EVAL-ADuCM350EBZ User Guide
UG-668
One Technology Way • P. O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com
Evaluating the ADuCM350 16-Bit, Precision, Low Power Meter-on-a-Chip
PLEASE SEE THE LAST PAGE FOR AN IMPORTANT
WARNING AND LEGAL TERMS AND CONDITIONS. Rev. A | Page 1 of 28
FEATURES
ADuCM350 motherboard
Selection of daughter boards for analog front end and
platform validation
3 power supply options: 2.5 V to 3.6 V from an external
power supply, 5 V from interface/emulator board, or
CR2032 battery connection
Interface options
UART and serial wire through 8-pin J-Link OB connector
Trace capability
Power indicator/general-purpose LEDs
Reset, download, and external interrupt push-buttons
Supercapacitor and thermistor capability
USB connectivity
8-pin connector to the interface/emulator board
Access to ADuCM350 platform pins through Digital Header 1,
Digital Header2, and CapTouch header
32.768 kHz external crystal and 16 MHz external crystal
EVALUATION KIT CONTENTS
EVAL-ADuCM350EBZ board
USB-SWD/UART-EMUZ, also known as J-Link OB emulator
AFE daughter boards: ADuCM350 switch mux configuration
board, ADuCM350 4-wire bio Configuration 2 board
ADuCM350 breakout board
ADuCM350 GPIO test header board
USB cable
ADDITIONAL EQUIPMENT AND SOFTWARE NEEDED
Evaluation software for the ADuCM350 (download from the
ADuCM350 design resources page)
Extra peripheral boards available for order: Ev-ADuCM350AUDZ,
Ev-ADuCM350DISZ
See the ADuCM350 design resources page for more details
SYSTEM REQUIREMENTS
Minimum requirement to run examples and applications
PC with USB 2.0 controller connection and 1 free COM port
Windows XP SP3 or later, Windows Vista, or Windows 7 or later
ONLINE RESOURCES
Documents Needed
ADuCM350 data sheet
ADuCM350 hardware reference manual
AN-1262, AN-1263, AN-1271, AN-1281, AN-1286,
AN-1293, AN-1302 application notes
ADuCM350 software development kit quick start guide
(UG-677)
Required Software
ADuCM350 software development kit (firmware/debug
environment)
IAR Embedded Workbench for ARM (from Version 7.10+)
ADuCM350 evaluation kit software platform (GUI software)
Design and Integration Files
Schematics, layout files, bill of materials
TYPICAL SETUP
Figure 1. Typical Setup (USB-SWD/UART-EMUZ on Left and EVAL-ADuCM350EBZ on Right)
PERIPHERALS
CONNECTOR
2
PERIPHERALS
CONNECTOR
1
CapTouch
CONNECTOR
USB
CR2032 EXTERNAL
SUPPLY SUPPLY
TRACE
USB-SWD/UART-EMUZ
AFE
DAUGHTER
BOARD
12104-001
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 2 of 28
TABLE OF CONTENTS
Features .............................................................................................. 1
Evaluation Kit Contents ................................................................... 1
Additional Equipment and Software Needed ................................... 1
System Requirements ....................................................................... 1
Online Resources .............................................................................. 1
Typical Setup ..................................................................................... 1
Revision History ............................................................................... 2
General Description ......................................................................... 3
Getting Started .................................................................................. 4
Software Installation Procedures ................................................ 4
Evaluation Board Setup Procedures ........................................... 4
Evaluation Board Hardware ............................................................ 5
Power Supplies .............................................................................. 5
Jumper Settings ..................................................................................6
Evaluation Board Circuitry ..............................................................7
J-Link OB Emulator ......................................................................7
Digital Header Pad Lookup Table ...............................................8
ADuCM350 Motherboard Schematics ...........................................9
ADuCM350 Daughter Board Schematics ................................... 16
ADuCM350 Switch Mux Configuration Board ..................... 16
ADuCM350 4-Wire Bio Configuration 2 Board ................... 18
Audio Daughter Board Reference Schematics ....................... 20
Display Board Reference Schematics ....................................... 22
Breakout Board Pin Connections ............................................ 25
GPIO Test Header Board........................................................... 26
Limitations on Use and Liability .................................................. 28
REVISION HISTORY
1/2018—Rev. 0 to Rev. A
Added Limitations on Use and Liability Section ........................ 28
5/2014—Revision 0: Initial Version
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 3 of 28
GENERAL DESCRIPTION
The ADuCM350 is a 16 MHz ARM® Cortex-M3 processor with
a high precision AFE specifically designed for high precision
data acquisition.
