FCC ID: N7NYLW Open-Source Hardware Development Platform

mangOH Yellow User Guide 41113427 Rev 3 Contents subject to change mangOH Yellow User Guide Important Notice Limitation of Liability Due to the nature of wireless communications, transmission and reception of data can never be guaranteed. Data may be delayed, corrupted (i.e., have errors) or be totally lost. Although significant delays or losses of data are rare when wireless devices such as the Sierra Wireless modem are used in a normal manner with a well-constructed network, the Sierra Wireless modem should not be used in situations where failure to transmit or receive data could result in damage of any kind to the user or any other party, including but not limited to personal injury, death, or loss of property. Sierra Wireless accepts no responsibility for damages of any kind resulting from delays or errors in data transmitted or received using the Sierra Wireless modem, or for failure of the Sierra Wireless modem to transmit or receive such data. The information in this manual is subject to change without notice and does not represent a commitment on the part of Sierra Wireless. SIERRA WIRELESS AND ITS AFFILIATES SPECIFICALLY DISCLAIM LIABILITY FOR ANY AND ALL DIRECT, INDIRECT, SPECIAL, GENERAL, INCIDENTAL, CONSEQUENTIAL, PUNITIVE OR EXEMPLARY DAMAGES INCLUDING, BUT NOT LIMITED TO, LOSS OF PROFITS OR REVENUE OR ANTICIPATED PROFITS OR REVENUE ARISING OUT OF THE USE OR INABILITY TO USE ANY SIERRA WIRELESS PRODUCT, EVEN IF SIERRA WIRELESS AND/OR ITS AFFILIATES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES OR THEY ARE FORESEEABLE OR FOR CLAIMS BY ANY THIRD PARTY. Notwithstanding the foregoing, in no event shall Sierra Wireless and/or its affiliates aggregate liability arising under or in connection with the Sierra Wireless product, regardless of the number of events, occurrences, or claims giving rise to liability, be in excess of the price paid by the purchaser for the Sierra Wireless product. Patents This product may contain technology developed by or for Sierra Wireless Inc. This document contains information which is proprietary to Sierra Wireless Inc. and is licensed pursuant to Creative Commons Attribution 4.0 International License. Document details Copyright Title: mangOH Yellow User Guide Author: Sierra Wireless Source: http://mangoh.io/

June 16, 2020 Sierra Wireless. Licensed under the Creative Commons Attribution 4.0 license, http://creativecommons.org/licenses/by/4.0/

Disclaimer Indicate any modifications made to the original document. Trademarks mangOH Yellow and the mangOH logo are trademarks of Sierra Wireless. Other trademarks are the property of their respective owners. Rev 3 6/16/20 2 41113427 Revision History Revision number Release date Changes September 2019 Document created 1 2 October 2019 1.01 September 2019 Document formatting changes Minor formatting corrections Added topic 2.2 (Windows only) Install Module Drivers Standardized references to "Power/Network/Cloud" LED Added notes to use battery in 2G situations Updated 3.5.3 Expansion Connector interfaces description Updated LED descriptions (Table 3-3) Corrected various schematic component reference numbers Updated TP1_BOOT description (Table 3-6) 3 June 2020 Changed mangOH to mangOH Added Regulatory Compliance appendix Rev 3 6/16/20 3 41113427 Contents Introduction . 6 mangOH Yellow Components and Accessories . 6 Setup and Installation . 7 Safe Handling Recommendations . 7

(Windows only) Install Module Drivers. 7 Initial Setup . 8 Hardware Setup and Features . 12 Power Supply Sources. 12 Select Power Supply . 13 Connect Battery Backup . 14 Connect External Antenna(s). 15 SIM, SD, and IoT Expansion Cards . 16 Inserting a micro-SIM Card . 16 Inserting a microSD Card. 17 Inserting/Removing an IoT Expansion Card . 17 Audio Connection . 19 Control Connections . 19 CON (Console) Connector . 19 USB Connector . 20 Expansion Connector . 20 LED Indicators . 21 Physical Switches/Buttons/Headers . 22 Reset Button . 22 Generic Button . 22 Power Switch . 22 Power Source Selector . 23 mangOH Yellow Default Configuration . 23 Module Signals Control . 25 Rev 3 6/16/20 4 41113427 Console Access. 28 Regulatory Compliance . 31 Important Compliance Information for North American Users . 31 Rev 3 6/16/20 5 41113427 1: Introduction 1 This user guide explains how to set up and begin using the mangOH Yellow with CF3 (Common Flexible Form Factor) modules. Once you have the mangOH Yellow set up, visit mangoh.io/mangoh-yellow-resources for developer documentation, code samples, and other materials. 1.1 mangOH Yellow Components and Accessories Table 1-1 details the required and optional components needed to begin using the mangOH Yellow in your development environment. Some of these components are available in mangOH Yellow development kits (kit contents are supplier-dependent). Table 1-1: mangOH Yellow Required and Optional Components Item Details Example

(1) mangOH Yellow with integrated WP7702 CF3 module Pre-configured development board for CF3 modules The integrated (soldered-down) WP7702 module includes a cellular modem and an application processor running Legato, an open source embedded platform built on Linux for hosting IoT applications (see legato.io for details).

(2) Micro-USB cables

(Included in kit) Connects computer to the mangOH Yellow for communication and to provide power for non-transmitting tests.

(1) Antenna, Ultra Wide Band

(Included in kit) Main RF antenna included. IoT breakout board Breakout board for mangOH Yellows IoT connector M2 screws

(Included in kit) Two M2 screws included for IoT card installation Audio cable (3.5 mm)

(Not included in kit) Optional audio cable or headset Rev 3 6/16/20 6 41113427 2: Setup and Installation 2.1 Safe Handling Recommendations 2 To help prevent accidental damage to the mangOH Yellow:

Use safe ESD-handling practices (such as wearing proper ESD straps) to avoid possible ESD damage. Some options to avoid damage to components on the bottom side of the board include:

Attach standoffs (not included) to the mounting holes at each corner of the board, or Install the mangOH Yellow in a case (forthcoming availability) Standoff example Standoff holes (4 corners) Figure 2-1: Module Standoff Placement 2.2 (Windows only) Install Module Drivers Windows systems require drivers for the mangOH Yellows CF3 module. To download the drivers:

1. Go to https://mangoh.io/mangoh-yellow-resources-software. 2. Click Download Drivers to download the driver installation file. 3. Run the downloaded .exe file and follow the prompts to install the drivers. Rev 3 6/16/20 7 41113427

mangOH Yellow User Guide 2.3 Initial Setup To begin using the mangOH Yellow, set up your hardware and software:

