MAX1544ETL+T Maxim Integrated Products, MAX1544ETL+T Datasheet - Page 20
MAX1544ETL+T
Manufacturer Part Number
MAX1544ETL+T
Description
IC QUICK-PWM DUAL-PHASE 40-TQFN
Manufacturer
Maxim Integrated Products
Series
Quick-PWM™r
Datasheet
1.MAX1544ETLT.pdf
(42 pages)
Specifications of MAX1544ETL+T
Applications
Controller, AMD Hammer
Voltage - Input
2 ~ 28 V
Number Of Outputs
1
Voltage - Output
0.68 ~ 1.55 V
Operating Temperature
-40°C ~ 100°C
Mounting Type
Surface Mount
Package / Case
40-TQFN Exposed Pad
Output Voltage
0.675 V to 1.55 V
Output Current
40 A
Input Voltage
4 V to 28 V
Mounting Style
SMD/SMT
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
This eliminates the need for the Schottky diode normally
connected between the output and ground to clamp the
negative output voltage excursion. When the DAC
reaches the 0V setting, DL_ goes high, DH_ goes low,
the reference turns off, and the supply current drops to
about 1µA. When a fault condition—output undervoltage
lockout, output overvoltage lockout (OVP = V
mal shutdown—activates the shutdown sequence, the
controller sets the fault latch to prevent the controller from
restarting. To clear the fault latch and reactivate the con-
troller, toggle SHDN or cycle V
When SHDN goes high, the reference powers up. Once
the reference voltage exceeds its UVLO threshold, the
controller evaluates the DAC target and starts switching.
The slew-rate controller ramps up from 0V in LSB
increments to the currently selected output-voltage set-
ting (see the Power-Up Sequence section). There is no
traditional soft-start (variable current-limit) circuitry, so
full output current is available immediately.
The MAX1544 has a unique internal DAC input
multiplexer (muxes) that selects one of three different
DAC code settings for different processor states
(Figure 3). On startup, the MAX1544 selects the DAC
code from the D0–D4 (SUS = GND) or S0–S1 (SUS = REF
or high) input decoders.
Dual-Phase, Quick-PWM Controller for
AMD Hammer CPU Core Power Supplies
Table 3. Operating Mode Truth Table
20
SHDN
GND
V
V
V
V
V
______________________________________________________________________________________
CC
CC
CC
CC
CC
GND
GND
High
SUS
REF
or
x
x
x
SKIP
GND
V
REF
or
CC
x
x
x
x
Internal Multiplexers
CC
power below 1V.
GND or REF
GND or REF
1.2V to 2V
0 to 0.8V
OFS
or
x
x
x
CC
), or ther-
(Plus offset)
SUS, S0–S1
VOLTAGE
(No offset)
(No offset)
(No offset)
OUTPUT
D0–D4
D0–D4
D0–D4
GND
GND
During normal forced-PWM operation (SUS = GND), the
digital-to-analog converter (DAC) programs the output
voltage using the D0–D4 inputs. Do not leave D0–D4
unconnected. D0–D4 can be changed while the
MAX1544 is active, initiating a transition to a new output
voltage level. Change D0–D4 together, avoiding
greater than 1µs skew between bits. Otherwise, incor-
rect DAC readings can cause a partial transition to the
wrong voltage level followed by the intended transition
to the correct voltage level, lengthening the overall tran-
sition time. The available DAC codes and resulting out-
put voltages are compatible with AMD Hammer voltage
specifications (Table 4).
TON and S0–S1 are four-level logic inputs. These
inputs help expand the functionality of the controller
without adding an excessive number of pins. The four-
level inputs are intended to be static inputs. When left
open, an internal resistive voltage-divider sets the input
voltage to approximately 3.5V. Therefore, connect the
four-level logic inputs directly to V
when selecting one of the other logic levels. See the
Electrical Characteristics for exact logic level voltages.
Low-Power Shutdown Mode. DL_ is forced high, DH_ is
forced low, and the PWM controller is disabled. The supply
current drops to 1µA (typ).
N or m al Op er ati on. The no- l oad outp ut vol tag e i s d eter m i ned b y
the sel ected V ID D AC cod e ( D 0–D 4, Tab l e 4) .
Pulse-Skipping Operation. When SKIP is pulled low, the
MAX1544 immediately enters pulse-skipping operation
allowing automatic PWM/PFM switchover under light loads.
The VROK upper threshold is blanked.
Deep-Sleep Mode. The no-load output voltage is determined
by the selected VID DAC code (D0–D4, Table 4) plus the
offset voltage set by OFS.
Suspend Mode. The no-load output voltage is determined by
the selected suspend code (SUS, S0–S1, Table 5),
overriding all other active modes of operation.
Fault Mode. The fault latch has been set by either UVP, OVP,
or thermal shutdown. The controller remains in FAULT mode
until V
CC
power is cycled or SHDN toggled.
OPERATING MODE
Four-Level Logic Inputs
DAC Inputs (D0–D4)
CC
, REF, or GND
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