EVK-NINA-W1/EVK-NINA-B2 Evaluation kit for NINA-W1 and NINA-B2 modules User guide
Abstract
This document describes how to set up the EVK-NINA-W1/EVK-NINA-B2 evaluation kits to
evaluate NINA-W1 series and NINA-B2 series stand-alone modules. It also describes the different
options for debugging and the development capabilities included in the evaluation board.
www.u-blox.com
UBX-17011007 - R07
EVK-NINA-W1/EVK-NINA-B2 - User guide
UBX-17011007 - R07 Page 2 of 23
Document information Title EVK-NINA-W1/EVK-NINA-B2
Subtitle Evaluation kit for NINA-W1 and NINA-B2 modules
Document type User guide
Document number UBX-17011007
Revision and date R07 5-Sep-2019
Disclosure restriction
This document applies to the following products:
Product name Software version PCN reference
EVK-NINA-W101 N/A -
EVK-NINA-W102 N/A -
EVK-NINA-W131 N/A -
EVK-NINA-W132 N/A -
EVK-NINA-W151 N/A -
EVK-NINA-W152 N/A -
EVK-NINA-B221 N/A -
EVK-NINA-B222 N/A -
u-blox or third parties may hold intellectual property rights in the products, names, logos and designs included in this
document. Copying, reproduction, modification or disclosure to third parties of this document or any part thereof is only
permitted with the express written permission of u-blox.
The information contained herein is provided “as is” and u-blox assumes no liability for its use. No warranty, either express or
implied, is given, including but not limited to, with respect to the accuracy, correctness, reliability and fitness for a particular
purpose of the information. This document may be revised by u-blox at any time without notice. For the most recent
documents, visit www.u-blox.com.
Copyright © u-blox AG.
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Contents Document information ................................................................................................................................ 2
Contents .......................................................................................................................................................... 3
1 Product description .............................................................................................................................. 4
1.1 Overview ........................................................................................................................................................ 4
1.2 Kit includes ................................................................................................................................................... 5
1.2.1 EVK-NINA-B221 and EVK-NINA-W1x1 .......................................................................................... 5
1.2.2 EVK-NINA-B222 and EVK-NINA-W1x2 .......................................................................................... 6
1.3 I/O allocation................................................................................................................................................. 6
1.4 Jumper description .................................................................................................................................... 7
1.4.1 Default jumper configuration ........................................................................................................... 9
1.4.2 RMII to PHY jumper configuration................................................................................................... 9
1.5 LEDs .............................................................................................................................................................10
1.5.1 RGB-LED jumper configuration .....................................................................................................10
1.6 Connectors .................................................................................................................................................11
1.7 Buttons ........................................................................................................................................................11
1.8 Configuration options ..............................................................................................................................12
1.8.1 Power supply ......................................................................................................................................12
2 Setting up the evaluation board ..................................................................................................... 13
2.1 EVK without software (open CPU) .........................................................................................................13
2.2 EVK with u-blox connectivity software .................................................................................................14
2.2.1 Starting up .........................................................................................................................................14
2.2.2 Getting the latest software ............................................................................................................14
Appendix ........................................................................................................................................................ 15
A Layouts.................................................................................................................................................... 15
B Schematic drawings ........................................................................................................................... 16
C Glossary .................................................................................................................................................. 21
Related documents .................................................................................................................................... 22
Revision history ........................................................................................................................................... 22
Contact .......................................................................................................................................................... 23
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1 Product description
1.1 Overview
The EVK-NINA-W1/EVK-NINA-B2 evaluation kit includes an evaluation board, which can be used as a
reference design for the NINA-W1 or NINA-B2 series modules, a quick start guide, and a USB cable.
For the NINA-B221 and the NINA-W1x1 module, the evaluation board is prepared with a U.FL coaxial
connector for connecting the external antenna. The NINA-B222 and the NINA-W1x2 modules have
an onboard antenna; thus the EVK-NINA-B222 and the EVK-NINA-W1x2 evaluation board does not
have a U.FL connector.
The main features of the EVK-NINA-W1/EVK-NINA-B2 are:
Available in several variants:
o NINA-B221 and NINA-B222
o NINA-W101 and NINA-W102
o NINA-W131 and NINA-W132
o NINA-W151 and NINA-W152
All of the module pins are available at connectors or jumpers
Can be powered through USB (J8) or external power supply (J23)
Equipped with a Quad High Speed USB to Multipurpose UART/MPSSE IC (FT4232) that allows
serial communication and flashing over USB.
The EVK-NINA-W1/EVK-NINA-B2 evaluation kits are available in the following variants, depending
on the NINA module that is mounted on the EVK:
EVK-NINA-B221 – Evaluation kit for NINA-B221 module, RF port available on U.FL connector
(J21)
EVK-NINA-B222 – Evaluation kit for NINA-B222 module with onboard antenna
EVK-NINA-W101 – Evaluation kit for NINA-W101 module, RF port available on U.FL connector
(J21)
EVK-NINA-W102 – Evaluation kit for NINA-W102 module with onboard antenna
EVK-NINA-W131 – Evaluation kit for NINA-W131 module, RF port available on U.FL connector
(J21)
EVK-NINA-W132 – Evaluation kit for NINA-W132 module with onboard antenna
EVK-NINA-W151 – Evaluation kit for NINA-W151 module, RF port available on U.FL connector
(J21)
EVK-NINA-W152 – Evaluation kit for NINA-W152 module with onboard antenna
This section describes the main connectors and settings that are required to get started. Figure 1
and Figure 2 show the two different antenna variants of the EVK-NINA-W1/EVK-NINA-B2 evaluation
board.
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Figure 1: EVK-NINA-W1/EVK-NINA-B2 evaluation board with U.FL connector for external antenna
Figure 2: EVK-NINA-W1/EVK-NINA-B2 evaluation board with internal antenna
⚠ Take care while handling the EVK-NINA-B222 and EVK-NINA-W1x2. Applying force to the NINA
module might damage the internal antenna.
1.2 Kit includes
1.2.1 EVK-NINA-B221 and EVK-NINA-W1x1
The EVK-NINA-B221 and EVK-NINA-W1x1 evaluation kits include the following:
EVK-NINA-B221 or EVK-NINA-W1x1 evaluation board
2.4 GHz foldable antenna (Ex-It 2400) with reverse polarity SMA connector
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RP-SMA - U.FL cable assembly, 100 mm length
USB cable
Quick Start guide
1.2.2 EVK-NINA-B222 and EVK-NINA-W1x2
The EVK-NINA-B222 and EVK-NINA-W1x2 evaluation kits include the following:
EVK-NINA-B222 and EVK-NINA-W1x2
USB cable
Quick Start guide
1.3 I/O allocation
The block diagram in Figure 3 provides a better understanding of how I/O signals from the module
are made available at connectors and/or interfaces of the EVK.
Sixteen (16) I/O signals are available at the middle row of the I/O allocator. These signals can be
distributed to connectors and/or interfaces on the EVK by use of jumpers to connect the associated
middle and outer row pin(s).
The signals IO-12, IO-13, IO-14 and IO-15 can be disconnected from the J4 connector by not
populating the corresponding jumpers at J18. This can be useful if the SDIO signals D2, D3, CLK,
and CMD are directed to the SD card reader (J19).
Eight signals are connected directly between the module and the J2 or J3 connector.
Figure 3: Block diagram of EVK-NINA-W10
☞ When reset-n is released, the module pin 27 is read as boot-n. When IO-0 is connected to the
module, it must be held high during start up.
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1.4 Jumper description
Parameter Description Name Default
Enable SW1 Jumper at J5-1_J5-2 connects switch 1 to module pin-7 J5
Enable SW2 Jumper at J6-1_J6-2 connects switch 2 to IO-27
(Jumper at J14-15_J14-16 must be populated to connect IO27 to module
pin-18)
J6
Enable RGB-LED Jumper at J7-1_J7-2 connects RED LED to IO-23
(Jumper at J15-3_J14-5 must be populated to connect IO23 to module pin-
1)
J7-RED
Jumper at J7-3_J7-4 connects BLUE LED to IO-21
(Jumper at J16-1_J16-2 must be populated to connect IO21to module pin-
8)
J7-BLUE
Jumper at J7-5_J7-6 connects GREEN LED to IO-33 J7-GREEN
IO/Interface
select
Module pin to IO/Interface distribution J14 See Table 3
IO/Interface
select
Module pin to IO/Interface distribution J15 See Table 3
IO/Interface
select
Module pin to IO/Interface distribution J16 See Table 3
IO/Interface
select
Module pin to IO/Interface distribution J17 See Table 3
IO/Interface
select
Module pin to IO/Interface distribution J18 See Table 3
Enable VCC_IO Connects EVK internal 3.3 V to module pin-9 to supply module VCC_IO J25
Enable VCC Connects EVK internal 3.3 V to modle pin-10 to supply module VCC J26
Table 1: EVK-NINA-W1/EVK-NINA-B2 jumper descriptions
Figure 4: Jumper positions on the EVK
Middle row jumper pin Connected to
J14-1 Module pin-28
J14-3 Module pin-29
J14-5 Module pin-1
J14-7 Module pin-21
J14-9 Module pin-20
J14-11 Module pin-16
J14-13 Module pin-17
J14-15 Module pin-18
J15 (pin-1)
J16 (pin-1)
J17 (pin-1)
J14 (pin-1)
J7 (pin-1)
J26 (pin-1)
J25 (pin-1)
J18 (pin-1)
J6 (pin-1) J5 (pin-1)
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Middle row jumper pin Connected to
J16-1 Module pin-8
J16-3 Module pin-27
J16-5 Module pin-25
J16-7 Module pin-24
J16-9 Module pin-31
J16-11 Module pin-35
J16-13 Module pin-32
J16-15 Module pin-36
Table 2: Available module pins at the middle row of jumpers J14 and J16
Connected to Left row
jumper pin
Middle row
jumper pin
Right row
jumper pin
Connected to Default
IO-5, J4 pin-3 J15-1 J14-1 J14-2 SPI_CS, U5-PB-3 [ J15-1_J14-1 ]
IO-18, J4 pin-6 J15-2 J14-3 J14-4 SPI_CLK, U5-PB-0 [ J15-2_J14-3 ]
IO-23, J4 pin-5 J15-3 J14-5 J14-6 SPI_MOSI, U5-PB-1 [ J15-3_J14-5 ]
reserved J15-4 J14-7 J14-8 J18 pin-1_3 [ J14-7_J14-8 ]
reserved J15-5 J14-9 J14-10 IO-22, J3 pin-6 (RTS) [ J14-9_J14-10 ]
reserved J15-6 J14-11 J14-12 IO-25, J3 pin-4 (DTR) [ J14-11_J14-12 ]
reserved J15-7 J14-13 J14-14 IO-26, J3 pin-3 (DSR) [ J14-13_J14-14 ]
reserved J15-8 J14-15 J14-16 IO-27, J3 pin-7 [ J14-15_J14-16 ]
reserved J17-1 J16-1 J16-2 IO-21, J2 pin-3 [ J16-1_J16-2 ]
reserved J17-2 J16-3 J16-4 IO-0, J3 pin-8 [ J16-3_J16-4 ]
reserved J17-3 J16-5 J16-6 reserved
reserved J17-4 J16-7 J16-8 reserved
Reserved J17-5 J16-9 J16-10 J18 pin-5 [ J16-9_J16-10 ]
Reserved J17-6 J16-11 J16-12 J18 pin-7 [ J16-11_J16-12 ]
Reserved J17-7 J16-13 J16-14 J18 pin-9 [ J16-13_J16-14 ]
Reserved J17-8 J16-15 J16-16 J18 pin-11 [ J16-15_J16-16 ]
Table 3: IO-allocation via jumpers J14, J15, J16, and J17
Connected to Left row
jumper pin
Right row jumper pin Connected to Default
J14-8 J18-1 J18-2 SPI_MISO, U5-PB-2
J14-8 J18-3 J18-4 IO-19, J4 pin-4 (CTS) [ J18-3_J18-4 ]
J16-10 J18-5 J18-6 IO-14, J4 pin-2 [ J18-5_J18-6 ]
J16-12 J18-7 J18-8 IO-13, J4 pin-9 [ J18-7_J18-8 ]
J16-14 J18-9 J18-10 IO-15, J4 pin-1 [ J18-9_J18-10 ]
J16-16 J18-11 J18-12 IO-12, J4 pin-10 [ J18-11_J18-12 ]
Table 4: IO-allocation via jumper J18
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1.4.1 Default jumper configuration
Figure 5: Jumper configuration to enable UART, IOs, and switches 1 and 2
1.4.2 RMII to PHY jumper configuration
The jumpers shown in Figure 6 must be inserted to connect the 10Base-T/100Base-TX PHY with the
associated module RMII interface pins.
When the RMII PHY is connected to the module, the “BLUE-LED” is not available at IO-21.
Figure 6: RMII to PHY jumper configuration
J18-10 to IO15
Mod pin-21 to J18-3
SW2 to IO27
Mod pin-20 to IO22 (RTS)
Mod pin-16 to IO25 (DTR)
Mod pin-17 to IO26 (DSR)
3.3V to Mod pin-10
3.3V to Mod pin-9
J18-6 to IO14
J18-8 to IO13
SW1 to IO33
J18-12 to IO12
Mod pin-31 to J18-5
Mod pin-35 to J18-7
Mod pin-32 to J18-9
Mod pin-36 to J18-11
J18-4 to IO19 (CTS)
Mod pin-18 to IO27
Mod pin-27 to IO0
Mod pin-29 to IO18
Mod pin-28 to IO5
Optional: Jumpers to connect
J20
with module JTAG interface Jumpers to connect Ethernet
PHY
with module RMII interface
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1.5 LEDs
Figure 7: Position of LEDs on EVK-NINA-W1/EVK-NINA-B2
Function Description Name Color
Power LED Supplied from the EVK 3.3 V DC/DC converter DS8 Green
UART TxD Flashing LED indicates UART Tx activity (output from the module) DS2 Green
UART RxD Flashing LED indicates UART Rx acitivty (input to the module) DS3 Amber
UART RTS LED indicates UART RTS status (output from the module) DS4 [ 1 ] Green
UART CTS LED indicates UART CTS status (input to the module) DS5 [ 1 ] Amber
UART DTR LED indicates UART DTR status (output from the module) DS6 [ 1 ] Green
UART DSR LED indicates UART DSR status (input to the module) DS7 [ 1 ] Amber
status RGB LED shows status for u-connectXpress
☞ See the data sheet for NINA-W10, NINA-W13, NINA-W15 and
NINA-B2 for additional information.
DS9 [ 1 ] RGB
Table 5: EVK-NINA-W1/EVK-NINA-B2 LEDs description
☞ [1] To control the LEDs, the corresponding signal jumper(s) must be populated.
1.5.1 RGB-LED jumper configuration
The jumpers shown in Figure 7 must be inserted to connect the RGB-LED driver with the associated
module pins.
Figure 8: RGB-LED to IO signals jumpers
DS2
DS4
DS8
DS5
DS6
DS9
DS7
DS3
IO-33 to GREEN LED
IO-21 to BLUE LED
IO-23 to RED LED
Mod pin-1 to IO-23
Mod pin-8 to IO-21
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1.6 Connectors
The available connectors on the EVK-NINA-W1/EVK-NINA-B2 board are shown in Figure 9.
Figure 9: EVK-NINA-W1/EVK-NINA-B2 connectors
Connector Description
J1, J2, J3, J4 Connectors for accessing the NINA-W1 IO signals (GPIO)
J8 USB connector; type Micro-B
J10 Reserved
J21 RF-port at U.FL coaxial connector for external antenna (not used on EVK-NINA-B221 or EVK-NINA-W1x2)
J22 RJ45 connector, RMII to PHY
J23 2.1 mm Power jack, positive center pin, 5 – 12 V
Table 6: EVK-NINA-W1/EVK-NINA-B2 connector descriptions
1.7 Buttons
The EVK-NINA-W1/EVK-NINA-B2 evaluation board has four buttons as explained in Table 7. Two of
them can be connected to NINA pins via jumper configuration.
