The Bose Professional Portable PA Encyclopedia

These are questions that come from people who use Bose L1 Pro systems. The answers are from Bose, authoritative sources, best practices in the field and first-hand experiences.

Several factors determine how large an area you can cover with your sound.

• The distance to the listener farthest away
• The noise level in the listening area
• Walls and boundaries that affect reflections that support low frequencies

Use the chart below to see the performance over distance of the different models. This will help you to predict how well you can be heard at a distance.

This is the chart used to estimate critical distance and drop-off over distance.

There is a lot more information, including comparisons to legacy models, in this article Throw Over Distance

Arrays on all units feature an extruded aluminum sleeve. Perforated grille on the front, solid on the back. Source: Craig Small

These comments apply to all L1 Pro Models

Pro16 "wobble" is an exaggerated myth. There are no line array systems with zero wobble, and the L1 Pro16 is within the range of legacy and competitor systems with regard to play in the array. The extension is a durable polypropylene plastic with a sufficient wall thickness, which has proven to have a high flexural strength and has passed all quality, reliability (thousands of mating cycles), and safety tests. Performance of the system is not affected, as the connections between the array, extender and bass module are very secure and would require a significant amount of force to damage. The L1 Pro16, all current L1 Pro systems, and legacy L1 products meet the same horizontal force stability requirements (or tip testing requirements). Lastly, the electrical connectors used in the L1 Pro16 are the same that have been used on legacy L1 products, which have 17+ years of field usage and satisfactory performance.

Source: Craig Small, Product Manager, Bose Professional on Facebook 2020-12-29

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The L1 Pro system extensions are made of a very durable polypropylene with sufficient wall thickness, proven to have a high flexural strength and meets our rigorous quality, reliability, and safety testing requirements. Reliability testing includes mating and un-mating of the array, extension, and subwoofer components that simulates 10 years of product life, and revealed no degradation in fit or stability. Additionally, the L1 Pro16 meets the same horizontal force stability requirements, or tip testing requirements, that all our L1 legacy products, and current family of L1 Pro products meet. The margin in the extension, array, and subwoofer fit experienced by some users is common with portable line array designs, including our legacy L1 systems.

Source: Craig Small, Product Manager, Bose Professional on Facebook 2021-03-26

Use the Bose Updater to update compatible Bose products. This web-based updater is an easy way to keep your product up-to-date with the latest features and improvements.

Compatibility Information

To use the Bose updater, use a compatible computer operating system and web browser. While other operating systems and browsers might work, the updater is designed for those listed below.

Compatible operating systems

• Windows 10 or later
• macOS (the latest two versions)

Compatible web browsers

• Chrome
• Edge
• Firefox
• Safari

I just got my L1 Pro. Do I NEED to update the firmware?

Link to this question

The only way to know is to go to the Bose Updater. Your system may have been manufactured before the latest update was available.

For more information see L1 Pro Firmware

The Bose App allows you to control settings on the L1 Pro (volume/bass/treble/reverb) and access advanced features like ToneMatch Presets and Scenes.

The System EQ feature on the L1 Pro systems applies an EQ preset to the master output. This is similar to a graphic equalizer on traditional analogue mixers, but it uses four presets instead for quick access:

• Off - i.e. 'Flat', no EQ applied.
• Live - best for live performances
  • Slight reduction in 100Hz, bump around 1KHz, slight reduction at 10KHz
• Music - best for DJ sets.
  • Increase around 100Hz, increase around 10KHz
• Speech - best for just dialogue, if using the system for public address.
  • Reduction between 100Hz and 500Hz, bump around 2KHz-3KHz, bump over 11KHz

The System EQ setting will not affect the system's XLR line output audio.

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No. While the column arrays and extensions of the L1 Pro8 and L1 Pro16 will fit each other, no sound comes out.

Yes

The L1 Pro32 can be used without the upper array. This configuration is useful when a venue ceiling cannot accommodate the height of the L1 Pro32
Source: Page 7 of the L1 Pro32 Owners Guide

• For best results, ensure the array is at ear level for listeners
• The L1 Pro32 automatically adjusts the level of the bass output to maintain the appropriate spectral balance.

