MAXIM MAX1538EVKIT

19-3169; Rev 0; 1/04
MAX1538 Evaluation Kit
The MAX1538 evaluation kit (EV kit) is a fully assembled
and tested surface-mount circuit board that routes
charge and discharge currents between two battery
packs, a battery charger, and an AC-adapter power
source. The circuit uses a MAX1538 IC in a 28-pin thin
QFN package and is configured for a 4.75VDC to
28VDC AC-adapter input range.
The EV kit uses eight P-channel MOSFETs to steer current between the power sources and the load. The battery minimum voltage level sets the threshold for battery
undervoltage conditions and can be adjusted from
4.65V to 13.0V.
Features
♦
♦
♦
♦
♦
♦
♦
♦
♦
4.75V to 28V AC-Adapter Input Range
Up to 10A Steering Capability
P-Channel MOSFET Steering Switches
Adjustable Battery Minimum Voltage Level
Adjustable Airline/AC-Adapter Detection Voltages
Manual-or Computer-Controlled Interface
On-Board Status LEDs
Surface-Mount Components
Fully Assembled and Tested
Ordering Information
PART
TEMP RANGE
MAX1538EVKIT
0°C to +70°C
IC PACKAGE
28 Thin QFN
Component List
DESIGNATION QTY
DESCRIPTION
C1
1
1.0µF ±20%, 10V X5R ceramic
capacitor (0603)
TDK C1608X5R1A105M
C2
1
Not installed (2220)
C3
1
Not installed (D-case)
3
47µF, 35V low-ESR tantalum
capacitors (E-case)
AVX TPSE476M035R0250 or
AVX TPSE476M035R0200
2
0.1µF ±20%, 50V X7R ceramic
capacitors (0603)
TDK C1608X7R1H104M
C4, C5, C6
C7, C11
C8, C9
C10
C12, C13
C14
D1
D2, D3, D4
J1
DESIGNATION QTY
JU1–JU5
DESCRIPTION
5
Not installed (SIP-2)
N1–N3
3
Digital logic N-channel MOSFETs
(SOT23)
Central Semiconductor 2N7002
Top mark = 702
P1–P8
8
30V P-channel MOSFETs (8-pin SO)
Fairchild FDS6679
R1
1
100kΩ ±5% resistor (0402)
R2, R3
2
10kΩ potentiometers, 12-turn, 1/4in
R4, R5, R6
3
330kΩ ±5% resistors (0402)
R7
1
10mΩ ±2%, reverse-geometry sense
resistor (1225)
IRC LRC-LRF1225-01-R010-F
R8, R9, R14
3
620Ω ±5% resistors (1206)
2
0.1µF ±20%, 10V X5R ceramic
capacitors (0402)
TDK C1005X5R1A104M
R10–R13
4
160kΩ ±5% resistors (0402)
1
4.7µF ±20%, 6.3V X5R ceramic
capacitor (0805)
TDK C2012X5R0J475M
R15, R16
2
500kΩ potentiometers, 12-turn, 1/4in
R17, R18
2
Not installed (2010)
Not installed (0805)
SW1–SW3
3
3-position, SPDT, slide switches
4
2-circuit terminal blocks
1
1.0µF, 50V X7R ceramic capacitor
(1206)
TDK C3216X7R1H105M
TB1–TB4
TP1–TP12
12
Test points
U1
1
Maxim MAX1538ETI (28-pin QFN)
1
Dual diode (SOT23)
Central Semiconductor CMPD3003C
Top mark = LLC
U2
1
Maxim MAX1615EUK (5-pin SOT23)
Top mark = ABZD
U3, U4
2
Maxim MAX6817EUT (6-pin SOT23)
Top mark = AAAU
None
1
MAX1538 EV Kit PC board
0
3
Green surface-mount LEDs (SS)
Panasonic LNJ308G8LRA
1
Dual-row, 16-pin header
________________________________________________________________ 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: MAX1538
General Description
Evaluates: MAX1538
MAX1538 Evaluation Kit
Component Suppliers
SUPPLIER
PHONE
FAX
WEBSITE
AVX
843-946-0238
843-626-3123
www.avxcorp.com
Central Semiconductor
631-435-1110
631-435-1824
www.centralsemi.com
Fairchild
888-522-5372
—
www.fairchildsemi.com
IRC
361-992-7900
361-992-3377
www.irctt.com
Panasonic
714-373-7366
714-737-7323
www.panasonic.com
TDK
847-803-6100
847-390-4405
www.component.tdk.com
Note: Please indicate that you are using the MAX1538 when contacting these component suppliers.
