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FEATURES GENERAL DESCRIPTION
FEATURES
GENERAL DESCRIPTION
Full featured evaluation board for the AD5222
Various test circuits
Various ac and dc input signals
PC control via a separately purchased system demonstration
platform (SDP-B)
PC software for control
This user guide describes the evaluation board for evaluating
the AD5222—a dual-channel, 128-position, digital potentiometer
The AD5222 supports single-supply 2.7 V to 5.5 V operation,
making the device suited for battery-powered applications and
many other applications while offering a 0.2% channel-tochannel matching tolerance.
PACKAGE CONTENTS
In addition, the AD5222 uses a high speed up/down interface,
allowing speeds of up to 15 MHz.
EVAL-AD5222SDZ board
CD that includes
Self-installing software that allows users to control the
board and exercise all functions of the device
Electronic version of the AD5222 data sheet
Electronic version of the UG-349 user guide
The EVAL-AD5222SDZ can operate in single-supply mode and
incorporates an internal power supply from the USB.
Complete specifications for the AD5222 part can be found in
the AD5222 data sheet, which is available from Analog Devices,
Inc., and should be consulted in conjunction with this user
guide when using the evaluation board.
DIGITAL PICTURE OF EVALUATION BOARD WITH SYSTEM DEMONSTRATION PLATFORM
SYSTEM DEMONSTRATION
PLATFORM
10367-001
EVAL-AD5222SDZ
Figure 1.
www.BDTIC.com/ADI
TABLE OF CONTENTS
Features .............................................................................................. 1
Test Circuits ...................................................................................4
Package Contents .............................................................................. 1
Evaluation Board Software ...............................................................6
General Description ......................................................................... 1
Installing the Software ..................................................................6
Digital Picture of Evaluation Board with System
Demonstration Platform.................................................................. 1
Running the Software ...................................................................6
Revision History ............................................................................... 2
Evaluation Board Schematics and Artwork ...................................7
Evaluation Board Hardware ............................................................ 3
Ordering Information .................................................................... 13
Power Supplies .............................................................................. 3
Bill of Materials ........................................................................... 13
Link Options ................................................................................. 3
Related Links ................................................................................... 14
Software Operation .......................................................................6
REVISION HISTORY
12/11—Revision 0: Initial Version
www.BDTIC.com/ADI
EVALUATION BOARD HARDWARE
POWER SUPPLIES
LINK OPTIONS
The EVAL-AD5222SDZ supports using single power supplies.
All supplies are decoupled to ground using 10 µF tantalum and
0.1 µF ceramic capacitors.
Several link and switch options are incorporated in the
evaluation board and should be set up before using the board.
Table 2 describes the positions of the links to control the
evaluation board by a PC, via the SDP-B board, using the
EVAL-AD5222SDZ in single-supply mode. The functions of
these link options are described in detail in Table 3 through
Table 6.
Table 1. Maximum and Minimum Voltages of the Connectors
Table 2. Link Options Setup for SDP-B Control (Default)
The evaluation board can be powered either from the SDP port
or externally by the J1-1 and J1-2 connectors, as described in
Table 1.
Connector No.
J1-1
Label
EXT
VDD
J1-2
GND
Voltage
Analog positive power supply, VDD.
For single-supply operation, it is 2.7 V
to 5 V.
Analog ground.
Link No.
A25
A24
Option
3.3 V
GND
Table 3. Link Functions
Link No.
A25
Power Supply
VDD
A24
VSS
Options
This link selects one of the following as the positive power supply:
5 V (from SDP-B).
3.3 V (from SDP-B).
EXT (external supply from the J1-1 connector).
This link should be connected to GND (analog ground).
www.BDTIC.com/ADI
UG-349
EVAL-AD5222SDZ User Guide
TEST CIRCUITS
1µF
The EVAL-AD5222SDZ incorporates several test circuits to
evaluate the AD5222 performance.
VDD – VSS
2
AC
AC_INPUT
R34 A1
DAC
RDAC1
RDAC1 can be operated as a digital-to-analog converter (DAC),
as shown in Figure 2.