Button Description
RESET Reset button, triggers the reset logic that pulls module pin-19 low
BOOT If reset is asserted pressing BOOT-switch will pull module pin-27 low
SW1 General function button connected to jumper J5 pin-2
SW2 General function button connected to jumper J6 pin-2
Table 7: EVK-NINA-W1/EVK-NINA-B2 buttons descriptions
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1.8 Configuration options
Module pin
number
IO- signal Primary
function
Accessible at
Jumper/Connector
Module pin
number
IO-
signal
Primary
function
Accessible at
Jumper/Connector
1 GPIO-23 J14-5, [J4-5, J7-1] ( 1
)
20 GPIO-22 UART_RTS J14-9, [J3-7] ( 1 )
2 GPI-34 J2-3 21 GPIO-19 UART_CTS J14-7, [J4-4] ( 1 ) ( 2 )
3 GPI-39 J2-1 22 GPIO-1 UART_TXD J3-2
4 GPI-36 J2-2 23 GPIO-3 UART_RXD J3-1
5 GPIO-32 J2-6, J11-2 24 GPIO-4 J16-7
6,12, 14 GND J1-6,-7, J4-7, J12-1,-
2
25 GPIO-2 J16-5
7 GPIO-33 J2-5, J5-1, J7-5 26, 30 GND J1-6,-7, J4-7, J12-1,-
2
8 GPIO-21 J16-1, [J2-4, J7-3] ( 1
)
27 GPIO-0 J16-3, [J3-8] ( 1 )
9 VCC_IO J25-2 28 GPIO-5 J14-1, [J4-3] ( 1 )
10 VCC J26-2 29 GPIO-18 J14-3, [J4-6] ( 1 )
13 RF-port Antenna J21 31 GPIO-14 J16-9, [J4-2] ( 1 ) ( 2 )
16 GPIO-25 UART_DTR J14-11, [J3-4] ( 1 ) 32 GPIO-15 J16-13, [J4-1] ( 1 ) ( 2 )
17 GPIO-26 UART_DSR J14-13, [J3-3] ( 1 ) 34 GPI-35 J3-5
18 GPIO-27 J14-15, [J3-6, J6-1] (
1 )
35 GPIO-13 J16-11, [J4-9] ( 1 ) ( 2 )
19 RESET-N RESET (J1-3 via logic) 36 GPIO-12 J16-15, [J4-10] ( 1 ) ( 2 )
Table 8: Module pin to IO signal conversion
☞ (1) Connector/jumper placed inside the brackets indicates that a jumper must be positioned at
the corresponding position of the IO distribution jumpers J14 – J17 if the IO-signal is to be
presented at the designated connector/jumper as mentioned in Table 3.
☞ (2) These IO signals require a second jumper to be positioned at the IO distribution jumper J18 as
mentioned in Table 4.
1.8.1 Power supply
The supply voltage to the EVK-NINA-W1/EVK-NINA-B2 evaluation board can be sourced from the
following connectors:
USB (J8)
☞ Depending on your USB source, the USB supply current may be insufficient.
External power supply (J23): The external supply voltage must be in the range 5 – 12 V
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2 Setting up the evaluation board The EVK-NINA-W10 is delivered without any software (open CPU) and the software must be
developed by the user.
The EVK-NINA-B2, EVK-NINA-W13, and EVK-NINA-W15 are delivered with the u-blox connectivity
software pre-flashed on the module.
⚠ The module is designed to be used only with the applicable software and only compatible
software can be flashed on the module.
Before connecting the module, download and install the latest u-blox s-center evaluation software
from the u-blox website.
Plug in external supply power at connector J23 or connect J8 (USB type Micro B) to a USB host
using the USB cable. The status light (DS8) will turn green, indicating that the internal EVK 3.3 V is
on.
⚠ When using the evaluation board with external antenna, before powering up the EVK, ensure
that you have connected the 2.4 GHz antenna with the U.FL antenna connector (J21). Failing to
do so may cause undesired operation.
⚠ Be careful to check polarity before connecting external power supply to the evaluation board.
Center conductor is positive (+) and the ring is negative (-).
⚠ The current consumption during startup of the evaluation board can be high.
The operating system will install the correct COM port drivers automatically. The drivers will need to
be installed only when you connect the unit to a new computer for the first time. For more
information about the COM ports and their configuration, see the FTDI FT4232H Datasheet [6].
One COM port will automatically be assigned to the unit by the Windows OS. To view the assigned
COM ports on Windows 7, follow the steps mentioned below:
Open the Control Panel and click Hardware and Sound.
Click Device Manager in Devices and Printers. This will open the Device Manager window where
you can view the assigned COM ports.
2.1 EVK without software (open CPU)
The chapter is applicable to the following EVKs.
EVK-NINA-W101
EVK-NINA-W102
When using the NINA-W10 open CPU variant, it is not possible to download the u-blox connectivity
software. Use the software developed and compiled using the Espressif SDK on this variant.
Information on how to build and FLASH the module when using Espressif SDK is available at the
following URL - http://esp-idf.readthedocs.io/en/latest/get-started/index.html.
This URL webpage provides information on how to set up the software environment using the
hardware based on the Espressif ESP32 such as NINA-W10 and also how to use the ESP-IDF
(Espressif IoT Development Framework).
The following steps must be performed to compile, flash, and execute a program on NINA-W10:
Set up the Toolchain
o Windows, Mac, and Linux is supported
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Get the ESP-IDF
o Download the GIT repository provided by Espressif
Setup Path to ESP-IDF
o The tool chain program can access the ESP-IDF using the IDF_PATH environment variable
Build and Flash
o Start a Project, Connect, Configure, Build and Flash a program
More information about this is available at http://esp-idf.readthedocs.io/en/latest/index.html
More information on this topic can be found in the NINA-W1 System Integration Manual [7].
2.2 EVK with u-blox connectivity software
This section is applicable for the following EVKs:
EVK-NINA-B221
EVK-NINA-B222
EVK-NINA-W131
EVK-NINA-W132
EVK-NINA-W151
EVK-NINA-W152
2.2.1 Starting up
Perform the following steps to enable communication with the module:
1. Start the u-blox s-center evaluation software.
2. Use the default baud rate 115200, 8N1 with flow control. Now, it is possible to communicate
with the module through AT commands.
For a list of available AT commands, see the u-blox Short Range AT Commands Manual [5].
2.2.2 Getting the latest software
Go to the u-blox support web page to obtain the latest available software. Instructions on reflashing
the evaluation board can be found in the Software section of the NINA-B2 System Integration
Manual [8] or the NINA-W1 System Integration Manual [7].
