MAXIM MAX1953EVKIT

19-2516; Rev 0; 7/02
MAX1953 Evaluation Kit
Component List
MAX1953 Application Circuit
DESIGNATION
QTY
DESCRIPTION
C8
1
0.1µF ±10%, 50V X7R
ceramic capacitor
Taiyo Yuden UMK107BJ104KA
C9, C10
2
10µF, 4V X5R ceramic capacitors
Taiyo Yuden AMK212BJ106MG
C11
1
270pF, 10V X7R ceramic capacitor
Kemet C0402C271M8RAC
C12
1
Not installed
C13, C14
2
10µF, 6.3V X5R ceramic capacitors
Taiyo Yuden JMK316BJ106ML
C15
1
4.7µF, 6.3V X5R ceramic capacitor
Taiyo Yuden JMK212BJ475MG
C16
1
120pF, 50V COG ceramic capacitor
Murata GRM1885C1H121J
D2
1
Schottky diode
Central Semiconductor CMPSH1-4
JU3
1
Jumper, SIP3, 3-pin header
Digi-Key S1012-3-ND or equivalent
JU4
1
Jumper, SIP2, 2-pin header
Digi-Key S1012-2-ND or equivalent
L2
1
1µH, 3.6A, 20mΩ inductor
Toko 817FY-1R0M
Features
♦ Low-Cost Current-Mode Controllers
♦ Fixed-Frequency Pulse-Width Modulation (PWM)
♦ 0.8V (min) Output Voltage for MAX1953/MAX1954
♦ Operates from Low 3V Input Voltage
♦ MAX1953
1MHz Switching Frequency
Small Component Size, Low Cost
Adjustable Current Limit
♦ MAX1954
3V to 13.2V Input Voltage
93% Efficiency
300kHz Switching Frequency
♦ MAX1957
0.4V to 0.86VIN Output Voltage Range
Sinking and Sourcing Capability of Up to 3A
Output Voltage Tracks VREFIN
♦ Shutdown Feature
♦ All N-Channel MOSFETs Design for Low Cost
♦ No Current-Sense Resistor Needed
♦ Internal Digital Soft-Start
♦ Surface-Mount Components
♦ Thermal-Overload Protection
♦ Small 10-Pin µMAX Package
♦ MAX1953/MAX1954 Circuit Assembled and Tested
Ordering Information
PART
MAX1953EVKIT
TEMP RANGE
IC PACKAGE
-40°C to +85°C
10 µMAX
Recommended Equipment
•
3V to 6V at +7A DC power supply or battery
•
Digital multimeter (DMM)
•
Ammeter (optional)
________________________________________________________________ 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: MAX1953/MAX1954/MAX1957
General Description
The MAX1953 evaluation kit (EV kit) demonstrates three
low-cost, buck controller application circuits. The
MAX1953 application circuit features an adjustable current
limit. The 1MHz switching frequency renders a small footprint. The MAX1954 application circuit operates from a 3V
to 13.2V input voltage range and is adjustable independent of the supply voltage. The MAX1954 switches at
300kHz and boasts 93% efficiency with the supplied components. The MAX1957 application circuit demonstrates
the ability to track VREFIN. The MAX1957 switches at
300kHz and is capable of sinking and sourcing up to 3A.
This fully tested EV kit comes with the MAX1953 and
MAX1954 evaluation circuits assembled. The MAX1953
EV kit also has complete layout to evaluate the MAX1957.
Request free samples of the MAX1957 from Maxim to
evaluate this circuit.