W1
B1
AC + DC
B1
R34 A1
W1
A1
W1
Depending on the voltage supply rails and the dc offset voltage
of the ac signal, various configurations can be used as described
in Table 5.
R35
Table 5. AC Signal Attenuation Link Options
Table 4 shows the options available for the voltage references.
Link
A20
Options
AC + DC
A21
AC
DC
GND
Table 4. DAC Voltage References
Options
AC + DC
VDD
BUF_W1
B1
A21
DC
GND
Description
Connects Terminal A1 to
(VDD − VSS)/2
Connects Terminal A1 to VDD
Connects Terminal W1 to an
output buffer
Connects Terminal B1 to
(VDD − VSS)/2
Connects Terminal B1 to
analog ground
The output voltage is defined in Equation 1.
VOUT  (VA1  VB1 ) 
R35
Figure 3. AC Signal Attenuator
Figure 2. DAC
W1
GND
B1
GND
Link
A20
DC
2
W1_BUF
10367-002
2
DC
VDD – VSS
BUF_W1
B1
VDD – VSS
W1_BUF
BUF_W1
R36
VDD
RDAC1
Terminal
A1
W1
A1
10367-003
VDD – VSS
2
VDD
AC + DC
RWB1
128
(1)
where:
RWB1 is the resistor between the W1 and B1 terminals.
VA1 is the voltage applied to the A1 terminal (A20 link).
VB1 is the voltage applied to the B1 terminal (A21 link).
However, by using the R34 and R35 external resistors, the user
can reduce the voltage of the voltage references. In this case, use
the A1 and B1 test points to measure the voltage applied to the
A1 and B1 terminals and recalculate VA1 and VB1 in Equation 1.
1
Conditions
No dc offset voltage.
AC signal is outside the voltage supply rails
due to the dc offset voltage.
DC offset voltage ≠ VDD/2.1
All other conditions.
Use in conjunction with ac + dc link.
All other conditions.
Recommended to ensure optimal total harmonic distortion (THD) performance.
The signal attenuation is defined in Equation 2.
 R R
Attenuation (dB)  20  log  WB1 W
 R END TO  END




where:
RWB1 is the resistor between the W1 and B1 terminals.
RW is the wiper resistance.
REND-TO-END is the end-to-end resistance value.
In addition, R36 can be used to achieve a pseudologarithmic
attenuation. To do so, adjust the R36 resistor until a desirable
transfer function is found.
AC Signal Attenuation
RDAC1 can be used to attenuate an ac signal, which must be
provided externally using the AC_INPUT connector, as shown
in Figure 3.
Rev. 0 | Page 4 of 16
www.BDTIC.com/ADI
(2)
R41
1.7kΩ
Signal Amplifier
VIN
RDAC2 can be operated as an inverting or noninverting signal
amplifier supporting linear or pseudologarithmic gains. Table 6
shows the available configurations.
VOUT
R43
R42
RDAC2
G=−
RWB2
R38
(5)
where RWB2 is the resistor between the W2 and B2 terminals.
Figure 4. Linear Noninverting Amplifier
R41
1.7kΩ
The noninverting amplifier with pseudologarithmic gain is
shown in Figure 5, and the gain is defined in Equation 4.
G = 1+
VIN
R38
2.7kΩ
VOUT
C1
10nF
W2
RWB2
R AW2
OAVOUT
(4)
B2
W2
B2
where:
RWB2 is the resistor between the W2 and B2 terminals.
RAW2 is the resistor between the A2 and W2 terminals.
R42
10367-006
B2
Note that the input signal, VIN, must be negative.
OAVOUT
10367-004
B2
W2
R42
The inverting amplifier with linear gain is shown in Figure 6,
and the gain is defined in Equation 5.
VOUT
W2
B2
R43 and R42 can be used to set the maximum and minimum
gain limits.
R41
1.7kΩ
C1
10nF
W2
B2
RDAC2
(3)
R38
2.7kΩ
A2
Figure 5. Pseudologarithmic Noninverting Amplifier
where RWB2 is the resistor between the W2 and B2 terminals.
