Preliminary Technical Data
Evaluation Board for the 16-Bit, Dual,
Continuous Time Sigma-Delta ADC
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Therefore, minimal or no filtering is required between the
demodulator and the ADC. A prototype area for a fourth order
filter is provided in which additional filtering can be tested.
EVALUATION BOARD DESCRIPTION
The AD9262 evaluation board serves two purposes: as an
evaluation platform for the 16-bit dual continuous time sigma
delta ADC and as a direct conversion demonstration platform.
Table 1 lists the product features of all the Analog Devices, Inc.,
components in the demonstrator.
To achieve optimal performance from the AD9262, a low jitter
differential clock is necessary, and the AD9516 family of parts
offers superior clock performance. The AD9516 and a crystal
oscillator footprint are included on the evaluation board. In
addition to providing a clock option to the ADC, outputs from
the AD9516 can be used to drive other external capture devices.
The AD9262 is a dual, 16-bit analog-to-digital converter (ADC)
based on a continuous time sigma-delta (Σ-Δ) architecture that
achieves 86 dB of dynamic range over a 10 MHz real or 20 MHz
complex bandwidth. The integrated features and characteristics
unique to the continuous time Σ-Δ architecture significantly
simplify its use and minimize the need for external components.
This evaluation board supports the AD9262 family of products,
including the AD9262BCPZ-10, AD9262BCPZ-5, and
AD9262BCPZ.
The ADR130B offers the option of using an external 0.5 V band
gap reference voltage for the AD9262. The ADP3339 provides a
quiet and reliable voltage source to each of the ADI components.
In addition to offering system-level evaluation of the direct
conversion architecture, the evaluation board offers the flexibility
of isolating the AD9262 from the surrounding components,
enabling a detailed evaluation of only the AD9262. The ADC
inputs can be disconnected from the ADL5382 and be driven
with an external source. The analog inputs of the AD9262 can
be driven from either a differential transformer or the ADA4937,
which is a very low noise, high linearity differential amplifier.
Direct conversion architectures, as shown in Figure 1, use a
single frequency translation step to convert the RF channel
directly to baseband without any intermediate frequency stages.
The frequency translation in this direct conversion demonstrator
is accomplished by the ADL5382, which is a quadrature demodulator. The ADL5382 covers the frequency range between 700
MHz and 2.7 GHz.
Complementing the AD9262 evaluation board are additional
hardware and software to capture and process the digital data
from the output of the ADC. The AD9262 can only be
evaluated using the HSC-ADC-EVALCZ high speed ADC data
capture card in conjunction with the VisualAnalogTM data
capture and analysis software. The SPIControllerTM software is
used to read and write to the AD9262.
The AD9262 has passive inputs, therefore allowing the ADL5382
to directly drive the ADC. The AD9262 does not require a filter
preceding the converter because the continuous time sigmadelta architecture possesses inherent antialiasing capabilities.
GAIN
CONTROL
ADL5523
ADL5382
ADL5523
BPF
BPF
ADF4360
RF
LO
AD9262
LPF
ADC
DA
DCO
90°
0°
LPF
ADC
DDC
DB
AD9516-0
07775-001
122.88MHz
Figure 1. Direct Conversion Receiver Block Diagram
Rev. PrA
Evaluation boards are only intended for device evaluation and not for production purposes.
Evaluation boards are supplied “as is” and without warranties of any kind, express, implied, or
statutory including, but not limited to, any implied warranty of merchantability or fitness for a
particular purpose. No license is granted by implication or otherwise under any patents or other
intellectual property by application or use of evaluation boards. Information furnished by Analog
Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog
Devices for its use, nor for any infringements of patents or other rights of third parties that may result
from its use. Analog Devices reserves the right to change devices or specifications at any time
without notice. Trademarks and registered trademarks are the property of their respective owners.
Evaluation boards are not authorized to be used in life support devices or systems.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
www.analog.com
Tel: 781.329.4700
Fax: 781.461.3113
©2009 Analog Devices, Inc. All rights reserved.
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
TABLE OF CONTENTS
Evaluation Board Description......................................................... 1 Software ..........................................................................................7 Product Features ............................................................................... 3 Hardware ........................................................................................7 Getting Started .................................................................................. 4 AD9262 SPI Controller ................................................................7 Configuring the Evaluation Board ................................................. 5 AD9516 SPI Controller ................................................................7 Power Supply ................................................................................. 5 AD9516 Register Settings .............................................................8 Clock .............................................................................................. 5 VisualAnalog Overview................................................................9 Receiver Input Configuration ..................................................... 5 Schematics ....................................................................................... 10 ADC Only Input Configuration ................................................. 5 Layout............................................................................................... 15 Differential Transformer Path .................................................... 6 Ordering Information .................................................................... 19 ADC Driver Path .......................................................................... 6 Bill of Materials ........................................................................... 19 Supporting Hardware and Software ............................................... 7 ESD Caution................................................................................ 23 Rev. PrA | Page 2 of 24
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
PRODUCT FEATURES
Table 1.
AD9262
SNR: 82.5 dB (84.5 dBFS) to
10 MHz input
SFDR: 87 dBc to 10 MHz input
Noise figure: 15 dB
Input impedance: 1 kΩ
Power: 675 mW
1.8 V analog supply operation
1.8 V to 3.3 V output supply
Selectable bandwidth
2.5 MHz/5 MHz/10 MHz real
5 MHz/10 MHz/20 MHz complex
Output data rate: 30 MSPS to
160 MSPS
Integrated decimation filters
Integrated sample rate converter
On-chip PLL clock multiplier
On-chip voltage reference
Offset binary, gray code, or twos
complement data format
Serial control interface (SPI)
ADL5382
I/Q demodulator
Operating RF frequency: 700 MHz to
2700 MHz
IIP3 + 30 dBm
IIP2 + 60 dBm
Input P1dB + 13dBm
NF 14 dB @ 900 MHz
Voltage conversion gain: 5 dB
Quadrature demodulation accuracy
Phase accuracy <0.5°
Amplitude balance <0.25 dB
LO input: −10 dBm to +5 dBm
Demodulation bandwidth: ~500 MHz
I/Q drive 2 VPEAK into 200 Ω
Programmable power consumption
AD9516-0
Low phase noise, phase-locked loop
On-chip VCO tunes from 2.55 GHz to 2.95 GHz
External VCO/VCXO to 2.4 GHz (optional)
One differential or two single-ended reference
inputs
Reference monitoring capability
Auto and manual reference switchover/holdover
modes
Autorecover from holdover
Accepts references to 250 MHz
Programmable delays in path to PFD
Digital or analog lock detect, selectable
Three pairs of 1.6 GHz LVPECL outputs
Each pair shares one to 32 dividers with coarse
phase delay
Additive output jitter: 225 fs rms
Channel-to-channel skew paired outputs: <10 ps
Two pairs of 800 MHz LVDS clock outputs
Each pair shares two cascaded one-to-32 dividers
with coarse phase delay
Additive output jitter: 275 fs rms
Fine delay adjust (ΔT) on each LVDS output
Eight 250 MHz CMOS outputs (two per LVDS output)
Automatic synchronization of all outputs on power-up
Manual synchronization of outputs as needed
Serial control port
64-lead LFCSP
ADR130B
Initial accuracy
A grade: ±0.70% (maximum)
B grade: ±0.35% (maximum)
Maximum temperature coefficient
A grade: 50 ppm/°C
B grade: 25 ppm/°C
CLOAD: 50 nF to 10 μF
Output current: +4 mA/−2 mA
Low operating current: 80 μA
(typical)
Output noise: 6 μV p-p @ 1.0 V
output
Input range: 2.0 V to 18 V
Temperature range: −40°C to
+125°C
Tiny Pb-free TSOT package
ADP3339
High accuracy over line and load: ±0.9% @
25°C, ±1.5% over temperature
Ultralow dropout voltage: 230 mV (typical)
@ 1.5 A
Requires only CO = 1.0 μF for stability
anyCAP® regulators: stable with any type
of capacitor (including MLCC)
Current and thermal limiting
Low noise
2.8. V to 6 V supply range
−40°C to +85°C ambient temperature
range
SOT-223 package
ADA4937
Extremely low harmonic distortion
−112 dBc HD2 @ 10 MHz
−79 dBc HD2 @ 70 MHz
−70 dBc HD2 @ 10 MHz
−102 dBc HD3 @ 10 MHz
−91 dBc HD3 @ 70 MHz
−84 dBc HD3 @ 100 MHz
Low input voltage noise: 2.2 nV/√Hz
High speed
−3 dB bandwidth of 1.0 GHz, G = 1
Slew rate: 6000 V/μs, 25% to 75%
dB gain flatness to 200 MHz
Fast overdrive recovery of 1 ns
1 mV typical offset voltage
Externally adjustable gain
Differential-to-differential or single-ended–todifferential operation
Adjustable output common-mode voltage
Single-supply operation: 3.3 V to 5 V
Pb-free, 3 mm × 3 mm 16-lead LFCSP
Rev. PrA | Page 3 of 24
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
07775-002
07775-003
GETTING STARTED
Figure 3. Evaluation Board Back
Figure 2. Evaluation Board Front
The default configuration of the AD9262 evaluation board allows a quick and easy start to evaluating the direct conversion receiver
subsystem. The default configuration interfaces the ADL5382 directly with the AD9262. Table 2 and Figure 4 show the hardware required
to start the evaluation.
Table 2. Quick Start Hardware Requirements
Name
Power
Board
AD9262EBZ
HSC-ADC-EVALCZ
AD9262EBZ
AD9262EBZ
AD9262EBZ
HSC-ADC-EVALCZ
Clock
RF Input
LO Input
USB
Value
+6 V
+5 V
640 MHz
700 MHz to 2.7 GHz
−10 dBm to +5 dBm
Reference Designator
P2
J3
J2
J1
CLOCK
USB
LO
INPUT
RF
INPUT
PWR: 6V
Figure 4. Quick Start Configuration
Rev. PrA | Page 4 of 24
07775-004
PWR: 5V
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
CONFIGURING THE EVALUATION BOARD
POWER SUPPLY
Power is provided to the evaluation board by a single +6.0 V
source applied to P2. The power source is regulated down to the
appropriate levels by the ADP3339 voltage regulators. Table 3
shows the necessary voltage levels for each component.
Table 3. Component Power Supplies
RECEIVER INPUT CONFIGURATION
Power Supply
1.8 V
5.0 V
3.3 V
CLOCK
The AD9262 evaluation board offers many clocking options:
a high frequency external clock can be applied directly to the
ADC; the AD9516-0 LVPECL or CMOS clock can be used; and
a low frequency clock, in conjunction with the integrated PLL
from either the AD9516-0 or AD9262, can provide the necessary
input clock frequency. The default clock option is configured
for an external clock rate of 640 MHz.
The AD9262 evaluation board includes the footprint for a Valpey
Fisher VFAC3 crystal oscillator. The crystal oscillator can serve
as the reference clock to the AD9516-0, and the chip’s internal
PLL can be used to generate a clock closest to the desired frequency for the ADC. For example, a 122.88 MHz reference
produces a VCO frequency of 2.580 GHz. The AD9516-0
possesses an integrated VCO. The VCO frequency is further
divided down by 4 to generate an output clock of 645 MHz,
which serves as the input clock to the ADC. To optimize the
AD9516-0 for this particular frequency, the loop filter must be
configured as shown in Figure 5.
R11
280Ω
C107
1000pF
C31
15,000pF
R19
0Ω
LF
BYPASS_LDO
Between the output of the ADL5382 and the input to the
AD9262 are space holders for a fourth order filter (see Figure 6).
This filter may or may not be necessary depending on the
application.
Figure 5. AD9516-0 Loop Filter
If the user chooses an alternative crystal oscillator frequency,
the loop filter components must be configured appropriately.
Some common crystal oscillators and the corresponding loop
filter components are shown in Table 4. Refer to the ADIsimCLK
software for design guidance.
Loop Filter
134.4
R11
1000 pF 232 Ω
C31
18,000 pF
R13
C108
486 Ω 680 pF
122.88
1000 pF 280 Ω
15,000 pF
576 Ω 560 pF
39.3216
1500 pF 221 Ω
22,000 pF
453 Ω 680 pF
L7
L4
L8
L11
L15
C48
L12
C50
L16
Figure 6. Fourth Order Filter
ADC ONLY INPUT CONFIGURATION
In addition to using the ADL5382 as an input source to the
ADC, the AD9262 can be driven with an external source through
either the ADA4937 or a differential transformer.
Additionally, short TP17, TP23, TP2, and TP24 to the appropriate
pads to route the external signals to the input pins of the AD9262
(see Figure 7). This configuration requires careful attention to
ensure that the output signals of the ADL5382 are disconnected
and only the signals from the transformer or ADA4937 are
routed to the ADC.
Table 4. AD9516-0 CLK Configuration
Crystal
(MHz) C107
L3
To configure the evaluation board for an external source, follow
the hardware configuration shown in Table 5. The SMA
connectors, labeled J5 and J4, correspond to the input signals to
Channel A and Channel B, respectively, of the AD9262.
C108
560pF
07775-005
R13
576Ω
0Ω
CP
The default configuration uses the complex output signals of
the I/Q demodulator as the input signals to the AD9262. In this
configuration, the RF input signal should be applied to J2 and
the LO signal to J1. The RF input range of the ADL5382 is
limited to between 700 MHz and 2.7 GHz. The single-ended
RF and LO signals are converted to differential signals using the
RF transformers, T2 and T1. The resulting output signals of the
demodulator are differential I and Q signals that can be directly
applied to the resistive inputs of the AD9262, and no driver
amplifiers are required.
07775-006
Component
AD9262
ADL5382
AD9516-0
To configure the evaluation board for either the external clock
source or the AD9516-0 requires modifying the JP5 and JP6
solder jumpers. The AD9262 sets the common-mode level of
the input clock to 450 mV; therefore, the clock source should be
ac-coupled to the ADC input clock pins. Use the AD9516-0
software to configure the chip to the appropriate divide ratios.
AD9262
CLK
672 MHz
645.12 MHz
648.8 MHz
Rev. PrA | Page 5 of 24
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
Table 5. External ADC Input Configuration
DIFFERENTIAL TRANSFORMER PATH
Connector
J4, J5
Setting
Notes
J4: Channel B
J5: Channel A
To activate the differential transformer path, configure the
jumpers as shown in Table 6.
R33 to 42
DNP
TP17
Short to the closest
pad on R40
Short to the closest
pad on R39
Short to the closest
pad on R42
Short to the closest
pad on R41
Disconnect ADL5382
outputs from the AD9262
Connect A+ path
TP23
TP2
TP24
C 4
3
7
1
R3
R2
C 5
4
8
Jumper
JP1, JP2
JP3 to JP6
Connect B+ path
ADC DRIVER PATH
Connect B− path
Set the jumpers as shown in Table 7.
Jumper
JP1, JP2
AD9262
4
L
L
R37
1
L 6
L 3
1
2
4
L
L 0
C51
1
C43
C56
1
L 8
R39
TP24
R33
R37
R34
C42
R40
REMOVE R39 TO R42.
SHORT TP24, TP2,
TP23, AND TP17 TO
THE CLOSEST PAD.
TP2
R41
TP23
R35
C43
R36
R42
TP17
07775-007
R38
A L538
Notes
Configure SMA connectors for
transformer inputs
Configure differential transformer outputs to ADC inputs
Connect A− path
JP3 to JP6
C 3
Setting
Short Position 1
and Position2
Short Position 2
and Position 3
Table 7. ADA4937 Configuration
L 5
C50
L1
R2
Table 6. Differential Transformer Configuration
Figure 7. External ADC Jumper Settings
Rev. PrA | Page 6 of 24
Setting
Short Position 2
and Position 3
Short Position 1
and Position 2
Notes
Configure SMA connectors for
ADA4937 inputs
Configure outputs from the
ADA4937 to ADC inputs
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
SUPPORTING HARDWARE AND SOFTWARE
The AD9262 can only be evaluated using the HSC-ADCEVALCZ high speed ADC data capture card in conjunction
with the VisualAnalog data capture and analysis software.
The SPIController software is used to configure the AD9262
and the AD9516 to the appropriate register settings.
Manuals for VisualAnalog, the SPIController software, and
the HSC-ADC-EVALCZ data capture hardware are included
on the CD in the evaluation board package. It is recommended
that the software be installed before connecting the hardware.
VisualAnalog relies on the Microsoft .NET framework version 2,
which is also included on the package CD. The .NET framework should be installed before installing VisualAnalog. The
SPIController software should also be installed.
HARDWARE
The AD9262 evaluation board and the HSC-ADC-EVALCZ
data capture card are powered from a wall-connected switching
power supply. The switching power supplies have different
output voltages. Connect the 6 V power supply to the AD9262
evaluation board and the 5 V power supply to the HSC-ADCEVALCZ data capture board. With the HSC-ADC-EVALCZ
data capture board powered on and the VisualAnalog software
installed, connect the USB cable to the PC and follow all the
Found new hardware prompts, using the default driver each time.
07775-017
SOFTWARE
Figure 8. AD9262 SPIController
AD9516 SPI CONTROLLER
Open another instance of the SPIController for control of the
AD9516. If a box titled Read Test Failure appears, click Ignore
to open the SPIController. This error occurs because the
software has not been configured correctly to read from the
chip. Use the following procedure to appropriately configure the
SPIController to read and write to the AD9516:
1.
2.
From the File menu, select CfgOpen; then select
AD9516spiengR03.cfg.
When a Calibration File Error! message appears as shown
in Figure 9, click OK.
AD9262 SPI CONTROLLER
Upon successful software installation and hardware setup, start
the AD9262 SPIController software. By default, the software
recognizes the AD9262 evaluation board and loads the correct
SPIController profile. If it does not, point the software to the
following file: AD9262_16Bit_10MSspiR03.cfg.
07775-018
The AD9262 SPIController has four tabs. When correctly
configured, a message appears on the CHIP ID subpane
reporting that the AD9262 is interfaced (see Figure 8).
Figure 9.
3.
Rev. PrA | Page 7 of 24
Select Config and then Controller Dialog and make sure
that FIFO Chip Sel is set to 2 and that USB Chan # is set
to the same value as the AD9262 SPIController Cfg dialog
(see Figure 10).
Preliminary Technical Data
07775-020
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Figure 11. AD9516 Configuration
The AD9516 register settings depend on the particular clock
option chosen. Table 8 provides a list of register settings for
some common crystal oscillators. The configuration shown in
Figure 12 and Figure 13 is for the 122.88 MHz crystal oscillator.
2
07775-021
1
Figure 12. VCO and Clock Configuration for the 122.88 MHz Crystal Oscillator
7
8
3
4
07775-019
5
07775-022
9
6
Figure 10.
AD9516 REGISTER SETTINGS
Figure 13. PLL Configuration for the 122.88 MHz Crystal Oscillator
The SPIController uses a 4-wire interface; therefore, the
AD9516 must be configured for this interface before any further
writes can take effect. To configure the AD9516, check the SDO
Enable bit, as shown in Figure 11.
Rev. PrA | Page 8 of 24
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Table 8: AD9516 Register Settings
Register
VCO
R Divider
A/B Counter
Prescaler
Output CLK
134.4 MHz
2.688 GHz
4
0/5
16/17
672 MHz
122.88 MHz
2.580 GHz
4
4/5
16/17
645.12 MHz
39.3216 MHz
2.595 GHz
1
2/4
16/17
648.81 MHz
VisualAnalog OVERVIEW
07775-023
Open VisualAnalog and choose a canvas from the AD9262
folder (see Figure 14).
Figure 14. VisualAnalog Canvas
Rev. PrA | Page 9 of 24
PJ-102A
1
2
3
P2
C
1
TP11
BLK
CR8A
10BQ015TRPBF
C54
10UF
F1
1
2
1.1A
3
1
4
6
5
FL1
BNX016-01
2
1
TP9
BLK
1
RED
3
A2
P11
A1
CR14
A
C
S2A-LT
C65
1UF
3
2
IN OUT
GND NC
1 4
2
C53
1UF
IN OUT
GND NC
1 4
ADP3339AKCZ-1.8-RL
A5
C128
1UF
3
2
C55
1UF
IN OUT
GND NC
1 4
BERG69157-102
C62
1UF
ADP3339AKCZ-5-RL
P12
ADP3339AKCZ-3.3-RL
CR13
A
C
S2A-LT
R50
S2A-LT
CR9
C
A
BERG69157-102
E4
2
Rev. PrA | Page 10 of 24
Figure 15. Power Supply Distribution
P14
BERG69157-102
P13
BERG69157-102
P16
BERG69157-102
C58
1UF
P15
BERG69157-102
E3
2
115OHMS
1
C63
1UF
C64
1UF
115OHMS
1
C70
1UF
C69
1UF
C68
1UF
C67
1UF
2
E5
1
N
P
N
P
2
N
E7 P
1
E8
2
N
P
115OHMS
1
115OHMS
E6
2
115OHMS
1
115OHMS
AD9516_+3P3V
+5V
C74
4.7UF
C73
4.7UF
C72
4.7UF
C71
4.7UF
DRVDD
DVDD
AVDD
CVDD
AD9516-0: +3.3V
ADL5382: +5V
ADA4937-2: +5V
AVDD: +1.8V
CVDD: +1.8V
DVDD: +1.8V
DRVDD: +1.8V
AD9262
POWER SUPPLY
07775-008
+6V
TP10
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
SCHEMATICS
0
1
TP4
BLK
DRVDD
DVDD
CVDD
C5
.1UF
C1
.1UF
C2
.1UF
C75
1
C6
1000PF
C3
1000PF
C4
1000PF
0.1UF
AVDD
VOUT 4
CLK-
65
AVDD
AVDD
66
VIN+B
VIN-B
CLK+
C8
.1UF
C7
.1UF
GND
2 ADR130BUJZ
U6
1
2
3
PDWNA
4
PDWNB
PLL_LOCKED 5
6
7
8
9
D0-B
10
D0+B
11
D1-B
12
D1+B
13
D2-B
14
D2+B
15
D3-B
16
D3+B
TP3
BLK
C78
0.1UF
3 VIN
5 SET
C11
10UF
C12
10UF
C17
1000PF
.1UF
OR-B
OR+B
DCODCO+
C14
1000PF
C13
1000PF
C10
10UF
C9
10UF
C15
DRVDD
CLKCVDD
PDWNA
PDWNB
PLL_LOCKED
DVDD
DGND
DRVDD
D0-B
D0+B
D1-B
D1+B
D2-B
D2+B
D3-B
D3+B
73
72
67
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
AD9262
CLK+
CGND
AGND
AVDD
VIN-B
VIN+B
AVDD
CFILT
VREF
AVDD
VIN-A
VIN+A
AVDD
AGND
RESET
CSB
OR-B
OR+B
OCOOCO+
DNC
DNC
DRVDD
DGND
DVDD
DNC
DNC
DNC
DNC
DNC
OR-A
OR+A
C18
1000PF
R1
DVDD
OR+A
OR-A
1
1
2
D3+A
D3-A
D2+A
D2-A
D1+A
D1-A
D0+A
D0-A
PLL2
PLL3
PLL4
1
C27
.1UF
DRVDD
C26
.1UF
DVDD
1
2 3
J3
DNP
R56
TBD0603
SCLK/PLL0
SDIO/PLL1
PLL2
PLL3
PLL4
DRVDD
R2
10K
Y1 6
Y2 4
R63
10K
R64
10K
GND
2
NC7WZ07P6X
R3
4
PRI
5
R65
10K
1.07K
U3
3 A2
5
VCC
3
SEC
1 A1
SDIO/PLL1
1 EXT_CLK
FIFO_SDI
TP5
BLK
142-0711-201
T3
ETC1-1-13
1
R5
PDWNB
PDWNA
R62
10K
R61
10K
DRVDD
1
2
1
2
P18
BERG69157-102
P19
BERG69157-102
R58
24.9
R66
10K
C29
.1UF
CR1
HSMS-2812BLK
3
CSB_AD9262
FIFO_SCLK
DRVDD
R51
10K
R53
10K
3 A2
1 A1
GND
2
5
VCC
R4
1.07K
NC7WZ07P6X
Y2 4
Y1 6
U2
AD9516_CLK-
TBD0603
C79
AD9516_CLK+
3PIN_SOLDER_JUMPER
CLK-
R60
TBD0603
R59
TBD0603
CLK+
JP9
3PIN_SOLDER_JUMPER
JP8
AD9262 SPI
FIFO_SDO
1UF
C77
1UF
C76
AD9262 CLK
S2
1B
2B
3B
4B
5B
219-5MST
1A
2A
3A
4A
5A
R67
10K
PLL_LOCKED
1
TP25
YEL
Y2 4
3 A2
C59
.1UF
R6
10K
N
P
NC7WZ07P6X
Y1 6
1 A1
GND
2
5
VCC
U9
EXTERNAL PLL CONTROL
R7
1.07K
AD9516_+3P3V
1.07K
R57
24.9
EXTERNAL PDWNA/B CONTROL
TP21
BLK
C25
1000PF
C24
1000PF
DVDD
CSB_ADC
AD9262_CSB
SCLK/PLL0
SDIO/PLL1
TP19
YEL
B3S1000
3
4
RESET
S1
C23
1000PF
AVDD
C22
1000PF
MLF64A-9GNDPAD
69
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
70
U1
1K
VIN-A
VIN+A
C19
10UF
C21
.1UF
C20
.1UF
AVDD
AD9262
PLLMULTI0
PLLMULTI1
PLLMULTI2
PLLMULTI3
PLLMULTI4
DVDD
DGND
DRVDD
D3+A
D3-A
D2+A
D2-A
D1+A
D1-A
D0+A
D0-A
C16
.1UF
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
71
68
A
COM
B
R52
EXT_VREF
1
DRVDD
TP12
RED
1
TP13
BLK
CSB_ADC
SCLK/PLL0
C28
.1UF
C80
10UF
R47
1
2
07775-009
1
2
3
1
A
2
COM
3
B
100K
P1
200
A
Rev. PrA | Page 11 of 24
CR10
2
BERG69157-102
LNJ312G8TRA (GREEN)
1
Figure 16. AD9262 Pinout
C
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Figure 17. Data Interface to the HSC-ADC-EVALCZ High Speed ADC Data Capture Card
CSB_AD9516
CSB_AD9262
DCO-
J6
J7
J7
6469169-1
6469169-1
6469169-1
6469169-1
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
6469169-1
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
J8
BG1
BG2
BG3
BG4
BG5
BG6
BG7
BG8
BG9
BG10
J8
B1
B2
B3
FIFO_SDO B4
FIFO_SDI B5
B6
FIFO_SCLK
B7
B8
B9
B10
J8
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
J8
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
6469169-1
J8
D0-B
D1-B
D2-B
D3-B
OR-B
J6
6469169-1
BG1
BG2
BG3
BG4
BG5
BG6
BG7
BG8
BG9
BG10
LNJ208R8ARA (RED)
CR7
R21 C1
C
A
301 C2
C3
C4
C5
D0+B
C6
D1+B
C7
D2+B
C8
D3+B
C9
OR+B
C10
OR-A
D0-A
D1-A
D2-A
D3-A
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
6469169-1
PLUG HEADER
6469169-1
PLUG HEADER
6469169-1
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
J7
PLUG HEADER
6469169-1
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
J7
J7
J6
C1
OR+A
C2
D0+A
C3
D1+A
C4
C5
D2+A
C6
D3+A
C7
LNJ208R8ARA (RED) C8
C9
CR6
R20 C10
C
A
301
6469169-1
6469169-1
BG1
BG2
BG3
BG4
BG5
BG6
BG7
BG8
BG9
BG10
PLUG HEADER
DCO+
J6
6469169-1
PLUG HEADER
PLUG HEADER
6469169-1
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
PLUG HEADER
PLUG HEADER
PLUG HEADER
PLUG HEADER
PLUG HEADER
PLUG HEADER
PLUG HEADER
PLUG HEADER
J6
PLUG HEADER
J6
J7
J8
6469169-1
DG1
DG2
DG3
DG4
DG5
DG6
DG7
DG8
DG9
DG10
6469169-1
DG1
DG2
DG3
DG4
DG5
DG6
DG7
DG8
DG9
DG10
6469169-1
DG1
DG2
DG3
DG4
DG5
DG6
DG7
DG8
DG9
DG10
PLUG HEADER
PLUG HEADER
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
PLUG HEADER
Rev. PrA | Page 12 of 24
07775-010
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
RF INPUT
142-0711-201
142-0711-201
5
3
T1
T2
4
5
ETC1-1-13
PRI
J2 4
1
C39
0
R22
1000PF
SEC 1000PF
3 C38
1
0
R24
1000PF
1000PF
C56
C52
+5V
C106
.1UF
TBD0603
R26
L2
L1
LO INPUT
J1
ETC1-1-13
R25
4.02
120NH
120NH
+5V
TBD0603
DNP
R23
C33
100PF
C41
.1UF
C40
100PF
RFIN
RFIP
LOIP
LOIN
BIAS
QHI
QLO
IHI
ILO
C34
100PF
C35
.1UF
ADL5382ACPZ-R7
U8
C37
100PF
C36
.1UF
VPA
0
R32
0
C47
0
L6
0
C46
R31
0
L5
0
0
0
C45
L4
0
0
0
0
L3
AMP_CHA
1
0
L10
0
L9
0
L8
0
L7
2 3 4 5
J5
JOHNSON142-0701-801
R30
C44
R29
+5V
+5V
1
0
L14
C49
TBD0603
0
L13
0
L12
C48
TBD0603
0
L11
0
L18
C51
TBD0603
0
L17
0
L16
C50
TBD0603
0
L15
3PIN_SOLDER_JUMPER
JP1
0
R42
R38
TBD0603
0
R41
0
R40
R37
TBD0603
0
R39
R27
60.4
R18
200
R45
200
C42
AVDD
C43
TBD0603
AVDD
TBD0603
10UF
+5V
C110
R10
60.4
R49
60.4
.1UF
R46
DNP
R36
499
DNP
R35
499
DNP
R34
499
DNP
R33
499
200
R43
200
R70
200
R12
60.4
C112
200
200
-IN1
+FB1
+VS1_0
+VS1_1
-FB2
+IN2
VIN+A
10UF
200
+5V
C57
R48
VIN-B
VIN+B
VIN-A
1
2
3
4
5
6
ADA4937-2YCPZ
R68
R44
U11
.1UF
C126
10UF
C91
C111
1
TP17
1
TP23
RED
3PIN_SOLDER_JUMPER
AVDD
18
17
16
15
14
13
.1UF
+OUT1
VOCM1
-VS2_1
-VS2_0
PD2_N
-OUT2
AMP_PDN
RED
1
TP2
RED
AVDD
C125
.1UF
RED
1
TP24
3PIN_SOLDER_JUMPER
C127
10UF
AMP_PDN
AMP_PDN
R93
10K
+5V
3PIN_SOLDER_JUMPER
JP4
JP3
3PIN_SOLDER_JUMPER
JP6
C114
10UF
JP5
ADA4937 & XFORMER
3PIN_SOLDER_JUMPER
JP2
XFMR_CHB 1 A
2
COM
3
B
B
3
COM
2
XFMR_CHA1 A
2 3 4 5
J4
AMP_CHB
JOHNSON142-0701-801
R54
C60
49.9
0.1UF
ADL5382
VPX
COM
SEC
Rev. PrA | Page 13 of 24
CMRF
PRI
Figure 18. AD9262 Input Configuration
PAD
R55
C61
49.9
0.1UF
PAD
PAD
24
23
22
21
20
19
+IN1
-FB1
-VS1_1
-VS1_0
PD1_N
-OUT1
-IN2
+FB2
+VS2_0
+VS2_1
VOCM2
+OUT2
7
8
9
10
11
12
1
A
2
COM
3
B
1
A
2
COM
3
B
1
A
2
COM
3
B
1
A
2
COM
3
B
AD9262 INPUT
1
2
AVDD
C115
.1UF
2
1
6
3
5
4
T6
TT1-6-KK81+
AVDD
P9
JPSLD02
C113
10UF
C116
.1UF
2
1
5
6
R85
52.3
XFMR_CHB
TT1-6-KK81+
T7 3
4
R92
52.3
XFMR_CHA
07775-011
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
CML
VPL
VPB
Figure 19. AD9516-0 Configuration
Rev. PrA | Page 14 of 24
10 K
R28
C81
0.1UF
C82
0.1UF
C83
0.1UF
OUT
C84
0.1UF
R69 R71 R72 R75
10K 10K 10K 10K
AD9516_+3P3V
RESETB
SYNCB
PDB
REF_SEL
2
TRISTATE CTRL
GND
VCC
4
C117
.1UF
P17
1
2
JPSLD02
1
AD9516_+3P3V
C118
.1UF
AD9516_+3P3V
AD9516_+3P3V
XTAL_INPUT
2 3 4 5
J13
1
C87
0.1UF
C90
0.1UF
1
P8
2
BERG69157-102
1
P7
2
BERG69157-102
1
P6
2
BERG69157-102
1
P5
2
BERG69157-102
REFMON
LD
100K
R8
STATUS
JOHNSON142-0701-801
122.88 MHZ - CDMA2000
134.4 MHZ - WIMAX
39.3216 MHZ - WCDMA
DNP
TP7
1 WHT
4
PRI
3 2A
1 1A
5
2Y
3 2A
2
1Y
GND
C88
.1UF
C86
.1UF
C85
C30
.1UF
AD9516_+3P3V
R78
49.9
4
6
C32
.1UF
300
R17
300
R16
AD9516_+3P3V
300
SN74LVC2G14DBVR
U5
C89
.1UF
.1UF
C136
.22UF
R80
0
R81
49.9
DNP
R82
49.9
SN74LVC2G14DBVR
U4
R14
1Y 6
300
2Y 4
R15
1 1A
VCC
5
2
GND
VCC
3
SEC
T4
ETC1-1-13
5
1
BYPASS_LDO
DNP
0
5
1
ETC1-1-13
R76
3
SEC
T5
4
PRI
0
R73
TP6 TP8
1 WHT1 WHT
DNP
1
2 3 4 5
J11
XTAL_INPUT
JOHNSON142-0701-801
JOHNSON142-0701-801
39.3216MHZ
Y1
3
1
2 3 4 5
3PIN_SOLDER_JUMPER
J12
A
COM
B
1
2
3
1
A
C
LNJ312G8TRA (GREEN)
A
C
LNJ312G8TRA (GREEN)
CR5
A
C
LNJ312G8TRA (GREEN)
CR4
1
62
58
16
22
17
24
8
23
13
14
9
10
64
63
7
R84
5.1K
A
C
LNJ312G8TRA (GREEN)
CR3
1
CPRSET
RSET
SCLK
SDIO
CS_N
PD_N
SYNC_N
RESET_N
CLK
CLK_N
LF
BYPASS
REFIN1
REFIN2
REF_SEL
TP15 TP16
WHT WHT WHT
R83
4.12K
CR2
CSB_AD9516
FIFO_SCLK
FIFO_SDI
PDB
SYNCB
RESETB
LF
REF_SEL
TP14
AD9516_+3P3V
PAD
AD9516-0BCPZ
VS
1
11
12
30
31
32
38
49
50
51
57
60
61
65
66
67
68
69
70
71
72
73
GND
VCP
4
2
3
5
6
21
55
56
52
53
42
43
39
40
26
25
29
28
47
48
45
46
34
33
36
35
U7
CP
C92
0.1UF
J16
142-0711-201
AD9516_CLK+
142-0711-201
3 2 J17
3 2
.1UF
AD9516_CLK-
C93
0.1UF
C94
0.1UF
C99
0.1UF
C31
18000PF
487
R11
232
R13
0
C107
1000PF
R89
200
R91
200
C97
C100
0.1UF
C101
0.1UF
C108
680PF
0
R19
.1UF
.1UF
C98
CHARGE PUMP FILTER
1
1
R90
200
C95
.1UF
C96
R9
0
R87
0
R86
R88
200
REFMON
LD
CP
STATUS
FIFO_SDO
TP22
1 YEL
AD9516_+3P3V
REFMON
LD
CP
STATUS
SDO
OUT_N0
OUT0
OUT_N1
OUT1
OUT_N2
OUT2
OUT_N3
OUT3
OUT_N4
OUT4
OUT_N5
OUT5
OUT_N6
OUT6
OUT_N7
OUT7
OUT_N8
OUT8
OUT_N9
OUT9
VS_LVPECL
27
41
54
37
44
59
JP7
J15
1
C102
0.1UF
C103
0.1UF
C104
0.1UF
BYPASS_LDO
C109
TBD0603
LF
C105
0.1UF
JOHNSON142-0701-801
5 4 3 2
JOHNSON142-0701-801
5 4 3 2
J14
1
07775-012
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
07775-013
LAYOUT
Figure 20. Top Silk
Rev. PrA | Page 15 of 24
Preliminary Technical Data
07775-014
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Figure 21. Bottom Silk
Rev. PrA | Page 16 of 24
Preliminary Technical Data
AVDD
CVDD
07775-015
+5V
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Figure 22. Power 1: Layer 3
Rev. PrA | Page 17 of 24
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
DVDD
DRVDD
07775-016
AD9516_+3p3V
Figure 23. Power 2: Layer 4
Rev. PrA | Page 18 of 24
Preliminary Technical Data
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
ORDERING INFORMATION
BILL OF MATERIALS
Table 9.
Qty
1
1
1
33
4
20
16
Reference Designators
A1
A2
A5
C1, C2, C5, C7, C8, C15, C16,
C20, C21, C26, C27, C28, C29,
C30, C32, C35, C36, C41, C85,
C86, C88, C89, C95, C96, C97,
C98, C106, C111, C112, C115,
C116, C125, C126
C9, C10, C11, C12
C59, C75, C78, C81, C82, C83,
C84, C87, C90, C92, C93, C94,
C99, C100, C101, C102, C103,
C104, C105, C117
C3 ,C4, C6, C13, C14, C17, C18,
C22, C23, C24, C25, C38, C39,
C52, C56, C107
1
C108
4
C44, C45, C46, C47
0
C42, C43, C48, C49, C50, C51,
C79, C109
C57, C91, C110, C113, C114,
C127
C66, C118
6
2
14
1
C53, C55, C58, C62, C63, C64,
C65, C67, C68, C69, C70, C76,
C77, C128
C60, C61, C130, C131, C132,
C133, C134, C135
C136
2
C19, C54
0
1
C200
C31
4
C33, C34, C37, C40
8
Description
IC-ADI high ACC, ADP3339A
IC-ADI high ACC, ADP3339A
IC-ADI high ACC, ADP3339A
CAP CER 0.10 μF 16 V 10%
X7R 0805
Manufacturer
Analog Devices
Analog Devices
Analog Devices
Murata Electronics,
North America
Manufacturer Part
Number
ADP3339AKCZ-3.3
ADP3339AKCZ-5
ADP3339AKCZ-1.8
GRM219R71C104
KA01D
Distributor and
Part Number
CAP ceramic 10 μF 6.3 V X5R
0603
CAP 0.10 μF 50 V ceramic
X7R 0805
Panasonic-ECG
ECJ-1VB0J106M
Panasonic-ECG
ECJ-2YB1H104K
Digi-Key
PCC2395CT-ND
Digi-Key
PCC1840CT-ND
CAP 1000 pF 50 V ceramic
X7R 0603
Panasonic-ECG
ECJ-1VB1H102K
Digi-Key
PCC1772CT-ND
ECU-V1H102KBV
Digi-Key
PCC102BVCT-ND
Digi-Key
PCC561CGCT-ND
Digi-Key
RHM0.0GDKR-ND
CAP 1000 pF 50 V ceramic
0603 SMD
CAP 560 pF 50 V CERM chip
0805 SMD
RES 0.0 Ω 1/10 W 5% 0603
SMD
0603, not populated
Panasonic-ECG
ECU-V1H561JCX
ROHM
Semiconductor
MCR03EZPJ000
CAP CER 10 μF 10 V 10% X5R
0805
CAP 0.10 μF 50 V ceramic
Y5V 0603
CAP 1 μF 6.3 V ceramic X5R
0603
Murata Electronics,
North America
Panasonic-ECG
GRM21BR61A106KE
Panasonic-ECG
ECJ-1VB0J105K
CAP 0.10 μF 16 V ceramic
Y5V 0402
CAP 0.22 μF 25 V ceramic
X7R 0805
CAP 10 μF 16 V ceramic X5R
1206
0402, not populated
CAP 15,000 pF 50 V CERM
X7R 0603
CAP ceramic 100 pF 50 V
0603 SMD
Yageo
CC0402ZRY5V7BB104
Panasonic-ECG
ECJ-2YB1E224K
Panasonic-ECG
ECJ-3YB1C106M
Panasonic-ECG
ECJ-1VB1H153K
Panasonic-ECG
ECU-V1H101JCV
Rev. PrA | Page 19 of 24
ECJ-1VF1H104Z
Digi-Key
490-1683-1-ND
Digi-Key
490-1709-1-ND
Digi-Key
PCC2153CT-ND
Digi-Key
PCC1915CT-ND
Digi-Key
311-1047-1-ND
Digi-Key
PCC1832CT-ND
Digi-Key
PCC2227CT-ND
Digi-Key
PCC1786CT-ND
Digi-Key
PCC101ACVCT-ND
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Qty
4
Reference Designators
C71, C72, C73, C74
Preliminary Technical Data
Description
CAP tantalum 4.7 μF 16 V
20% SMD, A-case
CAP 4.7 μF 16 V TANT TE
series, 3216-18
CAP tantalum 10 μF 16 V
10% SMD, B-case 3528
Schottky diode 20 VBR, 1.2
pF
Manufacturer
AVX Corporation
Manufacturer Part
Number
TAJA475M016R
Panasonic-ECG
ECS-T1CY475R
AVX Corporation
TAJB106K016R
Avago
Technologies
HSMS-2812-BLKG
Rectifier SIL 2 A 50 V DO214AA
LED green TSS type SMD,
0603
LED red HI BRT SS type LO
CUR SM, 0603
Diode SCHOTTKY 15 V 1 A
SMB, DO-214AA
Bead core 4.5 ×3.2 × 1.8
SMD
Polyswitch 1.10 A reset fuse
SMD
Micro Commercial
Company
Panasonic-SSG
S2A-TP
Panasonic-SSG
LNJ208R8ARA
Vishay IR
VS-10BQ015TRPBF
Panasonic-ECG
EXC-CL4532U1
Tyco Electronics
Raychem Circuit
Protection
Murata Electronics,
North America
Emerson Network
Power
Connectivity
Solutions
Emerson Network
Power Connectivity Solutions
NANOSMDC110F-2
1
C80
1
CR1
3
CR9, CR13, CR14
4
CR2, CR3, CR4, CR5
2
CR6, CR7
1
CR8
6
E3, E4, E5, E6, E7, E8
1
F1
1
FL1
5
J1, J2, J3, J16, J17
7
J4, J5, J11, J12, J13, J14, J15
CONN jack end launch PCB
0.187" G
0
J11
CONN jack end launch PCB
0.187" G, not populated
Emerson Network
Power Connectivity Solutions
142-0701-801
3
J6, J7, J8
Tyco Electronics
6469169-1
2
L1, L2
Panasonic-ECG
ELJ-RER12JFA
16
L3, L4, L5, L6, L7, L8, L9, L10,
L11, L12, L13, L14, L15, L16,
L17, L18
P1, P5, P6, P7, P8, P11, P12,
P13, P14, P15, P16
Z-pack connector HDR
4X010P R/A B-plane HMZD
Inductor 120 NH 5% fixed
0603 SMD
RES 0.0 Ω 1/10 W 5% 0603
SMD
ROHM
Semiconductor
MCR03EZPJ000
CONN header 2 POS 0.100
VERT gold
Molex/Waldom
Electronics
Corporation
BERG
Tyco Electronics
22-10-2021
CUI, Inc.
PJ-102A
ROHM
Semiconductor
Panasonic-ECG
MCR03EZPFX1001
11
6
P11, P12, P13, P14, P15, P16
1
P2
2
R1, R4
FLTR EMI 50 MΩ 15 A 0.10
MHz-1 GHz SMD
CONN SMA jack RCPT VERT
gold SMD, SMAUPSMD
Shunt, ECON, PHBR 15 AU,
black
CONN jack power
2.1 mm PCB
RES 1.00 kΩ 1/10 W 1% 0603
SMD
Rev. PrA | Page 20 of 24
LNJ312G8TRA
BNX016-01
142-0711-201
142-0701-801
39157-102
382811-6
ERJ-3EKF1001V
Distributor and
Part Number
Digi-Key
478-3032-1-ND
Digi-Key
PCS3475CT-ND
Digi-Key
478-1673-1-ND
Mouser
630-HSMS-2812BLKG
Digi-Key
S2A-TPMSCT-ND
Digi-Key
P11134CT-ND
Digi-Key
P524CT-ND
Digi-Key
10BQ015PBFCT-ND
Digi-Key
P9812CT-ND
Digi-Key
NANOSMDC110FCT
-ND
Mouser
81-BNX016-01
Mouser
530-142-0711-201
Digi-Key
J819-ND
Digi-Key
530-142-0701-801
Digi-Key
J502-ND
Mouser
530-142-0701-801
Digi-Key
J502-ND
Mouser
571-6469169-1
Digi-Key
PCD1986CT-ND
Digi-Key
RHM0.0GDKR-ND
Digi-Key
WM2722-ND
Digi-Key
A26227-ND
Digi-Key
CP-102A-ND
Digi-Key
RHM1.00KHCT-ND
Digi-Key
P1.00KHCT-ND
Preliminary Technical Data
Qty
4
Reference Designators
R10, R12, R27, R49
1
R11
1
R13
4
R14, R15, R16, R17
12
R18, R43, R44, R45, R46, R48,
R68, R70, R88, R89, R90, R91
R9, R19, R22, R24, R47, R73,
R80, R86, R87
R76
9
0
9
R2, R6, R28, R50, R51, R69, R71,
R72, R75
2
R20, R21
8
1
R29, R30, R31, R32, R39, R40,
R41, R42
R23, R26, R37, R38, R56, R59,
R60
R25
3
R3, R5, R7
0
R33, R34, R35, R36
4
R52, R53, R78, R82
0
0
2
R81
R57, R58
1
R8
1
R83
1
R84
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Manufacturer
Panasonic-ECG
Manufacturer Part
Number
ERJ-3EKF6042V
Panasonic-ECG
ERJ-3EKF2800V
Panasonic-ECG
ERJ-6ENF5760V
Panasonic-ECG
ERJ-6GEYJ301
Yageo
RC0603FR-07200RL
Panasonic-ECG
ERJ-3GEY0R00V
Panasonic-ECG
ERJ-3GEY0R00V
ROHM
Semiconductor
Panasonic-ECG
MCR03EZPFX1002
RES 301 Ω 1/10 W 1% 0603
SMD
RES 0.0 Ω 1/10 W 5% 0603
SMD
0603, not populated
Panasonic-ECG
ERJ-3EKF3010V
ROHM
Semiconductor
MCR03EZPJ000
RES 4.02 Ω 1/10 W 1% 0603
SMD
RES 1.07 kΩ 1/16 W 0.10%
0603 SMD
RES 499 Ω 1/10 W 1% 0603
SMD, not populated
RES 49.9 Ω 1/10 W 1% 0603
SMD
Yageo
RC0603FR-074R02L
Susumu
Company, Ltd.
Panasonic-ECG
RR0816P-1071-B-T504H
ERJ-3EKF4990V
Yageo
RC0603FR-0749R9L
Panasonic-ECG
ERJ-3EKF49R9V
Yageo
RC0603FR-0749R9L
Panasonic-ECG
ERJ-3EKF49R9V
Yageo
RC0603FR-0724R9L
Panasonic-ECG
ERJ-3EKF24R9V
Panasonic-ECG
ERA-6YEB104V
Panasonic-ECG
ERJ-6ENF4121V
Panasonic-ECG
ERA-3YEB512V
Description
RES 60.4 kΩ 1/10 W 1% 0603
SMD
RES 280 Ω 1/10 W 1% 0603
SMD
RES 576 Ω 1/8 W 1% 0805
SMD
RES 300 Ω 1/8 W 5% 0805
SMD
RES 200 Ω 1/10 W 1% 0603
SMD
RES 0 Ω 1/10 W 5% 0603
SMD
RES 0 Ω 1/10 W 5% 0603
SMD, not populated
RES 10.0 kΩ 1/10 W 1% 0603
SMD
RES 49.9 Ω 1/10 W 1% 0603
SMD, not populated
RES 24.9 Ω 1/10 W 1% 0603
SMD
RES 100 kΩ 1/10 W 0.10%
0805 SMD
RES 4.12 kΩ 1/8 W 1% 0805
SMD
RES 5.1 kΩ 1/16 W 0.10%
0603 SMD
Rev. PrA | Page 21 of 24
ERJ-3EKF1002V
Distributor and
Part Number
Digi-Key
P60.4HCT-ND
Digi-Key
P280HCT-ND
Digi-Key
P576CCT-ND
Digi-Key
P300ACT-ND
Digi-Key
311-200HRCT-ND
Digi-Key
P0.0GCT-ND
Digi-Key
P0.0GCT-ND
Digi-Key
RHM10.0KHCT-ND
Digi-Key
P10.0KHCT-ND
Digi-Key
P301HCT-ND
Digi-Key
RHM0.0GKR-ND
Digi-Key
311-4.02HRCT-ND
Digi-Key
RR08P1.07KBCT-ND
Digi-Key
P499HCT-ND
Digi-Key
311-49.9HRCT-ND
Digi-Key
P49.9HCT-ND
Digi-Key
311-49.9HRCT-ND
Digi-Key
P49.9HCT-ND
Digi-Key
311-24.9HRCT-ND
Digi-Key
P24.9HCT-ND
Digi-Key
P100KZCT-ND
Digi-Key
P4.12KCCT-ND
Digi-Key
P5.1KYCT-ND
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Preliminary Technical Data
Description
RES 52.3 Ω 1/10 W 1% 0603
SMD
RES 10 kΩ 1/16 W 0.10%
0603 SMD
RES array 22 Ω 8TERM 4RES
SMD
Manufacturer
Panasonic-ECG
Manufacturer Part
Number
ERJ-3EKF52R3V
Panasonic-ECG
ERA-3YEB103V
CTS
742C083220JPTR
RES array 22 Ω 5% 8 RES
SMD
Switch TACT 6 mm SMD
MOM 160GF
Panasonic-ECG
EXB-2HV220JV
1
RN3, RN4, RN6, RN7, RN8, RN9,
RN11, RN12
S1
B3S-1000
4
0
T1, T2, T3, T4
T5
2
2
T6, T7
TP10, TP12
7
6
TP3, TP4, TP5, TP9, TP11, TP13,
TP21
TP6, TP7, TP8, TP14, TP15, TP16
4
TP2, TP17, TP23, TP24
TC XFMR/SURF mount
TC XFMR/SURF mount, not
populated
RF XFMR/SURF MT
Test point PC compact
0.063"D red
Test point PC compact
0.063" D BLK
Test point PC compact 0.063
D WHT
PC test point miniature SMT
Omron
Electronics, Inc.,
ECB Division
Minicircuits
Minicircuits
4
TP18, TP19, TP20, TP22
1
2
U1
U9, U10
1
2
Qty
2
Reference Designators
R85, R92
1
R93
2
RN5, RN10
8
TC1-1-13M+
TC1-1-13M+
Test point PC compact
0.063" D YLW
DUT
IC buffer/line driver
20-bit 56TSSOP
Minicircuits
Keystone
Electronics
Keystone
Electronics
Keystone
Electronics
Keystone
Electronics
Keystone
Electronics
Analog Devices
Fairchild
Semiconductor
TT1-6-KK81+
5005
TP-104-01-02
5006
TP-104-01-00
5007
TP-104-01-09
5015
TP-108-01
5009
TP-104-01-04
AD9262
74VCX16827MTD
U11
U2, U3
LFCSP24
IC buffer UHS dual OD out
SC70-6
Analog Devices
Fairchild
Semiconductor
ADA4937-2
NC7WZ07P6X
2
U4, U5
IC inverter dual SHMT-T SOT23-6
Texas Instruments
SN74LVC2G14
DBVR
1
1
1
U6
U7
U8
Analog Devices
Analog Devices
Analog Devices
ADR130BUJZ
AD9516-0BCPZ
ADL5382ACPZ
0
Y1
Precision series, ADR130BU
IC-ADI 14-output AD9516-0
IC ADI 700 MHz to 2700 MHz
quadrature
IC clock OSC, 39.3216M, not
populated
Valpey Fisher
VFAC3
Rev. PrA | Page 22 of 24
Distributor and
Part Number
Digi-Key
P52.3HCT-ND
Digi-Key
P10KYCT-ND
Digi-Key
742C083220JPCTND
Digi-Key
Y1220CT-ND
Digi-Key
SW415-ND
Digi-Key
5005K-ND
Digi-Key
5006K-ND
Digi-Key
5007K-ND
Digi-Key
5015KCT-ND
Digi-Key
5009K-ND
Mouser
512-74VCX16827
MTD
Mouser
512-NC7WZ 07P6X
Digi-Key
NC7WZ07P6XCT-ND
Mouser
595-SN74LVC
2G14 DBVR
Digi-Key
296-13010-1-ND
Preliminary Technical Data
ESD CAUTION
ORDERING GUIDE
Model
TBD
TBD
TBD
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
Description
TBD
TBD
TBD
Rev. PrA | Page 23 of 24
AD9262EBZ/AD9262-5EBZ/AD9262-10EBZ
NOTES
Rev. PrA | Page 24 of 24
Preliminary Technical Data