Your query posted successfully. We will get back to you soon.
,

-0.5-0.5kPa Pressure Sensor XGZP6897A005HPDPN

Availability:

Backorder (Delivery in 2-4 Weeks)


Pressure Range : -0.5 to 0.5kpa

Datasheet

767.00(₹ 767.00/each)

incl. GST

Pack of 1pcs

Availability: Backorder (Delivery in 2-4 Weeks)

pack 1pcs

Pack of 1pcs


Special price on bulk order

Secure Payment

Fast & Quick Delivery

Technical Support

Compare

Introduction

XGZP6897A is a prefect silicon pressure sensor offering a ratiometric analog interface for reading differential pressure over the specified full scale pressure span and temp.range.

The XGZP6897A incorporates a silicon piezoresistive pressure sensor chip and an interior signal-conditional Application Specific Integrated Circuit(ASIC) in a SOP8 package with two air vents, which can be mounted directly on a standard PCB.

Features

  • Wide Ranges: -100kPa…-0.5~0~0.5…200kPa(show in Pressure Range Example)
  • Optional 5V or 3.3V Power Supply
  • Differential Pressure(Positive & Vacuum) Type
  • For Non-corrosive Gas or Air
  • Calibrated Amplified Analog Signal(Refer to XGZP6897D for I2C interface)
  • Temp. Compensated: 0℃~+60℃(32℉~+140℉)
  • Direct Application, Low Cost.
  • Application

  • Medical & Healthy: e.g. ventilators, CPAP, NPWT, DVT, blood analysis, blood pressure monitoring, drug dosing, hospital beds, oxygen concentrators, patient
    monitoring, sleep apnea equipment, urine analyzers and wound therapy, breast pumps, massage device etc.
  • Consumer & Household: e.g. Robot, UAV, wearable device, coffee makers, washing machines, vacuum cleaners, hand dryers, air pump, air beds etc.
  • Industrial & Automation: e.g. HVAC, flow and liquid level measurement, process control and monitoring, life sciences, pressure switch and meter, IoT and
    automotive application etc.
SKU: XGZP6897A005HPGPN Categories: ,

Download

Datasheet

Leave a Reply

Your email address will not be published. Required fields are marked *

Bulk Enquiry

Name

Phone*

Email*

Comment

This will close in 0 seconds