It’s a valid use case to use only the bottom array section. In fact, the EQ automatically adjusts to compensate.
Craig Small - Bose

Half Stack Not Recommended for Small Gigs

Running only the lower section of the Line Array is a workaround when there isn't enough ceiling clearance to use both sections. For small gigs, turn down the volume on the L1 Pro32, don't run without the top section of the array because

• You'll need to elevate the system so the array is at ear level for the audience. Otherwise, the sound will be muffled
• You will reduce your projection over distance. The sound will drop off more over distance.
• You may need to turn up the volume louder than if you were using the full array. As a result, you increase the likelihood of feedback.

In addition to the three inputs on the L1 Pro systems, you can add a T4S. When you do,

• The inputs and controls on the T4S operate independently from the inputs and controls on the L1 Pro
• The three inputs on the L1 Pro operate independently of the T4S. The operation of the controls of the L1 Pro is the same whether or not a T4S is connected via the ToneMatch port.

You can connect from the T4S to one or two L1 Pro systems using the ToneMatch ports.

For full details see: T4S to L1 Pro

In addition to the three inputs on the L1 Pro systems, you can add a T8S. When you do,

• The inputs and controls on the T8S operate independently from the inputs and controls on the L1 Pro
• The three inputs on the L1 Pro operate independently of the T8S. The operation of the controls of the L1 Pro is the same whether or not a T8S is connected via the ToneMatch port.

You can connect from the T8S to one L1 Pro system using the ToneMatch port. There are also XLR and ¼″ (6.3 mm) Tip‑Ring‑Sleeve outputs.

For full details see: T4S to L1 Pro

Can I use the T1 ToneMatch Audio Engine with the L1 Pro System^[1]s?

Link to this question

Yes using two connections

1. ToneMatch port supplies power to the T1 ToneMatch Audio Engine
2. An analog cable from the T1 ToneMatch Audio Engine Master Output to one of the L1 Pro channels (preferably channel 3)

Required

1. ToneMatch cable (these were included with the T1 ToneMatch Audio Engine), or network cable (CAT5/6/7) up to 50 feet
   OR you can use a ToneMatch Power Supply instead of connecting to the L1 Pro System^[1] for power.
2. ¼″ (6.3 mm) Tip‑Ring‑Sleeve cable. This is the preferred cable for best results, but you can use a ¼″ (6.3 mm) Tip‑Sleeve cable. You'll be more vulnerable to line noise but if your cable length is less than 20-25 feet, this can work.

Connections and initial settings

1. On the L1 Pro, turn off the system and turn down the volume on all channels
2. On the T1 ToneMatch Audio Engine, turn the Master Volume off
3. Power: Connect the L1 Pro^[1] ToneMatch port to the T1 ToneMatch Audio Engine ToneMatch port using the ToneMatch cable
4. Audio: Connect the T1 ToneMatch Audio Engine Master Output to the L1 Pro^[1] channel 3 unless you are already using it for Bluetooth or another sound source. This leaves channels 1 and 2 open for other sound sources.
   • On channel 3, set Treble and Bass at 12:00 (flat)
   • If you connect to L1 Pro^[1] channel 1 or channel 2
     • On the L1 Pro^[1] channel:
       • Turn off the ToneMatch Preset
       • Turn off Reverb
       • Set Bass and Treble to 12:00 o'clock
   • For best results, use a 1/4 inch (6.3 mm) Tip-Ring-Sleeve cable for a balanced connection

     

Power up and gain staging

Summary: Set the L1 Pro channel volume and the T1 ToneMatch Audio Engine Master Volume to 12:00 o'clock and adjust from there as necessary

Details

1. Turn on the L1 Pro (normally you would turn on the power amplifier last, but you need it turned on to power the T1 ToneMatch Audio Engine)
2. On the T1 ToneMatch Audio Engine
   • Attach a signal source to one of the T1 ToneMatch Audio Engine, e.g., a microphone
   • Turn on the power
   • Turn up the Trim until you see a solid green light on the channel trim
   • Turn up the channel volume to 12:00 o'clock
3. On the L1 Pro
   • Turn up the volume on the channel to which you connected the T1 ToneMatch Audio Engine to 12:00 o'clock
4. On the T1 ToneMatch Audio Engine
   • Turn up the Master volume to the desired level

Why do you need two connections?

