Panasonic ARXP1006 3 ghz microwave relay with 60 w carrying power Datasheet

MicrowaveDevices.book Page 48 Wednesday, November 26, 2008 7:50 PM
RX-P (ARXP1)
3 GHz
MICROWAVE RELAY
WITH 60 W
CARRYING POWER
New
FEATURES
TYPICAL APPLICATIONS
1. 60 W contact carrying power
realized
• Three times the contact carrying power
achieved compared to previous 20 W RX
relay.
• Nominal switching capacity (when
switching) also improved to 40W.
2. Excellent high frequency
characteristics
• High frequency characteristics
(to 2.5GHz, Impedance: 50Ω, Initial)
1. Base stations (mobile phones,
terrestrial digital, etc.)
Used for redundant circuit construction in
transmitter section.
2. Other applications
High-frequency amp switching in wireless
devices, etc.
Insertion loss
(Max.)
If you wish to use in applications with low
level loads or with high frequency
switching, please consult us.
0.2dB
Isolation (Min.)
60dB
V. S. W. R. (Max.)
(Return loss) (Min.)
1.2 or less
(20.8dB)
Max. 60W
(at 20°C 68°F,
V.S.W.R. 1.2, Average)
Contact carrying power
Compliance with RoHS Directive
RX-P RELAYS (ARXP)
3. Small size
L: 12.4, W: 20.5, H: 9.4 mm
L: .488, W: .807, H: .370 inch
4. High sensitivity
Nominal operating power: 200mW
(Single side stable type and 1 coil
latching type)
ORDERING INFORMATION
ARXP 1
RX-P relays
Contact arrangement
1: 1 Form C
Operating function
0: Single side stable type
1: 1 coil latching type
2: 2 coil latching type
Coil voltage, DC
03: 3 V 4H: 4.5 V 06: 6 V 09: 9 V 12: 12 V 24: 24 V
(H=0.5)
TYPES
Nominal coil
voltage
3 V DC
4.5 V DC
6 V DC
9 V DC
12 V DC
24 V DC
Single side stable type
ARXP1003
ARXP104H
ARXP1006
ARXP1009
ARXP1012
ARXP1024
Part No.
1 coil latching type
ARXP1103
ARXP114H
ARXP1106
ARXP1109
ARXP1112
ARXP1124
Standard packing: 50 pcs. in an inner package; 500 pcs. in an outer package
All Rights Reserved © COPYRIGHT Panasonic Electric Works Co., Ltd.
2 coil latching type
ARXP1203
ARXP124H
ARXP1206
ARXP1209
ARXP1212
ARXP1224
MicrowaveDevices.book Page 49 Wednesday, November 26, 2008 7:50 PM
RX-P (ARXP1)
RATING
1. Coil data
1) Single side stable type
Nominal coil
voltage
3
Pick-up voltage
(at 20°C 68°F)
Drop-out voltage
(at 20°C 68°F)
Nominal operating
current
[±10%] (at 20°C 68°F)
10%V or more of
nominal voltage
(Initial)
66.7 mA
44.4 mA
33.3 mA
22.2 mA
16.7 mA
8.3 mA
V DC
4.5 V DC
6 V DC
9 V DC
12 V DC
24 V DC
75%V or less of
nominal voltage
(Initial)
Coil resistance
[±10%] (at 20°C 68°F)
45
101
180
405
720
2,880
Ω
Ω
Ω
Ω
Ω
Ω
Nominal operating
power
Max. applied voltage
(at 60°C 140°F)
200 mW
110%V or less of
nominal voltage
Nominal operating
power
Max. applied voltage
(at 60°C 140°F)
200 mW
110%V or less of
nominal voltage
Nominal operating
power
Max. applied voltage
(at 60°C 140°F)
400 mW
110%V or less of
nominal voltage
2) 1 coil latching type
Nominal coil
voltage
3
Set voltage
(at 20°C 68°F)
Reset voltage
(at 20°C 68°F)
V DC
4.5 V DC
6 V DC
9 V DC
12 V DC
24 V DC
75%V or less of
nominal voltage
(Initial)
75%V or less of
nominal voltage
(Initial)
Nominal operating
current
[±10%] (at 20°C 68°F)
66.7 mA
44.4 mA
33.3 mA
22.2 mA
16.7 mA
8.3 mA
Coil resistance
[±10%] (at 20°C 68°F)
45 Ω
101
180
405
720
2,880
Ω
Ω
Ω
Ω
Ω
3) 2 coil latching type
Nominal coil
voltage
Set voltage
(at 20°C 68°F)
Reset voltage
(at 20°C 68°F)
Nominal operating
current
[±10%] (at 20°C 68°F)
Coil resistance
[±10%] (at 20°C 68°F)
V DC
133.3 mA
22.5Ω
4.5 V DC
6 V DC
9 V DC
12 V DC
24 V DC
88.9 mA
66.7 mA
44.4 mA
33.3 mA
16.7 mA
50.6Ω
90 Ω
202.5Ω
360 Ω
1,440 Ω
3
75%V or less of
nominal voltage
(Initial)
75%V or less of
nominal voltage
(Initial)
All Rights Reserved © COPYRIGHT Panasonic Electric Works Co., Ltd.
