homechevron_rightDocschevron_rightDatasheetschevron_rightNotecard Datasheet - NOTE-WBEXW

Blues Notecard® Datasheet: NOTE-WBEXW

Cellular Device-to-Cloud Data Pump

Affordable, embeddable module for low-power cellular connectivity.

Modern industrial and commercial systems increasingly need to securely send data to the cloud, and often enable remote control, as well. These requirements require greenfield or retrofit designs to adapt existing systems to this new operating reality.

The growing danger of connecting devices to the internet using Wi-Fi, combined with the increasing need to track assets while in-motion, has generated tremendous interest in cellular as an alternative for safe and reliable transport of data between devices and the cloud.

To date, however, cellular communications have been equated with high cost, power-hungry devices, and high implementation complexity for hardware and software developers alike.

Functional Description

As an embeddable device-to-cloud data pump, the Notecard eliminates all complexity and friction that exists with existing IoT solutions. It enables development and rapid iteration of production-quality secure cellular, Wi-Fi, or LoRa IoT solutions at an extremely low, fixed cost. With as little as two lines of code on the controlling MCU, and with no external libraries or dependencies, data can be sent from device to cloud.

Notecard is:

A drop-in embeddable data storage and transport module for cellular IoT products, pumping JSON-formatted or binary data ("Notes") bi-directionally between device and cloud:
- JSON from/to MCU application using I2C, Serial, or USB.
- JSON to/from your cloud app using HTTPS or MQTT.
- JSON is auto-tagged with date/time, tower, and GPS locations.
A removable and field-upgradable 30mm x 35-42mm system-on-a-module (SOM).
A cellular device without the monthly fees.

Wi-Fi module for additional connectivity and location triangulation.
Ability to add a second MFF2 SIM to provide extended cellular coverage.

Features

Low-power. Designed to operate on battery power, be "always-on", maintain time & location, while typically drawing less than ~18µA@5V when idle.
MCU-agnostic. Will support any MCU or single-board computer as your app processor — even low-memory, 8-bit microcontrollers.
Global. With both narrowband and wideband modems tailored for use in North America or globally, a Notecard can connect in almost any location. See Cellular Service for details.

Decoding Notecard SKUs

Each cellular-based Notecard is supplied a SKU in the format of "NOTE-XXXXX". The following table shows how to decode the differences in Notecard SKUs.

Example:	WB	GL	W	T
Bands WB = Wideband (Cat-1) MB = Midband (Cat-1 bis) NB = Narrowband (LTE-M/NB-IoT)	⬅️
Region GL = Global NA = North America EX = EMEA		⬅️
Wi-Fi W = Includes Wi-Fi N or blank = Cellular only			⬅️
Modem T = Has a Telit modem Blank = See tables below for modem				⬅️

note

Legacy Notecard Cellular SKUs have additional characters to denote the 500MB of data included, e.g. -500.

Wideband (LTE Cat-1 Notecards)

SKU	General Region	Bands	Data Networks	Modem	Wi-Fi
NOTE-WBEX-500	EX - EMEA (Europe, Middle East, Africa)	WB - Wideband	LTE Cat-1 / WCDMA / GPRS	Quectel EG91-EX	No
NOTE-WBEXN	EX - EMEA (Europe, Middle East, Africa)	WB - Wideband	LTE Cat-1 / WCDMA / GPRS	Quectel EG91-EX	No
NOTE-WBEXW	EX - EMEA (Europe, Middle East, Africa)	WB - Wideband	LTE Cat-1 / WCDMA / GPRS	Quectel EG91-EX	Yes
NOTE-WBGLWT (previously NOTE-WBGLW)	GL - Global	WB - Wideband	LTE Cat-1 / WCDMA / GPRS	Telit LE910C1-WWXD	Yes
NOTE-WBNA-500	NA - North America	WB - Wideband	LTE Cat-1 / WCDMA	Quectel EG91-NAX	No
NOTE-WBNAN	NA - North America	WB - Wideband	LTE Cat-1 / WCDMA	Quectel EG91-NAX	No
NOTE-WBNAW	NA - North America	WB - Wideband	LTE Cat-1 / WCDMA	Quectel EG91-NAXD	Yes

See Cellular Band Support for Wideband Notecards

Midband (LTE Cat-1 bis Notecards)

