MAX5392EVKIT+ [MAXIM]
Configurable and Fixed Device Addresses;型号: | MAX5392EVKIT+ |
厂家: | MAXIM INTEGRATED PRODUCTS |
描述: | Configurable and Fixed Device Addresses |
文件: | 总19页 (文件大小:1477K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
19-5146; Rev 1; 5/10
MAX5392 Evaluation System
General Description
Features
S 1.7V to 5.25V Single-Supply Operation
The MAX5392 evaluation kit (EV kit) is an assembled and
tested PCB that features two MAX5392M 50kIdual digi-
tal potentiometer ICs. The MAX5392M IC features dual
volatile 50kI256-tap potentiometers and communicates
through an I2C-compatible serial interface (or through a
stand-alone 2-wire serial interface).
S Controls Up to Eight Potentiometers
S Configurable and Fixed Device Addresses
S I2C-Compatible Serial Interface or Stand-Alone
2-Wire Serial-Interface Operation
S Easy-to-Use Menu-Driven Software
The MAX5392EVMINIQU+ evaluation system (EV sys-
tem) includes the EV kit and a MINIQUSB+ interface
board. The MINIQUSB+ interface board can be used to
enable PC communication through the 2-wire serial inter-
S Includes Windows 2000- , Windows XP-, and
Windows Vista-Compatible Software
S Fully Assembled and Tested
M
M
face. Windows 2000- , Windows XP -, and Windows
M
Vista -compatible software provides a professional user
interface for exercising the MAX5392 features. The pro-
gram is menu-driven and offers a graphical user inter-
face (GUI) complete with buttons, track bars, and edit
boxes. The EV kit software can also be used to evaluate
the MAX5387. The EV kit can also be interfaced directly
to a user-supplied 2-wire system.
Ordering Information
PART
TYPE
MAX5392EVMINIQU+
EV System
+Denotes lead(Pb)-free and RoHS compliant.
The MAX5392 IC can be powered from a 1.7V, 2.6V,
3.3V, or 5V source generated from the MINIQUSB+ inter-
face board and EV kit circuitry, or from a user-supplied
external 1.7V to 5.25V DC power supply. Order the EV
system (MAX5392EVMINIQU+) for a complete PC-based
evaluation of the MAX5392.
Component Lists
MAX5392 EV System
(MAX5392EVMINIQU+)
PART
MAX5392EVKIT+
MINIQUSB+
QTY
DESCRIPTION
1
1
EV kit
The EV kit can also be used to evaluate the MAX5392L
(10kI) and MAX5392N (100kI). The EV kit contains
PCB footprints for two MAX5387 ICs, which allows the
user to independently control up to eight potentiometers.
To evaluate the MAX5387, order samples and install the
ICs on U1 and/or U2 PCB pads.
Maxim command module
MAX5392 EV Kit
DESCRIPTION
DESIGNATION QTY
1FF Q10%, 16V X5R ceramic
capacitors (0603)
TDK C1608X5R1C105K
Murata GRM188R61C105K
C1, C2, C3,
C5, C7, C11,
C13, C17–C20
11
6
0.1FF Q10%, 50V X7R ceramic
capacitors (0603)
Murata GRM188R71H104K
TDK C1608X7R1H104K
C4, C8, C9
C12, C14, C15
10FF Q10%, 6.3V X5R ceramic
capacitor (0805)
Murata GRM21BR60J106K
TDK C2012X5R0J106K
C6
1
0
C10, C16,
C21, C22
Not installed, capacitors (0603)
J1
J2
J3
1
1
1
2 x 3-pin header
2 x 8-pin header
Windows, Windows XP, and Windows Vista are registered
trademarks of Microsoft Corp.
8-pin female receptacle
_______________________________________________________________ Maxim Integrated Products
1
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,
or visit Maxim’s website at www.maxim-ic.com.