Quick Start
Recommended Equipment
• Two 16.8VDC Li+ battery packs
• One variable 16.8V, 1A current-limited DC source to
emulate a battery charger
• One variable 20V, 10A DC source to emulate an AC
adapter
• One 10A, 300W electronic load
Procedure
The MAX1538 EV kit is fully assembled and tested.
Follow the steps below to verify board operation. Do
not turn on the power supply until all connections
are completed:
1) Ensure that SW1 is in the down position (charge
mode OFF).
2)
Ensure that SW2 is in the down position (relearn
mode OFF).
3)
Ensure that SW3 is in the down position (battery A
selected).
4)
Set the DC power supply (used to emulate the battery charger) to 16.8V.
5)
Set the DC power supply (used to emulate the AC
adapter) to 20V.
6)
Ensure that all DC power supplies are turned off.
7)
Connect the first battery to the BATA and GND
pads.
8)
Connect the second battery to the BATB and GND
pads.
2
9)
Connect the AC-adapter power supply to the
ADPIN and GND pads.
10) Connect the electronic load to the EXTLD and
GND pads.
Note: Terminal blocks TB1–TB4 can be used
instead of the pads for power-supply connections
in steps 8–11.
11) Connect the positive terminal of the battery-charger
power supply to the CHGIN pad. Connect the negative terminal of the battery-charger power supply to
the GND pad (located by the BATB terminal block).
12) Turn on the AC-adapter power supply.
13) Turn on the battery-charger power supply.
14) Set the electronic load to draw 5A.
15) Enable the electronic load.
16) Verify that LED D3 is lit and that LEDs D2 and D4
are not lit (AC adapter present).
Detailed Description
The MAX1538 EV kit circuit routes charge and discharge currents between two battery packs, a battery
charger, and an AC adapter or DC power source. The
circuit uses a MAX1538 in a 28-pin thin QFN package
to control eight steering P-channel MOSFET switches.
Monitor the MOSFET control signals at test-points
TP1–TP8. A MAX1615 low-power linear regulator provides the circuit board’s 3.3V power for logic ICs and
status LEDs. The EV kit’s AC-adapter input (ADPIN)
range is from 4.75VDC to 28VDC. Figure 1 depicts a
typical setup with batteries and battery charger connected to the EV kit.
_______________________________________________________________________________________
MAX1538 Evaluation Kit
TB2
GND
ADPIN
BATA
TB1
(DC SUPPLY)
BATTERY A
MAX1538 EV KIT
To set the AC adapter trip threshold, apply the minimum AC adapter voltage to the ADPIN pad and measure the voltage at TP11. Adjust potentiometer R2 until
the TP11 voltage measures 2.0V.
A clockwise turn on either potentiometer increases the
measured voltage, while a counterclockwise turn on the
potentiometer decreases the measured voltage.
CHGIN
GND
Battery Charging
RSNS+ RSNSEXTLD
GND
TB4
GND
GND
BATB
TB3
Charge the selected battery (see the Battery Selection
section) by moving the CHRG switch (SW1) to the up
position. Disable the charging path by moving the
switch to the down position.
BATTERY B
SYSTEM
Battery Relearning
The MAX1538 features battery relearning. Moving the
RELRN switch (SW2) to the up position, places the
MAX1538 into relearn mode. Moving the RELRN switch to
the down position, places the MAX1538 into normal mode.
