MAX19713EVCMODU+ Maxim Integrated Products, MAX19713EVCMODU+ Datasheet - Page 4

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

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

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5) Follow the directions of the Add New Hardware

EV Kit Setup

6) Verify that shunts are installed in the following locations:

7) Connect a +3.0V, 100mA power supply to VDD.

8) Connect a +3.0V, 100mA power supply to CVDD.

9) Connect a +1.8V, 100mA power supply to OVDD.

10) Connect a +5V, 250mA power supply to VOP.

11) Connect a -5V, 250mA power supply to VON.

12) Carefully align the 40-pin connector of the EV kit

13) The MAX19710–MAX19713 support two modes of

Rx ADC Setup

14) Connect the clock signal generator to the input of

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 similar to the one

described above after 30 seconds, remove the USB

cable from the CMODUSB and reconnect it.

Administrator privileges are required to install the

USB device driver on Windows 2000/XP. Refer to

the document TROUBLESHOOTING_USB.PDF

included with the software if you have any problems.

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\MAX19713, \MAX19712,

\MAX19711, or \MAX19710 (default installation

directory) using the Browse button.

Connect the ground terminal of this supply to GND.

Connect the ground terminal of this supply to OGND.

Connect the ground terminal of this supply to GND.

(J1) with the 40-pin header of the CMODUSB inter-

face board (P4). Gently press them together.

operation:

the clock bandpass filter.

_______________________________________________________________________________________

JU1 (1-2) → CS connected

JU1 (3-4) → SCLK connected

JU1 (5-6) → DIN connected

JU1 (7-8) → DOUT connected

JU2 (Installed) → Internal reference enabled

JU3 (1-2) → Power U2 with OVDD

a. To connect a logic analyzer to the EV kit and

b. To connect a spectrum analyzer to the EV kit

test the Rx ADCs, skip to step 14.

and test the Tx DACs, skip to step 34.

15) Connect the output of the clock bandpass filter to

16) Connect the first analog signal generator to the

17) Connect the output of the bandpass filter to the EV

18) Connect the second analog signal generator to the

19) Connect the output of the bandpass filter to the EV

20) Ensure that all signal generators are phase-locked to a

21) Connect the logic analyzer to J2. Use the bit labels

22) Set the logic analyzer to capture 10-bit CMOS data

23) Turn on the -5V power supply.

24) Turn on all remaining power supplies.

25) Enable the signal generators.

26) Set the clock signal generator to output a 45MHz

27) Set the analog input signal generators to output the

28) Start the MAX19710–MAX19713 program by open-

29) Normal device operation can be verified by the Status:

30) Select the Maxim device that you are using from the

31) Click the POR Reset button on the EV kit software

32) Enable the logic analyzer.

33) Capture data using the logic analyzer.

the EV kit SMA connector labeled CLOCK.

input of the desired bandpass filter.

kit SMA connector labeled IA (I channel).

input of the desired bandpass filter.

kit SMA connector labeled QA (Q channel).

common reference frequency for coherent sampling.

(AD_) located next to header J2 for proper bit align-

ment or see the Digital Data Bit Locations section

for header connections.

on the falling edge for the I channel or the rising

edge for the Q channel.

signal. The amplitude of the generator should

be sufficient to produce a +16dBm signal at the SMA

input of the EV kit. Insertion losses due to the

series-connected filter (step 14) and the inter-

connecting cables decrease the amount of power

seen at the EV kit input. Account for these losses

when setting the signal generator amplitude.

desired frequency. The amplitude of the generator

should produce a signal that is no larger than

+5dBm, as measured at the SMA input of the EV kit.

Insertion losses, due to the series-connected filters

(steps 17 and 19) and the interconnecting cables,

decrease the amount of power seen at the EV kit

input. Account for these losses when setting the

signal generator amplitude.

ing its icon in the Start menu.

Interface Board Operational text in the Interface box

of the program.

Device combo box.

GUI.

MAX19713EVCMODU+ Maxim Integrated Products, MAX19713EVCMODU+ Datasheet - Page 4

MAX19713EVCMODU+

Specifications of MAX19713EVCMODU+

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