ZED Quickstart
This guide provides quick instructions on how to set up the EVAL-AD7768-1 / EVAL-ADAQ7768-1 on:
ZedBoard FMC LPC
All the products described on this page include ESD (electrostatic discharge) sensitive devices. Electrostatic charges as high as 4000V readily accumulate on the human body or test equipment and can discharge without detection. Although the boards feature ESD protection circuitry, permanent damage may occur on devices subjected to high-energy electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance degradation or loss of functionality. This includes removing static charge on external equipment, cables, or antennas before connecting to the device.
Using Linux as software
Necessary files
Note
The SD card includes several folders in the root directory of the BOOT partition. In order to configure the SD card to work with a specific FPGA board and ADI hardware, several files must be copied onto the root directory. Using the host PC, drag and drop the required files onto the BOOT partition, and use the EJECT function when removing the SD card from the reader.
The following files are needed for the system to boot:
HDL boot image:
BOOT.BINLinux Kernel image:
uImageLinux device tree:
devicetree.dtb
They can either be taken from the SD card – already generated by us, or you can build them manually:
Instructions on how to choose the boot files from the SD card can be found in the Platform-Specific Manual Steps section from here: Hardware Configuration.
Instructions on how to manually build the boot files from source can be found here:
Build Zynq Linux kernel and devicetree (the only difference compared to the ZynqMP is that instead of running
make adi_zynqmp_defconfig, you must runmake zynq_xcomm_adv7511_defconfig)AD77681EVB HDL project build documentation. More HDL build details at Build an HDL project.
Important
Some projects provide multiple devicetree files in the SD card’s boot folders. Make sure you select the devicetree that matches your specific use case.
Required Software
SD Card 16GB imaged with Kuiper (check out that guide on how to do it, then come back to this section)
A UART terminal (Putty/Tera Term/Minicom, etc.) with baud rate 115200 (8N1)
Required Hardware
AMD Xilinx ZedBoard FPGA board and its power supply (12V)
EVAL-AD7768-1 / EVAL-ADAQ7768-1 FMC evaluation board
SD card with at least 16GB of memory
Micro-USB cable (UART)
LAN cable (Ethernet)
Signal generator
More details as to why you need these can be found at Prerequisites.
Testing
Creating the setup
EVAL-AD7768-1/ZED
EVAL-ADAQ7768-1/ZED
In the following example, we will prepare the evaluation setup by connecting the EVAL-AD7768-1 / EVAL-ADAQ7768-1 board to the ZedBoard and applying a test input signal.
Follow the steps in this order, to avoid damaging the components:
Get the ZedBoard
Configure ZedBoard for SD BOOT:
The BOOT switches (JP7–JP11) and the MIO0 jumper (JP6) must be set for SD‑card boot mode. VADJ must be set to 2.5V, as specified in the HDL project’s README at AD77681EVB HDL project. Optionally, to use USB peripheral devices with the ZedBoard, install jumpers JP2 and JP3.
Insert the SD card into the SD Card Interface Connector (J12)
Connect your signal generator to the analog inputs of the evaluation board using the appropriate jumper wires or SMB connectors.
Plug the EVAL-AD7768-1 / EVAL-ADAQ7768-1 into the FMC LPC Connector (J1)
Plug the Power Supply into 12V Power input connector (J20) (DO NOT turn the device on).
Plug-in an Ethernet cable from your router/switch to the Ethernet port on the FPGA board
Connect the UART port of ZedBoard (J14) to a PC via MicroUSB
Turn on the power switch on the FPGA board
Observe Kernel and serial console output messages on your terminal
Boot messages
The following is what is printed in the serial console, after you have connected to the proper ttyUSB or COM port:
U-Boot 2018.01-21442-gf06dec3cab (Oct 17 2024 - 08:59:33 +0300), Build: jenkins-development-build_uboot-35
Model: Zynq Zesystemd[1]: /lib/systemd/system/plymouth-start.service:16: Unit configured to use KillMode=none. This is unsafe, as it disables systemd's process lifecycle management for the service. Please update your service to use a safer KillMode=, such as 'mixed' or 'control-group'. Support for KillMode=none is deprecated and will eventually be removed.
systemd[1]: Queued start job for default target Graphical Interface.
random: crng init done
systemd[1]: system-getty.slice: unit configures an IP firewall, but the local system does not support BPF/cgroup firewalling.
systemd[1]: (This warning is only shown for the first unit using IP firewalling.)
systemd[1]: Created slice system-getty.slice.
[ OK ] Created slice system-getty.slice.
systemd[1]: Created slice system-modprobe.slice.
[ OK ] Created slice system-modprobe.slice.
systemd[1]: Created slice system-serial\x2dgetty.slice.
