POWER RELAY
1 POLE—3, 5, 10 A
FBR160 SERIES
s
FEATURES
q
q
q
q
Compact with high power (3 A to 10 A)
6 types of contact materials available for home electronics
and automotive applications
Design conforms to the following safety standards
UL114 No. E63615
UL508 No. E63614
CSA
No. LR64026
Japan Electric Appliance Control Law (150–300 V)
For automatic assembly
Tube packaging suitable for automatic insertion
equipment is available
s
ORDERING INFORMATION
[Example]
(a)
(b)
(c)
(d)
(e)
( f)
(g)
FBR16
(a)
1
(b)
S
(c)
E
(d)
D
(e)
012 UH
(f ) (g)
–CSA –***
(h)
(i)
–S
( j)
Series Name
Contact Arrangement
Enclosure
Coil Rating
Coil
Nominal Voltage
UL Standard and Contact Material
FBR16: FBR160 Series
1
3
S
N
E
C
D
: 1 form C (SPDT)
: 1 form A (SPST-NO)
: Flux free
: Plastic sealed
: Nominal power 0.36 W type
: Nominal power 0.5 W type (refer to the SPECIFICATIONS)
: DC Coil
(Example) 012: 12 VDC coil
024: 24 VDC coil (refer to the COIL DATA CHART)
UL 114
recognized
U
UK
UH
UW
UHB
UWB
UL508
recognized
R
RK
RH
RW
RHB
RWB
Material / Rating
Silver (3A)
Silver-cadmium oxide (3 A)
Silver-cadmium oxide (5 A)
Silver tin oxide alloy (5 A)
Silver-cadmium oxide (AC 10 A)
Silver tin oxide alloy (DC 10 A
(Continued)
1
FBR160 SERIES
(h)
(i)
(j)
CSA Standard
Custom Designation
Package Style
No designation: standard
-CSA: CSA recognized (g) specifies UL 114 or UL 508
Suffix number for custom design
Nil
-S
: Standard tray
: Tube carrier
Note: The designation name is stamped on the top of the relay case as follows:
(Example) Designation ordered: FBR161NED012-H
Stamp: 161NED012-H
s
SAFETY STANDARD AND FILE NUMBERS
UL 114 (File No. E63615)
UL 508 (File No. E63614)
C22.2, No. 14 (File No. LR40304, LR61320 or LR64026)
Nominal voltage
Type (contact material)
Silver (no designation)
Silver-cadmium oxide (-K)
5 to 24 VDC
Silver-cadmium oxide(-H)
Silver tin oxide alloy (-W)
Silver tin oxide alloy (-WB)
Silver-cadmium oxide (-HB)
3A
1/10 HP
5A
1/6 HP
Contact rating
120 VAC/ 30 VDC resistive
120 VAC
120 VAC/30 VDC resistive
120 VAC
10 A (N.O.) 7 A (N.C.) 120 VAC/250 VAC resistive
10 A
30 VDC resistive
1/8 HP
120 VAC/250 VAC
2
FBR160 SERIES
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SPECIFICATIONS
Item
Contact
Arrangement and Style
Material
Resistance (initial)
Ratings (resistive load)
Maximum Carrying Current
Maximum Switching Power
Max. Switching Voltage*
1
Minimum Switching Load*
2
Coil
Nominal Power
Operating Temperature
Operate Humidity
Time Value
Operate (at nominal voltage)
Release (at nominal voltage)
Insulation
Resistance (initial)
Dielectric Between coil and contacts
Strength
Between open contacts
Surge Strength
Life
Mechanical
Electrical (refer to
the REFERENCE
DATA)
Other
Vibration Resistance
Shock
No contact opening
Resistance No damage
Weight
DC
AC
—
-K
-H
-W
-HB
-WB
1 form C or 1 form A, single contact
Silver
Silver-cadmium oxide
Silver tin oxide alloy Silver-cadmium oxide Silver tin oxide alloy
Maximum 100 mΩ (silver contact at 0.5 A 6 VDC/other contacts at 1 A 6 VDC)
3 A 120 VAC
3 A 28 VDC
5A
360 VA or 84 W
250 VAC or 125 VDC
0.3 W (30 mA 5 V)
0.3 W (50 mA 5 V) 0.5 W (100 mA 5 V) 0.5 W (100 mA 5 V)
600 VA or 140 W
140 W
5 A 120 VAC
5 A 28 VAC
5 A 28 VDC
10 A 120 VAC (N.O.)
7 A 120 VAC (N.C.)
10 A
1,200 VA
10 A 28 VDC
10 A
280 W
Approx. 0.36 W (E coil type)/0.5 W (C coil type) (at 20°C)
–30°C to +80°C (no frost) *
3
45 to 85% RH
Maximum 10 msec
Maximum 5 msec
Minimum 100 MΩ (at 500 VDC)
1,500 VAC 1 minute
500 VAC 1 minute
3,500 V (at 1.2
×
50
µs)
1
×
10
7
operations minimum
1
×
10
5
operations minimum (at contact rating)
1
×
10
5
operations minimum (at contact rating)
10 to 55 Hz (double amplitude of 1.5mm)
100 m/s
2
(11
±
1
ms)
1,000 m/m
2
(6
±
1
ms)
Approximately 11 g
*
1
If the switching voltage exceeds the rated contact voltage, reduce the current. The current values vary according to the
type of load.
2
* 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 operation environment.
*
3
Based on UL Class A coil insulation system.
3
FBR160 SERIES
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COIL RATINGS
1. E (0.36 WATT COIL TYPE)
MODEL
1 Form C type
Flux free
Plastic sealed
1 Form A type
Flux free
Plastic sealed
5 VDC
6 VDC
9 VDC
12 VDC
24 VDC
Nominal
voltage
Nominal
Coil
current
Must
resistance (at nominal operate
voltage) voltage
(
±
10%)
approx.
