MC68HC08GZ32 Datasheet, PDF(264/320 Page) Freescale Semiconductor, Inc – Microcontrollers

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MC68HC08GZ32 Datasheet, PDF (264/320 Pages) Freescale Semiconductor, Inc – Microcontrollers

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Timer Interface Module (TIM2)

As Figure 19-4 shows, the output compare value in the TIM2 channel registers determines the pulse width

of the PWM signal. The time between overflow and output compare is the pulse width. Program the TIM2

to clear the channel pin on output compare if the polarity of the PWM pulse is 1 *ELSxA = 0). Program

the TIM2 to set the pin if the polarity of the PWM pulse is 0 (ELSxA = 1).

OVERFLOW

OVERFLOW

OVERFLOW

POLARITY = 1

(ELSxA = 0) TCHx

POLARITY = 0

(ELSxA = 1) TCHx

PERIOD

PULSE

WIDTH

OUTPUT

COMPARE

OUTPUT

COMPARE

OUTPUT

COMPARE

Figure 19-4. PWM Period and Pulse Width

The value in the TIM2 counter modulo registers and the selected prescaler output determines the

frequency of the PWM output. The frequency of an 8-bit PWM signal is variable in 256 increments. Writing

$00FF (255) to the TIM2 counter modulo registers produces a PWM period of 256 times the internal bus

clock period if the prescaler select value is 000 (see 19.8.1 TIM2 Status and Control Register).

The value in the TIM2 channel registers determines the pulse width of the PWM output. The pulse width

of an 8-bit PWM signal is variable in 256 increments. Writing $0080 (128) to the TIM2 channel registers

produces a duty cycle of 128/256 or 50%.

19.3.4.1 Unbuffered PWM Signal Generation

Any output compare channel can generate unbuffered PWM pulses as described in 19.3.4 Pulse Width

Modulation (PWM). The pulses are unbuffered because changing the pulse width requires writing the new

pulse width value over the value currently in the TIM2 channel registers.

An unsynchronized write to the TIM2 channel registers to change a pulse width value could cause

incorrect operation for up to two PWM periods. For example, writing a new value before the counter

reaches the old value but after the counter reaches the new value prevents any compare during that PWM

period. Also, using a TIM2 overflow interrupt routine to write a new, smaller pulse width value may cause

the compare to be missed. The TIM2 may pass the new value before it is written to the timer channel

(T2CHxH:T2CHxL) registers.

Use the following methods to synchronize unbuffered changes in the PWM pulse width on channel x:

â¢ When changing to a shorter pulse width, enable channel x output compare interrupts and write the

new value in the output compare interrupt routine. The output compare interrupt occurs at the end

of the current pulse. The interrupt routine has until the end of the PWM period to write the new

value.

â¢ When changing to a longer pulse width, enable TIM2 overflow interrupts and write the new value

in the TIM2 overflow interrupt routine. The TIM2 overflow interrupt occurs at the end of the current

PWM period. Writing a larger value in an output compare interrupt routine (at the end of the current

pulse) could cause two output compares to occur in the same PWM period.

MC68HC08GZ32 Data Sheet, Rev. 3

264

Freescale Semiconductor

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