ST72561AR7 STMicroelectronics, ST72561AR7 Datasheet - Page 103

ST72561AR7

Manufacturer Part Number

ST72561AR7

Description

8-bit MCU

Manufacturer

STMicroelectronics

Datasheet

1.ST72561R9.pdf (265 pages)

Specifications of ST72561AR7

Hdflash Endurance

100 cycles, data retention 40 years at 85°C

5 Power Saving Modes

Halt, Auto Wake Up From Halt, Active Halt, Wait and Slow

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8-BIT TIMER (Cont’d)

10.5.3.5 Pulse Width Modulation Mode

Pulse Width Modulation (PWM) mode enables the

generation of a signal with a frequency and pulse

length determined by the value of the OC1R and

OC2R registers.

Pulse Width Modulation mode uses the complete

Output Compare 1 function plus the OC2R regis-

ter, and so this functionality can not be used when

PWM mode is activated.

In PWM mode, double buffering is implemented on

the output compare registers. Any new values writ-

ten in the OC1R and OC2R registers are taken

into account only at the end of the PWM period

(OC2) to avoid spikes on the PWM output pin

(OCMP1).

Procedure

To use pulse width modulation mode:

1. Load the OC2R register with the value corre-

2. Load the OC1R register with the value corre-

3. Select the following in the CR1 register:

4. Select the following in the CR2 register:

sponding to the period of the signal using the

formula in the opposite column.

sponding to the period of the pulse if

(OLVL1 = 0 and OLVL2 = 1) using the formula

in the opposite column.

– Using the OLVL1 bit, select the level to be ap-

– Using the OLVL2 bit, select the level to be ap-

– Set OC1E bit: the OCMP1 pin is then dedicat-

– Set the PWM bit.

– Select the timer clock (CC[1:0]) (see

plied to the OCMP1 pin after a successful

comparison with the OC1R register.

plied to the OCMP1 pin after a successful

comparison with the OC2R register.

ed to the output compare 1 function.

Clock Control

Counter

= OC1R

Counter

= OC2R

When

Bits).

Pulse Width Modulation cycle

OCMP1 = OLVL2

OCMP1 = OLVL1

Counter is reset

ICF1 bit is set

to FCh

Table 19

If OLVL1 = 1 and OLVL2 = 0 the length of the pos-

itive pulse is the difference between the OC2R and

OC1R registers.

If OLVL1 = OLVL2 a continuous signal will be

seen on the OCMP1 pin.

The OC

ing application can be calculated using the follow-

ing formula:

Where:

PRESC

The Output Compare 2 event causes the counter

to be initialized to FCh (See

Notes:

1. The OCF1 and OCF2 bits cannot be set by

2. The ICF1 bit is set by hardware when the coun-

3. In PWM mode the ICAP1 pin can not be used

4. When the Pulse Width Modulation (PWM) and

CPU

hardware in PWM mode therefore the Output

Compare interrupt is inhibited.

ter reaches the OC2R value and can produce a

timer interrupt if the ICIE bit is set and the I bit is

cleared.

to perform input capture because it is discon-

nected to the timer. The ICAP2 pin can be used

to perform input capture (ICF2 can be set and

IC2R can be loaded) but the user must take

care that the counter is reset each period and

ICF1 can also generates interrupt if ICIE is set.

One Pulse Mode (OPM) bits are both set, the

PWM mode is the only active one.

= Signal or pulse period (in seconds)

= PLL output x2 clock frequency in hertz

= Timer prescaler factor (2, 4, 8 or 8000

R register value required for a specific tim-

OCiR Value =

(or f

depending on CC[1:0] bits, see

19 Clock Control

OSC

/2 if PLL is not enabled)

PRESC

Bits)

Figure

CPU

69)

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Specifications of ST72561AR7

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