CURRENT SENSE
Battery Selection
(DC SUPPLY)
INPUT
OUTPUT
BATTERY CHARGER
Figure 1. MAX1538 EV Kit Connection Diagram
Potentiometers (R15, R16) allow easy adjustment of the
minimum battery voltage threshold. Below this threshold, the battery is considered undervoltage and is not
selected. See the Battery-Minimum Voltage Level
Adjustment section for more information on adjusting
the level.
LEDs indicate the status of the AC adapter and batteries. The LEDs are driven by N-channel logic FETs.
Jumpers are provided to disable the switches, CMOS
switch debouncers, and LEDs used for evaluating
power usage.
Setting the Adapter Trip Thresholds
The MAX1538 EV kit allows for adjustable AC adapter
and airline adapter trip thresholds. The airline adapter
trip threshold must be set before the AC adapter trip
threshold.
Adjusting the BATSEL switch (SW3) selects from which
battery the EV kit powers the load. If the switch is in the
up position, battery B powers the load. If the switch is
in the down position, battery A powers the load. If the
selected battery is not present or undervoltage, that
battery is not connected to the load.
Battery Minimum Voltage-Level
Adjustment
Adjusting potentiometers R16 and R15, set the minimum A and B battery voltages, respectively. Turning
the potentiometer clockwise increases the minimum
battery voltage. Turning the potentiometer counterclockwise decreases the minimum battery voltage.
To adjust the minimum battery voltage to a predetermined value, monitor the voltage at TP10/TP9 (battery
A/B). Turn the respective potentiometer until the measured voltage is equal to 1/5 the desired minimum battery voltage. The MAX1538 EV kit allows for minimum
battery thresholds between 4.65V and 13.0V.
_______________________________________________________________________________________
3
Evaluates: MAX1538
To set the airline adapter trip threshold, apply the minimum airline adapter voltage to the ADPIN pad and
measure the voltage at TP12. Adjust potentiometer R3
until the TP12 voltage measures 2.0V.
Evaluates: MAX1538
MAX1538 Evaluation Kit
Output Indicators
Using the Optional Parallel Interface
The MAX1538 EV kit features LEDs that indicate the status of the MAX1538 output lines. A lit LED indicates an
output state of 1, while an unlit LED indicates an output
state of zero. Use Table 1 to decode the LED status.
The MAX1538 EV kit features an additional header (J1)
that can be connected to a user-provided computer
interface. When using this interface, disable the manual
interface (switches and LEDs) by cutting the traces at
jumpers JU3, JU4, and JU5. Also disable the on-board
MAX1615 power supply by cutting the traces at jumpers
JU1 and JU2. See Table 2 for header pin connections.
Table 1. Output Indicator Status
OUTPUT
Reducing the Solution
STATE
OUT2
(D4)
OUT1
(D3)
OUT0
(D2)
0
0
0
Battery A
0
0
1
Battery B
0
1
0
AC adapter
0
1
1
Airline
adapter
1
0
0
Battery A
1
0
1
Battery B
1
1
0
Battery A
1
1
1
Battery B
SOURCE
DESCRIPTION
Eight MOSFETs are not required if the application does
not use specific features of the MAX1538. MOSFET P1,
P4, or both, may be removed depending on what features are required.
Relearning Mode Disabled
Supplying EXTLD
If the relearning mode of the MAX1538 is not required,
remove MOSFET P1 and short the pads of resistor R17.
Relearning mode
supplying EXTLD
When using a buck-converter battery charger (i.e., the
AC-adapter voltage is greater than the charge voltage
of the charger), remove MOSFET P4 and short the pads
of resistor R18.
Buck Charger
Charging
Table 2. External Controller Connections
MAX1538 PIN CONNECTIONS
HOSTVCC*
OUT0
OUT1
OUT2
CHRG
RELRN
BATSEL
GND
J1-1
J1-7
J1-5
J1-3
J1-9
J1-11
J1-13
J1-15**
*The host must be able to supply a minimum of 3.3V at 1 mA.
