Maxim MAX8741EAI, MAX8741ETJ, MAX8742EAI, MAX8742ETJ Schematics

For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
General Description
The MAX8741/MAX8742 are buck-topology, step-down, switch-mode, power-supply controllers that generate logic-supply voltages in battery-powered systems. These high-performance, dual/triple-output devices include on­board power-up sequencing, power-good signaling with delay, digital soft-start, secondary winding control, low­dropout circuitry, internal frequency-compensation net­works, and automatic bootstrapping.
Up to 97% efficiency is achieved through synchronous rectification and Maxim’s proprietary Idle Mode™ control scheme. Efficiency is greater than 80% over a 1000:1 load-current range, which extends battery life in system suspend or standby mode. Excellent dynamic response corrects output load transients within five clock cycles. Strong 1A on-board gate drivers ensure fast external n-channel MOSFET switching.
These devices feature a logic-controlled and synchroniz­able, fixed-frequency, pulse-width-modulation (PWM) operating mode. This reduces noise and RF interference in sensitive mobile communications and pen-entry appli­cations. Asserting the SKIP pin enables fixed-frequency mode, for lowest noise under all load conditions.
The MAX8741/MAX8742 include two PWM regulators, adjustable from 2.5V to 5.5V with fixed 5.0V and 3.3V modes. All these devices include secondary feedback regulation, and the MAX8742 contains a 12V/120mA lin­ear regulator. The MAX8741 includes a secondary feed­back input (SECFB), plus a control pin (STEER) that selects which PWM (3.3V or 5V) receives the secondary feedback signal. SECFB provides a method for adjusting the secondary winding voltage regulation point with an external resistor-divider, and is intended to aid in creating auxiliary voltages other than fixed 12V.
The MAX8741/MAX8742 contain internal output overvolt­age- and undervoltage-protection features.
________________________Applications
Notebook and Subnotebook Computers
PDAs and Mobile Communicators
Desktop CPU Local DC-DC Converters
Features
97% Efficiency4.2V to 30V Input Range2.5V to 5.5V Dual Adjustable OutputsSelectable 3.3V and 5V Fixed or Adjustable
Outputs (Dual Mode™)
12V Linear RegulatorAdjustable Secondary Feedback (MAX8741)5V/50mA Linear-Regulator OutputPrecision 2.5V Reference OutputProgrammable Power-Up SequencingPower-Good (RESET) OutputOutput Overvoltage Protection Output Undervoltage Shutdown 333kHz/500kHz Low-Noise, Fixed-Frequency
Operation
Low-Dropout, 98% Duty-Factor Operation2.5mW Typical Quiescent Power (12V Input,
Both SMPSs On)
4µA Typical Shutdown Current
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
________________________________________________________________ Maxim Integrated Products 1
5V
LINEAR
12V
LINEAR
POWER-UP SEQUENCE
POWER-
GOOD
3.3V
SMPS
5V
SMPS
RESETON/OFF
5V (RTC)
3.3V
INPUT
5V
12V
Functional Diagram
19-3262; Rev 1; 8/05
Ordering Information
Idle Mode is a trademark of Maxim Integrated Products, Inc. Dual Mode is a trademark of Maxim Integrated Products, Inc.
Pin Configurations appear at end of data sheet.
PART
PIN-PACKAGE
MAX8741EAI
28 SSOP
MAX8741EAI+
28 SSOP
MAX8741ETJ
32 Thin QFN 5m m x 5m m
MAX8741ETJ+
32 Thin QFN 5m m x 5m m
+Denotes lead-free package.
Ordering Information continued at end of data sheet.
TEMP RANGE
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers with High Impedance in Shutdown
2 _______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS
(V+ = 15V, both PWMs on, SYNC = VL, VLload = 0, REF load = 0, SKIP = 0, TA= 0°C to +85°C, unless otherwise noted. Typical values are at T
A
= +25°C.)
