DRIVING CONDITION SENSOR

Brand Owner (click to sort) Address Description
HIGHWAY PRO THE TRUCKER'S EDGE. Sprague Controls, Inc. 1140 N.W. 3rd Avenue Canby OR 97013 DRIVING CONDITION SENSOR IN THE FORM OF AN ELECTRONIC ROAD SURFACE TEMPERATURE SENSING/WARNING/INDICATING/MESSAGING DEVICE; VEHICLE MONITOR SYSTEMS COMPRISED OF SMOKE DETECTORS, HEAT DETECTORS, ATMOSPHERE MONITORS, AND INTRUSION DETECTORS FOR SAFETY, SECURITY, FIRE DETECTION, SMOKE DETECTION;SHIRTS AND HATS;HIGHWAY PRO THE TRUCKERS EDGE;TRUCK PARTS, NAMELY REAR VIEW MIRRORS, REMOTE CONTROL REAR VIEW MIRRORS, SWITCHES, LINKAGES AND PIVOT ASSEMBLIES, WIPER MOTORS, WIPER ARMS, WIPER CONTROLS; AUTO PARTS, NAMELY REAR VIEW MIRRORS, REMOTE CONTROL REAR VIEW MIRRORS, SWITCHES, LINKAGES AND PIVOT ASSEMBLIES, WIPER MOTORS, WIPER ARMS, WIPER CONTROLS; VEHICLE ACCESSORIES AND CONTROLS, NAMELY, REAR VIEW MIRROR AND VISION SYSTEMS COMPRISED OF MIRRORS, REMOTE CONTROL MIRRORS, SWITCHES, LINKAGES AND PIVOT ASSEMBLIES, WIPER MOTORS, WIPER ARMS, WIPER CONTROLS; HEADLIGHT AND HEADLAMP CLEANERS AND WIPERS FOR VEHICLES;HIGHWAY and TRUCKERS;
ROADWATCH CVG SPRAGUE DEVICES 7800 Walton Parkway New Albany OH 43054 driving condition sensor in the form of an electronic road surface temperature sensing/warning device;ROAD WATCH;
ROADWATCH COMMERCIAL VEHICLE SYSTEMS, INC 171 GREAT OAK DRIVE CANTON NC 28716 driving condition sensor in the form of an electronic road surface temperature sensing/warning device;ROAD WATCH;
ROADWATCH SPRAGUE DEVICES, INC. 527 W. US Highway 20 Michigan City IN 46360 driving condition sensor in the form of an electronic road surface temperature sensing/warning device;ROAD WATCH;
ROADWATCH 3 SPRAGUE DEVICES, INC. 527 W. US Highway 20 Michigan City IN 46360 driving condition sensor in the form of an electronic road surface temperature sensing/warning device;ROAD WATCH 3;
 

Where the owner name is not linked, that owner no longer owns the brand

   
Technical Examples
  1. The driving method of the present invention is a driving method to drive a stepping motor driven by a predetermined driving pulse, by the servo driving method, and is characterized in that a predetermined sampling period is set, and the generation condition of the driving pulse to drive the stepping motor is set at the sampling periods. Thereby, the stepping motor can be driven while the most suitable driving condition is determined at the predetermined sampling periods. That is, since the driving condition of the stepping motor can be changed at the sampling periods, even when the stepping motor driven by the driving pulse is the driving source, appropriate servo control can be realized.