MicrowaveDevices.book Page 50 Wednesday, November 26, 2008 7:50 PM
RX-P (ARXP1)
2. Specifications
Contact
Rating
Item
Arrangement
Contact material
Contact resistance (Initial)
Nominal switching capacity
Contact carrying power
Max. switching voltage
Max. switching current
Specifications
1 Form C
Fixed: Au plating Movable: Au clad
Max. 100 mΩ (By voltage drop 10 V AC 10mA)
40W (at 2.5GHz, Impedance: 50Ω, V.S.W.R.: Max. 1.2)
Max. 60W (at 2.5GHz, Impedance: 50Ω, V.S.W.R.: Max. 1.2)
30 V DC
0.5 A DC
Single side stable type
1 coil latching type
2 coil latching type
V.S.W.R. (Return loss)
Insertion loss
Isolation
Contact carrying power
200mW
200mW
400mW
Max. 1.2 (Min. 20.8dB)
Max. 0.2dB
Min. 60dB
Max. 60W (at 20°C 68°F, V.S.W.R.
Nominal operating
power
High frequency
characteristics,
Impedance: 50Ω
(to 2.5GHz) (Initial)
Insulation resistance (Initial)
Breakdown voltage
(Initial)
Between open contacts
Between contact and coil
Between contact and earth terminal
Temperature rise (at 20°C 68°F)
Electrical
characteristics
Operate time
[Set time]
(at 20°C 68°F)
Single side stable type
Release time
[Reset time]
(at 20°C 68°F)
Single side stable type*1
1 coil latching type
Expected life
Conditions
Max. 10 ms (Approx. 6 ms)
(Nominal voltage applied to the coil, excluding contact bounce time)
Max. 10 ms (Approx. 5 ms)
(Nominal voltage applied to the coil, excluding contact bounce time)
2 coil latching type
1 coil latching type
Max. 6 ms (Approx. 3 ms)
(Nominal voltage applied to the coil, excluding contact bounce time) (without diode)
Max. 10 ms (Approx. 5 ms)
(Nominal voltage applied to the coil, excluding contact bounce time)
2 coil latching type
Functional
Destructive
Functional
Vibration resistance
Destructive
Mechanical life
Electrical life
Shock resistance
Mechanical
characteristics
1.2, Average)
Min. 100MΩ
(at 500V DC, Measurement at same location as “Breakdown voltage” section.)
500 Vrms for 1min. (Detection current: 10mA)
1,000 Vrms for 1min. (Detection current: 10mA)
500 Vrms for 1min. (Detection current: 10mA)
Max. 60°C 140°F (By resistive method, nominal voltage applied to the coil,
contact carrying power: 20W at 2.5GHz, 50Ω, V.S.W.R. 1.2)
Conditions for operation, transport and storage*2
Unit weight
Min. 200 m/s2 (Half-wave pulse of sine wave: 11 ms, detection time: 10µs)
Min. 1,000 m/s2 (Half-wave pulse of sine wave: 6 ms)
10 to 55 Hz at double amplitude of 3 mm (Detection time: 10µs)
10 to 55 Hz at double amplitude of 5 mm
Min. 104 (at 180 cpm)
Min. 104 (40W, at 2.5GHz, Impedance: 50Ω, V.S.W.R: Max. 1.2) (at 20 cpm)
Ambient temperature: –40 to 70°C –40°F to 158°F
Humidity: 5 to 85% R.H. (Not freezing and condensing at low temperature)
Approx. 5 g .18 oz
Notes: *1 Release time will lengthen if a diode, etc., is connected in parallel to the coil. Be sure to verify operation under actual conditions.
*2 The upper operation ambient temperature limit is the maximum temperature that can satisfy the coil temperature rise value. Refer to [6] AMBIENT ENVIRONMENT
in GENERAL APPLICATION GUIDELINES.