70
Ω
100
Ω
225
Ω
400
Ω
1,600
Ω
71 mA
60 mA
40 mA
30 mA
15 mA
80% max. 10% min.
of
of
nominal nominal
voltage voltage
210%
of
nominal
voltage
Approx.
Approx.
360 mW
30 deg
(at nominal (at nominal
voltage)
voltage)
Must
release
voltage
Maximum
allowable
voltage
Nominal
power
Coil
temperature
rise
FBR161SED005
s
FBR161NED005
s
FBR163SED005
s
FBR163SED005
s
FBR161SED006
s
FBR161NED006
s
FBR163SED006
s
FBR163SED006
s
FBR161SED009
s
FBR161NED009
s
FBR163SED009
s
FBR163SED009
s
FBR161SED012
s
FBR161NED012
s
FBR163SED012
s
FBR163SED012
s
FBR161SED024
s
FBR161NED024
s
FBR163SED024
s
FBR163SED024
s
Note: All values in the table are measured at 20°C.
2. C (0.5 WATT COIL TYPE)
MODEL
1 Form C type
Flux free
Plastic sealed
1 Form A type
Flux free
Plastic sealed
Nominal
voltage
5 VDC
6 VDC
9 VDC
12 VDC
24 VDC
48 VDC
Nominal
current
Must
Coil
resistance (at nominal operate
voltage) voltage
(
±
10%)
approx.
50
Ω
100 mA
72
Ω
162
Ω
288
Ω
1,152
Ω
4,600
Ω
Must
release
voltage
Maximum
allowable
voltage
Nominal
power
Coil
temperature
rise
FBR161SCD005
s
FBR161NCD005
s
FBR163SCD005
s
FBR163SCD005
s
FBR161SCD006
s
FBR161NCD006
s
FBR163SCD006
s
FBR163SCD006
s
FBR161SCD009
s
FBR161NCD009
s
FBR163SCD009
s
FBR163SCD009
s
FBR161SCD012
s
FBR161NCD012
s
FBR163SCD012
s
FBR163SCD012
s
FBR161SCD024
s
FBR161NCD024
s
FBR163SCD024
s
FBR163SCD024
s
FBR161SCD048s FBR161NCD048
s
FBR163SCD048
s
FBR163SCD048
s
s
83 mA 75% max. 10% min.
of
of
56 mA nominal nominal
42 mA voltage voltage
21 mA
10 mA
210%
of
nominal
voltage
Approx.
Approx.
500 mW
35 deg
(at nominal (at nominal
voltage)
voltage)
Note: All values in the table are measured at 20°C.
4
FBR160 SERIES
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CHARACTERISTIC DATA
Range of operation temperature and voltage
E type [0.36 W type]
Nominal voltage multiplying mactor (%)
160
150
140
130
120
110
100
90
80
70
M
te vo
pera
ust o
ltage
(Data) assumes that
the maximum
allowable tem-
perature of E
type insula-
tion coil is
115˚C
Maximum switching capacity (10 A type)
10.0
AC
resistive load
( AC contact rating)
DC
resistive load
( DC contact rating)
AC
inductive load
DC
inductive load
Maximum switching capacity (5 A type)
AC
resistive load
( AC contact rating)
DC
resistive load
( DC contact rating)
AC
inductive load
DC
inductive load
Contact load current (A)
Contact load current (A)
5.0
3.0
5.0
3.0
Operating voltage range
–10 0 10 20 30 40 50 60 70 80
Operating temperature (˚C)
Life curve (5 A type)
(x10
4
)
500
120
V AC resistive load (–HB type)
30
V DC resistive load (–WB type)
120
V AC inductive load (–HB type)
30
V AC inductive load (–WB type)
240
V AC resistive load (–HB type)
240
V AC inductive load (–HB type)
Service life (operations)
100
Service life (operations)
Service life (operations)
Ma
u
xim
ma
llow
abl
oil v
ec
olta
ge
1.0
0.5
0.3
1.0
0.5
0.3
0.1
10
20 30 50
120
250
0.1
10
20 30 50
120
250
Contact load voltage (V)
Contact load voltage (V)
Life curve
(10 A type, make side (N.O.))
(
x
10
4
)
500
120
V AC resistive load (–HB type)
30
V DC resistive load (–WB type)
120
V AC inductive load (–HB type)
30
V AC inductive load (–WB type)
240
V AC resistive load (–HB type)
240
V AC inductive load (–HB type)
Life curve
(10 A type, breake side (N.C.))
(x10
4
)
500
120
V AC resistive load (–HB type)
30
V DC resistive load (–WB type)
120
V AC inductive load (–HB type)
30
V AC inductive load (–WB type)
240
V AC resistive load (–HB type)
240
V AC inductive load (–HB type)
100
50
30
10
5
100
50
30
10
5
50
30
10
5
0
0.5
1
2
3
4
5
0 0.5 1 2
4
6
8
10
0 0.5 1 2
4
6
8
10
Contact load current (A)
Contact load current (A)
Contact load current (A)
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REFERENCE DATA
Distribution of operate and release voltage
80
FBR161
n = 100
Operate
60
Distribution (%)
Distribution of operate and release time
1000
FBR161
n = 100
80
Distribution (%)
Distribution of contact resistance
80
FBR161
n = 100
60
Distribution (%)
Operate
Release
Release
60
40
40
40
20
20
30
0
0
10
20
30
40
50
60
70
80
Rated coil voltage multiplying factor (%)
0
0
1
2
3
4
5
6
7
8
Time (ms)
0
0
10
20
30
40
50
60
70
80
Contact resistance (mΩ)
5
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