Capabilities and Areas of Expertise

Military Capabilities

Hollis Controls personnel have successfully designed:

  • Power Systems per MIL-STD-704x, MIL-STD-1275x and MIL-STD-1399
  • EMI/EMC per MIL-STD-461x
  • Packaging that meets MIL-STD-810, including gunfire
  • Packaging that meets MIL-S-901, including 300G barge test
  • MTBF per MIL-HDBK-217x

Application environments include:

  • Ground Vehicle, Missile Silo and Soldier Wearable
  • Submarine and Surface Ships
  • Fixed and Rotary Wing Aircraft, Manned and Unmanned
  • Space and High Altitude Vehicles Including Missile Launch

Industrial Capabilities

Hollis Controls personnel have successfully designed:

  • Industrial power systems per UL60959/EN60950
  • Aircraft power per DO-160 and Airbus specifications
  • Railroad power systems per IEC/EN 50155
  • Commercial and industrial power systems per IEC/EN 61000-3 and -4
  • EMI/EMC compliance per FCC Part 15, CISPR 22 and IEC/EN 50121

Application environments include:

  • Factory floor equipment, including Class 1, Division 1 and 2
  • Railroad trackĀ and locomotive equipment
  • Hybrid vehicle equipment
  • Commercial and private aircraft

Hollis Delivers Tethered Power System for UAS App

Building upon its experience in military power systems, Hollis Controls has delivered a tethered power system that provides unlimited flight time within the range of the tether. The system generates a high DC voltage from an AC power source on the ground and sends it up the tether to the UAS where the high voltage is converted back to the required operating voltage(s). The system is optimized to reduce the weight of the tether and any inefficiencies in voltage conversion. The airborne portion of the power system can weigh less than the batteries it replaces.

For more information about Hollis Controls’ capabilities in this application, contact our Sales Department.

Development Tools

Hollis Controls personnel are experts in using:

  • OrCAD for schematic capture
  • SolidWorks for mechanical design
  • PADS for PCB layout
  • Cool-it for thermal modeling
  • SolidWorks Simulation for shock and vibration analysis
  • Psplice for circuit analysis
  • Programming languages and development systems as appropriate
  • Microsoft Office as appropriate

Conversions to other formats are availableĀ upon request.