LTM8026_1208 LINER [Linear Technology], LTM8026_1208 Datasheet - Page 15

LTM8026_1208

Manufacturer Part Number

LTM8026_1208

Description

36VIN, 5A CVCC Step-Down ?Module Regulator

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTM8026_1208.pdf (26 pages)

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applicaTions inForMaTion

may be set from 100kHz to 1MHz. The internal oscillator

may also be synchronized to an external clock through

the SYNC pin. The external clock applied to the SYNC pin

must have a logic low below 0.6V and a logic high greater

than 1.2V. The input frequency must be 20% higher than

the frequency determined by the resistor at the RT pin.

In general, the duty cycle of the input signal should be

greater than 10% and less than 90%. Input signals outside

of these specified parameters may cause erratic switching

behavior and subharmonic oscillations. The SYNC pin must

be tied to GND if the synchronization to an external clock

is not required. When SYNC is grounded, the switching

frequency is determined by the resistor at the RT pin. At

light loads, the LTM8026 will enter discontinuous opera-

tion to improve efficiency even while a valid clock signal

is applied to the SYNC pin.

Soft-Start

The soft-start function controls the slew rate of the power

supply output voltage during start-up. A controlled output

voltage ramp minimizes output voltage overshoot, reduces

inrush current from the V

sequencing. A capacitor connected from the SS pin to

GND programs the slew rate. The capacitor is charged

from an internal 11µA current source to produce a ramped

output voltage.

Maximum Output Current Adjust

To adjust the regulated load current, an analog voltage is

applied to the CTL_I pin or CTL_T pins. Varying the voltage

between 0V and 1.5V adjusts the maximum current between

the minimum and the maximum current, 5.6A typical.

Graphs of the output current vs CTL_I and CTL_T volt-

ages are given in the Typical Performance Characteristics

section. The LTM8026 provides a 2V reference voltage for

conveniently applying resistive dividers to set the current

limit. The current limit can be set as shown in Figure 1

with the following equation:

MAX

7.467 • R2

R1+R2

Amps

supply, and facilitates supply

Load Current Derating Using the CTL_T Pin

In high current applications, derating the maximum current

based on operating temperature may prevent damage

to the load. In addition, many applications have thermal

limitations that will require the regulated current to be

reduced based on the load and/or board temperature. To

achieve this, the LTM8026 uses the CTL_T pin to reduce

the effective regulated current in the load. While CTL_I

programs the regulated current in the load, CTL_T can

be configured to reduce this regulated current based

on the analog voltage at the CTL_T pin. The load/board

temperature derating is programmed using a resistor

divider with a temperature dependant resistance (Figure 2).

When the board/load temperature rises, the CTL_T voltage

will decrease. To reduce the regulated current, the CTL_T

voltage must be lower than the voltage at the CTL_I pin.

CTL_T may be higher than CTL_I, but then it will have

no effect.

Voltage Regulation and Output Overvoltage Protection

The LTM8026 uses the ADJ pin to regulate the output

voltage and to provide a high speed overvoltage lockout

to avoid high voltage conditions. If the output voltage

exceeds 125% of the regulated voltage level (1.5V at the

ADJ pin), the LTM8026 terminates switching and shuts

Figure 2. Load Current Derating vs Temperature Using NTC

Resistor

(OPTION A TO D)

CTL_T

REF

Figure 1. Setting the Output Current Limit, I

LTM8026

CTL_I OR CTL_T

NTC

LTM8026

NTC

REF

8026 F01

LTM8026

NTC

MAX

NTC

8026 F02

8026fa

LTM8026_1208 LINER [Linear Technology], LTM8026_1208 Datasheet - Page 15

LTM8026_1208

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