Datasheet
Maxim Integrated
│
2
www.maximintegrated.com
Evaluates: MAX17552 (TDFN) in
5V Output Voltage Applications
MAX17552 5V Output
Evaluation Kit (TDFN)
Detailed Description
The MAX17552 5V EV kit (TDFN) is a fully assembled and
tested circuit board that demonstrates the performance of
the MAX17552 60V, 100mA ultra-small, high-efficiency,
synchronous step-down DC-DC converter in a 10-pin
TDFN package. The EV kit operates over a wide input
voltage range of 6V to 60V and provides up to 100mA
load current at 5V output. It draws only 26µA supply cur-
rent under no-load conditions (EN/UVLO connected to
VIN). The EV kit is programmed to switch at a frequency
of 220kHz and delivers a peak efficiency of 93% with the
supplied components. The device is simple to use and
easily configurable with minimal external components.
It features cycle-by-cycle peak current limit protection,
undervoltage lockout, and thermal shutdown.
The EV kit includes an EN/UVLO PCB pad and jumpers
JU1 and JU2 to enable control of the converter output.
The MODE PCB pad and jumper JU3 are provided
for selecting the mode of operation of the converter. A
RESET PCB pad is available for monitoring the RESET
output. The RT/SYNC PCB pad can be used to synchro-
nize the EV kit switching frequency to an external clock
frequency.
Enable Control (JU1, JU2)
The EN/UVLO pin on the EV kit serves as an on/off control
while also allowing the user to program the input undervolt-
age lockout (UVLO) threshold. Jumpers JU1 and JU2 con-
figure the EV kit’s output for turn-on/turn-off control. See
Table 1 for proper JU1, JU2 jumper configurations.
Additionally, resistors R1 and R2 are included to set the
UVLO to a desired turn-on voltage. Refer to the Setting
the Input Undervoltage-Lockout Level section in the
MAX17552 IC data sheet for additional information on
setting the UVLO threshold voltage.
RESET Output
The EV kit provides a PCB pad to monitor the status of
the RESET output. RESET goes high and when the out-
put voltage rises above 95% (typ) of its nominal regulated
output voltage. RESET goes low when output voltage falls
below 92% (typ) of its nominal regulated voltage.
PFM or Forced-PWM Mode (MODE)
The EV kit includes a jumper (JU3) to select the mode
of operation of the converter. Install a shunt across JU3
before powering up the EV kit to enable the forced-PWM
operation. Keep JU3 open to enable the light-load PFM
operation. See Table 2 for proper JU3 settings.
Soft-Start
The EV kit offers a fixed 5ms soft-start time. Connect the
capacitor C4 to adjust the soft-start time (t
SS
). Use the
following equation to determine the soft-start capacitance
value (CSS).
CSS = 6.25 x t
SS
where t
SS
is in milliseconds and C
SS
is in nanofarads.
External Synchronization (RT/SYNC)
The EV kit provides a PCB pad to synchronize the EV
kit switching frequency to an external clock frequency.
Apply the external clock to the RT/SYNC PCB pad
though an AC-coupling capacitor. Refer to the External
Synchronization section in the MAX17552 IC data sheet
for additional information on configuring the external
clock and selecting the AC-coupling capacitor.
Table 1. Enable Control (EN/UVLO) (JU1, JU2)
Table 2. MODE Control (JU3)
*Default position.
*Default position.
SHUNT POSITION
EN/UVLO PIN VOUT OUTPUT
JU1 JU2
1-2 Open Connected to VIN Enabled
Open 1-2 Connected to GND Disabled
1-2* 1-2 Connected to midpoint of R1, R2 resistor-divider Enabled at VIN ≥ 6V
SHUNT POSITION MODE PIN MODE OF OPERATION
1-2 Connected to GND Forced PWM
Open* Unconnected PFM