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QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 476 

1.25MHZ 3A PEAK SWITCH CURRENT MONOLITHIC STEP-DOWN CONVERTER

 

TYPICAL PERFORMANCE SUMMARY (T

A

 = 25

°

C) 

Table 1.

 

Step-Down Converter (V

OUT

 = 5V) 

PARAMETER VALUE 

V

IN

 

7V to 25V 

V

OUT

 5.0V 

I

OUT

 2A(max) 

Efficiency 

Up to 90% at 1A out and up to 89% at 
2A output 

EFFICIENCY (%)

LOAD CURRENT (mA)

10k

10

90

45

100

1k

50

55

60

65

70

75

80

85

V

IN

 = 24V

V

IN

 = 18V

V

IN

 = 12V

V

IN

 = 8V

 

Figure 2.

 

Typical Efficiency of DC476A LT1765EFE, V

OUT

 = 5V 

Table 2.

 

Step-Down Converter (with V

OUT

 = 3.3V) 

PARAMETER VALUE 

V

IN

 

4.7V to 18V (up to 25V) 

V

OUT

 3.3V 

I

OUT

 2A(max) 

Efficiency 

Up to 88% at 1A out and up to 85% 
at 2A output 

EFFICIENCY (%)

LOAD CURRENT (mA)

10k

10

90

45

100

1k

50

55

60

65

70

75

80

85

V

IN

 = 18V

V

IN

 = 12V

V

IN

 = 8V

V

IN

 = 5V

 

Figure 3.

 

Typical Efficiency of DC476A LT1765EFE, V

OUT

 = 3.3V 

QUICK START PROCEDURE

 

Demonstration circuit 476 is easy to set up to evaluate 
the performance of the LT1765EFE. Refer to Figure 4 for 
proper measurement equipment setup and follow the 
procedure below:  

1.

 

Connect the 7–25V or 4.7–18V input power supply to 
the VIN and GND terminals on the board. 

2.

 

Connect an ammeter in series with the input supply to 
measure input current. 

3.

 

Connect either power resistors or an electronic load 
to the VOUT and GND terminals on the board. 

4.

 

Connect an ammeter in series with output load to 
measure output current. 

5.

 

Connect a voltmeter across the VIN and GND termi-
nals to measure input voltage. 

6.

 

Connect a voltmeter across the VOUT and GND termi-
nal to measure output voltage. 

7.

 

After all connections are made, turn on input power 
and verify that the output voltage is either 5.0V or 
3.3V (the output voltage jumper setting). 

8.

 

The synchronization and shutdown functions are op-
tional and their terminals can be left floating (discon-
nected) if their functions are not being used. 

MINIMUM INPUT VOLTAGE 

The minimum LT1765EFE operating input voltage is 
3.0V. Nevertheless, a DC/DC buck converter must have 
an input voltage that is greater than the output voltage 
by a certain margin in order to provide the desired regu-
lated output voltage. Maximum duty cycle, switch on-
resistance, and inductor and diode DC losses all play a 

 

 

2

 

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