LTC1550LIGN Linear Technology, LTC1550LIGN Datasheet - Page 8

LTC1550LIGN

Manufacturer Part Number

LTC1550LIGN

Description

IC VOLT INV REGLTD SW-CAP 16SSOP

Manufacturer

Linear Technology

Type

Switched Capacitor (Charge Pump), Invertingr

Datasheet

1.LTC1550LCS8.pdf (12 pages)

Specifications of LTC1550LIGN

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

Adjustable

Current - Output

20mA

Frequency - Switching

900kHz

Voltage - Input

2.7 ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SSOP

Output Voltage

AdjV

Output Current

20mA

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (max)

5.25V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Package Type

SSOP

Pin Count

Mounting

Surface Mount

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

Lead Free Status / Rohs Status

Not Compliant

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Part Number

Manufacturer

Quantity

Price

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Part Number:

LTC1550LIGN

Manufacturer:

Quantity:

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Part Number:

LTC1550LIGN

Manufacturer:

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Current page: 8 of 12
Download datasheet (238Kb)

LTC1550L/LTC1551L

APPLICATIONS

The LTC1550L/LTC1551L consist of two major blocks

(see Block Diagram): an inverting charge pump and a

negative linear regulator. The charge pump uses two

external capacitors, C1 and C

voltage at CP

C1 on alternate phases of the internal 900kHz clock. C1 is

initially charged to V

the internal clock changes phase, S1 and S3 open and S2

and S4 close, shorting the positive side of C1 to ground.

This forces the negative side of C1 below ground, and

charge is transferred to C

repeats, the magnitude of the negative voltage approaches

out of the 400kHz to 600kHz IF bands commonly used by

portable radio frequency systems and reduces the size of

the external capacitors required. Most applications can

use standard 0.1 F ceramic capacitors for C1 and C

Increasing C1 and C

output ripple or the output current capacity of the

LTC1550L/LTC1551L.

The negative voltage at CP

negative regulator block. This block consists of an

N-channel MOSFET pass device and a feedback amplifier

that monitors the output voltage and compares it to the

internal reference. The regulated output appears at the

sient response, enabling it to remove most of the switch-

ing artifacts present at the CP

typically below 1mV

and 10mA. The output voltage is set by a pair of internal

divider resistors for the fixed voltage versions. The N-

channel pass device minimizes dropout, allowing the

output to remain in regulation with supply voltages as low

as 2.7V for an output voltage of –2V. An output capacitor

of at least 4.7 F from V

the regulator loop stable; for optimum stability and mini-

mum output ripple, at least 10 F is recommended.

Adjustable Hook-Up

For the adjustable LTC1550L/LTC1551L, the output volt-

age is set with a resistor divider from GND to V

(Figure 2). Note that the internal reference and the internal

feedback amplifier are set up as a positive-output regula-

tor referenced to the V

OUT

. The 900kHz internal clock frequency helps keep noise

pin. The regulation loop is optimized for fast tran-

OUT

. It operates by charging and discharging

P-P

OUT

beyond 0.1 F has little effect on the

through switches S1 and S3. When

OUT

with output loads between 0mA

INFORMATION

pin, not as a negative regulator

OUT

to ground is required to keep

through S4. As this cycle

OUT

supplies the input to the

to generate a negative

pin. Output ripple is

OUT

referenced to ground. The output resistor divider must be

set to provide 1.225V at the ADJ pin with respect to V

For example, a – 3V output would require a 17.4k resistor

from GND to ADJ, and a 12.1k resistor to V

CAPACITOR SELECTION

The LTC1550L/LTC1551L requires four external capaci-

tors: an input bypass capacitor, two 0.1 F charge pump

capacitors and an output filter capacitor. The overall

behavior of the LTC1550L/LTC1551L is strongly affected

by how the capacitors are used, and by how the capacitors

are laid out on the printed circuit board (PCB). In particu-

lar, the output capacitor’s value and ESR have a significant

effect on the output ripple and noise performance. In

addition, the ground connections for the V

capacitor, the CP

pacitor must employ star-ground techniques at the GND

pin of the LTC1550L/LTC1551L. Proper capacitor selec-

tion is critical for optimum performance of the LTC1550L/

LTC1551L.

Output Ripple vs Output Capacitor

Figure 4 shows the effect of using different output capaci-

tor values on the LTC1550L/LTC1551L output ripple.

These curves are taken using the LTC1551L circuit in

Figure 3, with C

curve shows the performance with a standard tantalum

capacitor alone and the lower curve shows that of the

tantalum capacitor in parallel with a 0.1 F ceramic capaci-

tor. As a general rule, larger output capacitors provide

lower output ripple. To keep output voltage ripple below

1mV

capacitor is required. To guarantee loop stability under all

conditions, a minimum of 4.7 F is required at the output.

P–P

, 10 F, or greater, in parallel with a 0.1 F ceramic

LTC1550L

Figure 2. External Resistor Connections

PGND, AGND

OUT

ADJ

OUT

= 2.2 F and I

capacitor and the V

OUT

LOAD

= –1.225V

= 5mA. The upper

1550L/51L • F02

OUT

R1 + R2

OUT

bypass ca-

bypass

OUT

LTC1550LIGN Linear Technology, LTC1550LIGN Datasheet - Page 8

LTC1550LIGN

Specifications of LTC1550LIGN

Available stocks

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