MAX5392 Evaluation System
Component Lists (continued)
MAX5392 EV Kit (continued)
DESIGNATION QTY
DESCRIPTION
4-pin header
DESIGNATION QTY
DESCRIPTION
JU1
1
Dual 50kI potentiometers
(16 SSOP)
Maxim MAX5392MAUE+
U3, U4
U5
2
1
1
JU2–JU6,
JU11–JU14,
JU18–JU21,
JU23–JU26
17
2-pin headers
Adjustable output LDO regulator
(5 SC70)
Maxim MAX8512EXK+
(Top Mark: ADW)
JU7–JU10,
JU15, JU16,
JU17, JU22
8
3-pin headers
2.6V LDO regulator (5 SC70)
Maxim MAX8511EXK26+
(Top Mark: AEG)
R1
1
3
0
2
2
40.2kI Q1% resistor (0603)
100kI Q1% resistors (0603)
Not installed, resistors (0603)
0I Q5% resistors (0603)
U6
R2, R11, R12
R3, R4, R5, R8
R6, R9
Logic-level translators (6 FMAXM)
Maxim MAX1840EUB+
U7, U8
—
2
26
1
R7, R10
4.7kI Q1% resistors (0603)
Shunts (JU1–JU26)
Not installed, digital
potentiometers (14 TSSOP)
PCB: MAX5387/MAX5392
EVALUATION KIT+
U1, U2
0
—
Component Suppliers
SUPPLIER
PHONE
WEBSITE
Murata Electronics North America, Inc.
TDK Corp.
770-436-1300
847-803-6100
www.murata-northamerica.com
www.component.tdk.com
Note: Indicate that you are using the MAX5387 or MAX5392 when contacting these component suppliers.
MAX5392 EV Kit Files
FILE
INSTALL.EXE
MAX5392.EXE
FTD2XX.INF
DESCRIPTION
Installs the EV kit files on the computer
Application program
USB driver file
UNINST.INI
Uninstalls the EV kit software
USB driver installation help file
USB_Driver_Help.PDF
µMAX is a registered trademark of Maxim Integrated
Products, Inc.
2
______________________________________________________________________________________
MAX5392 Evaluation System
Database window pops up in addition to a New
Quick Start
Required Equipment
Hardware Found message when installing the
USB driver for the first time. If a window is not seen
that is similar to the one described above after
30s, remove the USB cable from the board and
reconnect it. Administrator privileges are required
to install the USB device driver on Windows 2000,
Windows XP, and Windows Vista.
•ꢀ MAX5392 EV system
MAX5392 EV kit
MINQUSB+ command module (USB cable
included)
•ꢀ User-supplied Windows 2000, Windows XP, or
7) Follow the directions of the Add New Hardware
Wizard to install the USB device driver. Choose the
Search for the best driver for your device option.
Specify the location of the device driver to be
C:\Program Files\MAX5392 (default installation
directory) using the Browse button. During device
driver installation, Windows may show a warning
message indicating that the device driver Maxim
uses does not contain a digital signature. This is
not an error condition and it is safe to proceed
with installation. Refer to the USB_Driver_Help.PDF
document included with the software if you have
problems during this step.
Windows Vista PC with a spare USB port
•ꢀ Up to four multimeters
Note: In the following sections, software-related items
are identified by bolding. Text in bold refers to items
directly from the EV kit software. Text in bold and under-
lined refers to items from the Windows operating system.
Procedure
The EV kit is fully assembled and tested. Follow the steps
below to verify board operation:
1) Visit www.maxim-ic.com/evkitsoftware to down-
load the latest version of the EV kit software,
5392Rxx.ZIP. Save the EV kit software to a tempo-
rary folder and uncompress the ZIP file.
8) Start the EV kit software by opening its icon in the
Start | Programs menu.
2) Install the EV kit software on the computer by run-
ning the INSTALL.EXE program inside the tempo-
rary folder. The program files are copied and icons
are created in the Windows Start | Programs menu.
9) Observe as the program automatically detects the
USB connection and starts the main program.
10) The main program appears with the U3_MAX5392
tab sheet active.
3) Verify that shunts are configured in the EV kit default
state (see Table 1) for proper startup operation of
the EV kit software.
11) Press the Default button.
12) Click on the U4_MAX5392 tab sheet and then press
the Default button.
4) Connect the multimeters to measure voltage across
the MAX5392M (U3, U4) WA and LA PCB pads and
WB and LB PCB pads.
13) Click on the U3_MAX5392 tab sheet.
14) The EV kit software main window appears, as
shown in Figure 1.
5) Connect the MINIQUSB+ interface board to the EV
kit J2 and J3 connectors.
15) The EV kit is now ready for additional testing.