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
V+ to GND ..............................................................-0.3V to +36V
PGND to GND.....................................................................±0.3V
V
L
to GND ................................................................-0.3V to +6V
BST3, BST5 to GND ..............................................-0.3V to +36V
CSH3, CSH5 to GND................................................-0.3V to +6V
FB3 to GND ..............................................-0.3V to (CSL3 + 0.3V)
FB5 to GND ...............................................-0.3V to (CSL5 +0.3V)
LX3 to BST3..............................................................-6V to +0.3V
LX5 to BST5..............................................................-6V to +0.3V
REF, SYNC, SEQ, STEER, SKIP,
TIME/ON5, SECFB, RESET to GND ..........-0.3V to (V
L
+ 0.3V)
V
DD
to GND............................................................-0.3V to +20V
RUN/ON3, SHDN to GND.............................-0.3V to (V+ + 0.3V)
12OUT to GND ..........................................-0.3V to (V
DD
+ 0.3V)
DL3, DL5 to PGND........................................-0.3V to (V
L
+ 0.3V)
DH3 to LX3 ..............................................-0.3V to (BST3 + 0.3V)
DH5 to LX5 ..............................................-0.3V to (BST5 + 0.3V)
V
L
, REF Short to GND ................................................Momentary
12OUT Short to GND..................................................Continuous
REF Current...........................................................+5mA to -1mA
V
L
Current.........................................................................+50mA
12OUT Current . .............................................................+200mA
V
DD
Shunt Current............................................................+15mA
Continuous Power Dissipation (T
A
= +70°C)
28-Pin SSOP (derate 9.52mW/°C above +70°C) ........762mW
32-Pin Thin QFN (derate 21.3mW/°C above +70°C) ....1702mW
Operating Temperature Range ...........................-40°C to +85°C
Storage Temperature Range ............................-65°C to +160°C
Lead Temperature (soldering, 10s) ................................+300°C
PARAMETER CONDITIONS
UNITS
MAIN SMPS CONTROLLERS
Input Voltage Range 4.2
V
3V Output Voltage in Adjustable Mode
V+ = 4.2V to 30V, CSH3 - CSL3 = 0, CSL3 connected to FB3
2.5
V
3V Output Voltage in Fixed Mode
V+ = 4.2V to 30V, 0 < CSH3 - CSL3 < 80mV, FB3 = 0
V
5V Output Voltage in Adjustable Mode
V+ = 4.2V to 30V, CSH5 - CSL5 = 0, CSL5 connected to FB5
2.5
V
5V Output Voltage in Fixed Mode
V+ = 5.3V to 30V, 0 < CSH5 - CSL5 < 80mV, FB5 = 0
V
Output Voltage Adjust Range Either SMPS
5.5 V
Adjustable-Mode Threshold Voltage Dual-mode comparator 0.5 1.1 V
Load Regulation Either SMPS, 0 < CSH_ - CSL_ < 80mV -2 %
Line Regulation Either SMPS, 5.2V < V+ < 30V
%/V
CSH3 - CSL3 or CSH5 - CSL5 80 100
Current-Limit Threshold
SKIP = V
L
or VDD < 13V or SECFB < 2.44V -50
mV
Idle-Mode Threshold SKIP = 0, not tested 10 25 40 mV
Soft-Start Ramp Time
From enable to 95% full current limit with respect to f
OSC
(Note 1)
512
Clks
SYNC = V
L
500
Oscillator Frequency
SYNC = 0
333
kHz
MIN TYP MAX
2.42
3.20 3.39 3.47
2.42
4.85 5.13 5.25
REF
0.03
450
283
-100 -150
30.0
2.58
2.58
120
550
383
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
_______________________________________________________________________________________ 3
ELECTRICAL CHARACTERISTICS (continued)
(V+ = 15V, both PWMs on, SYNC = VL, VLload = 0, REF load = 0, SKIP = 0, TA= 0°C to +85°C, unless otherwise noted. Typical values are at T
A
= +25°C.)