Evaluates: MAX1953/MAX1954/MAX1957
MAX1953 Evaluation Kit
Component List (continued)
MAX1953 Application Circuit (continued)
DESIGNATION
QTY
None
2
N2
DESCRIPTION
MAX1954 Application Circuit (continued)
DESIGNATION
QTY
Shunt
Digikey S9000-ND or equivalent
C5
1
1000pF, 10V ceramic capacitor
Kemet C0402C102M8RAC
1
Dual, 20V, 9.4A, 0.014Ω MOSFET
Fairchild FDS6898A
C6
1
47pF, 10V ceramic capacitor
Kemet C0402C470K8GAC
R4
1
16.9kΩ ±1% resistor
R5
1
8.06kΩ ±1% resistor
C7
1
0.22µF, 10V X7R ceramic capacitor
Kemet C0603C224M8RAC
D1
1
Schottky diode
Central Semiconductor CMPSH1-4
JU1, JU2
2
Jumpers, SIP2, 2-pin headers
Digi-Key S1012-2-ND or equivalent
L1
1
2.7µH, 6.6A, 12mΩ inductor
Coilcraft DO3316P-272HC
N1
1
Dual, 20V, 7.5A, 0.018Ω MOSFET
Fairchild FDS6890A
R1
1
9.09kΩ ±1% resistor
R2
1
8.06kΩ ±1% resistor
R3
1
62kΩ ±5% resistor
None
2
Shunt
Digikey S9000-ND or equivalent
U1
1
MAX1954EUB
R6
1
33kΩ ±5% resistor
U2
1
MAX1953EUB
MAX1954 Application Circuit
DESIGNATION
C1
C2
C3
QTY
1
1
0.1µF ±10%, 16V X7R ceramic capacitor
Taiyo Yuden #EMK107BJ104KA
1
C4
DESCRIPTION
10µF, 16V X5R ceramic capacitor
Taiyo Yuden EMK325BJ106MN
1
180µF, 4V, 15mΩ SP capacitor
Panasonic EEFUE0G181R
10µF, 4V X5R ceramic capacitor
Taiyo Yuden AMK212BJ106MG,
(Not installed)
DESCRIPTION
Component Suppliers
SUPPLIER
COMPONENT
PHONE
Diodes
516-435-1110
www.centralsemi.com
Inductors
561-752-5000
www.coiltronics.com
Fairchild Semiconductor
MOSFETs
408-721-2181
www.fairchildsemi.com
Kemet
Capacitors
864-963-6300
www.kemet.com
Murata
Capacitors
770-436-1300
www.murata.com
Taiyo Yuden
Capacitors
408-573-4150
www.t-yuden.com
Inductors
800-745-8656
www.toko.com
Central Semiconductor
Coiltronics
Toko
Quick Start
The MAX1953/MAX1954 application circuits are fully
assembled and tested. Follow these steps to verify
board operation:
MAX1954
1) Preset the DC power supply to 3V. Turn off the
power supply.
2
WEBSITE
2) Verify that the shunt is in place at JU1 between
positions 1 and 2.
3) Verify that there is no shunt at JU2.
4) Connect the positive lead of the power supply to
the VIN pad and connect the negative lead of the
power supply to GND0.
5) Turn on the power supply.
_______________________________________________________________________________________
MAX1953 Evaluation Kit
7) Gradually increase the input voltage up to 5.5V,
verifying that the output voltage remains at 1.7V.
8) Connect a 5A load between VOUT and GND0.
9) Verify that the voltage at VOUT is 1.7V.
Use JU3 to set the short-circuit current-limit threshold for
the MAX1953. Short JU3 between pins 1 and 2 for a
105mV threshold, between 2 and 3 for 320mV threshold,
or remove the shunt from JU3 for a 210mV threshold.
Evaluating the MAX1957
MAX1953
1) Preset the DC power supply to 3V. Turn off the
power supply.
2) Ensure that there is a shunt between positions 1
and 2 at JU3.
3) Verify that there is no shunt at JU4.
4) Connect the positive lead of the power supply to
the VIN1 pad and connect the negative lead to the
GND1 pad.
5) Turn on the power supply.
6) Verify that the voltage at VOUT1 is 2.5V.
7) Gradually increase the input voltage up to 5.5V verifying that the output voltage remains at 2.5V.
8) Connect a 3A load between VOUT1 and GND2.
9) Verify that the voltage at VOUT1 is 2.5V.