SKU	General Region	Bands	Data Networks	Modem	Wi-Fi
NOTE-MBGLN	GL - Global	MB - Midband	LTE Cat-1 bis	Quectel EG916Q-GL	No
NOTE-MBGLW	GL - Global	MB - Midband	LTE Cat-1 bis	Quectel EG916Q-GL	Yes
NOTE-MBNAN	NA - North America	MB - Midband	LTE Cat-1 bis	Quectel EG915Q-NA	No
NOTE-MBNAW	NA - North America	MB - Midband	LTE Cat-1 bis	Quectel EG915Q-NA	Yes

See Cellular Band Support for Midband Notecards

Narrowband (LTE-M/NB-IoT Notecards)

SKU	General Region	Bands	Data Networks	Modem	Wi-Fi
NOTE-NBGL-500	GL - Global	NB - Narrowband	LTE-M / NB-IoT / GPRS	Quectel BG95-M3	No
NOTE-NBGLN	GL - Global	NB - Narrowband	LTE-M / NB-IoT / GPRS	Quectel BG95-M3	No
NOTE-NBGLW	GL - Global	NB - Narrowband	LTE-M / NB-IoT / GPRS	Quectel BG95-M3	Yes
NOTE-NBNA-500	NA - North America	NB - Narrowband	LTE-M	Quectel BG95-M1	No
NOTE-NBNAN	NA - North America	NB - Narrowband	LTE-M	Quectel BG95-M1	No
NOTE-NBNAW	NA - North America	NB - Narrowband	LTE-M	Quectel BG95-M1	Yes

See Cellular Band Support for Narrowband Notecards

Hassle-free. The integrated, embedded MFF2 SIM features both North American and Global coverage options. No SIM or carrier subscription is required. Includes 10-years of global cellular service with 500MB of data (more data options available upon request).
Connected. Provides connectivity without the hassle of dealing with SSIDs, passwords, access points, gateways, carriers, or SIMs.
Secure. Integrated STSAFE Secure Element with hardware crypto, true hardware random number generator, and a factory-installed ECC P-384 certificate provisioned at chip manufacture.
Simple. Uses a JSON command interface over I2C, UART, or USB. Allows you to connect your 3.3V or 1.8V MCU, while eliminating complex AT commands and state to manage.
Power-conscious. Integrated GPS with LIS2DTW accelerometer, for power-optimized location/motion awareness. Not to mention a mostly-offline data sync mode for low power, and always-online mode for low latency.
Encrypted. Secures transactions without any provisioning challenges, using encrypted "off the internet" communication.
Efficient. Battery-powered cellular without the complexity of managing modems, connections, queues, or storage.
Integrated. Utilizes an extremely thin cloud infrastructure that directly routes your data to where it belongs: AWS, Azure, GCP, or your own cloud.
Built for data. Data routing and simple "no code/low code" visual data stream analysis through Notehub.io (SaaS), or host and integrate Notehub functionality into your own app (OSS).

Package Configuration

NOTE-WBEXW - Notecard, Wideband, EMEA, 500MB + Wi-Fi

Product Name: Notecard Cell+WiFi
Modem: Quectel EG91-EX
Data Networks: LTE Cat-1 / WCDMA / GPRS
Module: Silicon Labs WFM200S Wi-Fi Transceiver Module
Radio: 2.4 GHz 802.11b/g/n
General Region: EMEA (Europe, Middle East, Africa; see Cellular Service below)
Data included: 500MB

View in Store

Modem Datasheet

To best determine the supported bands and radio access technologies, RATs, refer to the modem datasheet.

Quectel EG91

Block Diagram

The Cellular Notecard is packaged using a compact removable form factor, 30mm x 42mm.

Open hardware schematics for both the Notecard and Notecarrier boards are available on GitHub, making it a straightforward task to embed the Notecard into a broad variety of host device designs.

The Notecard has an embedded MFF2 SIM that enables its included cellular service coverage, with an integrated external SIM switch for applications that require such a capability.

The Notecard can interface with the host MCU at either 1.8v or 3.3v levels.

Front	Back

Typical Application

As shown below, Notecard is not an application processor and hosts no customer application code. It can be used as a data pump peripheral that is focused on bidirectional, asynchronous, secure data staging and transfer of JSON Notes. The Notecard can also be configured as a low powered, autonomous, asset tracking device, in which case it does not require a host processor.

Typical hardware configuration diagram

Key Features

Tracking

Notes transferred by the Notecard can be tagged with time and location. Location is obtained using a GPS receiver, and time is available from both the cellular network and GPS. To optimize energy use in devices when not in motion, the Notecard has a MEMS-based, LIS2DTW accelerometer that determines when use of the GPS is not required.