[ OK ] Created slice system-serial\x2dgetty.slice.
systemd[1]: Created slice system-systemd\x2dfsck.slice.
[ OK ] Created slice system-systemd\x2dfsck.slice.
systemd[1]: Created slice User and Session Slice.
[ OK ] Created slice User and Session Slice.
systemd[1]: Started Forward Password Requests to Wall Directory Watch.
[ OK ] Started Forward Password R…uests to Wall Directory Watch.
systemd[1]: Condition check resulted in Arbitrary Executable File Formats File System Automount Point being skipped.
systemd[1]: Reached target Slices.
[ OK ] Reached target Slices.
systemd[1]: Reached target Swap.
[ OK ] Reached target Swap.
systemd[1]: Listening on Syslog Socket.
[ OK ] Listening on Syslog Socket.
systemd[1]: Listening on fsck to fsckd communication Socket.
[ OK ] Listening on fsck to fsckd communication Socket.
systemd[1]: Listening on initctl Compatibility Named Pipe.
[ OK ] Listening on initctl Compatibility Named Pipe.
systemd[1]: Condition check resulted in Journal Audit Socket being skipped.
systemd[1]: Listening on Journal Socket (/dev/log).
[ OK ] Listening on Journal Socket (/dev/log).
systemd[1]: Listening on Journal Socket.
[ OK ] Listening on Journal Socket.
systemd[1]: Listening on udev Control Socket.
[ OK ] Listening on udev Control Socket.
systemd[1]: Listening on udev Kernel Socket.
[ OK ] Listening on udev Kernel Socket.
systemd[1]: Condition check resulted in Huge Pages File System being skipped.
systemd[1]: Condition check resulted in POSIX Message Queue File System being skipped.
systemd[1]: Mounting RPC Pipe File System...
Mounting RPC Pipe File System...
systemd[1]: Mounting Kernel Debug File System...
Mounting Kernel Debug File System...
systemd[1]: Condition check resulted in Kernel Trace File System being skipped.
systemd[1]: Condition check resulted in Kernel Module supporting RPCSEC_GSS being skipped.
systemd[1]: Starting Restore / save the current clock...
Starting Restore / save the current clock...
systemd[1]: Starting Set the console keyboard layout...
Starting Set the console keyboard layout...
systemd[1]: Condition check resulted in Create list of static device nodes for the current kernel being skipped.
systemd[1]: Starting Load Kernel Module configfs...
Starting Load Kernel Module configfs...
systemd[1]: Starting Load Kernel Module drm...
Starting Load Kernel Module drm...
systemd[1]: Starting Load Kernel Module fuse...
Starting Load Kernel Module fuse...
systemd[1]: Condition check resulted in Set Up Additional Binary Formats being skipped.
systemd[1]: Condition check resulted in File System Check on Root Device being skipped.
systemd[1]: Starting Journal Service...
Starting Journal Service...
systemd[1]: Starting Load Kernel Modules...
Starting Load Kernel Modules...
systemd[1]: Starting Remount Root and Kernel File Systems...
Starting Remount Root and Kernel File Systems...
systemd[1]: Starting Coldplug All udev Devices...
Starting Coldplug All udev Devices...
systemd[1]: Mounted RPC Pipe File System.
[ OK ] Mounted RPC Pipe File System.
systemd[1]: Mounted Kernel Debug File System.
[ OK ] Mounted Kernel Debug File System.
systemd[1]: Finished Restore / save the current clock.
[ OK ] Finished Restore / save the current clock.
systemd[1]: modprobe@configfs.service: Succeeded.
systemd[1]: Finished Load Kernel Module configfs.
[ OK ] Finished Load Kernel Module configfs.
systemd[1]: modprobe@drm.service: Succeeded.
systemd[1]: Finished Load Kernel Module drm.
[ OK ] Finished Load Kernel Module drm.
systemd[1]: Started Journal Service.
[ OK ] Started Journal Service.
[ OK ] Finished Load Kernel Module fuse.
[FAILED] Failed to start Load Kernel Modules.
See 'systemctl status systemd-modules-load.service' for details.
Mounting FUSE Control File System...
Mounting Kernel Configuration File System...
Starting Apply Kernel Variables...
[ OK ] Finished Set the console keyboard layout.
[ OK ] Mounted FUSE Control File System.
[ OK ] Mounted Kernel Configuration File System.
[ OK ] Finished Apply Kernel Variables.
[ OK ] Finished Remount Root and Kernel File Systems.
Starting Flush Journal to Persistent Storage...
Starting Load/Save Random Seed...
Starting Create System Users...
[ OK ] Finished Load/Save Random Seed.
[ OK ] Finished Create System Users.
Starting Create Static Device Nodes in /dev...
[ OK ] Finished Coldplug All udev Devices.
Starting Helper to synchronize boot up for ifupdown...
Starting Wait for udev To …plete Device Initialization...
[ OK ] Finished Flush Journal to Persistent Storage.
[ OK ] Finished Create Static Device Nodes in /dev.
[ OK ] Finished Helper to synchronize boot up for ifupdown.
[ OK ] Reached target Local File Systems (Pre).
Starting Rule-based Manage…for Device Events and Files...
[ OK ] Started Rule-based Manager for Device Events and Files.
Starting Show Plymouth Boot Screen...
[ OK ] Started Show Plymouth Boot Screen.
[ OK ] Started Forward Password R…s to Plymouth Directory Watch.
[ OK ] Reached target Local Encrypted Volumes.
[ OK ] Found device /dev/ttyPS0.
[ OK ] Found device /dev/disk/by-partuuid/a22286d2-01.
[ OK ] Finished Wait for udev To Complete Device Initialization.
Starting File System Check…isk/by-partuuid/a22286d2-01...
Starting Load Kernel Modules...
[ OK ] Started File System Check Daemon to report status.
[FAILED] Failed to start Load Kernel Modules.
See 'systemctl status systemd-modules-load.service' for details.
[ OK ] Finished File System Check…/disk/by-partuuid/a22286d2-01.
Mounting /boot...
[ OK ] Mounted /boot.
[ OK ] Reached target Local File Systems.
Starting Set console font and keymap...
Starting Raise network interfaces...
Starting Preprocess NFS configuration...
Starting Tell Plymouth To Write Out Runtime Data...
Starting Create Volatile Files and Directories...
[ OK ] Finished Set console font and keymap.
[ OK ] Finished Tell Plymouth To Write Out Runtime Data.
[ OK ] Finished Preprocess NFS configuration.
[ OK ] Reached target NFS client services.
[ OK ] Reached target Remote File Systems (Pre).
[ OK ] Reached target Remote File Systems.
[ OK ] Finished Create Volatile Files and Directories.
Starting Network Time Synchronization...
Starting Update UTMP about System Boot/Shutdown...
[ OK ] Finished Update UTMP about System Boot/Shutdown.
Starting Load Kernel Modules...
[ OK ] Started Network Time Synchronization.
[ OK ] Finished Raise network interfaces.
[ OK ] Reached target System Time Set.
[ OK ] Reached target System Time Synchronized.
[FAILED] Failed to start Load Kernel Modules.
See 'systemctl status systemd-modules-load.service' for details.
[ OK ] Reached target System Initialization.
[ OK ] Started CUPS Scheduler.
[ OK ] Started Daily apt download activities.
[ OK ] Started Daily apt upgrade and clean activities.
[ OK ] Started Periodic ext4 Onli…ata Check for All Filesystems.
[ OK ] Started Discard unused blocks once a week.
[ OK ] Started Daily rotation of log files.
[ OK ] Started Daily man-db regeneration.
[ OK ] Started Daily Cleanup of Temporary Directories.
[ OK ] Reached target Paths.
[ OK ] Reached target Timers.
[ OK ] Listening on Avahi mDNS/DNS-SD Stack Activation Socket.
[ OK ] Listening on CUPS Scheduler.
[ OK ] Listening on D-Bus System Message Bus Socket.
[ OK ] Listening on Erlang Port Mapper Daemon Activation Socket.
[ OK ] Listening on GPS (Global P…ioning System) Daemon Sockets.
[ OK ] Listening on triggerhappy.socket.
[ OK ] Reached target Sockets.
[ OK ] Reached target Basic System.
Starting Analog Devices power up/down sequence...
Starting Save/Restore Sound Card State...
Starting Avahi mDNS/DNS-SD Stack...
[ OK ] Started Regular background program processing daemon.
[ OK ] Started D-Bus System Message Bus.
Starting dphys-swapfile - …unt, and delete a swap file...
Starting Remove Stale Onli…t4 Metadata Check Snapshots...
[ OK ] Started fan-control.
Starting Fix DP audio and X11 for Jupiter...
Starting Creating IIOD Context Attributes......
Starting Authorization Manager...
Starting DHCP Client Daemon...
Starting LSB: Switch to on…nless shift key is pressed)...
Starting LSB: rng-tools (Debian variant)...
Starting System Logging Service...
Starting User Login Management...
Starting triggerhappy global hotkey daemon...
Starting Disk Manager...
Starting WPA supplicant...
[ OK ] Started System Logging Service.
[ OK ] Finished Save/Restore Sound Card State.
