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LTC4266CIUHF#TRPBF

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30
LTC4266A/LTC4266C
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4266acfd
For more information www.linear.com/LTC4266A
OPERATION
Figure 10. Power Over Ethernet System Diagram
To avoid damaging legacy data equipment that does not
expect to see DC voltage, the PoE spec defines a protocol
that determines when the PSE may apply and remove
power. Valid PDs are required to have a specific 25k
common-mode resistance at their input. When such a PD
is connected to the cable, the PSE detects this signature
resistance and turns on the power. When the PD is later
disconnected, the PSE senses the open circuit and turns
power off. The PSE also turns off power in the event of a
current fault or short-circuit.
When a PD is detected, the PSE optionally looks for a
classification signature that tells the PSE the maximum
power the PD will draw. The PSE can use this information
to allocate power among several ports, police the current
consumption of the PD, or to reject a PD that will draw
more power that the PSE has available. For a 802.3af PSE,
the classification step is optional; if a PSE chooses not to
classify a PD, it must assume that the PD is a 13W (full
802.3af power) device.
New in 802.3at
The newer 802.3at standard supersedes 802.3af and brings
several new features:
A PD may draw as much as 25.5W. Such PDs (and the
PSEs that support them) are known as Type 2. Older
13W 802.3af equipment is classified as Type 1. Type 1
PDs will work with all PSEs; Type 2 PDs may require
Type 2 PSEs to work properly. The LTC4266A/LTC4266C
is designed to work in both Type 1 and Type 2 PSE de-
signs, and also supports non-standard configurations
at higher power levels.
The Classification protocol is expanded to allow Type 2
PSEs to detect Type 2 PDs, and to allow Type 2 PDs to
determine if they are connected to a Type 2 PSE. Two
versions of the new Classification protocol are avail-
able: an expanded version of the 802.3af Class Pulse
protocol, and an alternate method integrated with the
existing LLDP protocol (using the Ethernet data path).
The LTC4266A/LTC4266C fully supports the new Class
Pulse protocol and is also compatible with the LLDP
protocol (which is implemented in the data communica-
tions layer, not in the PoE circuitry).
4266AC F10
Tx
Rx
Rx
Tx
DATA PAIR
DATA PAIR
V
EE
GATE
SPARE PAIR
SPARE PAIR
1/4
LTC4266
AGND
I
2
C
–54V
CAT 5
20Ω MAX
ROUNDTRIP
0.05µF MAX
RJ45
4
5
4
5
1
2
1
2
3
6
3
6
7
8
7
8
RJ45
PSE PD
PWRGD
–54V
OUT
LTC4265
GND
DC/DC
CONVERTER
+
V
OUT
GND
–54V
IN
LTC4266A/LTC4266C
17
4266acfd
For more information www.linear.com/LTC4266A
OPERATION
Fault protection current levels and timing are adjusted
to reduce peak power in the MOSFET during a fault;
this allows the new 25.5W power levels to be reached
using the same MOSFETs as older 13W designs.
Extended Power LTPoE
++
The LTC4266A adds the capability to autonomously deliver
up to 90W of power to the PD. LTPoE
++
PDs may forgo
802.3 LLDP support and rely solely on the LTPoE
++
Physi-
cal Classification to negotiate power with LTPoE
++
PSEs;
this greatly simplifies high-power PD implementations.
LTPoE
++
classification may be optionally enabled for the
LTC4266A by setting both the High Power Enable and
LTPoE
++
Enable bits.
The higher levels of LTPoE
++
delivery impose additional
layout and component selection constraints. The LTC4266A
is offered in 4 power levels (-1, -2, -3, and -4) which allows
the AUTO pin mode LTC4266A to autonomously power
up to supported power levels. If the AUTO pin is high,
internal circuitry determines the maximum deliverable
power. PDs requesting more than the available power
limits are not powered.
Table 1. LTPoE
++
Auto Pin Mode Maximum Delivered
Power Capabilities
PART PAIRS PD POWER
LTC4266A-1 4 38.7W
LTC4266A-2 4 52.7W
LTC4266A-3 4 70W
LTC4266A-4 4 90W
LTC4266A/LTC4266C