Detailed Description
Evaluating Other Output Voltages
The MAX1953/MAX1954 application circuits come
assembled with output voltages of 2.5V and 1.7V,
respectively. The MAX1953/MAX1954 are capable of
adjustable output voltage settings from 0.8V to 0.86VIN.
To adjust the output voltage, place a 1%, 8.06kΩ resistor
at R2 (R5) and a 1% resistor at R1 (R4) with a value
corresponding to the equation:
R1 (R4) = 8.06 x 103 x ((VOUT/0.8) - 1)
VOUT can not exceed VIN.
The compensation network may need to be optimized
for each output voltage. Refer to the Stability and
Compensation section of the MAX1953/MAX1954/
MAX1957 data sheet for the method to calculate the
compensation components.
Using Separate Power Supplies
(MAX1954)
Two power supplies can be used with the MAX1954 in
order to extend the input voltage range to 13.2V.
Remove the shunt on JU1 to use separate power supplies for VIN and VHSD. If the input voltage required is
between 3V and 5.5V, VIN and VHSD can be connected
together through JU1.
The MAX1957 circuit comes unpopulated on the
MAX1953 EV kit. Table 1 is a bill of materials for the
MAX1957 circuit. To evaluate the MAX1957, request a
free sample of the MAX1957 from Maxim and populate
the MAX1953 EV kit board with the components specified.
Setting the Output Voltage
The MAX1957’s output voltage tracks the voltage at
REFIN. Populate R7 and R8 with 2kΩ resistors to set the
ratio to 1/2. Set a different input/output voltage ratio with
the following equation:
VOUT2 = VREFIN x (R8 /(R7 + R8))
Jumper Settings
JU2, JU4, and JU5 Functions
(Shutdown Mode)
The MAX1953/MAX1954/MAX1957 feature a shutdown
mode to minimize the quiescent current. To shut down
the MAX1953, place a shunt between pins 1 and 2 on
JU4. To shut down the MAX1954, place a shunt
between pins 1 and 2 on JU2. To shutdown the
MAX1957, place a shunt between pins 1 and 2 on JU5.
JU1 Function (HSD Control, MAX1954)
The HSD and IN pins on the MAX1954 can be connected when using input voltages lower than 5.5V. Place a
shunt on JU1 to connect the HSD and IN pins.
JU3 Function (ILIM Control, MAX1953)
Use JU3 to select the current-limit threshold for the
MAX1953. See Table 2 for the possible positions of JU3.
Input Capacitance Guidelines
An oscillation may occur in the input voltage when
using the MAX1953 EV kit that shows up on the output.
This is typically due to long input leads. An LC “tank”
circuit is formed with the inductance of the input leads
and the input capacitance. Use very short leads or add
a high equivalent series resistance (ESR) capacitor
(aluminum electrolytic or tantalum) at the input to stop
this oscillation. This “detunes” the LC tank circuit and
effectively stops the oscillation.
_______________________________________________________________________________________
3
Evaluates: MAX1953/MAX1954/MAX1957
Setting the Current Limit (MAX1953)
6) Verify that the voltage at VOUT is 1.7V.
