MIL-STD-810 Rugged Tablet PC Platforms

The following is a list of Estone Technology rugged military grade tablet ODM platforms:

Drop RatingMIL-STD-810G, 4ft to Plywood
Shock RatingMIL-STD-810G, Method 516.6
Vibration RatingMIL-STD-810G, Method 514.6

Drop RatingMIL-STD-810G, 4ft to Concrete
Shock RatingMIL-STD-810G, Method 516.6,
Vibration RatingMIL-STD-810G, Method 514.6

What Is Military Standard 810G and 810H?

Military tablet PCs and rugged military grade tablets go through a series of testing to ensure their ruggedness. MIL-STD-810 is the United States Department of Defense military standard for test specifications of environmental conditions for equipment.  This military standard has been developed for use of DoD applications and adopted to commercial standards.  Its inception began in 1967 and has progressed with new revisions periodically.

The most commonly referenced standard is MIL-STD-810G which was released in 2008.  As of 2019, the latest standard is MIL-STD-810H.  These revisions contain updates and additional criteria for test facilities and environmental tests.

There are 29 methods total, each describing an environmental element to be tested in a laboratory environment.  This document also describes how the test should be conducted and the parameters of the test.

Military Grade Tablet PC Testing

The 29 test methods included in MIL-STD-810 are:

Testing equipment for military tablet pc
  1. Method 500 – Low Pressure (Altitude)
  2. Method 501 – High Temperature
  3. Method 502 – Low Temperature
  4. Method 503 – Temperature Shock
  5. Method 504 – Contamination by Fluids
  6. Method 505 – Solar Radiation (Sunshine)
  7. Method 506 – Rain
  8. Method 507 – Humidity
  9. Method 508 – Fungus
  10. Method 509 – Salt Fog
  11. Method 510 – Sand and Dust
  12. Method 511 – Explosive Atmosphere
  13. Method 512 – Immersion
  14. Method 513 – Acceleration
  15. Method 514 – Vibration
  16. Method 515 – Acoustic Noise
  17. Method 516 – Shock
  18. Method 517 – Pyroshock
  19. Method 518 – Acidic Atmosphere
  20. Method 519 – Gunfire Shock
  21. Method 520 – Temperature, Humidity, Vibration, and Altitude
  22. Method 521 – Icing/Freezing Rain
  23. Method 522 – Ballistic Shock
  24. Method 523 – Vibro-Acoustic/Temperature
  25. Method 524 – Freeze / Thaw
  26. Method 525 – Time Waveform Replication
  27. Method 526 – Rail Impact
  28. Method 527 – Multi-Exciter
  29. Method 528 – Mechanical Vibrations of Shipboard Equipment (Type I – Environmental and Type II – Internally Excited)

The most commonly referenced method to test a rugged military grade tablet PC is the drop test.  In the MIL-STD-810 standard pdf, this test is referred to as method 516.6 procedure IV in MIL-STD-810G and method 516.8 procedure IV in MIL-STD-810H.  This is part of the shock test which has 7 different procedures:

  1. Procedure I: Functional Shock 
  2. Procedure II: Transportation Shock
  3. Procedure III: Fragility
  4. Procedure IV: Transit Drop
  5. Procedure V: Crash Hazard Shock Test
  6. Procedure VI: Bench Handling
  7. Procedure VII: Pendulum Impact
  8. Procedure VIII: Catapult Launch/Arrested Landing

Comparing MIL-STD-810G and MIL-STD-810H Drop for Military Tablet PC Testing

From 2008-19, the test and evaluation standard for rugged military grade tablet PCs has been method 516.6 procedure IV.  This testing standard describes the test method for mobile computer equipment as a drop on to two-inch thick plywood with a concrete backing.  This includes a total of 26 drops of each face, edge and corner from a high of 4 feet.

When MIL-STD-810H was released in 2019, the method for the shock test was updated to 516.8 while the drop test remained procedure IV.  The standard for the test has been updated from a drop on plywood, to a drop onto concrete-backed steel.  The height has also been increased from 4 feet to 5 feet.

Rugged Military Computer Manufacturer

Military Tablet PC Platforms

Estone technology has developed several high performance military grade tablet PC platforms.  All of our rugged tablet PC platforms have passed the 810G drop standard and our future products are being tested in compliance with the 810H drop standard.  

Our design and test specifications are not limited to the drop test.  Many of our platforms are tested beyond the widely accepted drop test, even if not indicated.