LTC4263IDE-1#TRPBF Linear Technology, LTC4263IDE-1#TRPBF Datasheet - Page 12
LTC4263IDE-1#TRPBF
Manufacturer Part Number
LTC4263IDE-1#TRPBF
Description
IC IEEE 803.2AF CNTRLR 14-DFN
Manufacturer
Linear Technology
Type
Power Over Ethernet (PoE)r
Datasheet
1.LTC4263CDE-1PBF.pdf
(20 pages)
Specifications of LTC4263IDE-1#TRPBF
Applications
Power Interface Switch for Power Over Ethernet (PoE) Devices
Voltage - Supply
48V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
14-DFN
Current - Supply
1mA
Interface
IEEE 802.3af
Controller Type
Power Sourcing Equipment Controller (PSE)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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APPLICATIONS INFORMATION
LTC4263-1
Power Control
The primary function of the LTC4263-1 is to control the
delivery of power to the PSE port. In order to provide
a robust solution, a variety of current limit and current
monitoring functions are needed, as shown in Figure 4. All
control circuitry is integrated and the LTC4263-1 requires
no external MOSFET, sense resistor, or microcontroller.
The LTC4263-1 includes an internal MOSFET for driving
the PSE port. The LTC4263-1 drives the gate of the internal
MOSFET while monitoring the current and the output volt-
age at the OUT pin. This circuitry couples the 56V input
supply to the port in a controlled manner that satisfi es
the PD’s power needs while minimizing disturbances on
the 56V backplane.
Port Overload
Based on the IEEE 802.3af standard, the LTC4263-1 detects
port overload conditions by monitoring port current. This
ensures the port stays within the designed continuous
power budget while allowing for brief power surges. If
the port current exceeds 570mA (typ) for greater than
62ms (typ), power is removed and the LTC4263-1 waits
4 seconds (typ) before returning to detection mode.
Port Inrush and Short-Circuit
When 56V power is applied to the port, the LTC4263-1 is
designed to power-up the PD in a controlled manner with-
out causing transients on the input supply. To accomplish
this, the LTC4263-1 implements inrush current limit. At
turn-on, current limit will allow the port voltage to quickly
12
750mA
600mA
450mA
300mA
150mA
0mA
Figure 4. Current Thresholds and Current Limits
DC DISCONNECT
(I
MIN
)
(I
CUT
CUT
)
LIMIT
(I
LIM
)
NORMAL
OPERATION
CURRENT LIMIT
PORT OFF IN t
DC DISCONNECT
PORT OFF IN t
OVLD
MPDO
42631 F07
rise until the PD reaches its input turn-on threshold. At this
point, the PD begins to draw current to charge its bypass
capacitance, slowing the rate of port voltage increase.
If at any time the port is shorted or an excessive load
is applied, the LTC4263-1 limits port current to avoid a
hazardous condition. The current is limited to I
voltages above 30V and is reduced for lower port voltages
(see the Foldback section). Inrush and short-circuit cur-
rent limit are allowed to be active for 62ms (typ) before
the port is shut off.
Port Fault
If the port is suddenly shorted, the internal MOSFET power
dissipation can rise to very high levels until the short-circuit
current limit circuit can respond. A separate high-speed
current limit circuit detects severe fault conditions
1000mA (typ)
such an event occurs. The circuit then limits current to I
while the t
I
t
For overload, inrush, and short-circuit conditions, the
LTC4263-1 includes a 62ms (typ) t
duration of these events. The timer is incremented when-
ever current greater than I
the current is still above I
the LTC4263-1 will turn off power to the port and fl ash the
LED. In this situation, the LTC4263-1 waits four seconds
and then restarts detection. If the overload condition is
removed before the t
powered and the timer is reset.
Foldback
Foldback is designed to limit power dissipation in the
LTC4263-1 during power-up and momentary short-cir-
cuit conditions. At low port output voltages, the voltage
across the internal MOSFET is high, and power dissipa-
tion will be large if signifi cant current is fl owing. Foldback
monitors the port output voltage and reduces the I
current limit level for port voltages of less than 28V, as
shown in Figure 5.
LIM
OVLD
will be reduced by the foldback circuitry.
Timing
OVLD
)
and quickly turns off the internal MOSFET if
timer increments. During a short-circuit,
OVLD
CUT
CUT
timer expires, the port stays
when the t
fl ows through the port. If
OVLD
OVLD
timer to limit the
timer expires,
LIM
for port
(
I
OUT
42631fa
LIM
LIM
>
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