Security

Modern services require that the cloud and the device perform bidirectional authentication so that neither can be spoofed. For many applications it's important that over-the-air and over-the-wire data is encrypted. For this reason, the Notecard integrates an STSAFE Secure Element which contains symmetric keys manufactured into the chip. Neither the manufacturer of the Notecard nor the manufacturer of the customer's product has any need to handle or manage secure key material. The keys generated by STMicroelectronics for the Notecard use ECC with the NIST P-384 curve, and the signature algorithm is ECDSA-with-SHA384.

Low Power Consumption

The Notecard has sophisticated power control and makes heavy use of variable clock speeds. This enables the Notecard to have a typical idle current consumption of ~18µA@5V, while still supporting active UART and I2C communication.

Power Information

The Notecard's main supply voltage (VMODEM_P) is used for the cellular modem and associated circuitry. The Notecard has on-board regulators designed for direct connection to a battery, so any voltage in the range of 2.5V to 5.5V may be provided.

The Notecard typically sits in an ~18µA@5V idle mode waiting for a request from the host MCU, however the Notecard current draw increases to the ~250mA range when the modem is active. Furthermore, when in a region requiring the use of GSM, it can spike to up to nearly 2A for a few milliseconds. The modem also draws 10's of mA when the GPS is receiving or the CPU is performing session encryption. As such, it's recommended that VMODEM_P be directly connected to a battery or other supply that is capable of handling such brief spikes. It is also recommended that PCB traces for VMODEM_P and GND be designed to handle such current.

The Notecard's logic voltage (VIO_P) is provided by the Notecarrier or host system for digital communication; it will be either 1.8V or 3.3V. Although the Notecard typically draws very little current, this supply should be designed with a 150mA budget allocated to the Notecard.

Pin Name	Direction	Pin Numbers	Usage
GND	--	3,5,6,11,18,33,39,45,51,57,71,73	Ground
VIO_P	IN	2,4	1.8V or 3.3V @ 150mA
VUSB	IN	13	USB Serial proxy for "line power", with respect to dynamic line voltage detection
VMODEM_P	IN	70,72,74	2.5V to 5.5V, capable of sustained 750mA draw

note

In order to take advantage of various Notecard features pertaining to "dynamic line voltage detection" (both now and in the future), or establish a USB Serial connection to the Notecard, you must connect the VUSB power pin and support the USB power design aspects of the Notecard.

Features include:

Continuous mode behavior with the usb flag.
Triangulate mode behavior with the usb flag.
Monitor mode behavior.

Antenna Requirements

The Notecard requires a cellular antenna. The antenna should support the entire range of LTE bands in use in the region of deployment.

All versions of the Cellular Notecard require only a single LTE antenna, though Wideband Notecards can improve their receiving sensitivity through a second antenna on the DIV u.FL connector.

The NOTE-WBEXW is a "wideband" version of the Notecard which optionally supports a second diversity antenna for maximum range when using LTE Cat-1.

The Notecard includes a PCB antenna for the Wi-Fi function. Alternatively, an external antenna can be used when connected through the Wi-Fi U.FL connector on the Notecard. Any external antenna must support the 2.4 GHz frequency band.

The antenna included on the Notecarrier A series, as well as the external antenna provided with the Notecarrier Pi, support 2.4 GHz and have been tested with the Notecard.

note

Actual RF performance of the Notecard depends on a variety of physical factors, including:

The choice of antenna(s).
The physical environment.
The trace layout, dimensions, and/or PCB tolerance of the carrier board (e.g. Notecarrier) used.

If an application utilizes GPS location, a GPS antenna is also required. The Notecard design allows the option of a passive or active GPS antenna, and can supply a 3.3V - 4.0V bias voltage to power an active antenna's LNA. If an active antenna requires a different voltage, the board designer can inject whatever voltage they require into the antenna's coax by feeding it to the VACT_GPS_IN pin.

Active GPS

If you choose to connect an Active GPS antenna to the Notecard GPS u.fl connector, you are required to provide your antenna's DC bias voltage to the center conductor of the coax antenna via VACT_GPS_IN. For your convenience and the Notecard supplies a 3.3V - 4.0V power supply at VACT_GPS_OUT whenever it activates its GPS, so VACT_GPS_OUT can be connected directly to VACT_GPS_IN. VACT_GPS_OUT must not be used for any other purpose than powering an active antenna Low-Noise Amplifier.

