Automation Controls Catalog
High sensitivity, 50 mW
Nominal operating power,
2 Form C and 1 A relays
TX-S RELAYS
FEATURES
TYPICAL APPLICATIONS
1. High sensitivity and Nominal
operating power of 50mW
2. Compact size
15.0 (L)×7.4 (W)×8.2 (H) mm
.591 (L)×.291 (W)×.323 (H) inch
3. High contact reliability
High contact reliability is achieved by
the use of gold-clad twin crossbar
contacts, low-gas formation materials,
mold sealing the coil section, and by
controlling organic gas in the coil.
We also o er a range of products
with AgPd contacts suitable for use
in low level load analog circuits
(Max. 10V DC 10 mA).
4. Outstanding surge resistance.
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(contact and coil)
5. Low thermal electromotive force
(approx. 0.3 V)
1. Communications
(XDSL, Transmission)
2. Measurement
3. Security
4. Home appliances, and audio/visual
equipment
5. Medical equipment
ORDERING INFORMATION
TXS 2
Contact arrangement
2: 2 Form C
Surface-mount availability
Nil: Standard PC board terminal type
SA: SA type
Operating function
Nil:� Single side stable
L�:� 2 coil latching��6HW �,�SLQ�
�
/7� 2 coil latching��6HW �,��SLQ�
Terminal shape
Nil: Standard PC board terminal or surface-mount terminal
Nominal coil voltage (DC)
3, 4.5, 6, 9, 12, 24V
Contact material
Nil: Standard contact (Ag+Au clad)
1: AgPd contact (low level load); AgPd+Au clad (stationary), AgPd (movable)
Packing style
Nil: Tube packing
X: Tape and reel (picked from 1/3/4/5-pin side)
W: Tape and reel packing (picked from the 1/3/4/5-pin side)
With humidity indicator and silica gel in moisture proof bag
Z: Tape and reel packing (picked from the 8/9/10/12-pin side)
Y: Tape and reel packing (picked from the 8/9/10/12-pin side)
With humidity indicator and silica gel in moisture proof bag
Note 1) 3OHDVH�FRQWDFW�RXU�VDOHV�UHSUHVHQWDWLYH�IRU�GHWDLOHG�VSHFLILFDWLRQV.
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�TX-S
TYPES
1. Standard PC board terminal
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arrangement
Nominal coil
voltage
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Single side stable
Part No.
TXS2-3V
TXS2-4.5V
TXS2-6V
TXS2-9V
TXS2-12V
TXS2-24V
2 coil latching
Part No.
TXS2-L-3V
TXS2-L-4.5V
TXS2-L-6V
TXS2-L-9V
TXS2-L-12V
TXS2-L-24V
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2. Surface-mount terminal
�� 7XEH�SDFNLQJ
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arrangement
Nominal coil
voltage
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Single side stable
Part No.
TXS2SA-3V
TXS2SA-4.5V
TXS2SA-6V
TXS2SA-9V
TXS2SA-12V
TXS2SA-24V
2 coil latching
Part No.
TXS2SA-LT-3V
TXS2SA-LT-4.5V
TXS2SA-LT-6V
TXS2SA-LT-9V
TXS2SA-LT-12V
TXS2SA-LT-24V
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�� 7DSH�DQG�UHHO�SDFNLQJ
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arrangement
Nominal coil
voltage
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Single side stable
Part No.
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7;6�6$��9�=
7;6�6$��9�=
7;6�6$���9�=
7;6�6$���9�=
2 coil latching
Part No.
7;6�6$�/7��9�=
7;6�6$�/7����9�=
7;6�6$�/7��9�=
7;6�6$�/7��9�=
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7;6�6$�/7���9�=
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(without diode)
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Min. 2×105 ���$����9�'&�UHVLVWLYH���DW����FSP�
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REFERENCE DATA
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2. Life curve
3. Mechanical life
0.5
0.4
0.3
100
30V DC
resistive load
10
0.2
Ratio against the rated voltage, %V
1.0
4
DC resistive load
(cosf = 1)
No. of operations ¥10
Contact current, A
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100
90
80
Pick-up voltage
70
60
Max.
