MAX5965AEAX+ Maxim Integrated Products, MAX5965AEAX+ Datasheet - Page 22
MAX5965AEAX+
Manufacturer Part Number
MAX5965AEAX+
Description
IC PSE CTRLR FOR POE 36SSOP
Manufacturer
Maxim Integrated Products
Type
Power Over Ethernet Controller (PoE)r
Datasheet
1.MAX5965AUAXT.pdf
(53 pages)
Specifications of MAX5965AEAX+
Applications
IP Phones, Power over LAN, Network Routers and Switches
Internal Switch(s)
No
Voltage - Supply
2.4 V ~ 3.6 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
36-BSOP (0.300", 7.5mm Width)
Product
PoE / LAN Solutions
Supply Voltage (max)
60 V
Supply Voltage (min)
32 V
Power Dissipation
1388.9 mW
Operating Temperature Range
- 40 C to + 85 C
Mounting Style
SMD/SMT
Input Voltage
60V
Supply Current
4.8mA
Digital Ic Case Style
SSOP
No. Of Pins
36
Uvlo
28.5V
Frequency
400kHz
Filter Terminals
SMD
Interface
I2C
Rohs Compliant
Yes
Controller Type
Power Supply
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
High-Power, Quad, Monolithic, PSE Controllers
for Power over Ethernet
V
ranges from +3.0V to +5.5V and determines the logic
thresholds for the CMOS connections (SDAIN, SDAOUT,
SCL, AUTO, SHD_, A_). This voltage range enables the
MAX5965A/MAX5965B to interface with a nonisolated
low-voltage microcontroller. The MAX5965A/MAX5965B
check the digital supply for compatibility with the internal
logic. The MAX5965A/MAX5965B also feature a V
undervoltage lockout (V
condition keeps the MAX5965A/MAX5965B in reset and
the ports shut off. Bit 0 in the supply event register shows
the status of V
ered. All logic inputs and outputs reference to DGND.
For AC-disconnected detection, DGND and AGND must
be connected together externally. Connect DGND to
AGND at a single point in the system as close as possi-
ble to the MAX5965A/MAX5965B.
SHD_ shuts down the respective ports without using the
serial interface. Hardware shutdown offers an emer-
gency turn-off feature that allows a fast disconnect of
the power supply from the port. Pull SHD_ low to
remove power. SHD_ also resets the corresponding
events and status register bits.
The MAX5965A/MAX5965B contain an open-drain logic
output (INT) that goes low when an interrupt condition
exists. R00h and R01h (Tables 6 and 7) contain the defin-
itions of the interrupt registers. The mask register R01h
determines events that trigger an interrupt. As a response
to an interrupt, the controller reads the status of the event
register to determine the cause of the interrupt and takes
subsequent actions. Each interrupt event register also
contains a Clear on Read (CoR) register. Reading
through the CoR register address clears the interrupt. INT
remains low when reading the interrupt through the read-
only addresses. For example, to clear a startup fault on
the port 4 read address 09h (see Table 11). Use the glob-
al pushbutton bit in register 1Ah (bit 7, Table 23) to clear
interrupts, or use a software or hardware reset.
The MAX5965A/MAX5965B contain several undervoltage
and overvoltage protection features. Table 12 in the
Register Map and Description section shows a detailed
list of the undervoltage and overvoltage protection fea-
tures. An internal V
cuit keeps the MOSFET off and the MAX5965A/
MAX5965B in reset until V
more than 3ms. An internal V
cuit shuts down the ports when (V
22
DD
______________________________________________________________________________________
supplies power for the internal logic circuitry. V
DDUVLO
EE
undervoltage lockout (V
(Table 12) after V
DDUVLO
Overvoltage Protection
AGND
EE
Hardware Shutdown
overvoltage (V
) of +2.0V. A V
Undervoltage and
- V
AGND
EE
exceeds 29V for
Digital Logic
- V
DD
EE
EEUVLO
Interrupt
has recov-
EE_OV
) exceeds
DDUVLO
) cir-
) cir-
DD
DD
60V. The digital supply also contains an undervoltage
lockout (V
ture three other undervoltage and overvoltage interrupts:
V
interrupt (V
(V
(Table 12), but the MAX5965A/MAX5965B does not shut
down the ports with V
Setting R13h[DCD_EN_] bits high enables DC load moni-
toring during a normal powered state. If V
across R
V
and asserts the LD_DISC_ bit of the corresponding port.
The MAX5965A/MAX5965B feature AC load disconnect
monitoring. Connect an external sine wave to OSC. The
oscillator requirements are:
1) V
2) Positive peak voltage > +2.2V
3) Frequency > 60Hz
A 100Hz ±10%, 2V
+2.3V typical) is recommended.
The MAX5965A/MAX5965B buffer and amplify three
times the external oscillator signal and sends the signal
to DET_, where the sine wave is AC-coupled to the out-
put. The MAX5965A/MAX5965B sense the presence of
the load by monitoring 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 a normal powered state. If
the AC current peak at the DET_ input falls below I
for more than t
asserts the LD_DISC_ bit of the corresponding port.
I
An internal comparator checks for a proper amplitude of
the oscillator input. If the positive peak of the input sinu-
soid falls below a safety value of 2V (typ), 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 unconnected or connect it to
DGND when not using AC-disconnect detection.
If the MAX5965A/MAX5965B die temperature reaches
+150°C, an overtemperature fault generates and the
MAX5965A/MAX5965B shut down. The MOSFETs turn off.
The die temperature of the MAX5965A/MAX5965B must
cool down below +130°C to remove the overtemperature
fault condition. After a thermal shutdown, the part is reset.
ACTH
EE
DCTH
DDOV
undervoltage interrupt (V
P-P
is programmable using R23h[2:0].
, for more than t
). A fault latches into the supply events register
S
x Frequency = 200V
DDUVLO
) falls below the DC load disconnect threshold,
DDUV
DISC
). The MAX5965A/MAX5965B also fea-
), and V
P-P
EEUV
, the device turns off power and
DC Disconnect Monitoring
AC Disconnect Monitoring
±5%, with +1.3V offset (V
DISC
(MAX5965A/MAX5965B)
, V
, the device turns off power
DDUV
DD
P-P
EEUV
Thermal Shutdown
overvoltage interrupt
x Hz ±15%
, or V
), V
DDOV
DD
RS
undervoltage
.
(the voltage
PEAK
ACTH
=
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