Pin Name	Direction	Pin Number	Usage
VACT_GPS_IN	IN	22	Active GPS antenna DC bias voltage
VACT_GPS_OUT	OUT	20	+3.3V - 4.0V from Notecard when GPS is operating

Cellular Service

A 10-year data plan with 500MB of cellular data is embedded in the Notecard, with more available for applications requiring it. No other actions related to cellular activation or deactivation are required. There are no "know your customer" restrictions, so the Notecard can be embedded in a product without knowing the ultimate end-customer. Placement of a product can be permanent. Although the coverage area may change from time to time because of local technical and regulatory restrictions.

Covered Countries

To approximately forecast the Notecard's compatibility with a country, you can research the networks available (for example on Wikipedia) and cross-reference with the modem datasheet.

warning

This list of covered countries does not imply any widespread deployment or national coverage. Carrier agreements change over time. This list is for planning purposes only - we have not independently verified coverage.

If your experience differs please let us know so we can keep this list updated.

Covered Countries
Afghanistan	Aland Islands	Albania	Anguilla
Argentina	Armenia	Aruba	Australia
Austria	Azerbaijan	Bangladesh	Belarus
Belgium	Bosnia and Herzegovina	Bulgaria	Burkina Faso
Cambodia	Cameroon	Canada	Cayman Islands
Chad	Chile	Colombia	Congo
Costa Rica	Croatia	Cyprus	Czech Republic
Denmark	Dominican Republic	Dutch Antilles	El Salvador
Estonia	Ethiopia	Faroe Islands	Fiji
Finland	France	Gabon	Georgia
Germany	Ghana	Gibraltar	Greece
Greenland	Guernsey	Haiti	Hong Kong
Hungary	Iceland	Indonesia	Ireland
Isle Of Man	Israel	Italy	Japan
Jersey	Jordan	Kazakhstan	Kenya
Kyrgyzstan	Lao	Latvia	Lesotho
Liechtenstein	Lithuania	Luxembourg	Macao
Macedonia	Malawi	Malaysia	Mali
Malta	Martinique	Mayotte	Mexico
Moldova	Mongolia	Montenegro	Morocco
Mozambique	Nepal	Netherlands	New Zealand
Norway	Panama	Peru	Poland
Portugal	Romania	Rwanda	Saint Barthelemy
Saint Kitts and Nevis	Saint Lucia	Saint Martin	Seychelles
Singapore	Slovakia	Slovenia	South Africa
Spain	Sri Lanka	Suriname	Sweden
Switzerland	Taiwan	Tajikistan	Tanzania
Thailand	Trinidad and Tobago	Ukraine	United Kingdom
Uruguay	Uzbekistan	Virgin Islands (British)	Zambia
Zimbabwe

Cellular Band Support by SKU

Wideband Bands (LTE Cat-1 Notecards)

SKU	Modem	LTE Cat-1	WCDMA (3G)	GSM/EDGE (2G)
NOTE‑WBEX‑500	Quectel EG91‑EX	B1, B3, B7, B8, B20, B28	B1, B8	900, 1800 MHz
NOTE‑WBEXN	Quectel EG91‑EX	B1, B3, B7, B8, B20, B28	B1, B8	900, 1800 MHz
NOTE‑WBEXW	Quectel EG91‑EX	B1, B3, B7, B8, B20, B28	B1, B8	900, 1800 MHz
NOTE‑WBGLWT	Telit LE910C1‑WWXD	B1, B2, B3, B4, B5, B7, B8, B8_US, B9, B12, B13, B14, B18, B19, B20, B25, B26, B28	B1, B2, B4, B5, B6, B8, B19	B2, B3, B5, B8
NOTE‑WBNA‑500	Quectel EG91‑NAX	B2, B4, B5, B12, B13, B25, B26	B2, B4, B5
NOTE‑WBNAN	Quectel EG91‑NAX	B2, B4, B5, B12, B13, B25, B26	B2, B4, B5
NOTE‑WBNAW	Quectel EG91‑NAXD	B2, B4, B5, B12, B13, B25, B26	B2, B4, B5

Midband Bands (LTE Cat-1 bis Notecards)

SKU	Modem	LTE Cat-1 bis
NOTE‑MBGLN	Quectel EG916Q-GL	B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B34, B38, B39, B40, B41, B66
NOTE‑MBGLW	Quectel EG916Q-GL	B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B34, B38, B39, B40, B41, B66
NOTE‑MBNAN	Quectel EG915Q-NA	B2, B4, B5, B12, B13, B66
NOTE‑MBNAW	Quectel EG915Q-NA	B2, B4, B5, B12, B13, B66

Narrowband Bands (LTE-M/NB-IoT Notecards)

