MAX5971BEVKIT+ Maxim Integrated, MAX5971BEVKIT+ Datasheet - Page 9

MAX5971BEVKIT+

Manufacturer Part Number

MAX5971BEVKIT+

Description

Power Management IC Development Tools

Manufacturer

Maxim Integrated

Series

MAX5971r

Datasheet

1.MAX5971BEVKIT.pdf (22 pages)

Specifications of MAX5971BEVKIT+

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The Locate Slave button is used to search for a device

located on the I

been changed while the software was running. The valid

IC slave addresses are configured by jumper JU7 to one

of four addresses: 0x40, 0x42, 0x44, or 0x46. The IC

does respond to global address 0x60, although the EV kit

hardware cannot be set to this specific address.

When the Record checkbox is checked, the program

automatically enters the record macro state and disables

certain buttons and menus. Selecting the Commands

| Clear Script Input menu item clears any script cur-

rently in the Macro script input edit field. Comment lines

in a macro script begin with a # / ; ' * character. A line

of script is entered by selecting the appropriate Slave

Address, Register Address, and entering the desired

Hexadecimal Data or Binary Data in the respective

combo box. Pressing the Write Byte or Read Byte but-

ton then enters the script into the Macro input edit field.

For time delays in a macro, select the desired delay

time from the combo box on the right side of the Delay

button and then press the Delay button. The macro must

be saved before exiting the record macro state using the

File | Save Macro menu item. The macro file must have

an smb file extension name.

To edit a previously saved macro, open the macro using

the File | Open Macro menu item and make the desired

edits. The modified file must be saved prior to exiting the

record macro state. Uncheck the Record checkbox to

exit the record macro state. Additionally, a macro can be

created or edited using a plan text editor in “text mode.”

The file must be saved with an smb extension.

There are two methods for communicating with the

IC: through the main window display or through the

general-purpose Advanced User Interface utility using

the View | Interface menu item. The utility configures

the I

bits, acknowledgments, and clock timing. The 2-wire

interface tab (Figure 4) allows the user to send general-

purpose I

ReadByte and WriteWord/ReadWord commands. For

more information on the differences between the I

interface and the SMBusK interface, refer to Application

Note 476: Comparing the I

at www.maxim-ic.com. When using the Advanced

User Interface utility, the main window display no longer

keeps track of changes sent to hardware. The EV kit

can be reinitialized to the startup screen settings by first

closing the Advanced User Interface utility, resetting the

SMBus is a trademark of Intel Corp.

C interface parameters, such as start and stop

C commands using the SMBus-WriteByte/

_________________________________________________________________ Maxim Integrated Products 9

C serial interface whose address has

General-Purpose Advanced

Record Macro State Controls

C Bus to SMBus, available

User Interface Utility

IC by pressing the reset pushbutton switch (SW1), and

relaunching the software.

The Hunt for active listeners button scans the entire

2-wire address space, reporting each address that

is acknowledged. The SMBusWriteByte transmits the

device address, command, and 1 byte of data. The

SMBusReadByte transmits the device address, com-

mand, and then retransmits the device address and

reads 1 byte of data. The SMBusWriteWord and

SMBusReadWord operate the same, except 2 bytes of

data are used.

Problem: Software reports it cannot find the USB

interface circuit.

• Is the USB communications cable connected?

• Is the USB interface circuit power LED (D201) lit?

• Has Windows plug-and-play detected the board?

Problem: Software reports MAX5971B IC not found,

exiting program.

• Are the OPTO_SCL and OPTO_SDA signals pulled up

• If using jumper wires to connect, could the OPTO_

The MAX5971B EV kit features a 10/100/1000BASE-

TX Ethernet single-port PSE controller circuit for -54V

supply rail systems. The EV kit’s PSE circuit uses the

IEEE 802.3af/at-compliant MAX5971B PSE controller

featuring an integrated n-channel power MOSFET and an

on-board single 1Gb x 1Gb MagJack module (integrated

in J2) to form the basic portion of a PSE circuit. The EV

kit has been designed as an IEEE 802.3af/at-compliant

PSE and demonstrates all the required functions such

as PD discovery, classification, current-limit control of

a connected PD at the Ethernet output port, and AC-/

DC-disconnect detection. A PC can be used to commu-

nicate with the slave device over the I

cally coupled logic, and the 2-wire-to-USB-port interface

circuit.

The EV kit PSE circuit requires a -32V to -60V power

supply (-54V supply rail) capable of supplying 1A or

more to the EV kit’s GND and VEE metal banana jacks or

Detailed Description of Hardware

Bring up Control Panel → System → Device Manager,

and look at what device nodes are indicated for the

USB. If there is an unknown device node attached to

the USB, delete it—this forces plug-and-play to try

again.

to OPTO_VCC (3.3V)?

SCL and OPTO_SDA signals be swapped? Could the

OPTO_GND ground return be missing?

Evaluates: MAX5971B

General Troubleshooting

C interface, opti-

MAX5971BEVKIT+ Maxim Integrated, MAX5971BEVKIT+ Datasheet - Page 9

MAX5971BEVKIT+

Specifications of MAX5971BEVKIT+

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