LT1934-1 Linear Technology, LT1934-1 Datasheet - Page 14

LT1934-1

Manufacturer Part Number

LT1934-1

Description

Micropower Step-Down Switching Regulators in ThinSOT

Manufacturer

Linear Technology

Datasheet

1.LT1934-1.pdf (20 pages)

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APPLICATIO S I FOR ATIO

LT1934/LT1934-1

added in series with the input to eliminate the voltage

overshoot (it also reduces the peak input current). A 0.1 F

capacitor improves high frequency filtering. This solution

is smaller and less expensive than the electrolytic capaci-

tor. For high input voltages its impact on efficiency is

minor, reducing efficiency less than one half percent for a

5V output at full load operating from 24V.

Voltage overshoot gets worse with reduced input capaci-

tance. Figure 7d shows the hot plug response with a 1 F

ceramic input capacitor, with the input ringing above 40V.

The LT1934-1 can tolerate a larger input resistance, such

as shown in Figure 7e where a 4.7 resistor damps the

voltage transient and greatly reduces the input current

glitch on the 24V supply.

High Temperature Considerations

The die temperature of the LT1934 must be lower than the

maximum rating of 125 C. This is generally not a concern

unless the ambient temperature is above 85 C. For higher

temperatures, care should be taken in the layout of the

circuit to ensure good heat sinking of the LT1934. The

maximum load current should be derated as the ambient

temperature approaches 125 C.

The die temperature is calculated by multiplying the LT1934

power dissipation by the thermal resistance from junction

to ambient. Power dissipation within the LT1934 can be

estimated by calculating the total power loss from an

efficiency measurement and subtracting the catch diode

loss. The resulting temperature rise at full load is nearly

independent of input voltage. Thermal resistance depends

on the layout of the circuit board, but a value of 150 C/W

is typical.

The temperature rise for an LT1934 producing 5V at

250mA is approximately 25 C, allowing it to deliver full

load to 100 C ambient. Above this temperature the load

current should be reduced. For 3.3V at 250mA the tem-

perature rise is 15 C.

Finally, be aware that at high ambient temperatures the

external Schottky diode, D1, is likely to have significant

leakage current, increasing the quiescent current of the

LT1934 converter.

Outputs Greater Than 6V

For outputs greater than 6V, tie a diode (such as a 1N4148)

from the SW pin to V

above V

output circuit in Typical Applications shows the location of

this diode. Also note that for outputs above 6V, the input

voltage range will be limited by the maximum rating of the

BOOST pin. The 12V circuit shows how to overcome this

limitation using an additional Zener diode.

during discontinuous mode operation. The 12V

to prevent the SW pin from ringing

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LT1934-1 Linear Technology, LT1934-1 Datasheet - Page 14

LT1934-1

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