1. Verify the SW403 dip switch block pins are set correctly:

a. Remove the protective film from the dip switch block:

Figure 2-2: Remove Protective Film b. Make sure all the dip switches are OFF (factory default mode). Remove this film Figure 2-3: Dip Switch Positions (Factory Default) 2. If you will be establishing a mobile network connection using the external SIM slot instead of the WP7702 modules eSIM, insert a micro-SIM. See Inserting a micro-SIM Card on page 16. 3. Connect External Antenna(s). See page 15. 4. Select Power Supply. See page 13. Rev 3 6/16/20 8 41113427 5. Power up the mangOH Yellow:

a. Connect the selected power supplyUse a micro-USB cable to connect the mangOH Yellow USB connector to your computer or AC adapter, or use a 15-pin cable to connect the expansion connector to an external device that will provide power. 2.3: Initial Setup USB connector Figure 2-4: Connecting USB Power to the mangOH Yellow Expansion connector Expansion connector mounted on external device Figure 2-5: Connecting External Device via Expansion Connector to the mangOH Yellow 6. Slide the power switch toward the center to power up the board. On Power switch Off Figure 2-6: Power Switch Operation Rev 3 6/16/20 9 41113427 mangOH Yellow User Guide When the mangOH Yellow is powered, the Power/Network/Cloud LED turns solid green, then turns yellow

(when the cellular radio powers on), and then the generic LEDs begin blinking in sequence when the module has finished booting up. Power/Network/Cloud

(tri-color) LED Generic green LED Generic tri-color LED For this getting started procedure:

The jumper must be on these pins and and The cable must be plugged in *this*

connector ("USB"). The power switch must be toward the center of the board. Figure 2-7: LEDs Tip: If the Power LED does not turn on:

Make sure the USB cable is securely connected to the correct micro-B connector (as shown in Figure 2-7). Make sure the jumper block is on the correct pins (as shown in Figure 2-7). Make sure the power switch is in the ON position (toward the center of the board. Important: If LTE-M coverage is not available, the mangOH Yellows WP7702 module will fall back to 2G, which consumes up to 2 A of current for short bursts. In this case, USB power is insufficient (500 mA) and the module may repeatedly brown out and reboot. Use a battery (Connect Battery Backup on page 14) to supply sufficient power. Rev 3 6/16/20 10 41113427 7. Wait for the device to enumerate (14 minutes, typically).

(Windows) You can confirm the device has enumerated by viewing Display Managerthe device appears under Modems, and its COM ports appear under Ports (COM & LPT):

2.3: Initial Setup Figure 2-8: Windows Device Enumeration 8. Confirm the connection between the computer and mangOH Yellow is working:

a. Open a command prompt window. (e.g. Linux Terminal window, Windows command prompt). b. Test the connection by pinging the CF3 module (which has a default IP address of 192.168.2.2):

> ping 192.168.2.2 You should receive ping responses. Press Ctrl+C to return to the command prompt. C:\Windows\System32>ping 192.168.2.2 Pinging 192.168.2.2 with 32 bytes of data:

Reply from 192.168.2.2: bytes=32 time<1ms TTL=64 Reply from 192.168.2.2: bytes=32 time=1ms TTL=64 Reply from 192.168.2.2: bytes=32 time=2ms TTL=64 Reply from 192.168.2.2: bytes=32 time=2ms TTL=64 Ping statistics for 192.168.2.2:

Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds:

Minimum = 0ms, Maximum = 2ms, Average = 1ms 9. Optionally, use a mini-USB cable to connect the remaining mangOH Yellows "CON" USB connector to your computer. (This enables you to display diagnostic messages in one terminal window and work in another, as described in Console Access on page 28.) The mangOH Yellow is now ready to be used. For information on additional hardware features, see Hardware Setup and Features on page 12. Rev 3 6/16/20 11 41113427 3: Hardware Setup and Features This chapter describes:

Available connectors How to install various components on the mangOH Yellow How to configure and control features using connectors and switches 3.1 Power Supply Sources 3 The mangOH Yellow is powered via the boards USB (CN802) micro-USB connector, the expansion connector, or an optional external backup battery. The micro-USB connector can connect to a computers USB port or, if greater power is required, to an AC adapter. Once the power source is connected, use the power switch to turn the power on/off. On Power switch Off Figure 3-1: Power Switch Table 3-1: mangOH Yellow Power Supplies Supply Details CN802"USB" USB connector By default, USB connector provides power to the mangOH Yellow. The connector also provides access to CF3 interfaces (ECM port, AT port, etc.) Primary CN805Expansion connector Allows connection to an external device, which can provide power to the mangOH Yellow, or can be powered by the mangOH Yellow. Backup CN1000Battery An optional Li-ion or Li-polymer (3.7 V nominal) rechargeable battery can be installed to power the board if the primary power supply fails. Rev 3 6/16/20 12 41113427

3.1.1: Select Power Supply 3.1.1 Select Power Supply To select the primary power supply:

select (PWR SEL) jumper pins (CN801). USB power (jumper on pins closest to board edge) 1. Place the mangOH Yellow with the dip switch block facing up (module facing down) and locate the power Figure 3-2: Power Supply Selector 2. Select the preferred power source:

USB connectorPlace a jumper across the two pins closest to the edge of the board. Expansion connectorPlace a jumper across the two pins furthest from the edge of the board. USB select

(closest to edge) Expansion select

(furthest from edge) Figure 3-3: USB Power Supply Selection Rev 3 6/16/20 13 41113427 mangOH Yellow User Guide Expansion connector USB connector Figure 3-4: Power Supply Connectors 3.1.2 Connect Battery Backup Optionally, you can connect a rechargeable Li-Ion/Li-Polymer battery to the mangOH Yellow to provide uninterrupted power in the event that the primary power supply fails. Important: If LTE-M coverage is not available, the mangOH Yellows WP7702 module will fall back to 2G, which consumes up to 2 A of current for short bursts. In this case, USB power is insufficient (500 mA) and the module may repeatedly brown out and reboot. Use a battery to supply sufficient power. To connect a rechargeable Li-Ion/Li-Polymer battery to the mangOH Yellow:

1. Plug the battery into the battery connector (CN1000). Rechargeable battery connector (CN1000) Figure 3-5: mangOH Yellow With Rechargeable Battery Connected Warning: The board is designed to use a rechargeable Li-Ion or Li-polymer battery. Regular (non-rechargeable) batteries must not be used, otherwise the mangOH Yellow and the battery will be damaged. Rev 3 6/16/20 14 41113427 3.2: Connect External Antenna(s) 3.2 Connect External Antenna(s) The mangOH Yellow includes four external antenna connectors. Table 3-2: External Antenna Connectors Type Connectora Details Main CN307 Used to establish a mobile network data connection Disabled by default. (Default is internal antenna (ANT300).) Diversity CN304 Not used with the WP7702 module. Disabled by default. (Default is internal antenna (ANT301).) Used to enable access to GNSS functionality GNSS CN306 Active 3.3 V bias voltage Wi-Fi/Bluetooth CN308 Disabled by default. (Default is integrated antenna (ANT301).) a. U.FL connectors Note: The mangOH Yellow also includes an three integrated antennasmain (used by default), Wi-Fi/BT/GPS, and NFC. To connect an external antenna to the Main antenna connector:

1. Place the mangOH Yellow with the dip switch block facing up. 2. Attach the main antennapress the external antenna connector firmly to get a secure connection. Note: The female connector on the external antenna is rated for a limited number of reconnects before the connector wears out, so should be left connected if possible. Use a U.FL extraction tool to put less strain on the connector during removal.) Main (CN307) Figure 3-6: Antenna Connector Locations Tip: If you have trouble connecting an antenna, make sure it is positioned directly on the connector and push straight down. The antenna will not connect at an angle. Rev 3 6/16/20 15 41113427

mangOH Yellow User Guide 3.3 SIM, SD, and IoT Expansion Cards 3.3.1 Inserting a micro-SIM Card To establish a mobile network connection with a CF3 module, you must install a micro-SIM in the connector on the bottom side of the mangOH Yellow. Use either of the following:

SIM card with activated account, or Test SIM card for use with a call box (for example, an Agilent 8960 or Rohde & Schwarz CMU200) To install a SIM card:

1. Place the mangOH Yellow with the dip switch block facing up (as shown). micro-SD (CN602top) micro-SIM (CN602bottom) Figure 3-7: SIM Connector and micro-SD Locations 2. Insert the SIM card with contacts face-down into the desired slotnote the location of the notched corner of the card in Figure 3-8. Note: CN602 is a dual-connectorthe lower slot is for the micro-SIM, and the upper slot is for a microSD card. Note the location of the notched corner. Figure 3-8: SIM Insertion Inserted in bottom slot of the tray Rev 3 6/16/20 16 41113427

3.4: Inserting a microSD Card 3.4 Inserting a microSD Card To install a microSD card:

1. Place the mangOH Yellow with the dip switch block facing up (as shown). micro-SD (CN602top) micro-SIM (CN602bottom) Figure 3-9: SIM Connector and micro-SD Locations 2. Insert the microSD card with contacts face-down into the top slot of CN602. Note: CN602 is a dual-connectorthe lower slot is for the micro-SIM, and the upper slot is for a microSD card. Inserted in top slot of the tray Figure 3-10: microSD Insertion 3.4.1 Inserting/Removing an IoT Expansion Card The mangOH Yellow includes one IoT Expansion Card slot. Caution: Handle IoT Expansion Cards carefully to make sure components are not accidentally damaged. Hold them by their edges to avoid possible ESD damage. Rev 3 6/16/20 17 41113427 mangOH Yellow User Guide To install an IoT Expansion Card:

1. Turn off the mangOH Yellows powerslide the power switch toward the edge of the board. Note: You must turn off the power because IoT Expansion Cards are not hot-swappablethe card will be recognized when power is turned back on. 2. Check the expansion card to make sure you know which side is the top. (Expansion cards must not be inserted upside-down.) 3. Slide the expansion card straight into the IoT Connector (CN601). 4. Use two M2 screws (included) to secure the expansion card to the standoffs. Figure 3-11: IoT Expansion Card Insertion Mounting screw locations Figure 3-12: IoT Expansion Card Inserted Rev 3 6/16/20 18 41113427 3.4.2: Audio Connection 5. Turn the power back onslide the power switch toward the center of the board. To remove an IoT Expansion Card:

2. Remove the two screws. 1. Turn off the mangOH Yellows powerslide the power switch toward the edge of the board. 3. Pull the expansion card straight out, using safe ESD-handling practices (such as wearing proper ESD straps). For detailed IoT Expansion Card slot interface information, refer to the mangOH Yellow Hardware Architecture Guide. For detailed information about expansion cards, refer to the IoT Expansion Card Specification. 3.4.2 Audio Connection The mangOH Yellow includes a 3.5 mm audio jack (CN701) for use with audio-enabled CF3 modules. If supported by the CF3 module, the jack can be used to make a voice call. By default, the audio jack is connected to the onboard mangOH codec, and is configured for use with a CTIA/

AHJ-compatible headset. Audio jack (3.5mm) Figure 3-13: Audio Output Jack 3.5 Control Connections 3.5.1 CON (Console) Connector The mangOH Yellow includes a micro-USB 2.0 connector (CN800) for console access. By default, this port is enabled and configured to connect to the CF3 modules four-wire UART interface (UART2). The connection can be used to access the CF3 modules Linux console. Rev 3 6/16/20 19 41113427 mangOH Yellow User Guide Console USB Connector Figure 3-14: Console USB Output Connection 3.5.2 USB Connector The mangOH Yellow includes a micro-USB 2.0 connector (CN802) for access to the CF3 modules interfaces

(ECM, AT, etc.). By default, this port is enabled and configured to connect to the CF3 modules USB interface. USB connector Figure 3-15: CF3 USB Connector 3.5.3 Expansion Connector The mangOH Yellow includes a 15-pin expansion connector (CN805) that can be used to connect an external device to the mangOH Yellow. The connector supports several interfaces for communication between the external device and the mangOH Yellows WP7702 module (ADC, GPIO, I2C, SPI, UART). The connector also includes power pins that allow the mangOH Yellow to provide power to the external device, or for the external device to provide power to the mangOH Yellow. For expansion connector details, refer to the mangOH Yellow Hardware Architecture Guide. Rev 3 6/16/20 20 41113427 3.6: LED Indicators Expansion connector Figure 3-16: Expansion Connector 3.6 LED Indicators The mangOH Yellow includes several LED indicators. Table 3-3: mangOH Yellow LEDs LED Description 1Power/Network/Cloud D401Tri-color (RGB), hardware-controlled Visible LED behavior:

