MAX9275/MAX9279 Evaluation
Kits
General Description
The MAX9275/MAX9279 evaluation kits (EV kit)
provide a proven design to evaluate the MAX9275/
MAX9279 high-bandwidth gigabit multimedia serial link
(GMSL) serializers with spread spectrum and full-duplex
control channel, with the use of a standard FAKRA
coaxial cable or shielded twisted-pair (STP) cable. The
EV kit also includes Windows XP®-, Windows Vista®-,
and Windows® 7-compatible software that provides a
simple graphical user interface (GUI) for exercising the
features of the device. The EV kit comes with a MAX9275
or MAX9279 IC installed, depending on the kit ordered.
For complete GMSL evaluation using a standard FAKRA
coax cable, order the MAX9275/MAX9279 coax EV kit
with a companion deserializer board, the MAX9276A/
MAX9280A coax EV kit. For evaluating with STP cable,
also order the MAXCOAX2STP-HSD adapter kit. Only
one adapter kit is needed per link, connecting SerDes
boards.
Evaluate: MAX9275/MAX9279
Features
●● Accepts 24-Bit or 32-Bit Parallel Video
●● Windows XP-, Windows Vista-, and Windows
7-Compatible Software
●● USB-PC Connection (Cable Included)
●● USB Powered
●● Proven PCB Layout
●● Fully Assembled and Tested
Note: In the following sections, “serializer” refers to the
MAX9275/MAX9279 ICs, and “deserializer” refers to the
MAX9276A/MAX9280A ICs. The term SerDes refers to
serializer(s) and deseriabler(s).
This document covers evaluation with either coaxial
(coax) or shielded twisted-pair (STP) cables. Evaluation
with coax cables is explained in this data sheet.
Ordering Information appears at end of data sheet.
MAX9275/MAX9279 EV Kit Files
FILE
MAXSerDesEV-D_Install.EXE
MAXSerDesEV-D.EXE
DESCRIPTION
Installs the EV kit files on your computer
Application program
CDM20600.EXE
Installs the USB device driver
USB_Driver_Help_200.PDF
USB driver installation help file
Windows, Windows XP, and Windows Vista are registered trademarks and registered service marks of Microsoft Corporation.
19-7704; Rev 1; 2/16
MAX9275/MAX9279 Evaluation Kits
Quick Start
Required Equipment
●● MAX9275 or MAX9279 coax serializer EV kit (USB
cable included)
●● MAX9276A or MAX9280A deserializer coax EV kit
●● 2m Rosenberger FAKRA cable assembly (included in
the MAX9276A/MAX9280A coax EV kit)
●● Optional: Function generator (needed only if parallel
data lacks a pixel clock)
●● User-supplied PC with Windows XP, Windows Vista,
or Windows 7 and a spare USB port (direct 500mA
connection is required; do not use a bus-powered
hub)
●● 5V DC, 500mA power supply
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 underlined
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.maximintegrated.com/evkitsoftware to
download and install the EV kit software, MAXSerDesEVD (the USB driver is automatically installed).
2) Verify that all serializer jumpers are in their default
positions, as shown in Table 1 and Figure 8, and
deserializer jumpers are set, as shown in Figure 12.
3) Connect the power supply’s positive terminal to the
+5VIN PCB pad and the negative terminal to the
nearest GND PCB pad on the deserializer EV kit
board (this assumes the USB port is not used for
powering the board).
4) Connect the FAKRA cable from the serializer EV kit
OUT+ connector to the deserializer coax EV kit IN+
connector.
5) Connect the USB cable from the PC to the serializer
EV kit board. A Windows message appears when
connecting the EV kit board to the PC for the first
time. Each version of Windows has a slightly different
message. If you see a Windows message stating
ready to use, then proceed to the next step; otherwise, open the USB_Driver_Help_200.PDF file to
verify that the USB driver was successfully installed.
6) Verify that LED_T2 on the deserializer EV kit board
lights up, indicating that the microcontroller is
powered and enabled.
7) Connect the pixel clock or function generator to the
H1_PCLK_IN header on the serializer board.
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Evaluate: MAX9275/MAX9279
8) Turn on the power supply and function generator.
9) Verify that LED D2 on the deserializer board lights
up, indicating that the microcontroller is powered and
enabled.
