MAX1724EVKIT Maxim Integrated Products

19-2076; Rev 1; 5/05
MAX1724 Evaluation Kit
The MAX1724 evaluation kit (EV kit) is a fully assembled
and tested surface-mount circuit board that contains
two separate boost switching-regulator circuits. The
left-side circuit contains a MAX1724 with a preset 3.3V
output. Other preset voltages of 2.7V, 3.0V, or 5.0V are
also available. The right-side circuit contains a
MAX1722, which has an adjustable output voltage. This
circuit’s output is set for 3.6V. All devices regulate with
input voltages from 0.91V to VOUT, making them ideal
for 1- or 2-cell alkaline and NiMH battery applications.
The right-side circuit may also be used to evaluate the
MAX1723, which features a shutdown (SHDN) mode.
The MAX1722/MAX1724 has a BATT pin, which lowers
the guaranteed startup voltage from 1.2V to 0.91V.
The MAX1722/MAX1723/MAX1724 feature synchronous
rectification and ultra-low (1.5µA typ) quiescent current
for maximum efficiency and long battery life. Operation
up to 200kHz allows tiny surface-mount components.
Component List
Features
♦ 0.91V to VOUT Input Voltage Range
♦ Two Complete Boost Circuits
3.3V Fixed (MAX1724)
3.6V Adjustable Output (MAX1722)
♦ Up to 50mA Output from a 1-Cell Input
Up to 100mA Output from a 2-Cell Input
♦ 1.5µA Quiescent Current from VOUT
♦ Up to 90% Efficiency with Synchronous
Rectification
♦ Switching Frequency Up to 200kHz
♦ All Surface-Mount Design
♦ Fully Assembled and Tested Board
Ordering Information
PART
TEMP RANGE
IC PACKAGE
MAX1724EVKIT
0°C to +70°C
THIN SOT23-5
Quick Start
The MAX1724 EV kit is fully assembled and tested.
Follow these steps to verify board operation. Do not
turn on the power supply until all connections are
completed.
DESIGNATION
QTY
DESCRIPTION
C1–C4
4
10µF, 16V X7R ceramic capacitors
TDK C3225X7R1C106MT or
Murata GRM32DR71C106MA
D1
0
Not installed
L1, L2
2
10µH inductors
Sumida CDR43-100MC
R1
1
2MΩ ±1% resistor (0805)
Venkel CR0805-10W-2004FT
3) Verify there is a shunt across pins 1 and 2 of
jumper JU1 (SHDN), thus enabling the MAX1724.
R2
1
1.02MΩ ±1% resistor (0805)
Venkel CR0805-10W-1024FT
4) Turn on the power supply and verify that the output
is at 3.3V.
U1
1
Maxim MAX1724EZK33 (5-pin THIN
SOT23, top mark ADQJ)
U2
1
Maxim MAX1722EZK (5-pin THIN
SOT23, top mark ADQF)
3.6V Output (right side):
1) Connect a 0.91V to 3.6V supply to the VBATT pad.
Connect the supply ground to the GND pad.
JU1, JU2
2
3-pin headers
None
2
Shunts JU1, JU2
None
1
MAX1724 PC board
Note: Quantities are for both circuits.
3.3V Output (left side):
1) Connect a 0.91V to 3.3V supply to the VBATT pad.
Connect the supply ground to the GND pad.
2) Connect a voltmeter to the VOUT pad.
2) Connect a voltmeter to the VOUT pad.
3) Verify there is a shunt across pins 1 and 2 of jumper
JU2 to connect BATT to VBATT for the MAX1722.
4) Turn on the power supply and verify that the output
is at 3.6V.
For instructions on selecting feedback resistors for
other output voltages, see Evaluating Other Output
Voltages (Right Side).
________________________________________________________________ Maxim Integrated Products
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.
1
Evaluates: MAX1722/MAX1723/MAX1724
General Description
Evaluates: MAX1722/MAX1723/MAX1724
MAX1724 Evaluation Kit
Component Suppliers
SUPPLIER
PHONE
FAX
WEBSITE
Murata
814-237-1431
814-238-0490
www.murata.com
Sumida
847-956-0666
847-956-0702
www.sumida.com
TDK
847-803-6100
847-390-4405
www.component.tdk.com
Venkel
512-794-0081
512-794-0087
www.venkel.com
Note: Please indicate that you are using the MAX1724 when contacting component suppliers.
Detailed Description
The MAX1724 EV kit contains two separate boost
switching-regulator circuits. The left-side circuit
(MAX1724) supplies a preset 3.3V output. The rightside circuit (MAX1722) supplies an adjustable 3.6V output, but can also be set from 2.0V to 5.5V. Both circuits
regulate with input voltages from 0.91V to VOUT, but
can accept higher input voltages (below 5.5V) if it is
acceptable for the output voltage to rise above the set
VOUT. Output current for both circuits is 50mA with a
1.2V input, and 100mA for a 2.4V input.