VIN
A2
OAVOUT
10367-005
W2
The noninverting amplifier with linear gain is shown in Figure 4,
and the gain is defined in Equation 3.
R
G = 1 + WB2
R38
C1
10nF
RDAC2
Figure 6. Linear Inverting Amplifier
Table 6. Amplifier Selection Link Options
Amplifier
Noninverting
Gain
Linear
Pseudologarithmic
Inverting
1
Linear
Link
A27
A29
A30
A27
A29
A30
A27
A29
A30
Label1
LINEAR
NON-INVERTING
NON-INVERTING
PSEUDOLOG
NON-INVERTING
NON-INVERTING
LINEAR
INVERTING
INVERTING
See Figure 14.
www.BDTIC.com/ADI
VIN Range
0 V to VDD
0 V to VDD
−VDD to 0 V
EVALUATION BOARD SOFTWARE
INSTALLING THE SOFTWARE
The EVAL-AD5222SDZ evaluation kit includes evaluation
board software provided on a CD. The software is compatible
with Windows® XP, Windows Vista, and Windows 7 (both
32-bit and 64-bit).
1.
2.
3.
4.
5.
Start the Windows operating system and insert the CD.
The installation software opens automatically. If it does
not, run the setup.exe file from the CD.
After installation is completed, power up the evaluation
board as described in the Power Supplies section.
Connect the EVAL-AD5222SDZ to the SDP-B board and the
SDP-B board to the PC using the USB cable included in the
evaluation kit.
When the software detects the evaluation board, follow the
instructions that appear to finalize the installation.
To uninstall the program, click Start > Control Panel > Add or
Remove Programs > AD5222 Eval Board.
RUNNING THE SOFTWARE
The main window of the EVAL-AD5222SDZ software then
opens, as shown in Figure 8.
SOFTWARE OPERATION
The main window of the EVAL-AD5222SDZ software is
divided into the following sections: RDAC1 and RDAC2.
The features of the main window are as follows:
•
Click Start > All Programs > Analog Devices > AD5222
> AD5222 Eval Board.
If the SDP-B board is not connected to the USB port when
the software is launched, a connectivity error displays (see
Figure 7). Simply connect the evaluation board to the USB
port of the PC, wait a few seconds, click Rescan, and follow
the instructions.
•
RDAC1 and RDAC2 can be used to update the RDAC
registers by typing the desired number of steps and clicking
UP or DOWN.
INDEPENDENT MODE ENABLE allows you to update
each RDAC register independently.
Clicking EXIT closes the program but does not reset the
part.
10367-010
2.
Figure 7. Pop-Up Window Error
•
To run the program, do the following:
1.
10367-009
Install the software before connecting the SDP-B board to the USB
port of the PC to ensure that the SDP-B board is recognized
when it is connected to the PC.