10) Verify operation by pulling a DINx line high/low and
check corresponding DOUTx to change, tracking the
DINx pin.
11) Verify that LOCK LED on the deserializer board lights
up, indicating that the link has been successfully
established. If LOCK LED remains off or ERROR LED
is on, double-check that the PCLK_IN signal is clocking data.
12) Start the EV kit software by selecting Start | Programs | Maxim Integrated | MAXSerDesEV-D |
MAXSerDesEV-D from the Start menu.
13) The EV kit software Configuration Settings
window is the first window that opens after successful
launch. It helps the user to set up the serializer and
deserializer boards properly and specify the mode of
operation (Figure 1).
14) The GUI automatically searches for slave addresses
selectable by the SerDes ADDx pins and identifies the
DUTs based on the Device IDs read from the DUTs.
15) Press the Identify Devices button at any time to
reidentify devices and display in corresponding table.
16) Only LinkType and Device Address on the
Configuration Settings window affect the GUI
operation. Other items are for user reference only.
17) I2C-to-I2C mode support: To enable I2C-to-I2C
mode, change jumpers JU_CONF1 and JU_CONF0
(Figure 1), and change jumpers JU_TXSCL from the
TX to SCL position and JU_RXSDA from the RX to SDA
position. Press the Identify Devices button to verify
proper settings. Alternatively, make the changes and
select I2C from the Bus drop-down list before pressing the Connect button to start the GMSL SerDes
Evaluation Kit Window (Figure 2).
18) Press the Connect button at the bottom of the screen.
19) The GMSL SerDes Evaluation Kit Window appears.
Green LED indicators indicate that connection to the
DUT was successful. If there is a communication
problem with the DUTs, the LED indicators turn red.
20) Press the Read all MAX92xx button in the Serializer
group box to read all serializer registers.
21) Click on the Deserializer tab (Figure 3) and then
press Read all MAX92xx in the Deserializer group
box to read all deserializer registers.
22) Select any of the other tabs to evaluate other
functions of the SerDes.
Maxim Integrated │ 2
Evaluate: MAX9275/MAX9279
MAX9275/MAX9279 Evaluation Kits
Detailed Description of Software
To start the evaluation kit GUI, select Start | Programs |
Maxim Integrated | MAXSerDesEV-D | MAXSerDesEV-D.
Configuration Settings Window
The Configuration Settings window (Figure 1) is the
first window that opens after program launch. It allows
the user to specify evaluation board setup and mode of
operation.
Figure 1. MAXSerDesEV-N EV Kit Software: Configuration Settings Window
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Maxim Integrated │ 3
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Controller Group Box
Connect Button
In the Controller group box, select link type by choosing
Coax or STP from the LinkType drop-down list, the Bus
by choosing I2C or UART from the Bus drop-down list, and
decide whether serializer or deserializer should connect to
the USB controller by clicking on one of the radio buttons.
With changes to any of these parameters, selection in the
jumper listings below changes automatically, prompting the
user to make corresponding changes to the jumper on the
EV kit boards.
The Connect button opens up the EV kit
window, reads the SerDes registers, and updates the
register maps for both. Successful communication is
indicated by green LED indicators, and in case of a
communication problem, the color turns red.
Serializer Jumper Selection and Deserializer
Jumper Selection
The MAX9279 Jumper Selection and MAX9280/80A
Jumper Selection group boxes list the SerDes jumpers,
respectively, on the evaluation boards of the selected
Device IDs and show the proper shunt positions for the
conditions selected in the Controller group box.
Identify Devices Button
The Identify Devices button causes the GUI
to scan the system and search for slave addresses
selectable by the SerDes input address pins. Upon
successful communication, identified Device ID and
corresponding jumper lists are displayed on the MAX9279
Jumper Selection and MAX9280/80A Jumper Selection
group boxes. The user can also manually select a device
from the Device ID drop-down list and enter a slave
address in the Device Address edit box. It is good
practice to utilize the Identify Devices function and
verify communication with the DUTs before attempting
to Connect. Figure 8, Figure 9, Figure 10, Figure 11,
and Figure 12 show jumper settings on the MAX9275/
MAX9279 PCB for coax or STP cable and UART or I2C
communication with a USB controller connected to the
serializer board. Refer to the MAX9275/MAX9279 IC data
sheet for detailed configuration information. See Table 1 for
jumper functions and settings.