6) Connect the included USB cable from the PC to
the MINIQUSB+ interface board. A Building Driver
_______________________________________________________________________________________
3
MAX5392 Evaluation System
Table 1. Jumper Configuration for MAX5392 EV Kit Operation
JUMPER
SHUNT POSITION
EV KIT FUNCTION
1-2
VPOWER = 5V
JU1
1-3*
VPOWER = 3.3V
VPOWER = 2.6V
1.7V supply enabled
1.7V supply disabled
U3 VDD = 1.7V
1-4
Installed*
Not installed
1-2*
JU2
JU10
JU11
JU12
JU13
JU14
2-3
U3 VDD dependent on jumper JU1 configuration
MAX5392 HA disconnected from the U3 VDD voltage source
MAX5392 HA connected to the U3 VDD voltage source
MAX5392 LA disconnected from GND
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
1-2*
MAX5392 LA connected to GND
MAX5392 HB disconnected from the U3 VDD voltage source
MAX5392 HB connected to the U3 VDD voltage source
MAX5392 LB disconnected from GND
MAX5392 LB connected to GND
JU15
JU16
JU17
2-3*
U3 device address = 0x58 (see Table 7)
2-3*
1-2*
U4 VDD voltage connected to the U3 VDD voltage source
U4 VDD voltage dependent on jumper JU1 configuration
MAX5392 HA disconnected from the U4 VDD voltage source
MAX5392 HA connected to the U4 VDD voltage source
MAX5392 LA disconnected from GND
JU22
JU23
JU24
JU25
2-3
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
MAX5392 LA connected to GND
MAX5392 HB disconnected from the U4 VDD voltage source
MAX5392 HB connected to the U4 VDD voltage source
MAX5392 LB disconnected from GND
JU26
MAX5392 LB connected to GND
*Default position.
4
______________________________________________________________________________________
MAX5392 Evaluation System
Figure 1. MAX5392 Evaluation Kit Software Main Window
U1–U4 current device address and the last write opera-
tion Command Sent and Data Sent indicators.
Detailed Description of Software
Graphical User Interface (GUI) Panel
The MAX5392 EV kit software GUI shown in Figure 1 is
a Windows program that provides a convenient means
to control two MAX5392M dual potentiometers. Use the
mouse or press the Tab key to navigate through the GUI
controls. The correct SMBus/I2C write operations are
generated to update the MAX5392M internal memory
registers when any of these controls are executed.
A few more available software features can be evaluated
by using the menu bar. The software has a demo mode,
which is available by selecting the Options | Demo
Mode menu item. When in demo mode, all software com-
munication to the EV kit hardware is disabled and most
of the software’s GUI is functional. This feature enables
a user to evaluate the software without hardware con-
nectivity.
The EV kit software GUI features four window tab sheets
to select and control two MAX5392 ICs (U3_MAX5392,
U4_MAX5392), dual on-board digital potentiometers,
and two unpopulated MAX5387 ICs (U1_MAX5387, U2_
MAX5387). The software also provides status indicators
(Status1 and Devices Found) to indicate that the EV kit
is operational and the total number of valid MAX5387
and MAX5392 devices populated on the EV kit, respec-
tively. The DEVICES group box indicates components
The EV kit software configures the MINIQUSB+ inter-
face board’s 2-wire communication speed to 400kHz
by default. The speed can be reduced to 100kHz, if
required, by selecting the Options | 2-Wire Speed |
100kHz menu item. This configuration may be required if
slower 2-wire devices are connected to the EV kit’s SCL
and SDA J1 header.
_______________________________________________________________________________________
5
MAX5392 Evaluation System
the user to evaluate the software without hardware con-
nectivity. To exit demo mode, deselect the Options |
Demo Mode menu item.
Software Startup
Upon startup, the EV kit software automatical-
ly searches for the USB interface board’s circuit
connection. The EV kit software searches for U3 set 0x58
address and U4 fixed 0x5A address and places the
addresses in U3_MAX5392 and U4_MAX5392 Device
Address combo boxes, respectively. Upon detecting
U4 fixed 0x5A address, U4_MAX5392 Device Address
combo box is disabled. U4_MAX5392 Device Address
combo box remains enabled if the address is not
detected.
Potentiometer Tab Sheet Controls
Tab sheets U3_MAX5392 and U4_MAX5392 are
used for controlling two MAX5392 ICs. Tab sheets
U1_MAX5387 and U2_MAX5387 are used for controlling
two unpopulated MAX5387 ICs. Each tab sheet contains
a Device Address combo box to select a valid address
and a status indicator to indicate that the address is
valid. An Update Pot A and B checkbox is available
for updating potentiometers A and B simultaneously. A
Default button resets the potentiometer’s A and B wiper
positions to the factory-default midscale position.
The EV kit software continuously polls to find valid
addresses and updates the Devices Found status
indicator. If U1 and U2 are populated on the EV kit,
the user can then navigate to the U1_MAX5387 and
U2_MAX5387 tab sheets and choose the device
addresses according to jumpers JU7, JU8, and JU9
shunt positions, and U2 fixed 0x52 address.
