AEV801 [PANASONIC]
HIGH VOLTAGE AND CURRENT CUT-OFF CAPACITY IN A COMPACT PACKAGE; 高电压和电流切断能力在紧凑的包装型号: | AEV801 |
厂家: | PANASONIC |
描述: | HIGH VOLTAGE AND CURRENT CUT-OFF CAPACITY IN A COMPACT PACKAGE |
文件: | 总8页 (文件大小:230K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HIGH VOLTAGE AND
CURRENT CUT-OFF
CAPACITY IN A
EP RELAYS
COMPACT PACKAGE
FEATURES
• Control of large voltages and
currents
• Mounting direction is not specified
The weight of the movable parts is light,
and also the restoring force is large,
hence the contactor is relatively
unaffected by gravity.
150A 2 Form A
The relays have a sealed construction
that is filled with a hydrogen gas
compound, and use a permanent magnet
to establish a magnetic path for the arc.
This allows them to switch high-level DC
voltages of up to 400V DC.
• Line-up of indicator types (150AType
only)
1 Form A and 1 Form B types with
indicators for detecting welding of the
main contacts are available.
• Compact size and light weight
The capsule contact construction is filled
with a gas that has excellent thermal
dissipation and insulation characteristics.
Because of this we have been able to
reduce the contact gap to one tenth that
of conventional relays, and produce a
compact and light design.
• Line-up of PC board type and TM
type (10A type only)
150A 1 Form A
60A
• 12 and 24V DC coil voltage types are
available.
• Screw terminal blocks for easy
wiring.
• No arc space is required: size
including arc space 1/9 (compared to
conventional contactors)
The arc is not exposed to the outside,
therefore, no arc space is not required.
TYPICAL APPLICATIONS
• AGV (Automatic guided vehicle)
(motor control)
• Safety construction
• Electrical discharge machine
(capacitor charge and discharge
control)
• Inverter control (Error cut-off circuit)
• UPS (uninterruptible power supplies)
• Solar power generation systems
(battery control)
• Unmanned transport carts
• Battery inspection and testing
equipment
The arc is not exposed, therefore, the
contactor is explosion proof and
intrinsically safe.
PC board type
TM type
• Quiet: operation noise 1/4 (compared
to conventional contactors).
Along with the above-mentioned
miniaturization, the operation noise has
been reduced to 70dB, and, in addition,
the operation noise remains unchanged
when a current of 1000A or more is
interrupted.
• Welding equipment
• Elevator (Brake control)
• High contact reliability
The contact part is hermetically sealed,
hence the contact resistance remains
stable regardless of the ambient
conditions.
ORDERING INFORMATION
Ex.
A
EP
1
5
0
12
Indicator contact
arrangement
Product Name
EP
Contact arrangement
Contact rating
Coil voltage
12: 12V DC
24: 24V DC
48: 48V DC (10A type only)
X0: 100V DC (10A type only)
1: 1 Form A
2: 2 Form A
3: 1 Form A PC board type (10A type only)
5: 1 Form A TM type (10A type only)
1: 10A
5: 150A
6: 60A
0: without indicator contact
1: a contact (150A type only)
3: b contact (150A type only)
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
TYPES AND COIL DATA (at 20°C 68°F)
Pick-up voltage,
V DC (max.)
(at 20°C)
Drop-out voltage,
V DC (min.)
(at 20°C)
Nominal coil current,
mA ( 10%)
Max. allowable
voltage,
Coil voltage,
V DC
Operating power,
W (12 V DC, at 20°C)
Part No.