The ADuCM350 has a 16-bit precision analog core with four
dedicated voltage measurement channels and up to eight current
measurement channels. It has an integrated complex impedance
measurement system and uses an integrated parameterizable
waveform generator to generate complex waveforms. It uses an
excitation amplifier control loop to perform accurate potentiostat
type measurements and has a highly configurable switch matrix
that allows application specific amplifier configuration.
The device has a large array of peripherals, including USB,
CapTouch®, display, audio, and an array of serial interfaces
and GPIOs.
The ADuCM350 includes 384 kB of flash, 32 kB of SRAM, and
16 kB of flash configured as EEPROM.
The E VA L -ADuCM350EBZ kit provides scientists, system
analyzers, and software developers a platform to migrate from
sensor investigation and analysis to full ecosystem development.
The evaluation kit consists of an ADuCM350 motherboard and a
selection of analog front end and digital peripheral daughter boards.
The evaluation kit is designed specifically to work with the
ADuCM350 software development kit (SDK) and the evaluation
kit support package (EKSP)—both of which are available for
download on the ADuCM350 design resources page.
The software development kit is designed to work with the IAR
debugging environment only. The user guide for the ADuCM350
SDK is available on the SDK installer.
An example of where the kit is downloaded follows: C:\Analog
Devices\ADuCM350BBCZ\Eval-ADUCM350EBZ\doc
The SDK quick start guide and the EKSP user guide are available in
the Support Documentation zipped folder.
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 4 of 28
GETTING STARTED
SOFTWARE INSTALLATION PROCEDURES
For software installation procedures, refer to the following
ADuCM350 software documentation for further details:
• For more information about the EKSP LabVIEW® GUI,
refer to the EKSP user guide (ADuCM350_Evaluation_Kit_
Software_Platform.pdf) within the Documentation
folder of the software development kit.
• For more information about the SDK firmware/debug
environment, refer to SDK user guide (ADuCM350BBCZ_
Software_Users_Guide.pdf) within the Documentation
folder of the software development kit and to the ADuCM350
software development kit quick start guide, UG-677.
EVALUATION BOARD SETUP PROCEDURES
1. Plug the ADuCM350 switch mux configuration board into
the ADuCM350 evaluation board, E VA L -ADuCM350EBZ.
2. Plug the USB-SWD/UART-EMUZ board into J14 on the
ADuCM350 evaluation board, E VA L -ADuCM350EBZ.
3. Plug the USB cable into the USB-SWD/UART-EMUZ board.
After the drivers are downloaded, you can begin communicating
with the board.
Figure 2. EVAL-ADuCM350EBZ Setup
12104-003
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 5 of 28
EVALUATION BOARD HARDWARE
POWER SUPPLIES
VCCM_ANA
Table 1 describes the three options for supplying power to the
VCCM_ANA pin.
Table 1. VCCM_ANA Supply Options
Link J10 Position VCCM_ANA Supply
A (Default Position)
Regulated 3.3 V from J3 wall socket
supplied with board
B CR2032 battery connection, J19
C External supply
VDD_IO
Table 2 describes the two options for supplying power to the
VDD_IO pin.
Table 2. VDD_IO Supply Options
Link M5 Position VDD_IO Supply
A (Default Position) From VCCM_ANA
B Regulated 3.3 V from J3 wall socket
(supplied with board)
VLCDVDD
Table 3 describes the three options for supplying power to the
VLCDVDD pin.
Table 3. VLCDVDD Supply Options
LK14 Position1 VLCDVDD Supply
Inserted Powered by VCCM
Open Not powered
1 The default position for LK14 is to be removed.
Figure 3. Power Supply Schematic for VCCM_ANA Pin
BATTERY CONTACT
POWER
OPTION 1
OPTION 2
OPTION 3
USB REGULATOR
LK10
LK24
R30
560r
D4
R32
0r
+C37
10uF
2IN
7
SD
3
GND
1
OUT
U6
R31
1r6
L2
BEAD
C34
0.1uF
C40
10uF
J12-1
J12-2
T68
A
B
C
J10
+
J19
BATT-3002-20MM
T3
LK5
VUSB
3.3V_BOARD
VCCM_ANA
5V_USB VDDOUT
12104-002
NOTES
1. LK24 IS NOT INSERTED BY DEFAULT.
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 6 of 28
JUMPER SETTINGS
Table 4. Link Option Functions
Link Number Default Position Function
LK1 Short AN_A to AFE daughter board.
LK2 Open LED GPIO functionality of P2.1.
LK3 Open AN_B to AFE daughter board.
LK4 Short Connect the supercapacitor to the VBACK pin.
LK6 Open Thermistor voltage output measurement (AN_A).
LK7 Open VCCM_DIG to VCCM_ANA external connection (connected internally on chip).
LK8 Short LED GPIO functionality of P0.11.
LK9
Open
AN_C to AFE daughter board.
LK10 Short AGND To DGND connector.