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Cancel - Do Not Connect Button
The Cancel - Do Not Connect button brings up the EV
kit window without attempting to connect to the microcontroller of the SerDes. Although there is no communication with the microcontroller, all functions and tabs
corresponding to the selected Device IDs on the EV kit
become active once there.
Evaluation Kit Window
The Evaluation Kit window (Figure 2) provides access to
all internal functions of the DUTs by means of reading and
writing registers through different tabs, allowing the user
to evaluate various functions of the SerDes.
Serializer Group Box
The Serializer group box provides pushbuttons to update
the serializer’s register map from the DUT using the Read
All …. button, or update from a previously saved file,
Load button, or save existing registers values into a file
for future reference using the, Save button.
Deserializer Group Box
The Deserializer group box provides pushbuttons to
update the deserializer’s register map from the DUT using
the Read All button, update from a previously saved file
using the Load button, or save existing register values
into a file for future reference using the Save button.
Open Configuration Button
The Open Configuration button returns the user to
the Configuration Settings window. Use the Open
Configuration and Connect buttons to go back and forth
between the Configuration Settings window and the
Evaluation Kit window.
Maxim Integrated │ 4
MAX9275/MAX9279 Evaluation Kits
Read All Button
The Read All button reads both SerDes device registers.
MAX9279 Tab
The MAX9279 tab (Figure 2) lists the serializer’s registers
and bit maps. Read and Write buttons in each register
group box allows read/write access for each bit (or group
of bits) that specify a function or condition, as defined in the
Evaluate: MAX9275/MAX9279
respective serializer IC data sheet. The color of the small
LED indicator next to the Read/Write buttons indicates the
communication status. Red indicates failed communication and green indicates successful communication.
Figure 2. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (MAX9279 Tab)
www.maximintegrated.com
Maxim Integrated │ 5
MAX9275/MAX9279 Evaluation Kits
MAX9280/80A Tab
The MAX9280/80A tab (Figure 3) lists the deserializer’s
registers and bitmaps. Read and Write buttons in each
register group box allows read/write access for each bit
(or group of bits) that specify a function or condition, as
Evaluate: MAX9275/MAX9279
defined in the respective deserializer IC data sheet. The
color of the small LED indicator next to the Read and Write
buttons indicates the communication status. Red indicates
failed communication and green indicates successful
communication.
Figure 3. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (MAX9280/80A Tab)
www.maximintegrated.com
Maxim Integrated │ 6
MAX9275/MAX9279 Evaluation Kits
PRBS Test
Upon pressing the Start button in the PRBS
Test tab (Figure 4), the SerDes registers are
programmed per defined sequence in the IC data sheets
to perform a pseudorandom bit sequence (PRBS) error-
Evaluate: MAX9275/MAX9279
rate test. Enter test duration (maximum 32,767s = 9.1hrs)
in the Duration edit box in the Bit Error Rate Test group
box and press the Start button to start the test. Upon
test completion, the number of bit errors read from the
PRBSERR register are displayed in the PRBS Error
Counter box.
Figure 4. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (PRBS Test Tab)
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Maxim Integrated │ 7
MAX9275/MAX9279 Evaluation Kits
Log and Low Level Access Tab
The Log and Low Level Access tab (Figure 5) logs
all activities between the GUI and DUTs. The Register
Access group box allows read or write of the specified
slave and register addresses. Press the Send String to
Evaluate: MAX9275/MAX9279
EVKIT button to communicate with devices that are not
register-based, such as the MAX7324.
User-supplied devices requiring other interface protocols
must use raw TX byte codes to communicate. Note that
in bypass mode, raw data passes directly to the usersupplied slave device without modification.
Figure 5. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (Log and Low Level Access Tab)
www.maximintegrated.com
Maxim Integrated │ 8
Evaluate: MAX9275/MAX9279
MAX9275/MAX9279 Evaluation Kits
HDCP Tab
The HDCP tab (Figure 6) is viewable only for SerDes
that support the HDCP function. The HDCP registers of
both SerDes are displayed side-by-side with Read and
Write buttons for each register. Authenticate and Enable
Encryption buttons initiate start of the corresponding
function; at the end of the operation, the color of the LED
indicator turns green to indicate success of the function or
red to indicate failure.