Figure 8. EVAL-AD5222SDZ Software Main Window
www.BDTIC.com/ADI
A1
A1
www.BDTIC.com/ADI
Rev. 0 | Page 7 of 16
Figure 9. Schematic of Multiboard Digital Potentiometers
B4
W4-3
A4
B3
W3-3
A3
B2
W2-3
A2
B1
W1-3
A1
B4
W4-2
A4
B3
W3-2
A3
B2
W2-2
A2
B1
W1-2
B4
W4-1
A4
B3
W3-1
A3
B2
W2-1
A2
B1
W1-1
VDD
16
DGND 9
13
14
2
14 W3
12
22 A4
16 B4
17 W4
VSS
GND
WP
6
5
20
18 A4
22
3
2
4
23
24
1
19
RESET 21
SYNC
DIN
SCLK
SDO
RDY
O2
O1
VDD
AD5233
13 B3
14 W3
15 A3
12 B2
11 W2
10 A2
9 B1
8 W1
U4
7 A1
11
24 B4
VSS
GND 3
23 W4
NC
NC 1
13 B3
NC
SHDN 7
15 A3
RESET
5
VSS
VDD
VSS
10
20 W2
SDO
DIN 8
19 A2
21 B2
SCLK
SCLK 9
16 B1
WP
RESET
SYNC-3
DIN
SCLK
SDO
RDY
O2
O1
SHDN
RESET
SDO
DIN
SYNC-2
SYNC 4
17 W1
VDD
SYNC-1
DIN
SDO
SCLK
RESET
SHDN
AD5204
VDD 6
SYNC
11
DIN 12
SDO
SCLK
VDD
U8
18 A1
6 B4
5
AGND4
8 W4
7 A4
20 B3
17
AGND3
18 W3
19 A3
SHDN 10
2 B2
1 AGND2
15
RESET
4 W2
3 A2
24 B1
21 AGND1
22 W1
U6
23 A1
AD8403
A1
A1
B2
W2-7
A2
B1
W1-7
A1
V2
V1
B2
W2-6
B1
W1-6
B2
W2-5
A2
B1
B2
W2-4
B1
W1-4
W1-5
SPI
W1
A1
W1
9
10
11
4
GND 5
VSS
W1
A1
B2
W2
A2
16
3
2
1
15
16
3
2
1
15
4
GND 5
VSS
13
WP 14
RESET
RDY
SDO
DIN
SCLK
SYNC
U11 VDD 12
4
GND 5
VSS
13
WP 14
RESET
RDY
SDO
DIN
SCLK
SYNC
U12 VDD 12
AD5235
V2
V1
B2
W2
8 B1
7
6
11
6
9
10
16
3
2
1
15
12
4
13
WP 14
RESET
ADN2850
B2
W2
A2
8 B1
7
9
10
11
RDY
SDO
DIN
SCLK
SYNC
U10 VDD
GND
SYNC 8
7
DIN 6
SCLK
AD5232
B2
W2
B1
W1
U2 VDD 5
AD5162
A1
8 B1
7
6
9
3
1
10
2
VSS
VDD
VSS
VDD
VSS
VDD
VDD
WP
RESET
RDY
SDO
DIN
SCLK
SYNC-7
WP
RESET
RDY
SDO
DIN
SCLK
SYNC-6
WP
RESET
RDY
SDO
DIN
SCLK
SYNC-5
SYNC-4
DIN
SCLK
B2
W2-9
A2
B1
W1-9
A1
B4
W4-8
A4
B3
W3-8
A3
B2
W2-8
A2
B1
W1-8
A1
13
14
12
5
4
6
18 B4
B3
W3
A3
B1
0x58
20
15
10
DGND 8
VSS
3
WP 11
AD1 2
AD0
9
SCL 7
SDA
0x5A
U9 VDD 1
VSS 10
DGND
WP
5
AD0 4
AD1 16
SDA 9
14
SCL
VDD
AD5254
AD5252
W1
A1
19 W4
17 A4
12 B3
13 W3
11 A3
7 B2
6 W2
8 A2
2 B1
1 W1
U7
3 A1
MULTICHANNEL
VSS
VDD
VSS
WP
SDA
SCL
VDD
I2C
WP
SCL
SDA
VDD
B2
W2-11
A2
B1
W1-11
A1
B2
W2-10
A2
B1
W1-10
A1
B1
W1
B1
9
3
B2
W2
U1
AD5243
W1
A1
B2
W2
8 A2
1
10
2
9
3
8 A2
1
10
4
6
7
GND
SCL
SDA
VDD
4
6
7
5
0x5E
GND
SCL
SDA
0x5E
AD5172_SOCKET
2
U3 VDD 5
A1
VDD
SCL
SDA
VDD
SCL
SDA
B2
W2-12
A2
B1
W1-12
A1
7
5
6
1
3
2
B2
W2
A2
B1
W1
A1
GND 8
4
VSS
CS
CLK
U/D
DACSEL
MODE
VDD
VSS
13
12
11
10
9
U5 VDD 14
AD5222
U/D
CS
CLK
U/D
DACSEL
MODE
EVAL-AD5222SDZ User Guide
UG-349
EVALUATION BOARD SCHEMATICS AND ARTWORK
10367-011
VDD
8
U15-C
V+
V4
VDD
VSS
R39
AC_INPUT
A1
C3
A20
A
U15-A
3
+
2
1
B
C
-
R40
VDD
AC + DC
AC
R34
A1
AD8652AR
VSS
DAC + FLOATING DAC + BW
W1-1
W1-2
W1-3
W1-4
W1-5
W1-6
W1-7
W1-8
W1-9
W1-10
W1-11
W1-12
AD8403-1
W1_BUF
BUF-W1
AD5204-1
3 +
1
U14-A
2
AD8618ARZ
AD5233-1
W1
AD5162-1
AD5232-1
ADN2850-1
W1
AD5235-1
R36
AD5254-1
PSEUDOLOG ATTENUATOR
AD5252-1
AD5172
AD5243-1
B1
AD5222-1
A21
A
VDD
B1
R35
B1
B
R3
C
VSS
AD8652AR
6
-
5
7
+
U15-B
10367-012
R4
VSS
Figure 10. Schematic of Multiboard RDAC0 Circuits
INVERTING AND NON-INVERTING WITH LINEAR AND PSEUDO-LOG GAIN
W2-11
W2-12
B
A
A30
NON-INVERTING
W2
B2
ADN2850 -2
A2
VIN
AD5235 -2
J2-1
W2
AD5254 -2
AD5252 -2
AD5172 -2
GND
AD5243 -2
PSEUDOLOG
INVERTING
NON-INVERTING
LINEAR
DIGIPOT
B2
CIRCUIT CONNE CTION
OAVOU T
5 +
7
6 U14-B
AD8618ARZ
R42
R43
A2
C1
R38
J2-2
AD5322 -2
Figure 11. Schematic of Multiboard RDAC1 Circuits
www.BDTIC.com/ADI
10367-013
W2-10
AD5232 -2
B
W2-8
W2-9
R41
A
W2-7
W2
AD5162 -2
A27
W2-5
W2-6
AD5233 -2
B
W2-4
VOU T
INVERTING
AD5204 -2
A
W2-2
W2-3
AD8403 -2
A29
W2-1
Figure 12. Schematic of AD5222 Power Supplies and Other Channels
www.BDTIC.com/ADI
W3-8
W3-3
W3-2
W3-1
AD8403-4
AD5254-4
AD5233-4
AD5204-4
AD5254-3
AD5233-3
AD5204-3
AD8403-3
W4-8
W4-3
W4-2
W4-1
W3
W4
BUF-3
BUF-4
A3
B4
A4
B3
10 +
8
U14-C
9
AD8618ARZ
12 +
14
U14-D
13
AD8618ARZ
CHANNELS 3 AND 4
B3
VOUT3
A3
B4
VOUT4
A4
O1
O2
O2
O1
DIGITAL PINS
+3.3V +5V
GND
EXT VSS
GND
B
A
A24
+
V1
V2
V2
V1
+
10uF
C27
C24
10uF
C26
0.1uF
C25
0.1uF
POWER-SUPPLIES
CURRENT MONITOR
J1-3
J1-2
A25
EXT VDD
A
J1-1
+5V
B
+3.3V
C
POWER-SUPPLY
C4
0.1uF
C2
0.1uF
VSS
VDD
10367-014
+3.3V
24LC01
1
A0
2
A1
3
A2
4
VSS
D6
LED
U25
8
VCC
7
WP
6
SCL
5
SDA
1K
R37
www.BDTIC.com/ADI
Rev. 0 | Page 10 of 16
RESET_BF
SHDN_BF
MUX-A0|CS
MUX-A2|U/D
SCL_BF
SDA_BF
DIN_BF
SCLK_BF
SYNC_BF
+5V
+3.3V
J22
114
113
9
112
10
111
71
70
68
67
66
65
64
61
62
Figure 13. Schematic of SDP-B Connector
I2C
FUTURE USE
BLACKFIN
CONTROL
UART
TIMERS
INPUT/OUTPUT
GENERAL
SPI
90
31
91
92
35
TMR_A
PAR_D23
PAR_D21
SPORT_DR3
SPORT_DR2
SPORT_DT2
SPORT_DT3
TMR_C
FUTURE
FUTURE
FUTURE
FUTURE
FUTURE
FUTURE
FUTURE
RESET_IN
UART_RX
7
8
29
30
33
34
49
50
51
53
54
55
56
57
60
59
48
43
GPIO0
44
GPIO2
45
GPIO4
47
GPIO6
41
SDA_1
42
SCL_1
37
SPI_SEL_B
38
SPI_SEL_C
39
SPI_SEL1/_SS
BLACKFIN-DB_FEMALE_CONNECTOR_2
PAR_D22
PAR_D20
PAR_D19
PAR_D18
PAR_D17
PAR_D16
FUTURE
FUTURE
FUTURE
FUTURE
FUTURE
FUTURE
FUTURE
BMODE1
UART_TX
73
TMR_B
72
TMR_D
78
GPIO1
77
GPIO3
76
GPIO5
74
GPIO7
80
SDA_0-EEPROM
79
SCL_0-EEPROM
85
SPI_SEL_A
84
SPI_MOSI
83
SPI_MISO
82
SPI_CLK
SPORT_RFS
SPORT_DR1
SPORT_DR0
SPORT_RSCLK
SPORT_INT
26
PAR_FS3
27
PAR_FS1
89
SPORT_TFS
32
SPORT_DT1
88
SPORT_DTO
87
SPORT_TSCLK
24
PAR_A3
25
PAR_A1
95
PAR_FS2
94
PAR_CLK
12
13
14
15
16
18
19
20
1
2
3
4
5
6
11
17
23
28
36
40
46
52
58
97
PAR_A2
96
PAR_A0
SPORT
PORT
PARALLEL
PAR_D14
PAR_D13
PAR_D11
PAR_D9
PAR_D7
PAR_D5
PAR_D3
PAR_D1
VIN_4-12V
N/C
GND
GND
5V_USB
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
21
PAR_RD
22
PAR_CS
PAR_D15
PAR_D12
PAR_D10
PAR_D8
PAR_D6
PAR_D4
PAR_D2
PAR_D0
7V_UNREGOUT
7V_UNREGOUT
GND
GND
V_IO(3.3V)
GND
GND
POWER SUPPLY
GND
GND
GND
GND
GND
GND
GND
GND
100
PAR_WR
99
PAR_INT
110
108
107
106
105
103
102
101
120
119
118
117
116
115
109
104
98
93
86
81
75
69
63
SDP BOARD CONNECTOR AND EEPROM
RDY|MODE
WP_BF
CLK_BF
MUX-A1|DACSEL
SDO_BF
+5V
A23
SYNC
RDY|MODE
CLK
MUX-A2|U/D
VDD
A8
A7
A6
A5
MUX-A1|DACSEL
MUX-A0|CS
MUX-A1|DACSEL
MUX-A2|U/D
RDY|MODE
CLK_BF
MUX-A2|U/D
MUX-A1|DACSEL
MUX-A0|CS
MUX-A0|CS
D
VDD
ADG658
7
8
VSS
GND
11
10 A0
A1
9
A2
6
EN
3
16
WP_BF
SYNC_BF
SDO_BF
DIN_BF
S8
S7
S6
S5
S4
S3
S2
S1
A22
4
2
5
1
12
15
14
13
MUX - CS
WP_BF
SYNC_BF
SDO_BF
DIN_BF
SCLK_BF
SCLK_BF
A11
A10
A12
A13
A9
SYNC-7
SYNC-6
SYNC-5
SYNC-4
SYNC-3
SYNC-2
SYNC-1
RESET_BF
SHDN_BF
SCL_BF
SDA_BF
EXTERNAL CONTROL CONNECTION
RDY_BF
SDO_BF
RESET_BF
SHDN_BF
SCL_BF
SDA_BF
A16
A17
A18
A14
SYNC_BF
RESET_BF
WP_BF
SHDN_BF
SCLK_BF
DIN_BF
R1
2k2
+3.3V
VDD
DGND
31
32
35
36
37
38
39
40
1
2
3
4
5
6
7
8
9
10
BE1
BE2
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
B0
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
B12
B13
B14
B15
SEL
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
34
U13 ADG3247-CSP
11
33
GND VCC
+3.3V
VSS
+3V3
LEVEL TRANSLATOR
SDA_BF
SCL_BF
MUX-A0|CS
MUX-A1|DACSEL
MUX-A2|U/D
RDY|MODE
CLK_BF
R2
2k2
+3.3V
VDD
AGND
VSS
+5V
SCLK
DIN
SDO
SYNC
RESET
WP
SHDN
RDY
SDA
SCL
CS
DACSEL
U/D
MODE
CLK
+5V
TEST POINTS
UG-349
EVAL-AD5222SDZ User Guide
10367-015
10367-016
10367-017
Figure 14. Component Side View
10367-018
Figure 15. Component Placement Drawing
Figure 16. Layer 2 Side PCB Drawing
www.BDTIC.com/ADI
10367-019
10367-020
Figure 17. Layer 3 Side PCB Drawing
Figure 18. Solder Side PCB Drawing
www.BDTIC.com/ADI
ORDERING INFORMATION
BILL OF MATERIALS
Table 7.
Qty
1
4
1
2
1
1
1
1
4
3
4
1
2
5
40
1
Reference Designator
C1
C2, C4, C25, C26
C3
C24, C27
D6
J1
J2
J22
A20, A21, A24, A25
A27, A29, A30
BUF-W1, OAVOUT, BUF-3, BUF-4
R41
R1, R2
R3, R4, R38, R39, R40
