PIC16F716-I Datasheet, PDF(61/136 Page) Microchip Technology – 8-bit Flash-based Microcontroller with A/D Converter and Enhanced Capture/Compare/PWM

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PIC16F716-I Datasheet, PDF (61/136 Pages) Microchip Technology – 8-bit Flash-based Microcontroller with A/D Converter and Enhanced Capture/Compare/PWM

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PIC16F716

8.3.10 PROGRAMMABLE DEAD-BAND

DELAY MODE

In Half-Bridge applications where all power switches

are modulated at the PWM frequency, the power

switches normally require more time to turn off than to

turn on. If both the upper and lower power switches are

switched at the same time (one turned on, and the

other turned off), both switches may be on for a short

period of time until one switch completely turns off.

During this brief interval, a very high current (shoot-

through current) will flow through both power switches,

shorting the bridge supply. To avoid this potentially

destructive shoot-through current from flowing during

switching, turning on either of the power switches is

normally delayed to allow the other switch to

completely turn off.

In Half-Bridge mode, a digitally programmable dead-

band delay is available to avoid shoot-through current

from destroying the bridge power switches. The delay

occurs at the signal transition from the non-active state

to the active state. See Figure 8-8 for illustration. The

lower seven bits of the associated PWM1CON register

(Register 8-3) sets the delay period in terms of

microcontroller instruction cycles (TCY or 4 TOSC).

FIGURE 8-8:

EXAMPLE OF HALF-

BRIDGE PWM OUTPUT

Period

P1A(2)

Pulse Width

P1B(2)

(1)

td = Dead-Band Delay

Note 1: At this time, the TMR2 register is equal to the

PR2 register.

2: Output signals are shown as active-high.

FIGURE 8-9:

EXAMPLE OF HALF-BRIDGE APPLICATIONS

V+

Standard Half-Bridge Circuit (âPush-Pullâ)

FET

Driver

P1A

FET

Driver

P1B

Load

V-

DS41206B-page 59

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