The 3.6V output voltage (right side) can also be adjusted from 2.0V to 5.5V using external resistors R1 and
R2. The input voltage ranges from 0.91V to (V OUT )
when operating from a DC source.
The MAX1724 boost converter (left side) features a
0.1µA shutdown mode.
Jumper Selection
MAX1724 Circuit (Left Side)
The MAX1724 EV kit’s shutdown mode reduces the IC’s
quiescent current to 0.1µA (typ), preserving battery life.
Jumper JU1 selects the shutdown mode for the
MAX1724. Table 1 lists the MAX1724 jumper options.
Table 1. MAX1724 Jumper JU1 Functions
SHUNT
LOCATION
SHDN PIN
MAX1724 OUTPUT
1-2
Connected to
VBATT
MAX1724 enabled,
VOUT = 3.3V
2-3
Connected to GND
Shutdown mode,
VOUT = VBATT - VDIODE
MAX1722 Circuit (Right Side)
When jumper JU2 on the right-side circuit is used with a
MAX1722, pins 1 and 2 must be connected together so
2
that BATT is connected to the battery input (VBATT).
When the right-side circuit is used to evaluate a
MAX1723, see Evaluating the MAX1723 section. Table
2 lists the MAX1722 jumper options.
Table 2. MAX1722 Jumper JU2 Functions
SHUNT LOCATION
BATT PIN
1-2
Connected to VBATT
2-3
Not allowed
3.6V Output (right side):
1) Connect a 0.91V to 3.6V supply to the VBATT pad.
Connect the supply ground to the GND pad.
2) Connect a voltmeter to the VOUT pad.
3) Verify there is a shunt across pins 1 and 2 of
jumper JU2 to connect BATT to VBATT for the
MAX1722.
4) Turn on the power supply and verify that the output
is at 3.6V.
For instructions on selecting feedback resistors for
other output voltages, see Evaluating Other Output
Voltages (Right Side).
Evaluating Other Output Voltages
(Right Side)
The MAX1722 output is set to 3.6V by feedback resistors R1 and R2. To generate output voltages other than
3.6V (2.0V to 5.5V), select different external voltagedivider resistors (R1, R2). Refer to the Setting the
Output Voltage section in the MAX1722/MAX1723/
MAX1724 data sheet for instructions on selecting R1
and R2 for the MAX1722/MAX1723.
Evaluating the MAX1723
The MAX1723 can be evaluated using the MAX1722
circuit (right side). Replace the MAX1722 with a
MAX1723EZK. Diode D1 (Motorola MBR0520L or equiv-
_______________________________________________________________________________________
MAX1724 Evaluation Kit
L2
10µH
VBATT
U1
0.91V TO VOUT
MAX1724
1
VBATT
0.91V TO VOUT
C1
10µF
16V
GND
SHDN
1
2
JU1
3
BATT
LX
2
GND
SHDN
5
JU2
U2
1
2 1
MAX1722
BATT
LX
3
2
OUT
3
GND
C3
10µF
16V
4
C2
10µF
16V
3.3V
VOUT
GND
OUT
3
GND
FB
D1
(OPEN)
5
VOUT
3.6V
4
R1
2.00MΩ
C4
10µF
16V
R2
1.02MΩ
GND
Figure 1. MAX1724 EV Kit Left-Side Circuit Schematic
Figure 2. Right-Side Circuit Schematic for MAX1722 and
MAX1723 Evaluation
alent) may be necessary for low-voltage startup. Refer
to the Low-Voltage Startup Oscillator section in the
MAX1722/MAX1723/MAX1724 data sheet for additional
instructions on selecting D1.
The MAX1723 circuit features a shutdown mode that
reduces current to 0.1µA (typ), preserving battery life.
Jumper JU2 selects the MAX1723 shutdown mode.
Table 3 lists the MAX1723 jumper options.
Table 3. MAX1723 Jumper JU2 Functions
SHUNT
LOCATION
SHDN PIN
MAX1723 OUTPUT
1-2
Connected to
VBATT
MAX1723 enabled,
VOUT = 3.6V
2-3
Connected to GND
Shutdown mode,
VOUT = VBATT - VDIODE
_______________________________________________________________________________________
3
Evaluates: MAX1722/MAX1723/MAX1724
L1
10µH
Evaluates: MAX1722/MAX1723/MAX1724
MAX1724 Evaluation Kit
Figure 3. MAX1724 EV Kit Component Placement Guide—
Component Side
Figure 4. MAX1724 EV Kit PC Board Layout—Component Side
Figure 5. MAX1724 EV Kit PC Board Layout—Solder Side
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
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is a registered trademark of Maxim Integrated Products, Inc.