(at 20°C)
V DC
AEP25012*
AEP15012*
AEP16012
AEP25024*
AEP15024*
AEP16024
AEP31012
AEP31024
AEP31048
AEP310X0
AEP51012
AEP51024
AEP51048
AEP510X0
35W (Inrush, approx. 0.1S)
5W (Stable)
2.8 A (at peak)*
12 V DC
24 V DC
9 V DC
1 V DC
2 V DC
16 V DC
32 V DC
0.415 A
Max. 5W
35W (Inrush, approx. 0.1S)
Max. 5W (1 Form A)
1.9 A (at peak)*
2.2 A (at peak)*
0.208 A
18 V DC
Max. 6W (2 Form A)
Max. 5W
12 V DC
24 V DC
48 V DC
100 V DC
12 V DC
24 V DC
48 V DC
100 V DC
9 V DC
18 V DC
36 V DC
75 V DC
9 V DC
0.75 V DC
1.50 V DC
3.98 V DC
8.3 V DC
0.103 A (at peak)*
0.052 A (at peak)*
0.026 A (at peak)*
0.012 A (at peak)*
0.103 A (at peak)*
0.052 A (at peak)*
0.026 A (at peak)*
0.012 A (at peak)*
14 V DC
28 V DC
56 V DC
116 V DC
14 V DC
28 V DC
56 V DC
116 V DC
Approx.1.4W
0.75 V DC
1.50 V DC
3.98 V DC
8.3 V DC
18 V DC
36 V DC
75 V DC
Approx.1.4W
Note: *Same coil data as Indicator type.
When using a DC power supply use one that has a leeway of at least 150% current capacity.
Packing quantity
SPARE PARTS
Types
150A 2 Form A
150A 1 Form A
60A 1 Form A
10A 1 Form A
Inner
1pc.
Outer
5pcs.
Installing parts
Part No.
Packing Quantity
2pcs.
M8 nut with washer for 150A type
M5 screw for 60A type
AEV801
AEV802
AEV803
AEV804
1pc.
10pcs.
20pcs.
100pcs.
2pcs.
1pc.
M4 screw for 30A type
2pcs.
25pcs.
Bus bar for 60A type
1pc.
SPECIFICATIONS
Contact
Type
150A type
60A type
10A type
1 Form A
Arrangement
1 Form A, 2 Form A
1 Form A
Nominal switching capacity
(resistive load)
150A 400V DC
150A 277V AC
60A 400V DC
60A 277V AC
10A 400V DC
300A (10min)
120A (15min)
Short term current
15A (2min), 30A (30s)
(harness wire: 40mm2)
(harness wire: 15mm2)
2,500A 300V DC
(3 cycles)#1
600A 300V DC
(5 cycles)
Max. cut-off current
—
Rating
600A 300V DC
(Min. 25 cycles)
180A 400V DC
30A 400V DC
(Min. 50 cycles)
Overload opening/closing rating
Reverse cut-off current
(Min. 100 cycles)#2
–300A 200V DC
(Min. 25 cycles)
–60A 200V DC
–10A 200V DC
(Min. 1,000 cycles)#2
(Min. 2.5×103 cycles)
0.1V
(When current
0.1V
(When current
0.5V
(When current
Contact voltage drop (Max.)
[is 150A per 1] contact set)
[is 60A per 1] contact set)
[is 10A per 1] contact set)
35W
(Inrush, approx 0.1s)
5W
Nominal operating power
Max. 5W
—
( Stable )
Mechanical
Electrical
1 Form A: 105 2 Form A: 5 × 104
2 × 105
105
Expected life
(min. operations)
3 × 103 150A 400V DC
3 × 103 60A 400V DC
7.5 × 104 10A 400V DC
(L/R & 1ms)
(L/R & 1ms#2)
(L/R & 1ms#2)
Notes:
Same specifications as the 12 V type.
#1 Condition: Nominal switching 100cycles, each cut off 2,500A
#2 Conditions: Varistor used for coil surge absorption. Note: if a diode is used the life will be lower.
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
Characteristics
Initial insulation resistance
Min. 100 MΩ (at 500 V DC)*1
AC 2,500 Vrms for 1 min.*2
AC 2,500 Vrms for 1 min.*2
Max. 50ms*3
Between open contacts
Between contact and coil
Initial breakdown voltage
Operate time (at 20°C) (at nominal voltage)
Reset time (without diode) (at 20°C) (at nominal voltage)
Max. 30ms*4
Functional
Min. 196 m/s2 {20 G}*5
Min. 490 m/s2 {50 G}*6
43 m/s2 {4.4 G} 10 to 200Hz*7
43 m/s2 {4.4 G} 10 to 200 Hz*8
Shock resistance
Destructive
Functional
Vibration resistance
Destructive
–40°C to +80°C*9
–40°F to +176°F
5 to 85% R.H.