SKU	Modem	LTE-M	NB-IoT	GSM/EDGE (2G)
NOTE‑NBGL‑500	Quectel BG95‑M3	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26, B27, B28, B66, B85	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B28, B66, B71, B85	850, 900, 1800, 1900 MHz
NOTE‑NBGLN	Quectel BG95‑M3	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26, B27, B28, B66, B85	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B28, B66, B71, B85	850, 900, 1800, 1900 MHz
NOTE‑NBGLW	Quectel BG95‑M3	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26, B27, B28, B66, B85	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B28, B66, B71, B85	850, 900, 1800, 1900 MHz
NOTE‑NBNA‑500	Quectel BG95‑M1	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26, B27, B28, B66, B85
NOTE‑NBNAN	Quectel BG95‑M1	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26, B27, B28, B66, B85
NOTE‑NBNAW	Quectel BG95‑M1	B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26, B27, B28, B66, B85

Pin Information

Pin Definitions

Pin Name	Pin Description
ALT_DFU_BOOT	Used by Notecard to control the BOOT pin of the host MCU during Outboard DFU. Tri-state when Outboard DFU is not in progress.
ALT_DFU_RESET	Used by Notecard to control the RESET pin of the host MCU during Outboard DFU. Tri-state when Outboard DFU is not in progress.
ALT_DFU_ACTIVE	Driven low by Notecard to indicate to the host that an Outboard DFU is in progress.
ALT_DFU_RX	Input on which Notecard receives data from the host during Outboard DFU. Tri-stated when Outboard DFU is not in progress.
ALT_DFU_TX	Output on which Notecard sends data to the host during Outboard DFU. Tri-stated when Outboard DFU is not in progress.
ATTN_P	Attention pin (requires protection)
AUX_EN_P	Auxiliary serial port enable (requires protection)
AUX_RX_P	Auxiliary UART receive (requires protection)
AUX_TX_P	Auxiliary UART transmit (requires protection)
AUX1	Auxiliary GPIO pin 1
AUX2	Auxiliary GPIO pin 2
AUX3	Auxiliary GPIO pin 3
AUX4	Auxiliary GPIO pin 4
AUX_CHARGING	Charge detection
GND	Ground
NC	No connection (reserved and must be left open)
NRST	Active-low (not) reset
RX_P	UART receive (requires protection - Notecard has onboard 10K pull-up resistors)
SCL_P	I2C clock (requires protection - Notecard has onboard 10K pull-up resistors)
SDA_P	I2C data (requires protection - Notecard has onboard 10K pull-up resistors)
SIM_CLK	External SIM clock
SIM_IO	External SIM input/output
SIM_NPRESENT	External SIM active-low (not) present
SIM_RST	External SIM reset
SIM_VCC	External SIM positive (common collector) voltage
TX_P	UART transmit (requires protection)
USB_DN	USB data negative
USB_DP	USB data positive
VACT_GPS_IN	Active antenna GPS bias voltage
VACT_GPS_OUT	Active antenna GPS 3.8V from Notecard
VIO_P	I/O Voltage (requires protection)
VMODEM_P	Voltage modem (requires protection)
VUSB	5V USB voltage

Pin Description

Notecard M.2 Key E, Edge Connector Pinout

Pin #	Pin Name	Func. Interface	Func. Interface	Pin Name	Pin #
1	NC		Power	VIO_P	2
3	GND	Power	Power	VIO_P	4
5	GND	Power	Power	GND	6
7	USB_DP	USB Serial	External SIM	SIM_VCC	8
9	USB_DN	USB Serial	External SIM	SIM_RST	10
11	GND	Power	External SIM	SIM_IO	12
13	VUSB	USB Serial	External SIM	SIM_CLK	14
15	NC		External SIM	SIM_PRESENT	16
17	NC		Power	GND	18
19	NC		Active GPS	VACT_GPS_OUT	20
21	NC		Active GPS	VACT_GPS_IN	22
23	NC		MODULE KEY	--	24
25	--	MODULE KEY	MODULE KEY	--	26
27	--	MODULE KEY	MODULE KEY	--	28
29	--	MODULE KEY	MODULE KEY	--	30
31	--	MODULE KEY	Outboard DFU	ALT_DFU_BOOT	32
33	GND	Power	Outboard DFU	ALT_DFU_RESET	34
35	NC		Outboard DFU	ALT_DFU_ACTIVE	36
37	NC		Auxiliary Ports	AUX_CHARGING	38
39	GND	Power	I2C Serial	SCL_P	40
41	ALT_DFU_RX	Outboard DFU	I2C Serial	SDA_P	42
43	ALT_DFU_TX	Outboard DFU			44
45	GND	Power	Auxiliary Ports	AUX1	46
47	NC		Auxiliary Ports	AUX2	48
49	NC		Auxiliary Ports	AUX3	50
51	GND	Power	Auxiliary Ports	AUX4	52
53	NC		Attention	ATTN_P	54
55	NC		Auxiliary Ports	AUX_EN_P	56
57	GND	Power	Auxiliary Ports	AUX_RX_P	58
59	NC		Auxiliary Ports	AUX_TX_P	60
61	NC		UART Serial	RX_P	62
63	NC		UART Serial	TX_P	64
65	NC			NC	66
67	NRST	Reset		NC	68
69	NC		Power	VMODEM_P	70
71	GND	Power	Power	VMODEM_P	72
73	GND	Power	Power	VMODEM_P	74
75	NC