Device Address
Each tab sheet contains a Device Address combo
box and a U_ Status indicator. U1_MAX5387 and
U3_MAX5392 Device Address combo boxes store up
to eight addresses found by the EV kit software. The
eight possible addresses are shown in Table 7. Use the
Device Address combo box to select between different
devices that share the same bus. Before selecting U1
and U3 addresses, verify jumpers JU7, JU8, JU9 (U1)
and JU15, JU16, JU17 (U3) settings and then select
the correct addresses using the U1_MAX5387 and
U3_MAX5392 tab sheets’ Device Address combo
Demo Mode
The EV kit software enters the demo mode—when the
USB connection is not detected or when valid MAX5387
or MAX5392 ID addresses are not found—by selecting
Cancel on the MAX5392 Evaluation Kit popup windows
(Figures 2 and 3). The software can also enter demo
mode at any time from the main window by selecting the
Options | Demo Mode menu item. Demo mode allows
Figure 2. MAX5392 Evaluation Kit Popup Window (Interface Board Not Found)
Figure 3. MAX5392 Evaluation Kit Popup Window (No Devices Found)
6
______________________________________________________________________________________
MAX5392 Evaluation System
boxes. U2_MAX5387 and U4_MAX5392 Device
Address combo boxes store addresses 0x52 and 0x5A,
respectively.
Command Sent Indicator
The U_ Command Sent indicators in the DEVICES
group box displays the last command sent from the mas-
ter (software) to the MAX5392. There are three MAX5392
commands available in the MAX5392 IC, which are
described in Table 2.
U_ Status displays Device Connected when the select-
ed address is found or No Connection when the select-
ed address is not found. When selecting an address
currently in use, the Device Address combo box is set to
?? and U_ Status also displays No Connection.
Data Sent Indicator
The U_ Data Sent indicator in the DEVICES group box
displays the last data sent from the master (software) to
the MAX5392. The U_ Data Sent indicator displays the
last data sent for the write to potentiometer A (0x11),
potentiometer B (0x12), or both potentiometer (0x13)
commands.
Factory Default
Pressing the Default buttons resets potentiometer A
and B wiper positions to the factory-default midscale
position.
Potentiometer A and B Wiper Positions
The wiper position track bars (WA, WB) in the
Potentiometer A and Potentiometer B group boxes are
used to change the wiper position between the H_ and
L_ end points. Use the mouse or keyboard arrow keys to
move the wiper position between the 256 position points.
The wiper position can also be changed by entering the
desired integer value in the edit boxes, or by pressing
the up or down edit box arrows. A change in the W_
wiper position track bars or HW_/WL_ edit boxes writes
to the volatile memory and the wiper position is updated
with the data sent. The wiper position is shown in the
HW_ and WL_ edit boxes. The HW_ edit box shows the
wiper position with respect to the H_ end point, and the
WL_ edit box shows the wiper position with respect to
the potentiometer L_ end point.
The MAX5392 IC uses an 8-bit (MSBs, D7:D0) data byte
to set the wiper position. Refer to the MAX5392 IC data
sheet for additional information.
Keyboard Navigation
Press the Ctrl + Tab keys to navigate to the tab sheets.
The selected tab sheet is indicated by a dotted outline.
Press the Tab key to select each GUI control. The select-
ed control is indicated by a dotted outline. Pressing Shift
+ Tab moves the selection to the previously selected
control. Buttons respond to the keyboard’s space bar
and some controls respond to the keyboard’s up-and-
down arrow keys. Activate the program’s menu bar by
pressing the F10 key and then press the letter of the
desired menu item. Most menu items have one letter
underlined, indicating their shortcut key.
Potentiometers A and B can be updated simultaneously
by checking the Update Pot A and B checkbox. When
enabled, the Potentiometer A group box sends the
same data to both digital potentiometers and enables
control of both digital potentiometers together.
When a number is entered into the edit boxes, it can be
sent to the device by pressing the Enter key. It is also
sent when Tab or Shift + Tab is pressed.
2
Table 2. MAX5392 I C Commands
COMMAND
MAX5392
REGISTER
DESCRIPTION
BINARY
HEX
0x11
0x12
VREGA
VREGB
00010001
00010010
I2C data is written to potentiometer A. Wiper WA position updates with I2C data.
I2C data is written to potentiometer B. Wiper WB position updates with I2C data.
I2C data is written to potentiometers A and B. Wipers WA and WB position
updates with I2C data.
