The Innovative ISA500 Altimeter – A Technical Introduction

ISA500 Range of Altimeters
Range of ISA500 Altimeters in Forward Looking and Right Angled Configurations

The ISA500 is widely used as an underwater Altimeter on Remotely Operated and Autonomous Underwater Vehicles.  It is also used as a high accuracy underwater ranging device, providing distance measurement to any target aimed at.

 

Measurement Range:

A critical consideration when choosing an underwater Altimeter is how far away will it be able to detect the seabed (or other target) from.

The use of a digital correlation echo detection technique combined with a highly sensitive composite transducer enable the ISA500 to provide market leading range performance from a 500kHz frequency Altimeter.

The ISA500 is characterised as having a range capability in excess of 120 meters / 393 feet.

The sensor operates on sonar technology – it transmits a pulse of sound and times how long it takes for the sound to return.  Based on the time taken, it calculates the distance travelled by the sound and derives the range to target.

The overall range capability will largely depend on the acoustic reflectivity of the item it is pointed at.  For example, if pointed at a seabed with a large amount of marine growth on the surface,  a reasonable proportion of the pulse of sound will be absorbed.  In which case a range of 80 meters/ 262 feet or less may be achievable. On the other hand, if the seabed has a strong reflector, such as solid rock, ranges in excess of 175 meters / 575 feet can be achieved.

The sensitivity of the ISA500 ensures that the longest range possible for the environment it is operating in can be achieved. 

 

Measurement Accuracy:

For many applications, accuracy and repeatability of the distance measurement are highly critical.

As mentioned previously, the ISA500 uses an advanced digital correlation technique to detect the reflected pulse of sound.  This digital correlation is run 2,000,000 times per second.  This gives the ISA500 an accuracy level of 0.7mm which is then rounded up to the nearest 1mm.

This allows the ISA500 to provide 1mm accuracy and repeatability in range measurements.  This introduces the sensor to applications where previously only technologies such as a laser-based measurement systems would suffice.

A critical point to appreciate is that the ISA500 offers 1mm accuracy as well as resolution.

When defining the capability of an Altimeter, it is important to recognise the difference between resolution and accuracy. A number of alternative Altimeters are quoted as having ‘1mm resolution’ which in itself is a relatively meaningless statement unless the Altimeter also has 1mm accuracy.  Otherwise, the sensor is simply providing centimetre level of accuracy to 1mm precision.

When choosing an Altimeter, one should always check what the measurement accuracy is – not just the resolution.

The below is a short example of the ISA500 achieving 1mm accuracy in distance measurement over a 1 meter range: 

 


Measurement Quality:

A key question with every reading from an underwater Altimeter is: how trustworthy is the reading which has been made?

In addition to the distance measurement value, a number of serial output strings from the ISA500 also report back the energy level of the echo and a correlation factor.

The energy level ranges from 0 to 1, where 1 represents full saturation of the ISA500 receiver. An energy level of 0.707 (square root of 2) is the theoretical perfect level as it represents the energy of a pure sine wave with an amplitude utilising the maximum dynamic range of the ISA500.

The correlation factor ranges from 0 to 1, which represents a quality factor of the returned echo. A value of 1 would represent a return echo of perfection with negligible noise and distortion.  

The correlation value alone can be used as a trust factor where low values such as 0.3 would indicate that a reading is likely incorrect.  In practice, ISA500 sensors are pre-set to ignore all returning echoes with a correlation level below 0.5.  This ensures every reading produced by the sensor is of a high quality level. 

A more detailed picture can be built by combining this information with the energy level as shown in the table:

  Low Energy Level High Energy Level
Low Correlation Weak signal probably false reading High noise level most likely a false reading
High Correlation Weak signal but likely a good reading Ideal conditions very trust worthy readings

With energy and correlation values, the quality of the distance reading provided by the ISA500 is always clear. 

 

Acoustic Bandwidth:

The ISA500 can be operated at any frequency from 400 to 600kHz.  The performance across this bandwidth is relatively uniform, with a slight increase in performance at the 500kHz point.

The available bandwidth allows for multiple ISA500 sensors to be operated in close proximity, all at slightly offset operational frequencies.  This ensures that there is no interference between sensors.

The available bandwidth also allows for the sensor to be adjusted to another frequency to move it out of band of other acoustic devices in operation (Sonars, Profilers, DVLs etc).  Thus, ensuring there is no interference with third party systems.

 

Interfacing:

The ISA500 comes as standard with both RS232 and RS485 serial interfaces integrated into the sensor. 

The sensor can run directly into Impact Subsea’s seaView software or it can output any number of ASCII strings for integration into third party systems.  This includes proprietary Impact Subsea strings, but also the ability to emulate any other underwater Altimeter – making the ISA500 a very simple sensor to retrofit to existing systems.