Link: Digi-Key part number of the connector - Both Digi-Key and Mouser have pictures for this part number that show a component with a different key, but both have links to datasheet/drawing/CAD models.

note

All pins whose Functional Interface is marked "Power" must be connected.

All pins named NC MUST have no connection and be left open because they are reserved for future use. Furthermore, any pin not used in a design MUST also be left open.

Those pins ending with _P may be optionally protected from anomalous external conditions on some Notecarrier designs, depending upon use-case specific requirements.

Technical Details

Host Microcontroller API

Notecard supports a rich, simple API whose syntax is standard JSON. The developer can communicate requests to Notecard, generally by using little more than printf functions available in most programming languages.

Serial Communication

JSON requests and responses (the Notecard's Application Programming Interface "API") may be sent over any of the following interfaces:

USB Serial Interface
UART Serial Interface
I2C Interface

note

If NOT using a Notecard firmware library, you may unintentionally send requests to the Notecard so fast that you overflow the 1500 byte buffer used to receive data (whether it be I2C, Serial, or UART). The solution is to pause 250 ms after every 250 bytes sent and ensure the total size of each NDJSON object sent is no more than 8KB.

API Reference

For API usage, names, and parameters, please refer to the Notecard API Reference.

USB Serial Interface

The USB Serial Interface appears to the host as a USB 2.0 Full Speed CDC device. You can access it from Linux, Windows, or macOS without a device driver using terminal emulation software. Newline-delimited JSON requests may be sent directly as UTF-8 text over this port, or you may use the open-source Blues libraries for C, Python, Go, and Arduino.

Pin Name	Direction	Pin Number	Usage
USB_DM	I/O	9	USB D- data signal
USB_DP	I/O	7	USB D+ data signal
VUSB	IN	13	+5V from USB
GND	I/O	11	Ground from USB

UART Serial Interface

The UART Serial Interface operates at VIO_P at a fixed baud rate of 9600 using eight data bits, no parity bit, and one stop bit. Newline-delimited JSON requests may be sent directly as UTF-8 text over this port, or you may use the open-source Blues libraries for C, Python, Go, and Arduino.

Pin Name	Direction	Pin Number	Usage
RX_P	IN	62	Receive data signal
TX_P	OUT	64	Transmit data signal

I2C Interface

The Notecard acts as an I2C secondary device operating at VIO_P, and it implements a simple Serial-over-I2C protocol. You can access it from an embedded host using open-source Blues libraries for C, Python, Go, and Arduino.

Pin Name	Direction	Pin Number	Usage
SCL_P	IN	40	I2C clock
SDA_P	I/O	42	I2C data

Host Microcontroller Hardware Interface

Attention Interrupt

Using software, you can optionally configure Notecard to use the ATTN output pin to:

Inform the host MCU of certain asynchronous events (such as incoming data availability, or Notecard motion) in an interrupt-driven manner rather than just polling.

Place the host MCU into a power-off sleep state and wake it back up again.

Pin Name	Direction	Pin Number	Usage
ATTN_P	OUT	54	Attention pin

note

This pin operates at VIO_P. If it is unused it can be left disconnected.

Auxiliary Ports

An optional Auxiliary UART Serial Interface is available on the AUX_RX_P and AUX_TX_P pins. This interface is inactive unless enabled by raising the AUX_EN_P pin since this UART consumes extra power when in use. It operates at VIO_P at a fixed baud rate of 115200 using eight data bits, no parity bit, and one stop bit. If this interface is unused, the three pins can be left disconnected.

The AUX1-4 pins operate at VIO_P and can be configured in software to operate in several optional modes such as GPS Tracking Mode, GPIO Mode, and Internet Button Mode. If these pins are unused, they can be left disconnected.

Pin Name	Direction	Pin Number	Usage
AUX_EN_P	IN	56	Enables serial port on `AUX_RX_P` and `AUX_TX_P`
AUX_RX_P	IN	58	RX data for serial port enabled by `AUX_EN_P`
AUX_TX_P	OUT	60	TX data for serial port enabled by `AUX_EN_P`
AUX1	I/O	46	General Purpose IO
AUX2	I/O	48	General Purpose IO
AUX3	I/O	50	General Purpose IO
AUX4	I/O	52	General Purpose IO
AUX5	I/O	38	Alt. attention pin or charge detection

note

The auxiliary serial port is normally disabled because it consumes up to 100µA of power when enabled.

Outboard DFU Interface

As an alternative to using the Auxiliary Ports for Outboard DFU, there are also dedicated pins on certain Notecards. For more information on using this interface, check the detailed documentation

Pin Name	Direction	Pin Number	Usage
ALT_DFU_BOOT	OUT	32	Used by Notecard to control the BOOT pin of the host MCU during Outboard DFU. Tri-state when Outboard DFU is not in progress.
ALT_DFU_RESET	OUT	34	Used by Notecard to control the RESET pin of the host MCU during Outboard DFU. Tri-state when Outboard DFU is not in progress.
ALT_DFU_ACTIVE	OUT	36	Driven low by Notecard to indicate to the host that an Outboard DFU is in progress.
ALT_DFU_RX	IN	41	Input on which Notecard receives data from the host during Outboard DFU. Tri-stated when Outboard DFU is not in progress.
ALT_DFU_TX	OUT	43	Output on which Notecard sends data to the host during Outboard DFU. Tri-stated when Outboard DFU is not in progress.

External SIM

Notecard contains an integrated, embedded MFF2 SIM but may also be configured to use an external 1.8V Micro-SIM via this interface. This interface is powered by the Notecard. Note that use of an external SIM card also requires that the Notecard be re-configured in software with the APN, access technology, and bands appropriate for the SIM's carrier.

Pin Name	Direction	Pin Number	Usage
SIM_CLK	OUT	14	Clock
SIM_IO	I/O	12	Data
SIM_NPRESENT	IN	16	Active-low input indicating presence of SIM card, else must be `NC`. Required if an external SIM is used, and is supported by the mechanical switch in SIM card slot hardware.
SIM_RST	OUT	10	Reset
SIM_VCC	OUT	8	+1.8V supply for external Micro-SIM

Reset

Use of this pin is optional. If the host system has a global reset line, caution should be used when connecting this pin to the host system's reset because the Notecard may independently pull the line low in software. Restrictions on this pin are:

If this pin is not used, it must remain not connected (NC).
The pin is active-low. It must be held low for at least 350nS for a clean reset.
This pin must never be pulled-up. A pull-up would interfere with the Notecard's own internal watchdog timer and thus will prevent reliable operations.
Some Notecarriers may invert this signal to be active-high.

Pin Name	Direction	Pin Number	Usage
NRST	I/O	67	Active-low reset

Network Communication Behavior

The Notecard includes a built-in connection to Notehub.io (specifically a.notefile.net:8086) and communicates over SSL. Outbound connections speak directly with the Notehub session load balancer (or "Discovery Service") for provisioning and device authentication. By default, the TLS connection is unidirectional, but can operate bi-directionally, if needed. The keys and certificates for each device are provisioned by STMicrosystems inside the STSAFE secure element present on every Notecard. Once the Discovery Service has provisioned or authenticated a device, it issues a "ticket" and a Handler IP address that the Notecard can use to make subsequent requests.

The Notecard can also connect to the Handler to do a constrained set of remote procedure calls related to synchronization. If the Notecard determines that the data queued for transmission to or from the Handler should be encrypted, it opens a session to the Handler on port 8086. Otherwise, an unencrypted socket is opened on port 8081.

The over-the-wire data transmitted on both sockets is highly byte-optimized, which is why raw SSL and TCP sockets are used, and not unoptimized HTTP/HTTPS transactions.

Specifications

General Characteristics

Description	Value
Weight	8 grams

Electrical Characteristics

Absolute Maximum Ratings

Description	Minimum	Maximum	Unit
Storage temperature	-40	90	°C
Ambient operating temperature	-40	85	°C

note

Temperatures outside of the range -20°C to 55°C might slightly deviate from ETSI specifications.

