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FeaTures

LTC4269-2

IEEE 802.3at High Power PD

and Synchronous Forward

Controller with AUX Support

DescripTion

The LTC

4269-2 is an integrated Powered Device (PD)

interface and power supply controller featuring 2-event

classification signaling, flexible auxiliary power op-

tions, and a power supply controller suitable for syn-

chronously rectified forward supplies. These features

make the LTC4269-2 ideally suited for an IEEE802.3at

PD application.

The PD controller features a 100V MOSFET that isolates

the power supply during detection and classification, and

provides 100mA inrush current limit. Also included are

power good outputs, an undervoltage/overvoltage lock-

out and thermal protection. The current mode forward

controller allows for synchronous rectification, resulting

in an extremely high efficiency, green product. Soft-start

for controlled output voltage start-up and fault recovery is

included. Programmable frequency over 100kHz to 500kHz

allows flexibility in efficiency vs size and low EMI.

LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks and

Hot Swap, ThinSOT are trademarks of Linear Technology Corporation. All other trademarks

are the property of their respective owners.

25.5W IEEE 802.3at Compliant (Type-2) PD

PoE

2-Event Classification

IEEE 802.3at

High Power Available

Indicator

Integrated State-of-the-Art Synchronous Forward

Controller

– Isolated Power Supply Efficiency >94%

Flexible Auxiliary Power Interface

Superior EMI Performance

Robust 100V 0.7Ω (Typ) Integrated Hot Swap™

MOSFET

Integrated Signature Resistor, Programmable Class

Current, UVLO, OVLO and Thermal Protection

Short-Circuit Protection with Auto-Restart

Programmable Switching Frequency from

100kHz to 500kHz

Thermally Enhanced 7mm

4mm DFN Package

applicaTions

IP Phones with Large Color Screens

Dual Radio 802.11n Access Points

PTZ Security Cameras

Typical applicaTion

PoE-Based Self-Driven Synchronous Forward Power Supply

1mH

•

10µH

6.8µH

•

2.2µF

33k

0.1µF

10µF

133

SD_V

SEC

PWRGD V

PORTP

OUT

10k

4.7nF

•

5.1

220µF

10µF

237k

10.0k

54V FROM

DATA PAIR

~ +

~ –

~ +

~ –

0.1µF

30.9

OUT

54V FROM

SPARE PAIR

SENSE

1.5k

33k

22k

1.2k

22.1k

0.1µF

0.22µF

TLV431

50m

4.7nF

10nF

11.3k

CLASS

SHDN

PORTN

LTC4269-2

COMP

REF

T2P

NEG

PGND GND BLANK DELAY R

OSC

SS_MAXDC

82k

332k

158k

3.65k

42692 TA01

MICRO-

CONTROLLER

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LTC4269-2

absoluTe MaxiMuM raTings

(Notes 1, 2)

pin conFiguraTion

TOP VIEW

SHDN 1

T2P

CLASS

NC 4

PORTN

NC 7

NC 8

COMP 9

FB 10

OSC

SYNC 12

SS_MAXDC 13

REF

SD_V

SEC

GND 16

32 V

PORTP

31 NC

30 NC

PWRGD

28 PWRGD

27 V

NEG

26 V

NEG

25 NC

24 SOUT

23 V

22 OUT

21 PGND

20 DELAY

19 OC

18 I

SENSE

17 BLANK

Pins with Respect to V

PORTN

PORTP

Voltage ........................................ –0.3V to 100V

NEG

Voltage ......................................... –0.3V to V

PORTP

NEG

Pull-Up Current ..................................................1A

SHDN ....................................................... –0.3V to 100V

CLASS

, Voltage ........................................... –0.3V to 7V

CLASS

Source Current ..........................................50mA

PWRGD Voltage (Note 3)

