied between the input and output,
the breakdown voltage of the switching element MOSFET on the
output side may degrade. Therefore, be sure to test the product
under actual conditions. Example of circuits that will cause
degradation of breakdown voltage of MOSFET is given below.
E
Input wiring pattern
3
VL(AC, DC)
Load
Cleaning solvents compatibility
Cleaning the solder flux should use the immersion washing with an
organic solvent. If you have to use ultrasonic cleaning, please adopt
the following conditions and check that there are no problems in the
actual usage.
• Frequency: 27 to 29kHz
• Ultrasonic output: No greater than 0.25W/cm2*
• Cleaning time: 30s or less
• Others: Float PCB and the device in the cleaning solvent to
prevent from contacting the ultrasonic vibrator
* Applies to unit area ultrasonic output for ultrasonic baths
Notes for mounting
1) When different kinds of packages are mounted on PC boad,
temperature rise at soldering lead is highly dependent on
package size. Therefore, please set the lower temperature
soldering condition than the conditions of item “■Soldering”, and
confirm the temperature condition of actual usage before
soldering.
2) When soldering condition exceeds our recommendation, the
PhotoMOS® characteristics may be adversely affected. It may
occur package crack or bonding wire breaking because of
thermal expansion unconformity and resin strength reduction.
Please contact our sales office about the propriety of the
condition.
3) Please confirm the heat stress by using actual board because it
may be changed by board condition or manufacturing process
condition.
4) Solder creepage, wettability, or soldering strength will be affected
by the soldering condition or used soldering type. Please check
them under the actual production condition in detail.
5) Please apply coating when the device returns to a room
temperature.
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ASCTB65E 202201
PhotoMOS® Cautions for Use
Soldering
1) Example of surface-mount terminal recommended conditions
(1) IR (Infrared reflow) soldering method
In case of automatic soldering, following conditions should be
observed. (recommended condition reflow: Max. 2 times,
measurement point: soldering lead)
t3
T1 = 150 to 180°C
T2 = 230°C
T3 = 240 to 250°C*
t1 = 60 to 120 s
t2 = Within 30 s
t3 = Within 10 s
T3
T2
T1
*240 to 245°C for SON, VSSOP
and TSON package
t1
t2
Part of frame on input side
Adjacent mounting
2) Example of through hole terminal recommended conditions
(1) DWS soldering method
In case of automatic soldering, following conditions should be
observed. (recommended condition number of times: Max. 1
time, measurement point: soldering lead *1)
T1 = 120°C
T2 = Max. 260°C
t1 = within 60 s
t2+t3 = within 5 s
T1
t1
t2
For VSSOP type, as shown in the following figure, part of the input
and output frames are exposed on the sides of the package. Due to
this, please be keep in mind the cautions listed below.
1) Take care to avoid short circuits between exposed terminals,
which may cause insulation deterioration between input and
output, leading to destruction of internal elements.
2) Since the exposed terminals are connected electrically to the
internal element, please refer to the item “■Deterioration and
destruction caused by discharge of static electricity”, and
implement sufficient measures to control static electricity.
3) When installing the devices in the vicinity, please keep in mind
that if the exposed frames of adjacent devices get too close, a
short between devices may occur.
Part of frame on output side
(2) Other soldering methods
Other soldering methods (VPS, hot-air, hot plate, laser
heating, pulse heater, etc.) affect the PhotoMOS®
characteristics differently, please evaluate the device under
the actual usage.
(3) Manual soldering method
Temperature: 350 to 400°C, within 3s, electrical power 30 to
60W
T2
bout the exposed terminals on the sides of the
A
package (for VSSOP)
When several PhotoMOS® are mounted closely each other or
heat-generating components are mounted close to the PhotoMOS®,
the abnormal heating may occur. This abnormal heat may be
caused by the internal element when energized or thermal
interference between the devices. The degree of temperature rise
depends on the mounting layout of the devices and usage condition,
therefore please be sure to use PhotoMOS® with reduced load
current after testing under the worst condition of the actual usage.
Transportation and storage
t3
*1 Solder temperature: Max. 260°C
(2) Other soldering method (recommended condition: 1 time)
Preheating: Max. 120°C, within 120s, measurement point:
soldering lead
Soldering: Max. 260°C, within 10s, measurement area:
soldering temperature
(3) Manual soldering method
Temperature: 350 to 400°C, within 3s, electrical power 30 to
60W
1) Extreme vibration during transport may deform the lead or
damage the PhotoMOS® characteristics. Please handle the outer
and inner boxes with care.