VREGAB
00010011
0x13
_______________________________________________________________________________________
7
MAX5392 Evaluation System
Refer to Application Note 476: Comparing the I2C Bus
Simple I2C Commands
There are two methods for communicating with the EV
kit, through the normal user-interface panel (Figure 1), or
through the I2C commands available by using low-level
SMBusK or by selecting the 2-Wire Interface (Figure
4) utility from the main program’s Options | Advanced
Users Interface menu bar. A window is displayed that
allows I2C operations, such as SMBusReadByte and
SMBusWriteByte. Do not use the SMBusReadByte
operation because the MAX5392 does not send data to
the master.
Note: The I2C dialog boxes accept numeric data in
binary, decimal, or hexadecimal. Hexadecimal numbers
must be prefixed by $ or 0x. Binary numbers must be
exactly eight binary digits. Figure 4 shows a simple
SMBus write-byte operation using the included 2-wire
interface diagnostics tool. In this example, the software
is writing data 0xFF to command byte 0x13 to the device
with the device address 0x5A. The data sequence sets
the MAX5392 (U4) wiper positions WLA and WLB to 255.
to the SMBus available on the Maxim website for infor-
mation and differences between the SMBus and I2C
protocols.
General Troubleshooting
Problem: Software reports it cannot find the interface
circuit
•ꢀ Is the USB cable connected to the MINIQUSB+
board?
•ꢀ Has Windows plug-and-play detected the board?
Bring up Control Panel->System->Device
Manager, and look at what device nodes are indi-
cated for USB. If there is an Unknown device node
attached to the USB, uninstall it—this forces plug-
and-play to try again.
•ꢀ If using an off-board I2C interface, is the power
ground connected to the EV kit ground (GND) at one
of header J1 pin connections (J1-2, J1-4 or J1-6)?
Figure 4. Simple Low-Level 2-Wire Interface
SMBus is a trademark of Intel Corp.
8
______________________________________________________________________________________
MAX5392 Evaluation System
Problem: Software reports no devices found
The EV kit is typically used with a MINIQUSB+ interface
board for communicating with a PC through the SMBus/
•ꢀ Are shunts installed at jumpers JU1, JU2, JU10, and
I2C serial interface. Logic-level translators U7 and U8
provide proper interface translation when using 1.7V to
5.25V to power the MAX5392 VDD inputs.
JU22 (power sources for MAX5392)?
•ꢀ Are the SCL and SDA signals pulled up to VPOWER
(resistors R6, R7, R9, and R10 installed)?
The EV kit can also be used to evaluate the MAX5392L
(10kI) and MAX5392N (100kI). The MAX5392 EV kit
contains PCB footprints for two MAX5387 ICs, which
allows the user to independently control up to eight
potentiometers. To evaluate the MAX5387, order sam-
ples and replace the parts in U1 and/or U2.
•ꢀ Are shunts installed at jumpers JU15, JU16, and
JU17 (set device address)?
•ꢀ If using an external power supply, verify that power
is applied to the EV kit VDD and GND PCB pads.
•ꢀ If using an off-board 2-wire interface, is the power
ground connected to the EV kit ground (GND) at
one of the header J1 pin connections (J1-2, J1-4,
or J1-6)?
EV Kit VDD Input Sources
The VPOWER rail is typically supplied as 3.3V or 5V by
the MINIQUSB+ interface board circuitry and 2.6V using
LDO regulator U6. LDO regulator U5 output is set to 1.7V
and is powered from the VPOWER rail. The VPOWER rail
and U5 set the MAX5392 VDD inputs to 5V, 3.3V, 2.6V,
or 1.7V.
Detailed Description of Hardware
The MAX5392 evaluation kit (EV kit) is an assembled and
tested PCB that features two MAX5392M 50kIdual digi-
tal potentiometers. The potentiometers have end-to-end
resistance of 50kIand each wiper can be programmed
independently among 256 tap positions. The EV kit uses
two MAX5392M ICs (U3, U4) in 16-pin TSSOP packages
on a proven two-layer PCB design.
Regulator U5 has an adjustable output that can be con-
figured to a different voltage by replacing resistor R1.
Use the following equation to set U5 output voltage:
VOUT
1.225
5
R1 = 10
×
−1
The MAX5392 ICs can be powered from a 2.6V, 3.3V,
or 5V source generated from the MINIQUSB+ interface
board and EV kit circuitry (applied at the EV kit VPOWER
rail), or from a user-supplied external 1.7V to 5.25V DC
power supply applied at the VDD and GND PCB pads.
where R1 is in ohms and VOUT is the desired U5 output
voltage.
