Panasonic AQ10A2ZT432 Semiconductor Relay AQ10A2ZT432 데이터 시트
제품 코드
AQ10A2ZT432
AQ1
6
ds_61601_0001_en_aq1: 060207D
CAUTIONS FOR USE
1. Input side
1) Noise and surge protection at the input
side
A high noise surge voltage applied to the
SSR input circuit can cause malfunction
or permanent damage to the device. If
such a high surge is anticipated, use C or
R noise absorber in the input circuit.
1) Noise and surge protection at the input
side
A high noise surge voltage applied to the
SSR input circuit can cause malfunction
or permanent damage to the device. If
such a high surge is anticipated, use C or
R noise absorber in the input circuit.
2) When the input terminals are
connected with reverse polarity
Reversing the polarity will not cause
damage to the device, due to the
presence of a protection diode, but the
device will not operate.
3) In the case of operating voltage
containing ripple
If the SSR control voltage contains ripple,
the peak of the ripple should not exceed
the maximum rated control voltage “32V”,
and the bottom of the ripple should
exceed the minimum rated control
voltage “4V”.
connected with reverse polarity
Reversing the polarity will not cause
damage to the device, due to the
presence of a protection diode, but the
device will not operate.
3) In the case of operating voltage
containing ripple
If the SSR control voltage contains ripple,
the peak of the ripple should not exceed
the maximum rated control voltage “32V”,
and the bottom of the ripple should
exceed the minimum rated control
voltage “4V”.
2. Output side
1) Regarding output noise surge
protection
A high noise surge voltage applied to the
SSR load circuit can cause malfunction
or permanent damage to the device. If
such a high surge is anticipated, use a
varistor across the SSR output.
1) Regarding output noise surge
protection
A high noise surge voltage applied to the
SSR load circuit can cause malfunction
or permanent damage to the device. If
such a high surge is anticipated, use a
varistor across the SSR output.
Keep the varistor voltage to no more than
500 V.
500 V.
2) When used for the load less than rated
An SSR may malfunction if it is used
below the specified load. In such an
event, use a dummy resistor in parallel
with the load.
An SSR may malfunction if it is used
below the specified load. In such an
event, use a dummy resistor in parallel
with the load.
Set a value of dummy resistor so that the
load current becomes 50 mA or greater
due to the dummy resister and load.
3. When using bent output terminals
To avoid applying mechanical stress on
the main unit and molded section of the
solid state relay, radio pliers should be
used to grasp the terminals between the
point of bending and the molded case
when making the bends.
load current becomes 50 mA or greater
due to the dummy resister and load.
3. When using bent output terminals
To avoid applying mechanical stress on
the main unit and molded section of the
solid state relay, radio pliers should be
used to grasp the terminals between the
point of bending and the molded case
when making the bends.
4. When a heat sink is mounted on the
5 A or 10 A type
The heat sink (AQ-HS-5A) or a radiator
which can make good contact should be
used.
If a heat sink is used in which the contact
condition is bad, a heat conducting
compound should be used to improve the
heat radiation. (Ex. Silicon compound
Toshiba silicon YG6111 or TSK5303) The
compound should be applied between
the heat sink and the AQ1.
5 A or 10 A type
The heat sink (AQ-HS-5A) or a radiator
which can make good contact should be
used.
If a heat sink is used in which the contact
condition is bad, a heat conducting
compound should be used to improve the
heat radiation. (Ex. Silicon compound
Toshiba silicon YG6111 or TSK5303) The
compound should be applied between
the heat sink and the AQ1.
5. Others
1) If an SSR is used in close proximity to
another SSR or heat-generating device,
its ambient temperature may exceed the
allowable level. Carefully plan SSR
layout and ventilation.
2) Soldering to SSR terminals should be
completed within 5 seconds at 260
1) If an SSR is used in close proximity to
another SSR or heat-generating device,
its ambient temperature may exceed the
allowable level. Carefully plan SSR
layout and ventilation.
2) Soldering to SSR terminals should be
completed within 5 seconds at 260
°C
500
°F
.
3) Terminal connections should be made
by referring to the associated wiring
diagram.
4) For higher reliability, check device
quality under actual operating conditions.
6. Transportation and storage
1) Extreme vibration during transport will
warp the lead or damage the relay.
Handle the outer and inner boxes 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: 5 to 30
by referring to the associated wiring
diagram.
4) For higher reliability, check device
quality under actual operating conditions.
6. Transportation and storage
1) Extreme vibration during transport will
warp the lead or damage the relay.
Handle the outer and inner boxes 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: 5 to 30
°C
41 to 86
°F
• Humidity: Less than 60% R.H.
• Atmosphere: No harmful gasses such
as sulfurous acid gas, minimal dust.
• Atmosphere: No harmful gasses such
as sulfurous acid gas, minimal dust.
SSR
3
4
Control
voltage
source
voltage
source
R
C
Peak ripple voltage
Valley ripple voltage
0 V
Load
power
supply
power
supply
Load
SSR
1
2
Varistor
Load
power
supply
power
supply
Load
SSR
1
2
R
0
(dummy resistor)
Solid state relay
Terminal bend section
Printed circuit board
Solder
AQ-HS-5A heat sink
(provided with AQ-HS-5A)
Printed circuit board
Approx. 0.6N·m of torque should be
used for tightening the M3 screws.
used for tightening the M3 screws.
5 A or 10 A type AQ1 SSR
4-M3 screws