Regarding T1 compatibility with the L1 Pro systems: The architecture of the T1 ToneMatch differs from that of the T4S and T8S ToneMatch mixers and is not compatible with the L1 Pro’s S/PDIF audio architecture.

The T1 ToneMatch is based on S/PDIF, but with a proprietary connection for legacy L1 products which allows them to carry other data such as firmware updates. The T4S and T8S ToneMatch mixers use an updated version of ToneMatch protocol, which is compatible with legacy L1 products, but also fully compatible with S/PDIF. Since the L1 Pro architecture is designed to use standard S/PDIF protocol, the T1 ToneMatch cannot communicate the same way and is unable to send audio via the ToneMatch port.

Although the T1 ToneMatch is unable to send audio it can still receive power from an L1 Pro system via the ToneMatch port. In order for the L1 Pro system to receive audio, users of the T1 ToneMatch would need to connect the analog main out of the T1 to an available input on the L1 Pro system.

Source: Bose l1 Pro with Tonematch Mixers (T1, T4s, T8s)

Why use a T1 ToneMatch Audio Engine with the L1 Pro System^[1]s?

Link to this question

* Use the T1 ToneMatch Audio Engine to add three more XLR/Combo jack inputs and channel 4/5 dual input (combines stereo to mono). You give up the third input on the L1 Pro System^[1] but get four inputs — a net gain of three inputs

• The L1 Pro32 built-in mixer has ToneMatch Presets, Bass, Treble, and Reverb.
  

If you already own a T1 ToneMatch Audio Engine:

• The T1 ToneMatch Audio Engine has more tone control options with zEQ, ParaEQ
• The T1 ToneMatch Audio Engine has more fine-grain control for Reverb (Type/Mix/Brite)
• The T1 ToneMatch Audio Engine has more effects: Comp/Gate, Mod, Delay

No. The MIC/INST/OFF switch is NOT a MIC/LINE selector like those found on many powered loudspeakers.

The switch does not change input sensitivity or gain.
It affects only the ToneMatch Preset applied to the input.

ToneMatch Preset Behavior:

• MIC applies the microphone ToneMatch Preset
• INST applies the acoustic guitar ToneMatch Preset
• OFF disables ToneMatch processing

Use MIC for microphones and INST for acoustic guitar. You can change the ToneMatch Presets using the Bose App

Channel ToneMatch Button: Select the ToneMatch preset for an individual channel. The corresponding LED will illuminate white while selected.

More information about ToneMatch Presets

No. The MIC/INST/OFF switch does not change input sensitivity or gain.

It only selects the ToneMatch Preset applied to the input.
It does not adjust the channel’s gain staging or level.

ToneMatch Preset Behavior:

• MIC applies the microphone ToneMatch Preset
• INST applies the acoustic guitar ToneMatch Preset
• OFF disables ToneMatch processing

Use MIC for microphones and INST for acoustic guitar. You can change the ToneMatch Presets using the Bose App

Channel ToneMatch Button: Select the ToneMatch preset for an individual channel. The corresponding LED will illuminate white while selected.

More information about ToneMatch Presets

* You can connect the L1 Pro Line Out to a monitor.

The XLR Line Output from any L1 Pro contains the sound from all inputs (1, 2, 3, Bluetooth, and ToneMatch Port). That includes

• ToneMatch Presets
• Tone Controls
• Reverb
• The signal from a ToneMatch mixer connected to the ToneMatch port including ToneMatch Presets, zEQ, Reverb, Effects.

The sound is NOT affected by the L1 Pro System EQ setting.

• If you have an S1 Pro, see L1 Pro to S1 Pro
• If you have an S1 Pro+, see L1 Pro to S1 Pro+
• If you prefer to run your inputs to the S1 Pro+ and send the output to the L1 Pro, see S1 Pro+ To L1 Pro
• If you have a mixer, you may prefer to send the monitor mix from the mixer to the monitors instead of the L1 Pro Line Out

The L1 Pro was designed to be placed behind the performers. If you can do that, you may not need a monitor — you should be able to hear yourself clearly. For more about that, see The L1® Approach and the History Of Amplification.

Use the Mixer Mono Output and connect it to L1 Pro Channel 3.

If the mixer does not have a mono output, pan all inputs hard LEFT and use the LEFT output. We will now refer to that as the Mixer Mono Out.

If the mixer has XLR outputs:

Mixer Mono Out → XLR Female → ¼″ (6.3 mm) Tip‑Ring‑Sleeve → L1 Pro Channel 3

If the mixer has ¼″ (6.3 mm) Tip‑Ring‑Sleeve outputs:

Mixer Mono Out → ¼″ (6.3 mm) Tip‑Ring‑Sleeve → L1 Pro Channel 3

For more details, see Mixer to L1 Pro.

You can, and it might work. Click for details

Link to this question

And yes, there are even pictures of this in the L1 Pro manuals.

However, using XLR‑to‑XLR connections from a mixer into Channels 1 or 2 can lead to problems.

1. Some mixers have a MIC/LINE or ‑20 dB switch on the XLR output

Link to this question

If your mixer can switch its XLR output to MIC or ‑20 dB, then engage that switch and the XLR‑to‑XLR connection should work.

If not, use Mixer Mono Out → XLR Female → ¼″ (6.3 mm) Tip‑Ring‑Sleeve → L1 Pro Channel 3.

2. Most mixer XLR outputs are line‑level, which is a poor match for the L1 Pro’s mic‑level XLR inputs

Link to this question

This mismatch can cause:

• Input clipping
• Harsh distortion
• Unpredictable behavior

3. You can sometimes “make it work,” but it’s not ideal

Link to this question

You might avoid clipping by:

• Turning down the mixer output
• Turning down the L1 Pro channel volume

However:

• Lower mixer output reduces signal‑to‑noise ratio (more hiss)
• Very low L1 Pro channel settings give almost no usable range
• Volume may jump from too quiet → too loud with tiny adjustments

4. Channel 3 avoids all of these issues

Link to this question

Channel 3 is designed for line‑level sources and provides:

• Proper level matching
  • Lower input sensitivity (less likely to clip/distort)
  • Full +24 dBu headroom
• Predictable behavior
  • No ToneMatch presets
  • No Reverb
  • No DSP gain steps

This is why the recommended method is:

Mixer Mono Out → XLR Female → ¼″ (6.3 mm) Tip‑Ring‑Sleeve → L1 Pro Channel 3

By design, the input sensitivity of the Channel 3 ¼″ (6.3 mm) Tip‑Ring‑Sleeve input is lower than the ¼″ (6.3 mm) Tip‑Ring‑Sleeve inputs on Channels 1 and 2. This allows Channel 3 to handle line‑level sources with less risk of clipping.

You can achieve the same overall output level from Channel 3, but you may need to turn the Channel 3 volume control higher to do it.

This difference is most noticeable when connecting a third‑party mixer to the L1 Pro.

People tend to hear louder as better, so you may prefer to use Channels 1 and 2 instead of 3, but you can get the same result by turning up the volume on Channel 3, leaving the other channels available.

For more information, see Mixer to L1 Pro.

Multiple L1 Pros can be used together, but each system still operates independently.

What they can do

• Pass audio from one unit to another using the L1 Pro Line Out (Daisy Chain)

With a mixer

• Play the same signal if you feed each unit from a mixer
• Work as a stereo pair when fed LEFT and RIGHT outputs from a mixer

What they can’t do

• Share their internal inputs with each other
• Combine all inputs from two units into one system
• Link wirelessly over Bluetooth (Bluetooth is receive‑only)

For details on specific setups, see the related questions below.

Use XLR Female → ¼″ (6.3 mm) Tip‑Ring‑Sleeve to connect

From the first L1 Pro Line Out

To the second L1 Pro Channel 3 ¼″ (6.3 mm) Tip‑Ring‑Sleeve input.

For complete details, see L1 Pro Daisy Chain.

No

L1 Pro systems can receive Bluetooth audio from a Bluetooth source (for example, a phone, tablet, or computer). They cannot send Bluetooth to another L1 Pro, and even if they could, the latency (delay) would make this unusable in a live sound setting.

For more information see L1 Pro Daisy Chain

You can send the output of one L1 Pro to another (Daisy Chain), but you can't send the output of the second one back to the first. That is: You cannot take the three inputs on each L1 Pro and hear all six inputs through both units.

Each unit only plays the signals connected to its own inputs.

If you want both L1 Pros to play the same mono mix, use a mixer and send the same output to each unit:

From the mixer Mono Output → L1 Pro (Left) Channel 3 ¼″ (6.3 mm) Tip‑Ring‑Sleeve input

From the mixer Mono Output → L1 Pro (Right) Channel 3 ¼″ (6.3 mm) Tip‑Ring‑Sleeve input

This gives you two identical mono feeds, but the L1 Pros still operate as separate systems.

For more details, see Dual Mono.

To run two L1 Pros in stereo, send the LEFT and RIGHT outputs from your mixer to each L1 Pro separately.

From the mixer LEFT Output → L1 Pro (Left) Channel 3 ¼″ (6.3 mm) Tip‑Ring‑Sleeve input

From the mixer RIGHT Output → L1 Pro (Right) Channel 3 ¼″ (6.3 mm) Tip‑Ring‑Sleeve input

Each L1 Pro then reproduces its own channel (Left or Right), creating a stereo pair.

For more details, see Mixer to L1 Pro.

No

• You cannot take the three inputs on each L1 Pro and hear all six inputs through both units.
• While you can daisy chain the inputs of the first L1 Pro to a second L1 Pro, you cannot send the inputs of the second L1 Pro back to the first. Doing so will create a feedback loop.

For more details, see L1 Pro Daisy Chain.

Symptoms

No mid-highs, low volume, it's all bass

Possible Causes

L1 Pro speaker column or extension not seated properly.

Solutions

Make sure the column arrays are seated firmly in the power stand

Hiss with nothing connected to the L1 Pro inputs when I turn up the volume

Symptoms

Hiss with nothing connected, volume turned up

Possible Causes

with no input, turning up the volume amplifies noise

Solutions

turn down the volume or mute any unused channels For more details see L1 Pro Hiss

Hiss when connecting the LINE OUT from an L1 Pro to a second L1 Pro with an XLR cable

Symptoms

Hiss, noise, clipping

Possible Causes

LINE OUT from the first L1 Pro is line-level.
XLR input on the second L1 Pro is microphone-level

Solutions

Connect the first L1 Pro LINE OUT to the second L1 Pro Channel 3 input The cable: Female XLR to 1/4-inch (6.3mm) Tip-Ring-Sleeve cable For more details see L1 Pro Daisy Chain

Hiss when connecting a mixer to the L1 Pro Channels 1 or 2 with an XLR cable

Symptoms

Hiss, noise, clipping

Possible Causes

No causes provided

Solutions

Connect the mixer mono output to the L1 Pro Channel 3 input The cable: Female XLR to 1/4-inch (6.3mm) Tip-Ring-Sleeve cable For more details see Mixer to L1 Pro

Feedback happens when the sound from the loudspeaker is louder at the microphone than the sound of the voice. If the microphone “hears” more speaker than performer, the system will feed back.

For a full explanation and diagrams, see Feedback / Microphone.

Set your source at its loudest performance level, then raise the Trim until you get solid green with occasional yellow (never red). Once Trim is set, use channel volume for mixing — not Trim.

Details for the T4S/T8S

Link to this question

The first thing you do when connecting a sound source to your ToneMatch mixer is set the input trim. This is gain staging. Then you can set the ToneMatch Preset for your source. We'll do both in the short video below.

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At the beginning of the video, I'm doing a factory reset so we don't bump into any old settings. You do not have to do a factory reset before you set the input trim on your ToneMatch mixer.

