TDGL004【PDF 4/19 页】BOARD CEREBOT 32MX7 PIC32MX795

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Cerebot 32MX7 Reference Manual

The power supply selected by the shorting

block on J16 will appear on the input power

supply bus, labeled VIN in the schematic. This

voltage is regulated to 3.3V to power the

debug circuit by IC11, a Microchip MCP1801

Low Dropout voltage regulator. This regulator

is turned on and the debug circuit is powered

whenever the power switch is in the on

position.

The USB specification requires that USB

devices not draw more than 100mA of current

until they have enumerated on the USB bus

and informed the host that they want to

consume more current. To meet this

specification, the debug circuit turns on main

board power by driving the PWR_ON signal

high after successfully enumerating on the

USB bus. The bus labeled on the schematic as

VCC5V0 is switched on when this occurs. The

VCC5V0 bus powers the input to the main

board voltage regulator, the input voltage to

the USB bus voltage load switch used when

using the board as a USB host, the power

supply voltage for the CAN transceivers, and

the 5V0 side of the power select jumpers for

the Pmod connectors. The voltage on the

VCC5V0 bus will be 5V when the board is

being operated from USB power or an external

regulated 5V supply. If a different external

supply voltage is used, that voltage will appear

on the VCC5V0 bus.

Ethernet PHY consumes approximately 45mA

when operating at 100Mbps. The Microchip

MCP2551 CAN transceivers can draw up to

75mA each when operating the CAN busses.

The other circuitry on the board will draw 10-20

mA. The remaining current is available to

provide power to attached Pmods and I 2 C

devices. The voltage regulator is on the

bottom of the board, approximately under the

“3” in the Cerebot 32MX7 logo, and will get

warm when the amount of current being used

is close to its limit.

The Cerebot 32MX7 can provide power to any

peripheral modules attached to the Pmod

connectors, JA-JF, and to I 2 C devices

powered from the I 2 C daisy chain connectors,

J7 and J8. Each Pmod connector provides

power pins that can be powered from either the

switched main power bus, VCC5V0, or

regulated voltage, VCC3V3, by setting the

voltage jumper block to the desired position.

The I 2 C power connectors only provide the

regulated voltage, VCC3V3.

USB Interface

The PIC32MX795 microcontroller contains a

USB 2.0 Compliant, Full Speed Device and

On-The-Go (OTG) controller. This controller

provides the following features:

Note: The signal labeled DBG5V0 on the

schematic comes from the debug USB

connector. If the debug USB connector is not

connected to a live USB port, this voltage will

not be present and the debug circuit is not

involved in turning on board power. In this

case, the board power is turned on when the

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USB full speed host and device support

Low speed host support

USB OTG support

Endpoint buffering anywhere in system

RAM

Integrated DMA to access system RAM

and Flash memory.

power switch is placed in the ON position.

The PIC32 microcontroller and on-board I/O

devices operate at a supply voltage of 3.3V

provided by the VCC3V3 bus. The regulated

voltage on this bus is provided by a Microchip

MCP1726 Low Dropout voltage regulator,

IC10. This regulator is capable of providing a

maximum of 1A of current. The PIC32

microcontroller will use approximately 85mA

when running at 80MHz. The SMSC LAN8720

www.digilentinc.com

The USB controller uses a phased lock loop,

PLL, to generate the necessary USB clock

frequency from the external primary oscillator

input frequency. By default, this PLL is

disabled. In order to use the USB controller, it

is necessary to enable the USB PLL, and set

the input divider to the correct value to

generate a valid USB clock. The input to the

USB PLL must be 4Mhz. The Cerebot 32MX7

provides an 8Mhz clock to the PIC32

page 4 of 19

Copyright Digilent, Inc. All rights reserved. Other product and company names mentioned may be trademarks of their respective owners.

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