LK11 Open AN_D to AFE daughter board.
LK12 Short LED GPIO functionality of P4.2.
LK13 Short VBUS link.
LK14
Open
Supply for VLCDVDD.
LK24 Open VUSB to VCCM_ANA connector. The battery must be removed when this link is inserted.
M1 B P0.6 selected for UART Tx.
M2 B P0.7 selected For UART Rx.
M3 Open AN_EXCITE used for thermistor operation.
M5 A VDD_IO connection. When this link is in Position A, the VDD_IO supply is from
VCCM_ANA.
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 7 of 28
EVALUATION BOARD CIRCUITRY
J-LINK OB EMULATOR
The J-Link OB emulator provides nonintrusive emulation via a
serial wire and allows supply and UART communication with
the ADuCM350 evaluation board (EVAL-ADuCM350EBZ).
Figure 4 shows a top view of the emulator board. The J2
connector plugs into the ADuCM350 evaluation board (EVAL-
ADuCM350EBZ). The J2 connector pinout is shown in Figure 5.
Figure 4. Emulator Top View
Figure 5. J2 Connector
For downloading and debugging, LK1, LK2, LK4, and LK6 must
be inserted. LK3 and LK5 are required to communicate via
UART. The required driver software for the J-Link OB can be
downloaded from the Segger website. Ensure that you also
install the virtual COM port drivers (see Figure 6).
Figure 6. J-Link OB Download Options
12104-104
12104-105
TO EVALUATION BOARD CONNECTOR
12104-106
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 8 of 28
DIGITAL HEADER PAD LOOKUP TABLE
Table 5. Pinout for Digital Header 1 Pad (J20) on EVAL-ADuCM350EBZ
Top Row (from Left to Right) Bottom Row (from Left to Right)
Pin No.
Internal Connection
Pin No.
Internal Connection
J20-2 P2.1 J20-1 P2.0
J20-4
P2.3
J20-3
P2.2
J20-6 P2.5 J20-5 P2.4
J20-8 P1.0 J20-7 P1.1
J20-10 P1.2 J20-9 P1.3
J20-12 P1.4 J20-11 P1.5
J20-14 P1.6 J20-13 P1.7
J20-16 P3.8 J20-15 P1.9
J20-18 P3.3 J20-17 P3.9
J20-20 P1.11 J20-19 P1.8
J20-22 P1.13 J20-21 P1.10
J20-24 P1.15 J20-23 P1.12
J20-26
P2.11
J20-25
P1.14
J20-28 P2.12 J20-27 P2.10
J20-30 P2.15 J20-29 P2.9
J20-32 P3.10 J20-31 P2.8
J20-34 P2.13 J20-33 P2.7
J20-36 P3.11 J20-35 P2.6
J20-38 P3.0 J20-37 P2.14
J20-40 P3.1 J20-39 P3.2
J20-42 P3.5 J20-41 P3.4
J20-44 P3.7 J20-43 P3.6
J20-46 N/A J20-45 N/A
J20-48 N/A J20-47 N/A
J20-50 N/A J20-49 N/A
Table 6. Pinout for Digital Header 2 Pad (J5) on EVAL-ADuCM350EBZ
Top Row (from Left to Right) Bottom Row (from Left to Right)
Pin No. Internal Connection Pin No. Internal Connection
J5-19 N/A J5-20 N/A
J5-17 N/A J5-18 N/A
J5-15 N/A J5-16 N/A
J5-13 N/A J5-14 N/A
J5-11
P0.14
J5-12
P0.15
J5-9 P0.12 J5-10 P0.13
J5-7 P1.0 J5-8 P0.11
J5-5 P4.1 J5-6 P4.2
J5-3 P3.14 J5-4 P4.0
J5-1 P3.12 J5-2 P3.13
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 9 of 28
ADUCM350 MOTHERBOARD SCHEMATICS
Figure 7. ADuCM350 Motherboard Schematic Device Drawing