[ OK ] Started triggerhappy global hotkey daemon.
[ OK ] Finished Fix DP audio and X11 for Jupiter.
[ OK ] Started DHCP Client Daemon.
[ OK ] Finished dphys-swapfile - …mount, and delete a swap file.
[ OK ] Started Authorization Manager.
[ OK ] Started WPA supplicant.
[ OK ] Started Avahi mDNS/DNS-SD Stack.
[ OK ] Reached target Network.
[ OK ] Reached target Network is Online.
[ OK ] Reached target Sound Card.
Starting Modem Manager...
Starting CUPS Scheduler...
[ OK ] Started Erlang Port Mapper Daemon.
Starting HTTP based time synchronization tool...
Starting Internet superserver...
Starting /etc/rc.local Compatibility...
Starting OpenBSD Secure Shell server...
Starting Permit User Sessions...
[ OK ] Started LSB: Switch to ond…(unless shift key is pressed).
[ OK ] Started LSB: rng-tools (Debian variant).
[ OK ] Started Internet superserver.
[ OK ] Started /etc/rc.local Compatibility.
[ OK ] Finished Permit User Sessions.
Starting Light Display Manager...
Starting Hold until boot process finishes up...
[ OK ] Finished Remove Stale Onli…ext4 Metadata Check Snapshots.
[ OK ] Started HTTP based time synchronization tool.
[ OK ] Started User Login Management.
[ OK ] Started Unattended Upgrades Shutdown.
[FAILED] Failed to start VNC Server for X11.
Raspbian GNU/Linux 11 analog ttyPS0
analog login: root (automatic login)
Linux analog 6.1.70-284114-g2e8908932dfd #1060 SMP PREEMPT Tue Mar 18 16:11:24 EET 2025 armv7l
The programs included with the Debian GNU/Linux system are free software;
the exact distribution terms for each program are described in the
individual files in /usr/share/doc/*/copyright.
Debian GNU/Linux comes with ABSOLUTELY NO WARRANTY, to the extent
permitted by applicable law.
Last login: Tue Mar 10 09:12:41 GMT 2026 on ttyPS0
root@analog:~#
Useful commands for the serial terminal
The below commands are to be run in the serial terminal connected to the FPGA.
Login Information
user: analog password: analog
To find out the IP of the FPGA board, run the following command and take the IP specified at “eth0 inet”:
~$
ifconfig
To see the IIO devices detected, run:
~$
iio_info | grep iio:device
iio:device0: ad7768-1 (buffer capable)
iio:device1: xadc
To power off the system, run the following command, and wait for the final message to be printed, then power off the FPGA board from the switch as well.
~$
poweroff
To reboot the system, run:
~$
reboot
Important
Even though this is Linux, this is a persistent file system. Care should
be taken not to corrupt the file system – please shut down things, don’t
just turn off the power switch. Depending on your monitor, the standard
power off could be hiding. You can do this from the terminal as well with
sudo shutdown -h now or the above-mentioned command for powering
off.
Scopy
Important
Make sure to download/update to the latest version of Scopy.
Scopy can be used as a signal generator to drive the analog inputs of the evaluation board via jumper wires:
W1 → AIN1+ (or IN+ on the EVAL-ADAQ7768-1)
W2 → AIN− (or IN− on the EVAL-ADAQ7768-1)
Configure both channels in the Signal Generator plugin with the desired waveform and frequency, using opposite phases to generate a differential signal:
IIO Oscilloscope
Important
Make sure to download/update to the latest version of IIO Oscilloscope.
Once done with the installation or an update of the latest IIO Oscilloscope, open the application. The user needs to supply a URI which will be used in the context creation of the IIO Oscilloscope.
Press
Refreshto display available IIO Devices and pressConnect.
After the board is connected and a channel is enabled, hit the play button. Then the data capture window can be seen like in the shown picture.
Using no-OS as software
Necessary files
The following files are needed for the system to boot:
HDL boot file:
system_top.xsano-OS project: projects/ad7768-1fmcz
Instructions on how to build the boot files from source can be found here:
AD7768-1 no-OS Example Project. More no-OS build details at No-OS Build Guide.
AD77681EVB HDL project. More HDL build details at Build an HDL project.
Required Software
AMD Xilinx Vivado and Vitis (downloading Vitis from here will include Vivado as well)
An UART terminal (Putty/Tera Term/Minicom, etc.), Baud rate 115200 (8N1)
Required Hardware
AMD Xilinx ZedBoard FPGA board and its power supply (12V)
EVAL-AD7768-1 / EVAL-ADAQ7768-1 FMC evaluation board
2x Micro-USB cables, one for UART and one for JTAG
Signal generator
More details as to why you need these can be found at Prerequisites.
Testing
Creating the setup
EVAL-AD7768-1/ZED
EVAL-ADAQ7768-1/ZED
In the following example, we will prepare the evaluation setup by connecting the EVAL-AD7768-1 / EVAL-ADAQ7768-1 board to the ZedBoard, configuring the board for JTAG boot, and applying a test input signal.
Follow the steps in this order, to avoid damaging the components:
Get the ZedBoard
Configure ZedBoard for JTAG boot:
The BOOT switches (JP7–JP11) and the MIO0 jumper (JP6) must be set for JTAG boot mode. VADJ must be set to 2.5V, as specified in the HDL project’s README at AD77681EVB HDL project. Optionally, to use USB peripheral devices with the ZedBoard, install jumpers JP2 and JP3.
Connect your signal generator to the analog inputs of the evaluation board using the appropriate jumper wires or SMB connectors.
Plug the EVAL-AD7768-1 / EVAL-ADAQ7768-1 into the FMC LPC Connector (J1)
Plug the Power Supply into 12V Power input connector (J20) (DO NOT turn the device on).
Connect the UART port of ZedBoard (J14) to a PC via MicroUSB
Connect the PROG port of ZedBoard (J17) to a PC via MicroUSB
Turn on the power switch on the FPGA board
Observe Kernel and serial console output messages on your terminal
Console output
The following is what is printed in the serial console, after you have connected to the proper ttyUSB or COM port:
rx_clkgen: MMCM-PLL locked (80000000 Hz)
Spi engine v1.5.3 successfully initialized.
67 67 CRC/XOR: OK
72 72 CRC/XOR: OK
72 72 CRC/XOR: OK
72 72 CRC/XOR: OK
72 72 CRC/XOR: OK
b1 b1 CRC/XOR: OK
76 76 CRC/XOR: OK
6c 6c CRC/XOR: OK
2d 2d CRC/XOR: OK
2d 2d CRC/XOR: OK
15 15 CRC/XOR: OK
9 9 CRC/XOR: OK
5d 5d CRC/XOR: OK
bd bd CRC/XOR: OK
cd cd CRC/XOR: OK
cd cd CRC/XOR: OK
cd cd CRC/XOR: OK
54 54 CRC/XOR: OK
24 24 CRC/XOR: OK
24 24 CRC/XOR: OK
24 24 CRC/XOR: OK
54 54 CRC/XOR: OK
23 23 CRC/XOR: OK
23 23 CRC/XOR: OK
23 23 CRC/XOR: OK
25 25 CRC/XOR: OK
23 23 CRC/XOR: OK
31 31 CRC/XOR: OK
a2 a2 CRC/XOR: OK
ad77681 successfully initialized
6f 6f CRC/XOR: OK
[ADC DATA]: 0x0e1359a6f
53 53 CRC/XOR: OK
[ADC DATA]: 0x0d62e853
c6 c6 CRC/XOR: OK
[ADC DATA]: 0x0d58ff9c6
c2 c2 CRC/XOR: OK
[ADC DATA]: 0x0c09beec2
16 16 CRC/XOR: OK
[ADC DATA]: 0x0f786b016
16 16 CRC/XOR: OK
[ADC DATA]: 0x01437d216
6c 6c CRC/XOR: OK
[ADC DATA]: 0x0267b9d6c
9 9 CRC/XOR: OK
[ADC DATA]: 0x029fbc09
e0 e0 CRC/XOR: OK
[ADC DATA]: 0x02566c5e0
a2 a2 CRC/XOR: OK
[ADC DATA]: 0x0104bc9a2
fa fa CRC/XOR: OK
[ADC DATA]: 0x0f2a488fa
ec ec CRC/XOR: OK
[ADC DATA]: 0x0df3e6bec