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Appendix
A Layouts
Figure 10: Primary and secondary side layouts of EVK-NINA-W1/EVK-NINA-B2
R 1 0
D S 8
D 5
J 8
J 2 3
R 2 0
C 8
F 1
R 1 9
D 1
C 9
J 2 2
C3
4C
14
R 1 8R 1 7
D 4
C 4 0
D 3
S 4
C 4 2
L 1C 4 4
C4
1
C4
3
C 4 6
C4
5
R 7 2
R 6 9R 7 1
C2
6R
30
R2
1
R1
C 4 7
U 7
J 2 4
C1
5
F B 1
F B 2
Y 1
R 1 3
J 4
R2
R 7 4R 7 5
C2
1
R2
9
C1
6C
12
C1
3R
23
U 6R
37
R3
L 2
C1
7
C 2 3
C2
5
R2
5
R 2 2
C 1 0
J 1
C2
0
U 5
J 2 0
C 1 8
C 1 1
C2
2
C 1 9
C2
4
R 3 3
R 5 1
R 3 4
R 3 1
R 4 1
R1
6R
38
R 1 1
U 4
C3
R 3 2
D 6
R6
8
C 4
FB
3
R 5 2
D2
J 1 0
R4
0
J 3
J 2
J 7
C3
8 Y 3
C3
3C
32
R5
3
R3
9
R6
7
U 8
C 3 5C 3 6
C 4 9
C4
8R
43
R3
6
U 9
C 3 9
J 1 1
R 5 5
Y 2
C3
1
R 5 7
C3
0
R 6 4
R 6 5
R 5 9R 5 8
R 6 0
R3
5
C2
7
R4
7R
48
R 5 6R 6 2R 6 1R 6 3R 5 4
C3
7 R 4 2
R2
8
J 1 7
J 1 5
S 3
R2
7
J 1 6
J 1 4
R2
6
C 7
J 1 8
J2
5
J 5
C2
8
S 1
R 7 0
R 4 5
C2
9
J2
6
R 4 6R 7 8R 8 1R 7 3
R 6 6R 7 9
R8
0R
77
R 4 4R 7 6
C 5
J 6
U 1
U 3
C 1
U 2
C 2
S 2
D S 7
D S 6
D S 5
D S 4
D S 3
D S 2
C6
R 8
R 9
R 7
R 6
R 5
R 4
97
53
1
10
86
42
R2
4
R 5 0 R 4 9
J1
2
M 1
R 1 2R 1 4R 1 5
J 2 1
D S 1
J 1 9
1
T P 4
T P 3
T P 2
T P 1
T P 6T P 5
T P 7
R1
50
R1
49
EVK-NINA-W1/EVK-NINA-B2 - User guide
UBX-17011007 - R07 Appendix Page 16 of 23
B Schematic drawings
TXD
RTS
CTS
DTR
DSR
RXDMOP-23
ORANGE
GREEN
3V3
VCC=3V3;GND=GND
20%
IO-33/SW-1/GREEN_LED
IO-12/SDIO_D2/TDI
IO-13/SDIO_D3/TCK
IO-19/SPI_DO/CTS/RMII_TXD0
IO-15
IO-5
IO-19
IO-13
IO-12
5%
0
ORANGE
5%
ETH_RESET-DLY
LED_RED
LED_BLUEIO-215%220RGREEN
ORANGE
GREEN
GREEN
220R
100N
3V3
LED_GREEN
ETH_RESET-DLY
EVB_RESET-N
IO-3/RXD
IO-1/TXD
IO-26/DSR/RMII_RXD1
IO-25/DTR/RMII_RXD0
I-35
IO-27/SW-2/RMII_CRSDV
IO-22/RTS/SPI_WP/RMII_TXD1
VCC=3V3;GND=GND
VCC=3V3;GND=GND
3V3
IO-26
IO-25
IO-19
MOP-22
IO-22
3V3
IO-23
Wed Mar 15 16:05:40 2017
PAGE 1 OF 5
EVB-NINA-W1Ovik
u-blox AG $Change: 583817
B
04
I-39
I-36
I-34
IO-21/SPI_HD/BLUE_LED/RMII_TXEN
IO-32/LPO
10%
IO-0/SYS_BOOT/RMII_CLK
RESET-N
MOP-23
MOP-22
MOP-34
ARDUINO_1C
IO-0
IO-22
IO-25
IO-26
IO-27
IO-15/SDIO_CMD/TDOEVB_RESET-N
MOP-3
MOP-4
IO-21
ARDUINO_1B
MOP-7
MOP-2
5%
5%
NC
220R
100N
220R
10%
10%
3V3 5%
5%
220R
220R 5%
100N
10%
10%
100N
10K
IOREF
33R
220R
GND
IO-18/SPI_CLK
5%
0R
0VIN
10%
100N
SW2
2U2
VIN
10K
5%
IO-27
SW-1
MOP-7
5%1K0
1K0
5%2K7
10K
10K 5%
10K
VCC=3V3;GND=GND
RGB
5%
100N
IO-18
3V3
RESETIO-23
EVB_RESET-N
3V3
ETH_RESET-N
3V3
HEADERS/LED/SW
5%
3V3USB_5V
RESET-N
MOP-7
5%
NC
0R
ARDUINO_1A
GND
GND
5V0
3V3
MOP-5
IO-23/SPI_DI/RED/LED
IO-5/SPI_CS
IO-14/SDIO_CLK/TMS IO-14
ARDUINO_1D
1
1
1
1
1
1
1
1
1
1
1
1
R
G
B
A
65
43
21
U1
U2
U3
U4
J7
DS1
R26
R7
R8
R9 R10
R6
R5
R16
R1
R4
R14
R12
R15
R28
R27
R3
R2
DRAWING TITLE :
74LVC3G07
74LVC3G07
1
2
54
3
6
789
10
wurth_150141m173100
74LVC3G07
74LVC3G07
1
2
5
43
8
76
1
2
5
43
8
76
654
32
1
C1
C2
C6
C5
C7
R11
C3
C4
C
3
C
A
A
7
5
5
6
3
1 7
2
C
AC
AC
5
6
3
1 7
2
6
3
1
2
123
8
4567
3
163
8
C
2
4
4
2
A
1 2
1
3
3
A C
3
1
4
2
2
7
10
543
1
6
2
1
5 642
5
7
6 2
3
1
1 3
2
4
6
4
A
1
5
12
54
12
789
DS3
DS2
DS4
DS5
DS8DS7
DS6
J1
J3
S3
S2
S1J5
J6
J2
J4
E
D
C
B
A A
E
D
C
B
12345678
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U-BLOX AG
DATE :
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VERSION :PROJECT :
