Miniature Power Relays Series M15 Type M15 .R. . . 100/001 Bistable

Miniature Power Relays Series M15 Type M15 .R. . . 100/001 Bistable
Miniature Power Relays Series M15
Type M15 .R. . . 100/001
Bistable
•
•
•
•
•
•
•
•
•
Bistable miniature power relay
Miniature size 15 mm high
PCB-mounting
4 kV / 8 mm insulation
Switching capability 8 A / 250 VAC
General purpose, industrial electronics
Sealed according to IP 67
4 different pin layout configurations
Low coil power consumption
M15 .R
Ordering Key M15 M R1 I A H 001 8 24VDC
Product Description
Bistable miniature power
relay. Sealed according to
IP 67. Suitable for automatic
soldering.
Space saving design for
compact packages. Very
low contact noise due to
short bounce time (NO
contact).
Circuit Diagram
R1
R2 Normal coil polarity
+
+
2
U=
U=
Type
Pin layout configuration
R1 = one coil; R2 = two coils
Insert “I” for reverse coil polarity
Contact material
Version (H = Sealed)
Contact code
Contact rated current
Coil rated voltage
Pin layout
M = 3.5 mm
B = 5.0 mm
F = 2.5 mm
E = 3.2 mm / 5.0 mm
Contact material
A = Ag CdO
B = Ag Ni
C = Ag CdO, Au plated
D = Ag CdO, gilded
E = AgNi, Au plated
F = Ag, gilded
S = Ag SnO2
Contact rating
Contact code
1
+
3
Type Selection
Contact configuration
1 normally open contact
(SPST-NO {1-form A})
8A
100
1 change over contact
(SPDT-CO {1-form C})
8A
001
Coil Characteristics, DC (20°C)
Rated
Voltage
R1 Version
Operating range
R2 Version
VDC
Min. VDC
Max.VDC
Coil
resistance
Ω ± 10 %
3.0
5.0
6.0
8.0
12.0
18.0
24.0
48.0
2.4
4.1
4.8
6.5
9.7
14.7
19.5
39.0
5.3
9.0
10.6
14.2
21.2
31.9
42.2
84.7
40
115
160
290
640
1450
2550
10250
15-12
Operating range
Min. VDC
Max.VDC
2.4
4.8
6.4
9.6
14.4
19.2
-
5.3
10.6
14.2
1.2
31.9
42.2
-
Coil resistance
Coil 1-2
Coil 2-3
Ω ± 10 %
Ω ± 10 %
18.5
75.0
130.0
300.0
670.0
1200.0
-
26
100
180
400
900
1600
-
Specifications are subject to change without notice
Miniature Power Relay Series M15
Type M15.R...100/001
Bistable
Contact Characteritics
Temperature Influence
Operating voltages for step
excitation. Minimum operating
voltage is referred to +20 °C/
+68 °F ambient temperature;
maximum opera-ting voltage is
referred to +40 °C/+104 °F
ambient temperature.
t °C
0
10
20
30
40
50
60
70
Values of minimum and
maximum operating voltage
in respect to ambient temperature (t) may be obtained
applying following formulas:
t °F
32
50
68
86
104
122
140
158
K1
0.92
0.96
1.00
1.04
1.08
1.12
1.16
1.20
K2
1.15
1.12
1.09
1.05
1.00
0.94
0.88
0.81
Vmin
t
= K1 . Vmin
20
Vmax
t
= K2 . Vmax
40
General Data
Operating time at nominal
voltage (incl.bounces)
Operating bounce time
Release time (incl.bounces)
Release bounce time
Min. coil excitation time
at rated voltage
Max. coil excitation time
Ambient temperature 2 )
Vibration resistance
Inside protection
according to IEC 144
Weight
≤
≤
≤
≤
10 ms
1 ms
10 ms
3 ms
Rating
Material (standard version) 1)
Current (for AC)
Rated current
Max. switching current
Voltage
Rated voltage
Max. switching voltage
(VDE 0435)
Power
Max. switch. power
with resistive load in AC
Max. switch. power
with resistive load in DC
Min. switching current 3)
Life
Expected life at:
8 A-250 VAC - cos ϕ = 1
5 A-250 VAC - cos ϕ = 0.4
Mechan. life at max. switching
frequency of 18.000 cycles/h
8A
Ag CdO
8A
10 A
250 VAC - 50 Hz
380 VAC
2000 VA
See diagram 1
100 mA at 24 VDC
100000 cycles
100000 cycles
30 x 106 cycles
If required, the contacts can be supplied with flash gilded silver
contacts for storage purpose (24 VDC/10mA), as well as with
gold plated silver contacts for very low switching levels, in the
range of 10 mA and 10 mV. AgNi contacts for DC loads and
AgSnO2 contacts for heavy loads are olso available.
