MAX19713EVCMODU+ Maxim Integrated Products, MAX19713EVCMODU+ Datasheet

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MAX19713EVCMODU+

Manufacturer Part Number
MAX19713EVCMODU+
Description
EVAL MODULE FOR MAX19713
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX19713EVKIT.pdf (21 pages)

Specifications of MAX19713EVCMODU+

Main Purpose
Interface, Analog Front End (AFE)
Embedded
No
Utilized Ic / Part
MAX19713
Primary Attributes
Dual 45MSPS 10-bit Rx ADCs & Tx DACs
Secondary Attributes
Graphical User Interface, SPI™ & USB Interfaces
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX19710–MAX19713 evaluation systems (EV
systems) consist of MAX19710–MAX19713 evaluation
kits (EV kits), a companion Maxim command module
(CMODUSB) interface board, and software. Order the
complete EV system (see the Ordering Information ) for
comprehensive evaluation of the MAX19710–MAX19713
using a personal computer. Order the EV kit if the
command module has already been purchased with a
previous Maxim EV system, or for custom use in other
microcontroller-based (µC) systems.
The MAX19710–MAX19713 EV kits are fully assembled
and tested PCBs that contain all the components
necessary to evaluate the performance of the
MAX19710–MAX19713 analog front-ends (AFEs).
These AFEs integrate a dual-receive analog-to-digital
converter (Rx ADC), a dual-transmit digital-to-analog
converter (Tx DAC), a 1.024V internal voltage refer-
ence, three low-speed serial DACs, and one low-speed
serial ADC. The EV kit boards accept AC- or DC-
coupled, differential or single-ended analog inputs for
the Rx ADC and include circuitry that converts the Tx
DAC
ended analog outputs. The EV kits include circuitry that
generates a clock signal from an AC sine-wave input
signal. The EV kits operate from a +3.0V analog power
supply, a +1.8V digital power supply, a +3.0V clock
power supply, and ±5V bipolar power supplies.
The Maxim command module interface board
(CMODUSB) allows a PC to use its USB port to emulate
an SPI™ 3-wire interface. Windows
compatible software, which can be downloaded from
www.maxim-ic.com/evkitsoftware, provides a user-
friendly interface to exercise the features of the
MAX19710–MAX19713. The program is menu driven
and offers a graphical user interface (GUI) with control
buttons and a status display.
SPI is a trademark of Motorola, Inc.
Windows is a registered trademark of Microsoft Corp.
19-0691; Rev 1; 6/07
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.
MAX19710EVKIT+
MAX19711EVKIT+
MAX19712EVKIT+
MAX19713EVKIT+
PART
differential
________________________________________________________________ Maxim Integrated Products
SPEED (Msps)
output
Part Selection Table
General Description
7.5
11
22
45
signals
MAX19710–MAX19713 Evaluation
Tx CDMA FILTERS
®
98SE/2000/XP-
to
Yes
No
No
No
single-
Kits/Evaluation Systems
♦ ADC/DAC Sampling Rates from 7.5Msps to
♦ Low-Voltage and Low-Power Operation
♦ Adjustable-Gain, Low-Speed DAC Buffers
♦ On-Board Clock-Shaping Circuitry
♦ On-Board Level-Translating I/O Drivers
♦ Assembled and Tested
♦ Downloadable Windows 98SE/2000/XP-Compatible
+ Denotes a lead-free and RoHS-compliant EV Kit.
* This limited temperature range applies to the EV kit PCB only. The
MAX19710–MAX19713 IC temperature range is -40°C to +85°C.
** EP = Exposed paddle.
Note: The MAX19710–MAX19713 EV kit software is available
online; however, the CMODUSB board is required to interface
the EV kit to the computer when using the software.
* EV Kit software dependant.
MAX19710EVKIT+
M A X1 9 7 10 EVCM O D U+
MAX19711EVKIT+
M A X1 9 7 11 EVCM O D U+
MAX19712EVKIT+
M A X1 9 7 12 EVCM O D U+
MAX19713EVKIT+
M A X1 9 7 1 3 EVC M O D U +
M AX 19710.E X E , M AX 19711.E X E ,
M AX 19712.E X E , MAX19713.EXE
TRO U BLE S H OOTIN G _U S B.P D F
45Msps
Software
PART
INSTALL.EXE
PROGRAM
UNINST.INI
MAX19710–MAX19713 EV Kit
Ordering Information
RANGE*
+70°C
+70°C
+70°C
+70°C
+70°C
+70°C
+70°C
+70°C
TEMP
0°C to
0°C to
0°C to
0°C to
0°C to
0°C to
0°C to
0°C to
Installs the EV kit software
Application program*
U ni nstal l s the E V ki t softw ar e
USB driver installation
help file
IC
PA CK A G E
56 TQFN-
EP**
56 TQFN-
EP**
56 TQFN-
EP**
56 TQFN-
EP**
56 TQFN-
EP**
56 TQFN-
EP**
56 TQFN-
EP**
56 TQFN-
EP**
Software Files
DESCRIPTION
Features
IN TER F AC E
CMODUSB
CMODUSB
CMODUSB
CMODUSB
included
included
included
included
T YPE
Not
Not
Not
Not
SPI
1

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MAX19713EVCMODU+ Summary of contents

Page 1

... MAX19711EVKIT+ 11 MAX19712EVKIT+ 22 MAX19713EVKIT+ 45 ________________________________________________________________ Maxim Integrated Products 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. MAX19710–MAX19713 Evaluation Kits/Evaluation Systems ♦ ADC/DAC Sampling Rates from 7.5Msps to 45Msps ♦ Low-Voltage and Low-Power Operation ♦ ...

Page 2

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems DESIGNATION QTY DESCRIPTION C1–C6, C17, C21, C23, C24, C25, C28, 0.1µF ±20%, 10V X5R ceramic C29, C37–C40, 28 capacitors (0402) C45–C48, C73–C76, TDK C1005X5R1A104M C78, C80, C81 22pF ±5%, 50V C0G ceramic C7–C10 4 capacitors (0402) ...

Page 3

Common Component List DESIGNATION QTY DESCRIPTION Quad-level translator axi m MAX 3023E UD + (14 OP) — 6 Shunts PCB: MAX19710/1/2/3 — 1 Evaluation Kit+ MAX19713EVCMODU (MAX19713 EV System) Component List PART QTY ...

Page 4

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Driver Database window appears in addition to a New Hardware Found message if this is the first time the EV kit board is connected to the PC. If you do not see a window that is ...

Page 5

Tx DAC Setup 34) Connect the clock signal generator to the input of the clock bandpass filter. 35) Connect the output of the clock bandpass filter to the EV kit SMA connector labeled CLOCK. 36) Connect the output of the ...

Page 6

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Configure the operating mode of the device through the intuitive controls in the Device Control box. Select a mode, as outlined in the MAX19710, MAX19711, MAX19712, MAX19713 data sheets, using the Operating Mode control. For a ...

Page 7

Auxiliary ADC Controls Access the MAX19710–MAX19713 auxiliary ADC through the Auxiliary ADC tab (Figure 3) of the EV kit software. Although these AFEs feature only one 10-bit, low-speed ADC, they can multiplex four voltages onto their input. Select the desired ...

Page 8

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Separate analog, digital, clock, and buffer power planes minimize noise coupling between analog and digital sig- nals. Analog ADC inputs and DAC outputs use 100Ω differential microstrip transmission lines, while 50Ω microstrip transmission lines are used ...

Page 9

The MAX19710–MAX19713 feature two reference oper- ation modes. The EV kits can be configured to use either the internal (1.024V) reference or an external user-supplied reference applied at the REFIN pad. The AFEs generate the REFP and REFN voltages from ...

Page 10

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Configure the on-board buffers for a positive (noninverting) gain by performing the following steps: 1) Cut open the trace at locations R31, R33, and R35. 2) Select a value of 10kΩ for resistors R32, R34, and ...

Page 11

Figure 5a. MAX19710 EV Kit Schematic (Sheet ______________________________________________________________________________________ MAX19710–MAX19713 Evaluation Kits/Evaluation Systems AD9 AD9 AD8 AD8 AD7 AD7 AD6 AD6 AD5 ...

Page 12

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Figure 5b. MAX19711 EV Kit Schematic (Sheet ______________________________________________________________________________________ AD9 AD9 AD8 AD8 AD7 AD7 AD6 AD6 ...

Page 13

Figure 5c. MAX19712 EV Kit Schematic (Sheet ______________________________________________________________________________________ MAX19710–MAX19713 Evaluation Kits/Evaluation Systems AD9 AD9 AD8 AD8 AD7 AD7 AD6 AD6 AD5 ...

Page 14

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Figure 5d. MAX19713 EV Kit Schematic (Sheet ______________________________________________________________________________________ AD9 AD9 AD8 AD8 AD7 AD7 AD6 AD6 ...

Page 15

CC V Figure 6. MAX19710–MAX19713 EV Kit Schematic (Sheet ______________________________________________________________________________________ MAX19710–MAX19713 Evaluation Kits/Evaluation Systems GND 15 ...

Page 16

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Figure 7. MAX19710–MAX19713 EV Kit Component Placement Guide—Component Side 16 ______________________________________________________________________________________ ...

Page 17

MAX19710–MAX19713 Evaluation Figure 8. MAX19710–MAX19713 EV Kit PCB Layout—Component Side ______________________________________________________________________________________ Kits/Evaluation Systems 17 ...

Page 18

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Figure 9. MAX19710–MAX19713 EV Kit PCB Layout (Inner Layer 2)—Ground Planes 18 ______________________________________________________________________________________ ...

Page 19

Figure 10. MAX19710–MAX19713 EV Kit PCB Layout (Inner Layer 3)—Power Planes ______________________________________________________________________________________ MAX19710–MAX19713 Evaluation Kits/Evaluation Systems 19 ...

Page 20

MAX19710–MAX19713 Evaluation Kits/Evaluation Systems Figure 11. MAX19710–MAX19713 EV Kit PCB Layout—Solder Side 20 ______________________________________________________________________________________ ...

Page 21

... 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 ____________________ 21 © 2007 Maxim Integrated Products MAX19710– ...

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