Conditions for operation, transport and
storage (Not freezing and condensing
at low temperature)
Ambient temperature
Humidity
150 A 1 Form A: 600 g 21.16oz
150 A 2 Form A: 1,100 g 38.80oz
60 A: 340 g 12.00oz
Unit weight
10 A: 80 g 2.820oz
Remarks
*1 Measurement at same location as “Initial breakdown voltage” section.
*2 Detection current: 10mA.
*6 Half-wave pulse of sine wave: 6 ms.
*7 Detection time: 10 µs.
*8 3 directions,each 4 hours.
*9 Storage:Max.85°C 185°F.
*3 Nominal voltage applied to the coil,excluding bounce time.
*4 Nominal voltage applied to the coil.
*5 Half-wave pulse of sine wave: 11 ms; detection time: 10µs.
Indicator ratings
Arrangement
1 Form A
1 Form B
Material
Gold-clad
Rating (resistive load)
0.1 A 30 V DC
Max. 100 mΩ
Contact resistance
Note: Indicator type is only available for the 150 A type.
mm inch
DIMENSIONS
150A 2 Form A
φ
φ
Schematic (TOP VIEW)
-
+
-
3
1
4
2
6: Coil (–)
5: Coil (+)
+
-
+
4
3
7.7
.303
5
9
9
Y
3–
4+
0.2
90.0 78.0
.008
3.071
3.543
1+
2–
34.0 73.0
9.5
.374 1.339 2.874
Both input and load sides have polarities (+) and (–).
29.0
1.142
Coil input terminal (M3.5)
+
1
-
2
5 terminal: input (+) side
6 terminal: input (–) side
3.5
.138
5
.197
6
27.0 1.063
66.0 2.598
.236
Mounting dimensions
76.0 0.2 2.992 .008
96.0 3.780
76
2.992
M8 nut; AEV801
78
3.071
87.1
3.429
4-φ 5.5
4-φ .217
26.0
1.024
26.0
1.024
13.0
.512
Plate (Part No., rating,
schematic and Lot No.)
General tolerance:
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
mm inch
150A 2 Form A (Indicator Type)
φ
φ
Schematic (TOP VIEW)
1 Form A
-
+
-
3
4
2
Indicator input
terminal (M3.5)
7 terminal: NO or NC
8 terminal: COM
+
3
1
6: Coil (–)
5: Coil (+)
-
+
4
5
9
9
Y
Coil input terminal (M3.5)
5 terminal: input (+) side
6 terminal: input (–) side
0.2
78.0
3.071
.008
90.0
3.543
3–
4+
9.5
.374
34.0
1.339
73.0
2.874
1+
2–
8: Indicator: COM
7: Indicator: NO
7.7
.303
29.0
1.142
Both input and load sides have polarities (+) and (–).
+
1
-
2
1 Form B
3.5
.138
6
.236
5
.197
27.0 1.063
66.0 2.598
6: Coil (–)
5: Coil (+)
.008
76.0 0.2 2.992
96.0 3.780
M8 nut; AEV801
3–
4+
1+
2–
8: Indicator: COM
7: Indicator: NC
Both input and load sides have polarities (+) and (–).
87.1
3.429
Mounting dimensions
76
2.992
26.0
1.024
26.0
1.024
13.0
.512
Plate (Part No., rating,
schematic and Lot No.)
78
3.071
General tolerance:
4-φ 5.5
4-φ .217
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
150A 1 Form A
φ
φ
Schematic (TOP VIEW)
7.7
.303
6: Coil (–)
5: Coil (+)
10.8
.425
+
-
2
1
9.5
.374
0.2
56.0
2.205
44.0
5
.008
1+
2–
9
9
Y
1.732
29.0
Coil input terminal (M3.5)
5 terminal: input (+) side
6 terminal: input (–) side
Both input and load sides have polarities (+) and (–).
