HMR4007

SENSOR PRODUCTS

INTRODUCTION

The Honeywell HMR4007 is an electronic linear position sensing solution for use in commercial and industrial application environments. A stationary array of Honeywell’s magnetoresistive (MR) sensors is utilized to quickly and accurately monitor the position of a small magnet attached to a moving object such as a valve stem or hydraulic cylinder. The use of a sensor array makes the solution highly insensitive to many environmental influences such as magnet strength, alignment, run out, and temperature. This solution is easily integrated into systems using a highly reliable serial interface or a 12-bit analog output (with over-range error indication).

moving object

N

~0.5 - 1.5”

In normal operation, a small target magnet is mounted to the moving object whose position is to be monitored and the sensor array is held stationary. The exact standoff distance (gap) is arbitrary (between 1/2” to 1-1/2”) as the embedded software is highly tolerant of this gap. The sensed axis is parallel to the long

axis of the sensor board. The embedded software then

calculates the position of the magnetic center of the target

magnet as a function of its distance along the axis of the board.

The result is expressed as a 12-bit unsigned integer (or as a 12-

bit analog voltage). In the example to the left, if the center of the

magnet was aligned with the center of the bottom-most sensor in

the array, the result would be interpreted as a position of “0” while stationary sensor card alignment with the top-most sensor would be interpreted as a position of “4095”. To convert the reading to engineering units, the reported position is divided by 4095 and then multiplied by the span of the sensors (69.7mm or 2.75”). If we call the reported

position “x”, then the position in engineering units would be:

Position in mm = (x / 4095) * 69.6

Position in inches = (x / 4095) * 2.75

The above example shows a magnet oriented in what is called the “radial” mode, where the magnetic poles point towards the sensor card. The embedded software is also capable of operating with a magnet oriented in the axial mode where the magnet poles point along the axis of the sensor as seen below. The sensor card, however, does not automatically detect the magnet mode, and a status bit in the embedded code must be set to configure the HMR4007. Software tools are available from Honeywell to easily accomplish this.

S

N

 

N

 

S

Radial mode magnet

“Axial” mode magnet

The orientation of the north and south poles is arbitrary, and the embedded software is highly tolerant of the magnet geometry so that rectangular bar magnets or cylindrical magnets can be used equally well. Cylindrical magnets in the axial mode are particularly attractive because the magnetic field is symmetrical with respect to rotation about the center axis without loss of position accuracy.

The magnet should have a minimum length of 23mm (0.91 inches) along the axis of the travel. Shorter magnets, however, can be used with some increase in the minimum gap between the magnet and sensor board as long as a minimum field strength of 80 gauss and an apparent magnet length of 23 mm is maintained at the sensor board. More on apparent magnet length can be found in the application notes at the end of this document.

Solid State Electronics Center www.magneticsensors.com (800) 323-8295 Page 2

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Honeywell HMR4007 manual Introduction, Position in mm = x / 4095 Position in inches = x / 4095
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HMR4007 specifications

The Honeywell HMR4007 is an advanced sensor designed for precision measurement in various industrial applications. This device is celebrated for its robust performance and reliability, making it a favored choice among engineers and system designers.

One of the main features of the HMR4007 is its high accuracy in measuring humidity and temperature, providing precise readings essential for maintaining optimal conditions in controlled environments. The sensor operates effectively across a wide temperature range, ensuring versatility for multiple applications. It is designed with a patented sensor technology that enhances its ability to withstand harsh conditions while maintaining accuracy.

In addition to high precision, the HMR4007 boasts a rapid response time, allowing it to quickly adapt to changes in the environment. This responsiveness is crucial in applications requiring real-time monitoring and control, such as in HVAC systems and environmental monitoring.

The device also integrates seamlessly with various communication protocols. This feature enables easy integration into existing systems and enhances its adaptability in different setups. Users can use standard interfaces for simple installation and maintenance, which reduces downtime and enhances operational efficiency.

Another significant characteristic of the Honeywell HMR4007 is its durability. Constructed with high-quality materials, the sensor is built to withstand the rigors of industrial environments, making it a reliable choice for long-term applications. Its rugged design ensures longevity, reducing the need for frequent replacements.

The sensor's compact size makes it suitable for applications with limited space, while its lightweight design ensures easy installation. Furthermore, the HMR4007 is designed for low power consumption, making it cost-effective in the long run.

In summary, the Honeywell HMR4007 stands out due to its high accuracy, rapid response time, flexible communication options, and robust durability. These features make it an ideal sensor for a variety of industries looking to maintain precise environmental conditions. Its advanced technology and reliability ensure that it meets the demanding needs of modern industrial applications, positioning it as a valuable tool for professionals in the field.
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