PARAMETER CONDITIONS
MIN
TYP
MAX
UNITS
SYNC = V
L
95 97
Maximum Duty Factor
SYNC = 0 (Note 2)
98
%
SYNC Input High Pulse Width Not tested
ns
SYNC Input Low Pulse Width Not tested
ns
SYNC Rise/Fall Time Not tested
ns
SYNC Input-Frequency Range
kHz
Current-Sense Input Leakage Current
V+ = V
L
= 0,
CSL3 = CSH3 = CSL5 = CSH5 = 5.5V
10 µA
FLYBACK CONTROLLER
VDD Regulation Threshold Falling edge (MAX8742) 13 14 V
SECFB Regulation Threshold Falling edge (MAX8741)
V
DL Pulse Width VDD < 13V or SECFB < 2.44V
µs
VDD Shunt Threshold Rising edge, hysteresis = 1% (MAX8742) 18 20 V
VDD Shunt Sink Current V
DD
= 20V (MAX8742) 10 mA
VDD Leakage Current V
DD
= 5V, off mode (Note 3) 30 µA
12V LINEAR REGULATOR (MAX8742)
12OUT Output Voltage 13V < V
DD
< 18V, 0 < I
LOAD
< 120mA
V
12OUT Current Limit 12OUT forced to 11V, V
DD
= 13V 150 mA
Quiescent V
DD
Current V
DD
= 18V, run mode, no 12OUT load 50
µA
INTERNAL REGULATOR AND REFERENCE
VL Output Voltage
SHDN = V+, RUN/ON3 = TIME/ON5 = 0,
5.4V < V+ < 30V, 0mA < I
LOAD
< 50mA
4.7 5.1 V
VL Undervoltage-Lockout Fault Threshold Falling edge, hysteresis = 1% 3.5 3.6 3.7 V
VL Switchover Threshold Rising edge of CSL5, hysteresis = 1% 4.2 4.5 4.7 V
REF Output Voltage No external load (Note 4)
2.5
V
0 < I
LOAD
< 50µA
REF Load Regulation
0 < I
LOAD
< 5mA
mV
REF Sink Current 10 µA
REF Fault-Lockout Voltage Falling edge 1.8 2.4 V
V+ Operating Supply Current VL switched over to CSL5, 5V SMPS on 5 50 µA
V+ Standby Supply Current
V+ = 5.5V to 30V, both SMPSs off, includes current into SHDN
30 60 µA
V+ Standby Supply Current in Dropout
V+ = 4.2V to 5.5V, both SMPSs off, includes current into SHDN
50
µA
V+ Shutdown Supply Current V+ = 4.0V to 30V, SHDN = 0 4 10 µA
MAX8742 2.5 4
Quiescent Power Consumption
Both SMPSs enabled, FB3 = FB5 = 0, CSL3 = CSH3 = 3.5V,
CSL5 = CSH5 = 5.3V
MAX8741 1.5 4
mW
96.5
200
200
400 583
2.44 2.60
11.65 12.10 12.50
2.45
0.01
0.75
200
100
2.55
12.5
100.0
200
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers with High Impedance in Shutdown
4 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS (continued)
(V+ = 15V, both PWMs on, SYNC = VL, VLload = 0, REF load = 0, SKIP = 0, TA= 0°C to +85°C, unless otherwise noted. Typical values are at T
A
= +25°C.)