12104-107
ADuCM350
A15 P2.15
B8 P1.7
A12 P1.14
B15 P2.8
C14 P3.10
B12 P1.15
C15 P2.7
D14 P2.13
D15 P2.6
E14 P3.11
E15 P2.14
G15 P3.6
J10 P3.7
K1 DVDD
H14 DGND
J15 P0.1
J14 P0.4
K14 P0.3
K15 P0.0
L14 P0.5
L15 P0.2
G6 DGND1
H15 VDD_IO
F10 P3.3
F15 P3.2
G10 P3.4
H10 P3.5
M15
TRACECLK M14
TRACEDATA0 N15
TRACEDATA1 N14
TRACEDATA2 P15
TRACEDATA3
R15
TRST
P13
AN_B
P12
AN_A
R14
AN_D
R13
AN_C
R11
TIA_O
R12
REF_EXCITE
P11
TIA_I
K10 AGND_REF
K9 AGND_TX/RX
P10
VBIAS
R10
VREF
P9
AFE8
R9
AFE7
P8
AFE6
P7
AFE4 R8
AFE5
P6
AFE2 R7
AFE3
R6
AFE1
R5
RCAL2
P5
RCAL1
P4 VCCM_ANA
M2 P0.15
R2 P0.10
P1
RTC_XTAL1
H2 P0.9
K8
RESETX
N1
RTC_XTAL2
R3 P0.12
P3 P0.14
H1 P0.8
K7 P3.13
M1 VBACK
G14 P3.1
F14 P3.0
F7 DGND2
K6 P3.12
J2 P0.7
P2 P0.13
K2 P0.11
A1
APLATFORM_TEST
J6 P3.14
H6 VCCM_DIG
G1
USB_DP
L1 P4.0
J1 P0.6
F1
USB_DM
E1
VUSB
L2 P4.1
G2
VBUS
C1
HF_XTAL2
R1 P4.2
F6
DGND_USB
D1
HF_XTAL1
B1
VLCD_23
F9 P3.9
D2
VLCD_VDD
E2
VLCD_FLY1
C2
VLCD_13
F2
VLCD_FLY2
A9 P1.8
A5 P1.0
B2 P2.0
B14 P2.12
B9 P1.9
B5 P1.1
A2 P2.1
F8 P3.8
B3 P2.2
A6 P1.2
A10 P1.10
B13 P2.11
A3 P2.3
B6 P1.3
B10 P1.11
B4 P2.4
A7 P1.4
A13 P2.10
A4 P2.5
B7 P1.5
A11 P1.12
B11 P1.13
A8 P1.6
A14 P2.9
P14 AGND_CTOUCH
N2
KERNEL_GPIO
R4 AVDD_TX/RX
U1
ADUCM350-OM
P0.0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
P0.8
P0.9
P0.10
P0.11
P0.12
P0.13
P0.14
P0.15
P1.0
P1.1
P1.2
P1.3
P1.4
P1.5
P1.6
P1.7
P1.8
P1.9
P1.10
P1.11
P1.12
P1.13
P1.14
P1.15
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12
P2.13
P2.14
P2.15
P3.0
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P3.13
P3.14
P4.0
P4.1
P4.2
DVDD
VBACK
VDD_IO
VCCM_DIG
VCCM_ANA
AVDD_TX/RX
HF_XTAL2
HF_XTAL1
RTC_XTAL1
RTC_XTAL2
VUSB
VBUS
USB_DM
USB_DP
TRACEDATA1
TRACEDATA0
TRACECLK
TRACEDATA3
TRST
TRACEDATA2
TIA_O
TIA_I
AFE1
AFE2
AFE3
AFE4
AFE5
AFE6
AFE7
AFE8
RCAL2
RCAL1
VBIAS
VREF
RESETX
KERNEL_GPIO
AN_B
AN_A
AN_D
AN_C
REF_EXCITE
VLCD_FLY1
VLCD_FLY2
VLCD_23
VLCD_13
VLCD_VDD
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 10 of 28
Figure 8. Digital Schematics 1
12104-108
LCD CHARGE PUMP
LF 32kHz XTAL HF 16MHz XTAL
Layout: Needs To Be Near DUT
Layout: Shielding on 16MHz
GPIO LEDs
EXT INT
P0.10
P3.4
C11
4700pF C14
1uF
Y1
C7
15pF
C8
15pF
T4
T5
T6 T7
T8
C2
24pF C4
24pF
C21 DNI
C22 DNI C15
0.1uF
S2
R2
560r
DISPLAY
LED-0603-RED
R59
560r
DISPLAY1
LED-0603-RED
R60
560r
DISPLAY2
LED-0603-RED
R61
560r
DISPLAY3
LED-0603-RED
LK2 LK8
LK12
31
2GND 4
GND
Y3
XTAL-FA238
R48 0r
R62
DNI
T9
C5
0.1uF
R12 0r
S4
T11
VLCD_FLY1
VLCD_FLY2
VLCD_VDD
RTC_XTAL1
RTC_XTAL2
HF_XTAL1 HF_XTAL2
VLCD_13
VLCD_23
P0.10
3.3V_BOARD
P0.11
3.3V_BOARD
P4.2
VCCM_DIG
P2.1
3.3V_BOARD
P3.6
P3.4
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 11 of 28
Figure 9. Digital Schematics 2
12104-109
DIGITAL PERIPHERAL CONNECTORS
DIGITAL HEADER 2
