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LT1425

TI   I  G DIAGRA   

W

W

U

V

SW

VOLTAGE

V

IN

GND

OFF

ON

 MINIMUM t

ON

 ENABLE DELAY

 MINIMUM ENABLE TIME

1425 TD

OFF

ON

SWITCH

STATE

FLYBACK AMP

STATE

0.80

×

V

FLBK

V

FLBK

COLLAPSE
DETECT

ENABLED

DISABLED

DISABLED

OPERATIO

N

U

The LT1425 is a current mode switching regulator IC  that
has been designed specifically for the isolated flyback
topology. The special problem normally encountered in
such circuits is that information relating to the output
voltage on the isolated secondary side of the transformer
must be communicated to the primary side in order to
maintain regulation. Historically, this has been done with
optoisolators or extra transformer windings. Optoisolator
circuits waste output power and the extra components
they require increase the cost and physical volume of the
power supply. Optoisolators can also exhibit trouble due
to limited dynamic response (temporal), nonlinearity,
unit-to-unit variation and aging over life. Circuits
employing extra transformer windings also exhibit defi-
ciencies. The extra winding adds to the transformer’s
physical size and cost. Dynamic response is often
mediocre. There is usually no method for maintaining
load regulation versus load.

The LT1425 derives its information about the isolated
output voltage by examining the primary side flyback
pulse waveform. In this manner no optoisolator nor extra
transformer winding is required. This IC is a quantum
improvement over previous approaches because: target
output voltage is directly resistor-programmable, regu-
lation is maintained well into discontinuous mode and
optional load compensation is available.

The Block Diagram shows an overall view of the system.
Many of the blocks are similar to those found in tradi-
tional designs including: internal bias regulator, oscilla-
tor, logic, current amplifier and comparator, driver and
output switch. The novel sections include a special
flyback error amplifier and a load compensation mecha-
nism. Also, due to the special dynamic requirements of
flyback control, the logic system contains additional
functionality not found in conventional designs.

Summary of Contents for LT1425

Page 1: ...6W with no external power devices Byutilizingcurrentmodeswitchingtechniques it provides excellent AC and DC line regulation The LT1425 has a number of features not found on other switching regulator I...

Page 2: ...tion 5V VIN 18V 0 01 0 04 V Voltage Gain Note 3 500 V V VIN Sense Error 10 25 mV Output Switch BV Output Switch Breakdown Voltage IC 5mA 35 50 V V VSW Output Switch ON Voltage ISW 1A 0 55 0 85 V ILIM...

Page 3: ...Voltage vs Switch Current TEMPERATURE C 50 3 1 3 0 2 9 2 8 2 7 2 6 2 5 2 4 25 75 1425 G03 25 0 50 100 125 INPUT VOLTAGE V Switch Current Limit vs Duty Cycle Minimum Input Voltage vs Temperature SWITC...

Page 4: ...Temperature SHDN Pin Input Current vs Voltage Minimum Synchronization Voltage vs Temperature TEMPERATURE C 50 300 295 290 285 280 275 270 265 25 75 1425 G07 25 0 50 100 125 SWITCHING FREQUENCY kHz TEM...

Page 5: ...nd This pin is a clean ground The internal reference and feedback amplifier are referred to it Keep the ground path connection to RREF and the VC compensation capacitor free of large ground currents P...

Page 6: ...VSW VC CEXT RFB RFB RREF RREF VBG Q4 D2 Q1 Q2 Q3 VIN I IM IM IFXD ENABLE 1425 EA LOAD COMPENSATION CURRENT AMPLIFIER DRIVER LOGIC 285kHz OSCILLATOR 2 6V REGULATOR SHDN FLYBACK ERROR AMPLIFIER COMP RCC...

Page 7: ...tra transformer windings also exhibit defi ciencies The extra winding adds to the transformer s physical size and cost Dynamic response is often mediocre There is usually no method for maintaining loa...

Page 8: ...n in the overall loop will then cause the voltage at the RREF resistor to be nearly equal to the bandgap reference VBG VBG is not present in final output voltage setting equation See Applications Info...

Page 9: ...for fur ther details Enable Delay When the output switch shuts off the flyback pulse appears However it takes a finite time until the trans formerprimarysidevoltagewaveformapproximatelyrep resents th...

Page 10: ...voltage terms in a single variable IIN K1 IOUT where K1 VOUT VIN Eff Switch current is converted to voltage by a sense resistor and amplified by the current sense amplifier with associ ated gain G Thi...

Page 11: ...henewcompensationinplace Modify the original ROCOMP value if necessary to increase or decrease the effective compensation Once the proper load compensation resistor has been chosen it may be necessary...

Page 12: ...m So the user is generally advised to arrange the snubber circuit to clamp at as high a voltage as comfortably possible observing switch breakdown such that leakage spike duration is as short as possi...

Page 13: ...ble state whereby the top of the leakage spike is the control point and the trailing edge of the leakage spike triggers the collapse detect circuitry This will typically reduce the output volt age abr...

Page 14: ...kage Inductance Leakage inductance on the transformer secondary reduces the effective primary to secondary turns ratio NP NS from its ideal value This will increase the output voltage target by a simi...

Page 15: ...MIN where f Switching frequency nominally 285kHz LSEC Transformer secondary side inductance VOUT Output voltage tED Enable delay time tEN Minimum enable time tED tEN 2 Note that generally depending on...

Page 16: ...se but is then held during the subsequent switch ON portion of the nextcycle ThisactionnaturallyholdstheVC voltagestable duringthecurrentcomparatorsenseaction currentmode switching PCB LAYOUT CONSIDER...

Page 17: ...nce to discharge to 11V Feedback voltage is fed directly through a resistor divider to the RREF pin The load compensation circuitry is bypassed resulting in 5 load regulation Finally the 12V to 5V Iso...

Page 18: ...2 F 35V 15 F 35V 3k 15 F 35V 1000pF 0 1 F 130 330pF 9 MBR0540LT1 1425 TA06 BAV21 BAV21 MUR120 LT1425 5k 18 MBR745 10 4 7 8 T1 3 2 1 GND NC RFB VC RREF SYNC SGND GND GND SHDN ROCOMP RCCOMP VIN VSW PGND...

Page 19: ...rwise noted S Package 16 Lead Plastic Small Outline Narrow 0 150 LTC DWG 05 08 1610 0 016 0 050 0 406 1 270 0 010 0 020 0 254 0 508 45 0 8 TYP 0 008 0 010 0 203 0 254 1 2 3 4 5 6 7 8 0 150 0 157 3 810...

Page 20: ...Flyback Regulators Uses Ultrasmall Magnetics LT1424 Application Specific Isolated Regulator 8 Pin Fixed Voltage Version of LT1425 220 F 10V 1425 TA05 LT1425 MBRS340T3 2 5 1 4 6 3 10 7 11 8 12 9 GND NC...

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