Before about 2000, upgrading a factory-installed car audio system was pretty easy. You could start with a new set of speakers and a subwoofer and have something quite enjoyable. In the last few decades, automakers, or more specifically, the companies that supply their audio system components, have learned how to maximize the performance of the inexpensive speakers they use. While this makes the audio systems sound better, the same processes they use can result in a speaker upgrade making your stereo system sound awful. We look at why this happens and how a professional installer can work around it.

Sound Quality = Smooth Frequency Response

Shopping for new speakers can be challenging. Listening to the same music at the same volume level on different options is nearly impossible. High-quality speakers all have one thing in common: flat frequency response. You don’t want to be listening to Lorde or Billie Eilish and have their voices sound hissy and harsh rather than smooth and natural. When voices sound like real voices, a key reason is a smooth frequency response.

Here’s an example of the importance of frequency response. Imagine you have two identical vehicles. One has a set of absolutely top-of-the-line component speakers installed in the doors. A high-quality amplifier provides power to the speakers, and an equally high-quality radio serves as the system audio source. A second identical vehicle has the same amp and radio but uses moderately priced speakers and includes a carefully calibrated digital signal processor between the radio and the amp. Aside from the potential improvement in the accuracy of the soundstage and how the system images, the digital signal processor offers equalization that compensates for reflections and resonances in the vehicle to deliver fairly smooth frequency response. The system with the DSP will sound more realistic and will be more enjoyable.

The companies like Harman, Bose, Panasonic and Sony that provide speakers, amplifiers and radios to car manufacturers understand the importance of smooth frequency response. This factor is key to their ability to deliver good sound with low- to medium-quality speakers. One tactic they use to provide a good listening experience is installing small midrange speakers – instead of a tweeter – on the dash, in the A-pillars or at the top of the door. The equalizer in the radio or amplifier is then adjusted so that these small speakers deliver good high-frequency performance. One of the first times we ran across this was in the second-generation Dodge Intrepid and its sister vehicles. The amplifier in those vehicles had surprisingly impressive processing capabilities, even for its late-’90s vintage. This audio system design technique is now popular in many makes and models of vehicles.

If you’re curious why they use a small midrange rather than just a tweeter, check out this article.

When Speaker Upgrades Go Awry

Here’s a scenario we hear of quite often: A client buys a set of coaxial speakers and installs them in the dash of their pickup truck. The speakers are connected to the factory-installed amplifier. In theory, this should be a nice upgrade, right? The new speakers have far too much high-frequency output because the signal from the factory amp has been equalized for a speaker without a tweeter. The result is a system that sounds overly sibilant. If you’re lucky, you might be able to tame the screechiness by turning down the treble control on the radio. In most cases, though, the result still isn’t ideal.

As you can see from the above measurements, the boosted high-frequency phenomenon is far from isolated. These professionals have the tools and training required to measure the frequency response of the signals coming from the radio or amplifier so they can design an upgrade solution that will sound good.

How To Deal with Boosted High-Frequency Response

So, if you want to upgrade your car audio system, what do you do? First, visit a local specialty mobile enhancement retailer that can make these frequency response measurements. Once they confirm whether your audio system has this high-frequency boost, they can suggest a speaker solution that will offer the performance you want.

If there’s a lot of equalization in the signal, the next step will be to select an amplifier with a built-in digital signal processor or a separate amplifier and DSP. Modifying the signal’s frequency response to the speakers is the only way to ensure that they sound correct.

The DSP will help tame much more than aggressive high-frequency output. The equalization process will resolve inconsistencies in the midrange frequencies, unruly resonance in the midbass and peaky response from a subwoofer. The output of each speaker in the system can be adjusted for amplitude and arrival time so that the system will recreate an accurate soundstage with good imaging.

There are a few vehicle platforms where an experienced technician can adjust the equalization presets in the factory audio system. This is a reasonable in-between solution. It could reduce the high-frequency boost but won’t result in audio system performance that matches the inclusion of a properly adjusted DSP.

Another option is to replace the factory-installed radio and amplifier with an aftermarket solution. This upgrade will eliminate any high-frequency boost, but you will have a system with performances similar to the situation we discussed.

However, if you choose a radio like the Sony XAV-9000ES or XAV-9500ES with its built-in eight-band parametric equalizer, your installer can fine-tune the system for the new speakers. There may be other radios with dedicated equalizers for each output channel. However, an EQ that affects all the speakers in the system won’t yield the same results.

Choose an Expert to Help Upgrade Your Car Audio System

One last tidbit of information before we send you off: The technician working on your vehicle will need to test the speaker outputs for the presence of all-pass filters before deciding whether to apply time correction to the new system. Without this information, you may have uneven midrange performance and a severe lack of midbass.

As you can see, upgrading a modern car audio system isn’t all that easy. And not all car audio shops around the country have kept up with the technologies vehicle manufacturers are using to optimize the audio solutions they deliver. If you want your car stereo to sound better, do your research to find a shop with the tools, training and products to deliver on your goals. Finding that shop might take some time and legwork, but if you want your car audio speaker upgrade to sound great, it’s time well spent.

This article is written and produced by the team at www.BestCarAudio.com. Reproduction or use of any kind is prohibited without the express written permission of 1sixty8 media.

You’d think that something as simple as operating an on/off button or switch would deliver predictable results. These days, many electronic devices remain on and continue to draw small amounts of current, even when you think they’re off. Let’s look at how car radios work regarding their on/off status and how much current they draw.

Parasitic Current Draw Kills Batteries

This term should be very familiar to those adept at troubleshooting automotive and marine electrical systems. A parasitic draw is a circuit that consumes energy when you don’t want it to. The concept is similar to leaving the dome light in your car on overnight after searching for something that has tumbled into that abyss between the seat and the center console.

In reality, a parasitic draw consumes energy that’s unexpected or unwanted. You know that something evident like a dome light would kill a battery. If all the lights are off, but your battery is drawn flat in a day, you must address the problem.

Depending on the features included with your vehicle, even when it’s off, systems can draw upwards of 50 milliamps of current. If you have keyless entry, the receiver is awake and listening for a signal from your key fob. If you have a “smart trunk” system, there’s likely a second receiver in the back of the car listening for a signal from your key fob. All radios with clocks draw a tiny current to keep the clock running.

It’s Not Off; It Just Looks Off

Any device with a momentary on/off button has a tiny computer awake and waiting for the signal to spring to life. Your smartphone is a perfect example of this. The power button on the side or back sends a signal to the microcontroller and tells it to wake up. That microcontroller must draw a tiny bit of power from the battery to listen to the signal. This is one reason why devices with rechargeable batteries drain, even when “turned off.”

A desktop or laptop computer is another example. Not only can they be woken by tapping the power button on the case, but many can monitor a physical network port for a command that will bring the system to life. These commands are called Wake on Lan (WOL) and are great if you want to access a computer at home from a remote location.

Car Radios and Parasitic Draws

Getting to the point of the article, if your car radio doesn’t have a mechanical on/off switch like you might have found in a twin-shaft radio from the ’70s or early ’80s, it will draw a small amount of current from the battery when you turn it off. A better description of the state your radio is in after you press the power button is “sleep mode.” I measured the current consumption of a Sony XAV-AX7000 multimedia receiver in my lab. When on, but the volume turned down, it drew 776 milliamps of current. Pressing the power button to shut it off dropped the current draw to about 2 milliamps.

Two milliamps isn’t much current. With that said, your battery’s health isn’t good, and going on vacation or a business trip for a week will affect how much energy is left to start the vehicle. On the other hand, a remote car starter with a two-way remote can draw 15 to 20 milliamps of current. A dashcam might draw upwards of 400 milliamps when in parking mode, which could kill a weak battery overnight.

If you’ve ever looked at the wiring for a typical car or marine radio, you’ll know there are two “power” connections. A yellow wire typically needs to be connected to a constant power source. This wire is what feeds power to the microcontroller in the radio. A red wire should be connected to a switched power source. This wire is usually labeled as “accessory,” and the power source it is connected to should only be live when the ignition is in the accessory or on/run position. This wire typically only provides a signal to the microcontroller and doesn’t provide significant amounts of current to anything in the radio.

When no voltage is applied to the red wire, the radio “turns off.” Once again, this can be misleading because the yellow wire still provides a small amount of current to let the microcontroller monitor the red wire for a signal. We can consider this something akin to a “deep sleep” mode. Electronics manufacturers often refer to this measurement as the Dark Current.

The same Sony radio dropped its current draw to about 300 microamps when the power was removed from the red accessory wire. This current draw performs much better than radios from a few decades ago.

Car audio amplifiers, signal processors and integration interfaces also have small amounts of dark-current draw.

Marine Radios and Parasitic Draws

A little over a decade ago, Clarion introduced a marine radio solution with only two power wires: red and black. The radio was designed to include memory that would retain settings when power was removed from the unit. Items like station presets and equalizer and crossover settings would be retained when you turned on the boat. In a conventional marine radio with three power wires (constant, accessory and ground), radios would forget settings if you removed power from the yellow wire.

Parasitic draws are a concern in marine applications because most boats are only used on weekends. You roam around the lake or river for a few hours Saturday and Sunday, then tie the boat up at the dock for the week. That draw from the radio over the week would dramatically lower battery reserves, and the limited run time over the weekend wouldn’t recharge them fully. Boat batteries don’t last very long as they are often drained heavily and only partially recharged.

The solution is two-fold. If you plan on upgrading the radio in your boat, see if you can find a radio that uses a two-wire connection. One wire would be ground, and the other goes to the accessory or radio circuit. When you turn off the boat, no power is drawn from the battery.

Second, purchase a battery charger for your boat. It can be as simple as a Battery Tender Junior or a premium solution like the CTEK Multi US 7002. We’ve had phenomenal success with the latter; its recondition mode has restored the chemistry and capacity of batteries that less advanced changers and vehicle alternators couldn’t bring back to life. Whatever you decide to use, make sure it’s an intelligent unit that knows when the battery is full and switches to a float mode to prevent the battery from being overcharged.

You can also have a professional install a master battery switch in your boat. This switch makes disconnecting the battery easy if you’re going home from the cottage for the work week.

If your application uses Absorbed Glass Mat (AGM) or some Valve Released Lead Acid (VRLA) battery, your charger should have a specific charging mode for this type. These batteries rest at a slightly higher voltage than conventional lead-acid units. Sorry, we get a little geeky when talking about batteries. Regardless, proper maintenance is crucial to their longevity and reliability. Can you imagine the frustration of heading out on the lake for an afternoon of fun, only to be left stranded because the battery is too dead to restart the motor? What a mess!

Have Parasitic Power Draws Resolved Quickly

If you’ve run into a situation where the battery in your car, truck, boat, side-by-side or motorcycle constantly dies, you likely have a parasitic power draw. A local specialty mobile enhancement retailer can help troubleshoot the system with a current clamp or thermal imaging camera. Once they pinpoint the issue, they can repair or replace the misbehaving component, fix a wiring issue or devise a solution to ensure that your battery won’t die when you’re ready to head to work or school. It could be as simple as something wired incorrectly by an amateur or the incorrect selection of an aftermarket upgrade. Either way, you don’t want your car radio killing your battery.

This article is written and produced by the team at www.BestCarAudio.com. Reproduction or use of any kind is prohibited without the express written permission of 1sixty8 media.

What is a custom car audio subwoofer enclosure? Does it need to be wrapped in leather or vinyl? Should it be made with fiberglass? Does it need acrylic windows? Is LED lighting a necessity? The short answer is no to all of these questions. Let’s delve into what makes a subwoofer enclosure custom and why it’s the best way to upgrade the bass in your car audio system.

Subwoofer Enclosure Volume Matters

How large does a subwoofer enclosure need to be? The answer to that depends on the subwoofers you want to use. Thinking that way puts the cart before the horse, though. The best way to design a subwoofer system is to tell the product specialist you’re working with how much space you’re willing to allocate to the enclosure. They can take a series of measurements, do some calculations and suggest a subwoofer or subwoofers to deliver the best performance based on the available air volume. No matter what the manufacturers tell you, cramming large subwoofers into small enclosures results in poor performance. You’ll get more deep bass from a single driver in an optimized enclosure than a bunch of larger drivers crammed into an undersized design.

Part of designating the space available for your subwoofer enclosure should include considerations about accessing storage or a spare tire. The last thing you want is to be stranded on the side of the road because part of your stereo has trapped a spare or blocked access to the vehicle battery. Before you tell the shop how much space they can use, look under the trunk floor to determine what you might need to get to. Make some notes so you can share that information with the shop.

