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How does the Navy use SONAR?

Updated: 8/23/2023
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10y ago

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SONAR (Sound Navigation and Ranging) is a long-used method of locating submerged submarines by means of underwater echo-location. It was developed and used effectively during WWII; however, though used today, modern submarines are much more able to defeat surface sonar systems to the point where they're much less effective in Anti-Submarine Warfare (ASW) operations than they were in WWII. Speed, increased diving depth, stealth hull coatings, and tactical knowledge and use of the surrounding ocean environment all give the submarine the advantage over surface ship and aircraft sonar systems.

Sound travels much faster in water than it does air, and travels much farther as well. Active/Passive systems use a transducer array, which is a large array of devices (transducers) that convert electrical signals to sound (for active transmitting) and sound waves to electrical signals (for passive reception of sound or receiving a return echo). Passive-only arrays (towed arrays and secondary forward arrays) use hydrophones rather than transducers, which can only receive sound waves and convert them to electrical signals.

It should be noted that contrary to wild and baseless accusations by environmental and whale groups, the U.S. Navy (or any other Navy for that matter) does not go around the ocean using active sonar on a regular basis. Active sonar, even on surface ships, is rarely used, as it is an immediate location giveaway for an enemy. Giving up your tactical position is the one thing you never want to do when fighting against a submarine.

SURFACE SHIP SONAR

Surface Warships use 3 primary Sonar systems:

Hull mounted (bow) Sonar, Active and Passive

Variable Depth Sonar (VDS), towed behind the ship, Passive

Embarked Aircraft (Helo) using dipping Sonar or Sonobuoys, Active and Passive.

Bow sonar systems on surface ships isn't that effective at any speed over 10 knots, as the resulting ocean noise effectively drowns out any noise a submarine makes. Modern submarines are extremely quiet, and it takes the right conditions to even detect them.

VDS systems allow the Sonar Techs to adjust the array depth to search ocean layers for submarines. VDS is actually pretty effective, if the Sonar crew is up to snuff and knows how to use it. However, the problem still exists that the submarine has the tactical advantage of using the environment, or if necessary, egressing out of the area at high speed and deep depth if detected.

HELO DIPPING SONAR

Dipping Sonars are small sonar arrays that have active/passive sonar capability. They are lowered from an equipped ASW helo by cable into the water, where an onboard tech will listen and view any sounds / frequencies that are being picked up. Their downside is that the rotor wash from the helo causes enough sound that it tends to interfere with the array, but it can be lowered deep enough to mitigate the effect.

Many ASW ships have embarked ASW helos with dipping sonars, and those helos can also be equipped with homing torpedoes which can be launched if a target is located.

SONOBUOYS

Sonobuoys are expendable passive sonar arrays that are dropped from aircraft (e.g., P-3 Orion ASW aircraft) in a known pattern, and then listened to by onboard techs on the aircraft for any sounds for frequencies coming from a submarine. They are very effective if a submarine is shallow enough to be heard, and if the ocean conditions are good enough for proper sound propagation. If a boat is deep enough however, they're just ocean ornaments.

They're battery operated, and can last several hours.

SUBMARINE SONAR

Contrary to popular belief, submarines don't use their main sonar systems for primary navigation (they don't have windows either), and the Sonar acronym meaning (Sound Navigation and Ranging) is actually a misnomer. However, they do use it for avoiding objects (ships and submarines), so in that sense they do use it for avoidance navigation.

Submarines use 2 types of Sonar modes - Active and Passive. Active Sonar is equivalent to Radar, only it uses sound waves rather than radio waves as the source of the transmission and echo for target range. Passive Sonar, which is used almost 99% of the time, involves simply listening with all systems for signs of ships, aircraft, or submarines (yes, we can hear planes and helos if they're close enough to the water).

All submarines use chart, satellite, gyro, visual, radar (close to shore), and dead reckoning for primary navigation in most oceans. On rare occasions, uncharted mountains or navigational screwups have led to submarine accidents. My own boat hit an underwater mountain in the Mediterranean in 1977; the USS San Francisco hit an uncharted mountain a few years ago.

