PIC18F4585-I/ML Microchip Technology, PIC18F4585-I/ML Datasheet - Page 182

IC MCU FLASH 24KX16 44QFN

PIC18F4585-I/ML

Manufacturer Part Number

PIC18F4585-I/ML

Description

IC MCU FLASH 24KX16 44QFN

Manufacturer

Microchip Technology

Series

PIC® 18Fr

Datasheets

1.PIC16F616T-ISL.pdf (8 pages)

2.PIC18F2221-ISO.pdf (46 pages)

3.PIC18F4585-IPT.pdf (482 pages)

4.PIC18F4585-IPT.pdf (14 pages)

5.PIC18F4585-IPT.pdf (8 pages)

6.PIC18F4585-IPT.pdf (12 pages)

7.PIC18F4585-IPT.pdf (4 pages)

Specifications of PIC18F4585-I/ML

Core Processor

PIC

Core Size

8-Bit

Speed

40MHz

Connectivity

CAN, I²C, SPI, UART/USART

Peripherals

Brown-out Detect/Reset, HLVD, POR, PWM, WDT

Number Of I /o

36

Program Memory Size

48KB (24K x 16)

Program Memory Type

FLASH

Eeprom Size

1K x 8

Ram Size

3.25K x 8

Voltage - Supply (vcc/vdd)

4.2 V ~ 5.5 V

Data Converters

A/D 11x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

44-QFN

Core

PIC

Processor Series

PIC18F

Data Bus Width

8 bit

Maximum Clock Frequency

40 MHz

Data Ram Size

3.25 KB

On-chip Adc

11 bit

Number Of Programmable I/os

44

Number Of Timers

1 x 8

Operating Supply Voltage

4.2 V to 5.5 V

Mounting Style

SMD/SMT

Height

0.88 mm

Interface Type

I2C, SPI, EUSART

Length

8 mm

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Supply Voltage (max)

5.5 V

Supply Voltage (min)

4.2 V

Width

8 mm

For Use With

XLT44QFN2 - SOCKET TRAN ICE 44QFN/40DIPAC164322 - MODULE SOCKET MPLAB PM3 28/44QFNI3-DB18F4680 - BOARD DAUGHTER ICEPIC3444-1001 - DEMO BOARD FOR PICMICRO MCU

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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PIC18F2585/2680/4585/4680

FIGURE 16-7:

16.4.5.1

In the Full-Bridge Output mode, the EPWM1M1 bit in

the CCP1CON register allows the user to control the

forward/reverse

firmware changes this direction control bit, the module

will assume the new direction on the next PWM cycle.

Just before the end of the current PWM period, the

modulated outputs (P1B and P1D) are placed in their

inactive state, while the unmodulated outputs (P1A and

P1C) are switched to drive in the opposite direction.

This occurs in a time interval of (4 T

Prescale Value)) before the next PWM period begins.

The Timer2 prescaler will be either 1, 4 or 16, depend-

ing on the value of the T2CKPS bit (T2CON<1:0>).

During the interval from the switch of the unmodulated

outputs to the beginning of the next period, the

modulated outputs (P1B and P1D) remain inactive.

This relationship is shown in Figure 16-8.

Note that in the Full-Bridge Output mode, the CCP1

module does not provide any dead-band delay. In

general, since only one output is modulated at all times,

dead-band delay is not required. However, there is a

situation where a dead-band delay might be required.

This situation occurs when both of the following

conditions are true:

1.

2.

DS39625C-page 180

The direction of the PWM output changes when

the duty cycle of the output is at or near 100%.

The turn-off time of the power switch, including

the power device and driver circuit, is greater

than the turn-on time.

PIC18FX585/X680

Direction Change in Full-Bridge Mode

direction.

P1A

P1B

P1C

P1D

EXAMPLE OF FULL-BRIDGE APPLICATION

When

the

OSC

application

* (Timer2

FET

Driver

FET

Driver

Preliminary

QA

QB

Figure 16-9 shows an example where the PWM direc-

tion changes from forward to reverse at a near 100%

duty cycle. At time t1, the outputs P1A and P1D

become inactive, while output P1C becomes active. In

this example, since the turn-off time of the power

devices is longer than the turn-on time, a shoot-through

current may flow through power devices, QC and QD

(see Figure 16-7), for the duration of ‘t’. The same

phenomenon will occur to power devices, QA and QB,

for PWM direction change from reverse to forward.

If changing PWM direction at high duty cycle is required

for an application, one of the following requirements

must be met:

1.

2.

Other options to prevent shoot-through current may

exist.

Reduce PWM for a PWM period before

changing directions.

Use switch drivers that can drive the switches off

faster than they can drive them on.

Load

V+

V-

QC

QD

© 2007 Microchip Technology Inc.

FET

Driver

FET

Driver

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