PARAMETER CONDITIONS
MIN
TYP
MAX
UNITS
FAULT DETECTION
Overvoltage Trip Threshold With respect to unloaded output voltage 4 7 10 %
Overvoltage Fault Propagation Delay
CSL_ driven 2% above overvoltage trip threshold
1.5 µs
Output Undervoltage Threshold With respect to unloaded output voltage 60 70 80 %
Output Undervoltage-Lockout Time
From each SMPS enabled, with respect to f
OSC
Clks
Thermal-Shutdown Threshold Typical hysteresis = 10°C
°C
RESET
RESET Trip Threshold
With respect to unloaded output voltage, falling edge; typical hysteresis = 1%
-7
-4 %
RESET Propagation Delay
Falling edge, CSL_ driven 2% below RESET trip threshold
1.5 µs
RESET Delay Time With respect to f
OSC
Clks
INPUTS AND OUTPUTS
Feedback-Input Leakage Current FB3, FB5; SECFB = 2.6V 1 50 nA
Logic Input-Low Voltage
RUN/ON3, SKIP, TIME/ON5 (SEQ = REF), SHDN, STEER, SYNC
0.6 V
Logic Input-High Voltage
RUN/ON3, SKIP, TIME/ON5 (SEQ = REF), SHDN, STEER, SYNC
2.4 V
Input Leakage Current
RUN/ON3, SKIP, TIME/ON5 (SEQ = REF),
±A
Logic Output-Low Voltage RESET, I
SINK
= 4mA 0.4 V
Logic Output-High Current RESET = 3.5V 1 mA
TIME/ON5 Input Trip Level SEQ = 0 or V
L
2.4 2.6 V
TIME/ON5 Source Current TIME/ON5 = 0, SEQ = 0 or V
L
2.5 3 3.5 µA
TIME/ON5 On-Resistance TIME/ON5; RUN/ON3 = 0, SEQ = 0 or V
L
15 80 Ω
Gate-Driver Sink/Source Current DL3, DH3, DL5, DH5; forced to 2V 1 A
SSOP package 1.5 7
Gate-Driver On-Resistance
QFN package 1.5 8
Ω
3300 4096 4700
+150
-5.5
27,000 32,000 37,000
SHDN, STEER, SYNC, SEQ; V
High or low (Note 5)
= 0V or 3.3V
PIN
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
_______________________________________________________________________________________ 5
ELECTRICAL CHARACTERISTICS
(V+ = 15V, both PWMs on, SYNC = VL, VLload = 0, REF load = 0, SKIP = 0, TA= -40°C to +85°C, unless otherwise noted.) (Note 6)
PARAMETER CONDITIONS
UNITS
MAIN SMPS CONTROLLERS
Input Voltage Range 4.2
V
3V Output Voltage in Adjustable Mode
V+ = 4.2V to 30V, CSH3 - CSL3 = 0, CSL3 connected to FB3
V
3V Output Voltage in Fixed Mode
V+ = 4.2V to 30V, 0 < CSH3 - CSL3 < 80mV, FB3 = 0
V
5V Output Voltage in Adjustable Mode
V+ = 4.2V to 30V, CSH5 - CSL5 = 0, CSL5 connected to FB5
V
5V Output Voltage in Fixed Mode
V+ = 5.3V to 30V, 0 < CSH5 - CSL5 < 80mV, FB5 = 0
V
Output Voltage Adjust Range Either SMPS
5.5 V
Adjustable-Mode Threshold Voltage Dual-mode comparator 0.5 1.1 V
CSH3 - CSL3 or CSH5 - CSL5 80
Current-Limit Threshold
SKIP = V
L
or VDD < 13V or SECFB < 2.44V -50
mV
SYNC = V
L
Oscillator Frequency
SYNC = 0
kHz
SYNC = V
L
95
Maximum Duty Factor
SYNC = 0 (Note 2) 97
%
SYNC Input Frequency Range
kHz
FLYBACK CONTROLLER
VDD Regulation Threshold Falling edge (MAX8742) 13 14 V
SECFB Regulation Threshold Falling edge (MAX8741)
V
VDD Shunt Threshold Rising edge, hysteresis = 1% (MAX8742) 18 20 V
VDD Shunt Sink Current V
DD
= 20V (MAX8742) 10 mA
12V LINEAR REGULATOR (MAX8742)
12OUT Output Voltage 13V < V
DD
< 18V, 0mA < I
LOAD
< 100mA
V
Quiescent V
DD
Current V
DD
= 18V, run mode, no 12OUT load
µA
INTERNAL REGULATOR AND REFERENCE
VL Output Voltage
SHDN = V+, RUN/ON3 = TIME/ON5 = 0,
5.4V < V+ < 30V, 0 < I
LOAD
< 50mA
4.7 5.1 V
VL Undervoltage-Lockout Fault Threshold Falling edge, hysteresis = 1% 3.5 3.7 V
