FUJITSU FTR

FTR-P4 SERIES
COMPACT POWER TWIN RELAY
1POLE X 2, H-BRIDGE—
25 A FOR AUTOMOTIVE APPLICATIONS
FTR-P4 Series
RoHS compliant
n FEATURES
l Compact for high density packaging.
(60% volume of previous generation FBR512).
l High contact capacity with proven contact material.
(100,000 operations, 14 V, 25 A achieved, even with reduced size).
l Coil power savings
(600mW nominal achieved with state-of-the-art magnetic analysis/design).
l 125˚C version is available.
l Ease of PCB layout
(all terminals on perimeter, coil and contact terminals separated).
l Pin compatible with low acoustic noise relay, FTR-P2.
l Optional over-voltage circuit breaking capability
(0.6mm gap, contact our representative).
l Packaging for auto-insertion
(tube packing, 30 relays/tube).
l
RoHS
compliant since date code: 0624
Please see page 8 for more information
n ORDERING INFORMATION
[Example]
FTR-P4 C N 012 W1 ***
(a)
(b) (c) (d) (e) (f)
(a)
Series Name FTR-P4 Series
(b)
Contact Arrangement
C
: 1 Form C x 2 (H-Bridge)
(c)
(d)
Contact Gap
Nominal Coil Voltage
N
P
009
010
012
: 0.3mm gap
: 0.6mm gap
: 9VDC
: 10VDC
: 12VDC
(e)
Contact Material
W1
: Silver-tin oxide-indium
(f)
Custom Designation
Nil : Standard (85˚C)
-01 : High temperature (125˚C)
Note: The part number stamped on the relay cover does not include "FTR".
Example: Ordering part number: FTR-P4CN012W1
Stamped on part number: P4CN012W1 n
TYPICAL APPLICATIONS
Power window
Door lock
Power seat
Sun roof
Tilt steering
Retractable antenna
FTR-P4 SERIES
n SPECIFICATIONS
Specification
Item
Contact
Standard
High Temperature versio n
Arrangement
1 form C x 2 (H-Bridge )
Material
Silver-tin oxide-indiu m
Voltage Drop (Resistance)
Maximum 100 mV (at 1 A 12 VDC)
Rating
25 A at 14 VDC (locked motor load)
Maximum Carrying Current
25 A / 1 hour (20° C, 100% rated coil voltage)
Maximum Inrush Current (Reference)
35 A
Maximum Switching Current
(Reference)
35 A at 16 VDC
Minimum Switching Load*1 (Reference) 1 A, 6 VD C
Coil
Timing
Values
Life
Operating Temperature Range
-40° C to +85° C (no frost ) -40° C to +125° C (no frost )
Storage Temperature Range
-40° C to+100° C (no
frost)
Operate (at nominal voltage)
Maximum 10ms (not including bounce)
Release (at nominal voltage)
Maximum 5ms (not including bounce, no diode)
Maximum 15ms (not including bounce, with diode)
Mechanical
10 x 1 06 operations minimum
Electrical
100 x 103 operations minimum 14 VDC, 25 A (locked
motor load)
(1 operation = 1 forward, 1 reverse)
Vibration
Resistance
Other
Shock
Resistance
Operational
10-55Hz, 1.5mm double amplitude (=9.13G @ 55Hz)
55-100Hz, 45m/sec2 (4.6G)
Operational
100 m/ s2 minimum (10G)
Endurance
1, 000 m/ s2 minimum (100G)
Insulation Resistance (initial)
100M ohms @500 VA C
Dielectric Withstanding Voltage (initial)
500 VA C
Weight
-40° C to +125° C (no frost)
Approximately 9.0 g
*1 Values when switching a resistive load at normal room temperature and humidity and in a clean environment.
The minimum switching load varies with the switching frequency and operating environment.
FTR-P4 SERIES
n COIL DATA CHART
FTR-P4 Series (0.25mm contact gap)
Model
Nominal
Coil
Voltage
Coil
Resistance
(±10% at 20°C)
Must Operate
Voltage
Must
Release
Voltage
(at 20°C)
Coil
Thermal
Power at
Resistance
Nominal
(approx.)