Min.
50
40
Drop-out voltage
30
Max.
20
Min.
10
30
100
200
Contact voltage, V
0
0.5
1.0
Switching current, A
0
10
100
1,000 5,000
No. of operations, ×104
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�TX-S
�������&RLO�WHPSHUDWXUH�ULVH
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2SHUDWLQJ�VSHHG�����FSP
&KDQJH�RI�SLFN�XS�DQG�GURS�RXW�YROWDJH
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$PELHQW�WHPSHUDWXUH����&���)����&����)
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100
90
90
Pick-up voltage
70
Max.
Min.
60
50
40
30
Drop-out voltage
20
80
70
60
50
30
Max.
Min.
0
10
5
15
10
0
20
0
0
20
Room temperature :x
+70°C +158°F :x
20
1A
1A
0A
0A
90 100 110
120
130
140 150
7
Operate time
Release time
6
5
4
3
2
Max.
Min.
Max.
Min.
7
0
Drop-out
voltage
x
x
10
Pick-up voltage
20 40 60 80
Ambient
–10 temperature, °C
Operate time
Release time
6
5
Max.
4
Min.
3
2
Max.
Min.
1
0
0
90
110 120
100
Coil applied voltage, %V
80
80
90
100
110
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(Isolation)
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(Insertion loss)
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7HVWHG�VDPSOH��7;6�����9����SFV�
100
50
1.0
0.8
0.6
–20
0.4
–30
0.2
10
100
1,000
10
Frequency, MHz
100
Frequency, MHz
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10. Thermal electromotive force
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Z’
X’
1000m/s
2
Deenergized condition
Energized condition
Y
X
Z
2
1000m/s
1000m/s2
1000m/s
Z’
2
1000m/s
X’
1000m/s
Y’
2
2
X
Z
Z’
Y
Y’
X’
1000m/s
2
x = 0.30
18
16
X
Z
2
1000m/s
1000m/s2
1000m/s
Z’
1,000
20
Reset state
Set state
Y
2
1000m/s
X’
1000m/s
Y’
2
2
Quantity, n
X
Z
Y
Y’
120
Coil applied voltage, %V
Insertion loss, dB
–40 –20
20
140 150 160
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Isolation, dB
Rate of change, %
7HVWHG�VDPSOH��7;6�����9����SFV�
130
7HVWHG�VDPSOH��7;6�����9�����SFV�
160
���$PELHQW�WHPSHUDWXUH�FKDUDFWHULVWLFV
120
�������2SHUDWH�UHOHDVH�WLPH�FKDUDFWHULVWLFV�
(without diode)
Coil applied voltage, %V
30
100 110
Coil applied voltage, %V
1
0
90
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(with diode)
Operate and release time, ms
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3RLQW�PHDVXUHG��,QVLGH�WKH�FRLO
$PELHQW�WHPSHUDWXUH����&���)����&����)
Temperature rise, °C
15
No. of operations, ×104
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10
10
5
No. of operations, ×104
30
1A
1A
0A
0A
10
Min.
20
10
0
Max.
40
Room temperature :x
+70°C +158°F :x
20
Operate and release time, ms
80
30
Temperature rise, °C
100
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Ratio against the rated voltage, %V
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14
12
10
8
6
4
2
0
0
0.15
0.25
0.35
0.45
0.55
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�ON
10
5
Pick-up voltage
15
ON
ON
10
5
Drop-out voltage
OFF OFF
Pick-up voltage
ON
Drop-out voltage
OFF
0
–5
–15
2 4 6 8 10 12 14 16
.079 .157 .236 .315 .394 .472 .551 .630
Inter-relay distance , mm inch
OFF
0
15
ON
10
ON
5
Pick-up voltage
ON
ON
0
OFF
–10
–10
–15
ON
0
Rate of change, %
Rate of change, %
0
–5
Rate of change, %
ON
Rate of change, %
15
Rate of change, %
Rate of change, %
TX-S
Drop-out voltage OFF
–5
OFF
–10
OFF
2 4 6 8 10 12 14 16
.079 .157 .236 .315 .394 .472 .551 .630
Inter-relay distance , mm inch
–15
OFF
0
OFF
2 4 6 8 10 12 14 16
.079 .157 .236 .315 .394 .472 .551 .630
Inter-relay distance , mm inch
���ȍ
+
0.08
ȝ)
DC48V
0.08
ȝ)
–
4
3
���ȍ
Wire spring relay
100
100
90
80
Contact resistance, mW
Ratio against the rated voltage, %V
12. Pulse dialing test
Pick-up voltage
Max.