VL Switchover Threshold Rising edge of CSL5, hysteresis = 1% 4.2 4.7 V
REF Output Voltage No external load (Note 4)
V
0 < I
LOAD
< 50µA
REF Load Regulation
0 < I
LOAD
< 5mA
mV
REF Sink Current 10 µA
REF Fault-Lockout Voltage Falling edge 1.8 2.4 V
V+ Operating Supply Current VL switched over to CSL5, 5V SMPS on 50 µA
MIN TYP MAX
2.42 2.58
3.20 3.47
2.42 2.58
4.85 5.25
REF
450 550
283 383
400 583
2.44 2.60
11.65 12.50
2.45 2.55
30.0
120
-150
100
12.5
100.0
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers with High Impedance in Shutdown
6 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS (continued)
(V+ = 15V, both PWMs on, SYNC = VL, VLload = 0, REF load = 0, SKIP = 0, TA= -40°C to +85°C, unless otherwise noted.) (Note 6)
PARAMETER CONDITIONS
UNITS
V+ Standby Supply Current
V+ = 5.5V to 30V, both SMPSs off, includes current into SHDN
60 µA
V+ Standby Supply Current in Dropout
V+ = 4.2V to 5.5V, both SMPSs off, includes current into SHDN
µA
V+ Shutdown Supply Current V+ = 4.0V to 30V, SHDN = 0 10 µA
MAX8742 4
Quiescent Power Consumption
Both SMPSs enabled, FB3 = FB5 = 0,
MAX8741 4
mW
FAULT DETECTION
Overvoltage Trip Threshold With respect to unloaded output voltage 4 10 %
Output Undervoltage Threshold With respect to unloaded output voltage 60 80 %
Output Undervoltage-Lockout Time
From each SMPS enabled, with respect to f
OSC
Clks
RESET
RESET Trip Threshold
With respect to unloaded output voltage, falling edge; typical hysteresis = 1%
-7 -4 %
RESET Delay Time With respect to f
OSC
Clks
INPUTS AND OUTPUTS
Feedback-Input Leakage Current FB3, FB5; SECFB = 2.6V 50 nA
Logic Input-Low Voltage
RUN/ON3, SKIP, TIME/ON5 (SEQ = REF), SHDN, STEER, SYNC
0.6 V
Logic Input-High Voltage
RUN/ON3, SKIP, TIME/ON5 (SEQ = REF), SHDN, STEER, SYNC
2.4 V
Logic Output-Low Voltage RESET, I
SINK
= 4mA 0.4 V
Logic Output-High Current RESET = 3.5V 1 mA
TIME/ON5 Input Trip Level SEQ = 0 or V
L
2.4 2.6 V
TIME/ON5 Source Current TIME/ON5 = 0, SEQ = 0 or V
L
2.5 3.5 µA
TIME/ON5 On-Resistance TIME/ON5; RUN/ON3 = 0, SEQ = 0 or V
L
80 Ω
SSOP package 7
Gate-Driver On-Resistance
QFN package 8
Ω
Note 1: Each of the four digital soft-start levels is tested for functionality; the steps are typically in 20mV increments. Note 2: High duty-factor operation supports low input-to-output differential voltages, and is achieved at a lowered operating frequency
(see the Dropout Operation section).
Note 3: Off mode for the MAX8742 12V linear regulator occurs when the SMPS that has flyback feedback (V
DD
) steered to it is disabled. In situations where the main outputs are being held up by external keep-alive supplies, turning off the 12OUT regulator prevents a leakage path from the output-referred flyback winding, through the rectifier, and into V
DD
.
Note 4: Since the reference uses V
L
as its supply, the reference’s V+ line-regulation error is insignificant.
Note 5: Production testing limitations due to package handling require relaxed maximum on-resistance specifications for the thin
QFN package. The SSOP and thin QFN packages contain the same die, and the thin QFN package imposes no additional resistance in circuit.