2e 2e CRC/XOR: OK
[ADC DATA]: 0x0d4fa5a2e
37 37 CRC/XOR: OK
[ADC DATA]: 0x0d7165f37
c1 c1 CRC/XOR: OK
[ADC DATA]: 0x0e52657c1
75 75 CRC/XOR: OK
[ADC DATA]: 0x008b2375
6a 6a CRC/XOR: OK
[ADC DATA]: 0x018828b6a
cb cb CRC/XOR: OK
[ADC DATA]: 0x028fe3cb
d7 d7 CRC/XOR: OK
[ADC DATA]: 0x0298c72d7
ed ed CRC/XOR: OK
[ADC DATA]: 0x01f7a84ed
2a 2a CRC/XOR: OK
[ADC DATA]: 0x08266b2a
d4 d4 CRC/XOR: OK
[ADC DATA]: 0x0eb45a8d4
ec ec CRC/XOR: OK
[ADC DATA]: 0x0d9467aec
32 32 CRC/XOR: OK
[ADC DATA]: 0x0d4d49432
a7 a7 CRC/XOR: OK
[ADC DATA]: 0x0d83866a7
51 51 CRC/XOR: OK
[ADC DATA]: 0x0ec63651
66 66 CRC/XOR: OK
[ADC DATA]: 0x083e566
6a 6a CRC/XOR: OK
[ADC DATA]: 0x01f6a766a
bf bf CRC/XOR: OK
[ADC DATA]: 0x029a0cfbf
7d 7d CRC/XOR: OK
[ADC DATA]: 0x028ab1f7d
a9 a9 CRC/XOR: OK
[ADC DATA]: 0x01ab77a9
a5 a5 CRC/XOR: OK
[ADC DATA]: 0x016964a5
69 69 CRC/XOR: OK
[ADC DATA]: 0x0e7975b69
6 6 CRC/XOR: OK
[ADC DATA]: 0x0d6f1fa6
1f 1f CRC/XOR: OK
[ADC DATA]: 0x0d558231f
3d 3d CRC/XOR: OK
[ADC DATA]: 0x0ddb6db3d
a4 a4 CRC/XOR: OK
[ADC DATA]: 0x0f2c5dba4
d2 d2 CRC/XOR: OK
[ADC DATA]: 0x010b52dd2
9c 9c CRC/XOR: OK
[ADC DATA]: 0x0258cfa9c
6b 6b CRC/XOR: OK
[ADC DATA]: 0x02a1e5c6b
90 90 CRC/XOR: OK
[ADC DATA]: 0x026844a90
38 38 CRC/XOR: OK
[ADC DATA]: 0x0151f7c38
a0 a0 CRC/XOR: OK
[ADC DATA]: 0x0fe01fa0
e3 e3 CRC/XOR: OK
[ADC DATA]: 0x0dfa36ae3
5c 5c CRC/XOR: OK
[ADC DATA]: 0x0d551b25c
e8 e8 CRC/XOR: OK
[ADC DATA]: 0x0d626f3e8
42 42 CRC/XOR: OK
[ADC DATA]: 0x0e324c842
f f CRC/XOR: OK
[ADC DATA]: 0x0fe693ef
28 28 CRC/XOR: OK
[ADC DATA]: 0x01712c628
53 53 CRC/XOR: OK
[ADC DATA]: 0x027d7cc53
8 8 CRC/XOR: OK
[ADC DATA]: 0x0299f228
2a 2a CRC/XOR: OK
[ADC DATA]: 0x022f16c2a
56 56 CRC/XOR: OK
[ADC DATA]: 0x0c6f6056
ec ec CRC/XOR: OK
[ADC DATA]: 0x0f16bbfec
4c 4c CRC/XOR: OK
[ADC DATA]: 0x0da2eb84c
69 69 CRC/XOR: OK
[ADC DATA]: 0x0d4c33669
73 73 CRC/XOR: OK
[ADC DATA]: 0x0d6b39773
52 52 CRC/XOR: OK
[ADC DATA]: 0x0e8a84152
11 11 CRC/XOR: OK
[ADC DATA]: 0x03eaf211
70 70 CRC/XOR: OK
[ADC DATA]: 0x01efa4670
fa fa CRC/XOR: OK
[ADC DATA]: 0x0299029fa
eb eb CRC/XOR: OK
[ADC DATA]: 0x028853deb
35 35 CRC/XOR: OK
[ADC DATA]: 0x01c2f3f35
a1 a1 CRC/XOR: OK
[ADC DATA]: 0x04c317a1
3e 3e CRC/XOR: OK
[ADC DATA]: 0x0e7546c3e
1 1 CRC/XOR: OK
[ADC DATA]: 0x0d759bf1
7 7 CRC/XOR: OK
[ADC DATA]: 0x0d4ea487
22 22 CRC/XOR: OK
[ADC DATA]: 0x0db9be22
9a 9a CRC/XOR: OK
[ADC DATA]: 0x0f2ce3a9a
d9 d9 CRC/XOR: OK
[ADC DATA]: 0x0b445d9
bd bd CRC/XOR: OK