AD5162-1, AD5162-2, AD5222-1, AD5222-2,
AD5204-1, AD5204-2, AD5204-3, AD5204-4,
AD5222-1, AD5222-2, AD5232-1, AD5232-2,
AD5233-1, AD5233-2, AD5233-3, AD5233-4,
AD5235-1, AD5235-2, AD5243-1, AD5243-2,
AD5252-1, AD5252-2, AD5222-1, AD5222-2,
AD5222-3, AD5222-4, AD5222-1, AD5222-2,
AD5222-3, AD5222-4, ADN2850-1,
ADN2850-2, R34, R35, R42, R43
R37
3.3 V, 5 V, DGND, AGND, VDD, VSS
A1, A2, A3, A4, RDY|MODE, RESET_BF,
SCL_BF, SCLK_BF, SDA_BF, SDO_BF,
SHDN_BF, SYNC_BF, MUX-A0|CS, MUXA1|DACSEL MUX-A2|U/D, O1, O2, DIN_BF,
CLK, B1, B2, B3, B4, V1, V2, VOUT, VOUT2,
VOUT3, VOUT4, W1, W1_BUF, W2, W3, W4,
WP_BUF
U1
1
U2
1
U3
1
U4
1
1
1
U5
U6
U7
1
1
U8
U9
1
U10
1
U11
1
6
34
Description
10 nF capacitor, 0805
0.1 µF capacitor, 0603
1 µF capacitor, 0402
10 µF capacitor, 1206
LED, green
3-pin connector
2-pin connector
Receptacle, 0.6 mm, 120-way
Header 2-row, 36 + 36 way and jumper socket, black
Header 1-row, 3-way and jumper socket, black
Header 1-row, 2-way and jumper socket, black
1.78 kΩ resistor, 0603, 1%
2.2 kΩ resistor, 0603, 1%
2.7 kΩ resistor, 1206, 1%
0 Ω resistor, 0603
Supplier 1/Part Number
FEC 1692285
FEC 138-2224
FEC 1288253
FEC 1611967
FEC 579-0852
FEC 151790
FEC 151789
Digi-Key H1219-ND
FEC 148-535 and FEC 150-410
FEC 102-2248 and FEC 150-410
FEC 102-2247 and FEC 150-410
FEC 1170811
FEC 933-0810
FEC 9337288
FEC 9331662
1 kΩ resistor, 0603, 1%
Test point, PCB, black, PK100
Test point, PCB, red, PK100
FEC 933-0380
FEC 873-1128
FEC 873-1144
256-position, dual-channel, I2C-compatible digital
potentiometer
256-position, dual-channel, SPI digital
potentiometer
256-position, one-time programmable, dualchannel, I2C digital potentiometer
Nonvolatile, quad, 64-position digital
potentiometer
Dual, increment/decrement digital potentiometer
4-channel digital potentiometer
Quad, 256-position, I2C, nonvolatile memory digital
potentiometer
4-channel digital potentiometer
I2C, nonvolatile memory, dual, 256-position digital
potentiometer
Nonvolatile memory, dual, 256-position digital
potentiometer
Dual, 1024-position digital potentiometer with
nonvolatile memory and SPI interface
Analog Devices AD5243
www.BDTIC.com/ADI
Analog Devices AD5162
Analog Devices AD5172
Analog Devices AD5233
Analog Devices AD5222
Analog Devices AD8403
Analog Devices AD5254
Analog Devices AD5204
Analog Devices AD5252
Analog Devices AD5232
Analog Devices AD5235
Qty
1
Reference Designator
U12
1
U13
1
U14
1
U15
1
1
U25
A22
1