Note 6: Specifications from 0°C to -40°C are guaranteed by design, not production tested.
CSL3 = CSH3 = 3.5V, CSL5 = CSH5 = 5.3V
MIN TYP MAX
200
High or low (Note 5)
3300 4700
27,000 37,000
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
_______________________________________________________________________________________ 7
100
50
0.001 0.01 0.1 1 10
EFFICIENCY vs. 5V OUTPUT CURRENT
60
MAX8741/42 toc01
5V OUTPUT CURRENT (A)
EFFICIENCY (%)
70
80
90
85
75
65
55
95
ON5 = 5V ON3 = 0V f = 500kHz MAX8741
V+ = 15V
V+ = 6V
100
50
0.001 0.01 0.1 1 10
EFFICIENCY vs. 3.3V OUTPUT CURRENT
60
MAX8741/42 toc02
3.3V OUTPUT CURRENT (A)
EFFICIENCY (%)
70
80
90
85
75
65
55
95
ON5 = ON3 = 5V f = 500kHz MAX8741
V+ = 15V
V+ = 6V
800
600
400
200
0
01051520
MAXIMUM VDD OUTPUT CURRENT
vs. INPUT VOLTAGE
MAX8741/42 toc03
INPUT VOLTAGE (V)
MAXIMUM V
DD
OUTPUT CURRENT (mA)
5V LOAD = 0
5V LOAD = 3A
100
0.01 01052030
NO-LOAD INPUT CURRENT
vs. INPUT VOLTAGE
0.1
1
10
MAX8741/42 toc04
INPUT VOLTAGE (V)
INPUT CURRENT (mA)
15 25
SKIP = 0V
SKIP = V
L
ON5 = ON3 = 5V NO LOAD
10,000
1
01052030
V+ STANDBY INPUT CURRENT
vs. INPUT VOLTAGE
10
100
1000
MAX8741/42 toc05
INPUT VOLTAGE (V)
INPUT CURRENT (
μ
A)
15 25
ON5 = ON3 = 0V NO LOAD
0
2
6
4
8
10
0105 15202530
SHUTDOWN INPUT CURRENT
vs. INPUT VOLTAGE
MAX8741/42 toc06
INPUT VOLTAGE (V)
INPUT CURRENT (
μ
A)
SHDN = 0V
0.001 0.01 1
MINIMUM VIN TO V
OUT
DIFFERENTIAL
vs. 5V OUTPUT CURRENT
MAX8741/42 toc07
5V OUTPUT CURRENT (A)
MINIMUM V
IN
TO V
OUT
DIFFERENTIAL (mV)
1000
10
100
0.1 10
f = 500kHz
f = 333kHz
V
OUT
> 4.8V
1000
0.1
0.001 0.01 1 10
SWITCHING FREQUENCY
vs. LOAD CURRENT
1
10
100
MAX8741/42 toc08
LOAD CURRENT (A)
SWITCHING FREQUENCY (kHz)
0.1
3.3V, VIN = 15V
5V, VIN = 15V
3.3V, VIN = 6.5V
5V, VIN = 6.5V
4.90
4.92
4.96
4.94
4.98
5.00
02010 30 40 50
VL REGULATOR OUTPUT VOLTAGE
vs. OUTPUT CURRENT
MAX8741/42 toc09
OUTPUT CURRENT (mA)
V
L
OUTPUT VOLTAGE (V)
VIN = 15V ON3 = ON5 = 0V
Typical Operating Characteristics
(Circuit of Figure 1, Table 1, 6A/500kHz components, TA = +25°C, unless otherwise noted.)