Low Impedance Source .... V

NEG

– 0.3V to V

NEG

+ 11V

Sink Current .........................................................5mA

PWRGD, T2P

Voltage ............................... –0.3V to 100V

PWRGD, T2P

Sink Current .....................................10mA

Pins with Respect to GND

(Note 4)................................................ –0.3V to 25V

SYNC, SS_MAXDC, SD_V

SEC

SENSE

, OC .................................................... –0.3V to 6V

COMP, BLANK, DELAY .............................. –0.3V to 3.5V

FB ................................................................ –0.3V to 3V

OSC

Current ........................................................ –50µA

REF

Source Current ..............................................10mA

Operating Ambient Temperature Range

LTC4269C-2 ............................................. 0°C to 70°C

LTC4269I-2 ..........................................–40°C to 85°C

DKD PACKAGE

32-LEAD (7mm 4mm) PLASTIC DFN

JMAX

= 125°C,

= 34°C/W,

= 2°C/W

EXPOSED PAD (PIN 33) MUST BE SOLDERED TO

HEAT SINKING PLANE THAT IS CONNECTED TO GND

orDer inForMaTion

LEAD FREE FINISH

LTC4269CDKD-2#PBF

LTC4269IDKD-2#PBF

LEAD BASED FINISH

LTC4269CDKD-2

LTC4269IDKD-2

TAPE AND REEL

LTC4269CDKD-2#TRPBF

LTC4269IDKD-2#TRPBF

TAPE AND REEL

LTC4269CDKD-2#TR

LTC4269IDKD-2#TR

PART MARKING*

42692

PART MARKING*

42692

PACKAGE DESCRIPTION

32-Lead (7mm

4mm) Plastic DFN

32-Lead (7mm

4mm) Plastic DFN

PACKAGE DESCRIPTION

32-Lead (7mm

4mm) Plastic DFN

32-Lead (7mm

4mm) Plastic DFN

TEMPERATURE RANGE

0°C to 70°C

–40°C to 85°C

TEMPERATURE RANGE

0°C to 70°C

–40°C to 85°C

Consult LTC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container.

For more information on lead free part marking, go to:

http://www.linear.com/leadfree/

For more information on tape and reel specifications, go to:

http://www.linear.com/tapeandreel/

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LTC4269-2

elecTrical characTerisTics

PARAMETER

Interface Controller (Note 5)

Operating Input Voltage

Signature Range

Classification Range

On Voltage

Undervoltage Lockout

Overvoltage Lockout

ON/UVLO Hysteresis Window

Signature/Class Hysteresis Window

Reset Threshold

Supply Current

Supply Current at 57V

Class O Current

Signature

Signature Resistance

Invalid Signature Resistance, SHDN Invoked

Invalid Signature Resistance During Mark Event

Classification

Class Accuracy

Classification Stability Time

Normal Operation

Inrush Current

Power FET On-Resistance

Power FET Leakage Current at V

NEG

Digital Interface

SHDN Input High Level Voltage

SHDN Input Low Level Voltage

SHDN Input Resistance

PWRGD, T2P

Output Low Voltage

PWRGD, T2P

Leakage Current

PWRGDP Output Low Voltage

PWRGDP Clamp Voltage

PWRGDP Leakage Current

PWM Controller (Note 11)

Operational Input Voltage

Quiescent Current

Start-Up Current

Shutdown Current

SD_V

SEC

Threshold

VREF

= 0µA

VREF

= 0µA, I

SENSE

= OC = Open

FB = 0V, SS_MAXDC = 0V (Notes 12, 13)

SD_V

SEC

= 0V (Notes 12, 13)

10V < SD < 25V

The

denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C.

CONDITIONS

At V

PORTP

(Note 6)

MIN

TYP

MAX

9.8

21.0

37.2

UNITS

1.5

12.5

30.0

4.1

1.4

2.57

71.0

State Machine Reset for 2-Event Classification

Measured at V

PORTP

= 17.5V, No R

CLASS

Resistor

1.5V ≤ V

PORTP

≤ 9.8V (Note 7)

1.5V ≤ V

PORTP

≤ 9.8V, V

SHDN

= 3V (Note 7)

(Notes 7, 8)

10mA < I

CLASS

< 40mA, 12.5V < V

PORTP

< 21V

(Notes 9, 10)

PORTP

Pin Step to 17.5V, R

CLASS

= 30.9Ω,

CLASS

within 3.5% of Ideal Value (Notes 9, 10)

