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MAX866ESA+ |MAX866ESAMAXIMN/a69avai3.3V/5V or Adjustable Output, Single-Cell DC-DC Converters
MAX867ESA+ |MAX867ESAMAXIMN/a9avai3.3V/5V or Adjustable Output, Single-Cell DC-DC Converters
MAX867EUA+ |MAX867EUAMAXIMN/a650avai3.3V/5V or Adjustable Output, Single-Cell DC-DC Converters
MAX867EUA+TMAXICN/a2500avai3.3V/5V or Adjustable Output, Single-Cell DC-DC Converters


MAX867EUA+T ,3.3V/5V or Adjustable Output, Single-Cell DC-DC ConvertersMAX866/MAX86719-0374; Rev 1; 5/963.3V/5V or Adjustable-Output, Single-Cell DC-DC Converters________ ..
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MAX8680ETL+ ,Smallest, All-Internal MOSFET, 7-Channel DSC PMIC in Tiny 5mm x 5mm Thin QFNfeatures True♦ Internal Compensation on All ChannelsShutdown™, as well as internal compensation to ..
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MB84VD22183EE-90 ,32M (x 8/x16) FLASH MEMORY & 4M (x 8/x16) STATIC RAMFEATURES• Power supply voltage of 2.7 to 3.3 V• High performance90 ns maximum access time (Flash)85 ..
MB84VD22184FM-70 , 32M (X16) FLASH MEMORY & 4M (X16) STATIC RAM


MAX866ESA+-MAX867ESA+-MAX867EUA+-MAX867EUA+T
3.3V/5V or Adjustable Output, Single-Cell DC-DC Converters
_______________General Description
The MAX866 and MAX867 are ultra-small, high-efficiency,
CMOS, step-up, DC-DC switching regulators for 1-cell
battery-powered systems. The MAX866 accepts a posi-
tive input voltage between 0.8V and VOUTand converts it
to a higher, pin-selectable output voltage of 3.3V or 5V.
The MAX867 adjustable version accepts 0.8V to 6.0V
input voltages and generates a higher adjustable output
voltage in the 2.7V to 6.0V range. Typical efficiencies are
greater than 80%. Typical no-load supply current is
100μA (1μA in shutdown).
The MAX866/MAX867 combine ultra-low quiescent sup-
ply current and high efficiency to give maximum battery
life. Its high switching frequency permits the use of
small, low-cost inductors and capacitors. Additionally,
internal peak-current limiting protects the IC.
________________________Applications

Pagers
Remote Controls
Detectors
1-Cell Battery-Operated Equipment
Backup Supplies
____________________________Features
0.8V to 6.0V Input Supply Voltage 0.9V Guaranteed Start-Up Supply Voltage>80% Efficiency Over Wide Load Range100μA No-Load Battery Current (VOUT= 3.3V)1μA Shutdown ModeUp to 250kHz Switching Frequency±1.5% Reference ToleranceLow-Battery Detector (LBI/LBO)Available in Ultra-Small 8-Pin μMAXPackage
(1.11mm high)
Circuit Fits in 0.2in2
______________Ordering Information
3.3V/5V or Adjustable-Output,
Single-Cell DC-DC Converters
________________________________________________________________Maxim Integrated Products1

GND
OUT
LBILBO
REF
3/5
SHDN
MAX866
SO/μMAX

TOP VIEW
GND
OUT
LBILBO
REF
SHDN
MAX867
SO/μMAX
_________________Pin Configurations

MAX866
SHDN
3/5
REF
GND
OUT
INPUT
0.8V TO VOUT
MBRS0520LTI
OR 1N5817
OUTPUT
5V OR 3.3V
LBO
47μF
0.22μF
330μH
LOW-BATTERY
DETECTOR OUTPUT
ON/OFF
3V/5V SELECT
LBILOW-BATTERY
DETECTOR
INPUT
__________Typical Operating Circuit

19-0374; Rev 1; 5/96
PARTTEMP. RANGE PIN-PACKAGE
MAX866C/D
0°C to +70°CDice*
MAX866ESA-40°C to +85°C8 SO
MAX867C/D
0°C to +70°CDice*
MAX867ESA-40°C to +85°C8 SO
* Dice are tested at TA= +25°C only.
EVALUATION KIT
AVAILABLE

MAX866EUA-40°C to +85°C8 μMAX
MAX867EUA-40°C to +85°C8 μMAX
& the latest literature: http://,
.3V/5V or Adjustable-Output, Single-Cell DC-DC Converters_______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS

(Circuit of Figure 2, VIN= 1.2V, ILOAD= 0mA, TA= +25°C, unless otherwise noted.)
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.
Supply Voltage (OUT to GND) ...................................-0.3V, +7V
Switch Voltage (LX to GND) .......................................-0.3V, +7V—H—D—N–, LBO to GND....................................................-0.3V, +7V
LBI, REF, 3/–5–, FB to GND............................-0.3V, (VOUT+ 0.3V)
Reference Current (IREF) ..................................................2.5mA
Continuous Power Dissipation (TA= +70°C)
SO (derate 5.88mW/°C above +70°C) .........................471mW
μMAX(derate 4.1mW/°C above +70°C) ......................330mW
Reverse Battery Current (TA≤+45°C) (Note 1)................750mA
Operating Temperature Ranges
MAX86_C/D .......................................................0°C to +70°C
MAX86_E_A ....................................................-40°C to +85°C
Junction Temperature .....................................................+150°C
Storage Temperature Range ............................-65°C to +160°C
Lead Temperature (soldering, 10sec) ............................+300°C
Note 1:
Reverse battery current is measured from the Typical Operating Circuit’sbattery input terminal to GND when the battery is
connected backwards. A reverse current of 750mA will not exceed the package dissipation limits but, if left for an extended
time (more than ten minutes), may degrade performance.
With falling edge–5–= 3V, -20μA ≤REF load ≤250μA, CREF= 0.22μF
No REF load
0.9V ≤VIN≤3V
ILOAD= 0mA, 3/–5–= 3V, LBI = 1.5V,
VOUT= 3.47V, FB = 1.5V
CONDITIONS
1.221.251.28LBI Input Threshold0.82.0Reference Load Regulation1.221.251.28Reference Voltage5001Shutdown Quiescent Current
(Note 4)2760Quiescent Supply Current in
3.3V mode (Note 4)
Output Voltage
(Note 2)
UNITSMINTYPMAXPARAMETER

Peak Inductor Current Limit
MAX866, 3/–5–= 0V, 0mA ≤ILOAD≤6mA
MAX866, 3/–5–= 3V, 0mA ≤ILOAD≤8mA
MAX867, VOUT= 5V, 0mA ≤ILOAD≤ 6mA
MAX866, 3/–5–= 0V, 0mA ≤ILOAD≤6mA
MAX866, 3/–5–= 3V, 0mA ≤ILOAD≤8mA
MAX867, VOUT= 5V, 0mA ≤ILOAD≤6mA—H—D—N–= 0V, 3/–5–= 3V, LBI = 1.5V, VOUT= 3.47V,
FB = 1.5V
0.9V ≤VIN≤3V
MAX866, 3/–5–= 0V, 4.8V ≤VLOAD≤5.2V
MAX866, 3/–5–= 3V, 3.17V ≤VLOAD≤3.43V
MAX867, VOUT= 5V, 4.8V ≤ VLOAD≤5.2V
MAX866, 3/–5–= 0V, 4.8V ≤VLOAD≤5.2V
MAX866, 3/–5–= 3V, 3.17V ≤VLOAD≤3.43V
MAX867, VOUT= 5V, 4.8V ≤VLOAD≤5.2V9139152315
Maximum Load Current
(Note 2)
0.9V ≤VIN≤3V,
TA =TMIN TO TMAX
(Note 3)
1.2V ≤VIN≤3V0.80.9Minimum Start-Up
Supply Voltage
Output set for 3.3V, measured at VINin Figure 2, VIN= 1.5VμA100No-Load Battery Current
1.2V ≤VIN≤3V
MAX866, 3/–5–= 0V, 0mA ≤ILOAD≤10mA
MAX866, 3/–5–= 3V, 0mA ≤ILOAD≤15mA
MAX867, VOUT= 5V, 0mA ≤ILOAD≤ 10mA4.805.05.20
4.805.05.20
.3V/5V or Adjustable-Output, Single-Cell DC-DC Converters
_______________________________________________________________________________________3