5V LOAD-TRANSIENT RESPONSE
MAX8741/42 toc11
10V
0
5A
0
I
LX5
5A/div
V
LX5
10V/div
5V OUTPUT 5OmV/div AC-COUPLED
20μs/div
V
IN
= 8V, I
OUT
= 1A TO 5A
3.3V LOAD-TRANSIENT RESPONSE
MAX8741/42 toc12
10V
0
5A
0
I
LX3
5A/div
V
LX3
10V/div
3.3V OUTPUT 5OmV/div AC-COUPLED
20μs/div
V
IN
= 8V, I
OUT
= 1A TO 5A
SHUTDOWN WAVEFORMS
MAX8741/42 toc14
5V
3.3V
0
0
0
5V OUTPUT 2V/div
3.3V OUTPUT 2V/div
DL3 5V/div
DL5 5V/div
SHDN 5V/div
500μs/div
R
LOAD3
= 5Ω, R
LOAD5
= 5Ω
STARTUP WAVEFORMS
MAX8741/42 toc13
0
0
0
0
3.3V OUTPUT 2V/div
5V OUTPUT 5V/div
TIME 2V/div
RUN 5V/div
2ms/div
SEQ = V
L
, O.O1μF CAPACITOR ON-TIME
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
8 _______________________________________________________________________________________
Typical Operating Characteristics (continued)
(Circuit of Figure 1, Table 1, 6A/500kHz components, TA = +25°C, unless otherwise noted.)
2.505
2.500
2.495
2.490
2.485 0312 456
REF OUTPUT VOLTAGE
vs. OUTPUT CURRENT
MAX8741/42 toc10
OUTPUT CURRENT (mA)
REF OUTPUT VOLTAGE (V)
VIN = 15V ON3 = ON5 = 0
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
_______________________________________________________________________________________ 9
Pin Description
PIN
SSOP TQFN
NAME FUNCTION
1 29 CSH3 Current-Sense Input for the 3.3V SMPS. Current-limit level is 100mV referred to CSL3.
2 30 CSL3 Current-Sense Input. Also serves as the feedback input in fixed-output mode.
3 31 FB3
Feedback Input for the 3.3V SMPS. Regulates at FB3 = REF (approximately 2.5V) in adjustable mode. FB3 is a dual-mode input that also selects the 3.3V fixed output­voltage setting when connected to GND. Connect FB3 to a resistor-divider for adjustable-output mode.
12OUT
(MAX8742)
12V/120mA Linear-Regulator Output. Input supply comes from VDD. Bypass 12OUT to GND with 1µF (min).
41
STEER
(MAX8741)
Logic-Control Input for Secondary Feedback. Selects the PWM that uses a transformer and secondary feedback signal (SECFB):
STEER = GND: 3.3V SMPS uses transformer STEER = V
L
: 5V SMPS uses transformer
V
DD
(MAX8742)
Supply Voltage Input for the 12OUT Linear Regulator. Also connects to an internal resistor-divider for secondary winding feedback and to an 18V overvoltage shunt regulator clamp.
52
SECFB
(MAX8741)
Secondary Winding Feedback Input. Normally connected to a resistor-divider from an auxiliary output. SECFB regulates at V
SECFB
= 2.5V (see the Secondary Feedback
Regulation Loop section). Connect to V
L
if not used.
6 3 SYNC
Oscillator Synchronization and Frequency Select. Connect to V
L
for 500kHz operation; connect to GND for 333kHz operation. Can be driven at 400kHz to 583kHz for external synchronization.
7 4 TIME/ON5
Dual-Purpose Timing Capacitor Pin and ON/OFF Control Input. See the Power-Up
Sequencing and ON/
OFF
Controls section.
8 5 GND Low-Noise Analog Ground and Feedback Reference Point
9 7 REF 2.5V Reference Voltage Output. Bypass to GND with 1µF (min).
10 8 SKIP Log i c- C ontr ol Inp ut that D i sab l es Id l e M od e w hen H i g h. C onnect to G N D for nor m al use.
11 9 RESET
Active-Low Timed Reset Output. RESET swings GND to V
L
. Goes high after a fixed
32,000 clock-cycle delay following power-up.
12 10 FB5
Feedback Input for the 5V SMPS. Regulates at FB5 = REF (approximately 2.5V) in adjustable mode. FB5 is a dual-mode input that also selects the 5V fixed output­voltage setting when connected to GND. Connect FB5 to a resistor-divider for adjustable-output mode.
