Lines Matching +full:level +full:- +full:low
3 Contact: linux-[email protected]
11 Contact: linux-[email protected]
16 MTCLKA-MTCLKB:
20 MTCLKC-MTCLKD:
26 Contact: linux-[email protected]
33 Contact: linux-[email protected]
39 Contact: linux-[email protected]
45 Contact: linux-[email protected]
52 Contact: linux-[email protected]
59 Contact: linux-[email protected]
78 non-recycle:
80 underflow takes place. The counter is re-enabled when a
84 modulo-n:
94 The output signal is initially low, and will remain low
99 hardware retriggerable one-shot:
101 will go low by a trigger input signal, and will remain
102 low until the counter reaches zero. The output will then
105 value and setting the output signal low, thus starting
106 the one-shot pulse.
110 has decremented to 1, the output signal goes low for one
127 the count expires, the output signal goes low and the
136 expires, the output will go low for one clock pulse and
143 output signal will go low for one clock pulse and then
153 Contact: linux-[email protected]
161 Contact: linux-[email protected]
163 Read-only attribute that indicates the count direction of Count
174 Contact: linux-[email protected]
188 Contact: linux-[email protected]
190 Read-only attribute that indicates whether excessive noise is
195 Contact: linux-[email protected]
207 pulse-direction:
209 The input level of signal B determines direction.
242 Contact: linux-[email protected]
244 Read-only attribute that indicates the device-specific name of
250 Contact: linux-[email protected]
259 Contact: linux-[email protected]
261 If the counter device supports preset registers -- registers
262 used to load counter channels to a set count upon device-defined
263 preset operation trigger events -- the preset count for channel
268 Contact: linux-[email protected]
275 Contact: linux-[email protected]
284 Pulse-Direction count function mode, this Signal is
288 Low state transitions to high state.
291 High state transitions to low state.
298 Contact: linux-[email protected]
324 Contact: linux-[email protected]
326 Read-only attribute that indicates the component ID of the
331 Contact: linux-[email protected]
340 Contact: linux-[email protected]
344 rounded-up to a power of 2.
348 Contact: linux-[email protected]
350 Read-only attribute that indicates the device-specific name of
356 Contact: linux-[email protected]
358 Read-only attribute that indicates the total number of Counts
363 Contact: linux-[email protected]
365 Read-only attribute that indicates the total number of Signals
370 Contact: linux-[email protected]
372 Read-only attribute that indicates whether a differential
380 Contact: linux-[email protected]
388 Contact: linux-[email protected]
395 Contact: linux-[email protected]
397 Active level of index input Signal Y; irrelevant in
398 non-synchronous load mode.
403 Contact: linux-[email protected]
410 Contact: linux-[email protected]
412 Active level of Signal Y. The following polarity values are
416 Signal high state considered active level (rising edge).
419 Signal low state considered active level (falling edge).
423 Contact: linux-[email protected]
425 Read-only attribute that indicates the device-specific name of
431 Contact: linux-[email protected]
433 Signal level state of Signal Y. The following signal level
436 low:
437 Low level state.
440 High level state.
444 Contact: linux-[email protected]
447 non-synchronous or synchronous load mode. Synchronous load mode
448 cannot be selected in non-quadrature (Pulse-Direction) clock
451 non-synchronous:
452 A logic low level is the active level at this index
454 is performed directly on the active level of the index
459 quadrature clock mode. The active level is configured
462 quadrature clock on the active level of the index input.
466 Contact: linux-[email protected]
468 Read-only attribute that indicates the signal Y frequency, in Hz.