Figure 6. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (HDCP Tab)
www.maximintegrated.com
Maxim Integrated │ 9
MAX9275/MAX9279 Evaluation Kits
Lookup Tables Tab
The Lookup Tables tab (Figure 7) provides access to
the look up tables (LUTs) of the deserializer. Use this tab
to program/view/edit LUT settings of the red, green, and
blue colors for color translation. LUT content edits can be
performed on the entire 256 bytes of all three colors, of
Evaluate: MAX9275/MAX9279
an individual color, or of an individual pixel of any color
table. Contents of the Lookup Tables can be saved as a
.csv file for use as a template, or can be uploaded from an
existing file. A sample LUT contents file is provided in the
EV kit GUI.
Figure 7. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (Lookup Tables)
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Maxim Integrated │ 10
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Figure 8. Initial Serializer Jumper Settings for Coax/I2C Mode
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Maxim Integrated │ 11
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Figure 9. Serializer Jumper Settings for Coax/UART Mode
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Maxim Integrated │ 12
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Figure 10. Serializer Jumper Settings for STP/UART Mode
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Maxim Integrated │ 13
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Figure 11. Serializer Jumper Settings for STP/I2C Mode
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Maxim Integrated │ 14
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Figure 12. Initial Deserialzer Jumper Settings for Coax/I2C Mode
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Maxim Integrated │ 15
MAX9275/MAX9279 Evaluation Kits
Detailed Description of Hardware
The MAX9275/MAX9279 coax EV kits provide a proven
layout for the MAX9275/MAX9279 GMSL serializers with
the use of a standard FAKRA coax cable. On-board
level translators and easy-to-use USB-PC connection are
included on the EV kit.
The EV kit board’s layout is divided into three principal
sections:
1) Power-supply circuitry: On-board LDO regulators
U2 and U3 power the AVDD, DVDD, and IOVDD
supplies from +5VIN.
2) MAX9275/MAX9279 and support components.
3) Microcontrollers (U12, U10) and support components.
On-Board-Supplied Interface
The EV kit board provides a UART and I2C interface
(through U12 and U14) intended to operate while both
SerDes boards are powered up and locked.
User-Supplied Interface
To use the EV kit with a user-supplied interface, remove
shunts from the JU_TXSCL header and apply a TX/SCL
signal to the middle pin of the JU_TXSCL header. Also,
remove shunts from the JU_RXSDA header and apply an
RX/SDA signal to the middle pin of the JU_RXSDA header.
www.maximintegrated.com
Evaluate: MAX9275/MAX9279
Refer to the MAX9275/MAX9279 and MAX9276A/
MAX9280A IC data sheets for details regarding UART
protocol for base mode, write-data format, read-data format, selecting base mode or bypass mode, and selecting
a UART or I2C slave device.
User-Supplied Power Supply
The EV kit draws power from the USB port by default.
Jumper JU_VIN selects between the 5V USB supply or
the +5VIN user-supplied power to power up U1 and its
supporting circuitry.
To provide different power supplies to AVDD, DVDD, and
IOVDD, move shunts on the JU_AVDD, JU_DVDD, and
JU_IOVDD headers from the INT to EXT positions and
apply external user-supplied power at the AVDD_EXT,
DVDD_EXT, and IOVDD_EXT terminals, respectively.
Detailed Description of Firmware
The DS89C450 microcontroller (U12) runs custom
firmware that ensures that no breaks occur within register
read/write commands. The firmware records 9-bit evenparity data received from the USB interface while RTS is
set, and plays back the 9-bit data with 1.5 stop bits timing
when RTS is cleared. Data received from the SerDes is
immediately relayed to the USB.
