LTC1709-9 Linear Technology, LTC1709-9 Datasheet - Page 15

LTC1709-9

Manufacturer Part Number

LTC1709-9

Description

2-Phase/ 5-Bit VID/ Current Mode/ High Efficiency/ Synchronous Step-Down Switching Regulators

Manufacturer

Linear Technology

Datasheet

1.LTC1709-9.pdf (28 pages)

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APPLICATIO S I FOR ATIO

Where f = operating frequency of each stage, C

output capacitance and I

ripple currents.

The output ripple varies with input voltage since I

function of input voltage. The output ripple will be less than

50mV at max V

The emergence of very low ESR capacitors in small,

surface mount packages makes very physically small

implementations possible. The ability to externally com-

pensate the switching regulator loop using the I

pin(OPTI-LOOP compensation) allows a much wider se-

lection of output capacitor types. OPTI-LOOP compensa-

tion effectively removes constraints on output capacitor

ESR. The impedance characteristics of each capacitor

type are significantly different than an ideal capacitor and

therefore require accurate modeling or bench evaluation

during design.

Manufacturers such as Nichicon, United Chemicon and

Sanyo should be considered for high performance

through-hole capacitors. The OS-CON semiconductor

dielectric capacitor available from Sanyo and the Panasonic

SP surface mount types have the lowest (ESR)(size)

product of any aluminum electrolytic at a somewhat

higher price. An additional ceramic capacitor in parallel

with OS-CON type capacitors is recommended to reduce

the inductance effects.

In surface mount applications, multiple capacitors may

have to be paralleled to meet the ESR or RMS current

handling requirements of the application. Aluminum elec-

trolytic and dry tantalum capacitors are both available in

surface mount configurations. New special polymer sur-

face mount capacitors offer very low ESR also but have

much lower capacitive density per unit volume. In the case

of tantalum, it is critical that the capacitors are surge tested

for use in switching power supplies. Several excellent

choices are the AVX TPS, AVX TPSV or the KEMET T510

series of surface mount tantalums, available in case heights

ranging from 2mm to 4mm. Other capacitor types include

Sanyo OS-CON, Nichicon PL series and Sprague 595D

OUT

required ESR < 4(R

> 1/(16f)(R

with I

SENSE

)

= 0.4I

SENSE

RIPPLE

OUT(MAX)

) and

= combined inductor

/2 assuming:

OUT

is a

series. Consult the manufacturer for other specific recom-

mendations. A combination of capacitors will often result

in maximizing performance and minimizing overall cost

and size.

INTV

An internal P-channel low dropout regulator produces 5V

at the INTV

regulator powers the drivers and internal circuitry of the

LTC1709. The INTV

peak and must be bypassed to power ground with a

minimum of 4.7 F tantalum or electrolytic capacitor. An

additional 1 F ceramic capacitor placed very close to the

IC is recommended due to the extremely high instanta-

neous currents required by the MOSFET gate drivers.

High input voltage applications in which large MOSFETs

are being driven at high frequencies may cause the maxi-

mum junction temperature rating for the LTC1709 to be

exceeded. The supply current is dominated by the gate

charge supply current, in addition to the current drawn

from the differential amplifier output. The gate charge is

dependent on operating frequency as discussed in the

Efficiency Considerations section. The supply current can

either be supplied by the internal 5V regulator or via the

EXTV

is less than 4.7V, all of the INTV

by the internal 5V linear regulator. Power dissipation for

the IC is higher in this case by (I

efficiency is lowered. The junction temperature can be

estimated by using the equations given in Note 1 of the

Electrical Characteristics. For example, the LTC1709 V

current is limited to less than 24mA from a 24V supply:

Use of the EXTV

to:

The input supply current should be measured while the

controller is operating in continuous mode at maximum

prevent the maximum junction temperature from being

exceeded.

and the power dissipation calculated in order to

= 70 C + (24mA)(24V)(85 C/W) = 119 C

= 70 C + (24mA)(5V)(85 C/W) = 80.2 C

Regulator

pin. When the voltage applied to the EXTV

pin from the V

LTC1709-8/LTC1709-9

pin reduces the junction temperature

pin regulator can supply up to 50mA

supply pin. The INTV

load current is supplied

)(V

– INTV

) and

LTC1709-9 Linear Technology, LTC1709-9 Datasheet - Page 15

LTC1709-9

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