Jumper JU1 selects the source for the EV kit circuit
VPOWER rail. See Table 3 for proper JU1 configuration
for setting VPOWER rail.
U3 can be powered from the VPOWER rail or from a
1.7V source (U5) using jumpers JU2 and JU10. U4 can
be powered from U3 VDD input or from the VPOWER rail
using jumper JU22.
Jumper JU2 enables/disables U5 output. Install a shunt
across JU2 to enable U5’s 1.7V output. Remove the
shunt at JU2 to disable U5 output. See Table 4 for proper
JU2 configuration.
The EV kit provides connector J1 to interface the
MAX5392 SDA and SCL signals directly to a user-
supplied 2-wire system. Connector J1 also provides
a connection for the MAX5392 EV kit’s 1.7V to 5.25V
VPOWER power-supply rail.
Alternatively, the EV kit VDD and GND PCB pads can be
used to supply an external 1.7V to 5.25V to the EV kit’s
VPOWER rail by removing the shunt at jumper JU1.
Table 3. VPOWER Rail (JU1)
Table 4. U5 LDO Function (JU2)
SHUNT POSITION
U5 1.7V OUTPUT
SHUNT
VPOWER SOURCE
POSITION
Installed*
Enabled
1-2
1-3
1-4
5V (MINIQUSB+ circuitry)
3.3V ( MINIQUSB+ circuitry)
2.6V (LDO U6)
Not installed
*Default position.
Disabled
External source applied at the EV kit
VDD and GND PCB pads
Not installed
_______________________________________________________________________________________
9
MAX5392 Evaluation System
MAX5392 U3 VDD Input Configuration
Jumper JU10 selects the power source for U3 VDD input.
Install a shunt across pins 1-2 of JU10 to operate the
MAX5392 extended VDD input power-supply rail to 1.7V.
Install a shunt across pins 2-3 to operate the MAX5392M
VDD input from the VPOWER rail. See Table 5 for proper
jumper configuration for U3 VDD power-supply input.
Address Selection for the MAX5392 (U3)
The EV kit circuit features three jumpers that pull the
MAX5392 (U3) A2, A1, and A0 address pins to VDD or
GND to set the MAX5392 slave address. See Table 7 for
jumpers JU15 (A2), JU16 (A1), and JU17 (A0) settings to
set the U3 slave address.
Note: The first 7 bits shown are the address. The Y bit
in Table 7 is the I2C read/write bit. The I2C protocol
states that this bit is a 1 for a read operation or a 0 for a
write operation. The Y bit is always set to 0 (write only)
because these digital potentiometers do not transmit
data to the master device.
MAX5392 U4 VDD Input Configuration
Jumper JU22 selects the power source for U4 VDD
input. Install a shunt across pins 1-2 of JU22 to connect
U4 VDD to U3 VDD input voltage. Install a shunt across
pins 2-3 to operate the U4 VDD input from the VPOWER
rail. See Table 6 for proper JU22 configuration.
Table 5. MAX5392 U3 VDD Input (JU10, JU2, JU1)
SHUNT POSITION
U3 VDD PIN
JU10
JU2
JU1
Installed*
Not installed
X
1.7V
1-2*
X
1-2
Not powered
5V
1-3
3.3V
2-3
X
1-4
2.6V
Not installed
External source applied at the EV kit VDD and GND PCB pads
*Default position.
X = Don’t care.
Table 6. MAX5392 U4 VDD Power Source (JU22)
SHUNT POSITION
U4 VDD POWER SOURCE
Connected to U3 VDD power source
Dependent on jumper JU1 configuration
U4 VDD PIN
Connected to U3 VDD (see Table 5)
See Table 3
1-2
2-3
Table 7. Device Address Configuration (JU15, JU16, JU17)
SHUNT POSITION
MAX5392 ADDRESS
JU15
2-3
2-3
2-3
2-3
1-2
1-2
1-2
1-2
JU16
2-3
2-3
1-2
1-2
2-3
2-3
1-2
1-2
JU17
2-3
1-2
2-3
1-2
2-3
1-2
2-3
1-2
BINARY
HEXADECIMAL
0x50
0101 000Y
0101 001Y
0101 010Y
0101 011Y
0101 100Y
0101 101Y
0101 110Y
0101 111Y
0x52
0x54
0x56
0x58
0x5A
0x5C
0x5E
Note: If U2 or U4 is installed on the EV kit, the U3 device address should not be set to 0x52 or 0x5A, respectively.
