DC326B Datasheet DC326B | P1-P3

DEMO MANUAL DC326B

NO-DESIGN SWITCHER

OPERATION

How to Measure Voltage Regulation and Efficiency

When measuring voltage regulation or efficiency, voltage measurements should be made directly across the VOUT and GND terminals, not at

the end of test leads at the load. Similarly, input voltage should be measured directly at the VIN and GND terminals of the LT1766 demo board.

Input and output current should be measured by placing an ammeter in series with the input supply and load. Refer to figure 2 for proper

monitoring equipment setup.

How to Measure Output Voltage Ripple

When measuring output voltage ripple, care must be taken to avoid a long ground lead on the oscilloscope probe. A sturdy wire should be

soldered to the output side of the GND terminal. The other end of the wire is looped around the ground side of the probe and should be kept

as short as possible. The tip of the probe is touched directly to VOUT (see Figure 3). Bandwidth is generally limited to 20MHz for ripple

measurements. Also, if multiple pieces of line-powered test equipment are used, be sure to use isolation transformers on their power lines

to prevent ground loops, which can cause erroneous results. Figure 4 shows the output voltage ripple with a steady-state load of 1A for the

LT1766.

Heat Dissipation Issues

Since the LT1766 includes a 1.5A onboard power switch, care must be taken not to exceed the 125c maximum operating junction temperature

for the part. A simple technique is to use the PC board as a heat sink. On the LT1766 demo board, the power IC is surrounded by ground plane

on both sides of the PC board. The two sides are connected through vias to better handle the power dissipation. If the LT1766 is laid out on a

multilayer board, there should be metal on the inner layers directly underneath the LT1766. This helps in spreading heat and improves the

power dissipation capability of the PCB.

Note: See 'Thermal Calculations' section in the Applications Information of the LT1766 datasheet.

DEMO MANUAL DC326B

NO-DESIGN SWITCHER

OPERATION

Introduction

The LT1766 is a 1.5A 200kHz Step-Down switching regulator capable of

operation at input voltages as high as 60V. The demonstration circuit shown

in the schematic allows for output selection of 3.3V or 5V using the jumper J1.

The board comes equipped with input (VIN), output (VOUT), GND, SYNC and

S/D terminals to simplify bench testing. The demonstration circuit highlights the

ability of the LT1766 to achieve excellent efficiencies at both high and low

input voltages. The efficiency curves in Figure 1 illustrate both 42V to 5V and

12V to 5V conversions with peak efficiencies of greater than 80% and 90%.

Figure 1. LT1766 efficiency vs. Load Current

Shutdown Pin

For normal operation, the S/D pin can be left floating. S/D has two output-disable modes, lockout and shutdown.

When the pin is taken below the 2.38V lockout threshold, switching is disabled. This is typically used for input undervoltage lockout.

Grounding the S/D pin places the LT1766 in shutdown mode. This reduces total board supply current to typically 25uA.

Synchronization Pin

To synchronize switching to an external clock, apply a logic-level signal to the SYNC pin. Amplitude must be from a logic

low level to greater than 2.2V with a duty cycle from 10% to 90%. Synchronization frequency is possible from 228kHz

up to 700kHz.

Quick Start Guide

A list of procedures for getting started, including the basic set-up for measurement equipment, are provided in the 'quick start guide'

attached.

NOTE: The LT1766 datasheet should be read in conjunction with the demonstration board information provided.

Efficiency vs. Load Current

100

0.00 0.25 0.50 0.75 1.00 1.25

Load Current (A)

Efficiency (%)

Vin=12V

Vin=42V

Vout = 5V

L = 47uH

DEMO MANUAL DC326B

NO-DESIGN SWITCHER

QUICK START GUIDE

Refer to Figure 2 for proper measurement

setup and follow the procedure outlined below :

1. Connect the input power supply to the VIN and GND 6. Set the output voltage with the jumper J1,

terminals. The input voltage must be between 5.5V and 60V. as shown in the table below.

2. Connect an ammeter in series with the input supply to 7. After all connections are made, turn on input

measure input current. power and verify that the output voltage is correct.

3. Connect either power resistors or an electronic load

to the VOUT and GND terminals.

POSITION OUTPUT VOLTAGE

4. Connect an ammeter in series with the output load to Jumper J1 open 5.0V

measure output current. Jumper J1 inserted 3.3V

5. The S/D pin should be left floating for normal operation

and tied to GND for shutdown.

P1-P3 P4-P5

DC326B

Mfr. #:

Buy DC326B

Manufacturer:

Analog Devices Inc.

Description:

Power Management IC Development Tools LT1766EGN - 200KHz High Voltage Buck Con

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New from this manufacturer.

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DC326B