MAX5945EAX+ Maxim Integrated Products, MAX5945EAX+ Datasheet - Page 18

MAX5945EAX+

Manufacturer Part Number

MAX5945EAX+

Description

IC NETWORK PWR CTRL 36-SSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX5945CAX.pdf (44 pages)

Specifications of MAX5945EAX+

Controller Type

Network Power Controller

Interface

I²C

Voltage - Supply

3.3V

Current - Supply

4.2mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

36-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The MAX5945 also features three other undervoltage

and overvoltage interrupts: V

overvoltage interrupt (V

supply events register (Table 11) but the MAX5945 does

not shut down the ports with a V

Setting R13h[DCD_EN_] bits high enable DC load mon-

itoring during a normal powered state. If SENSE_ falls

below the DC load disconnect threshold, V

more than t

the LD_DISC_ bit of the corresponding port. t

programmable using R16h[0-1] and R27h[0-3].

The MAX5945 features AC load disconnect monitoring.

Connect an external sine wave to OSC_IN. The oscilla-

tor requirements are:

•

The MAX5945 buffers and amplifies 3x the external

oscillator signal and sends the signal to DET_, where

the sine wave is AC coupled to the output. The

MAX5945 senses the presence of the load by monitor-

ing the amplitude of the AC current returned to DET_

(see the Functional Diagram).

Setting R13h[ACD_EN_] bits high enable AC load dis-

connect monitoring during the normal powered state. If

the AC current peak at the DET_ pin falls below I

for more than t

asserts the LD_DISC_ bit of the corresponding port.

An internal comparator checks for a proper amplitude

of the oscillator input. If the positive peak of the input

sinusoid falls below a safety value of 2V, OSC_FAIL

sets and the port shuts down. Power cannot be applied

to the ports when ACD_EN is set high and OSC_FAIL is

set high. Leave OSC_IN unconnected or connect it to

DGND when not using AC disconnect detection.

When using the AC disconnect detection feature, con-

nect AGND directly to DNGD as close as possible to

the IC. The MAX5945 also requires a V

than +3V for this function. See the Typical Application

Circuit with AC disconnect for other external compo-

nent requirements.

Quad Network Power Controller

for Power-Over-LAN

ACTH

EEUV

Frequency x V

Positive peak voltage > +2V

Frequency > 60Hz

A 100Hz ±10%, 2V

______________________________________________________________________________________

PEAK

is programmable using R23h[0-3].

), V

DISC

= +2.2V, typ) is recommended.

undervoltage interrupt (V

, the device turns off power and asserts

DISC

P-P

, the device turns off power and

= 200V

DC Disconnect Monitoring

AC Disconnect Monitoring

DDOV

P-P

). A fault latches into the

±5%, with +1.2V offset

EEUV

x Hz ±15%

undervoltage interrupt

, V

DDUV

, or V

), and V

of greater

DCTH

DISC

DDOV

ACTH

, for

If the MAX5945 die temperature reaches +150°C, an

overtemperature fault generates and the MAX5945

shuts down and the MOSFETs turn off. The die temper-

ature of the MAX5945 must cool down below +130°C to

remove the overtemperature fault condition. After a

thermal shutdown, the part is reset.

A3, A2, A1, and A0 represent the four LSBs of the chip

address, the complete 7-bit chip address (see Table 3).

The four LSBs latch on the low-to-high transition of

RESET or after a power-supply start (either on V

50kΩ pullup resistor to V

responds to the call through a global address 60h (see

the Global Addressing and Alert Response Protocol

section).

The MAX5945 operates as a slave that sends and

receives data through an I

wire interface. The interface uses a serial data input line

(SDAIN), a serial data output line (SDAOUT), and a ser-

ial clock line (SCL) to achieve bidirectional communica-

tion between master(s) and slave(s). A master (typically

a microcontroller) initiates all data transfers to and from

the MAX5945, and generates the SCL clock that syn-

chronizes the data transfer. In most applications, con-

nect the SDAIN and the SDAOUT lines together to form

the serial data line (SDA).

Using the separate input and output data lines allows

optocoupling with the controller bus when an isolated

supply powers the microcontroller.

The MAX5945 SDAIN line operates as an input. The

MAX5945 SDAOUT operates as an open-drain output.

A pullup resistor, typically 4.7kΩ, is required on

SDAOUT. The MAX5945 SCL line operates only as an

input. A pullup resistor, typically 4.7kΩ, is required on

SCL if there are multiple masters, or if the master in a

single-master system has an open-drain SCL output.

Each transmission consists of a START condition (Figure

7) sent by a master, followed by the MAX5945 7-bit slave

address plus R/W bit, a register address byte, one or

more data bytes, and finally a STOP condition.

Table 3. MAX5945 Address

). Address inputs default high through an internal

C-Compatible Serial Interface

C-compatible, 2-wire or 3-

Thermal Shutdown

. The MAX5945 also

Address Inputs

Serial Addressing

R/W

MAX5945EAX+ Maxim Integrated Products, MAX5945EAX+ Datasheet - Page 18

MAX5945EAX+

Specifications of MAX5945EAX+

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