MC9S08QE16CLC Datasheet, PDF(271/350 Page) Freescale Semiconductor, Inc – Low-power wireless applications, Gas, water and heater meters

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MC9S08QE16CLC Datasheet, PDF (271/350 Pages) Freescale Semiconductor, Inc – Low-power wireless applications, Gas, water and heater meters

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Timer/PWM Module (S08TPMV3)

â¢ If (CLKSB:CLKSA = 0:0), then the registers are updated when the second byte is written.

â¢ If (CLKSB:CLKSA not = 0:0 and in output compare mode) then the registers are updated after the

second byte is written and on the next change of the TPM counter (end of the prescaler counting).

â¢ If (CLKSB:CLKSA not = 0:0 and in EPWM or CPWM modes), then the registers are updated after

the both bytes were written, and the TPM counter changes from (TPMxMODH:TPMxMODL - 1)

to (TPMxMODH:TPMxMODL). If the TPM counter is a free-running counter then the update is

made when the TPM counter changes from 0xFFFE to 0xFFFF.

The latching mechanism may be manually reset by writing to the TPMxCnSC register (whether BDM

mode is active or not). This latching mechanism allows coherent 16-bit writes in either big-endian or

little-endian order which is friendly to various compiler implementations.

When BDM is active, the coherency mechanism is frozen such that the buffer latches remain in the state

they were in when the BDM became active even if one or both halves of the channel register are written

while BDM is active. Any write to the channel registers bypasses the buffer latches and directly write to

the channel register while BDM is active. The values written to the channel register while BDM is active

are used for PWM & output compare operation once normal execution resumes. Writes to the channel

registers while BDM is active do not interfere with partial completion of a coherency sequence. After the

coherency mechanism has been fully exercised, the channel registers are updated using the buffered values

written (while BDM was not active) by the user.

15.6 Functional Description

All TPM functions are associated with a central 16-bit counter which allows flexible selection of the clock

source and prescale factor. There is also a 16-bit modulo register associated with the main counter.

The CPWMS control bit chooses between center-aligned PWM operation for all channels in the TPM

(CPWMS=1) or general purpose timing functions (CPWMS=0) where each channel can independently be

configured to operate in input capture, output compare, or edge-aligned PWM mode. The CPWMS control

bit is located in the main TPM status and control register because it affects all channels within the TPM

and influences the way the main counter operates. (In CPWM mode, the counter changes to an up/down

mode rather than the up-counting mode used for general purpose timer functions.)

The following sections describe the main counter and each of the timer operating modes (input capture,

output compare, edge-aligned PWM, and center-aligned PWM). Because details of pin operation and

interrupt activity depend upon the operating mode, these topics will be covered in the associated mode

explanation sections.

15.6.1 Counter

All timer functions are based on the main 16-bit counter (TPMxCNTH:TPMxCNTL). This section

discusses selection of the clock source, end-of-count overflow, up-counting vs. up/down counting, and

manual counter reset.

MC9S08AC60 Series Data Sheet, Rev. 3

Freescale Semiconductor

271

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