Min.
70
60
50
40
Drop-out voltage
30
Max.
Min.
20
80
70
60
50
40
Max.
30
Min.
20
10
0
90
10
0
10
20
40
30
No. of operation, ×10
DIMENSIONS (mm inch)
0
50
0
10
4
20
30
40
No. of operation, ×10
50
4
CAD Data
1. Standard PC board terminal
CAD Data
±.012)
15.00
.591
7.40
.291
7.40
.291
15.00
.591
terminal
0.50
.020
1.15
.045
5.08
.200
2.54
.100
3.50
.138
2.54
.100
0.65
.026 8.20
.323
0.65 8.20
.026 .323
Standard
±.004)
0.50
.020
1.15
.045
0.25
5.08 .010
.200
10.16
.400
2.54
.100
12.7
.500
5.08
.200
5.08
.200
2.54
.100
3.50
.138
0.25
5.08 .010
.200
8-1.0 dia.
8-.039 dia.
5.08
.200
10-1.0 dia.
10-.039 dia.
Schematic (Bottom view)
Single side stable
+
–
1
12
3 4 5
10 9 8
Direction indication
2 coil latching
+
1
– 12
3 4 5 6
2 coil latching
+
10 9 8 7
–
Direction indication
(Operating function LT)
(Deenergized condition)
(Reset condition)
1
3 4 5 6
+
+
−
−
12
10 9 8 7
Direction indication
(Operating function L2)
(Reset condition)
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�TX-S
2. Surface-mount terminal
CAD Data
±.012)
15
.591
0.5
.020
0.65
.026
5.08
.200
15
.591
7.4
.291
8.2
8.4
.323 .331
5.08
.200
9.4±0.5
.370±.020
2.54
.100
±.004)
7.4
.291
8.2
8.4
.323 .331
0.25
.010
0.5
.020
0.65
.026
5.08
.200
5.08
.200
9.4±0.5
.370±.020
2.54
.100
1
3.16 .039
.124
0.25
.010
5.08
.200
2.54
.100
1
3.16 .039
.124
7.24
.285
5.08
.200
2.54
.100
7.24
.285
Schematic (Top view)
Single side stable
12
1
2 coil latching
10 9 8
12
1
3 4 5
Direction indication
2 coil latching
10 9 8 7
10 9 8 7
+
+
−
−
1
3 4 5 6
3 4 5 6
Direction indication
Direction indication
(Operating function LT)
(Operating function L2)
(Reset condition)
(Reset condition)
(Deenergized condition)
12
NOTES
1. Packing style
2. Automatic insertion
To maintain the internal function of the
exceed the values below.
Orientation (indicates PIN No.1) stripe
Stopper (gray)
4.9 N {500gf} or less
Stopper (green)
A
C
B
mm inch
1.5 +0.1
0 dia.
Relay polarity bar .059 +.004
dia. 2.0
0
(Z type)
.079
1.75
.069
4.0
.157
0.4
.016
C
B
11.5
.453
D
Relays
16.0 10.0 .394
.630
A
15.5
.610
24.0 ±0.3
±0.2
.945 ±.012 9.2±.008
.362
avoided.
Tape coming out direction
mm inch
2.0
.079
13 dia.
.512 dia.
21 dia.
.827 dia.
380 dia.
14.961 dia.
80 dia.
3.150 dia.