A3
Wed Mar 15 07:44:12 2017EVB-NINA-W1
PAGE 2 OF 5
BOvik
u-blox AG
04
$Change: 583817
10%
100N
12MHZ
EVB_RESET-N
3P9
+/-0.5P
30R@100MHZ
10%
100N
100N
100N
5%
10K
5%
10K
5%
18P 5%
FTDI_SPI_CLK
FTDI_BOOT-N
5%
DNI
10%
20%
0
USB_5V
2K2
100N
10%
10%
100N
10%
100N
100N
10%
10%
10%
100N
10%
100N
10%
100N
30R@100MHZ
20%
4U7
10%
10%
FTDI_IO-D14U7
FTDI_TDI
FTDI_IO-D2
0R 0
0R
00R
0R
USB-FTDI INTERFACE
4U7
20%
3V3
3V3
FTDI_IO-D3
FTDI_IO-D4
FTDI_IO-D5
5%
0
IO-22
12K
10K
3V3
40PPM
3P9
00R
0R
USB_DM_D
FTDI_USB_DP
5%
18P
5%
1%
FTDI_SPI_CS
0FTDI_RESET-N
FTDI_TDO
FTDI_SPI_MISO
5%
0
0R
IO-25
IO-26
0
00R IO-19
FTDI_DSR
FTDI_IO-D0
0R
0R
0R 0 MOP-22FTDI_RXD
0R 0 MOP-23FTDI_TXD
FTDI_DTR
FTDI_CTS
FTDI_RTS
FTDI_SPI_MOSI
FTDI_IO-D7
FTDI_IO-D6
0
0
USB_DP_D
FTDI_TMS
0R
FTDI_TCK
+/-0.5P
5%
3V3
JTAG_BOOT-N
RESET-N
JTAG_TMS
JTAG_TDO
JTAG_TDI
JTAG_TCK
FTDI_USB_DM
100N
10K
10K
3V3
10M
100N
SGND=GNDA
USB_DP
USB_DM
USB_5V
DNI
10K
100K
5%
US
B M
ICR
O B
GN
D
AG
ND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
DM
VUSB
GND
DP
N.C.
TXD/TCK/SCL
DTR#/GPIO0
CTS#/TMS/CS
DSR#/GPIO1
DCD#/GPIO2
RI#/TXDEN#/GPIO3
RTS#/TDO/DI
RTS#/TDO/DI
CTS#
RI#/TXDEN#
EECLK
EECS
DP
DM
RESET#
EEDATA
CTS#/TMS/CS
DTR#/GPIO0
RXD/TDI/DO
TXD/TCK/SCL
OSCI
TXD
DCD#
RXD
VCORE
DSR#/GPIO1
DCD#/GPIO2
TXD
CTS#
RI#/TXDEN#/GPIO3
RXD
RTS#
SUSPEND#
PWREN#
TEST
RI#/TXDEN#
RXD/TDI/DO
VCCIO
VCCIO
VCCIO
VCCIO
VCORE
DCD#
DSR#
RTS#
DSR#
DTR#
DTR#
VCORE
VREGOUT
OSCO
VPHY
VPLL
VREGIN
REF
93XX56X
GNDA
U6
J8
VCCGND
I/O1 I/O1
I/O2 I/O2
GND
DI
VCC
CS
CLK
DO
CAT AN
R1
9
R13
D6
C25
R40
C34
R18
R17
C26
R32
R39R38
R37R36R35
J10
C14
R30
R33R31
R41
R34
R29
R20
C8
DRAWING TITLE :
1
23
45
87
6
FT4232H
PO
WE
R
PO
RT
AP
OR
T B
PO
RT
CP
OR
T D
R23
R21
R25
R22
C13
C19
C18
C17
C23
C22
C21
C16
C15
C24
C12
C11
C20
C9
R24
C10
21
5
34
16
2119
222324
28
18
54
46
6263
87
14
61
2930
2726
2
48
45
5264
3233
38
41
34
3940
36
60
13
59
17
56423120
37
5857
53
4443
55
12
49
3
49
50
62
3
6
5
4
1
4
678
21
5
63
5
1
2
4
3
USBLC6 2SC6
FB2
FB1
J24
E
D
C
B
A A
E
D
C
B
12345678
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U-BLOX AG
DATE :
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GROUP :
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ICM:
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VERSION :PROJECT :
1
10
51
475
25
35
11
15
65
D1
Y1
U5
A3
MOP-9 -> VCC_IO
POPULATE POSITION M1 WITH NINA-W132
EVB-NINA-W102 WITH INTERNAL ANTENNA
PRODUCT VARIANTS
POPULATE POS M1 WITH NINA-W101
EVB-NINA-W101 WITH U.FL CONNECTOR
MOP-10 -> VCC
MOP-6 -> GNDMOP-7 -> SW-1/LED_GREEN/GPIO-33MOP-8 -> RMII_TXEN/LED_BLUE/GPIO-21
MOP-5 -> LPO_CLK/GPIO_32MOP-4 -> GPI-36MOP-3 -> GPI-39MOP-2 -> GPI-34MOP-1 -> SPI_DI/LED_RED/GPIO-23
MOP-35 -> JTAG_TCK/SDIO_D3/GPIO-13
3 X 16 PINHEADER
POPULATE POSITION M1 WITH NINA-W102
EVB-NINA-W131 WITH U.FL CONNECTOR
POPULATE POS M1 WITH NINA-W131
EVB-NINA-W132 WITH INTERNAL ANTENNA
MOP-30 -> GND
MOP-32 -> JTAG_TDO/SDIO_CMD/GPIO-15/BSP-1(10K PULL-DOWN)
MOP-33 -> RESERVED
MOP-34 -> GPI35
ANTENNA U.FL CONNECTOR
MOP-36 -> JTAG_TDI/SDIO_D2/GPIO-12/BSP-2(10K PULL-UP)
MOP-27 -> RMII_CLK/GPIO-0/BOOT-N(10K PULL-UP)
MOP-28 -> SPI_CS/I2C_SDA/GPIO-5/BSP-0
MOP-29 -> SPI_CLK/I2C_SCL/GPIO-18