Voltage
FTR-P4-CN009W1 ( )
9VDC
135Ω
5.5VDC (at 20ºC)
6.9VDC (at 85ºC)
0.75VDC
0.6W
73ºC/W
FTR-P4-CN010W1 ( )
10VDC
167Ω
6.3VDC (at 20ºC)
7.9VDC (at 85ºC)
0.9VDC
0.6W
73ºC/W
FTR-P4-CN012W1 ( )
12VDC
240Ω
7.3VDC (at 20ºC)
9.2VDC (at 85ºC)
1.0VDC
0.6W
73ºC/W
Note: ( ) is "Nil" or "-01"
FTR-P4 Series (0.6mm contact gap)
Model
Nominal
Coil
Voltage
Coil
Resistance
(±10% at 20°C)
Must Operate
Voltage
Must
Release
Voltage
(at 20°C)
Coil
Power at
Nominal
Voltage
Thermal
Resistance
(approx.)
FTR-P4-CP009W1
9VDC
100Ω
5.5VDC (at 20ºC)
6.9VDC (at 85ºC)
0.75VDC
0.8W
73ºC/W
FTR-P4-CP010W1
10VDC
125Ω
6.3VDC (at 20ºC)
7.9VDC (at 85ºC)
0.9VDC
0.8W
73ºC/W
FTR-P4-CP012W1
12VDC
167Ω
7.3VDC (at 20ºC)
9.2VDC (at 85ºC)
1.0VDC
0.8W
73ºC/W
FTR-P4 SERIES
n CHARACTERISTIC DATA
1. LIFE TEST (EXAMPLES)
M
100
80
60
OPERATE
40
20
RELEASE
0
20
50
100
• Change in contact resistance
10 sec
0A
0.25 sec
0.25 sec
5 sec
* 1 operation = 1 forward
and 1 reverse
Contact Resistance (mΩ)
0A
1000
(Measured at 6 VDC, 1A wet)
1000
(RL-2)
25 A
500
Number of operations* (x 103 times)
Initial
• Current wave form
(RL-1)
25 A
• Change of operate and release voltage
Percent of nominal coil voltage (%)
• Test item
14 V DC-25 A
locked motor
100K operations* minimim
0.25 seconds ON,
9.75 seconds OFF
100
10
1
20
Initial
50
100
500
Number of operations* (x 103 times)
1000
FTR-P4 SERIES
3. COIL TEMPERATURE RISE
2. MAXIMUM BREAK CAPACITY
50
Motorloadlock
25
20
5
FTR-P4CN
FTR-P4CP
2
0
100
5
20 25 30 35 40 50
0.6 W
Contact carrying current: 20A
80
60
0.6 W
Contact carrying current: 10A
0.6 W
40
Contact carrying current: 0.0A
20
0
0
Ambient temperature: 20C
120
Coil temperature rise (degrees C)
Switchingcurrent(A)
40
35
30
0
10
20
30
Applied time (minutes)
Sourcevoltage(VDC)
Ratio of coil voltage to nominal voltage (%)
4. OPERATING COIL VOLTAGE RANGE
140
120
Continuous operating range
at 10A carry current
100
80
60
Must
40
-30 -20
0
e
oltag
ate v
-oper
20
40
60
80
100
Ambient temperature C
FTR-P4 SERIES
5. VIBRATION RESISTANCE CHARACTERISTIC
5
100
Acceleration
50
Dual amplitude (mm)
1
0.5
0.1
0.01
44 m/s2
Range where
chattering occurs
Break contact
Coil deenergized
on X-axis
On vehicle
Electronic equipment
Standard
10
10
50
100
500
1000
Frequency : 10~2000 Hz
Acceleration : 100 m/s2 maximum
Vibration direction : see drawing below
Detection level : generation of 1 ms
or longer contact opening
Z
FTR-P4
2000
X
Y
Frequency (Hz)
6. SHOCK RESISTANCE CHARACTERISTIC
1,000
Shock duration: 111 ms, half-sine wave
Test condition: coil, energized and de-energized
Impact direction: see drawing below
Detection level : generation of 1ms or longer
contact opening
Y2
800
Shock level (m/s2)
600
Y1
400
Z2
X1
FTR-P4
200
X2
Z1
0
X1
X2
Y1
Y2
Impact direction
Z1
Z2
: Break contact
(coil de-energized)
: Make contact
(coil energized)
n REFERENCE DATA
100
Operate
Release
Data: FTR-P4
Units: n = 100
80
Distribution (%)
Distribution (%)
80
60
40
Data: FTR-P4
Units: n = 100
Operate
Release
60
40
20
20
0
Operate and release time distribution
0
10
20
30
40
50
60
Ratio to rated voltage (%)
70
80
0
Contact resistance distribution
100
Data: FTR-P4
Units: n = 100
80
Distribution (%)
Operating/release voltage distribution
100
60
40
20
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7
Time (ms)
0
0
10
20
30
40
50
60
70
80
Contact resistance (m)
FTR-P4 SERIES
n DIMENSIONS AND SCHEMATICS
Dimensions
Recommended PCB hole layout and schematic
(Bottom view)
7-ø1.5
6
P4CN012W1
6
F&T
17.4+0.5
14.2+0.5
5
5
3.5+0.5
13.5+0.5
5
0.4
(1.2)
5.0
5.0
6.0
3-0.8
6.0
5.0
Unit: mm
3-0.25
4-1.0
4-0.4
n PRECAUTIONS
Please refer to the Engineering Reference in our relay databook for general precautions.