[ADC DATA]: 0x02360b6bd
61 61 CRC/XOR: OK
[ADC DATA]: 0x029e4e461
43 43 CRC/XOR: OK
[ADC DATA]: 0x02705443
1a 1a CRC/XOR: OK
[ADC DATA]: 0x01367b91a
2e 2e CRC/XOR: OK
[ADC DATA]: 0x0f8453c2e
21 21 CRC/XOR: OK
[ADC DATA]: 0x0e2dbe121
a4 a4 CRC/XOR: OK
[ADC DATA]: 0x0d57315a4
18 18 CRC/XOR: OK
[ADC DATA]: 0x0d6217518
2d 2d CRC/XOR: OK
[ADC DATA]: 0x0c275bb2d
cd cd CRC/XOR: OK
[ADC DATA]: 0x0fc2820cd
1 1 CRC/XOR: OK
[ADC DATA]: 0x014adaf1
41 41 CRC/XOR: OK
[ADC DATA]: 0x026884541
eb eb CRC/XOR: OK
[ADC DATA]: 0x02a790eb
96 96 CRC/XOR: OK
[ADC DATA]: 0x022c92296
3d 3d CRC/XOR: OK
[ADC DATA]: 0x0e45893d
1f 1f CRC/XOR: OK
[ADC DATA]: 0x0f729f71f
90 90 CRC/XOR: OK
[ADC DATA]: 0x0da46e290
39 39 CRC/XOR: OK
[ADC DATA]: 0x0d4dc1a39
f8 f8 CRC/XOR: OK
[ADC DATA]: 0x0d81c30f8
3f 3f CRC/XOR: OK
[ADC DATA]: 0x0e7c6423f
6 6 CRC/XOR: OK
[ADC DATA]: 0x057bc06
ba ba CRC/XOR: OK
[ADC DATA]: 0x01d8723ba
e0 e0 CRC/XOR: OK
[ADC DATA]: 0x02940cbe0
7e 7e CRC/XOR: OK
[ADC DATA]: 0x028b0327e
48 48 CRC/XOR: OK
[ADC DATA]: 0x01f254848
7c 7c CRC/XOR: OK
[ADC DATA]: 0x04d4ee7c
2b 2b CRC/XOR: OK
[ADC DATA]: 0x0e77db42b
79 79 CRC/XOR: OK
[ADC DATA]: 0x0d8d3979
b4 b4 CRC/XOR: OK
[ADC DATA]: 0x0d52f6b4
48 48 CRC/XOR: OK
[ADC DATA]: 0x0db7e7748
40 40 CRC/XOR: OK
[ADC DATA]: 0x0f070be40
a6 a6 CRC/XOR: OK
[ADC DATA]: 0x0efa3ba6
8a 8a CRC/XOR: OK
[ADC DATA]: 0x023b5408a
16 16 CRC/XOR: OK
[ADC DATA]: 0x02a193716
15 15 CRC/XOR: OK
[ADC DATA]: 0x027bcc15
dc dc CRC/XOR: OK
[ADC DATA]: 0x016dc49dc
35 35 CRC/XOR: OK
[ADC DATA]: 0x0fb835a35
af af CRC/XOR: OK
[ADC DATA]: 0x0e1c119af
ed ed CRC/XOR: OK
[ADC DATA]: 0x0d5abd2ed
92 92 CRC/XOR: OK
[ADC DATA]: 0x0d617992
75 75 CRC/XOR: OK
[ADC DATA]: 0x0df63cc75
20 20 CRC/XOR: OK
[ADC DATA]: 0x0fc53820
99 99 CRC/XOR: OK
[ADC DATA]: 0x0162bf499
10 10 CRC/XOR: OK
[ADC DATA]: 0x02757eb10
af af CRC/XOR: OK
[ADC DATA]: 0x029e6a9af
71 71 CRC/XOR: OK
[ADC DATA]: 0x021c0371
d8 d8 CRC/XOR: OK
[ADC DATA]: 0x0b2b51d8
a7 a7 CRC/XOR: OK
[ADC DATA]: 0x0f0fd35a7
da da CRC/XOR: OK
[ADC DATA]: 0x0da882bda
93 93 CRC/XOR: OK
[ADC DATA]: 0x0d4db8293
5a 5a CRC/XOR: OK
[ADC DATA]: 0x0d7e8665a
80 80 CRC/XOR: OK
[ADC DATA]: 0x0e9162080
51 51 CRC/XOR: OK
[ADC DATA]: 0x076ee51
5b 5b CRC/XOR: OK
[ADC DATA]: 0x01f25975b
6a 6a CRC/XOR: OK
[ADC DATA]: 0x02936626a
6d 6d CRC/XOR: OK
[ADC DATA]: 0x0287f8e6d
c4 c4 CRC/XOR: OK
[ADC DATA]: 0x01c945dc4
0 0 CRC/XOR: OK
[ADC DATA]: 0x07b3440
88 88 CRC/XOR: OK
[ADC DATA]: 0x0e64aaa88
6d 6d CRC/XOR: OK
