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dc1663af

DEMO MANUAL DC1663A

QUICK START PROCEDURE

PERFORMANCE SUMMARY

Demonstration circuit DC1663A is easy to set up to evalu-

ate the performance of the LTM4628EV. Please refer to  

Figure 1 for proper measurement equipment setup and 

the following the procedure:  
1. Place jumpers in the following positions for a typical 

application: 

JP1

JP2

JP3

JP4

JP5

JP6

MODE

RUN1

RUN2

TRACK1 

SEL.

TRACK2 

SEL.

CLKOUT 

PHASE

CCM

ON

ON

SOFT-

START

SOFT-

START

60°

2. With power off, connect the input power supply, load 

and meters as shown in Figure 1. Preset the load to 0A 

and V

IN

 supply to 12V. 

3. Turn on the power supply at the input. The output volt-

age in channel 1 should be 1.5V ± 1.5% and the output 

voltage in channel 2 should be 1.2V ± 1.5%. 

4.  Once the proper output voltage is established, adjust the 

load within the operating range and observe the output 

voltage regulation, output voltage ripple, efficiency and 

other parameters. Output ripple should be measured at 

J1 and J2 with SMA cables. 50Ω termination should 

be set on the oscilloscope or SMA cables.

5. (Optional) For optional load transient test, apply an 

adjustable pulse signal between IOSTEP CLK and GND 

pins. Pulse amplitude (3V to 3.5V) sets the load step 

current amplitude. The pulse signal should have very 

small duty cycle (< 10%) to limit the thermal stress on 

the transient load circuit. The output transient current 

can be monitored at the SMA connector J3 (15mV/A). 

Apply the jumper resistors R34 or R35 (on the back-

side of boards) to apply load transient on channel 1 or 

channel 2 correspondingly.

6. (Optional) LTM4628 can be synchronized to an external 

clock signal. Remove the jumper on JP1 and apply a clock 

signal (0V to 5V, square wave) on the CLKIN test point.

7. (Optional) The outputs of LTM4628 can track another 

supply. The jumpers JP4 and JP5 allow choosing soft-

start or output tracking. If tracking external voltage 

is selected, the corresponding test points, TRACK1 

and TRACK2, need to be connected to a valid voltage 

signal. 

8. (Optional) LTM4628 can be configured for a 2-phase 

single output at up to 16A on DC1663A. Refer to the 

schematic for corresponding jumper resistor setup for 

dual phase single output applications.  

PARAMETER

CONDITION

VALUE

Input Voltage Range

4.5V to 26.5V

Output Voltage V

OUT1

V

IN

 = 4.5 to 26.5V, I

OUT1

 = 0A to 8A, JP1: CCM

1.5V ± 1.5% (1.4775V to 1.5225V)

Output Voltage V

OUT2

V

IN

 = 4.5 to 26.5V, I

OUT2

 = 0A to 8A, JP1: CCM

1.2V ± 1.5% (1.182V to 1.218V)

Per Channel Maximum Continuous Output Current Derating is Necessary for Certain V

IN

, V

OUT

 and 

Thermal Conditions, See Datasheet for Details.

8A

Default Operating Frequency

400kHz

External Clock Synchronous Frequency Range

400kHz to 780kHz

Efficiency of Channel 1

V

IN

 = 5V, V

OUT1

 = 1.5V, I

OUT1

 = 8A, f

SW

 = 400 kHz

87.7% See Figure 2

Efficiency of Channel 2

V

IN

 = 5V, V

OUT2

 = 1.2V, I

OUT2

 = 8A, f

SW

 = 400 kHz

85.5% See Figure 3

Load Transient of Channel 1

V

IN

 = 12V, V

OUT1

 = 1.5V, I

SETP

 = 0A to 4A

See Figure 4

Load Transient of Channel 2

V

IN

 = 12V, V

OUT2

 = 1.2V, I

SETP

 = 0A to 4A

See Figure 5

(T

A

 = 25°C)

Содержание DC1663A

Страница 1: ...r programmable from 250kHz up to 780kHz An internal phase lock loop allows the module to be synchronized to an external clock The board allows the user to program how its output ramps up and down thro...

Страница 2: ...SMA connector J3 15mV A Apply the jumper resistors R34 or R35 on the back side of boards to apply load transient on channel 1 or channel 2 correspondingly 6 Optional LTM4628 can be synchronized to an...

Страница 3: ...3 dc1663af DEMO MANUAL DC1663A QUICK START PROCEDURE Figure 1 Test Setup of DC1663A V V V A A VIN 4 5V TO 26 5V LOAD 0A TO 8A A LOAD 0A TO 8A 1663a F01 VOUT1 VOUT2...

Страница 4: ...COUPLED 20MHz BW 100mV DIV IOUT1 0A TO 4A STEP 3 3A DIV 1663 F05 VOUT2 AC COUPLED 20MHz BW 100mV DIV IOUT2 0A TO 4A STEP 3 3A DIV Figure 6 Measured Output Voltage Ripple at 12V Input 1 5V and 1 2V Out...

Страница 5: ...1 R33 R39 Res Chip 0 1 0603 Optional Vishay CRCW06030000Z0ED Optional 8 4 R5 R24 R27 R36 Res Chip 10k 1 0603 Vishay CRCW060310K0FKED 9 2 C13 C14 Cap X7R 0 01 F 16V 10 0603 AVX 0603YC103KAT2A 10 2 C15...

Страница 6: ...D PRINTED CIRCUIT BOARD LAYOUT MAY SIGNIFICANTLY AFFECT CIRCUIT PERFORMANCE OR RELIABILITY CONTACT LINEAR TECHNOLOGY APPLICATIONS ENGINEERING FOR ASSISTANCE THIS CIRCUIT IS PROPRIETARY TO LINEAR TECHN...

Страница 7: ...ICATIONS ENGINEERING FOR ASSISTANCE THIS CIRCUIT IS PROPRIETARY TO LINEAR TECHNOLOGY AN D SCHEMATIC SUPPLIED FOR USE WITH LINEAR TECHNOLOGY PARTS SCALE NONE www linear com 1 Tuesday September 07 2010...

Страница 8: ...UDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE EXCEPT TO THE EXTENT OF THIS INDEMNITY NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT SPECIAL INCIDENTAL OR CON...

Страница 9: ...IC23158YML EV MIC23451 AAAYFL EV MIC5281YMME EV 124352 HMC860LP3E ADM00513 ADM8611 EVALZ ADM8612 EVALZ ADM8613 EVALZ ADP1046ADC1 EVALZ ADP1055 EVALZ ADP122 3 3 EVALZ ADP130 0 8 EVALZ ADP130 1 2 EVALZ...

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