GreenPower is on YellowPower on + Cellular radio on WhitePower on + Cellular radio is transmitting/receiving Note: D401 only appears as Green, Yellow (Green+Red), or White (Green+Red+Blue). 2Generic green D402Mono-color (Green), software-controllable 3Generic tri-color D500Tri-color (RGB) software-controllable Note: All color combinations can be used. (i.e. B, G, R, BG, BR, GR, BGR) D401Power/Network/Cloud D402Generic green D500Generic tri-color Figure 3-17: LED Indicators Rev 3 6/16/20 21 41113427

mangOH Yellow User Guide 3.7.1 Reset Button 3.7 Physical Switches/Buttons/Headers The mangOH Yellow includes a board reset button (SW401). Press and release to reset the board. For details on resetting the mangOH Yellow or specific application blocks, see the mangOH Yellow Hardware Architecture Guide. SW401Board reset button Figure 3-18: Reset Button 3.7.2 Generic Button The mangOH Yellow includes one generic button (SW500) for user-defined purposes. SW500Generic button Figure 3-19: Generic Button 3.7.3 Power Switch The mangOH Yellow includes a power switch (SW1002) that turns the mangOH Yellow on/off, regardless of which power source is being used. To turn the power:

ONSlide the switch toward the center of the board. OFF Slide the switch toward the edge of the board. Rev 3 6/16/20 22 41113427 3.7.4: Power Source Selector On Power switch Off Figure 3-20: Power Switch 3.7.4 Power Source Selector The mangOH Yellow uses a 3-pin header as the primary power source selector. Table 3-4: CN801Board Power Selecta Power supply selection

"USB" micro-USB connector (CN802) Expansion connector (CN805) Jump Jump 12 Yes 23 Yes a. Required: Select one option only (Jump 12 or Jump 23). For details, see Select Power Supply on page 13. USB select

(Pins 12, closest to edge) Expansion select

(Pins 23, furthest from edge) 3.8 mangOH Yellow Default Configuration The mangOH Yellows default configuration is described in Table 3-5. Rev 3 6/16/20 23 41113427 mangOH Yellow User Guide Table 3-5: mangOH Yellow Default Configuration Function Default Configuration / Behavior Alternate Configuration / Notes Module Signals Control Dip switch block (SW403)All pins OFF. Refer to Module Signals Control on page 25 for details. LTE (main) antenna Integrated antenna Wi-Fi/Bluetooth/

GPS antenna Integrated antenna Controlled by SW403 dipswitch Alternate: u.FL connector (CN307) Note: 3.3 V bias voltage for active antennas Controlled by SW403 dipswitch Alternates:

Wi-Fiu.FL connector (CN308) GPSu.FL connector (CN306) Note: 3.3 V bias voltage for active antennas Note: No alternate Bluetooth antenna Primary power source selection via jumper position:

Pins 12: USB connector (CN802) Pins 23: Expansion connector (CN805) Power Source Selector Power source

(primary) Selectable (via Power source selector):

"USB" micro-USB connector (CN802). Expansion connector (CN805) Alternate: Hardware reconfiguration required to replace Expansion connector with "CON" micro-

USB connector (CN800). Power source

(backup) Not connected. External rechargeable battery may be connected to battery connector (CN1000) USB interface

"USB" micro-USB connector (CN802) Serial connection to WP7702 UART2 interface

"CON" micro-USB connector (CN800) Console connection to WP7702 SDIO interface W i-Fi/BT (U300) SDIO, unless card (microSD or IoT card) is inserted) Controlled by SW403 dipswitch Alternate: microSD card connector (CN602) or IoT connector (CN601). Note: If using a card for SDIO, use only a microSD card or an IoT card, not both. The interface will not work if both are inserted. Additional peripheral interfaces (UART, SPI, I2C, etc.) Audio LEDs Expansion connector (CN805) System reset signal

(RESET_IN_N) See the mangOH Yellow Hardware Architecture Guide for details. Audio connector (CN701) connected to onboard mangOH codec Supports CTIA/AHJ-compatible headset All LEDs (D401, D402, D500) enabled Refer to LED Indicators on page 21 for behavior details. Enabled Selectable as primary power source via Power Source Selector (CN801) Held LOW until CF3 module is fully booted Peripherals on the mangOH Yellow are not activated until the module is fully booted. Rev 3 6/16/20 24 41113427

3.9: Module Signals Control 3.9 Module Signals Control The mangOH Yellow uses a multi-function switch (SW403) to control specific signals. Table 3-6: SW403Module Signals Control Signal Dip Dip switch position / State HL78_MODE_ON ONHL78 (Note: HL78 UART0 signals carried on CF3 sockets UIM2 pins.) OFFWP Module type installed:

CF3 modules TP1 (boot) signal TP1_BOOT ONStop boot process at primary bootloader and enter recovery programming mode OFFBoot normally BUCK_DISABLE_N 3 Buck converter state, controls which components receive power ONConverter is off. Only CF3 module receives power. OFFConverter is on. All components receive power. 1 2 4 5 6 7 8 W_DISABLE_N CELL_ANT_CNTR WIFI_ANT_CNTR GPS_ANT_CNTR SDIO_SEL2 Radio state ONDisable OFFEnable Main antenna to use ONExternal (use Main u.FL connector) OFFIntegrated Wi-Fi antenna to use ONExternal (use WiFi u.FL connector) OFFIntegrated GPS antenna to use ONExternal (use GPS u.FL connector) OFFIntegrated SD interface source ONmicroSD card/IoT card OFFWi-Fi module Rev 3 6/16/20 25 41113427

mangOH Yellow User Guide 22 21 20 19 18 17 16 15 14 13 1 2 3 4 5 6 7 8 9 10 11 12 1Light sensor (U506) 2Power source selector (CN801) 3GPIO expander (U503) 4IoT connector (CN601) 5Gas/Pressure/Humidity/Temperature sensor (U507) 6Power switch (SW1002) 7NFC antenna (ANT700) 8NFC transponder (U700) 9Battery connector (CN1000) 10uSIM/uSD connector (CN602) 11Multi-function switch (SW403) 12Main antenna (CN307) 13GPS Antenna (CN306) 14Diversity antenna (CN304) 15Integrated Wi-Fi/BT/GPS antenna (ANT301) 16Wi-Fi/BT antenna (CN308) 17Wi-Fi/BT module (U300) 18Generic button (SW500) 19Tricolor LED User-controlled (D500) 20Digital microphone (U704) 21Green LED User-defined (D402) 22Tricolor LED Power/Network/Cloud (D401) Figure 3-21: mangOH YellowTop Side Switches/Connectors Note: For reference only. For latest schematic, visit mangoh.io/mangoh-yellow-resources-hardware. Rev 3 6/16/20 26 41113427 3.9: Module Signals Control 11 10 9 8 7 6 5 1 2 3 4 1CF3 socket (J201) 2Integrated main antenna (ANT300) 3Expansion connector (CN805) 4Buzzer (U406) 5Reset button (SW401) 6RTC (U701) 7Gyroscope/Accelerometer (U520) 8Geomagnetic sensor (U502) 9Client USB connector (CN802) 103.5 mm audio jack (CN701) 11Console USB connector (CN800) Figure 3-22: mangOH YellowBottom Side Switches/Connectors Note: For reference only. For latest schematics, visit mangoh.io/mangoh-yellow-resources-hardware. Rev 3 6/16/20 27 41113427 A: Console Access A If you have two USB ports on your dev machine, you can use one of them to display the mangOH Yellows diagnostic messages when the device boots, when certain commands are run, etc. To set up a window to display diagnostic messages:

1. Use a micro-USB cable to connect the mangOH Yellows CON port to a USB port on the dev machine. CON connector 2. Open and connect a terminal window to the WP7702 module to display its console messages (kernel messages, warnings, etc.):

Linux i. In the terminal window, enter the following command to install the minicom application on your dev machine (if it is not already there):

$ sudo apt-get install -y minicom Note: sudo tells the dev machine to run the command as the superuser. Each time you use sudo, you must enter your dev machines password to continue. ii. Connect to the CF3 modules Linux console via the USB serial port (which enumerated when you connected the CON connector to the dev machine):

$ minicom -D /dev/ttyUSB0 A welcome message appears, and the window will show console messages when the mangOH Yellow powers on in the next step. Welcome to minicom 2.7 Options: I18n Compiled on Feb 7 2016, 13:37:27. Port /dev/ttyUSB0, 20:04:25 Press CTRL-A Z for help on special keys Note: The USB serial port enumerates as ttyUSB0 because you connected CON to the host before connecting USB to the host (which you will do later). However, if you connected USB first, it would enumerate ttyUSB0, ttyUSB1, and ttyUSB2. Then when CON is connected, it will enumerate as ttyUSB3. Rev 6/16/20 28 A:: Console Access Note: You can exit minicom at any timethe purpose of showing it here is to demonstrate how to display console messages for debugging purposes. To exit minicom, press Ctrl+A, then press X. When prompted, select Yes to leave minicom. Windows i. If you do not have a terminal emulator program (e.g. PuTTY, Tera Term, etc.), download and install one now. The examples in this document use PuTTY. ii. Open Windows Device Manager, then expand Ports (COM &LPT). The mangOH Yellows CON port enumerates as USB Serial Port (COMxx). (In the example below, it enumerates as COM72.) iii. Open a terminal window (e.g. PuTTY) connected to the mangOH Yellows console using the following settings:

Connection type = Serial Serial line = [USB Serial port COM port]

Speed = 115200 iv. Click Open. The window will remain empty until you power up the mangOH Yellow in the next step. Rev 6/16/20 29 A:: Console Access Note: Only one console connection can be opened at any time since it locks the USB serial port. Example If you open the console terminal window before you connect power to the mangOH Yellow, you will see the messages that are generated during the module boot process:

[ 0.275753] cpu cpu0: dev_pm_opp_get_opp_count: device OPP not found (-19)

[ 0.275772] msm_thermal:get_cpu_freq_plan_len Error reading CPU0 freq table len. error:-19

[ 0.275788] cpu cpu0: dev_pm_opp_get_opp_count: device OPP not found (-19)

[ 0.275801] msm_thermal:get_cpu_freq_plan_len Error reading CPU0 freq table len. error:-19

[ 0.370170] AXI: msm_bus_scale_register_client(): msm_bus_scale_register_client: Bus driver not ready.

[ 0.371913] AXI: msm_bus_scale_register_client(): msm_bus_scale_register_client: Bus driver not ready.[ 0.372200] i2c-msm-v2 78b8000.i2c: NACK: slave not responding, ensure its powered:

msgs(n:1 cur:0 tx) bc(rx:0 tx:2) mode:FIFO slv_addr:0x3a MSTR_STS:0x081343c8 OPER:0x00000090

[ 0.427857] msm_bus_fabric_init_driver

[ 0.647191] uart_tx_gpio is not available

[ 0.647211] uart_rx_gpio is not available

[ 0.647230] uart_cts_gpio is not available

[ 0.647250] uart_rfr_gpio is not available

[ 0.647938] sps: BAM device 0x07884000 is not registered yet. .. Console messages describing module boot-up process Rev 6/16/20 30 B: Regulatory Compliance B B.1 Important Compliance Information for North American Users Caution: Changes or modifications not expressly approved by Sierra Wireless could void the user's authority to operate the equipment. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. CautionAt least 20 cm separation distance between the antenna and the users body must be maintained at all times. Rev 3 6/16/20 31 41113427