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�TX-S
Ambient Environment
Usage, Transport, and Storage Conditions
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WR�GLUHFW�VXQOLJKW�DQG�PDLQWDLQ�QRUPDO�WHPSHUDWXUH��KXPLGLW\�DQG�
SUHVVXUH�FRQGLWLRQV�
Temperature/Humidity
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SDFNDJHG��WKHUH�DUH�FDVHV�WKH�WHPSHUDWXUH�PD\�GLႇHU�
IURP�WKH�DOORZDEOH�UDQJH��,Q�WKLV�FDVH�EH�VXUH�WR�FKHFN�WKH�
LQGLYLGXDO�VSHFL¿FDWLRQV��
$OVR�DOORZDEOH�KXPLGLW\�OHYHO�LV�LQÀXHQFHG�E\�WHPSHUDWXUH��
SOHDVH�FKHFN�FKDUWV�VKRZQ�EHORZ�DQG�XVH�UHOD\V�ZLWKLQ�
PHQWLRQHG�FRQGLWLRQV���$OORZDEOH�WHPSHUDWXUH�YDOXHV��
Humidity (%RH)
85
Allowable range
Avoid condensation when
used at temperatures higher
than 0℃
Avoid icing
when used at
temperatures
lower than 0℃
5
-40
0
Temperature(°C)
70
Please refer to the latest product speci cations
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�GUIDELINES FOR SIGNAL RELAYS USAGE
For cautions for use, please read “GUIDELINES FOR RELAY USAGE”.
https://industrial.panasonic.com/ac/e/control/relay/cautions_use/index.jsp
Precautions for Coil Input
Long term current carrying
A circuit that will be carrying a current continuously for long periods
without relay switching operation. (circuits for emergency lamps, alarm
devices and error inspection that, for example, revert only during
malfunction and output warnings with form B contacts) Continuous,
long-term current to the coil will facilitate deterioration of coil insulation
and characteristics due to heating of the coil itself.
For circuits such as these, please use a magnetic-hold type latching
relay. If you need to use a single stable relay, use a sealed type relay
WKDW�LV�QRW�HDVLO\�DႇHFWHG�E\�DPELHQW�FRQGLWLRQV�DQG�PDNH�D�IDLOVDIH�
circuit design that considers the possibility of contact failure or
disconnection.
Temperature rise due to pulse voltage
When a pulse voltage with ON time of less than 2 minutes is used, the
coil temperature rise bares no relationship to the ON time. This varies
with the ratio of ON time to OFF time, and compared with continuous
current passage, it is rather small. The various relays are essentially
the same in this respect.
Current passage time
(%)
For continuousu passage
Tempereture rise value is 100%
ON : OFF = 3 : 1
About 80%
ON : OFF = 1 : 1
About 50%
ON : OFF = 1 : 3
About 35%
DC Coil operating power
ON : OFF = 1 : 1
Voltage
Steady state DC current should be applied to the coil. The wave form
should be rectangular. If it includes ripple, the ripple factor should be
less than 5%.
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characteristics may vary. The rated coil voltage should be applied to
WKH�FRLO�DQG�WKH�VHW�UHVHW�SXOVH�WLPH�RI�ODWFKLQJ�W\SH�UHOD\�GLႇHUV�IRU�
HDFK�UHOD\V��SOHDVH�UHIHU�WR�WKH�UHOD\
V�LQGLYLGXDO�VSHFL¿FDWLRQV��
Time
Coil connection
Operate voltage change due to coil temperature rise
(Hot start)
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(+,-) at the internal connection diagram (Schematic). If any wrong
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DEQRUPDO�KHDW��¿UH�DQG�VR�RQ��DQG�FLUFXLW�GR�QRW�ZRUN��$YRLG�
impressing voltages to the set coil and reset coil at the same time.
Maximum allowable voltage and temperature rise
Proper usage requires that the rated coil voltage be impressed on the
coil. Note, however, that if a voltage greater than or equal to the
maximum continuous voltage is impressed on the coil, the coil may
burn or its layers short due to the temperature rise. Furthermore, do
not exceed the usable ambient temperature range listed in the catalog.
Maximum allowable voltage for coil
In addition to being a requirement for relay operation stability, the
maximum continuous impressed coil voltage is an important constraint
for the prevention of such problems as thermal deterioration or
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In DC relays, after continuous passage of current in the coil, if the
current is turned OFF, then immediately turned ON again, due to the
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higher. Also, it will be the same as using it in a higher temperature
atmosphere. The resistance/temperature relationship for copper wire
is about 0.4% for 1°C, and with this ratio the coil resistance increases.