1.142
6
.236
+
-
1
2
3.5
.138
19.5
.768
27.0 1.063
64.0 2.520
76.0 0.2 2.992
94.0 3.701
.008
Mounting dimensions
M8 nut; AEV801
76
2.992
2-φ 5.5
2-φ .217
44
1.732
87.1
3.429
26.0
1.024
21.0
.827
13.0
.512
Plate (Part No., rating,
schematic and Lot No.)
General tolerance:
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
mm inch
150A 1 Form A (Indicator Type)
Schematic (TOP VIEW)
1 Form A
Indicator input
terminal (M3.5)
φ
φ
7.7
.303
7 terminal: NO or NC
8 terminal: COM
6: Coil (–)
5: Coil (+)
10.8
.425
+
-
2
1
17.8
.701
9.5
.374
0.2
56.0
2.205
44.0
1+
2–
5
.008
1.732
9 9
Y
(
)
9.5
8: Indicator: COM
7: Indicator: NO
Both input and load sides have polarities (+) and (–).
Coil input terminal (M3.5)
5 terminal: input (+) side
6 terminal: input (–) side
29.0
(
)
.374
1.142
19.5
.768
6
.236
+
-
1
2
3.5
27.0
1 Form B
64.0
76.0 0.2
94.0
6: Coil (–)
5: Coil (+)
M8 nut; AEV801
1+
2–
8: Indicator: COM
7: Indicator: NC
Both input and load sides have polarities (+) and (–).
87.1
3.429
Mounting dimensions
76
2.992
2-φ 5.5
26.0
1.024
21.0
.827
2-φ .217
13.0
.512
Plate (Part No., rating,
schematic and Lot No.)
44
1.732
General tolerance:
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
60A
Schematic (TOP VIEW)
76.0 2.992
61.0 0.2 2.402
49.0 1.929
45.0 1.772
(17.9) (.705)
.008
6: Coil
5: Coil
φ
φ
2.5 .098
1+
2–
Coil input terminal (M3.5)
Load side has polarities (+) and (–).
38.0 30.2 26.0 0.2 13
1.024
1.496 1.189
.008 .512
9.5
1
+
2
-
.374
6.55
.258
7.7
.303
Mounting dimension
M4 screw: AEV803 (built-in)
79.9 3.146
63.9 2.516
61
2.402
:
Bus bar (15sq)
M5 screw: AEV802
AEV804 (built-in)
2-φ 5.5
26
1.024
2-φ .217
71.0
2.795
26.0
1.024
13.0
.512
Plate (Part No., rating,
schematic and Lot No.)
General tolerance:
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
mm inch
10A PC board type
31.6
1.244
Schematic (TOP VIEW)
31.3
1.232
19.5
.768
2
6:Coil
3.0
.118
0.5
.020
5:Coil
2 dia.
.079 dia.
2 dia.
1
.079 dia.
1.4
(1.0)
4.5 max.
.177 max. (.039)
Load sides have polarities (+) and (–).
34.0
1.339
.055
62.4
2.457
0.3
Mounting dimensions
55.9
.012
2.201
45.0
After doing through-hole plating
4-2.45+00.1 dia. 4-.096+0.004 dia.
Mounting hole
2-4.2 dia.
2-.165 dia.
1.772
0.3
0.3
11.0
.433
8.6
.339
.012
.012
Coil input terminal
9.5 16.5
.374 .650
0.3
16.5
.650
37.9
1.492
.012
8.6
.339
0.3
19.6
.772
9.5
.374
4.5
.177
.012
55.9
R2.3 .091
2.201
Notes: 1. We recommend through-hole plating
with land on both sides.
General tolerance:
2. Be careful of the insulation distance
between land patterns with regards
to the circuit voltage you will use.
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
10A TM type
66.8
2.630
Schematic (TOP VIEW)
0.3
55.9
.012
2.201
Load input terminal (+)
#187 tab 0.5t
1
45.0
5:Coil
1.772
19.6
4.5 0.2 dia.
.772
Coil input terminal
#187 tab 0.5t
.000 .008 dia.