REFERENCE DATA
1. High frequency characteristics
Sample: ARXP1012; Measuring method: Measured with Agilent Technologies network analyzer (E8363B). *For details see No. 8 under “NOTES”.
• V.S.W.R. characteristics
• Insertion loss characteristics
(without D.U.T. board’s loss)
• Isolation characteristics
0
2.0
0
1.9
10
1.7
1.6
1.5
1.4
0.1
20
COM-NC
COM-NO
0.2
30
40
50
60
0.3
1.3
COM-NC
70
1.2
1.5GHz
Frequency
COM-NO
COM-NC
2.5GHz 3GHz
COM-NO
80
0.4
1.1
1.0
40MHz
Isolation, dB
Insertion loss, dB
V.S.W.R
1.8
90
0.5
40MHz
1.5GHz
2.5GHz 3GHz
100
40MHz
Frequency
All Rights Reserved © COPYRIGHT Panasonic Electric Works Co., Ltd.
1.5GHz
Frequency
2.5GHz 3GHz
MicrowaveDevices.book Page 51 Wednesday, November 26, 2008 7:50 PM
RX-P (ARXP1)
DIMENSIONS (mm inch)
External dimensions
PC board pattern (Bottom view)
0.9 dia. hole
.035 dia. hole
2.54
.100
2.54
.100
Part No.
12.4
.488
2 coil latching only
7.62
.300
Lot No.
20.5
.807
0.2
.008
2.63
.104
R 0.45 .018
0.90
.035
9.2
.362
Tolerance: ±0.1 ±.004
3.0
.118
(2.04)
(.080)
2.54
.100
7.62
.300
(2.74)
(.108)
2-0.6×0.3
2-.024×.012
Schematic (Bottom view)
Single side stable
Solder to the
PC board earth.
-1
+7
1 coil latching
+1
2 coil latching
-7
1
6
7-0.40 to 0.45 dia.
7-.016 to .018 dia.
14 13 12 11 10
Tolerance: ±0.3 ±.012
NC
COM
9
8
NO
(Deenergized condition)
14 13 12 11 10
RESET
9
COM
14 13 12 11 10
8
SET
RESET
(Reset condition)
7
+ +
COM
9
8
SET
(Reset condition)
NOTES
1. Coil operating power
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 it with the actual circuit
since the characteristics may be slightly
different.
2. Coil connection
When connecting coils, refer to the wiring
diagram to prevent mis-operation or
malfunction.
To ensure accurate operation, the voltage
on both sides of the coil should be ±5%
(at 20°C 68°F) of the nominal coil
voltage.
Also, please note that the pick-up and
drop-out voltages (set and reset voltages)
will change depending on operation
temperature and conditions of use.
Keep the coil allowable voltage ripple
ratio to no more than 5%.
3. External magnetic field
Since RX-P relays are highly sensitive
polarized relays, their characteristics will
be affected by a strong external magnetic
field. Avoid using the relay under that
condition.
4. Cleaning
For automatic cleaning, the boiling
method is recommended. Avoid
ultrasonic cleaning which subjects the
relays to high frequency vibrations, which
may cause the contacts to stick.
It is recommended that alcoholic solvents
be used.
5. Soldering
1) Please meet the following conditions if
this relay is to be automatically soldered.
(1) Preheating: Max. 120°C 248°F
(terminal solder surface) for max. 120
seconds
(2) Soldering: Max. 260±5°C 500±41°F
for max. 6 seconds
2) Please meet the following conditions if
this relay is to be soldered by hand.
(1) 260°C 500°F for max. 10 seconds
(2) 350°C 662°F for max. 3 seconds
*In addition, when soldering the case to
the PC board, the plating may swell
depending on the soldering conditions.
6. Conditions for operation, transport
and storage conditions
1) Ambient temperature, humidity, and
atmospheric pressure during usage,
transport, and storage of the relay:
(1) Temperature:
–40 to +70°C –40 to +158°F (However,
when 60 to 70°C 140 to 158°F, the pulse
time is 1 second maximum and ON time
is 10% maximum.)
(2) Humidity: 5 to 85% RH
(Avoid freezing and condensation.)
The humidity range varies with the
temperature. Use within the range
indicated in the graph below.
(3) Atmospheric pressure: 86 to 106 kPa
Temperature and humidity range for
usage, transport, and storage:
Humidity, %R.H.
85
Tolerance range
(Avoid freezing
when used at
temperatures
lower than
0°C 32°F)
5
-40
-40
(Avoid
condensation
when used at
temperatures
higher than
0°C 32°F)
0
70
32
158
Temperature, °C °F
2) Condensation
Condensation forms when there is a
sudden change in temperature under
high temperature and high humidity
conditions. Condensation will cause
deterioration of the relay insulation.