The trim controls across the top will be different

The trim controls across the top of your ToneMatch mixer will likely be different. This is because the output levels of your input sources will likely be different. This is normal.

Mixing - Use the volume controls not the trim controls

Once you have set the input trim, you should not have to change it until you change the input source (e.g. different microphone, singer, or instrument). Do not use the trim control to change the channel volume. Use the channel volume control.

Scenes

Saved Scenes do not capture the trim, channel volume, or Master Volume settings.

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Set Up Your Source

Set your source at the maximum that it will be when performing.

• Microphone

Sing directly into the microphone using close microphone technique (lips just brushing the windscreen). Sing as loudly as you will sing during your performance. You want to set the Trim to work at your maximum volume.

• Instrument

Turn your input as high as it is likely to go during performance.

Trim Controls

The ToneMatch Mixer^[2] trim controls for Channels 1-4 (1-8 for the T8S ToneMatch mixer) provide a significant gain increase when you reach the upper limit. This increase in gain is normal operation.

Most sources like typical microphones and piezo pickup systems can provide enough level without the need to add significant gain from the trim control. Certain sources like passive acoustic guitar pickups require additional gain and in these cases it can be necessary to set the trim level to the upper range of the control. When the trim control is set this high you may notice the gain change. This is normal operation. If you want to run the trim control at lower settings we recommend using a preamp or simple stomp box level booster.

The trim for Aux input channels 5/6 (9/10 for the T8S ToneMatch mixer) do not exhibit the same behavior as the trim controls for Channels 1-4 (1-8 for the T8S ToneMatch mixer). The Aux inputs are designed for line level sources and do not have the same gain staging as channels 5/6 (9/10 for the T8S ToneMatch mixer).

Details for the T1

Link to this question

Here's a quick video to help you set the input trim for a microphone on the T1 ToneMatch Audio Engine. This is called Gain Staging.

The trim controls across the top will be different

The trim controls across the top of your T1 ToneMatch Audio Engine will likely be different. This is because the output levels of your input sources will likely be different. This is normal.

Mixing - Use the volume controls not the trim controls

Once you have set the input trim, you should not have to change it until you change the input source (e.g. different microphone, singer, or instrument). Do not use the trim control to change the channel volume. Use the channel volume control.

Scenes

Saved Scenes do not capture the trim, channel volume, or Master Volume settings.

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The same principles apply to an instrument or line-level input.

• Set the source to the highest level you will need during the show
• Set the input trim so that you get solid green, occasional yellow flickers, and never see red.

For more detailed steps for T1, T4S, and T8S, see Feedback / Microphone#Gain Staging.

Use close‑microphone technique: lips barely brushing the windscreen. Every halving of distance gives roughly 6 dB more gain before feedback.

Close Microphone Technique details

Link to this question

Get close to the microphone when you want to be loud. No other technique has a big an impact on feedback. Each halving of distance is approximately another 6 dB of gain before feedback. This relationship in physics is known as the Inverse Square Law. This means that the difference between working a microphone at 2 inches, and 1/4 inch is 18 dB, which is more than twice as loud. While good mic technique often involves "working" the microphone at different distances, singers must be mindful of the fact that small changes in distance from the mouth result in very dramatic changes in sound level.

In the feedback diagram at the top, getting close to the microphone means getting more sound from voice which translates to more gain without feedback.

For more, see Feedback / Microphone#Close Microphone Technique.

Yes. Supercardioid and hypercardioid microphones provide the best gain‑before‑feedback, followed by cardioid. Omnidirectional microphones provide the least.

Details about Directional Microphones

Link to this question

Principles

Use a directional microphone. Hypercardioid is better than cardioid, which is better than omnidirectional. All sound waves impinging on the microphone from a direction other than the intended signal is "noise" and will lower the threshold of feedback.

Directional microphones "collect" less sound from directions other than what they're supposed to amplify (the voice, or an instrument) and hence are less likely to feed back.