Space Optimization Is Key

The number one factor that defines a custom subwoofer enclosure is that it optimizes the available space in the vehicle. Let’s say you want a vented enclosure with two 10-inch subwoofers. Most 10-inch subwoofers on the market work very well in about 1 cubic foot of air space. So, this enclosure would need a net volume of 2 cubic feet plus the displacement of the drivers and the vent. Let’s use a pair of ARC Audio X2 10D2V2 10-inch subwoofers for this simulation. With 1 cubic foot each, plus a 4-inch diameter round vent, the enclosure needs a net internal air volume of about 2.15 cubic feet.

The person designing the enclosure for these subwoofers should optimize it so that it intrudes into the cargo area of the trunk as little as possible. Therefore, it should use the full width and all the available height to make it as shallow as possible. If we have 40 inches of width and 15 inches of height, the enclosure would need to be 8.625 inches in depth. These measurements assume the enclosure is a rectangle with no angled rear panel. If we wanted the rear panel to have a 20-degree angle, the depth at the top would shrink to about 6 inches. That gives us two more inches of usable cargo space.

Both designs are custom enclosures if finished in a durable carpet that matches the cargo area. That’s it. Nothing fancy or exotic is required to make this a custom solution. The customization aspect is that the enclosure is optimized for your vehicle and uses the available space efficiently.

By contrast, if the shop has a pre-built enclosure that’s 34 inches wide and 13 inches tall, it would need to be 11.375 inches deep. Would it work? Yes. Would it sound the same? Yes. Might it save you money versus having an enclosure built specifically for your application? Maybe. Will you have the most space to fit your groceries, sports equipment, luggage or beer? No, not at all.

Here are a few examples of custom enclosures designed to deliver great bass while taking up as little space as possible.

More Custom Subwoofer Enclosure Options

Now, there is a next level of custom subwoofer enclosure beyond a square or slanted-back prism. You might have a significant amount of room inside a spare tire or behind a trim panel in the trunk that can be used for an enclosure. Once again, the choice of drivers for these applications depends on the available space. Just because you can physically fit a 12-inch subwoofer inside a spare tire enclosure doesn’t mean that’s the choice of driver that will produce the most low-frequency output or deliver the tightest bass. A single 10-inch subwoofer might play louder at lower frequencies. An 8-inch subwoofer in a vented design will likely be even louder. Once again, the shop you’re working with should calculate the available volume and suggest a subwoofer based on that information.

Vehicle-Specific Enclosures

Many companies offer off-the-shelf subwoofer enclosures designed for specific vehicles. These enclosures are typically optimized for a specific location in the vehicle and may use a combination of stack-fab or fiberglass construction. With the benefits of mass production, these custom enclosures can make adding an optimized bass solution more affordable than having a shop create a one-off solution. You’ll still need an expert to run all the wiring and configure and calibrate the electronics.

Net Audio in Wichita Falls, Texas, offers this 2019+ Ram 1500 Crew Cab bass reflex subwoofer solution.

Musicar in Portland, Oregon, offers a variety of BMW OE-Look subwoofer upgrades, including this enclosure for F32/F83 coupes with a Morel 10-inch subwoofer.

Audio Designs and Custom Graphics in Jacksonville, Florida, has a complete line of Phantom Fit enclosures, including this one for 2015-22 Mustangs.

MTI Acoustics in College Station, Texas, offers application-specific subwoofer enclosures like this one for Jeep Gladiators.

Upgrade Your Car Stereo with a Subwoofer System Today

As we’ve shown, there doesn’t need to be anything fancy or exotic about a custom subwoofer enclosure. The enclosure needs to be constructed to be specific to your needs. You can certainly go for something flashy if you want. However, we prefer to stick with a simple, well-constructed enclosure and opt for a subwoofer that includes technologies that make it more accurate and linear. No matter your goal, drop by a local specialty mobile enhancement retailer today to find out what they can build to deliver great bass in your car, truck or SUV.

Lead-In Image: Thanks to Perzan Auto Radio in Upper Darby, Pennsylvania, for the photo of this enclosure they constructed for a client’s 2023 Bentley Continental GT Azure. The enclosure features a pair of JL Audio 10W6v3 subwoofers and matching SGR-10W6v2/v3 grilles. The client can still access the space under the trunk floor without moving the enclosure.

This article is written and produced by the team at www.BestCarAudio.com. Reproduction or use of any kind is prohibited without the express written permission of 1sixty8 media.