**In addition to J1–15, all even-numbered pins from J1-2 to J1-16 are GND.
4
_______________________________________________________________________________________
MAX1538 Evaluation Kit
Evaluates: MAX1538
ADPIN
R1
100kΩ
TP1
TP12
10
HOSTVCC
HOSTVCC
3
R3
10kΩ
3
R2
10kΩ
1
12
11
9
2
AIRDET
ADPIN
ADPPWR
4
12
TB1-2
56
TB1
RSNS+
78
TP11
GND
R7
10mΩ
2%
2
R5
330kΩ
TB1-1
R17
OPEN
P1
ACDET
GND
R4
330kΩ
C14
1µF
3
78
R6
330kΩ
OUT0
RSNSC2
OPEN
56
TP2
6
OUT1
7
OUT2
8
CHRG
5
RELRN
4
BATSEL
3
21
15
OUT0
REVBLK
OUT1
EXTLD
ADPBLK
OUT2
P2
4
13
EXTLD
3
16
TP3
14
12
EXTLD
12
C4
47µF
35V
3
4
C5
47µF
35V
C6
47µF
35V
P3
28
C1
1.0µF 27
R12
160kΩ
GND
56
78
78
56
TP4
BATSEL
N.C.
U1
DISBAT
18
R18
OPEN
P4
4
3
12
12
3
N.C.
VDD
BATA
GND
DISA
BATA
25
2
BATA
CHGA
56
78
78
56
19
3
1
1
MINVA
CHGIN
GND
CHGIN
TP7
CHGB
21
17
12
TP10
R11
160kΩ
TB2
P6
4
3
2
TB2-1
TB2-2
TP6
TP9
R13
160kΩ
R15
500kΩ
C19
OPEN
MINVB
1
R10
160kΩ
C12
OPEN
4
24
TP5
3
2
TB4
RELRN
P5
R16
500kΩ
TB4-2
CHRG
MAX1538
VDD
TB4-1
20
C3
OPEN
3
4
P7
GND
HOSTVCC
J1
VCC
JU2
J1-2
J1-1
J1-4
J1-3
OUT2
J1-6
J1-5
OUT1
J1-8
J1-7
OUT0
J1-10
J1-9
CHRG
J1-12
J1-11
RELRN
J1-14
J1-13
BATSEL
J1-16
J1-15
CUT HERE
56
78
78
56
TB3-2
TP8
DISB
BATB
23
22
TB3
P8
4
3
TB3-1
BATB
12
C13
OPEN
BATSUP
D1
R20
OPEN
1
3
26
C11
0.1µF
2
BATA
Figure 2. MAX1538 EV Kit Schematic (Sheet 1 of 2)
_______________________________________________________________________________________
5
Evaluates: MAX1538
MAX1538 Evaluation Kit
VCC
EXTLD
JU1
CUT HERE
5
1
SHDN
IN
C7
0.1µF
C8
0.1µF
2
1
5
U2
1
IN1
3
MAX1615
GND
1
5/3
(FB)
OUT
C10
4.7µF
6
JU3
CUT HERE
OUT1
U3
4
JU4
CUT HERE
6
JU5
CUT HERE
CHRG
MAX6817
VCC
3
SW1 2
VCC
4
SW2
2
3
IN2
OUT2
RELRN
3
GND
2
VCC
C9
0.1µF
5
VCC
VCC
D2
VCC
D3
1
D4
SW3 2
VCC
1
IN1
3
U4
OUT1
MAX6817
R8
620Ω
R9
620Ω
3
N1
2
R14
620Ω
3
1
N2
OUT0
2
3
3
1
N3
OUT1
2
IN2
OUT2
4
GND
1
OUT2
2
Figure 2. MAX1538 EV Kit Schematic (Sheet 2 of 2)
6
_______________________________________________________________________________________
BATSEL
MAX1538 Evaluation Kit
Evaluates: MAX1538
Figure 3. MAX1538 EV Kit Component Placement Guide—Component Side
_______________________________________________________________________________________
7
Evaluates: MAX1538
MAX1538 Evaluation Kit
Figure 4. MAX1538 EV Kit PC Board Layout—Component Side
8
_______________________________________________________________________________________
MAX1538 Evaluation Kit
Evaluates: MAX1538
Figure 5. MAX1538 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.
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 _____________________ 9
© 2004 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.