MAXIM MAX1845EVKIT

19-2101; Rev 0; 8/01
MAX1845 Evaluation Kit
This EV kit is a fully assembled and tested circuit board.
It also allows the evaluation of other output voltages in
the 1.0V to 5.5V range by changing feedback resistors
R1–R4.
Ordering Information
PART
TEMP. RANGE
0oC to +70oC
MAX1845EVKIT
Features
♦ 7V to 22V Input Voltage Range
♦ 1.8V and 2.5V Output Voltages
♦ 1.0V to 5.5V Adjustable Outputs
♦ 4A Output Current (2.5V Output)
♦ 7A Output Current (1.8V Output)
♦ Adjustable Current-Limit Threshold
♦ 255kHz/345kHz Switching Frequency
♦ Power-Good Output
♦ Over- and Undervoltage Protection
♦ 28-Pin QSOP Package
♦ Low-Profile Components
♦ Fully Assembled and Tested
IC PACKAGE
28 QSOP
Component List
DESIGNATION
QTY
C1−C5
5
C6−C9
4
C10, C11
2
C12
1
C13
C14, C15, C17,
C18
C16
1
DESCRIPTION
10µF, 25V ceramic capacitors
(1812)
Taiyo Yuden TMK432BJ106KM or
TDK C4532X5R1E106M
470µF, 6.3V, 30mΩ low-ESR
tantalum capacitors
Kemet T510X477M006AS
0.1µF ceramic capacitors (0805)
1µF, 10V X5R ceramic capacitor
(0805)
Taiyo Yuden LMK212BJ105MG
3.3µF, 10V X5R ceramic capacitor
(1206)
Taiyo Yuden LMK316BJ335ML
0
Not installed
1
0.22µF ceramic capacitor (1206)
4.7µF, 16V tantalum capacitor
Sprague 595D475X0016A2B
100mA, 30V dual Schottky diode
Central Semiconductor CMPSH-3A
1A, 30V Schottky diodes
Nihon EP10QY03 or
Toshiba CRS02
2.2µH power inductor
Panasonic ETQP6F2R2SFA or
Sumida CDRH127-2R4
C19
1
D1
1
D2, D3
2
L1
1
DESIGNATION
QTY
DESCRIPTION
L2
1
N1
1
N2
1
N3A, N3B
1
R1−R4, R7, R8,
R10−R14
0
R5
1
R6
R9, R15
1
2
R19
1
R20
U1
JU1, JU2, JU3
None
None
None
None
1
1
3
3
4
1
1
0.005Ω ±1%, 1W resistor (2512)
Dale WSL-2512-R005F or
Panasonic ERJM1WSF5MOU
100kΩ ±5% resistor (0805)
1MΩ ±5% resistors (0805)
0.010Ω ±1%, 1/2W resistor (2010)
Dale WSL-2010-R010F
10Ω ±5% resistor (0805)
MAX1845EEI (28-pin QSOP)
3-pin headers
Shunts
Rubber feet
MAX1845 PC board
MAX1845 data sheet
None
1
MAX1845EVKIT data sheet
4.7µH power inductor
Sumida CDRH124-4R7MC
N-channel MOSFET
International Rectifier IRF7807 or
Fairchild FDS6612A
N-channel MOSFET
International Rectifier IRF7805 or
Fairchild FDS6670A
Dual N-channel MOSFET
Fairchild FDS6982A
Not installed
________________________________________________________________ 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: MAX1845
General Description
The MAX1845 evaluation kit (EV kit) demonstrates the
MAX1845’s standard application circuit. This DC-DC
converter steps down high-voltage batteries and/or AC
adapters, generating precision, low-voltage rails for use
as chipset, DRAM supplies, CPU core, and IO supplies.
The MAX1845 EV kit provides dual 1.8V and 2.5V output
voltages from a 7V to 22V battery input range. It delivers
up to 4A output current for the 2.5V output and 7A for
the 1.8V output, with greater than 90% efficiency. The
EV kit operates at 255kHz/345kHz switching frequency
and has superior line- and load-transient response.
