Positek

H115

Part no.: H115

Key Features

• CSA approved to: Class I, Zone 0

• Sensor Mounting: M8 rod eyes, body clamps or M8 threadsSpring loaded pushrod option available

• Available in any measurement angle from 0-5mm to 0-800m

• Sealed to IP68 10bar, 100msw, 145psi(for 350bar sealing see S125)

The intrinsically safe 10 bar H115 is a heavy-duty CSA approved version of the H114 sensor with a stronger 12.6mm push rod, recommended for applications where vibration is an issue or there is a need for longer travel sensors are to be mounted horizontally between rod eyes. It remains an affordable, durable, high-accuracy position sensor designed for applications whereIP68 sealing is required up to a pressure of 10Bar. The unit is highly compact and space-efficient, being responsive along almost its entire length. Like all Positek sensors, the H115 provides a linear output proportional to displacement. Each sensor is supplied with the output calibrated to the travel required by the customer, from 0-5mm to 0-800mm and with full EMC protection built in.

The sensor is very robust, the body and push rod being made of stainless steel for long service life and environmental resistance.
Overall performance, repeatability and stability are outstanding over a wide temperature range. The sensor is easy to install with mounting options including stainless steel M8 rod eye bearings and body clamps. The push rod can be supplied free or captive, with female M8 thread, or an M8 stainless steel rod eye. The H115 also offers a wide range of mechanical and electrical options, environmental sealing is to IP68 10Bar.

Positek intrinsically safe sensors are designed to be used with a galvanically isolated amplifier . Approved galvanic isolation amplifiers (G005) are available from Positek; there is a choice of 0.5-9.5V or 4-20mA transmission outputs.

The sensor can be installed with a cable length up to 1km between the sensor and the amplifier.

Call us for more info at 856-727-9500

"*" indicates required fields

Hi, My name is

and I’m interested in the

You can reach me by email at

or phone at

Message

This field is for validation purposes and should be left unchanged.
You may also be interested in:

Positek

E133

  • ATEX/IECEx approved to: Ex II 1G : Ex ia IIC T4 GA (Ta = -40°C to +80°C)
  • Sensor Mounting: Flange or body clampsSpring loaded pushrod option available
  • Available in any measurement range from 0-51mm to 0-100mm(for 2-50mm range see P103)
  • Sealed to IP65/67 depending on connector/cable option

Positek

Positek P530

  • Fulll 360 degree position data
  • Analog voltage and current outputs
  • Up to 0.1% linearity
  • For smaller angles: P500 (16-160 deg), P502 (<16 deg)

Positek

G603

  • Single axis
  • Voltage or Current interface
  • IP67

Positek

X103

  • ATEX/IECEx approved to: Ex II 1G : Ex ia IIC T4 GA (Ta = -40°C to +80°C)
  • Sensor Mounting: Flange or Body ClampsSpring loaded pushrod option available
  • Available in any measurement range from  0-2mm to 0-50mm (for 51-100mm range see P133)
  • Sealed to IP65/67 depending on connector/cable option
Blog:

Encoder Technology Overview

Rotary encoders are used in a variety of applications to provide feedback on position, speed, direction, or angle. There are several different encoder types…

Expanded VLP Encoder Series Offers Control Engineers New Sensing Options

Everight Position is pleased to announce the addition of four new sizes of Netzer’s two-plate VLP rotary encoder amongst other improvements. Based on the success of the VLP-60 and VLP-100, the new options include the VLP-80, VLP-140, VLP-170 and VLP-247.

How To: Use an Open Collector Output

All new Gill level sensors come with a secondary output function which operates as a high or low level switch. So what is it and how do I use an Open Collector switch output?

Torque Measurement with Angle Sensors

As collaborative robots expand into manufacturing environments the issue of safe motion continues to be a concern. Current design approaches involve adding force sensors, torque sensors, and sometimes proximity sensors. These adders along with more complex software control algorithms mitigate most of the concerns and result in slower operation. Unfortunately, these additional sensors also add significant cost and complexity.