Description
Dual, 1024-position digital rheostat with
nonvolatile memory and SPI interface
2.5 V/3.3 V, 16-bit (dual 8-bit), two-port level
translator bus switch
Precision, 20 MHz, CMOS, quad, rail-to-rail
operational amplifier
50 MHz, precision, low distortion, low noise CMOS
amplifier
24LC64 EEPROM
3 V/5 V, ± 5 V CMOS, 8-channel analog multiplexer
FEC refers to Farnell Electronic Component Distributors; Digi-Key refers to Digi-Key Corporation.
RELATED LINKS
Resource
AD5243
AD5162
AD5233
AD5222
AD8403
AD5254
AD5204
AD5252
AD5232
AD5235
ADN2850
ADG3247
ADG658
AD8652
AD8618
Description
Product Page, 256-Position Dual-Channel I2C Compatible Digital Potentiometer
Product Page, 256-Position Dual-Channel SPI Digital Potentiometer
Product Page, Nonvolatile, Quad, 64-Position Digital Potentiometer
Product Page, Dual, Increment/Decrement Digital Potentiometer
Product Page, 4-Channel Digital Potentiometer
Product Page, Quad 256-Position I2C Nonvolatile Memory, Digital Potentiometer
Product Page, 4-Channel Digital Potentiometer
Product Page, I2C, Nonvolatile Memory, Dual 256-Position Digital Potentiometer
Product Page, Nonvolatile Memory, Dual, 256-Position Digital Potentiometer
Product Page, Nonvolatile Memory, Dual 1024-Position Digital Potentiometer
Product Page, Nonvolatile Memory, Dual 1024-Position Digital Resistor
Product Page, 2.5 V/3.3 V, 16-Bit (Dual 8-Bit), 2-Port Level Translator, Bus Switch
Product Page, 3 V/5 V ± 5 V CMOS 8-Channel Analog Multiplexer
Product Page, 50 MHz, Precision, Low Distortion, Low Noise CMOS Amplifier
Product Page, Precision 20 MHz CMOS Quad Rail-to-Rail Operational Amplifier
www.BDTIC.com/ADI
Supplier 1/Part Number
Analog Devices ADN2850
Analog Devices ADG3247
Analog Devices AD8618
Analog Devices AD8652
FEC 975-8070
Analog Devices ADG658
NOTES
www.BDTIC.com/ADI
UG-349
EVAL-AD5222SDZ User Guide
NOTES
I2C refers to a communications protocol originally developed by Philips Semiconductors (now NXP Semiconductors).
ESD Caution
ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection
circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.
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temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided
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©2011 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
UG10367-0-12/11(0)
Rev. 0 | Page 16 of 16
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