EXT INT = P4.0 and P0.10
DO NOT POPULATE TESTPOINTS
*
*
*
*
*
*
*
*
*
*
*
*
*
SDP
STANDARD
CONNECTOR
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
J1
R23 0r
R33 0r
J5-1
J5-2
J5-3
J5-4
J5-5
J5-6
J5-7
J5-8
J5-9
J5-10
J5-11
J5-12
DGND1 P3.12
P3.13
P3.14
P0.12
P0.13
P0.14
P0.15
P4.0
P4.1
P0.10
P0.11
VCCM_ANA
3.3V_BOARD
P4.2
DIGITAL HEADER 1
EXT INT = P3.4
DO NOT POPULATE TESTPOINTS
R3
0r
R34
0r
*
*
*
*
*
*
*
*
*
*
*
*
*
SDP
STANDARD
CONNECTOR
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
J6
R35
0r
R36
0r
R44
0r
J20-1
J20-2
J20-3
J20-4
J20-5
J20-6
J20-7
J20-8
J20-9
J20-10
J20-11
J20-12
J20-13
J20-14
J20-15
J20-16
J20-17
J20-18
J20-19
J20-20
J20-21
J20-22
J20-23
J20-24
J20-25
J20-26
J20-27
J20-28
J20-29
J20-30
J20-31
J20-32
J20-33
J20-34
J20-35
J20-36
J20-37
J20-38
J20-39
J20-40
J20-41
J20-42
J20-43
J20-44
P3.0
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
VDD_IO
3.3V_BOARD
VCCM_DIG
VUSB
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P1.0
P1.1
P1.2
P1.3
P1.4
P1.5
P1.6
P1.7
P1.8
P1.9
P1.10
P1.12
P1.14
P2.6
P2.8
P2.10
P2.12
P2.14
P3.8
P3.10
P1.11
P1.13
P1.15
P2.7
P2.9
P2.11
P2.13
P2.15
P3.9
P3.11
VLCD_VDD
P0.12
P0.13
P0.14
P0.15
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 12 of 28
Figure 10. Analog Schematics 1
12104-110
IV GAIN
LAyout: Needs To Be Near DUT
AFE DAUGHTERCARD
ESD SENSOR PROTECTION
R5
DNI
J8-1
J8-2
J8-3
J8-4
J8-5
J8-6
J8-7
J8-8
J8-9
J8-10
J8-11
J8-12
J8-13
J8-14
J8-15
J8-16
J8-17
J8-18
J8-19
J8-20
J8-21
J8-22
J8-23
J8-24
J8-25
J8-26
J8-27
J8-28
J8-29
J8-30
J8-31
J8-32
J8-33
J8-34
J8-35
J8-36
J8-37
J8-38
J8-39
J8-40
J8-41
J8-42
J8-43
J8-44
J8-45
J8-46
J8-47
J8-48
J8-49
J8-50
J8-51
J8-52
J8-53
J8-54
J8-55
J8-56
J8-57
J8-58
J8-59
J8-60
R24 0r
R25 0r
R26 0r
J9-1
J9-2
J9-3
J9-4
J9-5
J9-6
J9-7
J9-8
J9-9
J9-10
J9-11
J9-12
J9-13
J9-14
J9-15
J9-16
J9-17
J9-18
J9-19
J9-20
J9-21
J9-22
J9-23
J9-24
J9-25
J9-26
J9-27
J9-28
J9-29
J9-30
J9-31
J9-32
J9-33
J9-34
J9-35
J9-36
J9-37
J9-38
J9-39
J9-40
J9-41
J9-42
J9-43
J9-44
J9-45
J9-46
J9-47
J9-48
J9-49
J9-50
J9-51
J9-52
J9-53
J9-54
J9-55
J9-56
J9-57
J9-58
J9-59
J9-60
R14 0r
R16 0r
R18 0r
R51 0r
R52 0r
R53 0r
R54 0r
R55 0r
R15 0r
R38 0r
R39 0r
R57 0r
R67 0r
R66 0r
R68 0r
R69 0r
R70 0r
R74 0r
R47
DNI
R8 0r
R10 0r
1I/O1
2GND
4
I/O2
3I/O3
5
VCC
6
I/O4
U4
DIODE-SP3004
1I/O1
2GND
4
I/O2
3I/O3
5
VCC
6
I/O4
U2
DIODE-SP3004
TIA_I
TIA_O
AFE1
AFE2
AFE3
AFE4
AFE5
AFE6
AFE7
AFE8
RCAL1
RCAL2
AFE4
AFE3 AFE2
VCCM_ANA
AFE1
AFE8
AFE7 AFE6
VCCM_ANA
AFE5
TIA_I
TIA_O
P4.2
P0.10
3.3V_BOARD
3.3V_BOARD
AN_A_1
AN_B_1
AN_C_1
AN_D_1
VREF_1
VBIAS_1
REF_EXCITE_1
VCCM_ANA
RCAL
R7
DNI
RCAL1
RCAL2
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 13 of 28
Figure 11. Analog Schematics 2
12104-111
These can be re-arranged
to suit Layout
CAP TOUCH CONNECTOR.
