Embracing Innovation Since 1986

June 13, 2016

You are headed out of town on vacation. As you leave, stop by the gas station and walk in to pay with cash before pumping. Don’t forget to grab film for the camera, a new roadmap, and a few VHS tapes for the kids to enjoy once you reach your destination. You’ve got the bag phone in the car for emergencies so make sure the ringer is on in case anyone needs to reach you.

This is 1986. No “pay at the pump.” No debit cards. No digital cameras. No GPS. No DVDs. No text messages.

We’ve seen these innovations and many others over the past 30 years and are proud that Sealevel Systems has played a role in enhancing some of these technological advances. Read on to learn about our contributions to laptop computing, hybrid vehicles, and IP data transfer.

Innovation: IBM’s First “Laptop” Computer
Sealevel’s Contribution: Rugged Laptop Docking Station

1986 IBM PC ConvertibleIBM announced their first “laptop” computer on April 3, 1986. The IBM PC Convertible weighed in at a hefty 12 pounds and was priced at $1,995. Among its claims to fame were the utilization of 3.5″ floppy disks and the ability to run on batteries, much like our modern laptops. The world of laptop computers has seen countless innovations since: improved displays, increased memory, solid-state storage, extended battery life, etc. And, an invaluable development for military applications, the introduction of the “rugged” or “ruggedized” laptop, built to operate under adverse conditions. A Sealevel Systems customer has provided ruggedized laptops for the U. S. military for over a decade. Over the course of that service, Sealevel had designed a variety of solutions to expand the I/O capabilities of those laptops, including MIL-STD-1553, RS-485, Ethernet, USB, and digital I/O interfaces. Recently, the design requirements have included two laptop versions, identical in function but with different sizes. Each version also required a docking station with specific technical constraints. In response, Sealevel developed compliant designs and collaborated on the development of prototypes for a Rugged Laptop Docking Station. Sealevel engineers conducted rigorous field and laboratory testing to ensure all specifications were met or exceeded. Specifications included:

  • Operating Temperature -18°C to 60°C
  • Composite Wheeled Vehicle Vibration Profile
  • Drop and Functional Shock
  • Operating and Non-Operating Wind Driven Rain
  • Conducted Emissions and Susceptibility

Innovation: First Hybrid Car Sold in North America since 1917
Sealevel’s Contribution: Electric Vehicle Battery Rapid Charging Control

Honda-Insight-_CourtesyCurbsideClassicDecember 1999 marked the sale of the first hybrid car in North America since 1917. While the first hybrid vehicle was built in 1899 by Ferdinand Porsche, its heyday was cut short by Ford’s automobile line, which produced vehicles at lower prices and with more power. Fast forward to the 1970s and the oil crisis fueled (pun intended) a hunger for
hybrid technology. Finally, the 2000 Honda Insight was born. With two doors and two seats, the Insight rated 70 miles per US gallon in highway driving but did not feature the plug-in capability that is synonymous with today’s hybrid vehicles. Fast forward once again to present day and alternative power technologies are resplendent in the automotive industry, extending to public transportation. A Sealevel Systems client sought to take a battery powered electric bus to market and the need for accurate, continual battery monitoring was readily apparent. They charged Sealevel with delivering a means to remotely monitor the bus battery’s charge and access the data. Sealevel responded with a RISC processor integrated with CAN Bus and Ethernet connections, allowing the customer to receive data from the vehicle’s on-board systems. Specifications included:

  • Arm9 RISC Processor
  • CAN Bus Connection to Vehicle Data
  • Ethernet Connection to Cloud Server
  • Small, Low Power Design for Easy Installation

Innovation: Robust IP Data, including GPS and Text Messages
Sealevel’s Contribution: USB to Synchronous Adapter

MagellanNAV1000_CourtesyScienceMuseumOrgukThe past 30 years have seen an insurgence of IP data, namely the development of GPS devices and the use of text messages for communication. And, while technically older than 30, email has evolved significantly in the same time frame.

The first consumer handheld GPS device, the Magellan NAV 1000, made its debut in 1989. It weighed approximately 1.5 pounds and sold for $3,000. Features included a text display and the ability to store up to 100 waypoints in memory, but it only allowed for one available route.

“Merry Christmas.” This simple greeting, sent on December 3, 1992, was the first text message. In 1995, each user was sending an average of 0.4 messages per month. In 2013, that number ranged from 244 to 1,831 depending on user age.

These and other data developments exist only because of and rely upon connectivity. Anyone that has depleted their data and can’t connect to a Wi-Fi source would heartily agree. But what about more specific connectivity needs? The U.S. military relies on a variety of tactical radios to provide data communications and situational awareness and it is often difficult to achieve interoperability. Sealevel Systems partnered with the Defense Information Systems Agency (DISA) to develop the ACC-188, an interoperable USB to synchronous adapter. Paired with DISA’s PDA-184 software, the adapter enables PC compatible computers to connect to tactical radios to transmit and receive the very GPS data and text messages referenced here, along with a host of other IP data items including emails, images, and coordinates. Specifications included:

  • USB Interface to Synchronous RS-232 (MIL-STD-199-184 Waveform)
  • Data Rates to 76K
  • Hot Swappable
  • Low Power (<0.3W)
  • Shielded to Protect from RF Interference
  • Small and Lightweight for Easy Portability
  • Resistant to Liquid, Dust, and Dirt

A favorite mantra at Sealevel is “the challenge is as satisfying as the solution.” We’ve accepted the challenges that innovation has presented over the past 30 years and are more excited than ever about meeting the challenges of the next 30 years and beyond.

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