Datasheet

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Section 9 Timers

Rev. 6.00 Aug 04, 2006 page 306 of 680

REJ09B0145-0600

6. Timer G Operation Modes

Timer G operation modes are shown in table 9.13.

Table 9.13 Timer G Operation Modes

Operation Mode Reset Active Sleep Watch Subactive Subsleep Standby

Module

Standby

TCG Input capture Reset Functions* Functions* Functions/

halted*

Functions/

halted*

Functions/

halted*

Halted Halted

Interval Reset Functions* Functions* Functions/

halted*

Functions/

halted*

Functions/

halted*

Halted Halted

ICRGF Reset Functions* Functions* Functions/

halted*

Functions/

halted*

Functions/

halted*

Held Held

ICRGR Reset Functions* Functions* Functions/

halted*

Functions/

halted*

Functions/

halted*

Held Held

TMG Reset Functions Held Held Functions Held Held Held

Note: * When φw/4 is selected as the TCG internal clock in active mode or sleep mode, since

the system clock and internal clock are mutually asynchronous, synchronization is

maintained by a synchronization circuit. This results in a maximum count cycle error of

1/φ (s). When φw/4 is selected as the TCG internal clock in watch mode, TCG and the

noise canceler operate on the φw/4 internal clock without regard to the φ subclock

(φw/8, φw/4, φw/2). Note that when another internal clock is selected, TCG and the

noise canceler do not operate, and input of the input capture input signal does not result

in input capture.

To operate the timer G in subactive mode or subsleep mode, select φw/4 as the TCG

internal clock and φw/2 as the subclock φ

SUB

. Note that when other internal clock is

selected, or when φw/8 or φw/4 is selected as the subclock φ

SUB

, TCG and the noise

canceler do not operate.

9.5.5 Application Notes

1. Internal Clock Switching and TCG Operation

Depending on the timing, TCG may be incremented by a switch between difference internal clock

sources. Table 9.14 shows the relation between internal clock switchover timing (by write to bits

CKS1 and CKS0) and TCG operation.

When TCG is internally clocked, an increment pulse is generated on detection of the falling edge

of an internal clock signal, which is divided from the system clock (φ) or subclock (φw). For this

reason, in a case like No. 3 in table 9.14 where the switch is from a high clock signal to a low

clock signal, the switchover is seen as a falling edge, causing TCG to increment.