CONNECTOR
STANDARD
SDP
*
*
*
*
*
*
*
*
*
*
*
*
*
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
6160
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
J21
R58 0r
T10
P0-2
P0-5
P0-0
P0-3
P0-1
P0-4
P0.3
P0.0
P0.5
P0.2
P0.4
P0.1
3.3V_BOARD
THERMISTOR
R9
22.6K
R11
47K C20
100pF
LK6
T67
T77
AGND
BA
M3
REF_EXCITE
AN_A
REF_EXCITE_1
UNCOMITTED INPUTS - CONNECTORS.
LK1
LK3
LK9
LK11
AN_A
AN_B
AN_C
AN_D
AN_D_1
AN_C_1
AN_B_1
AN_A_1
INT ON CAP TOUCH
C18
0.1uF
R63 0r
C23
0.1uF
R65 0r
S1
S3
P0.2
P0.4
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 14 of 28
Figure 12. Interface
12104-112
SERIAL
DOWNLOAD
SERIAL DOWNLOAD
S6
R49
10K
T1
KERNEL_GPIO
3.3V_BOARD
USB
PTC1
1VBUS
2D-
3D+
4ID
5GND
6
SHLD17
SHLD28
SHLD39
SHLD4
J4
USB-MICRO-B
R6
33K
C17
0.1uF
C29
4.7uF
C0805
LK13
DGND
L4
IND-MOLDED
4I/O2 3
I/O1
1
NC
5
VCC
2
GND
U5
DIODE-824011
R1
40.2r
R4
40.2r
USB_DP
USB_DM
VBUS
RESET
RESET BUTTON
S5
C33
0.1uF
T2
RESETX
SWIO
RESET
SWCLK
GND
TX
RX
INTERFACE BOARD CONNECTOR
5VUSB
VDDOUT
Tx
Rx
SERIAL WIREEMULATOR UART
T75
T76
BA
M2
BA
M1
T72
T74
J14-1
J14-2
J14-3
J14-4
J14-5
J14-6
J14-7
J14-8 P0.7
P3.7
P0.6
P3.6
RESETX
P0.8
P0.9
5V_USB
VDDOUT
UART_RX
UART_TX
UART_RX
UART_TX
JTRACE
Note: Notch to face boards edge
Note: KEEP TRACK LENGHTS THE SAME
KEEP CLOSE TO DUT
Allow Access Area For Connector
1 2
3 4
5 6
7 8
9 10
11 12
13 14
15 16
17 18
19 20
J17
EHF-120-01-L-D
3.3V_BOARD
TRST
TRACECLK
TRACEDATA0
TRACEDATA1
TRACEDATA2
TRACEDATA3
P0.8
P0.9
P0.7
P0.6
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 15 of 28
Figure 13. Power
12104-113
BATTERY CO NTACT
POWER
VCCM GENERATION
Option 1
Option 2
Option 3
USB Regulator
LK10
LK24
R30
560r
D4
R32
0r
+
C37
10uF
2IN
7SD 3GND
1
OUT
U6
R31
1r6
L2
BEAD
C34
0.1uF C40
10uF
J12-1
J12-2
T68
A
B
C
J10
+
J19
BATT-3002-20MM
T3
LK5
VUSB
3.3V_BOARD
VCCM_ANA
5V_USB VDDOUT
VLCD
LK14 VLCD_VDDVCCM_ANA
RTC BACK UP
SUPER CAP
+
1
2
C44 C10
4.7uF
TESTCAP
DNI
T69
LK4
VBACK
ANALOG DECOUPLING
Layout: Resistors Close to Decoupling Cap
C41
0.47uF
C42
4.7uF
C43
10uF C48
0.1uF
C9
0.47uF
LK7
R43 0r
R45 0r
AVDD_TX/RX
VBIAS
VREF
VCCM_ANA
VCCM_DIG
VBIAS_1
VREF_1
DIGITAL DECOUPLING
C36
0.47uF
C35
0.22uF C38
0.47uF C1
0.47uF
C3
0.1uF
C13
4.7uF
VLCD_VDD
VUSB
DVDD
VDD_IO
VCCM_DIG
3.3V_BOARD
VDD_IO
AB
M5
VDD_IO
VCCM_ANA
3.3V_BOARD
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 16 of 28
ADUCM350 DAUGHTER BOARD SCHEMATICS
ADUCM350 SWITCH MUX CONFIGURATION BOARD
Figure 14. Switch Mux Configuration
MOTHERBOARD CONNECTOR—ALIGN J8 AND J9.