The one exception is in the Arctic Ocean, where the ice pack is in constant motion and its configuration is ever-changing. In the Arctic, for fast travel, the boat will submerge to a deeper depth than ice keels can form; for navigating through the ice pack near the surface, forward-looking and top-sounding hi-frequency sonar is used to both detect ice and determine its relative thickness. The periscope can also be raised (the water is extremely clear there) to get a visual confirmation of ice configuration prior to surfacing.

Navigating in the Arctic isn't easy. The aggravating, constant noise from the ice shifting (think about having to listen to popcorn pop for hours while trying to find a target) makes it very difficult to pick out contacts. Fortunately, there aren't any noisy biologics (fish, etc.) or shipping noise to make it worse.

The primary use is for a submarine's main Sonar system is to find surface and submerged contacts. Depending on the type of boat (Attack or Missile) or ship and its mission, a boat will either seek out those contacts or seek to avoid them altogether. It is the mission of a Fast-Attack submarine to seek and destroy ships and submarines; a Ballistic Missile submarine's mission is to remain undetected. For those like me who were Sonarmen during the height of the Cold War, being on a Fast-Attack was the only way to go if you wanted to learn your profession.

Not that submarines can't use their main sonar systems to navigate if they wanted to - they could. It can be used for navigation in shallow, close-to-shore waters, but in the deep ocean you can't due to the physical configuration of the Sonar array (more on that below). To use sonar for navigation, a boat needs to use Active Sonar. All boats use Passive Sonar exclusively for normal operations - active is only used to get a range confirmation on a target just prior to torpedo launch, or in other rare circumstances. The reason for this is that a boat's active sonar is extremely powerful, and as such can be heard by other ships and submarines for many, many miles (sound travels faster and farther in water than it does in air). So using active sonar effectively gives away your position. In submarine warfare, he who hears the other one first wins.

Active Sonar depends on a clear echo return from an active pulse for navigation. As such, the echo is dependent on the return angle of the sound back to its source. The problem in deep ocean is that bottom is far enough away from the Sonar array that the angle at which the sound hits means that the echo will travel away from the source, not back toward it. This is why fathometer transducers are located on the bottom of the hull and slightly angled toward the bow to compensate for traveling through the water.

Even using Active Sonar for navigation close to shore isn't that easy, nor is it really that accurate. The power output is so great that the resulting echoes make for a pretty messy return image. Sure, you can adjust the power levels, but the reality of today's submarine operations is that the only time you could really use it is when transiting to and from port, and in those cases you'd be using satellite, chart, and visual aids, which are more accurate. Fathometer soundings are used regularly to correlate with chart information, and satellite fixes are checked with other systems.

In the case of using Passive Sonar, how sound travels in water is affected by temperature, salinity, and atmospheric pressure. Sound travels toward colder water, so as such tends to travel toward deep water. However, at deeper depth, pressure becomes the overriding variable and sound is forced back toward the surface. It is Sonar's job to chart the sound profile of the operating area on a regular basis so that the Sonar system can be used to full efficiency. Listening to Passive Sonar is essentially trying to pick out distinct sounds among the thousands of sounds created by biologics and environmental sources (storms, geologic sources, waves, etc.) as well as the thousands of ships and other man-made sources on the ocean or on the shore, trying to determine if the Sonar contact fits into the class of a Merchant ship, Trawler, Warship, or other type (Sailboat, Cruise ship, etc.).

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13y ago

Yes, the US Navy uses Sonar. Many of the ships and all submarines have sonar as a part of the electronics suite. There are also sonar bouys that can be dropped form aircraft to assist in finding enemy vessels. Sonar works on sound travelling through the water.

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15y ago

yes because if theres enemies in the water tht how they could find out

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Related questions

Who was the first person to use sonar in the navy?

Most likely it was some unknown bosun's mate that worked in the sonar lab at the Navy Bureau of Ordinance.


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Being a sonar technician is a good job to have in the Navy. Those who do this job have good working conditions. They are able to work independently, and do not have too much supervision.


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