2024年5月24日发(作者：邰梓)

DEMO MANUAL DC2598A

LT8390A

60V 2MHz Synchronous

Buck-Boost Controller

DESCRIPTION

Demonstration circuit 2598A is a 60V 2MHz synchronous

buck-boost controller featuring the LT

®

8390A. It accepts

an input voltage from 4V to 24V (with transient to 60V) and

regulates 12V output at up to 4A. DC2598A features high

efficiency and 2MHz switching frequency, a high speed

for a 4-switch buck-boost controller. It has a PGOOD flag,

short-circuit fault protection, ISMON current-monitoring

output signal, and spread spectrum frequency modulation

(SSFM) or frequency synchronization.

The LT8390A has a wide input voltage range from 4V to

60V. It can regulate an output as a boost, a buck, or a

4-switch boost-buck controller. It has adjustable switch-

ing frequency between 600kHz and 2MHz. It has an option

for external frequency synchronization or spread spec-

trum frequency modulation. Its high switching frequency

is unique to buck-boost controller ICs. Because of this, it

can be used for high power when the input may be above,

below, or equal to the output.

DC2598A features an option to turn on spread spectrum

by simply changing the position of a jumper from “NO

SSFM/SYNC” to “SSFM” (or to “SYNC”).

Small ceramic input and output capacitors are used to

save space and cost. There is a protection diode from

LED+ to GND to prevent negative ringing during a short-

circuit with long wires. Optional EMI input, output, and

gate resistor component placeholders exist when a low

EMI application is needed.

Under voltage lockout can be adjusted with a few resistors

and output voltage can be changed from 12V with FB resis-

tors changes. Please note that higher voltage outputs may

require higher voltage MOSFETs and output capacitors.

The LT8390A data sheet gives a complete description of the

part, operation and applications information. The data sheet

must be read in conjunction with this demo manual for

demonstration circuit 2598A. The LT8390AEUFD is assem-

bled in a 28-lead 4mm × 5mm plastic QFN package with a

thermally enhanced ground pad. LT8390A is also available

in a 28-Lead plastic TSSOP (FE) package. Proper board

layout is essential for maximum thermal performance. See

the data sheet section “Layout Considerations”.

Design files for this circuit board are available at

/DC2598A

All registered trademarks and trademarks are the property of their respective owners.

PERFORMANCE SUMMARY

PARAMETER

Input Voltage Range

Full Load (4A) Input Voltage Range

Typical Efficiency

Switching Frequency

Peak Switch Current Limit

(AC) Output Ripple

Input Under Voltage Lockout (Falling Turn-Off)

Input Under Voltage Lockout (Rising Turn-On)

V

ISMON

Maximum Load Current

Operating

Specifications are at T

A

= 25°C

MIN

4V

7V

90%

2MHz

10A

70mV

P-P

4.0V

5.0V

1.0V

44.5A

UG-1318 Rev A

CONDITION

Component Temp Rise <60°C with No Airflow

12V Input, 12V 4A Output, 2MHz

R3 = 59.0k

R1 = 0.005Ω

12V Input, 12V 4A Output

R7 = 383k, R8 = 165k

R7 = 383k, R8 = 165k

12V 4A Output

12V Input, 12V Output

TYPMAX

60V

23V

1

DEMO MANUAL DC2598A

QUICK START PROCEDURE

Demonstration circuit 2598A is easy to set up to evaluate

the performance of the LT8390A Follow the procedure

below:

1. With the input power supply off, connect the input

power supply and output load as shown in the test

setup drawing in Figure 1.

2. Connect the EN/UVLO terminal to GND.

3. Make sure that the SSFM jumper is in the correct posi-

tion – either with SSFM turned ON or OFF. Only place

the jumper in the SYNC position if an external SYNC

frequency source is connected to the SYNC pin.

4. Turn the input power supply on and make sure the

voltage is between 4V and 24V for proper steady state

operation.

5. Release the EN/UVLO-to-GND connection.

6. Observe the 12V output voltage, the load current mea-

surement via the ISMON pin voltage and the high effi-

ciency of this small converter.