J8-1
J8-2
J8-3
J8-4
J8-5
J8-6
J8-7
J8-8
J8-9
J8-10
J8-11
J8-12
J8-13
J8-14
J8-15
J8-16
J8-17
J8-18
J8-19
J8-20
J8-21
J8-22
J8-23
J8-24
J8-25
J8-26
J8-27
J8-28
J8-29
J8-30
J8-31
J8-32
J8-33
J8-34
J8-35
J8-36
J8-37
J8-38
J8-39
J8-40
J8-41
J8-42
J8-43
J8-44
J8-45
J8-46
J8-47
J8-48
J8-49
J8-50
J8-51
J8-52
J8-53
J8-54
J8-55
J8-56
J8-57
J8-58
J8-59
J8-60
J9-1
J9-2
J9-3
J9-4
J9-5
J9-6
J9-7
J9-8
J9-9
J9-10
J9-11
J9-12
J9-13
J9-14
J9-15
J9-16
J9-17
J9-18
J9-19
J9-20
J9-21
J9-22
J9-23
J9-24
J9-25
J9-26
J9-27
J9-28
J9-29
J9-30
J9-31
J9-32
J9-33
J9-34
J9-35
J9-36
J9-37
J9-38
J9-39
J9-40
J9-41
J9-42
J9-43
J9-44
J9-45
J9-46
J9-47
J9-48
J9-49
J9-50
J9-51
J9-52
J9-53
J9-54
J9-55
J9-56
J9-57
J9-58
J9-59
J9-60
AFE1
AFE2
AFE3
AFE4
AFE5
AFE6
AFE7
AFE8
RCAL1
RCAL2
TIA_I
TIA_O
P4.2
P0.10
3.3V_BOARD
AN_A_1
AN_B_1
AN_C_1
AN_D_1
VREF_1
VBIAS_1
REF_EXCITE_1
VCCM_ANA
3.3V_BOARD
12104-004
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 17 of 28
Figure 15. Switch Mux Configuration—Sensor Hookup
LK1
LK2
LK3
LK4
LK5
LK6
LK7
LK8
R1
DNI
R2
DNI
R3
DNI
R4
DNI
R5
DNI
R6
DNI
R7
DNI
R8
DNI
R9
DNI
R10
DNI
R11
DNI
LK9LK10
LK11
LK12
LK13
LK14LK15
LK22
LK19
LK16
R12
DNI
R13
DNI
R14
DNI
LK20
LK21
LK17
R15
DNI
R16
DNI
R17
DNI
LK18
AFE1
AFE2
AFE3
AFE4
AFE5
AFE6
AFE7
AFE8
12104-005
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 18 of 28
ADUCM350 4-WIRE BIO CONFIGURATION 2 BOARD
Figure 16. 4-Wire Bio Configuration Header Connections
Figure 17. 4-Wire Bio Configuration Sensor Connections
MOTHERBOARD CONNECTOR—ALIGN J8 AND J9.
J8-1
J8-2
J8-3
J8-4
J8-5
J8-6
J8-7
J8-8
J8-9
J8-10
J8-11
J8-12
J8-13
J8-14
J8-15
J8-16
J8-17
J8-18
J8-19
J8-20
J8-21
J8-22
J8-23
J8-24
J8-25
J8-26
J8-27
J8-28
J8-29
J8-30
J8-31
J8-32
J8-33
J8-34
J8-35
J8-36
J8-37
J8-38
J8-39
J8-40
J8-41
J8-42
J8-43
J8-44
J8-45
J8-46
J8-47
J8-48
J8-49
J8-50
J8-51
J8-52
J8-53
J8-54
J8-55
J8-56
J8-57
J8-58
J8-59
J8-60
J9-1
J9-2
J9-3
J9-4
J9-5
J9-6
J9-7
J9-8
J9-9
J9-10
J9-11
J9-12
J9-13
J9-14
J9-15
J9-16
J9-17
J9-18
J9-19
J9-20
J9-21
J9-22
J9-23
J9-24
J9-25
J9-26
J9-27
J9-28
J9-29
J9-30
J9-31
J9-32
J9-33
J9-34
J9-35
J9-36
J9-37
J9-38
J9-39
J9-40
J9-41
J9-42
J9-43
J9-44
J9-45
J9-46
J9-47
J9-48
J9-49
J9-50
J9-51
J9-52
J9-53
J9-54
J9-55
J9-56
J9-57
J9-58
J9-59
J9-60
AFE1
AFE2
AFE3
AFE4
AFE5
AFE6
AFE7
AFE8
RCAL1
RCAL2
TIA_I
TIA_O
P4.2
P0.10
3.3V_BOARD
AN_A_1
AN_B_1
AN_C_1
AN_D_1
VREF_1
VBIAS_1
REF_EXCITE_1
VCCM_ANA
3.3V_BOARD
12104-006
4 WIRE BIO IMPEDANCE CONFIGURATION
Isolation +Lead
Isolation +Lead
Isolation +Lead
Isolation +Lead
Sensor