PORTP

= 54V, V

NEG

= 3V

Tested at 600mA into V

NEG

, V

PORTP

= 54V

PORTP

= SHDN = V

NEG

= 57V

5.40

1.35

0.40

kΩ

23.25

26.00

±3.5

100

0.7

180

1.0

µA

0.45

100

0.15

0.4

12.0

16.5

kΩ

µA

PORTP

= 9.8V, SHDN = 9.65V

Tested at 1mA, V

PORTP

= 57V, For

T2P,

Must

Complete 2-Event Classification to See Active Low

Pin Voltage Pulled 57V, V

PORTP

= V

PORTN

= 0V

Tested at 0.5mA, V

PORTP

= 52V, V

NEG

= 4V, Output

Voltage is with Respect to V

NEG

Tested at 2mA, V

NEG

= 0V, Voltage is with Respect

to V

NEG

PWRGD

= 11V, V

NEG

= 0V, Voltage is with Respect

to V

NEG

IN(OFF)

5.2

460

240

1.261

1.32

6.5

700

350

1.379

µA

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LTC4269-2

elecTrical characTerisTics

PARAMETER

SD_V

SEC(ON)

Current

SD_V

SEC(OFF)

Current

IN(ON)

IN(OFF)

IN(HYST)

REF

Output Voltage

Line Regulation

Load Regulation

Oscillator

Frequency, f

OSC

OSC(MIN)

OSC(MAX)

SYNC Input Resistance

SYNC Switching Threshold

SYNC Frequency/f

OSC

Line Regulation

ROSC

Error Amplifier

FB Reference Voltage

FB Input Bias Current

Open-Loop Voltage Gain

Unity-Gain Bandwidth

COMP Source Current

COMP Sink Current

COMP Current (Disabled)

COMP High Level V

COMP Active Threshold

COMP Low Level V

Current Sense

SENSE

Maximum Threshold

SENSE

Input Current (Duty Cycle = 0%)

SENSE

Input Current (Duty Cycle = 80%)

OC Threshold

OC Input Current

Default Blanking Time

Adjustable Blanking Time

BLANK

SOUT Driver

SOUT Clamp Voltage

SOUT Low Level

GATE

= 0µA, COMP = 2.5V, FB = 1V

GATE

= 25mA

10.54

0.5

13.5

0.75

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The

denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C.

CONDITIONS

SD_V

SEC

= SD_V

SEC

Threshold +100mV

SD_V

SEC

= SD_V

SEC

Threshold – 100mV

MIN

8.3

TYP

14.25

8.75

MAX

11.7

15.75

9.25

7.0

2.575

240

120

560

2.2

1.5

0.33

UNITS

µA

kHz

kΩ

%/V

3.75

2.425

5.5

2.5

VREF

= 0

VREF

= 0, 10V < V

< 25V

0mA < I

VREF

< 2.5mA

OSC

= 178k, FB = 1V, SS_MAXDC = 1.84V

OSC

= 365k, FB = 1V

OSC

= 64.9k, COMP = 2.5V, SD_V

SEC

= 2.64V

FB = 1V

FB = 1V (Note 14)

OSC

= 178k; 10V < V

< 25V, SS_MAXDC = 1.84V

OSC

Pin Voltage

10V < V

< 25V, V

+ 0.2V < COMP < V

– 0.2

FB = FB Reference Voltage

+ 0.2V < COMP < V

– 0.2

(Note 15)

FB = 1V, COMP = 1.6V

COMP = 1.6V

FB = V

REF

, COMP = 1.6V

FB = 1V, I

COMP

= –250µA

FB = 1V, SOUT Duty Cycle > 0%

COMP

= 250µA

COMP = 2.5V, FB =1V

COMP = 2.5V, FB = 1V (Note 12)

COMP = 2.5V, FB = 1V

(OC = 100mV)

COMP = 2.5V, FB = 1V, R

BLANK

= 40k (Note 16)

COMP = 2.5V, FB = 1V, R

BLANK

= 120k

165

440

200

100

500

1.5

1.25

0.05

1.201

–4

2.7

0.7

1.226

-75

–9

3.2

0.8

0.15

1.250

-200

MHz

µA

0.4

243

µA

197

220

–8

–35

107

–50

180

540

116

–100

LTC4269-2

elecTrical characTerisTics

PARAMETER

SOUT High Level

SOUT Active Pull-Off in Shutdown

SOUT to OUT (Rise) DELAY (t

DELAY

)