18
4266acfd
For more information www.linear.com/LTC4266A
APPLICATIONS INFORMATION
Operating Modes
The LTC4266A/LTC4266C include four independent ports,
each of which can operate in one of four modes: manual,
semi-auto, AUTO pin, or shutdown.
Table 2. Operating Modes
MODE
AUTO
PIN OPMD
DETECT/
CLASS POWER-UP
AUTOMATIC
I
CUT
/I
LIM
ASSIGNMENT
AUTO Pin 1 11b Enabled at
Reset
Automatically Yes
Reserved 0 11b N/A N/A N/A
Semi-auto 0 10b Host
Enabled
Upon
Request
No
Manual 0 01b Once Upon
Request
Upon
Request
No
Shutdown 0 00b Disabled Disabled No
In manual mode, the port waits for instructions from the
host system before taking any action. It runs a single
detection or classification cycle when commanded to
by the host, and reports the result in its Port Status
register. The host system can command the port to
turn on or off the power at any time. This mode should
only be used for diagnostic and test purposes.
In semi-auto mode, the port repeatedly attempts to
detect and classify any PD attached to it. It reports the
status of these attempts back to the host, and waits for
a command from the host before turning on power to
the port. The host must enable detection (and optionally
classification) for the port before detection will start.
AUTO pin mode operates the same as semi-auto mode
except that it will automatically turn on the power to the
port if detection is successful. In AUTO pin mode, I
CUT
and I
LIM
values are set automatically by the LTC4266A/
LTC4266C. This operational mode is only valid if the
AUTO pin is high at reset or power-up and remains high
during operation.
In shutdown mode, the port is disabled and will not
detect or power a PD.
Regardless of which mode it is in, the LTC4266A/LTC4266C
will remove power automatically from any port that gener-
ates a current limit fault. It will also automatically remove
power from any port that generates a disconnect event if
disconnect detection is enabled. The host controller may
also command the port to remove power at any time.
Reset and the AUTO/MID Pins
The initial LTC4266A/LTC4266C configuration depends on
the state of the AUTO and MID pins during reset. Reset oc-
curs at power-up, or whenever the RESET pin is pulled low
or the global Reset All bit is set. Changing the state of AUTO
or MID after power-up will not properly change the port
behavior of the LTC4266A/LTC4266C until a reset occurs.
Although typically used with a host controller, the
LTC4266A/LTC4266C can also be used in a standalone
mode with no connection to the serial interface. If there is
no host present, the AUTO pin must be tied high so that, at
reset, all ports will be configured to operate automatically.
Each port will detect and classify repeatedly until a PD is
discovered, set I
CUT
and I
LIM
according to the classifica-
tion results, apply power after successful detection, and
remove power when a PD is disconnected.
Table 3 shows the I
CUT
and I
LIM
values that will be auto-
matically set in standalone (AUTO pin) mode, based on
the discovered class.
Table 3. I
CUT
and I
LIM
Values in Standalone AUTO Pin Mode
CLASS I
CUT
I
LIM
Class 1 112mA 425mA
Class 2 206mA 425mA
Class 3 or Class 0 375mA 425mA
Class 4 638mA 850mA
The automatic setting of the I
CUT
and I
LIM
values only oc-
curs if the LTC4266A/LTC4266C is reset with the AUTO
pin high.
If the standalone application is a midspan, the MID pin must
be tied high to enable correct midspan detection timing.
DETECTION
Detection Overview
To avoid damaging network devices that were not designed
to tolerate DC voltage, a PSE must determine whether
the connected device is a real PD before applying power.
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30

LTC4266CIUHF#TRPBF

Mfr. #:
Buy LTC4266CIUHF#TRPBF
Manufacturer:
Analog Devices Inc.
Description:
Power Switch ICs - POE / LAN PoE 13W Quad PSE Controller
Lifecycle:
New from this manufacturer.
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