III PERIPHERAL BLOCK: 16-BIT PROGRAMMABLE TIMERS
B-III-4-24 EPSON S1C33210 FUNCTION PART
F16TUx and F16TCx are the interrupt factor flags corresponding to the comparison B and comparison A interrupts,
respectively. The flag is set to "1" when each interrupt factor occurs.
At this time, if the following conditions are met, an interrupt to the CPU is generated:
1. The corresponding interrupt enable register bit is set to "1".
2. No other interrupt request of a higher priority has been generated.
3. The PSR's IE bit is set to "1" (interrupts enabled).
4. The value set in the corresponding interrupt priority register is higher than the CPU's interrupt level (IL).
When using the interrupt factor of the 16-bit programmable timer to request IDMA, note that even when the above
conditions are met, no interrupt request to the CPU is generated for the interrupt factor that has occurred. If
interrupts are enabled at the setting of IDMA, an interrupt is generated under the above conditions after the data
transfer by IDMA is completed.
The interrupt factor flag is set to "1" whenever interrupt generation conditions are met, regardless of how the
interrupt enable and interrupt priority registers are set.
If the next interrupt is to be accepted after an interrupt has occurred, it is necessary that the interrupt factor flag be
reset, and that the PSR be set again (by setting the IE bit to "1" after setting the IL to a value lower than the level
indicated by the interrupt priority register, or by executing the reti instruction).
The interrupt factor flag can be reset only by writing to it in the software. Note that if the PSR is set again to accept
interrupts generated (or if the reti instruction is executed) without resetting the interrupt factor flag, the same
interrupt occurs again. Note also that the value to be written to reset the flag is "1" when the reset-only method
(RSTONLY = "1") is used, and "0" when the read/write method (RSTONLY = "0") is used.
At initial reset, all these flags become indeterminate, so be sure to reset them in the software.
R16TU0, R16TC0: Timer 0 IDMA request (D6, D7) /
Port input 0–3, HSDMA, 16-bit timer 0 IDMA request register (0x40290)
R16TU1, R16TC1: Timer 1 IDMA request (D0, D1) / 16-bit timer 1–4 IDMA request register (0x40291)
R16TU2, R16TC2: Timer 2 IDMA request (D2, D3) / 16-bit timer 1–4 IDMA request register (0x40291)
R16TU3, R16TC3: Timer 3 IDMA request (D4, D5) / 16-bit timer 1–4 IDMA request register (0x40291)
R16TU4, R16TC4: Timer 4 IDMA request (D6, D7) / 16-bit timer 1–4 IDMA request register (0x40291)
R16TU5, R16TC5: Timer 5 IDMA request (D0, D1) /
16-bit timer 5, 8-bit timer, serial I/F Ch.0 IDMA request register (0x40292)
Specifies whether to invoke IDMA when an interrupt factor occurs.
When using the set-only method (default)
Write "1": IDMA request
Write "0": Not changed
Read: Valid
When using the read/write method
Write "1": IDMA request
Write "0": Interrupt request
Read: Valid
R16TUx and R16TCx are IDMA request bits corresponding to the comparison B and comparison A interrupt
factors, respectively. When the bit is set to "1", IDMA is invoked when the interrupt factor occurs, thereby
performing programmed data transfers. When the register is set to "0", normal interrupt processing is performed and
IDMA is not invoked. For details on IDMA, refer to "IDMA (Intelligent DMA)".
At initial reset, these bits are set to "0" (interrupt request).