2)
Supplying the relay coil at the maximum voltage given in the
table "Temperature Influence", the maximum ambient
temperature value decreases from 70° to 40°C.
3)
Typical value
1)
10 msec
5 sec
- 40 °C to +70 °C
2,5 mm p.p. 5 ÷ 45 Hz
10 G, 45 ÷ 100 Hz
IP 67 sealed
10 g
Diagram
Insulation
(only 3 VDC type)
Operating time values depending on voltage at t.a. 40 °C.
3
Insulation Resistance
at 500 VDC
Test voltage(1 min.)
Open contacts
Coil/Contacts
Insulation group
according to VDE 0110
Contact/Coil
IGR
Open ontacts
IGR
2.9
2 x 107 M Ω
2.8
2.7
2.6
1000 VAC
4000 VAC
Voltage (VDC)
2.5
C/660
C/250
Dimensions
2.4
2.3
2.2
2.1
Not operating area
2
9 10 11 12 13 14 15 16 17 18 19 20
Min. operating time (ms)
Pin View
M15 M R1 .....
100
7,5
0,9x0,4
Wiring Diagrams
001
2,5x2,5
2,5x2,5
ø1,3
ø1,3
100
001
16,5
ø0,6
2
29
3,5
15
Operating area
3,5
10
View from solder side with de-energized position contacts.
Specifications are subject to change without notice
15-13
Miniature Power Relay Series M15
Type M15.R...100/001
Bistable
Dimensions (cont.)
Pin View (cont.)
M15 B R1 ..
100
7,5
0,9x0,4
2,5x2,5
ø1,3
ø1,3
100
001
100
001
100
001
100
001
3 2 1
3 2 1
100
001
3 2 1
3 2 1
15
29
5
5
15
001
2,5x2,5
Wiring Diagrams
2
ø0,6
3,5
10
M15 F R1 ..
100
7,5
0,9x0,4
2,5x2,5
2,5x2,5
ø1,3
ø1,3
17,5
ø0,6
2
29
2,5
15
001
3,5
10
M15 E R1 ..
100
7,5
0,9x0,4
2,5x2,5
2,5x2,5
10
ø1,3
ø1,3
7,5
0,9x0,4
2,5x2,5
19
29
3,2
15
001
2
ø0,6
3,5
M15 M R2 ..
001
2,5x2,5
16,5
ø0,6
2
29
3,5
15
100
3,5
M15 B R2 ..
ø1,3
ø1,3
7,5
0,9x0,4
2,5x2,5
100
001
2,5x2,5
15
29
5
5
15
10
2
ø0,6
3,5
10
ø1,3
ø1,3
View from solder side with de-energized position contacts.
15-14
Specifications are subject to change without notice
Miniature Power Relay Series M15
Type M15.R...100/001
Bistable
Dimensions (cont.)
Pin View (cont.)
M15 F R2 ..
100
7,5
0,9x0,4
001
100
001
3 2 1
3 2 1
100
001
3 2 1
3 2 1
2,5x2,5
17,5
ø0,6
2
29
2,5
15
2,5x2,5
Wiring Diagrams
3,5
ø1,3
10
M15 E R2 ..
100
7,5
0,9x0,4
2,5x2,5
001
2,5x2,5
19
29
3,2
15
ø1,3
2
ø0,6
3,5
ø1,3
10
ø1,3
View from solder side with de-energized position contacts.
Diagrams
1 Max. switching power DC
2 Expected switching cycles/switching current at 250 VAC.
For resistive loads and repetition rate 360 cycles/h.
10.000.000
5.000.000
(
)
L ≤ 40ms
R
Nr. cycles
1.000.000
500.000
0
0
0.3
0.6
0.9
1.2
1.5
1.8
2
Power (KVA)
Use of sealed relays.
The M15 relay types are filled with inert
gas and are completely sealed (according to IEC 68 part 2 - 17 { DIN 40046}
QC 2 - test).
They are flux proof and are suited for
automated soldering (wave soldering)
as well as for immersion washing.
If maximum utilization of the switching
capacity is required, it is recommended
to open the relay after completion of the
soldering/washing process by breaking
out the corresponding pin as indicated.
Diagrams
Product safety.
Operations outside the stated ratings
shown in this catalogue may result in
a possible failure or unsafe operating
conditions.
3 Reduction of expected life against
load power factor cos ϕ
For all types
Reduction coefficent
Application Hints
load power factor (cosϕ)
Specifications are subject to change without notice
15-15
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertising