MAX724CCK Maxim Integrated Products, MAX724CCK Datasheet - Page 6
MAX724CCK
Manufacturer Part Number
MAX724CCK
Description
IC DC/DC REG PWM STP-DWN TO220-5
Manufacturer
Maxim Integrated Products
Type
Step-Down (Buck), Step-Up (Boost), Inverting, Flybackr
Datasheet
1.MAX726CCK.pdf
(13 pages)
Specifications of MAX724CCK
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
2.5 ~ 35 V
Current - Output
5A
Frequency - Switching
100kHz
Voltage - Input
8 ~ 40 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Through Hole
Package / Case
TO-220-5 (Straight Leads)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
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The MAX724/MAX726 are complete, single-chip, pulse-
width modulation (PWM), step-down DC-DC converters
(Figure 1). All oscillator (100kHz), control, and current-
limit circuitry, including a 5A power switch (2A for
MAX726), are included on-chip. The oscillator turns on
the switch (V
The switch turns off at a point later in the clock cycle,
which is a function of the signal provided by the error
amplifier. The maximum switch duty cycle is approxi-
mately 93% at the MAX724/MAX726's 100kHz switch-
ing frequency.
Both the input (FB) and output (V
amplifier are brought out to simplify compensation.
Most applications require only a single series RC
network connected from V
amplifier is a transconductance amplifier with a g
approximately 5000 mho. When slewing, V
source about 140 A, and sink about 1.1mA. This
asymmetry helps minimize start-up overshoot by
allowing the amplifier output to slew more quickly in
the negative direction.
Current limiting is provided by the current-limit com-
parator. If the current-limit threshold is exceeded, the
switch cycle terminates within about 600ns. The cur-
rent-limit threshold is internally set to approximately
_________________Detailed Description
______________________________________________________________Pin Description
PIN
1
2
3
4
5
NAME
GND
V
V
FB
V
SW
IN
C
SW
) at the beginning of each clock cycle.
Feedback Input is the error amplifier's inverting input, and controls output voltage by adjusting switch duty cycle.
Input bias current is typically 0.5µA when the error amplifier is balanced (I
by reducing the oscillator frequency when the output voltage is low. (See the Applications Information section.)
Error-Amplifier Output. A series RC network connected to this pin compensates the MAX724/MAX726. Output
swing is limited to about 5.8V in the positive direction and -0.7V in the negative direction. V
nize the MAX724/MAX726 to an external clock. (See the Applications Information section).
Ground requires a short low-noise connection to ensure good load regulation. The internal reference is referred
to GND, so errors at this pin are multiplied by the error amplifier. See the Applications Information section for
grounding details.
Internal Power Switch Output. The
(MAX726).
V
bypassed with a low-ESR capacitor, typically 200µF or 220µF.
IN
_______________________________________________________________________________________
supplies power to the MAX724/MAX726's internal circuitry and also connects to the collector. V
C
to ground. The error
C
Switch-Mode DC-DC Regulators
) of the error
S
witch output can swing 35V below ground and is rated for 5A (MAX724), 2A
C
M
can
of
5A/2A Step-Down, PWM,
FUNCTION
6.5A (2.6A for MAX726). V
driven by the PWM controller circuitry. V
35V below ground and is rated for 5A (2A for MAX726).
Figure 2 shows the MAX724/MAX726 in a basic step-
down DC-DC converter. Typical MAX724 waveforms
are shown in Figure 3 for V
50 H, and I
forms are shown. One set shows high load current (3A)
where inductor current never falls to zero during the
switch "off-cycle" (continuous-conduction mode, CCM).
The second set of waveforms, at low output current
(0.16A), shows inductor current at zero during the latter
half of the switch off-cycle (discontinuous-conduction
mode, DCM). The transition from CCM to DCM occurs
at an output current (I
following equation:
where V
voltage drop across the switch, and f
most applications, the distinction between CCM and
DCM is academic since actual performance differences
are minimal. All CCM designs can be expected to exhibit
DCM behavior at some level of reduced load current.
I
DCM
D
is the diode forward voltage drop, V
= (V
OUT
OUT
= 3A and 0.16A. Two sets of wave-
Basic Step-Down Application
+ V
OUT
2 (V
DCM
D
) [(V
= 0V). FB also aids current limiting
) that can be derived with the
IN
SW
IN
- V
IN
- V
is a power NPN, internally
SW
= 20V, V
SW
) f
) - (V
C
OSC
can also synchro-
OSC
L
OUT
OUT
= 100kHz. In
SW
IN
+ V
must be
can swing
= 5V, L =
SW
D
)]
is the
5
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