EFFICIENCY vs. LOAD CURRENT (VOUT = 3.3V)
MAX866/667-01
LOAD CURRENT (mA)
(%
TOP TO BOTTOM:
VIN = 2.0V
VIN = 1.5V
VIN = 1.25V
VIN = 1.0V
VIN = 0.75V
VIN = 0.5V
L = SUMIDA CD73-331 (330μH, 1.5Ω)
EFFICIENCY vs. LOAD CURRENT (VOUT = 5.0V)
MAX866/67-04
LOAD CURRENT (mA)
IEN
(%
TOP TO BOTTOM:
VIN = 2.0V
VIN = 1.5V
VIN = 1.25V
VIN = 1.0V
VIN = 0.75V
L = COILCRAFT D01608-334 (330μH, 2.9Ω)
EFFICIENCY vs. LOAD CURRENT (VOUT = 3.3V)
MAX866/67-02
LOAD CURRENT (mA)
(%
TOP TO BOTTOM:
VIN = 2.0V
VIN = 1.5V
VIN = 1.25V
VIN = 1.0V
VIN = 0.75V
L = COILCRAFT D01608-334 (330μH, 2.9Ω)
EFFICIENCY vs. LOAD CURRENT (VOUT = 5.0V)
MAX866/667-03
LOAD CURRENT (mA)
(%
TOP TO BOTTOM:
VIN = 2.0V
VIN = 1.5V
VIN = 1.25V
VIN = 1.0V
VIN = 0.75V
VIN = 0.5V
L = SUMIDA CD73-331 (330μH, 1.5Ω)
NO-LOAD BATTERY CURRENT
vs. BATTERY VOLTAGE (VOUT = 3.3V)
MAX866/67-05
BATTERY VOLTAGE (V)

DECREASING
BATTERY
VOLTAGE
INCREASING
BATTERY
VOLTAGE
NO-LOAD BATTERY CURRENT
vs. BATTERY VOLTAGE (VOUT = 5V)
MAX866/67-06
BATTERY VOLTAGE (V)

DECREASING
BATTERY
VOLTAGE
INCREASING
BATTERY
VOLTAGE
__________________________________________Typical Operating Characteristics

(Circuits of Figure 2, TA= +25°C, unless otherwise noted.)
ELECTRICAL CHARACTERISTICS (continued)

(Circuit of Figure 2, VIN= 1.2V, ILOAD= 0mA, TA= +25°C, unless otherwise noted.)
Note 2:
Output current specified with circuit of Figure 2 and CoilCraft D01608-334 inductor for test purposes only. More (or less)
output current can be supplied with other coil types depending on inductance value and coil resistance. See Typical Operating
Characteristicsfor other coil types. Output voltage and output current are guaranteed over this VIN operating range once the
device has started up. Actual VIN start-up voltage depends on load current.
Note 3:
Output voltage specifications over temperature are guaranteed by design to limits that are 6 sigma from either side of the mean.
Note 4:
Current measured into OUT. VOUTis forced to 3.47V to maintain LX off when measuring device current.
PARAMETERCONDITIONSMINTYPMAXUNITS
—H—D—N–, 3/–5–Input Voltage High0.32 x VOUTV—H—D—N–, 3/–5–, FB, LBI Input CurrentLBI = 1.5V, FB = 1.5V, –S—H—D—N–= 0V or 3V, 3/–5–= 0V or 3V±40±100nA
FB VoltageMAX867, output in regulation1.221.251.28V
Output Voltage RangeMAX8672.76.0VS—H—D—N–, 3/–5–Input Voltage Low0.08 x VOUTV
LBO Output Leakage CurrentLBO = 5V1μA
LBI Input Hysteresis25mV
LBO Output Voltage LowISINK= 2mA, open-drain output0.4V
.3V/5V or Adjustable-Output, Single-Cell DC-DC Converters_______________________________________________________________________________________
____________________________Typical Operating Characteristics (continued)

(Circuits of Figure 2, TA= +25°C, unless otherwise noted.)
START-UP INPUT VOLTAGE vs. LOAD CURRENT
(VOUT = 3.3V)
AX186-14AMAX866/67-07
LOAD CURRENT (mA)
IN
T V
(V
100µH
47µH
220µH330µH
1mH
START-UP INPUT VOLTAGE vs. LOAD CURRENT
(VOUT = 5V)
MAX186-14A
LOAD CURRENT (mA)
IN
T V
(V
100µH
47µH
220µH330µH
MAX866/67-08101000
INPUT VOLTAGE vs. LOAD CURRENT
(VOUT = 3.3V)

MAX186-14AMAX866/67-09
LOAD CURRENT (mA)
(V
100µH47µH
22µH
330µH1mH
INPUT VOLTAGE vs. LOAD CURRENT
(VOUT = 5V)
MAX186-14AM
AX866/67-10
LOAD CURRENT (mA)
(V
22µH
330µH
47µH
100µH-
A: 3.3V OUTPUT VOLTAGE, AC COUPLED 20mV/div
B: INPUT VOLTAGE (0.9V AND 1.4V) 500mV/div
ILOAD = 10mA, COUT = 47μF
MAX866 LINE-TRANSIENT RESPONSE
(3.3V MODE)