mangOH Yellow Hardware Architecture Guide 41113116 Rev 3 mangOH Yellow Hardware Architecture Guide Important Notice Safety and Hazards Limitation of Liability Due to the nature of wireless communications, transmission and reception of data can never be guaranteed. Data may be delayed, corrupted (i.e., have errors) or be totally lost. Although significant delays or losses of data are rare when wireless devices such as the Sierra Wireless modem are used in a normal manner with a well-constructed network, the Sierra Wireless modem should not be used in situations where failure to transmit or receive data could result in damage of any kind to the user or any other party, including but not limited to personal injury, death, or loss of property. Sierra Wireless accepts no responsibility for damages of any kind resulting from delays or errors in data transmitted or received using the Sierra Wireless modem, or for failure of the Sierra Wireless modem to transmit or receive such data. Do not operate the Sierra Wireless modem in areas where blasting is in progress, where explosive atmospheres may be present, near medical equipment, near life support equipment, or any equipment which may be susceptible to any form of radio interference. In such areas, the Sierra Wireless modem MUST BE POWERED OFF. The Sierra Wireless modem can transmit signals that could interfere with this equipment. Do not operate the Sierra Wireless modem in any aircraft, whether the aircraft is on the ground or in flight. In aircraft, the Sierra Wireless modem MUST BE POWERED OFF. When operating, the Sierra Wireless modem can transmit signals that could interfere with various onboard systems. Note: Some airlines may permit the use of cellular phones while the aircraft is on the ground and the door is open. Sierra Wireless modems may be used at this time. The driver or operator of any vehicle should not operate the Sierra Wireless modem while in control of a vehicle. Doing so will detract from the driver or operator's control and operation of that vehicle. In some states and provinces, operating such communications devices while in control of a vehicle is an offence. The information in this manual is subject to change without notice and does not represent a commitment on the part of Sierra Wireless. SIERRA WIRELESS AND ITS AFFILIATES SPECIFICALLY DISCLAIM LIABILITY FOR ANY AND ALL DIRECT, INDIRECT, SPECIAL, GENERAL, INCIDENTAL, CONSEQUENTIAL, PUNITIVE OR EXEMPLARY DAMAGES INCLUDING, BUT NOT LIMITED TO, LOSS OF PROFITS OR REVENUE OR ANTICIPATED PROFITS OR REVENUE ARISING OUT OF THE USE OR INABILITY TO USE ANY SIERRA WIRELESS PRODUCT, EVEN IF SIERRA WIRELESS AND/OR ITS AFFILIATES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES OR THEY ARE FORESEEABLE OR FOR CLAIMS BY ANY THIRD PARTY. Notwithstanding the foregoing, in no event shall Sierra Wireless and/or its affiliates aggregate liability arising under or in connection with the Sierra Wireless product, regardless of the number of events, occurrences, or claims giving rise to liability, be in excess of the price paid by the purchaser for the Sierra Wireless product. Rev 3 Jun.20 2 41113116 Patents Document details Copyright Revision History Preface This document contains information which is proprietary to Sierra Wireless Inc. and is licensed pursuant to Creative Commons Attribution 4.0 International License. Title: mangOH Yellow Hardware Architecture Guide Author: Sierra Wireless Source: https://mangoh.io 2020 Sierra Wireless. Licensed under the Creative Commons Attribution 4.0 license, http://creativecommons.org/licenses/by/4.0/

Disclaimer Indicate any modifications made to the original document. Trademarks mangOH and the mangOH logo are trademarks of Sierra Wireless. Other trademarks are the property of their respective owners. Revision number Release date Changes September 2019 Document created 1 2 October 2019 1.01 September 2019 Document formatting adjustments Minor formatting corrections Corrected schematic component numbers where needed Added notes to not connect at same time IoT card and Expansion connector device Corrected SW403 Notes (Table 2-1) Added IoT Edge Connector pin drawing and schematic excerpt Updated GPIO Configuration Figure 2-9 Updated 2.4.16 Expansion connector description and table details Updated 2.4.20 UART1 Updated Expansion Connector Configuration Figure 2-26 Removed Regulatory Compliance chapter 3 June 2020 Changed mangOH to mangOH Updated mangOH Yellow Hardware Architecture (Default) figure Updated Wi-Fi+BT Module (clarified 802.11n support) Rev 3 Jun.20 3 41113116 Contents Introduction . 6 Hardware . 7 mangOH Yellow Hardware Overview . 7 mangOH Yellow Hardware Architecture . 10 Hardware Component Connections . 11 MUXing . 18 CF3 Module Signals. 19 ADC . 19 Audio (Analog and PCM) . 19 CF3 GPIOs . 20 GPIO Expander . 22 HSIC (USB/Ethernet) . 23 I2C1 . 23 Light Sensor . 24 Accelerator/Gyroscope . 25 Gas/Humidity/Pressure/Temperature Sensor . 25 Geomagnetic Sensor . 26 RF . 26 NFC . 27 Battery . 27 RTC . 27 Buzzer . 28 Expansion Connector . 28 SDIO . 29 SPI1 . 30 UART0 . 30 UART1 . 30 UART2 . 31 UIM . 31 USB 2.0 . 31 Rev 3 Jun.20 4 41113116 Contents Wi-Fi+BT Module . 32 Wi-Fi RF . 33 Bluetooth RF . 33 IoT Connector Interfaces . 34 Expansion Connector Interfaces . 35 Reset Methods. 36 Power Management. 37 Signal Name Variations . 39 Rev 3 Jun.20 5 41113116 1: Introduction 1 The mangOH Yellow open-source hardware development platform for CF3 modules incorporates several hardware interfaces and a standardized IoT Expansion Card slot for expanded functionality. This hardware architecture guide describes the mangOH Yellows architecture and provides details on how to develop applications for CF3 modules. For the full mangOH Yellow documentation suite, refer to mangoh.io/mangoh-yellow-resources. Rev 3 Jun.20 6 41113116 2: Hardware 2 This chapter describes the mangOH Yellow platforms hardware components and interfaces. 2.1 mangOH Yellow Hardware Overview Figure 2-1 provides an overview of the mangOH Yellows hardware components relative to the CF3 module, and Figure 2-2 on page 8 and Figure 2-3 on page 9 show their physical locations. For additional details, see the following documents:

Available at mangoh.io/mangoh-yellow-resources:

mangOH Yellow User GuideInstructions on setting up the hardware components Available at source.sierrawireless.com:

Sierra Wireless CF3 module-specific Product Technical Specification documents AirPrime Embedded Module Common Flexible Form Factor (CF3) Specification microSD

/uSIM Holder SDIO r e s U c i r e n e G n o t t u b t e s e R Buzzer Main Integrated LEDs Audio Codec RTC u.FL GPS u.FL y t i s r e v D i u.FL SW403 p5 SW403 p7 Wi-Fi + BLE u.FL Client uUSB Connector Console uUSB Connector Battery Charger Load switch Li -Ion Battery 3.7V

(Connector ) Power switch USB_VBUS /

VIN_CONN CF3 Module IoT Connector Expansion Connector GPIO Expander I2C Hub Multi-function switch SW403 p6 Wi-Fi/BLE module NFC Gyroscope /

