LM34923EVAL/NOPB National Semiconductor, LM34923EVAL/NOPB Datasheet - Page 11

LM34923EVAL/NOPB

Manufacturer Part Number

LM34923EVAL/NOPB

Description

BOARD EVALUATION FOR LM34923

Manufacturer

National Semiconductor

Series

-r

Datasheet

1.LM34923MMNOPB.pdf (20 pages)

Specifications of LM34923EVAL/NOPB

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Power - Output

Voltage - Output

Current - Output

500mA

Voltage - Input

6 ~ 75 V

Regulator Topology

Buck

Frequency - Switching

200kHz

Board Type

Fully Populated

Utilized Ic / Part

LM34923

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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duce with the reduction in load and frequency. The discon-

tinuous operating frequency can be calculated as follows:

where R

In continuous conduction mode, current flows continuously

through the inductor and never ramps down to zero. In this

mode the operating frequency is greater than the discontinu-

ous mode frequency and remains relatively constant with load

and line variations. The approximate continuous mode oper-

ating frequency can be calculated as follows:

The buck switch duty cycle is approximately equal to:

Start-Up Regulator (V

The high voltage bias regulator is integrated within the

LM34923. The input pin (VIN) can be connected directly to

line voltages between 6V and 75V, with transient capability to

80V. The V

output current is limited at approximately 30 mA.

C3 must be located as close as possible to the VCC and RTN

pins. In applications with a relatively high input voltage, power

dissipation in the bias regulator is a concern. An auxiliary

voltage of between 7.5V and 10V can be diode connected to

the VCC pin to shut off the V

internal power dissipation. The current required into the VCC

= the load resistance

output is regulated at 7.5V. The V

regulator, thereby reducing

)

FIGURE 1. Low Ripple Output Configuration

regulator

(1)

(2)

The output voltage (V

sistors as shown in the Block Diagram. The regulation point

can be calculated as follows:

The LM34923 regulates the output voltage based on ripple

voltage at the feedback input, requiring a minimum amount of

ESR for the output capacitor C2. A minimum of 25mV to 50mV

of ripple voltage at the feedback pin (FB) is required for the

LM34923. In cases where the capacitor ESR is too small, ad-

ditional series resistance may be required (R3 in the Block

Diagram).

For applications where lower output voltage ripple is required

the output can be taken directly from a low ESR output ca-

pacitor, as shown in

the load regulation.

pin depends on the voltage applied to VCC and the switching

frequency. See the graph “I

ternally a diode connects VCC to VIN requiring that the aux-

iliary voltage be less than V

The turn-on sequence is shown in

delay (t1) VCC ramps up at a rate determined by its current

limit and C3 while internal circuitry stabilizes. When V

reaches the upper threshold of its under-voltage lock-out, the

buckswitch is enabled. The inductor current increases to the

current limit threshold (I

the output capacitor charges up. When V

tended voltage the average inductor current decreases (t3) to

the nominal load current (I

OUT

= 2.5 x (R

Figure

OUT

LIM

) is programmed by two external re-

) and during t2 V

30141713

1. However, R3 slightly degrades

FB1

vs. Externally Applied V

+ R

Figure

FB2

) / R

OUT

2. During the initial

OUT

FB1

reaches the in-

increases as

www.national.com

.” In-

LM34923EVAL/NOPB National Semiconductor, LM34923EVAL/NOPB Datasheet - Page 11

LM34923EVAL/NOPB

Specifications of LM34923EVAL/NOPB

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