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MB1030 LV-MaxSonar-EZ3

MB1030 LV-MaxSonar-EZ3

Ranges from 6 inches to 254 inches with a 20Hz read rate. Narrow detection field. High noise tolerance.

Regular price $29.95 USD
Regular price Sale price $29.95 USD
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Specs

  • Resolution of 1 inch
  • 20Hz reading rate
  • 42kHz Ultrasonic sensor measures distance to objects
  • RoHS Compliant
  • Read from all 3 sensor outputs: Analog Voltage, RS232 Serial, Pulse Width
  • Virtually no sensor dead zone, objects closer than 6 inches range as 6 inches
  • Maximum Range of 254 inches (645 cm)
  • Operates from 2.5-5.5V
  • Low 2.0mA average current requirement
  • Small, lightweight module
  • Designed for easy integration into your project or product
  • Narrow beam and good side object rejection
  • Best for large object detection applications

Description

Features of the MB1030, LV-MaxSonar-EZ3, include one-inch resolution, a narrow beam as well as excellent side object rejection, range information from 6 inches to 254 inches, a 20Hz read rate, and various output options: pulse-width, analog voltage, and RS232 serial.

The MB1030 has a slightly wider beam width than the MB1040 which makes it a good choice for applications where the MB1043 does not have enough sensitivity.

The MB1030 from the LV-MaxSonar-EZ line of sensors is a very small, less than one cubic inch, ultrasonic sensor component module. This sensor comes with mounting holes provided on the circuit board for easy installation in nearly all applications.

In addition, the MB1030 learns the ringdown pattern when commanded to start ranging. This helps the sensor to learn the environment and can help the sensor ignore obstacles that are present at power-up.

Part Numbers

All MaxBotix part numbers are a combination of a six-character base followed by a dash and a three-digit product code. The following table displays all of the active and valid part numbers for this product.

Active Part Numbers
MB1030-000

Product Change Notifications Associated with MB1030 LV-MaxSonar-EZ3

No PCNs on Record

  • Pin Header (90 Degree 7 Pin) Attached - MaxBotix- 90-000 - Ultrasonic Sensors

    Pin Header (90 Degree 7 Pin) Attached

    Connector Header Through Hole, Right Angle 7 position 0.100″ (2.54mm)

    View Accessory 
  • Pin Connector (7 Pin) Attached - MaxBotix- 7-000 - Ultrasonic Sensors

    Pin Connector (7 Pin) Attached

    Connector Header Through Hole 7 position 0.100″ (2.54mm)

    View Accessory 
  • Straight 7 Pin Connector Attached - MaxBotix- Straight-000 - Ultrasonic Sensors

    Straight 7 Pin Connector Attached

    Connector Header Through Hole 7 position 0.100″ (2.54mm)

    View Accessory 
  • MB7954 Shielded Cable - MaxBotix- MB7954-000 - Ultrasonic Sensors

    MB7954 Shielded Cable

    High Performance Shielded Cable

    View Accessory 
  • MB7950 Mounting Hardware - MaxBotix- MB7950-000 - Ultrasonic Sensors

    MB7950 Mounting Hardware

    Allows customers to easily through-hole mount WR sensors.

    View Accessory 
  • MB7986 Voltage Regulator - MaxBotix- MB7986-000 - Ultrasonic Sensors

    MB7986 Voltage Regulator

    The voltage regulator is used to automatically regulate voltage inputs from 3V to 30V. 

    View Accessory 
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    This guide outlines the process of working with MaxBotix from concept to product design, testing, and deployment and full production. The guide gives you valuable information and Design Tips to...

  • Understanding Target Acoustics - MaxBotix

    Understanding Target Acoustics

    Acoustically Soft vs. Acoustically Hard Key Takeaways Acoustic properties limit the detection range of certain targets Understanding a target’s acoustic properties helps with sensor selection Targets that absorb more sound...

    Understanding Target Acoustics

    Acoustically Soft vs. Acoustically Hard Key Takeaways Acoustic properties limit the detection range of certain targets Understanding a target’s acoustic properties helps with sensor selection Targets that absorb more sound...

  • Ultrasonic Sensor Mean Time Between Failure (MTBF) - MaxBotix

    Ultrasonic Sensor Mean Time Between Failure (MTBF)

    What is MTBF (Mean Time Between Failure)? Mean Time Between Failure measures the time that passes between one previous failure of a mechanical/electrical system to the next failure during normal...

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