13 11 CSL5
C ur r ent- S ense Inp ut for the 5V S M P S . Al so ser ves as the feed b ack i np ut i n fi xed - outp ut m od e, and as the b ootstr ap sup p l y i np ut w hen the vol tag e on C S L5/V
L
i s > 4.5V .
14 12 CSH5 Current-Sense Input for the 5V SMPS. Current-limit level is 100mV referred to CSL5.
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers with High Impedance in Shutdown
10 ______________________________________________________________________________________
Pin Description (continued)
PIN
SSOP TQFN
NAME FUNCTION
15 13 SEQ
Pin-Strap Input that Selects the SMPS Power-Up Sequence:
SEQ = GND: 5V before 3.3V, RESET output determined by both outputs SEQ = REF: Separate ON3/ON5 controls, RESET output determined by 3.3V output SEQ = V
L
: 3.3V before 5V, RESET output determined by both outputs
16 14 DH5
Gate-Drive Output for the 5V, High-Side N-Channel Switch. DH5 is a floating driver output that swings from LX5 to BST5, riding on the LX5 switching-node voltage.
17 15 LX5 Switching-Node (Inductor) Connection. Can swing 2V below ground without hazard.
18 17 BST5 Boost Capacitor Connection for High-Side Gate Drive (0.1µF)
19 18 DL5 Gate-Drive Output for the Low-Side Synchronous-Rectifier MOSFET. Swings 0 to VL.
20 19 PGND Power Ground
21 20 V
L
5V Internal Linear-Regulator Output. VL is also the supply-voltage rail for the chip. After the 5V SMPS output has reached 4.5V (typ), V
L
automatically switches to the
output voltage through CSL5 for bootstrapping. Bypass to GND with 4.7µF. V
L
supplies up to 25mA for external loads.
22 21 V+
Battery Voltage Input, 4.2V to 30V. Bypass V+ to PGND close to the IC with a 0.22µF capacitor. Connects to a linear regulator that powers V
L
.
23 22 SHDN
Shutdown Control Input, Active Low. Logic threshold is set at approximately 1V. For automatic startup, connect SHDN to V+ through a 220kΩ resistor and bypass SHDN to GND with a 0.01µF capacitor.
24 23 DL3 Gate-Drive Output for the Low-Side Synchronous-Rectifier MOSFET. Swings 0 to VL.
25 24 BST3 Boost Capacitor Connection for High-Side Gate Drive (0.1µF)
26 26 LX3 Switching-Node (Inductor) Connection. Can swing 2V below ground without hazard.
27 27 DH3
Gate-Drive Output for the 3.3V, High-Side N-Channel Switch. DH3 is a floating driver output that swings from LX3 to BST3, riding on the LX3 switching-node voltage.
28 28 RUN/ON3 ON/OFF Control Input. See the Power-Up Sequencing and ON/
OFF
Controls section.
N.C. No Connection
6, 16, 25, 32
MAX8741/MAX8742
500kHz Multi-Output Power-Supply Controllers
with High Impedance in Shutdown
______________________________________________________________________________________ 11
MAX8741
V+ SHDN V
L
SECFB
INPUT
ON/OFF
C3
7V TO 24V
REF
SEQ
1μF
2.5V ALWAYS ON
5V ALWAYS ON
Q1
5V ON/OFF
3.3V ON/OFF
Q4
0.1μF
0.1μF
L2 R2
3.3V OUTPUT
C2
4.7μF
0.1μF
4.7μF
0.1μF
10Ω
C4
0.1μF
Q3
C5
0.1μF
DL3
CSH3
CSL3
FB3
RESET
RESET OUTPUT
SKIP
STEER
Q2
L1
R1
5V OUTPUT
C1
DL5
LX5
DH5
BST5
BST3
SYNC
DH3
LX3
PGND
CSL5
CSH5
RUN/ON3
TIME/ON5
FB5
GND
Figure 1. Standard 3.3V/5V Application Circuit (MAX8741)
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