DELAY

OUT Driver

OUT Rise Time

OUT Fall Time

OUT Clamp Voltage

OUT Low Level

OUT High Level

OUT Active Pull-Off in Shutdown

OUT Max Duty Cycle

OUT Max Duty Cycle Clamp

FB = 1V, C

= 1nF (Notes 15, 16)

FB = 1V, C

= 1nF (Notes 15, 16)

GATE

= 0µA, COMP = 2.5V, FB = 1V

GATE

= 20mA

GATE

= 200mA

GATE

= –20mA, V

= 12V COMP = 2.5V, FB = 1V

GATE

= –200mA, V

= 12V COMP = 2.5V, FB = 1V

= 5V, SD_V

SEC

= 0V, OUT = 1V

COMP = 2.5V, FB = 1V, R

DELAY

= 10k (f

OSC

= 200kHz),

= 10V, SD_V

SEC

= 1.4V, SS_MAXDC = V

REF

COMP = 2.5V, FB = 1V, R

DELAY

= 10k (f

OSC

= 200kHz),

= 10V

SD_V

SEC

= 1.32V, SS_MAXDC = 1.84V

SD_V

SEC

= 2.64V, SS_MAXDC = 1.84V

SS_MAXDC

= 150µA, OC = 1V

Measured on SS_MAXDC

FB + 1V, DC > 0%

SS_MAXDC = 1V, SD_V

SEC

= 1.4V, OC = 1V

9.9

9.75

11.5

0.45

1.25

14.5

0.75

1.8

The

denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C.

CONDITIONS

GATE

= –25mA, V

= 12V COMP = 2.5V, FB = 1V

= 5V, SD_V

SEC

= 0V, SOUT = 1V

COMP = 2.5V, FB = 1V (Note 16)

DELAY

= 120k

MIN

120

0.9

TYP

MAX

UNITS

63.5

0.2

0.45

0.8

800

80.5

µA

Soft-Start

SS_MAXDC Low Level: V

SS_MAXDC Soft-Start Reset Threshold

SS_MAXDC Active Threshold

SS_MAXDC Input Current

(Soft-Start Pull-Down: I

DIS

)

Note 1:

Stresses beyond those listed under Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to any Absolute

Maximum Rating condition for extended periods may affect device

reliability and lifetime.

Note 2:

Pins with 100V absolute maximum guaranteed for T ≥ 0°C,

otherwise 90V.

Note 3:

PWRGD voltage clamps at 14V with respect to V

NEG

Note 4:

In applications where the V

pin is supplied via an external RC

network from a system V

> 25V, an external Zener with clamp voltage

IN ON(MAX)

< V

< 25V should be connected from the V

pin to GND.

Note 5:

All voltages are with respect to V

PORTN

pin unless otherwise noted.

Note 6:

Input voltage specifications are defined with respect to LTC4269-2

pins and meet IEEE 802.3af/at specifications when the input diode bridge

is included.

Note 7:

Signature resistance is measured via the

∆V/∆I

method with the

minimum

∆V

of 1V. The LTC4269-2 signature resistance accounts for the

additional series resistance in the input diode bridge.

Note 8:

An invalid signature after the 1st classification event is mandated

by IEEE 802.3at standard. See the Applications Information section.

Note 9:

Class accuracy is respect to the ideal current defined as

1.237/R

CLASS

and does not include variations in R

CLASS

resistance.

Note 10:

This parameter is assured by design and wafer level testing.

Note 11:

Voltages are with respect to GND unless otherwise specified.

Tested with COMP open, V

= 1.4V, R

ROSC

= 178k, V

SYNC

= 0V, V

SS(MAXDC)

set to V

REF

(but electrically isolated), C

VREF

= 0.1µF V

SD_VSEC

= 2V, R

BLANK

= 121k, R

DELAY

= 121k, V

ISENSE

= 0V, V

= 0V, C

OUT

= 1nF V

= 15V,

SOUT open, unless otherwise specified.

Note 12:

Guaranteed by correlation to static test.

Note 13:

start-up current is measured at V

= V

IN(ON)

– 0.25V and

scaled by

1.18 (to correlate to worst-case V

start-up current at V

IN(ON)

Note 14:

Maximum recommended SYNC frequency = 500kHz.

Note 15:

Guaranteed but not tested.

Note 16:

Timing for R = 40k derived from measurement with R = 240k.

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