A Global Leader in the Design, Development, and
Manufacture of Sensor and Magnetic Components
Series Datasheet SIL Reed Relays www.standexmeder.com
SIL Series
Reed Relays
Features: Dual In-Line IC Compatible Relay, Available with Dielectric Strength 4.25VDC
Applications: General Purpose, Measuring and Testing Devices & Others
Markets: Telecommunications, Test and Measurement, Security & Others
Part
Description: S I L 00- 0 X 00-00X
Nominal
Voltage
Contact
QTY
Contact
Form
Switch
Model Pin Out Option
03, 05, 12,
15, 24 1 A, B, C 31, 72, 75, 90
71, 72, 73, 74,
L, M, D, Q
(HR = High Resistance Version)
Customer
Options Switch Model Unit
Contact Data
31 72 75 90
Rated Power
(max.)
Any
DC combination of V&A not to exceed their individual max.’s 50 10 10 10 W
Switching Voltage
(max.)
DC or
peak AC 500 200 500 175 V
Switching Current
(max.)
DC
or peak AC 2 0.5 0.5 0.5 A
Carry Current
(max.)
DC
or peak AC 2 1.0 1.0 1.2 A
Contact Resistance
(max.)
@
0.5V & 50mA 80 100 200 150 mOhm
Breakdown
Voltage (min.)
According
to EN60255-5 2,1 0.25 0.6 0.2 kVDC
Operating
Time (max.)
Incl. Bounce; Measured with w/ Nominal Voltage
1,2 0.5 0.5 0.7 ms
Release Time (max.)
Measured
with no Coil Excitation 1 0.1 0.1 1.5 ms
Insulation
Resistance (typ.)
Rh<45
%, 100V Test Voltage 1010 1010 1010 109 GOhm
Capacitance
(typ.)
@
10kHz across open Switch 0,3 0.3 0.4 1.0 pF
Modifications in the sense of technical progress are reserved.
Version 01
27.01.2015
USA: +1.866.782.6339 salesusa@standexmeder.com
Europe: +49.7731.8399.0 │ info@standexmeder.com
Asia: +86.21.37820625 │ salesasia@standexmeder.com
A Global Leader in the Design, Development, and
Manufacture of Sensor and Magnetic Components
Series Datasheet SIL Reed Relays www.standexmeder.com
Coil Data Coil Voltage
(nom.)
Coil Resistance
(typ.)
Pull-In Voltage
(max.)
Drop-Out Voltage
(min.)
Nominal Coil Power
(typ.)
Contact
Form
Switch
Model
Unit VDC Ohm VDC VDC mW
1A
31 05 80 3.5 0.75 312
12 500 8.4 1.8 288
72, 75
03* 500 2.1 0.45 18
05 500 (200) 3.5 0.75 50 (125)
12 1,000 8.4 1.8 145
15 2,000 10.5 2.2 110
24 2,000 16.8 3.6 290
72 05 HR 1,000 3.5 0.75 25
12 HR 2,000 8.4 1.8 70
1B,
1C** 90 05 200 3.5 0.75 125
12 1,000 8.4 1.8 145
The Pull
-In / Drop-Out Voltage and Coil Resistance will change at rate of 0.4% per °C. * Coil Voltage 03 only available with Switch Model 72. **Contact Form 1C90
only
available with Coil Voltage 05 () Data in () are valid for Switch Models 75 and 84.
SIL Reed Relay
Environmental
Data Unit
50 g
Resistance (max.) 20 g
-20 to 70 °C
-35 to 95 °C
Temperature (max.)
260 °C
Life Test Data
*Load increase reduces life
expectancy of Reed Switches
Handling
& Assembly Instructions
Switching inductive and/or capacitive loads create voltage
and/or current peaks, which may damage the relay.
Protective circuits need to be used.
External magnetic fields needs to be taken into
consideration, including a too high packing density. This may
influence the relays’ electrical characteristics.
Mechanical shock impacts e.g. dropping the relays may cause
immediate or post-installation failure.
Wave soldering: maximum 260°/5 seconds.
Reflow soldering: Recommendations given by the soldering
paste manufacturer need to be considered as well as the
temperature limits of other components/processes.
Modifications in the sense of technical progress are reserved.
Version 01
27.01.2015
USA: +1.866.782.6339 salesusa@standexmeder.com
Europe: +49.7731.8399.0 │ info@standexmeder.com
Asia: +86.21.37820625 │ salesasia@standexmeder.com
A Global Leader in the Design, Development, and
Manufacture of Sensor and Magnetic Components
Series Datasheet SIL Reed Relays www.standexmeder.com
Pin Out
Top View
2.54mm [0.10“] pitch grid
Modifications in the sense of technical progress are reserved.
Version 01
27.01.2015
USA: +1.866.782.6339 salesusa@standexmeder.com
Europe: +49.7731.8399.0 │ info@standexmeder.com
Asia: +86.21.37820625 │ salesasia@standexmeder.com
Glossary Contact Form
Form
A
NO = Normally Open Contacts
SPST = Single Pole Single
Throw
Form B
NC = Normally Closed
Contacts
SPST
= Single Pole Single Throw
Form C
Changeover
SPDT = Single Pole Double
Throw