MOP-31 -> JTAG_TMS/SDIO_CLK/GPIO-14
MOP-14 -> GND
MOP-18 -> RMII_CRSDV/SW-2/GPIO-27
MOP-23 -> UART_RXD/GPIO-3
MOP-25 -> RMII_MDCLK/SDIO_D0/GPIO-2/BSP-3MOP-24 -> RMII_MDIO/SDIO_D1/GPIO-4
MOP-22 -> UART_TXD/GPIO-1MOP-21 -> RMII_TXD0/SPI_DO/UART_CTS/GPIO-19MOP-20 -> RMII_TXD1/UART_RTS/GPIO-22MOP-19 -> RESET-N(150K PULL-UP 10NF TO GND)
MOP-17 -> RMII_RXD1/UART_DSR/GPIO-26MOP-16 -> RMII_RXD0/UART_DTR/GPIO-25
MOP-15 -> RESERVED
MOP-11 -> RESERVEDMOP-12 -> GNDMOP-13 -> RF_PORT
MOP-26 -> GND
Thu Mar 16 16:17:45 2017
PAGE 3 OF 5
EVB-NINA-W1Ovik
u-blox AG $Change: 583817
B
04
10K 5%
BOM_EVK_NINA_W132=UBXH14-0000348BOM_EVK_NINA_W131=UBXH14-0000349
1K0
RESET-N
BOM_EVK_NINA_W132=DNI
FTDI_SPI_CLK
MOP-28
JTAG_TDO
0
FTDI_SPI_CS
3V3
10%
MOP-18
RESET-N
MOP-17
MOP-16
ETH_TXD1
MOP-20
MOP-21
MOP-36
MOP-29
MOP-32
MOP-31
MOP-28
MOP-34
MOP-27
MOP-35
3V3
5%
ETH_RESET-N
VCC=3V3;GND=GND
3V3
MOP-9
2K7
10K
DNI
DNI
0R
MOP-10
IO-0
5%
10R
10R
10R
10R
3V3
SDIO_D2
SDIO_D1
10R
5%
5% SDIO_D3
GND=GND
JTAG_TDI
JTAG_RESET-N
10K
10K 5%
5%
10K
JTAG_TMS
MOP-25
SDIO_D0
SDIO_CLK
SDIO_CMD
3V3
3V3
5%
10K
5%
5%
10K
5%10K
ETH_MDC
ETH_REFCLK
10R
5%
5%
5%
MOP-36
JTAG_TMS
JTAG_TCK
0R
IO-12
IO-15
IO-13
IO-14
MOP-5
5%
5%
20PPM
MOP-3
MOP-2
MOP-1
100N
MOP-10
3V3
MOP-8
JTAG_TDO
IO-26
MOP-5
DNI
MOP-27
MOP-16
MOP-20
MOP-17
MOP-18
MOP-24
ETH_TXEN
JTAG_TCK
JTAG_TDI
IO-18
ETH_TXD0
IO-23
IO-27
MOP-23
MOP-24
MOP-25
10N
10%
JTAG_BOOT-N
10%
100N
IO-19
MOP-31
ETH_MDIO
IO-5
NINA-W1
FTDI_SPI_MISO
100N 10%
ETH_CRSDV
ETH_RXD1
ETH_RXD0
MOP-29
MOP-1
MOP-21
IO-21
MOP-32
MOP-35
MOP-27
100N
MOP-22
MOP-9
MOP-8
0R
0R
DNI
IO-22
0R
10%
IO-25
32.768KHZ
SPI_MISO/IO-19
FTDI_SPI_MOSI
MOP-7
MOP-4
3V3
9
7
5
1
3
12
10
8
6
11
2
4
6
12
1615
1413
11
1
109
87
5
43
2
6
12
1615
1413
11
1
109
87
5
43
2
109
1
7
3
5
8
2
6
4
29
33
28
34
35
36
26
31 27
15
14
13
12
11
32
30
J20
J14
J16
J18
DAT1
DAT2
CD/DAT3
CLK
CMD
VDD
VSS
DAT0
7
42
1
4
1
10
6
4
3
5
2
8
7
5
8
9
2
6
3
22
23
25
17
24
3
2
16
4
1
21
20
19
18
6
7
8
10
9
5
MICROSD CARD
R81R80R79
R78R77R76
R73R70
R66R46R45
R44
R43
J17
R48
R47
R50
R49
R150
R149
C39
R51
J15
C48 R42
DRAWING TITLE :
1
1
2
345
876
1
2
345
876
J19
VDD
GND
CLKOUT
CLKOE
1
C28
C27
C29
2223
25
17
2432
16
4
1
21201918
678
109
5
6
12
16151413
11
1
10987
5432
21
543
678
6
12
16151413
11
1
10987
5432
21
543
678
2
4
1
5
1
101211
68
3
79
4
3 2
3
4
21
21
ANTENNA
U9NC7SZ125
OE_N
J11
J26
J12
S4
J21
J25
E
D
C
B
A A
E
D
C
B
12345678
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VERSION :PROJECT :
29
33 2
83
4
35
362
6
31 2
7
15
14
13
12
11
323
0
Y2 OV_7604_C7
M1
A3
2.1MM POWER JACK4.75 V < VIN < 12 V
Fri Mar 17 11:30:21 2017
Ovik04
$Change: 583817
EVB-NINA-W1
PAGE 4 OF 5u-blox AG
B
ETH_MDC
ETH_MDIO
ETH_TXEN
10R
4K7
3V3
10R
VIN
1K0
22U
20%
0
5%
20%
DNI0R
PHY_XO_IN
PHY_LED0
5%22P
10%
22U
100N
10%
DNI
1K0
5%
3V3
3N3
10N
22U
100N4U7
5%
10R
5%
10%
GND=GND
POWER & ETHERNET
1K0
100K 1%
0
1%
5%
5%
20%
5%1K0
1K0
PHY_RXP
PHY_TXP
120R
3V3
5%
5%
2U2
3V3
3V3
2U2
6K49
3V3
20%
3V3
10%
5%
EVB_RESET-N0R
10%
100N
10%
PHY_RXN
PHY_TXN
2U2
5%
5%
5%
5%
5%
5%
ETH_RXD1
ETH_RXD0
ETH_TXD1
ETH_TXD010R
10R
10R
10R
10%
ETH_CRSDV3V3
20%
100N
100N
10%
10%
ETH_REFCLK
+/-20PPM25.0MHZGND=GND
10R
100N
5%
PWR_JACK_IN10U
30%
3V3
10%
1N5
10K
ETH_RESET-N