2) Inadequate storage condition may degrade soldering,
appearance, and characteristics. The following storage conditions
are recommended:
• Temperature: 0 to 45°C
• Humidity: Max. 70%RH
• Atmosphere: No harmful gasses such as sulfurous acid gas,
minimal dust.
3) Storage before TSON, VSSOP, SON, SSOP, or SOP processing
In case the heat stress of soldering is applied to the PhotoMOS®
which absorbs moisture inside of its package, the evaporation of
the moisture increases the pressure inside the package and it
may cause the package blister or crack. This device is sensitive
to moisture and it is packed in the sealed moisture-proof package.
Please make sure the following condition after unsealing.
* Please use the device immediately after unsealing.
(Within 30 days at 0 to 30°C and Max. 70%RH)
* If the device will be kept for a long time after unsealing, please
store in the another moisture-proof package containing silica gel.
(Please use within 90 days.)
Water condensation
Water condensation occurs when the ambient temperature changes
suddenly from a high temperature to low temperature at high
humidity, or the device is suddenly transferred from a low ambient
temperature to a high temperature and humidity. Condensation
causes the failures such as insulation deterioration. Panasonic
Corporation does not guarantee the failures caused by water
condensation. The heat conduction by the equipment the
PhotoMOS® is mounted may accelerate the water condensation.
Please confirm that there is no condensation in the worst condition
of the actual usage. (Special attention should be paid when high
temperature heating parts are close to the PhotoMOS®.)
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ー 10 ー
Panasonic Corporation 2022
ASCTB65E 202201
PhotoMOS® Cautions for Use
Packing format
1) Tape and reel
Tape dimensions
Dimensions of tape reel
Direction of picking
2±0.1
(1) When picked from 1/2-pin side: Part No. AQY2C*R*PX,
AQY2C*R*P1X (Shown above)
(2) When picked from 3/4-pin side: Part No. AQY2C*R*PZ
13±0.5 dia.
4.0 ±0.1
2.4±0.2
2±0.5
12.0
VSSOP
4-pin
80 ±1 dia.
+0.3
ー 0.1
2.5±0.2
1.75±0.1
Tractor feed holes 1.5 +0.1
ー0 dia.
1±0.1dia.
3.3
8±0.1
2±0.1
5.5±0.1
Device mounted
on tape
±0.3
1.2±0.5
21±0.8
80 ±1dia.
Direction of picking
0.4 ±0.05
13±1.5
*Quality of material: Polystyrene (PS)
250 ±2dia.
1.05±0.1dia.
4±0.1
1.2 ±0.3
5.5±0.1
Device mounted
on tape
180±3dia.
12
+0.3
ー 0.1
TSON
4-pin
2±0.5
60 ±3dia.
4±0.1
2.2±0.2
21±0.8
1.75±0.1
Tractor feed holes 1.5 +0.1
ー 0 dia.
2.4±0.2
0.2 ±0.05
(1) When picked from 1 and 4-pin side: Part No. AQY*TY (Shown above)
(2) When picked from 2 and 3-pin side: Part No. AQY*TW
14±1.5
13 ±0.5dia.
*Quality of material: Paper
2 ±0.5
End of the part number Y/W
Direction of picking
4±0.1
Device mounted
on tape
1.5±0.1dia.
2±0.3
4±0.1
2±0.1
80 ±1 dia.
12
2±0.5
5.5±0.1
SON
4-pin
±0.3
3.6±0.2
2.8±0.2
250 ±2dia.
0.3±0.05
21±0.8
80 ±1dia.
1.75±0.1
Tractor feed holes 1.5 +0.1
ー0 dia.
(1) When picked from 1 and 4-pin side: Part No. AQY*MY,
AQY*M1Y (Shown above)
(2) When picked from 2 and 3-pin side: Part No. AQY*MW
(1) When picked from 1 and 4-pin side: Part No. AQY*VY, AQY221*V1Y,
APV*111*VY,
APV*111*V1Y (Shown above)
(2) When picked from 2 and 3-pin side: Part No. AQY*VW, APV*111*VW
12±0.1
13±1.5
*Quality of material: Polystyrene (PS)
12
(1) When picked from 1/2-pin side: Part No. AQY*SX, APV**21SX (Shown above)
(2) When picked from 3/4-pin side: Part No. AQY*SZ, APV**21SZ
*Quality of material: Paper
13 ±0.5dia.
14±1.5
250 ±2dia.