Maxim Integrated │ 16
MAX9275/MAX9279 Evaluation Kits
Evaluate: MAX9275/MAX9279
Table 1. Jumper Descriptions
JUMPER
SIGNAL
JU_AVDD
AVDD
JU_BWS
BWS
SHUNT
POSITION
INT*
AVDD supplied internally
EXT
AVDD supplied through the AVDD_EXT terminal
L*
PCLKIN > 12.5MHz, 32-bt mode
H
PCLKIN > 12.5MHz, 32-bit mode
Open
JU_CDS
JU_CONF0
JU_CONF1
JU_CONF2
JU_CONF3
CDS
CONF0
CONF1
CONF2
CONF3
FUNCTION
PCLKIN > 33.33MHz 27-bit high bandwidth
L*
μC is connected at the serializer side
H
μC is connected at the deserializer side
L*
(See Table 2)
H
(See Table 2)
Open
(See Table 2)
L
(See Table 2)
H
(See Table 2)
Open*
(See Table 2)
L
(See Table 3)
H
(See Table 3)
Open*
(See Table 3)
L
(See Table 3)
H
(See Table 3)
Open*
(See Table 3)
INT*
DVDD supplied internally
EXT
DVDD supplied through the AVDD_EXT terminal
JU_DVDD
DVDD
JU_HIM
GPO/HIM
JU_IOVDD
IOVDD
JU_LDO
LDO
JU_LINK0
LINK0
—
Reserved for factory diagnostics test
JU_LINK1
LINK1
—
Reserved for factory diagnostics test
L*
Base mode
H
Bypass mode
L*
Pins 1, 5, and 9 on header H1 connected to GND
H
Pins 1, 5, and 9 on header H1 connected to VDDIO
JU_MS
MS
JU_PLI0
PLI0
L*
Reverse channel in legacy mode
H
Reverse channel in high-immunity mode
INT*
IOVDD supplied internally
EXT
IOVDD supplied through the AVDD_EXT terminal
3.3V*
Internal IOVDD = 3.3V
1.8V
Internal IOVDD = 1.8V
Open
JU_PLI1
PLI1
Pin 3, 7, and 11 on header H1 connected to GND
H
Pin 3, 7, and 11 on header H1 connected to VDDIO
Open
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Pins 1, 5, and 9 on header H1 open
L*
Pin 3, 7, and 11 on header H1 open
Maxim Integrated │ 17
Evaluate: MAX9275/MAX9279
MAX9275/MAX9279 Evaluation Kits
Table 1. Jumper Descriptions (continued)
JUMPER
SIGNAL
JU_PWDN
PWDN
JU_RXSDA
RXSDA
JU_RXSDAPU
JU_T1
RXSDA
USB_RI
SHUNT
POSITION
L
Serializer is powered on
H*
Serializer is powered off
RX*
UART-to-UART or UART-to-I2C mode (do not install if controller is on the
deserializer side)
SDA
I2C-to-I2C mode (do not install if controller is on the deserializer side)
Short*
RX/SDA pulled up to IOVDD
Open
RX/SDA pulled up to IOVDD externally
L
U1-11 to GND (factory use only)
H
U1-11 to USB+5V (factory use only)
Open*
JU_T2EX
T2EX
U1-11 open (factory use only)
L
U1-41 to GND (factory use only)
H
U1-41 to USB+5V (factory use only)
Open*
JU_TXSCL
JU_VDDIO
TXSCL
VDDIO
JU_VIN
VIN
JU_VS
VS
FUNCTION
U1-41 open (factory use only)
TX*
UART-to-UART or UART-to-I2C mode (do not install if controller is on the
deserializer side)
SCL
I2C-to-I2C mode (do not install if controller is on the deserializer side)
Short*
VDDIO applied to U1
Open
Connect ammeter to measure IVDDIO
USB
5V supplied from the USB port
+5V*
5V supplied from the external supply applied on the +5V terminal
Short*
VS/DIN19 (reserved for factory diagnostics test)
Open
*Default position.
Table 2. Jumper Settings (JU_CONF1, JU_CONF0)
JU_CONF1
SHUNT
POSITION
CONF1
JU_CONF0
SHUNT
POSITION
CONF0
CONTROL
CHANNEL
(I2CSEL)
SPREAD
ENABLE
(SSEN)
DATA-RATE
SELECT
(DRS)
L*
Low
L
Low
L*
Low
UART (0)
Disabled (0)
High rate (0)
Open
High
UART
Disabled
Low rate (1)
H
High
H
Low
UART
Enabled (1)
High rate
H
High
L
High
UART
Enabled
Low rate
Open
Open
Open
Low/Mid
I2C (1)
Disabled
High rate
L
Low
H
Mid
I2C
Disabled
Low rate
H
High
L
Mid
I2C
Enabled
High rate
Open
Mid
Open
High
I2C
Enabled
Low rate
*Default position.