Accelerometer Gas / Pressure /

Temperature / Humidity Sensor Light Sensor Geomagnetic Sensor BMM150 Figure 2-1: mangOH Yellow Hardware Components Overview Rev 3 Jun.20 7 41113116 mangOH Yellow Hardware Architecture Guide 22 21 20 19 18 17 16 15 14 13 1 2 3 4 5 6 7 8 9 10 11 12 1Light sensor (U506) 2Power source selector (CN801) 3GPIO expander (U503) 4IoT connector (CN601) 5Gas/Pressure/Humidity/Temperature sensor (U507) 6Power switch (SW1002) 7NFC antenna (ANT700) 8NFC transponder (U700) 9Battery connector (CN1000) 10uSIM/uSD connector (CN602) 11Multi-function switch (SW403) 12Main antenna (CN307) 13GPS Antenna (CN306) 14Diversity antenna (CN304) 15Integrated Wi-Fi/BT/GPS antenna (ANT301) 16Wi-Fi/BT antenna (CN308) 17Wi-Fi/BT module (U300) 18Generic button (SW500) 19Tri-color LED User-controlled (D500) 20Digital microphone (U704) 21Green LED User-controlled (D402) 22Tri-color LED Power/Network/Cloud (D401) Figure 2-2: mangOH YellowTop Side Switches/Connectors Note: For reference only. For latest schematic, visit mangoh.io/mangoh-yellow-resources-hardware. Rev 3 Jun.20 8 41113116 Hardware 11 10 9 8 7 6 5 1 2 3 4 1CF3 socket (J201) 2Integrated main antenna (ANT300) 3Expansion connector (CN805) 4Buzzer (U406) 5Reset button (SW401) 6RTC (U701) 7Gyroscope/Accelerometer (U520) 8Geomagnetic sensor (U502) 9Client USB connector (CN802) 103.5 mm audio jack (CN701) 11Console USB connector (CN800) Figure 2-3: mangOH YellowBottom Side Switches/Connectors Note: For reference only. For latest schematics, visit mangoh.io/mangoh-yellow-resources-hardware. Rev 3 Jun.20 9 41113116 mangOH Yellow Hardware Architecture Guide 2.2 mangOH Yellow Hardware Architecture The mangOH Yellow platform provides several hardware components (as shown in Figure 2-2 on page 8 and Figure 2-3 on page 9), including:

CF3 module socket

Wi-Fi+BT module (USI WM-BN-CYW-48) Pluggable IoT Connector (socket for IoT Expansion Card) Several I/O connectors (SIM, SD, Audio, USB, etc.) Expansion Connector Figure 2-4 illustrates the mangOH Yellows default hardware architecture (connectors and signals). The following sections describe these features in greater detail:

Hardware Component Connections on page 11mangOH Yellow hardware components overview. CF3 Module Signals on page 19CF3 module connections to hardware components.

Wi-Fi+BT Module on page 32Wi-Fi+BT module connections to hardware components. IoT Connector Interfaces on page 34IoT Expansion Card signal connections to the hardware components. Expansion Connector Interfaces on page 35Expansion connector signal connections to the hardware components.

GPS MAIN DIV Physical switches Multi-function switch SIM HOLDER PowerOn, Reset, Generic button Various signals SIM 1 HSIC CF3 Smart GPIO GPIO SDIO MASTER ADC UART1 SPI1 UART2

(WP) UART0

(HL) GPIO GPIO GPIO ADC Digital microphone 3.5mm Jack Audio Codec Audio MUX uUSB-2 Power Section jumper Battery Charger I2C uUSB-1 DNI Battery Input Battery Gauge PSU 1V8 PSU 3V3 PSU 5V0 Battery Voltage Monitor PORT2_I2C PCM USB 2.0 I2C1 GPIO GPIO GPIO ADC I2C HUB PORT1_I2C PORT3_12C 2xGPIOs SDIO MUX uSD HOLDER IOT_I2C 4xGPIO HL78_MODE_ON BUFFER DNI USB to UART FTDI Iot con #0 Default Hardware Configuration Figure 2-4: mangOH Yellow Hardware Architecture (Default) Light Sensor Gyroscope /

Accelerometer SX1509 GPIO Expander Pressure /

Temperature Sensor Geomagnetic Sensor NFC Buzzer RTC 32.768KHz HSIC 26MHz USB3503 HSIC UP USB DW USB DW USB DW I2C Expansion connector RX/TX VIN_CONN ADC GPIOs (2) SPI USB to SPI SPI_MISO SPI_CLK SPI_MRDY SPI_MOSI WiFi/BT Wi-Fi/BT chipset WL_HOST_WAKE BT_HOST_WAKE WL_REG_ON BT_DEV_WAKE SDIO BT UART UART_TX_BT UART_RX_BT UART_RTS_BT UART_CTS_BT USB to UART converter Integrated u.FL (DNI) Rev 3 Jun.20 10 41113116 Hardware 2.2.1 Hardware Component Connections Key mangOH Yellow hardware components and their connections to the CF3 module and/or Wi-Fi+BT module are listed in Table 2-1 on page 11. The mangOH Yellows default configuration enables specific interfaces when the platform boots. For interface details, see:

Important: Do not use the UART connections on both an IoT card and a device via the expansion connector to the mangOH Yellow at the same time.

MUXing on page 18 CF3 Module Signals on page 19

Wi-Fi+BT Module on page 32 IoT Connector Interfaces on page 34 Expansion Connector Interfaces on page 35 Reset Methods on page 36 Power Management on page 37

Table 2-1: mangOH Yellow Hardware Components Type and Designatora Modules/Processors/etc. CF3 module

(J201) Socket for supported CF3 module (e.g. WP76, HL78, etc.) Description Signals / Pins Notes For details, see CF3 Module Signals on page 19. IOT0

(CN601) IoT Expansion Card Connections to multiple CF3 module interfaces. For details, see IoT Expansion Card on page 16. Wi-Fi+BT module

(U300) USI Wi-Fi+BT module For details, see Wi-Fi+BT Module on page 32. Integrated NT3H2211 RFID transponder

NFC_INT0 (to CF3) I2C (via I2C hub to CF3) For details, see NFC on page 27. Micro-SIM holder (bottom socket) CF3 UIM1

(Pins: 2629) Purpose: UIM used to establish mobile network connection. For details, see UIM on page 31. Micro-SIM/

microSD holder

(top socket) CF3 SDIO

(Pins: 161166) Purpose: Provide access to microSD card. For details, see:

MUXing on page 18 SDIO on page 29 NFC RFID Transponder

(U700) Card slots micro-SIM /

micro-SD combination connector tray

(CN602) Rev 3 Jun.20 11 41113116 mangOH Yellow Hardware Architecture Guide Table 2-1: mangOH Yellow Hardware Components (Continued) Type and Designatora USB-type connectors Description Signals / Pins Notes micro-USB

(CN802) Client USB micro-USB connector USB

(Pins: 12, 13, 16) Power (if selected) micro-USB

(CN800) Console USB micro-USB connector UART2 (Pins: 9699) Power (if selected)

Purpose:

Direct connection to CF3 USB Power supplyProvides power when selected by the Power Supply Selection Jumper (CN801). See mangOH Yellow User Guide for details. For details, see USB 2.0 on page 31.