2±0.5
1.55±0.1dia.
4±0.1
2±0.1
1.2±0.5
21±0.8
80 ±1dia.
1.75±0.1
Device mounted on tape
2.8±0.3
13±0.5 dia.
+0.3
ー 0.1
7.2±0.1
5.5±0.1
SOP
4-pin
1.5 +0.1
ー 0 dia.
4.7±0.1
0.3±0.05
Direction of picking
Tractor feed holes
60 ±3dia.
1.5+0.1
ー 0 dia.
2±0.5
80 ±1 dia.
4.0±0.1
2.7±0.3
21±0.8
180±3dia.
Device mounted
on tape
5.5±0.1
SSOP
4-pin
4.0±0.1
ー 0.1
12.0 +0.3
5.1±0.2
3.0 ±0.1
2 ±0.5
End of the part number 1Y
1.75±0.1
Tractor feed holes 1.5+0.1
ー 0 dia.
0.3±0.05
14±1.5
13 ±0.5dia.
*Quality of material: Paper
Direction of picking
2 ±0.5
Note: “ * ” indicates characters of number or alphabet.
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ー 11 ー
Panasonic Corporation 2022
ASCTB65E 202201
PhotoMOS® Cautions for Use
Tape dimensions
1.75±0.1
12±0.1
1.55±0.1dia.
2±0.1
7.5±0.1
Device mounted
on tape
12±0.1
14±1.5
13 ±0.5dia.
±0.1
2
2±0.5
Device mounted
on tape
2.8±0.3
*Quality of material: Paper
13 ±0.5dia.
17.5±1.5
2±1
1.55±0.1dia.
4±0.1
2±0.1
12±0.1
16 +0.3
ー 0.1
1.75±0.1
7.5±0.1
7.5±0.1
1.5 +0.1
ー 0 dia.
11.15±0.1
SOP
16-pin
Direction of picking
Tractor feed holes
80 ±1dia.
(1) When picked from 1/2/3/4-pin side: Part No. AQW*SX (Shown above)
(2) When picked from 5/6/7/8-pin side: Part No. AQW*SZ
0.3±0.05
2 ±0.5
21±0.8
80 ±1dia.
1.55±0.1dia.
4±0.1
2.8±0.3
16 +0.3
ー 0.1
1.5 +0.1
ー 0 dia.
7.5±0.1
SOP
8-pin
Direction of picking
Tractor feed holes
10.15±0.1
0.3±0.05
*Quality of material: Paper
1.75±0.1
(1) When picked from 1/2/3-pin side: Part No. AQV*SX (Shown above)
(2) When picked from 4/5/6-pin side: Part No. AQV*SZ
250 ±2 dia.
2.8
80 ±1 dia.
Device mounted on tape
±0.3
2±0.5
250 ±2dia.
7.2±0.1
12
4
1.5 +0.1
ー 0 dia.
21±0.8
80 ±1dia.
+0.3
ー 0.1
SOP
6-pin
Direction of picking
Tractor feed holes
±0.1
6.9 ±0.1
5.5±0.1
0.3±0.05
Dimensions of tape reel
(1) When picked from 1/2/3/4/5/6/7/8-pin side: Part No. AQS*SX (Shown above)
(2) When picked from 9/10/11/12/13/14/15/16-pin side: Part No. AQS*SZ
21±0.8
80 ±1dia.
1.75±0.1
12±0.1
4.2±0.3
80 ±1dia.
Device mounted on tape
2±0.5
300 ±2 dia.
10.2±0.1
12+0.3
ー 0.1
4
1.5+0.1
ー0 dia.
5.5±0.1
DIP 4-pin
Surface mount
terminal
Direction of picking
Tractor feed holes
±0.1
5.25±0.1
0.3±0.05
1.55±0.1dia.
2±0.1
(1) When picked from 1/2-pin side: Part No. AQY*HAX, AQY210HLAX (Shown above)
(2) When picked from 3/4-pin side: Part No. AQY*HAZ, AQY210HLAZ
*Quality of material: Paper
13.5±2.0
13±0.5dia.
2±0.5
21±0.8
80 ±1dia.
4.5±0.3
12±0.1
16
+0.3
ー 0.1
80±1dia.
2±0.5
300±2dia.
Device mounted on tape
7.5±0.1
10.1±0.1
1.5+0.1
ー0 dia.
9.2±0.1
DIP 6-pin
Surface mount
terminal
Tractor feed holes
1.75±0.1
Direction of picking
0.3±0.05
1.6±0.1dia.
