![]() * In blanking mode, zeroes will be written on the output pins when the trigger pin Any input character (which will be processed) will stop ![]() * patterns set with function 6, the pattern will be repeated for the number of times * output pins with intervals (in ms) as set with function 10. * In timed trigger mode, digital patterns as set with function 5 will appear on the * This value will be used in timed-trigger mode and sets how often the output * Sets how often the timed pattern will be repeated: 11x * and tt is the interval (in ms) in Arduino unsigned int format. * Where x is the number of the interval (currently, 12 intervals can be stored) * Set time interval for timed trigger mode: 10xtt * Controller will return 9x where x is the number of triggers received during the last Trigger mode will stop blanking mode (if it was active) * Stop triggered mode by sending any key (including new commands, that will be * Controller will return 8 to indicate start of triggered mode * Where x indicates how many digital change events on the trigger input pin * the controller will re-start the sequence with the first pattern. In triggered mode, after reaching this many triggers, * Where x indicates how many digital patterns will be used (currently, up to 12 * Set the Number of digital patterns to be used: 6x * be the real number (i.e., not ASCI encoded) * and d is the digital pattern to be stored at that position. * Where x is the number of the pattern (currently, 12 patterns can be stored). * Set digital patten for triggered mode: 5xd * Where x is the output channel (either 1 or 2), and vv is the output in a Where p is the current digital output pattern * Where p is the desired digital pattern. Bits 7 and 8 will not be used (and should stay 0). * digital pattern specification: single byte, bit 0 corresponds to pin 8, * generated at these specified time points (timed trigger mode). * Third, intervals between consecutive patterns can be specified and paterns will be * Arduino and TTLs coming in on pin 2 will then trigger to the consecutive pattern (trigger mode). Second, a series of patterns can be stored in the ![]() * This can be accomplished in three ways. * This goal of the application is to set the digital output on pins 8-13 I am a complete newbie to micromanager, I found some code they are posted below. Hello everyone I need someone to help me understand how can i use the micromanager to control a stepper motor for rotating a grating of a monochromator. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. Archives
March 2023
Categories |