Business Impact

These Tiny Microphones Will Make It Okay to Spill Beer on Your Amazon Echo

MEMS microphones from the startup Vesper will make voice-enabled gadgets far more durable.

The proliferation of portable, voice-enabled gadgets like Amazon’s Tap speaker and Doppler Labs’s smart, wireless earbuds enables us to play music, search the Web, and answer phone calls around the house and on the go using verbal commands. But because these devices are susceptible to damage from dirt and moisture and last only a few hours per battery charge, we don’t use them as much as we might.

Boston startup Vesper has devised a solution: miniature piezoelectric microphones that use a cantilever structure to harvest energy from sound and promise to be more durable and energy-efficient than conventional microphones. Vesper says that once its microphones are incorporated into gadgets, which will happen later this year, we should be able to use our voice-enabled devices outdoors and in inclement weather with less worry, for days on a single charge.

Vesper heats its microphones in a container with corn oil to mimic the way vaporized oil might affect a smart speaker positioned near a kitchen stove.

To demonstrate its microphones' toughness, Vesper plunges them into beer and soda; envelops them in hot steam infused with cooking oil; subjects them to simulated dust storms; and drops them from heights onto hard surfaces (see videos above and below). The microphones, which are about the size of two sesame seeds laid side by side, aren’t indestructible, but they are water-, dust-, and shock-resistant and maintain similar performance after Vesper’s stress tests, whereas conventional microphones experience significant signal loss.

Conventional microphones measure sound using a flexible diaphragm that vibrates in proximity to a rigid backplate. The diaphragm requires a constant charge, and the air gap between it and the backplate leaves the microphone vulnerable to harm from particles and water (though companies guard against this by covering them with mesh and rubber membranes).

Vesper attaches its microphones to metal blocks and drops them onto hard surfaces to test their durability. Here, the acceleration is equivalent to 10,000 Gs.

Vesper replaces the diaphragm and backplate with a single layer of flexible cantilevers made of aluminum nitride. When a soundwave comes into a Vesper microphone, it bends the cantilevers, sort of like a swimmer jumping on a diving board, and the stress generates electrical signals that can be translated into sounds.

Vesper also harnesses that sound energy to turn its microphones on—and turn them off in the absence of sound. In contrast, sound alone can’t activate conventional microphones if they are powered off. “Conventional microphones have to always have their mikes on and use digital signal processing to detect voices,” says Vesper CTO Bobby Littrell. “That uses a lot more power than our method, which basically tells [a gadget’s voice-interface] system that if there’s no sound it doesn’t need to do any of that computation.”

In this demo, an external circuit that includes Vesper’s newest microphone and a low-power voice processor wakes up Amazon’s Tap speaker and puts it back to sleep while consuming very little power.

Vesper’s technology enables voice-activated battery-powered devices to be used hands-free for long periods of time; in contrast, today’s devices typically must be manually woken up with the push of a button to preserve battery life. The startup recently received funding from Amazon’s Alexa Fund. However, Vesper declined to say whether its microphones would appear in future Amazon electronics.

How would you use a tiny, super durable microphone?

Tell us in the comments.

Researchers and companies started experimenting with piezoelectric MEMS microphones in the 1980s, but had a hard time identifying the right design and materials. Vesper is the first to commercialize the devices.

Experts caution that it’s still a challenge to consistently manufacture the type of piezoelectric material (aluminum-nitride film) that Vesper needs. “Aluminum-nitride transducers have been around for a long time, but it’s difficult to make a stable, low-stress film that’s uniform, high quality, and available for large volumes,” says Mark Sheplak, an engineering professor at the University of Florida who specializes in MEMS microphones. Film quality affects crucial microphone characteristics, such as sensitivity and noise level, he adds.

This test uses silica dust and a can of compressed air to simulate a dust storm. Vesper’s microphones are inside the plastic box, mounted onto long, thin circuit boards.

Others note that conventional microphones are good enough for most consumer gadgets, and cost-conscious device makers are unlikely to spring for Vesper’s more expensive technology. “Consumer electronics is all about cost and pricing,” says Farrokh Ayazi, who heads Georgia Tech’s Center for MEMS and Microsystems Technology. “Vesper has a good opportunity to be selected for newly designed devices, but it will be difficult for them to get into gadgets like smartphones where other microphone brands are well-established.” 

Market research firm Yole Développement says Vesper’s technology is a match for smart home and wearable gadgets that need to be sturdy and power-efficient. It estimates the global MEMS microphone market is worth nearly $1 billion. Vesper says its “wake-on sound” microphone will appear in U.S. consumer gadgets before the end of the year.

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