Evaluates: MAX1953/MAX1954/MAX1957
MAX1953 Evaluation Kit
Table 1. MAX1957 Bill of Materials
DESIGNATION
QTY
270µF, 2V, 15mΩ polymer capacitors
Panasonic EEFUE0E271R
L3
1
2.7µH, 6.6A,12mΩ inductor
Coilcraft DO3316P-272HC
1
10µF, 6.3V X5R ceramic capacitor
Taiyo Yuden JMK316BJ106ML
N3
1
Dual, 20V, 7.5A, 0.018Ω MOSFET
Fairchild FDS6890A
C21
1
4.7µF, 6.3V X5R ceramic capacitor
Taiyo Yuden JMK212BJ475MG
None
1
Shunt
Digi-Key S9000-ND or equivalent
C22
1
470pF, 10V ceramic capacitor
Kemet C0402C471M8RAC
R7, R8
2
2kΩ ±1% resistors
R9
1
51.1kΩ ±5% resistor
R10
1
10kΩ 5% resistor
C23, C24
2
0.1µF ±10%, 50V X7R ceramic
capacitors
Taiyo Yuden UMK107BJ104KA
U3
1
MAX1957EUB
C25, C26, C27
3
22µF, 6.3V X5R ceramic capacitors
Taiyo Yuden JMK316BJ226ML
C28
1
68pF, 10V ceramic capacitor
Kemet C0402C680K8GAC
C29
1
1500pF, 50V X7R ceramic capacitor
Murata GRM188R71H152K
D3
1
JU5
1
DESIGNATION
QTY
C17, C18, C19
3
C20
DESCRIPTION
DESCRIPTION
Table 2. JU3 Positions
SHUNT
LOCATION
ILIM
VCS (mV)
Schottky diode
Central Semiconductor CMPSH1-4
Between 1 and 2
Connected to GND
105
None
Floating
210
Jumper, SIP2, 2-pin header
Digikey S1012-2-ND or equivalent
Between 2 and 3
Connected to IN
320
VHSD
5.5V TO 13.2V
JU1
1
VIN
5V
2
C1
10µF
D1
CMPSH1-4
HSD
N1
FAIRCHILD
FDS6890A
BST
IN
C7
0.22µF
DH
U1
MAX1954
JU2
COMP/
SHDN
2
1
C5
1000pF
R3
62kΩ
C6
47pF
LX
DL
C2
0.1µF
N
N
L1
2.7µH, 6.6A
COILCRAFT DO3316P-272HG
R1
9.09kΩ
C3
C4
180µF OPEN
POLYMER
PGND
GND
FB
VOUT
1.7V AT 5A
R2
8.06kΩ
Figure 1. MAX1954 EV Kit Schematic
4
_______________________________________________________________________________________
MAX1953 Evaluation Kit
Evaluates: MAX1953/MAX1954/MAX1957
VIN1
3V to 3.6V
C15
4.7µF
C14
10µF
3
JU3
IN
2
BST
U2
DH
MAX1953
R6
33kΩ
C11
270pF
LX
N
C8
0.1µF
C12
OPEN
L2
1µH, 3.6A
TOKO 817FY-1ROM
VOUT1
2.5V AT 3A
R4
16.9kΩ
N
DL
COMP/
SHDN
2
1
N2
FAIRCHILD
FDS6898A
ILIM
1
JU4
C13
10µF
D2
CMPSH1-4
C9
10µF
PGND
R5
8.06kΩ
FB
GND
C10
10µF
C16
120pF
Figure 2. MAX1953 EV Kit Schematic
VIN2
3V to 3.6V
C20
10µF
C21
4.7µF
REFIN
2.5V
R7
2kΩ
IN
BST
D3
CMPSH1-4
C25
22µF
JU5
C22
470pF
R9
51.1kΩ
MAX1957
COMP/
SHDN
2
1
U3
C23
0.1µF
C28
68pF
DH
LX
C24
0.1µF
N
N
DL
L3
2.7µH, 6.6A
COILCRAFT DO3316-272HC
VOUT2
1.25V AT 3A
C29
1500pF
C17
C18
C19
270µF 270µF 270µF
PGND
R10
10kΩ
GND
C27
22µF
N3
FAIRCHILD
FDS6890A
REFIN
R8
2kΩ
C26
22µF
POLYMER
FB
Figure 3. MAX1957 EV Kit Schematic
_______________________________________________________________________________________
5
Evaluates: MAX1953/MAX1954/MAX1957
MAX1953 Evaluation Kit
1.0"
Figure 4. MAX1953 EV Kit Component Placement Guide—Top Silkscreen
6
_______________________________________________________________________________________
MAX1953 Evaluation Kit
Evaluates: MAX1953/MAX1954/MAX1957
1.0"
Figure 5. MAX1953 EV Kit PC Board Layout—Component Side
_______________________________________________________________________________________
7
Evaluates: MAX1953/MAX1954/MAX1957
MAX1953 Evaluation Kit
1.0"
Figure 6. MAX1953 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.
8 _____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2002 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.