3) Freezing
Condensation or other moisture may
freeze on the relay when the temperature
is lower than 0°C 32°F. This causes
problems such as sticking of movable
parts or operational time lags.
4) Low temperature, low humidity
environments
The plastic becomes brittle if the relay is
exposed to a low temperature, low
humidity environment for long periods of
time.
All Rights Reserved © COPYRIGHT Panasonic Electric Works Co., Ltd.
MicrowaveDevices.book Page 52 Wednesday, November 26, 2008 7:50 PM
RX-P (ARXP1)
7. Latching relay
1) To ensure accurate operation of the
latching type amidst surrounding
temperature changes and other factors
that might affect the set and reset pulse
times, we recommend a coil impress set
and reset pulse width of at least 30 ms at
the rated operation voltage.
2) The latching type relay is shipped in
the reset position. But jolts during
transport or impacts during installation
can change the reset position. It is,
therefore, advisable to build a circuit in
which the relay can be initialized (set and
reset) just after turning on the power.
8. Measuring method
50Ω type
1
Network
analyzer
2
PORT2
Agilent
1
2
Te c h n o l o g i e s
E8363B
PORT1
Connect connectors 1 and 2 respectively
to PORT 1 and PORT 2. Perform
calibration using the 3.5 mm calibration
kit (HP85052B).
No.
Product name
Contents
1
Agilent
85130-60011
Adapter
2.4mm-3.5mm female
.095inch-.138inch female
2
SUHNER
SUCOFLEX104
Cable
3.5mm-3.5mm male
.138inch-.138inch male
After calibration, connect the D.U.T.
board and measure. However,
connectors other than those for
measurement should be connected with
a 50Ω termination resistor.
PC board
Dimensions (mm inch)
24
.945
16
.630
2.0 6.0
.079 .236
a
b
Solder surface-mount
(SMA) type connectors.
PC board for correction
Dimensions (mm inch)
8.57 (a+b)
.337 (a+b)
16
.630
2.0 6.0
.079 .236
8.57 (a+b)
.337 (a+b)
Solder surface-mount
(SMA) type connectors.
Material: Glass PTFE double-sided
through hole PC board R-4737
(Panasonic Electric Works)
Board thickness: t = 0.8 mm .031 inch
Copper plating: 18 µm
Connector (SMA type receptacle)
Product name: 01K1808-00 (Waka
Manufacturing Co., Ltd.)
Value has compensation PC board
subtracted only for insertion loss.
(Eliminate loss of connector and PC
board.)
9. Others
1) The switching lifetime is defined under
the standard test condition specified in
the JIS C 5442 standard (temperature 15
to 35°C 59 to 95°F, humidity 25 to
85%R.H.). Check this with the real device
as it is affected by coil driving circuit, load
type, activation frequency, activation
phase, ambient conditions and other
factors.
Also, be especially careful of loads such
as those listed below.
• When used for AC load-operating and
the operating phase is synchronous,
rocking and fusing can easily occur due
to contact shifting.
• When high-frequency opening and
closing of the relay is performed with a
load that causes arcs at the contacts,
nitrogen and oxygen in the air is fused by
the arc energy and HNO3 is formed. This
can corrode metal materials.
Three countermeasures for these are
listed here.
(1) Incorporate an arc-extinguishing
circuit.
(2) Lower the operating frequency
(3) Lower the ambient humidity
2) Use the relay within specifications
such as coil rating, contact rating and on/
off service life. If used beyond limits, the
relay may overheat, generate smoke or
catch fire.
3) Be careful not to drop the relay. If
accidentally dropped, carefully check its
appearance and characteristics before
use.
4) Be careful to wire the relay correctly.
Otherwise, malfunction, overheat, fire or
other trouble may occur.
5) If a relay stays on in a circuit for many
months or years at a time without being
activated, circuit design should be
reviewed so that the relay can remain
non-excited. A coil that receives current
all the time heats, which degrades
insulation earlier than expected. A
latching type relay is recommended for
such circuits.
6) If silicone materials (e.g., silicone
rubbers, silicone oils, silicone coating
agents, silicone sealers) are used in the
vicinity of the relay, the gas emitted from
the silicone may adhere to the contacts of
the relay during opening and closing and
lead to improper contact. If this is the
case, use a material other than silicone.
For general cautions for use, please
refer to the “General Application
Guidelines”.
All Rights Reserved © COPYRIGHT Panasonic Electric Works Co., Ltd.
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