FTR-P4 SERIES
RoHS Compliance and Lead Free Relay Information
1. General Information
Relays produced after the specific date code that is indicated on each data sheet are lead-free
now. Most of our signal and power relays are lead-free. Please refer to Lead-Free Status Info.
(http://www.fujitsu.com/us/downloads/MICRO/fcai/relays/lead-free-letter.pdf)
l Lead free solder paste currently used in relays is Sn-3.0Ag-0.5Cu.
l All signal and most power relays also comply with RoHS. Please refer to individual data
sheets. Relays that are RoHS compliant do not contain the 5 hazardous materials that
are restricted by RoHS directive (lead, mercury, chromium IV, PBB, PBDE).
l It has been verified that using lead-free relays in leaded assembly process will not cause any
problems (compatible).
l “LF” is marked on each outer and inner carton. (No marking on individual relays).
l To avoid leaded relays (for lead-free sample, etc.) please consult with area sales office. l We will ship leaded relays as long as the leaded relay inventory exists.
Note: Cadmium was exempted from RoHS on October 21, 2005. (Amendment to Directive 2002/95/EC)
l
2. Recommended Lead Free Solder Profile
l
Recommended solder paste Sn-3.0Ag-0.5Cu.
Reflow Solder condition
Flow Solder condition:
Pre-heating:
Soldering:
maximum 120˚C
dip within 5 sec. at 260˚C solder bath
Solder by Soldering Iron:
Soldering Iron
Temperature: maximum 360˚C
Duration:
maximum 3 sec.
We highly recommend that you confirm your actual solder conditions
3. Moisture Sensitivity
l
Moisture Sensitivity Level standard is not applicable to electromechanical realys.
4. Tin Whisker
l
Dipped SnAgCu solder is known as low risk tin whisker. No considerable length whisker was found by our in
house test.
FTR-P4 SERIES
Fujitsu Components International Headquarter Offices
Japan
Fujitsu Component Limited
Gotanda-Chuo Building
3-5, Higashigotanda 2-chome, Shinagawa-ku
Tokyo 141 8630, Japan
Tel: (81-3) 5449-7010
Fax: (81-3) 5449-2626
Email: [email protected]
Web: www.fcl.fujitsu.com
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2132 WV Hoofddorp
Netherlands
Tel: (31-23) 5560910
Fax: (31-23) 5560950
Email: [email protected]
Web: emea.fujitsu.com/components/
North and South America
Fujitsu Components America, Inc.
250 E. Caribbean Drive
Sunnyvale, CA 94089 U.S.A.
Tel: (1-408) 745-4900
Fax: (1-408) 745-4970
Email: [email protected]
Web: http://www.fujitsu.com/us/services/edevices/components/
Asia Pacific
Fujitsu Components Asia Ltd.
102E Pasir Panjang Road
#01-01 Citilink Warehouse Complex
Singapore 118529
Tel: (65) 6375-8560
Fax: (65) 6273-3021
Email: [email protected]
Web: http://www.fujitsu.com/sg/services/micro/components/
©2009 Fujitsu Components America, Inc. All rights reserved. All trademarks or registered trademarks are the property of their respective
owners.
Fujitsu Components America or its affiliates do not warrant that the content of datasheet is error free. In a continuing effort to improve our
products Fujitsu Components America, Inc. or its affiliates reserve the right to change specifications/datasheets without prior notice.
Rev. March 4, 2009.