10 _____________________________________________________________________________________
MAX5392 Evaluation System
I2C Clock and Data Inputs
Potentiometer, Voltage-Divider or
Variable Resistor, with Ground Reference
The MAX5392 features a clock and data input pins for
I2C-compatible communication to control the MAX5392M
wiper position. The clock and data input pins can
be driven by the MINIQUSB+ interface circuit or the
PCB header (J1), along with a user-supplied external
I2C-compatible controller. An external I2C-compatible
controller can be connected to SDA (J1-3), SCL (J1-5),
and GND (J1-2, J1-4, J1-6) on header J1 to commu-
nicate with the MAX5392 ICs. When using an external
I2C-compatible controller, verify that the MINIQUSB+
interface board has been disconnected from the EV
kit J2 and J3 headers. See Table 8 for header J1 pin
assignment.
The EV kit provides an option to configure the MAX5392
as a potentiometer or voltage-divider, open end or with
ground reference, respectively. Use jumpers JU11 and
JU12 for potentiometer A and jumpers JU13 and JU14
for potentiometer B configuration when evaluating U3.
See Tables 9 and 10 for jumper options for configuring
U3 potentiomers A and B. Use jumpers JU23 and JU24
for potentiometer A and jumpers JU25 and JU26 for
potentiometer B configuration when evaluating U4. See
Tables 11 and 12 for the jumper options for configuring
U4 potentiometers A and B.
The MAX5392M IC can also be configured as a variable
resistor by shorting the H_ and W_ pads using a wire.
When operating as a variable resistor, any power source
connected to the H_, W_, or L_ pad must be voltage and
current limited to the maximum conditions stated in the
MAX5392 IC data sheet.
The EV kit requires minor alterations when using an
external I2C-compatible controller connected at J1:
1) Disconnect the MINIQUSB+ interface board from the
EV kit.
2) Remove resistors R6 and R9, located at level transla-
tors U7 and U8 I/0 inputs.
Note: To test the device in resistor mode, the ohmmeter
must be GND referenced to the MAX5392. This can be
accomplished by connecting the L_ pin to GND or the
H_ pin to U3 and U4 respective VDD inputs. Resistance
can then be measured between W_ and L_ or W_ and
H_PCB pads.
Table 8. Header J1 Pin Assignment
PIN
SIGNAL
J1-1
VDD
J1-2, J1-4, J1-6
J1-3
GND
SDA
J1-5
SCL
Table 9. JU11 and JU12 Jumper Functions (U3 Potentiometer A)
SHUNT POSITION
HA PAD
LA PAD
MAX5392 FUNCTION
JU11
JU12
Not installed
Installed
Not connected
Connected to GND
Not connected
Potentiometer open ended
Not installed
Not connected
Connected to VDD
Potentiometer with GND reference
Voltage-divider open ended
Not installed
Installed*
Installed*
Connected to GND
Voltage-divider with GND reference
*Default position.
Table 10. JU13 and JU14 Jumper Functions (U3 Potentiometer B)
SHUNT POSITION
HB PAD
LB PAD
MAX5392 FUNCTION
JU13
JU14
Not installed
Installed
Not connected
Connected to GND
Not connected
Potentiometer open ended
Not installed
Not connected
Connected to VDD
Potentiometer with GND reference
Voltage-divider open ended
Not installed
Installed*
Installed*
Connected to GND
Voltage-divider with GND reference
*Default position.
______________________________________________________________________________________ 11
MAX5392 Evaluation System
U2) and various jumpers to evaluate two MAX5387
Evaluating the MAX5392L/MAX5392N
and MAX5387 ICs
The EV kit can also evaluate the MAX5392L and
MAX5392N. Remove either U3 and/or U4 and
replace them with the desired IC. The MAX5392 EV
kit is populated with additional PCB footprints (U1,
ICs. See Table 13 for proper jumper configurations
when evaluating the MAX5387 ICs. Also, refer to
the MAX5387 EV system data sheet for additional
information.
Table 11. JU23 and JU24 Jumper Functions (U4 Potentiometer A)
SHUNT POSITION
HA PAD
LA PAD
MAX5392 FUNCTION
JU23
JU24
Not installed
Installed
Not connected
Connected to GND
Not connected
Potentiometer open ended
Not installed
Not connected
Connected to VDD
Potentiometer with GND reference
Voltage-divider open ended
Not installed
Installed*
Installed*
Connected to GND
Voltage-divider with GND reference
*Default position.