Figure 1. Test Procedure Setup Drawing For DC2598A

UG-1318 Rev A

2

2024年5月24日发(作者：邰梓)

DEMO MANUAL DC2598A

LT8390A

60V 2MHz Synchronous

Buck-Boost Controller

DESCRIPTION

Demonstration circuit 2598A is a 60V 2MHz synchronous

buck-boost controller featuring the LT

®

8390A. It accepts

an input voltage from 4V to 24V (with transient to 60V) and

regulates 12V output at up to 4A. DC2598A features high

efficiency and 2MHz switching frequency, a high speed

for a 4-switch buck-boost controller. It has a PGOOD flag,

short-circuit fault protection, ISMON current-monitoring

output signal, and spread spectrum frequency modulation

(SSFM) or frequency synchronization.

The LT8390A has a wide input voltage range from 4V to

60V. It can regulate an output as a boost, a buck, or a

4-switch boost-buck controller. It has adjustable switch-

ing frequency between 600kHz and 2MHz. It has an option

for external frequency synchronization or spread spec-

trum frequency modulation. Its high switching frequency

is unique to buck-boost controller ICs. Because of this, it

can be used for high power when the input may be above,

below, or equal to the output.

DC2598A features an option to turn on spread spectrum

by simply changing the position of a jumper from “NO

SSFM/SYNC” to “SSFM” (or to “SYNC”).

Small ceramic input and output capacitors are used to

save space and cost. There is a protection diode from

LED+ to GND to prevent negative ringing during a short-

circuit with long wires. Optional EMI input, output, and

gate resistor component placeholders exist when a low

EMI application is needed.

Under voltage lockout can be adjusted with a few resistors

and output voltage can be changed from 12V with FB resis-

tors changes. Please note that higher voltage outputs may

require higher voltage MOSFETs and output capacitors.

The LT8390A data sheet gives a complete description of the

part, operation and applications information. The data sheet

must be read in conjunction with this demo manual for

demonstration circuit 2598A. The LT8390AEUFD is assem-

bled in a 28-lead 4mm × 5mm plastic QFN package with a

thermally enhanced ground pad. LT8390A is also available

in a 28-Lead plastic TSSOP (FE) package. Proper board

layout is essential for maximum thermal performance. See

the data sheet section “Layout Considerations”.

Design files for this circuit board are available at

/DC2598A

All registered trademarks and trademarks are the property of their respective owners.

PERFORMANCE SUMMARY

PARAMETER

Input Voltage Range

Full Load (4A) Input Voltage Range

Typical Efficiency

Switching Frequency

Peak Switch Current Limit

(AC) Output Ripple

Input Under Voltage Lockout (Falling Turn-Off)

Input Under Voltage Lockout (Rising Turn-On)

V

ISMON

Maximum Load Current

Operating

Specifications are at T

A

= 25°C

MIN

4V

7V

90%

2MHz

10A

70mV

P-P

4.0V

5.0V

1.0V

44.5A

UG-1318 Rev A

CONDITION

Component Temp Rise <60°C with No Airflow

12V Input, 12V 4A Output, 2MHz

R3 = 59.0k

R1 = 0.005Ω

12V Input, 12V 4A Output

R7 = 383k, R8 = 165k

R7 = 383k, R8 = 165k

12V 4A Output

12V Input, 12V Output

TYPMAX

60V

23V

1

DEMO MANUAL DC2598A

QUICK START PROCEDURE

Demonstration circuit 2598A is easy to set up to evaluate

the performance of the LT8390A Follow the procedure

below:

1. With the input power supply off, connect the input

power supply and output load as shown in the test

setup drawing in Figure 1.

2. Connect the EN/UVLO terminal to GND.

3. Make sure that the SSFM jumper is in the correct posi-

tion – either with SSFM turned ON or OFF. Only place

the jumper in the SYNC position if an external SYNC

frequency source is connected to the SYNC pin.

4. Turn the input power supply on and make sure the

voltage is between 4V and 24V for proper steady state

operation.

5. Release the EN/UVLO-to-GND connection.

6. Observe the 12V output voltage, the load current mea-

surement via the ISMON pin voltage and the high effi-

ciency of this small converter.

Figure 1. Test Procedure Setup Drawing For DC2598A

UG-1318 Rev A

2