ETC1 AZ961 Miniature power relay Datasheet

AZ961
MINIATURE
POWER RELAY
FEATURES
•
•
•
•
•
•
1 Form A or 1 Form C
Standard and sensitive coils
All plastics rated 94V-0
Epoxy sealed version available
Class B insulation system
UL, CUR file E43203
CONTACTS
GENERAL DATA
Arrangement
SPST NO (1 Form A)
SPDT
(1 Form C)
Ratings
Resistive load:
1 Form A
Max. switched power: 150 W or 1250 VA
Max. switched current: 5 A
Max. switched voltage: 150 VDC* or 300 VAC
1 Form C
Max. switched power:
150 W or 1250 VA (N.O.)
750 VA (N.C.)
Max. switched current: 5 A (N.O.), 3 A (N.C.)
Max. switched voltage: 150 VDC* or 300 VAC
UL, CUR
Life Expectancy
Mechanical
Electrical
Minimum operations
1 x 107
1 x 105 at 5 A 240 VAC Res. N.O.
Operate Time (typical)
10 ms at nominal coil voltage
Release Time (typical)
5 ms at nominal coil voltage
(with no coil suppression)
Dielectric Strength
2000 Vrms coil to contact
(at sea level for 1 min.) 1000 Vrms between open contacts
4000 V surge (2 x 10 us) coil to contact
Insulation Resistance
1000 megohms min. at 500 VDC,
20°C, 50% RH
1 Form A: 5 A at 250 VAC, General Use
3 A at 30 VDC
Dropout
Greater than 5% of nominal coil voltage
1 Form C: 5 A / 3 A at 250 VAC, General Use
5 A / 3 A at 30 VDC (N.O. / N.C.)
Ambient Temperature
Operating Standard: 40°C (-40°F) to 75°C (167°F)
Sensitive: 40°C (-40°F) to 85°C (186°F)
*Note: If switching voltage is greater than 30 VDC, special
precautions must be taken. Please contact the factory.
Storage
40°C (-40°F) to 105°C (221°F)
Material
Silver cadmium oxide
Vibration
0.062" (1.5 mm) DA at 10–55 Hz
Resistance
< 100 milliohms initially
(6 V 1 A voltage drop method)
Shock
10 g
Enclosure
P.B.T. polyester
Terminals
Tinned copper alloy, P.C.
Max. Solder Temp.
250°C (482°F)
Max. Solder Time
5 seconds
Max. Solvent Temp.
80°C (176°F)
Max. Immersion Time
30 seconds
Weight
8 grams
COIL
Power
At Pickup Voltage
(typical)
Standard coil: 176 mW
Sensitive coil: 129 mW
Max Continuous
Dissipation
1.5 W at 20°C (68°F)
Temperature Rise
At nominal coil voltage:
Standard coil: 27°C (49°F)
Sensitive coil: 20°C (36°F)
Max. Temperature
130°C (266°F)
NOTES
1. All values at 20°C (68°F).
2. Relay may pull in with less than “Must Operate” value.
3. Specifications subject to change without notice.
ZETTLER
electronics GmbH
Junkersstrasse 3, D-82178 Puchheim, Germany
Tel. +49 89 800 97 0
Fax +49 89 800 97 200
[email protected]
www.ZETTLERelectronics.com
2003-06-23
AZ961
RELAY ORDERING DATA
STANDARD COIL
COIL SPECIFICATIONS
Nominal Coil
VDC
3
Max. Continuous
VDC
6.1
Coil Resistance
Ohm ±10%
25
ORDER NUMBER*
Must Operate
VDC
2.1
1 Form A
1 Form C
AZ961–1A–3D
AZ961–1C–3D
5
10.2
69
3.5
AZ961–1A–5D
AZ961–1C–5D
6
12.2
100
4.2
AZ961–1A–6D
AZ961–1C–6D
9
18.4
225
6.3
AZ961–1A–9D
AZ961–1C–9D
12
24.5
400
8.4
AZ961–1A–12D
AZ961–1C–12D
18
36.7
900
12.6
AZ961–1A–18D
AZ961–1C–18D
24
48.9
1,600
16.8
AZ961–1A–24D
AZ961–1C–24D
48
97.9
6,400
33.6
AZ961–1A–48D
AZ961–1C–48D
SENSITIVE COIL
COIL SPECIFICATIONS
Nominal Coil
VDC
3
ORDER NUMBER*
Max. Continuous
VDC
7.3
Coil Resistance
Ohm ±10%
36
Must Operate
VDC
2.1
AZ961–1A–3DS
AZ961–1C–3DS
5
12.2
100
3.5
AZ961–1A–5DS
AZ961–1C–5DS
6
14.7
145
4.2
AZ961–1A–6DS
AZ961–1C–6DS
9
22.0
325
6.3
AZ961–1A–9DS
AZ961–1C–9DS
12
29.3
575
8.4
AZ961–1A–12DS
AZ961–1C–12DS
18
44.2
1,300
12.6
AZ961–1A–18DS
AZ961–1C–18DS
24
58.9
2,310
16.8
AZ961–1A–24DS
AZ961–1C–24DS
48
117.0
9,220
33.6
AZ961–1A–48DS
AZ961–1C–48DS
1 Form A
1 Form C
*For epoxy sealed version, add suffix “E”.
MECHANICAL DATA
PC BOARD LAYOUT
.807
[20.5]
.413
[10.5]
3 x ø.047±.003
[ø1.19±.076]
.807
[20.5]
.054
[1.37]
.100
[2.54]
.057
[1.44]
.200
[5.08]
.300
[7.62]
2 x ø.039±.003
[ø1.0±.076]
.500
[12.7]
.100
[2.54]
4 x .020
[0.5]
5 x .134
[3.4]
VIEWED TOWARD TERMINALS
2 x .016
[0.4]
2 x .024 SQ
[0.6 SQ]
WIRING DIAGRAMS
2 x .024
[0.6]
2
1
4
.010
[0.25]
5
2
5
4
3
3
.032
[0.8]
1 FORM C
1 FORM A
VIEWED TOWARD TERMINALS
Dimensions in inches with metric equivalents in parentheses. Tolerance: ±0.010"
ZETTLER
electronics GmbH
Junkersstrasse 3, D-82178 Puchheim, Germany
Tel. +49 89 800 97 0
Fax +49 89 800 97 200
[email protected]
www.ZETTLERelectronics.com
2003-06-23
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