LTC1530IS8#TRPBF Linear Technology, LTC1530IS8#TRPBF Datasheet - Page 16

LTC1530IS8#TRPBF

Manufacturer Part Number

LTC1530IS8#TRPBF

Description

IC SW REG CNTRLR SYNC ADJ 8-SOIC

Manufacturer

Linear Technology

Type

Step-Down (Buck)r

Datasheet

1.LTC1530CS8PBF.pdf (24 pages)

Specifications of LTC1530IS8#TRPBF

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

1.3 ~ 3.5 V

Current - Output

20A

Frequency - Switching

300kHz

Voltage - Input

3.3V, 5V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

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APPLICATIO S I FOR ATIO

LTC1530

Table 3. Suggested Compensation Network for a 5V Input

Application Using Multiple Paralleled 1500 F SANYO MV-GX

Output Capacitors for 2.5V Output

Note: For different values of V

multiply the C

crossover frequency for the closed-loop transfer function.

Thermal Considerations

Limit the LTC1530’s junction temperature to less than

125 C. The LTC1530’s SO-8 package is rated at 130 C/W

and care must be taken to ensure that the worst-case input

voltage and gate drive load current requirements do not

cause excessive die temperatures. Short-circuit or fault

conditions may activate the internal thermal shutdown

circuit.

LAYOUT CONSIDERATIONS

When laying out the printed circuit board (PCB), the

following checklist should be used to ensure proper

operation of the LTC1530. These items are illustrated

graphically in the layout diagram of Figure 9. The thicker

lines show the high current power paths. Note that at 10A

current levels or above, current density in the PCB itself is

a serious concern. Traces carrying high current should be

as wide as possible. For example, a PCB fabricated with

2oz copper requires a minimum trace width of 0.15" to

carry 10A, and only if trace length is kept short.

1. In general, begin the layout with the location of the

power devices. Orient the power circuitry so that a

clean power flow path is achieved. Maximize conduc-

tor widths but minimize conductor lengths. Keep high

current connections on one side of the PCB if possible.

If not, minimize the use of vias and keep the current

density in the vias to <1A/via, preferably < 0.5A/via.

2.7

5.6

( H)

and C1 values by 2.5/V

4500

6000

9000

4500

6000

9000

4500

6000

9000

( F)

OUT

, multiply the R

8.2

(k )

OUT

. This maintains the same

0.022

0.01

value by V

( F)

OUT

C1 (pF)

/2.5 and

470

330

220

150

100

2. Tie the GND pin to the ground plane at a single point,

3. Locate the small signal resistor and capacitors used for

4. Place the PV

5. Connect the (+) plate of C

6. The V

7. Kelvin sense I

8. Minimize the length of the gate lead connections.

After achieving a satisfactory power path layout, pro-

ceed with the control circuitry layout. It is much easier

to find routes for the relatively small traces in the

control circuits than it is to find circuitous routes for

high current paths.

preferably at a fairly quiet point in the circuit, such as the

bottom of the output capacitors. However, this is not

always practical due to physical constraints. Connect

the low side source to the input capacitor ground.

Connect the input and output capacitor to the ground

plane. Run a separate trace for the low side FET source

to the input capacitors. Do not tie this single point

ground in the trace run between the low side FET source

and the input capacitor ground. This area of the ground

plane is very noisy.

frequency compensation close to the COMP pin. Use a

separate ground trace for these components that ties

directly to the GND pin of the LTC1530. Do not connect

these components to the ground plane!

LTC1530 as possible. The 10 F bypass capacitor shown

at PV

by minimizing ripple at the PV

drain of the upper MOSFET. LTC recommends an

additional 1 F low ESR ceramic capacitor between V

and power ground.

switching node. Care must be taken to isolate this pin

from capacitive coupling to the high current inductor

switching signals. A 0.1 F is recommended between

the V

fixed voltage versions. For the adjustable voltage ver-

sion, keep the resistor divider close to the LTC1530.

The bottom resistor’s ground connection should tie

directly to the LTC1530’s GND pin.

of Q1.

OUT

SENSE

helps provide optimum regulation performance

pin and the GND pin directly at the LTC1530 for

OUT

MAX

decoupling capacitor as close to the

pin is very sensitive to pickup from the

and I

at the drain and source pins

as close as possible to the

pin.

1530fa

LTC1530IS8#TRPBF Linear Technology, LTC1530IS8#TRPBF Datasheet - Page 16

LTC1530IS8#TRPBF

Specifications of LTC1530IS8#TRPBF

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