Autonics PR08-1.5DP DC 10~30 1.5mm M8 Inductive Proximity Sensor PNP-NO (Unshielded)
Review: 5 - "A masterpiece of literature" by John Doe, written onMay 4, 20020
Great
-37%
Autonics PR08-1.5DP DC 10~30 1.5mm M8 Inductive Proximity Sensor PNP-NO (Unshielded)
Autonics PR08-1.5DP DC 10~30 1.5mm M8 Inductive Proximity Sensor PNP-NO (Unshielded)_1
Autonics PR08-1.5DP DC 10~30 1.5mm M8 Inductive Proximity Sensor PNP-NO (Unshielded)+23

Autonics PR08-1.5DP DC 10~30 1.5mm M8 Inductive Proximity Sensor PNP-NO (Unshielded)

Available:In Stock
  • Product SKU: KG955
Wishlist
₹ 599 ₹ 959
Available offers
Best Rates

on Express Shipping – Hurry! Shipping starts from Rs69.

Tc
Free Shipping Offer -

Avail free shipping on all orders above Rs999.

Tc
Volume Discounts-

Buy More Save More! Discounts upto 20%. Contact us

Special Bulk Discounts

for colleges, Schools, Companies & resellers Contact us

Cash on Delivery

Available above Rs 499

Tc
Highlights
  • Original, High Quality
  • KitsGuru Warranty
Services
  • Email Support
  • Video Support to be purchased separately
Easy Payment Options
  • Netbanking
  • Debit/Credit cards
  • Cash on Delivery
  • E-wallets/UPI
Shipping Details
International Shipping
Available

  Need Volume Discounts? Deals are specially designed for you. Click here

  Need Customization? Provide us more details Click here

Warehouse Details   26G-147

Image
Secure

Specification

Description

The PR08-1.5DP is an inductive proximity sensor designed to detect the presence or absence of metallic objects without physical contact.

Here's a breakdown of its specifications:

Type: Inductive Proximity Sensor.

Sensing Distance: 1.5mm (This is the maximum distance at which the sensor can reliably detect a metal object.)

Output Type: PNP (Positive-Negative-Positive) - This means that the sensor provides a positive voltage output when it detects a metal object.

Output State: Normally Open (NO) - This means the sensor's output is normally in an open circuit state (no current flows) and closes (current flows) when a metal object is detected.

Supply Voltage: DC 10~30V - This is the range of voltage the sensor requires to operate. The sensor can be powered with a direct current (DC) source between 10 to 30 volts.

Thread Size: M8 - This indicates the thread size of the sensor, which is M8. This is a standard metric thread size.

Application:

Inductive proximity sensors like the PR08-1.5DP are commonly used in automation, robotics, and manufacturing processes. They are utilized for tasks such as detecting the presence of metal objects on a conveyor belt, position sensing in machinery, and other applications where non-contact detection of metal is required.

Please note that this sensor is Normally Open, which means it will provide a signal when a metal object is detected. If you need a Normally Closed sensor (one that provides a signal when no metal object is detected), you would need to look for a different model.

Technical Details

  • Model: Autonics M08 PNP-NO
  • Operating Voltage (VDC): 10 ~ 30
  • Detection Distance (mm): 1.5
  • Outer Thread Size: M8
  • Object Type: Capacitive
  • Output Type: PNP Normally Open Three-line
  • Installation Type: Non-Flush (Unshielded)
  • Max Output Current (mA): 200
  • Setting Distance (mm) : 0 to 1.05
  • Insulation Resistance (MΩ): 50
  • Response Frequency: 1.5KHz
  • Operating Temperature (°C): -25 to 70
  • Storage condition (℃): -30 to 80

Drawing (mm)

Physical Attributes

  • Cable Dimensions : Ø3.5, 3-Wire, 2 Meter
  • Weight (gm): 180

Features

  • Improved the noise resistance with a dedicated IC.
  • Built-in reverse polarity protection circuit (DC 3-wire type).
  • Built-in surge protection circuit.
  • Built-in overcurrent protection circuit (DC type).
  • Long life cycle high reliability, and simple operation.
  • IP67 protection structure (IEC standard).
  • Replaceable for micro switches and limit switches.

Product Video

Package Includes

  • 1 x Autonics PR08-1.5DP DC 10~30 1.5mm M8 Inductive Proximity Sensor PNP-NO (Unshielded).

Customer Reviews

Be the first to write a review
0%
(0)
0%
(0)
0%
(0)
0%
(0)
0%
(0)