1ms/div
REFERENCE VOLTAGE
vs. REFERENCE CURRENT

MAX866/67-11
REFERENCE LOAD CURRENT (μA)
F L
(m8
A: 5.0V OUTPUT VOLTAGE, AC COUPLED 20mV/div
B: INPUT VOLTAGE (0.9V AND 1.4V) 500mV/div
ILOAD = 10mA, COUT = 47μF
MAX866 LINE-TRANSIENT RESPONSE
(5V MODE)

1ms/div
.3V/5V or Adjustable-Output, Single-Cell DC-DC Converters
_______________________________________________________________________________________5

A: 5.0V OUTPUT VOLTAGE, AC COUPLED 20mV/div
B: OUTPUT CURRENT (0mA AND 10mA) 5mV/div
(TEKTRONIX P6042 CURRENT PROBE)
ILOAD = 5mA, COUT = 47μF, VIN = 1.25V
MAX866 LOAD-TRANSIENT RESPONSE
(5V MODE)

1ms/div
A: 3.3V OUTPUT VOLTAGE, 2V/div
B: SHDN INPUT VOLTAGE (0V AND 5V) 2V/div
ILOAD = 10mA
MAX866 SHUTDOWN RESPONSE
(3.3V MODE)

10ms/div
A: 5.0V OUTPUT VOLTAGE, 2V/div
B: SHDN INPUT VOLTAGE (0V AND 5V) 5V/div
ILOAD = 10mA
MAX866 SHUTDOWN RESPONSE
(5V MODE)

10ms/div
____________________________Typical Operating Characteristics (continued)

(Circuits of Figure 2, TA= +25°C, unless otherwise noted.)
MAX867 LBI AND FB THRESHOLD
vs. TEMPERATURE
AX866/67-24 TEMPERATURE (°C)
I, FB
(V60-20-40208040100
LBI
VFB (MAX867)
MAX866 OUTPUT VOLTAGE ERROR
vs. TEMPERATURE0.5
AX866/67-25
TEMPERATURE (°C)
T V
(%60-20-40208040100
5V MODE
ILOAD= OA
3.3V MODE
START-UP VOLTAGE
vs. TEMPERATURE1.0
AX866/67-26
TEMPERATURE (°C)
(V60-20-40208040100
0.5ILOAD = 0A
A: 3.3V OUTPUT VOLTAGE, AC COUPLED 20mV/div
B: OUTPUT CURRENT (0mA AND 10mA) 5mV/div
(TEKTRONIX P6042 CURRENT PROBE)
ILOAD = 5mA, COUT = 47μF, VIN = 1.25V
MAX866 LOAD-TRANSIENT RESPONSE
(3.3V MODE)

1ms/div
.3V/5V or Adjustable-Output, Single-Cell DC-DC Converters_______________________________________________________________________________________
______________________________________________________________Pin Description

N-Channel Power-MOSFET Drain88
Low-Battery Output. An open-drain N-channel MOSFET sinks current when the voltage at
LBI drops below 1.25V.44
Low-Battery Input. When the voltage on LBI drops below 1.25V, LBO sinks current.
If not used, connect to VIN.55
Connect OUT to the regulator output. OUTprovides bootstrap power to the IC.66
Power Ground. Must be low impedance; solder directly to ground plane.77
1.25V Reference Voltage Output. Bypass with 0.22μF to GND (0.1μF if there is no external
reference load). Maximum load capability is 250μA source, 20μA sink.33
Feedback Input for adjustable-output operation. Connect to an external resistor voltage
divider between OUT and GND.2—
Selects the output voltage; connect to GND for 5V output, and to OUT for 3.3V output.—2
Shutdown Input. When low, the entire circuit is off and VOUT= VIN- VD,where VDis the
forward voltage drop of the external Schottky rectifier.11
FUNCTIONPIN

LBO
LBI
OUT
GND
REF–5–S—H—D—N–
NAMEMAX866MAX867
____________________________Typical Operating Characteristics (continued)

(Circuits of Figure 2, TA= +25°C, unless otherwise noted.)
QUIESCENT SUPPLY CURRENT
vs. TEMPERATURE30
MAX866/67-28 TEMPERATURE (°C)
T S
(μ60-20-40208040100
IOUT
VOUT = 3.47V
REFERENCE VOLTAGE
vs. TEMPERATURE1.255
AX866/67-29
TEMPERATURE (°C)
E (V60-20-40208040100
IREF = 0A
OUTPUT CURRENT CAPABILITY
vs. TEMPERATURE30
MAX866/67-27
TEMPERATURE (°C)
T C
(m60-20-40208040100
VIN = 0.9V
3.3V MODE
VIN = 1.2V
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