UNCOMITTED CONFIGURATION
LK1
LK8
LK3
LK4
LK6
LK5
R1
DNI
R3
18nF
R4
2K
R5
10uF
R9
20K
R10
220pF
LK22
LK19
LK16
R12
100K
R13
0 Ohm
LK20
LK21
LK17
R15
DNI
R16
DNI
LK18
R5A
DNI
R24
47nF
R25
4K99
LK9
LK10
LK2
R4A
DNI
R3A
DNI
R2A
DNI
R1A
DNI
LK7
R6
6.8K
R6A
DNI
R23
47nF
R26
47nF
R19
47nF
R28
4K99
R27
4K99
R29
4K99
R32
RLIMIT (3.0K)
R2
DNI
LK11
LK12
LK13
LK14
LK15
AFE1
AFE8
AFE3
AFE4
AFE6
AFE5
AFE7
AFE2
INAMP_P
INAMP_M
R31
10M
R17
100K
1
-IN
2
RG
5
-VS 3
RG
7OUT
8
+VS
6
REF
4
+IN
U3
AD8226
C3
0.1uF
R30
10M
VCCM_ANA
VBIAS_1
VBIAS_1
INAMP_P
INAMP_M
AN_A_1
VBIAS_1
12104-007
EVAL-ADuCM350EBZ User Guide UG-668
Rev. A | Page 19 of 28
Figure 18. 4-Wire Bio Configuration Miscellaneous Connections
RCAL
IV GAIN
TEST POINTS
TP4 TP1 TP5 TP6
TP3 TP2
TP11
TP9 TP8
TP12
J1-4
Harwin
M20-9991246
J1-1
Harwin
M20-9991246
J1-5
Harwin
M20-9991246
J1-6
Harwin
M20-9991246
J1-12
Harwin
M20-9991246
J1-3
Harwin
M20-9991246
J1-2
Harwin
M20-9991246
J1-10
Harwin
M20-9991246
J1-9
Harwin
M20-9991246
J1-8
Harwin
M20-9991246
J1-7
Harwin
M20-9991246
J1-11
Harwin
M20-9991246
TP7
TP10
R18
1K
R11 33K
R7
DNI
3.3V_BOARD
REF_EXCITE_1
VBIAS_1
VREF_1
P0.10
P4.2
VCCM_ANA
AN_A_1
AN_B_1
AN_C_1
AN_D_1
RCAL1
RCAL2
TIA_I
TIA_O
12104-008
UG-668 EVAL-ADuCM350EBZ User Guide
Rev. A | Page 20 of 28
AUDIO DAUGHTER BOARD REFERENCE SCHEMATICS
The Figure 19 schematic is connected to Digital Header 2 (J1) on the E VA L -ADuCM350EBZ board.
Figure 19. Audio Schematic
EXT INT = P4.0 and P0.10
A = 3.3V_BOARD
BEEPER AND I2S AMPLIFIER
PINOUT
BEEPER
BEEP - P3.12
BEEPX - P3.1
I2S
MCLK - P3.12
SDATA - P3.13
LRCLK - P3.14
B = VCCM_ANA
CONNECTOR
STANDARD
*
*
*
*
*
*
*
*
*
*
*
*
*
120
120
119
119
118
118
117
117
116
116
115
115
114
114
113
113
112
112
111
111
110
110
109
109
108
108
107
107
106
106
105
105
104
104
103
103
102
102
101
101
100
100
99
99
98
98
97
97
96
96
95
95
94
94
93
93
92
92
91
91
90
90
89
89
88
88
87
87
86
86
85
85
84
84
83
83
82
82
81
81
80
80
79
79
78
78
77
77
76
76
75
75
74
74
73
73
72
72
71
71
70
70
69
69
68
68
67
67
66
66
65
65
64
64
63
63
62
62
61
61
60 60
59 59
58 58
57 57
56 56
55 55
54 54
53 53
52 52
51 51
50 50
49 49
48 48
47 47
46 46
45 45
44 44
43 43
42 42
41 41
40 40
39 39
38 38
37 37
36 36
35 35
34 34
33 33
32 32
31 31
30 30
29 29
28 28
27 27
26 26
25 25
24 24
23 23
22 22
21 21
20 20
19 19
18 18
17 17
16 16
15 15
14 14
13 13
12 12
11 11
10 10
99
88
77
66
55
44
33
22
11
J1
BA
LK1
P3.12
P3.13
P3.14
P0.12
P0.13
P0.14
P0.15
P4.0
P4.1
VDD
12104-009
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