In addition, the ISA500 has a voltage and current analogue output as standard which can be scaled across a user defined distance and output voltage/current.

 

Software Configuration:

ISA500 Altimeter Setup
seaView ISA500 Acoustic Setup

One of the key benefits of the ISA500 is that all settings are entirely software configurable.  There is never a requirement to open the sensor – all settings can be adjusted using the freely available seaView software.

From an acoustic perspective: the detection mode, minimum and maximum ranges, pulse length, operational frequency etc., can all be altered to allow the ISA500 to achieve the best performance possible in the application to hand.

The communications mode, output strings, update rate etc., can all also be configured using the seaView software and then saved to the sensors firmware.

The below video provides an overview of the ISA500 application showing where all the core elements of the user interface are and highlights the settings available on the ISA500 sensor itself.

 

Multi-Echo:

Most underwater Altimeters will output a single distance reading.  The ISA500 can do this, however it also has the option to output the distance reading of every echo that is returned to the sensor.  This allows multiple targets to be tracked within the acoustic beamwidth of a single ISA500.

 

Detection Mode:

The ISA500 has several detection modes available to select which returning echo is used when calculating the distance measurement.  

‘First’ detection mode will use the very first echo to be returned.  This mode is ideal for use in high multi-path environments such as water tanks.  Once the first echo has been returned, all other echoes will be ignored. 

‘Strongest’ detection mode will use the strongest (highest amplitude) echo returned.  In this mode smaller echoes will be ignored and only the largest reflected echo from the seabed used.  This provides very stable range measurements, especially helpful in applications with a large amount of suspended sediment (such as trenching). 

‘Seabed Tracking’ will use an algorithm to determine where the seabed is and will operate to track this range, ignoring any obviously incorrect readings. 

 

Attitude & Heading Reference System:

The ISA500 is optionally available with an in-built Attitude and Heading Reference System (AHRS).  This provides Heading, Pitch and Roll as a secondary output.

Aside from a useful additional measurement parameter, the AHRS can also be used internally within the ISA500 to correct for Pitch and Roll.

Usually if the vehicle or asset which the Altimeter is mounted pitches or rolls, this causes the Altimeter to measure slant ranges and will make the Altitude reading rise up and down, despite there being no actual change in Altitude.  The AHRS can be used to correct for the pitch/roll by changing the slant range measurement into actual altitude through basic trigonometry.

This ability can be turned on and off in the ISA500 settings.

 

Physical Configuration:

detailed chart of options available when purchasing an underwater altimeter

To ensure the ISA500 is simple to integrate into any application, a variety of physical  configurations exist. The ISA500 is available in Titanium or Acetal materials, both used due to their longevity. 

The ISA500 is also available in a forward looking or right angled housing and to a variety of depth ratings from 1,000 meters to 11,000 meters. 

Alternative OEM options are also available for direct integration into your own housing if required.

For example, the Acetal Right Angled ISA500 sensors are a popular choice to use in towed Magnetometers.  OEM options are useful for small compact AUVs. The Titanium Forward Looking ISA500 sensors are a popular choice for medium and workclass remotely operated vehicles. 

 

Robustness: 

The ISA500 has been designed and built with the highest levels of longevity and robustness in mind.

As already highlighted, the housing materials used are either Acetal or Titanium, chosen due to their longevity and strength.

The electronics are of commercial grade and are of single board design.  All components are low mass to ensure excellent shock and vibration performance.  No screws are used within the design, with a snap and lock together methodology being used to ensure no parts can come loose over time.  

The ISA500 sensor has undergone vigorous environmental testing. This includes vibration, shock and thermal testing to meet the stringent requirements of API 17F qualification.

 

Overall:

The ISA500 Altimeter/Echosounder/Ranger provides a long-range underwater measurement capability combined with a high level of accuracy.  

The ability to configure all aspects of the sensor via software enables the sensor to be easily tuned to suit the application at hand.

A robust design ensures that the ISA500 is suitable for the most challenging of environments. 

The latest ISA500 datasheet, manual, 3D models and further technical information can be found here

If you would like to discuss the ISA500 in more detail, and how it can be used in your underwater application, please drop us an email at support@impactsubsea.co.uk

Or alternatively, call us on +44 1224 460 850.

Share:

Share on linkedin
Share on twitter
Share on facebook
Share on email
Ben Grant

Ben Grant

Managing Director at Impact Subsea.
Categories

Related posts

Get The Latest Updates

Subscribe To Our Newsletter

No spam, notifications only about new products and updates.

Social Media

On Key

trending

Contact us

We use cookies to ensure you get the best experience while using our website