Table 12. JU25 and JU26 Jumper Functions (U4 Potentiometer B)
SHUNT POSITION
HB PAD
LB PAD
MAX5392 FUNCTION
JU25
JU26
Not installed
Installed
Not connected
Connected to GND
Not connected
Potentiometer open ended
Not installed
Not connected
Connected to VDD
Potentiometer with GND reference
Voltage-divider open ended
Not installed
Installed*
Installed*
Connected to GND
Voltage-divider with GND reference
*Default position.
Table 13. Jumper Configuration
JUMPER
SHUNT POSITION
EV KIT FUNCTION
1-2
VPOWER = 5V
JU1
1-3*
VPOWER = 3.3V
1-4
VPOWER = 2.6V
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
2-3*
1.7V supply disabled
1.7V supply enabled
JU2
JU3
JU4
JU5
JU6
MAX5387 HA disconnected from the U1 VDD voltage source
MAX5387 HA connected to the U1 VDD voltage source
MAX5387 LA disconnected from GND
MAX5387 LA connected to GND
MAX5387 HB disconnected from the U1 VDD voltage source
MAX5387 HB connected to the U1 VDD voltage source
MAX5387 LB disconnected from GND
MAX5387 LB connected to GND
JU7
JU8
2-3*
U1 device address = 0x50 (refer to Table 4 in the MAX5387 EV system data sheet)
JU9
2-3*
*Default position.
12 _____________________________________________________________________________________
MAX5392 Evaluation System
Table 13. Jumper Configuration (continued)
JUMPER
SHUNT POSITION
EV KIT FUNCTION
1-2
U3 VDD = 1.7V (JU2 installed)
JU10
2-3*
U3 VDD dependent on jumper JU1 configuration
MAX5392 HA disconnected from the U3 VDD voltage source
MAX5392 HA connected to the U3 VDD voltage source
MAX5392 LA disconnected from GND
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
1-2*
JU11
JU12
JU13
JU14
MAX5392 LA connected to GND
MAX5392 HB disconnected from the U3 VDD voltage source
MAX5392 HB connected to the U3 VDD voltage source
MAX5392 LB disconnected from GND
MAX5392 LB connected to GND
JU15
JU16
JU17
2-3*
U3 device address = 0x58 (see Table 7)
2-3*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
1-2*
MAX5387 HA disconnected from the U2 VDD voltage source
MAX5387 HA connected to the U2 VDD voltage source
MAX5387 LA disconnected from GND
JU18
JU19
JU20
JU21
JU22
JU23
JU24
JU25
MAX5387 LA connected to GND
MAX5387 HB disconnected from the U2 VDD voltage source
MAX5387 HB connected to the U2 VDD voltage source
MAX5387 LB disconnected from GND
MAX5387 LB connected to GND
U4 VDD voltage connected to the U3 VDD voltage source
U4 VDD voltage dependent on jumper JU1 configuration
MAX5392 HA disconnected from the U4 VDD voltage source
MAX5392 HA connected to the U4 VDD voltage source
MAX5392 LA disconnected from GND
2-3
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
Not installed
Installed*
MAX5392 LA connected to GND
MAX5392 HB disconnected from the U4 VDD voltage source
MAX5392 HB connected to the U4 VDD voltage source
MAX5392 LB disconnected from GND
JU26
MAX5392 LB connected to GND
*Default position.
______________________________________________________________________________________ 13
MAX5392 Evaluation System
Figure 5a. MAX5392 EV Kit Schematic—Potentiometers U1, U3 (Sheet 1 of 3)
14 _____________________________________________________________________________________
MAX5392 Evaluation System
Figure 5b. MAX5392 EV Kit Schematic—Potentiometers U2, U4 (Sheet 2 of 3)
______________________________________________________________________________________ 15
MAX5392 Evaluation System
Figure 5c. MAX5392 EV Kit Schematic—Level Translators (Sheet 3 of 3)
16 _____________________________________________________________________________________
MAX5392 Evaluation System
1.0’’
1.0’’
Figure 6. MAX5392 EV Kit Component Placement Guide—
Component Side
Figure 7. MAX5392 EV Kit PCB Layout—Component Side
______________________________________________________________________________________ 17
MAX5392 Evaluation System
1.0”
Figure 8. MAX5392 EV Kit PCB Layout—Solder Side
18 _____________________________________________________________________________________
MAX5392 Evaluation System
Revision History
REVISION
NUMBER
REVISION
DATE
PAGES
DESCRIPTION
CHANGED
0
1
1/10
5/10
Initial release
Replaced Figures 6 and 7
—
17
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
19
©
2010 Maxim Integrated Products
Maxim is a registered trademark of Maxim Integrated Products, Inc.
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