MAX5980GTJ+T Maxim Integrated, MAX5980GTJ+T Datasheet - Page 24

MAX5980GTJ+T

Manufacturer Part Number

MAX5980GTJ+T

Description

Power Switch ICs - POE / LAN 0-16V Hot-Swap Controller

Manufacturer

Maxim Integrated

Datasheet

1.MAX5980EVKIT.pdf (49 pages)

Specifications of MAX5980GTJ+T

Rohs

yes

Number Of Switches

Quad

Off Time (max)

0.1 ms

Operating Supply Voltage

32 V to 60 V

Maximum Operating Temperature

+ 105 C

Mounting Style

SMD/SMT

Maximum Power Dissipation

2758.6 mW

Minimum Operating Temperature

- 40 C

Operating Supply Current

5 mA

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Figure 10. Write Format, Control Byte Received

Quad, IEEE 802.3at/af PSE Controller

for Power-over-Ethernet

Figure 9. Slave Address

The device has a 7-bit long slave address (Figure 9). The

bit following the 7-bit slave address (bit eight) is the R/W

bit, which is low for a write command and high for a read

command. The upper five bits of the slave address can-

not be changed and are always [01000]. Using the AD0

input, the lowest two bits can be programmed to assign

the device one of four unique slave addresses (see

Table 3). The device monitors the bus continuously, wait-

ing for a START condition followed by the device’s slave

address. When a device recognizes its slave address,

it acknowledges and is then ready for continued com-

munication.

The global address call is used in write mode to write to

the same register to multiple devices (address 60h). The

global address call can also be used in read mode (61h)

in the same way as the alert response address (ARA).

The actual alert response address (ARA) is 0Ch. The

MAX5980 slave device only responds to the ARA if its

INT (interrupt) output is asserted. All MAX5980 devices in

which the INT output is not asserted ignore the ARA.

When responding to the ARA, the device transmits a

byte of data on SDAOUT containing its own address in

the top 7 bits, and a 1 in the LSB (as does every other

device connected to the SDAIN line that has an active

interrupt). As each bit in the byte is transmitted, the

device determines whether to continue transmitting the

remainder of the byte or terminate transmission. The

SDAIN

SDA/

SCL

MSB

Global Addressing and the Alert Reponse

CONTROL BYTE STORED ON STOP CONDITION

ACKNOWLEDGE FROM THE MAX5980

SLAVE ADDRESS

LSB

Address (ARA)

Slave Address

R/W

ACK

CB7

device terminates the transmission if it sees a 0 on SDA

at a time when it is attempting to send a 1; otherwise it

continues transmitting bits until the entire byte has been

sent. This litigation protocol always allows the part with

the lowest address to complete the transmission, and the

microcontroller can respond to that interrupt. The device

deasserts INT if it completes the transmission of the

entire byte. If the device did not have the lowest address,

and terminates the transmission early, the INT output

remains asserted. In this way, the microcontroller can

continue to send ARA read cycles until all slave devices

successfully transmit their addresses, and all interrupt

requests are resolved.

In compliance with the I

responds to the general call through global address 30h.

A write to the device comprises the device slave address

transmission with the RW bit set to 0, followed by at

least 1 byte of information. The first byte of information

is the command byte (Figure 10). The command byte

determines which register of the device is written to by

the next byte, if received. If the device detects a STOP

condition after receiving the command byte but before

receiving any data, then the device takes no further

action beyond storing the command byte.

Any bytes received after the command byte are data

bytes. The first data byte goes into the internal register

of the device selected by the command byte (Figure 11).

The control byte address then autoincrements (if pos-

sible; see Table 4) and then waits for the next data byte

or a STOP condition.

If multiple data bytes are transmitted before a STOP con-

dition is detected, these bytes are stored in subsequent

MAX5980 internal registers as the control byte address

autoincrements (Figure 12). If the control byte address

can no longer increment, any subsequent data sent con-

tinues to write to that address.

CB6 CB5 CB4 CB3 CB2 CB1 CB0

ACKNOWLEDGE FROM THE MAX5980

CONTROL BYTE

Message Format for Writing to the MAX5980

C specification, the device

ACK

General Call

MAX5980GTJ+T Maxim Integrated, MAX5980GTJ+T Datasheet - Page 24

MAX5980GTJ+T

Specifications of MAX5980GTJ+T

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