[ADC DATA]: 0x0d743ed6d
ee ee CRC/XOR: OK
[ADC DATA]: 0x0d4f431ee
7a 7a CRC/XOR: OK
[ADC DATA]: 0x0dd20f37a
63 63 CRC/XOR: OK
[ADC DATA]: 0x0f4322e63
44 44 CRC/XOR: OK
[ADC DATA]: 0x0eadc44
f4 f4 CRC/XOR: OK
[ADC DATA]: 0x024c469f4
39 39 CRC/XOR: OK
[ADC DATA]: 0x02a507539
fc fc CRC/XOR: OK
[ADC DATA]: 0x02611bcfc
4f 4f CRC/XOR: OK
[ADC DATA]: 0x012f9ba4f
97 97 CRC/XOR: OK
[ADC DATA]: 0x0f6d05a97
55 55 CRC/XOR: OK
[ADC DATA]: 0x0e5d2c855
16 16 CRC/XOR: OK
[ADC DATA]: 0x0d5323116
e0 e0 CRC/XOR: OK
[ADC DATA]: 0x0d678b4e0
96 96 CRC/XOR: OK
[ADC DATA]: 0x0e2914096
91 91 CRC/XOR: OK
[ADC DATA]: 0x0fe20f491
9b 9b CRC/XOR: OK
[ADC DATA]: 0x01849be9b
15 15 CRC/XOR: OK
[ADC DATA]: 0x02835b515
d2 d2 CRC/XOR: OK
[ADC DATA]: 0x029de7fd2
24 24 CRC/XOR: OK
[ADC DATA]: 0x02016ff24
4f 4f CRC/XOR: OK
[ADC DATA]: 0x0a95464f
59 59 CRC/XOR: OK
[ADC DATA]: 0x0ecdafa59
b1 b1 CRC/XOR: OK
[ADC DATA]: 0x0d9adfab1
fc fc CRC/XOR: OK
[ADC DATA]: 0x0d4bec6fc
f1 f1 CRC/XOR: OK
[ADC DATA]: 0x0d840a0f1
67 67 CRC/XOR: OK
[ADC DATA]: 0x0eceea667
fa fa CRC/XOR: OK
[ADC DATA]: 0x08ebf4fa
24 24 CRC/XOR: OK
[ADC DATA]: 0x01e9a7d24
82 82 CRC/XOR: OK
[ADC DATA]: 0x029d81c82
5a 5a CRC/XOR: OK
[ADC DATA]: 0x02812595a
33 33 CRC/XOR: OK
[ADC DATA]: 0x01b8bf933
0 0 CRC/XOR: OK
[ADC DATA]: 0x03e589f0
3d 3d CRC/XOR: OK
[ADC DATA]: 0x0e3ee7b3d
b5 b5 CRC/XOR: OK
[ADC DATA]: 0x0d625e5b5
de de CRC/XOR: OK
[ADC DATA]: 0x0d5621dde
d d CRC/XOR: OK
[ADC DATA]: 0x0dce881d
43 43 CRC/XOR: OK
[ADC DATA]: 0x0f5335d43
5e 5e CRC/XOR: OK
[ADC DATA]: 0x0b12a55e
51 51 CRC/XOR: OK
[ADC DATA]: 0x026a7151
80 80 CRC/XOR: OK
[ADC DATA]: 0x02a15fb80
7c 7c CRC/XOR: OK
[ADC DATA]: 0x025d14e7c
8f 8f CRC/XOR: OK
[ADC DATA]: 0x011f4e78f
ba ba CRC/XOR: OK
[ADC DATA]: 0x0f5d77ba
f1 f1 CRC/XOR: OK
[ADC DATA]: 0x0dd5ba0f1
6e 6e CRC/XOR: OK
[ADC DATA]: 0x0d530f56e
be be CRC/XOR: OK
[ADC DATA]: 0x0d72a6bbe
89 89 CRC/XOR: OK
[ADC DATA]: 0x0e4f17189
e8 e8 CRC/XOR: OK
[ADC DATA]: 0x0ff68de8
9f 9f CRC/XOR: OK
[ADC DATA]: 0x01bf7df9f
20 20 CRC/XOR: OK
[ADC DATA]: 0x0287a3920
2d 2d CRC/XOR: OK
[ADC DATA]: 0x029727a2d
e0 e0 CRC/XOR: OK
[ADC DATA]: 0x0214f4ee0
f8 f8 CRC/XOR: OK
[ADC DATA]: 0x0751adf8
8e 8e CRC/XOR: OK
[ADC DATA]: 0x0ec3ba08e
Note
The continuous ADC data stream will keep printing in the console until the serial session is closed. To stop the data flow, simply disconnect from the serial port in your terminal application (for example, select Disconnect in Tera Term)