That is, in order to operate of the relay, it is necessary that the voltage
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accordance with the increase in the resistance value. However, for
some polarized relays, this rate of change is considerably smaller.
Panasonic Corporation Electromechanical Control Business Division
industrial.panasonic.com/ac/e/
ー8ー
チ Panasonic Corporation 2019
ASCTB414E 201906
�GUIDELINES FOR SIGNAL RELAYS USAGE
Ambient Environment
Dew condensation
Condensation occurs when the ambient temperature drops suddenly
from a high temperature and humidity, or the relay and microwave
device is suddenly transferred from a low ambient temperature to a
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insulation deterioration, wire disconnection and rust etc.
Panasonic Corporation does not guarantee the failures caused by
condensation.
The heat conduction by the equipment may accelerate the cooling of
device itself, and the condensation may occur.
Please conduct product evaluations in the worst condition of the actual
usage. (Special attention should be paid when high temperature
heating parts are close to the device. Also please consider the
condensation may occur inside of the device.)
Icing
Condensation or other moisture may freeze on relays when the
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movable portion, the operation delay and the contact conduction failure
etc. Panasonic Corporation does not guarantee the failures caused by
the icing.
The heat conduction by the equipment may accelerate the cooling of
relay itself and the icing may occur. Please conduct product
evaluations in the worst condition of the actual usage.
Low temperature and low humidity
The plastic becomes brittle if the switch is exposed to a low
temperature, low humidity environment for long periods of time.
High temperature and high humidity
Storage for extended periods of time (including transportation periods)
at high temperature or high humidity levels or in atmospheres with
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form on the surfaces of the contacts and/or it may interfere with the
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stored and transported.
Package
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minimum.
Storage requirements
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VHDOHG�DQWL�KXPLGLW\�SDFNDJLQJ��+RZHYHU��ZKHQ�VWRULQJ��SOHDVH�EH�
careful of the following.
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UHOD\��ZLWKLQ����KRXUV��0D[����&�����5+���,I�OHIW�ZLWK�WKH�SDFN�
open, the relay will absorb moisture which will cause thermal stress
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UHVXOW��WKH�VHDO�PD\�EUHDN�
2) If relays will not be used within 72 hours, please store relays in a
humidity controlled desiccator or in an anti-humidity bag to which
silica gel has been added.
*If the relay is to be soldered after it has been exposed to excessive
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the relay under the required mounting conditions
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Silicon
When a source of silicone substances (silicone rubber, silicone oil,
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around the relay, the silicone gas (low molecular siloxane etc.) may be
produced.
This silicone gas may penetrate into the inside of the relay. When the
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to the relay contacts which may cause the contact failure. Do not use
any sources of silicone gas around the relay (Including plastic seal
types).
NOx Generation
When relay is used in an atmosphere high in humidity to switch a load
which easily produces an arc, the NOx created by the arc and the
water absorbed from outside the relay combine to produce nitric acid.
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Avoid use at an ambient humidity of 85% RH or higher (at 20°C). If use
at high humidity is unavoidable, please contact our sales
representative.
Others
Cleaning
1) Although the environmentally sealed type relay (plastic sealed type,
etc.) can be cleaned, avoid immersing the relay into cold liquid (such
as cleaning solvent) immediately after soldering. Doing so may
deteriorate the sealing performance.
2) Surface mount terminal type relay is sealed type and it can be
cleaned by immersion. Use pure water or alcohol-based cleaning
solvent.
3) Cleaning with the boiling method is recommended (The temperature
of cleaning liquid should be 40°C or lower).
Avoid ultrasonic cleaning on relays. Use of ultrasonic cleaning may
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ultrasonic energy.
Please refer to the latest product speci cations
when designing your product.
•Requests to customers:
https://industrial.panasonic.com/ac/e/salespolicies/
Panasonic Corporation Electromechanical Control Business Division
industrial.panasonic.com/ac/e/
ー9ー
チ Panasonic Corporation 2019
ASCTB414E 201906
�2019
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