4±0.1
2±0.1
(1) When picked from 1/2/3-pin side: Part No. AQV*AX (Shown above)
(2) When picked from 4/5/6-pin side: Part No. AQV*AZ
*Quality of material: Paper
13 ±0.5dia.
17.5±2
2±0.5
Note: “ * ” indicates characters of number or alphabet.
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ー 12 ー
Panasonic Corporation 2022
ASCTB65E 202201
PhotoMOS® Cautions for Use
Tape dimensions
10.1±0.1
21±0.8
80 ±1dia.
1.55±0.1dia.
2±0.1
12±0.1
4.5±0.3
16
10.2±0.1
Device mounted on tape
+0.3
ー 0.1
4
1.5+0.1
ー0 dia.
7.5±0.1
0.3
1.75±0.1
Direction of picking
Tractor feed holes
±0.1
±0.05
DIP 8-pin
Surface mount
terminal
Dimensions of tape reel
10.2±0.1
Device mounted on tape
12±0.1
4.2±0.3
2±0.1
ー 0.1
16+0.3
80±1dia.
1.75±0.1
4±0.1
10.3±0.1
DIP 8-pin
Surface mount
terminal
High I/O
isolation
voltage type
Direction of picking
1.5 +0.1
ー0 dia.
7.5±0.1
Tractor feed holes
0.3±0.05
300±2dia.
2±0.5
(1) When picked from 1/2/3/4-pin side: Part No. AQW*AX (Shown above)
(2) When picked from 5/6/7/8-pin side: Part No. AQW*AZ
*Quality of material: Paper
13 ±0.5dia.
17.5±2
2±0.5
1.55±0.1dia.
(1) When picked from 1/2/3/4-pin side: Part No. AQW*EHAX,
AQW210HLAX (Shown above)
(2) When picked from 5/6/7/8-pin side: Part No. AQW*EHAZ, AQW210HLAZ
21±0.8
100±1dia.
1.75
1.55±0.1 dia.
2.0±0.1
(1) When picked from 1/2-pin side: Part No. AQY*AX (Shown above)
(2) When picked from 3/4-pin side: Part No. AQY*AZ
12±0.1
4.5
2±0.5
16
1.6±0.1dia.
4±0.1
1.7±0.8
80±1dia.
Device mounted on tape
±0.3
25.5±2
+0.3
ー 0.1
9.2±0.1
DIP 6-pin
Surface mount
terminal
(Photovoltaic
MOSFET driver)
10.1±0.1
1.5+0.1
ー0 dia.
7.5±0.1
Tractor feed holes
0.3±0.05
13 ±0.5dia.
21±0.8
80 ±1dia.
1.75±0.1
Direction of picking
*Quality of material: Paper
300±2dia.
16.0±0.1
4.5±0.3
100±1dia.
330±2 dia.
Device mounted
on tape
2±0.5
24.0 ±0.3
9.7±0.1
11.5 ±0.1
Power-DIP
4-pin
SMD
12.6±0.1
4.0±0.1
1.5 +0.1
ー 0 dia.
0.3±0.05
±0.1
Direction of picking
Tractor feed holes
2±0.1
(1) When picked from 1/2/3-pin side: Part No. APV1122AX (Shown above)
(2) When picked from 4/6-pin side: Part No. APV1122AZ
*Quality of material: Paper
13 ±0.5dia.
17.5±2
2±0.5
Note: “ * ” indicates characters of number or alphabet.
2) Tube
Devices are packaged in a tube so that 1-pin is on the stopper B
side. Observe correct orientation when mounting them on PC
boards.
(PD type)
(SOP type)
Stopper A
Stopper B
Stopper B (green)
(DIP type)
Stopper A (gray)
(Power type)
Stopper
Stopper B
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Stopper A
Panasonic Corporation 2022
ASCTB65E 202201
PhotoMOS® Cautions for Use
Adjacent mounting (for Power type)
Current limit function (output current control)
1) When devices are mounted close together with the heatgenerated devices, ambient temperature may rise abnormally.
Mounting layout and ventilation should be considered.
1) Current limit function aims to increase resistance to surges when
the switch is turned on. Before using this function, connect the
varistor to the output as shown in the figure below.
1
2
2) When many devices are mounted close together, load current
should be reduced. (Refer to the data of “Load current in adjacent
mounting vs. Ambient temperature characteristics.”)
4
3
Varistor
Surge: 10×160μs 1.6kV
* Set the varistor voltage to 150 V or less.