Evaluates: MAX1845
MAX1845 Evaluation Kit
Component Suppliers
SUPPLIER
PHONE
FAX
Central Semiconductor
516-435-1110
516-435-1824
Dale-Vishay
402-564-3131
402-563-6418
Fairchild
408-721-2181
408-721-1635
International Rectifier
310-322-3331
310-322-3332
Kemet
408-986-0424
408-986-1442
Table 1. Jumper JU1 Functions
(Output Voltage VOUT1 Control)
JU1
1 and 2
2 and 3
Nihon
847-843-7500
847-843-2798
Panasonic
714-373-7939
714-373-7183
Sumida
708-956-0666
708-956-0702
Taiyo Yuden
408-573-4150
408-573-4159
JU2
1 and 2
TDK
847-390-4373
847-390-4428
Toshiba
949-455-2000
949-859-3963
Note: Please indicate that you are using the MAX1845 when
contacting these component suppliers.
Recommended Equipment
•
7V to 22V, power supply, battery, or notebook AC
adapter
•
•
DC bias power supply, 5V at 100mA
Dummy loads capable of sinking 4A and 7A
•
•
Digital multimeters (DMMs)
100MHz dual-trace oscilloscope
ON1 PIN
Connected to
VCC
Connected to
GND
2 and 3
ON2 PIN
Connected to
VCC
Connected to
GND
JU3
1 and 2
2 and 3
OUTPUT VOLTAGE
VOUT2 = 2.5V,
enabled
VOUT2 = 0V, disabled
SKIP PIN
OPERATING MODE
Connected to
VCC
Low-noise mode,
forced fixedfrequency PWM
operation.
Connected to
GND
Normal operation,
allows automatic
PWM/PFM switchover
for pulse skipping at
light load, resulting in
highest efficiency.
Table 4. Jumper JU4 Functions
(Output Voltage Selection)
JU4
4) Verify that the output voltages are 1.8V (VOUT1) and
2.5V (VOUT2).
1 and 2
Evaluating Other Output Voltages
2 and 3
The EV kit outputs are preset to +1.8V and +2.5V.
However, the output voltages can also be adjusted
between 1.0V and 5.5V by selecting R1/R2 and R3/R4
values. Select feedback resistors R2 (or R4) in the 5kΩ
to 50kΩ range. R1 (or R3) is then given by:
VOUT1 = 0V, disabled
Table 3. Jumper JU3 Functions
(SKIP Mode Selection)
2) Verify that the shunts are across JU1 pins 1 and 2,
JU2 pins 1 and 2, and JU3 pins 1 and 2.
3) Turn on VIN supply prior to +5V bias power; otherwise,
the output UVLO timer will time out and the FAULT
latch will be set, disabling the regulator outputs until
+5V power is cycled or ON1/ON2 is toggled.
VOUT1 = 1.8V,
enabled
Table 2. Jumper JU2 Functions
(Output Voltage VOUT2 Control)
Quick Start
1) Ensure that the circuit is connected correctly to the
supplies and dummy load prior to applying any
power.
OUTPUT VOLTAGE
Not installed
FB1 PIN
Connected to
VCC
Connected to
GND (PC board
trace)
Connected to
resistor-divider
R3/R4
OUTPUT VOLTAGE
VOUT1 = 1.5V
VOUT1 = 1.8V
Adjustable mode
R1 (or R3) = R2 (or R4) x [(VOUT / VFB) - 1]
where VFB = 1.0V.
2
_______________________________________________________________________________________
MAX1845 Evaluation Kit
JU5
Not installed
Not installed
Installed
Not installed
JU6
Not installed
Installed
Not installed
Not installed
JU7
Not installed
Not installed
Not installed
Installed
TON PIN
Floating
Connected to VCC
Connected to REF
Connected to GND
VOUT1/VOUT2 FREQUENCY
(kHz)
255/345 (as shipped)
170/235
355/485
460/620
IMPORTANT: Don’t change the operating frequency without first recalculating component values because the frequency has a significant effect on the peak current-limit level, MOSFET heating, preferred inductor value, PFM/PWM switchover point, output noise, efficiency, and other critical parameters.
Table 6. Jumper JU8 Functions
(Overvoltage Protection Selection)
JU8
Installed
Not installed
Not installed
OVP PIN
Connected to
VCC
Connected to
GND through
R9
Connected to
voltage
between 1.0V
and 1.8V
through REF
divider R9, R10
OVP THRESHOLD
OVP is disabled
OVP is enabled. OVP
threshold is 114% of
nominal.
ILIM2 PIN
SHORT
Connected to VCC
through a PC board
trace
OPEN
Connected to REF
through resistordivider R13/R14.
Refer to the CurrentLimit Circuit section
in the MAX1845
data sheet for
information on
selecting R13/R14.
