QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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LTC2236, LTC2237, LTC2238, LTC2239, LTC2225, LTC2226,
LTC2227, LTC2228, LTC2229, LTC2245, LTC2246, LTC2247,
LTC2248, LTC2249 LTC2250, LTC2251, LTC2252, LTC2253,
LTC2254, or LTC2255
DESCRIPTION
Demonstration circuit 782 supports a family of
10/12/14 BIT 10 TO 125 MSPS ADCs. Each as-
sembly features one of the following devices:
LTC2236, LTC2237, LTC2238, LTC2239, LTC2225,
LTC2226, LTC2227, LTC2228, LTC2229, LTC2245,
LTC2246, LTC2247, LTC2248, LTC2249, LTC2250,
LTC2251 LTC2253, LTC2254, or LTC2255 high
speed, high dynamic range ADCs.
Several versions of the 782A demo board support-
ing the 10 BIT, 12 BIT and 14 BIT series of A/D con-
verters across the 10 to 125 MSPS speed/power
range are listed in Table 1.
Depending on the required resolution, sample rate
and input frequency, the DC782 is supplied with the
appropriate A/D and with an optimized input circuit
The circuitry on the analog inputs is optimized for
analog input frequencies below 70 MHz or between
70 MHz to 170 MHz (Please read ANALOG INPUT
NETWORK SECTION). For Higher operating fre-
quencies, contact the factory for support.
Design files for this circuit board are available.
Call the LTC factory.
LTC is a trademark of Linear Technology Corporation
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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Table 1.
DC782A Variants
DC782 VARIANTS ADC PART NUMBER RESOLUTION* MAXIMUM SAMPLE
RATE
INPUT FREQUENCY
782A-A LTC2249 14-Bit 80Msps 1MHz < A
IN
< 70MHz
782A-B LTC2248 14-Bit 65Msps 1MHz < A
IN
< 70MHz
782A-C LTC2247 14-Bit 40Msps 1MHz < A
IN
< 70MHz
782A-D LTC2246 14-Bit 25Msps 1MHz < A
IN
< 70MHz
782A-E LTC2245 14-Bit 10Msps 1MHz < A
IN
< 70MHz
782A-F LTC2229 12-Bit 80Msps 1MHz < A
IN
< 70MHz
782A-G LTC2228 12-Bit 65Msps 1MHz < A
IN
< 70MHz
782A-H LTC2227 12-Bit 40Msps 1MHz < A
IN
< 70MHz
782A-J LTC2226 12-Bit 25Msps 1MHz < A
IN
< 70MHz
782A-K LTC2225 12-Bit 10Msps 1MHz < A
IN
< 70MHz
782A-L LTC2239 10-Bit 80Msps 1MHz < A
IN
< 70MHz
782A-M LTC2238 10-Bit 65Msps 1MHz < A
IN
< 70MHz
782A-N LTC2237 10-Bit 40Msps 1MHz < A
IN
< 70MHz
782A-P LTC2236 10-Bit 25Msps 1MHz < A
IN
< 70MHz
782A-Q LTC2249 14-Bit 80Msps 70MHz <A
IN
< 170MHz
782A-R LTC2248 14-Bit 65Msps 70MHz <A
IN
< 170MHz
782A-S LTC2255 14-Bit 125 Msps 10MHz <A
IN
< 170MHz
782A-T LTC2254 14-Bit 105 Msps 10MHz <A
IN
< 170MHz
782A-U LTC2253 12-Bit 125 Msps 10MHz <A
IN
< 170MHz
782A-V LTC2252 12-Bit 105 Msps 10MHz <A
IN
< 170MHz
782A-W LTC2251 10-Bit 125 Msps 10MHz <A
IN
< 170MHz
782A-X LTC2250 10-Bit 105 Msps 10MHz <A
IN
< 170MHz
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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Table 2.
Performance Summary (TA = 25°C)
PARAMETER CONDITION VALUE
Supply Voltage Depending on sampling rate and the A/D converter provided,
this supply must provide up to 150mA.