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Maxim Integrated │ 18
Evaluate: MAX9275/MAX9279
MAX9275/MAX9279 Evaluation Kits
Table 3. Jumper Settings (JU_CONF3, JU_CONF2)
JU_CONF3
SHUNT
POSITION
CONF3
JU_CONF2
SHUNT
POSITION
CONF2
OUT± OUTPUT
TYPE
(CX/TP)
AUTOSTART
(AUTOS)
PCLKIN
LATCH EDGE
(ES)
L
Low
L
Low
STP (0)
Autostart (0)
Rising (0)
L
Low
Open
High
STP
Autostart
Falling (1)
H
High
H
Low
STP
No autostart (1)
Rising
H
High
L
High
STP
No autostart
Falling
Open*
Open
Open*
Low/Open
Coax (1)
Autostart
Rising
L
Low
H
Open
Coax
Autostart
Falling
H
High
L
Open
Coax
No autostart
Rising
Open
Open
Open
High
Coax
No autostart
Falling
*Default position.
Component List, Schematics, and PCB
Layout Diagrams
Ordering Information
PART
TYPE
Click on the links below for component information,
schematics, and PCB layout diagrams:
MAX9275COAXEVKIT#
●● MAX9275/MAX9279 EV Kit BOM
MAX9279COAXEVKIT#
EV Kit
MAXCOAX2STP-HSD#
Adapter Kit
●● MAX9275/MAX9279 EV Kit Schematics
●● MAX9275/MAX9279 EV Kit PCB Layout
EV Kit
#Denotes RoHS compliant.
Note: The MAX9275 and MAX9279 serializer coax EV kits are
usually ordered with a companion deserializer board:
• MAX9276A EV kit (MAX9276ACOAXEVKIT#), or
• MAX9280A EV kit (MAX9280ACOAXEVKIT#)
www.maximintegrated.com
Maxim Integrated │ 19
Evaluate: MAX9275/MAX9279
MAX9275/MAX9279 Evaluation Kits
Revision History
REVISION
NUMBER
REVISION
DATE
PAGES
CHANGED
0
7/15
Initial release
—
1
2/16
Removed MAX9276A and MAX9280A from Ordering Information table
19
DESCRIPTION
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com.
Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses
are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.
© 2016 Maxim Integrated Products, Inc. │ 20
Part Report for max9275_79_evkit_a.pcb on 6/19/2014 7:12:11 AM
Name
+5VIN
AVDD_EXT
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C101
Part Type
MAXIMPAD
MAXIMPAD
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\MED
CAP\CER\SM
CAP\CER\MED
CAP\CER\MED
CAP\CER\MED
CAP\CER\MED
CAP\CER\MED
CAP\CER\MED
CAP\CER\MED
CAP\CER\MED
CAP\CER\SM
PCB Decal
INPUT\OUTPUT
INPUT\OUTPUT
CC0402
CC0402
CC0402
CC0402
CC0402
CC0402
CC0402
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0805
CC0805
CC1206
CC0603
CC1206
CC1206
CC1206
CC1206
CC1206
CC1206
CC1206
CC1206
CC0603
Value
0.001uF
0.001uF
0.001uF
0.001uF
0.001uF
0.001uF
0.001uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.22uF
0.22uF
10uF
0.1uF
4.7uF
10uF
4.7uF
10uF
10uF
10uF
10uF
10uF
0.1uF
Tolerance
Voltage
50V
50V
C102
C103
C104
C105
C106
C107
C108
C109
C110
C121
C122
C123
C131
C141
DVDD_EXT
FB1
FB2
FB3
FB4
GND
H1
H2
H_I/O
IOVDD_EXT
J10
JU_AVDD
JU_BWS
JU_CDS
JU_CONF0
JU_CONF1
JU_CONF2
JU_CONF3
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\MED