8.6
.339
6:Coil
2
Load sides have polarities (+) and (–).
0.3
11.3
.445
31.6 37.9
1.2441.492
.012
Mounting dimensions
0.3
14.1
.555
Load input terminal (–)
#187 tab 0.5t
.012
Mounting hole
2-4.2 0.1 dia.
19.5
.768
2-.165 .004 dia.
45 max.
1.772 max.
0.1
55.9
2.201
.004
5.7
.224
31.7
1.248
0.4
.016
General tolerance:
less than 10 .394 0.3 .012
10 .394 to 50 1.969 0.6 .024
more than 50 1.969 1.0 .039
REFERENCE DATA
1-(1) Ambient temperature characteristics
(150 A type)
1-(2) Ambient temperature characteristics
Sample: AEP16012, 3pcs
1-(3) Ambient temperature characteristics
Sample: AEP51012, 3pcs
Sample: AEP15012, 3pcs
40
40
30
10
8
-
x
30
x
6
4
Drop out
x
-
x
20
10
20
voltage
Ambient
Ambient
temperature °C °F
temperature °C °F
10
2
Pick up
voltage
-40
-40
-20
-4
0
32
–40
–40
–20
–4
0
32
40
74
0
Drop out voltage
80
-40
-40
-20
-4
0
32
20
68
40
74
60
110
80
146
146
20
68
40
74
60
110
80
146
20
68
60
110
-
x
-2
-4
–10
–20
–30
–40
-10
-20
-30
-40
Ambient
temperature, °C °F
-
x
Drop out
voltage
Pick up
voltage
Pick up
voltage
-6
-8
-10
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
2. Max. switching capacity
3-(1) Switching life curve (150A, 60A type)
3-(2) Switching life curve (10A type)
1000
100000
100
150A type
DC, AC 400V resistive load
10000
100
10
1
150A type
DC, AC 400V resistive load
1000
10A type
60A type
DC, AC 400V resistive load
10
DC, AC 400V resistive load
100
10A type
DC, AC 400V resistive load
60A type
10
1
DC, AC 400V resistive load
1
1
10
100
1000
1
10
100
10
100
1000
Contact current, V
Contact voltage, V
Contact current, V
4. Cut-off life curve
5. Carrying performance curve
105
1000
104
150A type
(Electric cable 40mm2)
100
150A type
DC400V resistive load
1000
10
100
10
60A type
(Electric cable 15mm2)
60A type
DC400V resistive load
1
10
100
100
1000
1000
Cut-off current, A
10000
Carrying current, A
NOTES
1. When installing the relay, always
use washers to prevent loosening of
the screws.
3. As a general rule, do not use a relay
if it has been dropped.
4. Avoid mounting the relay in strong
magnetic fields (near a transformer or
magnet) or close to an object that
radiates heat.
7.The case is designed to remain in
place during normal use and handling.
If the case is removed, the relay will not
function as intended and its performance
cannot be guaranteed.
Tighten each of the screws within the
rated ranges given below. Exceeding the
maximum torque may result in breakage.
Mounting is possible in either direction.
• M8 screw (150 A main terminal):
8 to 10 N·m
• M5 screw (150 A, 60 A main unit
mounting section): 2.5N·m to 3.6N·m
• M4 screw (60 A main terminal):
1.8 to 2.7 N·m
• M3.5 screw (Input terminal):
0.84 to 1.2 N·m
• M4 screw (10 A PC board type main
unit mounting section):
0.98N·m to 1.2N·m
(10 A TM type main unit mounting
section): 1.8N·m to 2.7N·m
8. If the power is turned off and then
immediately on after applying the
rated voltage (current) continuously to
the relay's coil and contact, the
resistance of the coil will increase due
to a rise in the coil temperature.This
causes the pick-up voltage to rise, and
possibly exceed the rated pick-up
voltage. In these circumstances, take
measures such as reducing the load
current, limiting the duration of
current flow, and applying a coil
voltage higher than the rated
5. Electrical life
This relay is a high-voltage direct-current
switch. In its final breakdown mode, it
may lose the ability to provide the proper
cut-off. Therefore, do not exceed the
indicated switching capacity and life.