4K7
10%
10%4U7
USB_5V
30R@100MHZ
CAT
AN
GNDA
CHS_GND
CHS_GND
YELLOW_LED_A
YELLOW_LED_C
GREEN_LED_A
GREEN_LED_C
CHS_GND
CT
RD-
RD+
CT
TD-
TD+
ST
OUT
VCC
LED0/ANEN_SPEED
REF_CLK
RXD1
RXD0
INTRP
CRSDV/PHYAD[1:0]
RST_N
MDC
GND
MDIO
TXEN
RXER
TXD0
TXD1
VDDIO
VDD_1_2
VDDA_3_3
TX-
TX+
RX+
RX-
XI
XO
REXT
J22
U8
Y3
CAT
AN
R6
5
C3
5
C3
3C4
9
C3
0
C3
1 C3
6
C3
2
R56
R52
R57
R69
R74
L1
FB3
L2
R68
R72R71
R75
C44
R60
R61
R62
R58R59
R63
R64
C45C43
D2
DRAWING TITLE :
KSZ8081
D5
C47
C41
C38
R54
R55
C46
R67
C40
R53
15
17
1011
A
9
212
1413
5
11
9
6
32
6
3
310
9
14
13
16
15
5
4
7
8
24
1
21
21
21
61
3
18
14
1920
12
8
4
10
13
3
16
12
41
C
21
11
8
23
4
5
7
CA
J23
D3
D4
CON_PWR_03_SWITCH
TP7
TP2TP1
TP6
TP5
C37
TP4TP3 C42
E
D
C
B
A A
E
D
C
B
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VERSION :PROJECT :
PGND_2
PGND_1
PG
VOS
SW_3
SW_2
SW_1
PVIN_2
PVIN_1
F1
AGND
FB
FSW
DEF
SS/TR
EN
AVIN
FUSE
U7TPS6213X
A3
EVK-NINA-W1/EVK-NINA-B2 - User guide
UBX-17011007 - R07 Appendix Page 21 of 23
C Glossary Name Definition
COM Communication
CTS Clear to send
DSR Data set ready
DTR Data terminal ready
EVK Evaluation kit
GND Ground
GPI General purpose input
GPIO General Purpose Input/Output
IO Input-output
LED Light-Emitting Diode
PHY Physical layer
U.FL Miniature coaxial RF connector
USB Universal serial bus
RF Radio frequency
RMII Reduced Media-Independent Interface
RTS Request to send
UART Universal asynchronous receiver/transmitter
USB Universal serial bus
VCC IC power-supply pin
Table 9: Explanation of abbreviations used
EVK-NINA-W1/EVK-NINA-B2 - User guide
UBX-17011007 - R07 Related documents Page 22 of 23
Related documents [1] NINA-W10 data sheet, doc. no. UBX-17065507
[2] NINA-W13 data sheet, doc. no. UBX-17006694
[3] NINA-W15 data sheet, doc. no. UBX-18006647
[4] NINA-B2 data sheet, doc. no. UBX-18006649
[5] u-connect AT commands manual, doc. no. UBX-14044127
[6] FTDI FT4232H QUAD HIGH SPEED USB TO MULTIPURPOSE UART/MPSSE IC Datasheet -
http://www.ftdichip.com/Support/Documents/DataSheets/ICs/DS_FT4232H.pdf
[7] NINA-W1 system integration manual, doc. no. UBX-17005730
[8] NINA-B2 system integration manual, doc. no. UBX-18011096
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Revision history Revision Date Name Comments
R01 22-May-2017 ovik, kgom Initial release.
R02 04-Jul-2017 ovik, mwej Updated Figure 9 and Table 8 due to pin swap on connectors J2 and J3.
Updated schematic drawing (Appendix B). Updated assigned COM ports in
section 2.1.
R03 09-Nov-2017 kgom Renamed this document as EVK-NINA-W13 User Guide and updated the content
due to the availability of a separate user guide for the
EVK-NINA-W10x evaluation kits (UBX-17057549).
R04 12-Mar-2018 cmag Updated the software version to 1.0.0 in the last table on page 2 and the “Related
documents and links” section.
R05 29-Nov-2018 fbro, kgom Renamed this document. Restructured the information to include support for
EVK-NINA-W1 and EVK-NINA-B2.
R06 8-Jul-2019 ovik Minor updates.
R07 5-Sep-2019 flun Clarified the status for RGB LED in Table 5 (section 1.5).
EVK-NINA-W1/EVK-NINA-B2 - User guide
UBX-17011007 - R07 Contact Page 23 of 23
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