Optimized for 3.0V
[2.7V 3.6V min/max]
Analog input range Depending on Sense Pin Voltage 1V
PP
to 2V
PP
Minimum Logic High 2.4V
Logic Input Voltages
Maximum Logic Low 0.8V
Minimum Logic High @ -1.6mA 2.3V (33Series terminations) Logic Output Voltage
(ALVCH16373 output buffer, V
cc
= 2.5V) Maximum Logic Low @ 1.6mA 0.7V (33Series terminations)
Sampling Frequency (Convert Clock Frequency) See Table 1
Convert Clock Level 50 Source Impedance, AC coupled or ground referenced
(Convert Clock input is capacitor coupled on board and ter-
minated with 50.)
2V
P-P
2.5V
P-P
Sine Wave
or Square wave
Resolution See Table 1
Input frequency range See Table 1
SFDR See Applicable Data Sheet
SNR See Applicable Data Sheet
QUICK START PROCEDURE
Demonstration circuit 782 is easy to set up to evalu-
ate the performance of any of the LTC223X, LTC222X
or LTC224X family of A/D converters – LTC2236,
LTC2237, LTC2238, LTC2239, LTC2225, LTC2226,
LTC2227, LTC2228, LTC2229, LTC2245, LTC2246,
LTC2247, LTC2248, LTC2249, LTC2250, LTC2251
LTC2253, LTC2254, or LTC2255. Refer to Figure 1
for proper measurement equipment setup and follow
the procedure below:
SETUP
If a DC718 QuickDATS Data Acquisition and Test
System was supplied with the DC782 demonstration
circuit, follow the DC718 Quick Start Guide to install
the required software and for connecting the DC718 to
the DC782 and to a PC running Windows98, 2000 or
XP.
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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Figure 1.
DC782 Setup
DC782 DEMONSTRATION CIRCUIT BOARD JUMPERS
The DC782 demonstration circuit board should have
the following jumper settings:
JP1: SHDN: Ground, enables ADC core.
JP2: OE: Ground, enables digital outputs.
JP3: SENSE: Select VDD for the 2V
PP
input range
SENSE: Select VCM for the 1V
PP
input range.
JP4: MODE: Select VDD (For 2’s complement out-
put format for PScope compatibility) and disables
Clock Duty Cycle Stabilizer.
APPLYING POWER AND SIGNALS TO THE DC782
DEMONSTRATION CIRCUIT BOARD:
If a DC718 is used to acquire data from the DC782,
the DC718 must FIRST be connected to a powered
USB port or provided an external 6-9V BEFORE ap-
plying +3V across the pins marked “+3.0V” and
“PWR GND” on the DC782. The DC782 demonstra-
tion circuit requires up to 150 mA depending on the
sampling rate and the A/D converter supplied.
The DC718 data collection board is powered by the
USB cable and does not require an external power
supply unless it must be connected to the PC
through an un-powered hub in which case it must
be supplied an external 6-9V on turrets G7(+) and
G1(-) or the adjacent 2.1mm power jack.
Encode Clock
Analog Input
3V
V
Parallel data output
TO QuickEval II or other
Data Acquisition System
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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ENCODE CLOCK
NOTE: THIS IS NOT A LOGIC LEVEL INPUT. Apply
an encode clock to the SMA connector on the
DC782 demonstration circuit board marked
“CLOCK INPUT”. Refer to Table 2 for recommended
level, impedance and coupling. This input is con-
nected to ground through a 50 resistor. For the
very best noise performance, the CLOCK INPUT
must be driven with a very low jitter source. When
using a sinusoidal generator, the amplitude should
be as large as possible, up to 3V
P-P
. Using band
pass filters on the clock and the analog input will
improve the noise performance by reducing the
wideband noise power of the signals. Data sheet
FFT plots are taken with 10 pole LC filters made by
TTE (Los Angeles, CA) to suppress signal generator
harmonics, non-harmonically related spurs and
broad band noise. Low phase noise Agilent 8664B
generators are used with TTE band pass filters for
both the Clock input and the Analog input.