(Please treat the relay as a product with
limited life and replace it when
necessary.)
In the event that the relay loses cut-off
ability, there is a possibility that burning
may spread to surrounding parts, so
configure the layout so that the power is
turned off within one second.
operating voltage (quick start).
9. Coil operating power
2.The coils (150 A type) and the
contacts (10 A, 60 A, 150 A) of the relay
are polarized. Please follow instructions
in the connection schematic when
connecting the coils and contacts.
The 150 A type contains a reverse surge
voltage absorption circuit;
therefore a surge protector is not needed.
We recommend installing a surge
protector varistor (ZNR) for the 10 A and
the 60 A types. Avoid using a diode as
this may result in decreased cut-off
capability.
6. Permeation life of internal gas
This relay uses a hermetically encased
contact (capsule contact) with gas inside.
The gas has a permeation life that is
affected by the temperature inside the
capsule contact (ambient temperature +
temperature rise due to flow of electrical
current). For this reason, make sure the
ambient operating temperature is
between –40 and 80°C –40 and +176°F,
and the ambient storage temperature is
between –40 and 85°C –40 and +185°F.
Pure 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%. However,
check the actual circuit since the
characteristics may be slightly different.
The coil must only be supplied with its
rated voltage. The voltage waveform
supplied to the coil should be rectangular.
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
EP
10. Don't exceed maximum coil
voltage. Exceeding maximum
allowable coil voltage on continuous
basis will damage the relay and could
case failure.
11. Ensure that the rated contacts
voltage and current values are not
exceeded.
18. Use 40N to 70N of force as a guide
to fasten the terminal connected to the
10ATM type. Please use caution when
inserting or removing the terminal as
the relay tab terminal may cause
injuly.
19. Place the PCB mount type (10A
PCB type) securely by hand soldering
after attaching it. Don't submerge
assembled board in cleaning solution
or water. Also, be careful not let flux
overflow up from the PCB or adhere to
the base of the relay.
12.The rated control capacity and life
are given as guides.
The contact life is heavily influenced by
the type of load and other related
conditions, and these factors must be
kept in consideration when using the
relay.
20. Make sure the power is turned off
when wiring.
13. If you are using an inductive load
(L load) such that L/R > 1 ms, add
surge protection in parallel with the
inductive load. If this is not done, the
electrical life will decrease and cut-off
failure may occur.
14. When using the 150 A type, mount
it as far away as possible from
Wireless transmitters or devices that
may generate large surges.To prevent
malfunctioning due to high emission
levels, it may be neccessary to take
measures for E.M.I., such as adding a
line noise filter or an electromagnetic
shield.
21. Incorrect wiring may cause
unexpected malfunction and failure.
22. For AC cut-off, there is no contact
polarity. Confirm electrical life using
actual load. In the case of DC cut-off,
please note the contact polarity.
23. Lead-free solder (tin, silver and
copper) is used as the spare solder for
the terminals of the PCB mount type
(10A PCB type).
15. A slight amount of superimposed
line noise may be generated in the
input line the coil current control. It is
recommended to install a line filter to
reduce or eliminate this noise.
16. Ensure that the main terminals are
clean from oils and other foreign
matters. Contamination is likely to
cause increase in the terminal's
temperature.
• 150A type: nominal cross sectional
area: min. 38mm2.
• 60A type: nominal cross sectional area:
min. 14mm2.
• 10A TM type: Faston terminal for #187
tab terminal, 0.5 mm board thickness
(JIS C2809-1992 compliant, flat type
connection terminal)
Harness nominal cross sectional area
Load input terminal: min. 1.3 mm2
Coil input terminal: min. 0.3 mm2
17. Avoid excessive stress on the
terminals. Excessive stress can effect
the performance of the contact
operation.
• M8 screw terminal (150A main terminal
part)
Terminal pulling up strength ; Max.100N
per terminal
The up-down rotation torque applied to
the terminal ; Max.15N• m
For Cautions for Use, see Relay Technical Information.
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
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