Omron Vibration Sensor 100 mA -25°C → +60°C, Dimensions 36.4 x 23.6 x 23.1 mm

  • RS Stock No. 794-8833
  • Mfr. Part No. D7E-2
  • Manufacturer Omron
Technical data sheets
Legislation and Compliance
RoHS Certificate of Compliance
COO (Country of Origin): JP
Product Details
Specifications
Attribute Value
Maximum Current 100 mA
Maximum DC Voltage 30V
Contact Resistance 100Ω
Switching Frequency 50/60 Hz
Length 36.4mm
Width 23.6mm
Depth 23.1mm
Minimum Operating Temperature -25°C
Maximum Operating Temperature +60°C
Dimensions 36.4 x 23.6 x 23.1 mm
44 In stock for delivery within 5 working day(s)
Price (ex. GST) Each
$ 7.01
(exc. GST)
$ 8.06
(inc. GST)
units
Per unit
1 - 2
$7.01
3 - 3
$5.26
4 +
$4.21
Related Products
High quality, low cost, non-contact Infra-red temperature sensors ...
Description:
High quality, low cost, non-contact Infra-red temperature sensors suitable for measuring the temperature of inaccessible or moving objects and materials. Fast response with high stability Types available with air/water cooled housings Quick and easy to install Available as either two-wire ...
The range of shock sensors from Murata are ...
Description:
The range of shock sensors from Murata are designed for high performance acceleration sensors for vibration and mechanical shock. They are designed for a wide range of applications including; consumer equipment, healthcare, security, tyre pressure monitoring and industrial automation.
Normally open contact acceleration switches used to detect ...
Description:
Normally open contact acceleration switches used to detect sudden changes in velocity. Steel gold plated case. Choice of activation levels: 2G (455-3665), 5G (289-7935), 10G (455-3643)Dimensions: Length 18mm (inc. pins) Body Dia. 4.6mm.
Fully-electric vibration sensor. This innovative Seismic sensor detects ...
Description:
Fully-electric vibration sensor. This innovative Seismic sensor detects break-in attempts through prying, penetration, impact etc. using typical impact sound signals. Patented frequency analysis detects the difference between simple knocking, external vibrations and similar frequencies that typically occur during ...