Datasheet
V
IN
V
CC
Internal Enable Signal
9V
7V
6.3V
LM25005
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SNVS411C –JANUARY 2006–REVISED MARCH 2013
Detailed Operating Description
The LM25005 switching regulator features all of the functions necessary to implement an efficient high voltage
buck regulator using a minimum of external components. This easy to use regulator integrates a 42V N-Channel
buck switch with an output current capability of 2.5 Amps. The regulator control method is based on current
mode control utilizing an emulated current ramp. Peak current mode control provides inherent line voltage feed-
forward, cycle-by-cycle current limiting, and ease of loop compensation. The use of an emulated control ramp
reduces noise sensitivity of the pulse-width modulation circuit, allowing reliable processing of very small duty
cycles necessary in high input voltage applications. The operating frequency is user programmable from 50kHz
to 500kHz. An oscillator synchronization pin allows multiple LM25005 regulators to self synchronize or be
synchronized to an external clock. The output voltage can be set as low as 1.225V. Fault protection features
include, current limiting, thermal shutdown and remote shutdown capability. The device is available in the
HTSSOP package featuring an exposed pad to aid thermal dissipation.
The functional block diagram and typical application of the LM25005 are shown in the Typical Application Circuit
and Block Diagram. The LM25005 can be applied in numerous applications to efficiently step-down a high,
unregulated input voltage. The device is well suited for telecom, industrial and automotive power bus voltage
ranges.
High Voltage Start-Up Regulator
The LM25005 contains a dual-mode internal high voltage startup regulator that provides the Vcc bias supply for
the PWM controller and boot-strap MOSFET gate driver. The input pin (Vin) can be connected directly to the
input voltage, as high as 42 Volts. For input voltages below 9V, a low dropout switch connects Vcc directly to
Vin. In this supply range, Vcc is approximately equal to Vin. For Vin voltage greater than 9V, the low dropout
switch is disabled and the Vcc regulator is enabled to maintain Vcc at approximately 7V. The wide operating
range of 7V to 42V is achieved through the use of this dual mode regulator.
The output of the Vcc regulator is current limited to 20mA. Upon power up, the regulator sources current into the
capacitor connected to the Vcc pin. When the voltage at the Vcc pin exceeds the Vcc UVLO threshold of 6.3V
and the SD pin is greater than 1.225V, the output switch is enabled and a soft-start sequence begins. The output
switch remains enabled until Vcc falls below 5.3V or the SD pin falls below 1.125V.
An auxiliary supply voltage can be applied to the Vcc pin to reduce the IC power dissipation. If the auxiliary
voltage is greater than 7.3V, the internal regulator will essentially shut off, reducing the IC power dissipation. The
Vcc regulator series pass transistor includes a diode between Vcc and Vin that should not be forward biased in
normal operation. Therefore the auxiliary Vcc voltage should never exceed the Vin voltage.
In high voltage applications extra care should be taken to ensure the Vin pin does not exceed the absolute
maximum voltage rating of 45V. During line or load transients, voltage ringing on the Vin line that exceeds the
Absolute Maximum Ratings can damage the IC. Both careful PC board layout and the use of quality bypass
capacitors located close to the Vin and GND pins are essential.
Figure 9. Vin and Vcc Sequencing
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