JU9
Not installed
Installed
UVP PIN
Connected to
VCC through
R15
Connected to
GND
UVP THRESHOLD
UVP is enabled. UVP
threshold is 70% of
nominal.
UVP is disabled
OVP threshold set to
100% to 180% of
nominal VOUT1 and
VOUT2 according to
divider R9, R10
Table 8. Jumper JU10 Functions
(Fixed/Adjustable Current-Limit Selection
for VOUT2)
JU10
Table 7. Jumper JU9 Functions
(Undervoltage Protection Selection)
CURRENT-LIMIT
THRESHOLD
50mV (default)
Adjustable between
30mV and 250mV
Table 9. Jumper JU11 Functions
(Fixed/Adjustable Current-Limit Selection
for VOUT1)
JU11
ILIM1 PIN
SHORT
Connected to VCC
through a PC board
trace
OPEN
Connected to REF
through resistordivider R11/R12.
Refer to the
Current-Limit Circuit
section in the
MAX1845 data
sheet for
information on
selecting R11/R12.
CURRENT-LIMIT
THRESHOLD
50mV (default)
Adjustable between
30mV and 250mV
_______________________________________________________________________________________
3
Evaluates: MAX1845
Table 5. Jumpers JU5/JU6/JU7 Functions (Switching-Frequency Selection)
4
GND
VOUT1
1.8V, 7A
C6
470µF
6.3V
7V TO 22V
VIN
C17
OPEN
C1
10µF
25V
VOUT1
1.5V
1.8V
JU4
1, 2
2, 3
R4
OPEN
R3
OPEN
C7
470µF
6.3V
C8
470µF
6.3V
C2
10µF
25V
ON1
3
D3
2
3
2
8
7
N2
3
8
7
N1
5
6
JU7
540kHz
BST1
4
4
ON2
1
1
5
6
JU5
420kHz
R7
SHORT
(PC TRACE)
JU6
200kHz
JU4
VCC
L1
2.2µH
1
2
VCC
REF
2V
C3
10µF
25V
3
JU1
VCC
1
2
4
11
5
10
12
2
1
28
24
27
25
ON1
TON
REF
ON2
FB1
OUT1
CS1
DL1
LX1
BST1
DH1
V+
JU11
26
C16
0.22µF
FLOAT = 300kHz
3
JU2
C14
OPEN
VCC
1
2
R5
0.005Ω
1%
C10
0.1µF
R12
OPEN
VCC
REF
ILIM2
ILIM1
MAX1845
13
3
U1
R11
OPEN
R13
OPEN
UVP
OVP
GND
SKIP
PGOOD
FB2
OUT2
CS2
DL2
LX2
DH2
BST2
VCC
VDD
21
VCC
9
8
23
6
7
14
15
16
20
17
18
19
22
R20
10Ω
R14
OPEN
JU10
JU9
R15
1MΩ
VCC
1
2
R9
1MΩ
C12
1µF
10V
2
4
1
7
3
5
BST1
1
2 JU3
3
VCC
R10
OPEN
PGOOD
JU8
VCC
R
R8
SHORT
(PC TRACE)
C11
0.1µF
L
R6
100kΩ
C15
OPEN
C13
3.3µF
VCC D1
3
REF
8
N3-A R19
0.01Ω
1%
N3-B
6
C19
4.7µF
16V
D2
C5
10µF
25V
R2
SHORT
(PC TRACE)
L2
4.7µH
C4
10µF
25V
VBIAS
+5V
R1
OPEN
C9
470µF
6.3V
VOUT2
2.5V, 4A
C18
OPEN
VIN
Evaluates: MAX1845
MAX1845 Evaluation Kit
Figure 1. MAX1845 EV Kit Schematic
_______________________________________________________________________________________
MAX1845 Evaluation Kit
Figure 3. MAX1845 EV Kit PC Board Layout—Component Side
Figure 4. MAX1845 EV Kit PC Board Layout—Internal GND
Plane (Layer 2)
Figure 5. MAX1845 EV Kit PC Board Layout—Internal GND
Plane (Layer 3)
_______________________________________________________________________________________
5
Evaluates: MAX1845
Figure 2. MAX1845 EV Kit Component Placement
Guide—Component Side
Evaluates: MAX1845
MAX1845 Evaluation Kit
Figure 6. MAX1845 EV Kit PC Board Layout—Solder Side
Figure 7. MAX1845 EV Kit Component Placement Guide—
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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© 2001 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.