In addition, most directional microphones have a strong behavior called proximity effect. This is the strong buildup of bass and low-mid response as the source (say the voice) to microphone distance decreases. For microphones intended to sound natural when the voice is very close -- say one of a number of popular stage vocal microphones -- what this means is that low-to-middle frequencies from sources at a distance, including loudspeakers being used to amplify the voice, are largely rejected by the microphone. This is a real plus in terms of avoiding microphone feedback.

Conversely, an omnidirectional microphone (equal sensitivity to sound coming from any direction) has no proximity effect. This is an advantage, often in the studio where the engineer wants a consistent tone regardless of distance. But it's a disadvantage on stage in terms of feedback. An omnidirectional mic collects more sound that's not the target, and because it has no proximity effect, it is more susceptible to feedback at low-to-mid frequencies than a directional mic.

Omnidirectional and Unidirectional Microphones

There are two basic types of microphone — omnidirectional and unidirectional^[3]

.

Omnidirectional Microphone

Omnidirectional mic. It is sensitive to sounds from all directions.

It's unlikely you will use an omnidirectional microphone in a live performance setting. You will pick up too much ambient noise from the room, the audience, and the loudspeakers (leading to feedback).

Use omnidirectional microphones when the sound source could be anywhere around the microphone. This picks up a lot of room ambiance, which sometimes is the goal. Direct and ambient sound can be adjusted by moving the microphone closer to or further from the sound source.

Unidirectional Microphone

Unidirectional microphones are sensitive to sound coming from only one direction. Examples:

• a vocalist singing directly on axis directly into the microphone
• a guitar amplifier with the microphone aimed directly at the speaker cone

All of the following types are unidirectional

Cardioid

The most common type of unidirectional microphone is called a “cardioid” because its pickup pattern is heart-shaped. It picks up most sound from the front of the microphone and some from the sides.

Although you will get better gain-before-feedback from a cardioid microphone than an omnidirectional microphone, you will get better gain-before-feedback from a supercardioid or hypercardioid microphone (see next section).

Examples of common cardioid microphones (good to great microphones but not necessarily the best for gain-before-feedback with Bose L1 systems)

• Sennheiser e 835, e 935, MD 935
• Shure SM 58, SM 57, Beta 87C

Supercardioid / Hypercardioid

Supercardioid or hypercardioid microphones offer even greater sound isolation through narrower pickup patterns.

Examples of common supercardioid/hypercardioid microphones

• Audix OM 5, OM 3b, OM 6, OM 7, VX 5
• EV N/D 767A
• Neumann KMS 105
• Sennheiser e 845, e 865, e 945, e 965, MD 441, MD 945,
• Shure Beta 58A, Beta 87A

For examples and diagrams, see Feedback / Microphone#Directional Microphones.

If you are using stage monitors, be sure to place them so they are directing sound at the area of the microphone that rejects the most sound.

Note from Shure.com

Other variants on the unidirectional polar pattern include supercardioid and hypercardioid options. Both patterns offer narrower front pickup angles than the cardioid – 115 degrees for the supercardioid and 105 degrees for the hypercardioid – alongside greater rejection of ambient sound. Additionally, while the cardioid is least sensitive at the rear (180 degrees off-axis), the supercardioid is least sensitive at 125 degrees and the hypercardioid at 110 degrees. When placed properly they can provide more 'focused' pickup than the cardioid pattern, but they also have less rejection at the rear. If you're using either of these polar patterns on stage with wedge monitors, it's important make sure you avoid placing the wedges directly behind the mic in this instance. Instead, place them either side at the mics least sensitive angle.

Every time you double the number of open microphones, you lose about 3 dB of gain before feedback. Use as few open mics as possible, and mute or gate unused ones.

See Feedback / Microphone#Open Microphones.

Use EQ sparingly. Avoid excessive high‑frequency boost, and use ParaEQ to notch out a problem frequencies if needed.

For step‑by‑step notching instructions, see Feedback / Microphone#Notch Out a Problem Frequency.

Yes. Turn off effects until you have stable gain, then add them back one at a time so you can hear their impact.

See Feedback / Microphone#Effects.

Yes. Pickups provide much higher gain‑before‑feedback than microphones and avoid the distance/position issues of miking an instrument.

See Feedback / Microphone#Instrument Pickups.