C8051F336_08 Datasheet, PDF(211/227 Page) Silicon Laboratories – Mixed-Signal Byte-Programmable EPROM MCU

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C8051F336_08 Datasheet, PDF (211/227 Pages) Silicon Laboratories – Mixed-Signal Byte-Programmable EPROM MCU

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C8051F336/7/8/9

25.3.5.2. 9/10/11-bit Pulse Width Modulator Mode

The duty cycle of the PWM output signal in 9/10/11-bit PWM mode should be varied by writing to an âAuto-

Reloadâ Register, which is dual-mapped into the PCA0CPHn and PCA0CPLn register locations. The data

written to define the duty cycle should be right-justified in the registers. The auto-reload registers are

accessed (read or written) when the bit ARSEL in PCA0PWM is set to 1. The capture/compare registers

are accessed when ARSEL is set to 0.

When the least-significant N bits of the PCA0 counter match the value in the associated moduleâs cap-

ture/compare register (PCA0CPn), the output on CEXn is asserted high. When the counter overflows from

the Nth bit, CEXn is asserted low (see Figure 25.9). Upon an overflow from the Nth bit, the COVF flag is

set, and the value stored in the moduleâs auto-reload register is loaded into the capture/compare register.

The value of N is determined by the CLSEL bits in register PCA0PWM.

The 9, 10 or 11-bit PWM mode is selected by setting the ECOMn and PWMn bits in the PCA0CPMn regis-

ter, and setting the CLSEL bits in register PCA0PWM to the desired cycle length (other than 8-bits). If the

MATn bit is set to 1, the CCFn flag for the module will be set each time a comparator match (rising edge)

occurs. The COVF flag in PCA0PWM can be used to detect the overflow (falling edge), which will occur

every 512 (9-bit), 1024 (10-bit) or 2048 (11-bit) PCA clock cycles. The duty cycle for 9/10/11-Bit PWM

Mode is given in Equation 25.2, where N is the number of bits in the PWM cycle.

Important Note About PCA0CPHn and PCA0CPLn Registers: When writing a 16-bit value to the

PCA0CPn registers, the low byte should always be written first. Writing to PCA0CPLn clears the ECOMn

bit to 0; writing to PCA0CPHn sets ECOMn to 1.

Duty Cycle = (---2---N-----â----P----C-----A----0---C----P----n----)

2N

Equation 25.3. 9, 10, and 11-Bit PWM Duty Cycle

A 0% duty cycle may be generated by clearing the ECOMn bit to 0.

Write to

PCA0CPLn

0

ENB

Reset

Write to

PCA0CPHn ENB

1

PCA0CPMn

PECCMT PE

WC A A A O WC

MO P P T GMC

1 MPN n n n F

6nnn

n

n

0 00x0 x

R/W when

ARSEL = 1

(Auto-Reload)

PCA0CPH:Ln

(right-justified)

R/W when

ARSEL = 0

(Capture/Compare)

PCA0CPH:Ln

(right-justified)

Enable N-bit Comparator

PCA0PWM

AEC

CC

RCO

LL

SOV

SS

EVF

EE

L

LL

10

x

Set âNâ bits:

01 = 9 bits

10 = 10 bits

11 = 11 bits

match S SET Q CEXn Crossbar

R CLR Q

PCA Timebase

PCA0H:L

Overflow of Nth Bit

Figure 25.9. PCA 9, 10 and 11-Bit PWM Mode Diagram

Port I/O

Rev.1.0

211

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