DC Characteristics

Description	Minimum	Maximum	Unit
Supply Voltage	2.5	5.5	V

Ordering Information

Blues Shop

Certifications

CE

CE certification indicates that a product complies with the essential requirements of relevant European health, safety, and environmental protection legislation. It is a mandatory conformity mark for products sold within the European Economic Area (EEA).

Download the NOTE-WBEXW CE Test Reports:

Certification	Date
CE: EN 300 328 V2.2.2 2019	October 2023
CE: EN IEC 62311:2020	October 2023
CE: EN 301 908-1 v15.2.1 (2023-01)	October 2023
CE: EN 301 908-13 v13.2.1 (2022-02)	October 2023
CE: EN 301 511 v12.1.1 (2015-06)	October 2023
CE: EN 55032:2015/A11: 2020	June 2024
CE: EN 55035:2017/A11: 2020	June 2024
CE: EN 55032:2015/A11: 2020, CISPR 32:2015, AS/NZS CISPR 32:2015	June 2024
CE: EN 61000-4-2:2009	June 2024
CE: EN 61000-4-3:2006+A1:2008+A2:2010	June 2024
CE: EN 61000-4-8:2010	June 2024

FCC

FCC certification indicates that a product complies with the regulations set forth by the Federal Communications Commission (FCC) in the United States. This certification ensures that electronic devices do not emit electromagnetic interference that could disrupt other electronic devices and communication systems.

Download the NOTE-WBEXW FCC Test Reports:

Certification	Date
FCC: 47 CFR FCC Part 15, Subpart B: 2023, Class B	August 2023
FCC: ICES-003 Issue 7 (2020), Class B	August 2023
FCC: ANSI C63.4:2014	August 2023
FCC: 47 CFR FCC Part 15.207, 15.209, and 15.247: 2023	August 2023
FCC: RSS 247 Iss. 3, RSS Gen Iss. 5	August 2023
FCC: ANSI C63.10:2013	August 2023
FCC: 47 CFR 2.1091	October 2023

IEC

IEC certification refers to standards set by the International Electrotechnical Commission (IEC). This organization develops international standards for electrical, electronic, and related technologies, ensuring products meet global safety, performance, and efficiency requirements.

Download the NOTE-WBEXW IEC Test Report:

LIT04230535 CE

Certification	Date
IEC 62368-1:2018	October 2023
IEC 62368-1:2014	October 2023

RoHS

RoHS certification ensures that electronic products do not contain hazardous materials above specified levels. The directive originated in the European Union and aims to reduce the environmental impact and increase the recycling and safe disposal of electronic equipment.

Download the NOTE-WBEXW RoHS Test Report:

62232910194

Certification	Date
CNS 15663	October 2023

Author	Date	Summary
Ray Ozzie	2019-2020	Document drafted
John Wiedey	2020	Various improvements
Sean Taylor	2020	Various improvements
Zachary J. Fields	11 SEP 2020	Updated information and translated to markdown
Brandon Satrom	13 APR 2021	Updated Country list based on carrier audit
Carlton Henderson	12 JUL 2021	Update coverage information
Carlton Henderson	12 JUL 2021	Fix block diagram photo
Brandon Satrom	11 NOV 2021	Added Certification Dates
Brandon Satrom	07 JAN 2022	Added RoHS Certification Dates
Brandon Satrom	15 FEB 2022	Add Wi-Fi Notecard Datasheet
Rob Lauer	25 AUG 2022	Added updated certification data
Rob Lauer	27 OCT 2022	Update country coverage information
Rob Lauer	13 JAN 2023	Added RF performance information
Rob Lauer	2 FEB 2023	Warning re: STM32 light sensitivity
Kimball Johnson	21 SEP 2023	Updated for new Cell+WiFi, LoRa, and Wi-Fi Notecards
Rob Lauer	23 OCT 2023	Update and clarify power consumption values
Rob Lauer	31 JAN 2023	Update Notecard for LoRa datasheet details
Rob Lauer	16 APR 2024	Updated for new Cellular (black PCB) Notecards, MB Cellular Notecards, and Notecard XP
Rob Lauer	6 JUN 2024	Added cell band support for Cellular Notecards
Rob Lauer	23 JUL 2024	Update pin definitions
TJ VanToll	24 SEP 2024	Adding Notecard for LoRa v2.1 information
Rob Lauer	01 NOV 2024	Adding Notecard for LoRa v2.1 castellated pin info
Rob Lauer	06 NOV 2024	Added errata for Notecard Cell+WiFi

Contact Information

Blues Inc.
https://blues.com
50 Dunham Ridge Suite 1650
Beverly, MA 01915
support@blues.com