S9S12GN32F0VLF Freescale Semiconductor, S9S12GN32F0VLF Datasheet - Page 659

S9S12GN32F0VLF

Manufacturer Part Number

S9S12GN32F0VLF

Description

16-bit Microcontrollers - MCU 16-bit32k Flash 2k RAM

Manufacturer

Freescale Semiconductor

Datasheet

1.S9S12G96F0CLL.pdf (1292 pages)

Specifications of S9S12GN32F0VLF

Rohs

yes

Core

S12

Processor Series

MC9S12G

Data Bus Width

16 bit

Maximum Clock Frequency

25 MHz

Program Memory Size

32 KB

Data Ram Size

2048 B

On-chip Adc

Yes

Operating Supply Voltage

3.13 V to 5.5 V

Operating Temperature Range

- 40 C to + 85 C

Package / Case

TSSOP-20

Mounting Style

SMD/SMT

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

S9S12GN32F0VLF

Manufacturer:

Freescale Semiconductor

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

S9S12GN32F0VLFR

Manufacturer:

FREESCALE

Quantity:

20 000

Current page: 659 of 1292
Download datasheet (5Mb)

19.4.2.6

For center aligned output mode selection, set the CAEx bit (CAEx = 1) in the PWMCAE register and the

corresponding PWM output will be center aligned.

The 8-bit counter operates as an up/down counter in this mode and is set to up whenever the counter is

equal to $00. The counter compares to two registers, a duty register and a period register as shown in the

block diagram in

changes state, causing the PWM waveform to also change state. A match between the PWM counter and

the period register changes the counter direction from an up-count to a down-count. When the PWM

counter decrements and matches the duty register again, the output ﬂip-ﬂop changes state causing the

PWM output to also change state. When the PWM counter decrements and reaches zero, the counter

direction changes from a down-count back to an up-count and a load from the double buffer period and

duty registers to the associated registers is performed, as described in

Duty”. The counter counts from 0 up to the value in the period register and then back down to 0. Thus the

effective period is PWMPERx*2.

To calculate the output frequency in center aligned output mode for a particular channel, take the selected

clock source frequency for the channel (A, B, SA, or SB) and divide it by twice the value in the period

As an example of a center aligned output, consider the following case:

Freescale Semiconductor

•

PWMx Frequency = Clock (A, B, SA, or SB) / (2*PWMPERx)

PWMx Duty Cycle (high time as a% of period):

— Polarity = 0 (PPOLx = 0)

— Polarity = 1 (PPOLx = 1)

PPOLx = 0

PPOLx = 1

Center Aligned Outputs

Duty Cycle = [(PWMPERx-PWMDTYx)/PWMPERx] * 100%

Duty Cycle = [PWMDTYx / PWMPERx] * 100%

Changing the PWM output mode from left aligned to center aligned output

(or vice versa) while channels are operating can cause irregularities in the

PWM output. It is recommended to program the output mode before

enabling the PWM channel.

Figure

19-16. When the PWM counter matches the duty register, the output ﬂip-ﬂop

Figure 19-19. PWM Center Aligned Output Waveform

PWMDTYx

MC9S12G Family Reference Manual, Rev.1.23

PWMPERx

Period = PWMPERx*2

NOTE

PWMPERx

Section 19.4.2.3, “PWM Period and

Pulse-Width Modulator (S12PWM8B8CV2)

PWMDTYx

661

S9S12GN32F0VLF Freescale Semiconductor, S9S12GN32F0VLF Datasheet - Page 659

S9S12GN32F0VLF

Specifications of S9S12GN32F0VLF

Available stocks

Related parts for S9S12GN32F0VLF