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 – DIP Reed Relays
www.standexmeder.com
Vers. 01
27.01.2015
Coil Data
Coil Voltage
(nom.)
Coil Resistance
(typ.)
Pull-In Voltage
(max.)
Drop-Out Voltage
(min.)
(typ.)
Form
Model
Unit VDC Ohm VDC VDC mW
05 500 (200) 3.5 0.75 50
12 1,000 8.4 1.8 145
15 2,000 10.5 2.2 115
24 2,000 16.8 3.6 290
1C 90
05 200 3.5 0.75 125
12 500 8.4 1.8 290
15 2,000 10.5 2.2 115
24 2,000 16.8 3.6 290
2A 72
05 200 3.5 0.75 125
12 500 8.4 1.8 290
15 2,000 10.5 2.2 115
24 2,000 16.8 3.6 290
-In / Drop-Out Voltage and Coil Resistance will change at rate of 0.4% per °C. *Re-closure of Form B may occur if the max. coil voltage is exceeded. Coil
polarity on Form B must be observed. Pin
2 is positive. () For Switch 1A75 **1B-75 only with Coil Voltage 24 available.
Data Unit
1/2 sine wave duration 11ms
50 g
Resistance (max.)
20 g
-20 to 70 °C
-35 to 95 °C
Temperature (max.)
260 °C
*Load increase reduces life
expectancy of Reed Switches
& 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.
