MCBSTM32EXL Keil, MCBSTM32EXL Datasheet - Page 279

MCBSTM32EXL

Manufacturer Part Number

MCBSTM32EXL

Description

BOARD EVALUATION FOR STM32F103ZE

Manufacturer

Keil

Datasheets

1.MCBSTM32EXL.pdf (995 pages)

2.MCBSTM32EXL.pdf (1 pages)

Specifications of MCBSTM32EXL

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Note:

13.3.12

Figure 87. Dead-time waveforms with delay greater than the positive pulse.

The dead-time delay is the same for each of the channels and is programmable with the

DTG bits in the TIMx_BDTR register. Refer to

time register (TIMx_BDTR) on page 314

Re-directing OCxREF to OCx or OCxN

In output mode (forced, output compare or PWM), OCxREF can be re-directed to the OCx

output or to OCxN output by configuring the CCxE and CCxNE bits in the TIMx_CCER

This allows you to send a specific waveform (such as PWM or static active level) on one

output while the complementary remains at its inactive level. Other alternative possibilities

are to have both outputs at inactive level or both outputs active and complementary with

dead-time.

When only OCxN is enabled (CCxE=0, CCxNE=1), it is not complemented and becomes

active as soon as OCxREF is high. For example, if CCxNP=0 then OCxN=OCxRef. On the

other hand, when both OCx and OCxN are enabled (CCxE=CCxNE=1) OCx becomes

active when OCxREF is high whereas OCxN is complemented and becomes active when

OCxREF is low.

Using the break function

When using the break function, the output enable signals and inactive levels are modified

according to additional control bits (MOE, OSSI and OSSR bits in the TIMx_BDTR register,

OISx and OISxN bits in the TIMx_CR2 register). In any case, the OCx and OCxN outputs

cannot be set both to active level at a given time. Refer to

complementary OCx and OCxN channels with break feature on page 310

The break source can be either the break input pin or a clock failure event, generated by the

Clock Security System (CSS), from the Reset Clock Controller. For further information on

the Clock Security System, refer to

When exiting from reset, the break circuit is disabled and the MOE bit is low. You can enable

the break function by setting the BKE bit in the TIMx_BDTR register. The break input

polarity can be selected by configuring the BKP bit in the same register. BKE and BKP can

be modified at the same time. When the BKE and BKP bits are written, a delay of 1 APB

clock cycle is applied before the writing is effective. Consequently, it is necessary to wait 1

APB clock period to correctly read back the bit after the write operation.

Because MOE falling edge can be asynchronous, a resynchronization circuit has been

inserted between the actual signal (acting on the outputs) and the synchronous control bit

(accessed in the TIMx_BDTR register). It results in some delays between the asynchronous

and the synchronous signals. In particular, if you write MOE to 1 whereas it was low, you

OCxREF

OCx

OCxN

Doc ID 13902 Rev 9

Section 6.2.7: Clock security system (CSS) on page

for delay calculation.

Section 13.4.18: TIM1&TIM8 break and dead-

Advanced-control timers (TIM1&TIM8)

Table 73: Output control bits for

delay

for more details.

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