[The Encode Clock can be driven with a 2.5V CMOS
Logic Level square wave if C12 is replaced with a
jumper. Note that the cable carrying the clock sig-
nal must be terminated to maintain the signal integ-
rity of the Encode Clock Source. Therefore the sig-
nal source must be able to drive the 0 to 2.5V
square wave signal into 50load.]
Apply the analog input signal of interest to the SMA
connector on the DC782 demonstration circuit
board marked “ANALOG INPUT”. This input is ca-
pacitive coupled to the primary of transformer T1.
The conversion clock output is available on pin 3 of
J2 and the data samples are available on
Pins 11-37 for 14 BITS or (15-37 for 12 BITS) or
(17-37 for 10 BITS) of J2. Data can be collected
via a logic analyzer, cabled to a development sys-
tem through a SHORT 2 to 4 inch long 40 pin rib-
bon cable or collected by the DC718 QuickEval-II
Data Acquisition Board using the
PScope System
Software
provided or down loaded from the Linear
Technology website at
http://www.linear.com/software/. If a DC718 was
provided, follow the DC718 Quick Start Guide and
the instructions below.
To start the data collection software if
PScope.exe
”, is installed (by default) in
\Program Files\LTC\PScope\, double click the
PScope Icon or bring up the run window under the
start menu and browse to the PScope directory and
select PScope.
Configure PScope for the appropriate variant of the
DC782 demonstration circuit by selecting the cor-
rect A/D Converter as installed on the DC782. Un-
der the “Configure” menu, go to “Device.” Under
the “Device” pull down menu, select device, either
LTC2236, LTC2237, LTC2238, LTC2239, LTC2225,
LTC2226, LTC2227, LTC2228, LTC2229, LTC2245,
LTC2246, LTC2247, LTC2248, LTC2249, LTC2250,
LTC2251 LTC2253, LTC2254, or LTC2255. If only a
14 BIT demonstration circuit was provided, 12 and
10 BIT performance can be simulated by selecting
the appropriate LTC222X or LTC223X part in the
Device List and PScope will automatically blank the
last two or four LSBs when using a DC782 supplied
with a 14 BIT part.
If everything is hooked up properly, powered and a
suitable convert clock is present, clicking the “Col-
lect” button should result in time and frequency
plots displayed in the PScope window. Additional
information and help for
PScope
is available in the
DC718 Quick Start Guide and in the online help
available within the
PScope
program itself.
ANALOG INPUT NETWORK
For optimal distortion and noise performance the
RC network on the analog inputs are optimized for
different analog input frequencies on the different
versions of the DC782. For input frequencies below
about 70 MHz, the circuit in Fig. 2 is recommended
(this is installed on DC782 versions
A,B,C,D,E,F,G,H, J,K,L,M,N,P). For input frequen-
cies above 70 MHz and below 170 MHz, the circuit
in Fig. 3 is recommended (this is installed on ver-
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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sions Q, R, S, T, U, V, W, X). (This circuit will work
below 70MHz, down to below10MHz, but with de-
graded common mode rejection due to the fre-
quency response of the balun.)
For input frequencies between 170 MHz and
300 MHz, the circuit in Fig. 4 is recommended. For
input frequencies greater than 300 MHz contact the
factory for support.
Figure 2.
Analog Front End Circuit For 1MHz < A
IN
< 70MHz
Figure 3.
Analog Front End Circuit For 70MHz < A
IN
< 170MHz
1:1 BALUN
.
T1 = MA/COM ETC1-1T
RESISTORS AND CAPACITORS ARE 0402 PACKAGE SIZE
T1 = MA/COM ETC1-1-13
RESISTORS AND CAPACITORS ARE 0402 PACKAGE SIZE
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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Figure 4.
Analog Front End Circuit For 170MHz < A
IN
< 300MHz
1:1 BALUN
T1 = MA/COM ETC1-1-13
RESISTORS AND CAPACITORS ARE 0402 PACKAGE SIZE
QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 782
10/12/14 BIT 10 TO 125 MSPS ADC
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