MAX19700EVKIT Maxim Integrated Products, MAX19700EVKIT Datasheet - Page 4
MAX19700EVKIT
Manufacturer Part Number
MAX19700EVKIT
Description
EVAL KIT FOR MAX19700
Manufacturer
Maxim Integrated Products
Type
Encoder, Decoderr
Datasheet
1.MAX19700EVKIT.pdf
(18 pages)
Specifications of MAX19700EVKIT
For Use With/related Products
MAX19700
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
3) Connect a cable from the computer’s serial port to
4) Connect the provided wall-cube power supply to
EV Kit Software Setup
5) The MAX19700.EXE software program can be run
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 +3.3V, 100mA power supply to BVCC.
11) Connect a +5V, 250mA power supply to VOP.
12) Connect a -5V, 250mA power supply to VON.
13) Carefully align the 40-pin connector of the
MAX19700 Evaluation Kit/Evaluation System
4
_______________________________________________________________________________________
the command module (CMOD232) interface board.
Use a straight-through 9-pin male-to-female
cable. To avoid damaging the EV kit or computer,
do not use a 9-pin null-modem cable or any other
proprietary interface cable that is physically similar
to the straight-through cable.
the CMOD232 board.
from the CD-ROM or hard drive. Use the
INSTALL.EXE program to copy the files and create
icons in the Windows 98/2000/XP Start menu.
Connect the ground terminal of this supply to GND.
Connect the ground terminal of this supply to GND.
Connect the ground terminal of this supply to
DGND.
Connect the ground terminal of this supply to
DGND.
Connect the ground terminal of this supply to GND.
Connect the ground terminal of this supply to GND.
MAX19700 EV kit (J1) with the 40-pin header of the
CMOD232 interface board (P4). Gently press them
together.
JU1 (1-2)
JU1 (3-4) → SCLK Connected
JU1 (5-6) → DIN Connected
JU2 (1-2) → MAX19700 Enabled
JU4 (Installed) → Internal Reference Enabled
JU5 (1-2) → Digital Bus Level Shifting Enabled
JU6 (2-3) → Reserved
→ CS Connected
14) The MAX19700 supports three modes of operation:
Rx ADC Setup
15) Ensure that a shunt is placed across pins 2 and 3
16) Connect the clock signal generator to the input of
17) Connect the output of the clock bandpass filter to
18) Connect the first analog signal generator to the
19) Connect the output of the bandpass filter to the EV
20) Connect the second analog signal generator to the
21) Connect the output of the bandpass filter to the EV
22) Ensure that all signal generators are phase-locked
23) Connect the logic analyzer to J11. See the Digital
24) Set the logic analyzer to capture 10-bit CMOS data
25) Turn on the -5V power supply.
26) Turn on all remaining power supplies.
27) Plug the CMOD232 wall cube into an electrical outlet.
28) Enable the signal generators.
29) Set the clock signal generator to output a 7.5MHz
of jumper JU3.
the clock bandpass filter.
the EV kit SMA connector labeled J10.
input of the desired bandpass filter.
kit SMA connector labeled J3 (I channel).
input of the desired bandpass filter.
kit SMA connector labeled J6 (Q channel).
to a common reference frequency.
Data Bit Locations section in this document for
header connections.
on the falling edge for the I channel (J3) or the ris-
ing edge for the Q channel (J6).
signal. The amplitude of the generator should be
sufficient to produce a 13.8dBm signal at the SMA
input of the EV kit. Insertion losses due to the series-
connected filter (step 16) and the interconnecting
cables will decrease the amount of power seen at
the EV kit input. Account for these losses when set-
ting the signal-generator amplitude.
a. To connect a logic analyzer to the EV kit and
b. To connect a spectrum analyzer to the EV kit
c. To connect an ASIC or FPGA to the EV kit,
test the Rx ADCs, skip to step 15.
and test the Tx DACs, skip to step 36.
Connection section in this document.
see the Configuring for ASIC/FPGA
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