XE162FL, XE162HL
XE166 Family / Econo Line
Functional Des cription
Data Sheet 38 V1.1, 2011-09
3.9 General Purpose Timer (GPT12E) Unit
The GPT12E unit is a very flexible multif unctional timer/counter structu re which ca n be
used for many different timing tasks such as event timing and counting, pulse width and
duty cycle measurements, pulse generatio n, or pulse multiplication.
The GPT12E unit incorporates five 16-bit timers organized in two separate modules,
GPT1 and GPT2. Each timer in each module may either operate independently in a
number of different modes or be concatenated with another timer of the same module.
Each of the three timers T2, T3, T4 of module GPT1 can be configured individually for
one of four basic modes of operation: Timer, Gated Timer, Counter, and Incremental
Interface Mode. In Timer Mode, the input clock for a timer is derived from the system
clock and divided by a programmab le prescale r. C ounter Mo de a llows timer clocki ng i n
reference to external events.
Pulse width or duty cycle measurement is supported in Gated Timer Mode, where the
operation of a timer is control led by the ‘gate’ level on an e xternal input pin. Fo r these
purposes each timer has one associated port pin (TxIN) which serves as a gate or clock
input. The maximum resolution of the timers in module GPT1 is 4 system clock cycles.
The counting direction (up/down) for each timer can be programmed by software or
altered dynamically by an external signal on a port pin (TxEUD), e.g. to facilitate position
tracking.
In Incremental Interface Mode the GPT1 timers can be directly connected to the
incremental position sensor signals A and B through their respective inputs TxIN and
TxEUD. Direction and counting signals are internally derived from these two input
signals, so that the contents of the respective timer Tx corresponds to the sensor
position. The third position sensor signal T OP0 can be connected to an interrupt input.
Timer T3 has an output toggle latch (T3OTL) which changes its state on each timer
overflow/underflow. The state of this latch may be output on pin T3OUT e.g. for time out
monitoring of external hardware components. It may also be used internally to clock
timers T2 and T4 for measuring long time periods with high resolution.
In addition to the basic operating modes, T2 and T4 may be configured as reload or
capture register for timer T3. A timer used as capture or reload register is stopped. Th e
contents of timer T3 is captured into T2 or T 4 in response to a sign al at the associated
input pin (TxIN). Timer T3 is re loaded with th e contents of T2 or T4, trigge red either by
an external signal or a selectab le state transition of its toggle latch T3OTL. When both
T2 and T4 are configured to alternately reload T3 on opposite state transitions of T3OTL
with the low and high times of a PWM signal, this signal can be con tinuously generated
without software intervention.
Note: Signals T2IN, T2EUD, T4EUD, T6IN and T6EUD are not connected to pins.