Recommended load voltage
As a guide in selecting PhotoMOS®, please refer to the following
table.
2) The current limit function capability can be lost if used longer than
the specified time. Be sure to set the output loss to the Max. rate.
1) Power photoMOS® (1 Form A)
Short circuit protection circuit
The short circuit protection circuit is designed to protect circuits from
excess current. Therefore, surge current may be detected as current
overload in which case the output current will be cut and the off
state maintained. For this reason, please include the inrush current
in the load current and keep it below the maximum load current.
Also, in order to maintain stability of internal IC operation, maintain
an input current of at least 5 mA (Latch type), 10 mA (Non Latch
type).
Photovoltaic MOSFET driver cautions for use
When two external MOSFETs are connected with a common source
terminal, oscillation may occur when operation is restored.
Therefore, please insert a 100 to 1,000 Ω resistor between the gate
terminal of the first MOSFET and the gate terminal of the second
MOSFET.
A typical example of this is given in the circuit below.
1
DC
type
AC/
DC
type
Load current
Recommended
load voltage
AQZ102
60 V DC
4.0 A DC
5, 12, 24 V DC
AQZ105
100 V DC
2.6 A DC
48 V DC
AQZ107
200 V DC
1.3 A DC
100 V DC
AQZ104
400 V DC
0.7 A DC
200 V DC
AQZ202
Peak AC, DC 60 V
Peak AC, DC 3.0 A
AQZ205
Peak AC, DC 100 V Peak AC, DC 2.0 A
24 V AC
48 V DC
AQZ207
Peak AC, DC 200 V Peak AC, DC 1.0 A
48 V AC
100 V DC
AQZ204
Peak AC, DC 400 V Peak AC, DC 0.5 A
120 V AC
200 V DC
Absolute maximum rating
Load voltage
AC/
DC
type
4
12 V AC
5, 12, 24 V DC
2) Power photoMOS® (1 Form B)
6
2
3
Absolute maximum rating
Load voltage
Load current
Peak AC, DC 400 V Peak AC, DC 0.5 A
AQZ404
Recommended
load voltage
100 V AC
200 V DC
3) Power photoMOS® Voltage-sensitive type (1 Form A)
Input LED current
(For High Capacity type: with part number G)
Absolute maximum rating
When making PhotoMOS turn on and turn off, please make sure
that the LED forward current increases and decreases instantly.
Input voltage (for Power voltage-sensitive type)
Load voltage
Load current
Recommended
load voltage
AQZ102D
60 V DC
3.6 A DC
5, 12, 24 V DC
DC AQZ105D
type AQZ107D
100 V DC
2.3 A DC
48 V DC
200 V DC
1.1 A DC
100 V DC
AQZ104D
400 V DC
0.6 A DC
200 V DC
AQZ202D
Peak AC, DC 60 V
Peak AC, DC 2.7 A
For rising and dropping ratio of input voltage (dv/dt), maintain Min.
100 mV/s.
12 V AC
5, 12, 24 V DC
24 V AC
AC/ AQZ205D Peak AC, DC 100 V Peak AC, DC 1.8 A 48 V DC
DC
type AQZ207D Peak AC, DC 200 V Peak AC, DC 0.9 A 48 V AC
100 V DC
AQZ204D Peak AC, DC 400 V Peak AC, DC 0.45 A
120 V AC
200 V DC
4) Power photoMOS® High Capacity type (1 Form A)
Absolute maximum rating
DC
type
Load voltage
Load current
Recommended
load voltage
AQZ192
60 V DC
10 A DC
5, 12, 24 V DC
AQZ197
200 V DC
5 A DC
100 V DC
AQZ202G
Peak AC, DC 60 V
12 V AC
Peak AC, DC 6 A
5, 12, 24 V DC
24 V AC
AC/ AQZ205G Peak AC, DC 100 V Peak AC, DC 4 A 48 V DC
DC
type AQZ207G Peak AC, DC 200 V Peak AC, DC 2 A 48 V AC
100 V DC
AQZ206G2 Peak AC, DC 600 V Peak AC, DC 1 A
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Panasonic Corporation 2022
120, 240 V AC
200, 400 V DC
ASCTB65E 202201
Please contact ..........
Electromechanical Control Business Division
1006, Oaza Kadoma, Kadoma-shi, Osaka 571-8506, Japan
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©Panasonic Corporation 2022
ASCTB34E 202201
Specifications are subject to change without notice.