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
CAP\CER\SM
MAXIMPAD
FERRITE
FERRITE
FERRITE
FERRITE
MAXIMPAD
HEADER\2X36-H-MIRRORED
HEADER2X8
JUMPER2\SIP3
MAXIMPAD
CONN_USB-B
JUMPER2\SIP3
JUMPER2\SIP3
JUMPER2\SIP3
JUMPER2\SIP3
JUMPER2\SIP3
JUMPER2\SIP3
JUMPER2\SIP3
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC1206
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
INPUT\OUTPUT
CC0603
CC0603
CC0603
CC0603
INPUT\OUTPUT
HEADER\2X36-H-MIRRORED
HEADER2X8
SIP\3P
INPUT\OUTPUT
CON-USB-B
SIP\3P
SIP\3P
SIP\3P
SIP\3P
SIP\3P
SIP\3P
SIP\3P
0.1uF
0.1uF
0.1uF
0.1uF
22pF
22pF
1uF
10uF
0.033uF
0.1uF
22pF
22pF
0.1uF
0.1uF
JU_DVDD
JU_HIM
JU_IOVDD
JU_LDO
JU_LINK0
JU_LINK1
JU_MS
JU_PLI0
JU_PLI1
JU_PWDN
JU_RXSDA
JU_RXSDAPU
JU_T1
JU_T2EX
JU_TXSCL
JU_TXSCLPU
JU_VDDIO
JU_VIN
JU_VL2
JU_VL3
JU_VL4
JU_VS
LED_GPO
LED_LFLT
LED_PWR
LED_RD
LED_T2
LED_WR
OUT+
OUT-
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER
SIP\2P
JUMPER
SIP\2P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER
SIP\2P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER2\SIP3
SIP\3P
JUMPER
SIP\2P
JUMPER
SIP\2P
JUMPER2\SIP3
SIP\3P
CUTHERE
CUTHERE
CUTHERE
CUTHERE
CUTHERE
CUTHERE
JUMPER
SIP\2P
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
LED-0805
CON/ROSENBERGER/59SAX-400A5- CON/ROSENBERGER/59SAX-400A5Y/RT-FAKRA-M
Y/RT-FAKRA-M
CON/ROSENBERGER/59SAX-400A5- CON/ROSENBERGER/59SAX-400A5Y/RT-FAKRA-M
Y/RT-FAKRA-M
Q1
R1
R2
R3
R4
R5
R6
R7
R10
R11
R12
R13
R15
R101
R102
R103
R104
R112
R121
R122
R123
R126
R127
R_HIM
SW122
TP_GPO
T_P22
T_P23
T_P24
T_P25
T_P26
T_P27
FET-N-S-SOT23
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\0603
RES\0603
RES\0603
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
RES\SMD\SM
SW-OMRON-B3F-1000
TESTPOINT-PC5000
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
SOT23
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
CC0603
SW-B3F-1000
TESTPOINT-PC5000
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
2N7002
45.3k
45.3k
4.99k
4.99k
10k
10k
10k
2.2k
2.2k
1k
1k
1k
27
27
1.5k
470
10k
1.1k
10k
1k
1k
1k
30k
1%
1%
1%
1%
T_VC2
T_VC3
T_VC4
U1
U2
U3
U10
U12
U13
U14
U19
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
MAX9279
MAX1792
MAX1792
FT232BL-SONG
DS89C450-ENL
74AC125
MAX3378E
MAX3378EEUD+
TESTPOINT_VIA
TESTPOINT_VIA
TESTPOINT_VIA
QFN8X8-56L
MICROMAX\8L\EP
MICROMAX\8L\EP
TQFP_7X7X.8_32L
TQFP-44L
SOIC-14L
TSSOP-14L
TSSOP-14L
X1
X2
X3
X4
X5
Y10
LOGO_MAXIM_INTEGRATED_ALL
MTHOLE
MTHOLE
MTHOLE
MTHOLE
XTAL/HCM49
LOGO_MAXIM_INTEGRATED_MED
MTHOLE
MTHOLE
MTHOLE
MTHOLE
XTAL\HCM49
Y12
XTAL/HCM49
XTAL\HCM49
6MHz
14.7456M
Hz
max9275_79_evkit_a.sch-1 - Sat Jun 21 04:50:54 2014
max9275_79_evkit_a.sch-2 - Sat Jun 21 04:52:10 2014
max9275_79_evkit_a.sch-3 - Sat Jun 21 04:52:41 2014