Purpose:Console Connects to CF3 module console Power supplyProvides power when selected by the Power Supply Selection Jumper (CN801) if hardware change (register R809 pop/R800 depop) has been performed. See mangOH Yellow User Guide for details. For details, see UART2 on page 31. Antennas RF Antennas Main (CN307) GNSS (CN306) Diversity (CN304) Integrated Main Antenna

(ANT300) Wi-Fi/BT Antenna (CN308) Wi-Fi/BT / GPS Integrated Antenna

(ANT301) NFC Integrated Antenna

(ANT700) Audio connectors Integrated Integrated Integrated u.FL connectors For details, see RF on page 26. CF3 RF

(Pins: 49 (Main), 38 (GNSS), 31 (Diversity)) Note: Integrated antenna is for Main only. ANT301 can be used for GNSS. No integrated antenna available for diversity. u.FL connector Wi-Fi+BT module RF

Wi-Fi+BT module RF

CF3 Pin 38 (GNSS) Connects to NFC RFID Transponder (U700) pins 1 (LA) and 8 (LB) For details, see Wi-Fi+BT Module on page 32. For details, see NFC on page 27. Audio

(CN701) 3.5 mm connector Microphone

(U704) Integrated SPK0838HT4H-

B digital microphone CF3 digital audio signals

(Pins: 3033) Purpose: Provide audio capability to CF3 module. Default microphone: Integrated digital microphone. Resistor pop/depop required to configure device to use 3.5 mm connector. For details, see:

MUXing on page 18 Audio (Analog and PCM) on page 19 Rev 3 Jun.20 12 41113116 Table 2-1: mangOH Yellow Hardware Components (Continued) Description Signals / Pins Notes Hardware Type and Designatora Sensors Gyroscope/

Accelerometer

(U520) Integrated BMI160 inertial measurement module Gas, Pressure, Humidity, Temperature sensor (U507) Integrated BME680 barometric pressure sensor Geomagnetic sensor (U502) Light sensor

(U506) Integrated BMM150 3-axis digital geomagnetic sensor Integrated OPT3002DNPT ambient light sensor Other ICs and components I2C Expander signals Purpose: Provides rotational, linear motion, and gravitational force measurements for use in (for example) gaming, mapping, navigation, drones, and optical image stabilization applications. For details, see Accelerator/Gyroscope on page 25 and I2C1 on page 23. Purpose: Provides gas (volatile organic compounds), barometric pressure, altitude, and temperature measurements for use in (for example) GPS navigation, indoor/outdoor navigation, air quality measurement, and weather forecasting applications. For details, see Gas/Humidity/Pressure/Temperature Sensor on page 25 and I2C1 on page 23. Purpose: Provides geomagnetic measurements that can be combined with the gyroscope/accelerometer readings measurements for the 9-axis inertial sensing needed for use in (for example) GPS navigation, augmented reality, drones, and gaming applications. For details, see Geomagnetic Sensor on page 26 and I2C1 on page 23. Purpose: Provide ambient light measurements for use in (for example) brightness control systems. For details, see Light Sensor on page 24 and I2C1 on page 23. Purpose: Provides additional GPIOs. For details, see:

GPIO Expander on page 22 I2C1 on page 23 Purpose: Low power consumption RTC for use in (for example) mobile equipment and battery-operated device applications. For details, see RTC on page 27 and I2C1 on page 23. GPIO expander

(U503) Integrated SX1509 expander CF3 I2C1 interface Real-time clock

(U701) CF3 I2C1 interface Integrated PCF85063TP CMOS Real-

time clock/

calendar Integrated CMT-

4023S-SMT magnetic buzzer transducer Buzzer (U406)

BUZZER_1V8, provided by RTC (U701) For details, see Buzzer on page 28. Expansion Connector

(CN805) 15-pin (male) SMT connector Connections to multiple CF3 module interfaces. Purpose: Allows connection of an external device to the mangOH Yellow. Power can be supplied from the device to the Yellow, or from the Yellow to the device. For details, see Expansion Connector Interfaces on page 35 and Expansion Connector on page 28. Rev 3 Jun.20 13 41113116 mangOH Yellow Hardware Architecture Guide Table 2-1: mangOH Yellow Hardware Components (Continued) Type and Designatora LEDs Tri-color PWR/

Network/Cloud LED

(D401) Description Signals / Pins Notes Hardware-controlled Visible LED Behavior:

GreenPower is on YellowPower on + Cellular radio on WhitePower on + Cellular radio is transmitting/receiving Tri-color (RGB) LED Note: D401 only appears as Green, Yellow (Green+Red), or White

(Green+Red+Blue). GreenVCC_3V3 Purpose: Indicates device is powered on. RedCF3 WWAN_LED_N Purpose: Indicates cellular radio is on. BlueCF3 TX_ON Purpose: Indicates CF3 module is transmitting/

receiving. Generic green LED

(D402) Green LED

(GPIO expander) GENERIC_LED Software-controlled Purpose: User-defined (programmable) Generic tri-color LED (D500) Tri-color (RGB) LED

(GPIO expander) BlueTRI_LED1 GreenTRI_LED2 RedTRI_LED3 Software-controlled Purpose: User-defined (programmable) Note: All color combinations can be used. (e.g. B, G, R, BG, BR, GR, BGR) Rev 3 Jun.20 14 41113116 Table 2-1: mangOH Yellow Hardware Components (Continued) Description Signals / Pins Notes Type and Designatora Platform controls Hardware Multi-function switch (SW403 ) Module signals control 4. W_DISABLE_N Radio state

ONDisable OFFEnable Eight dipswitches:

1. HL78_MODE_ON 2. TP1_BOOT 3. BUCK_DISABLE_N 5. CELL_ANT_CNTR 6. WIFI_ANT_CNTR 7. GPS_ANT_CNTR 8. SDIO_SEL2 Module type installed:

ONHL78 module installed. (Note: HL78 UART0 signals are carried on the CF3 sockets UIM2 pins.) OFFWP module installed CF3 modules TP1 (boot) signal

ONStop boot process at primary bootloader and enter recovery programming mode OFFBoot normally

Buck converter state, controls which components receive power

ONConverter is off. Only CF3 module receives power. OFFConverter is on. All components receive power.

Main antenna to use

ONExternal (use Main u.FL connector) OFFIntegrated Wi-Fi antenna to use

ONExternal (use Wi-Fi u.FL connector) OFFIntegrated GPS antenna to use

ONExternal (use GPS u.FL connector) OFFIntegrated SD interface source

ONmicroSD card/IoT card OFFWi-Fi module Power source selector

Pins 1/2Client USB Pins 2/3Expansion connector (default configu-

ration); Console USB (alternate configuration via resistor R809/R800 pop/depop) Power Source Selector (CN801) 3-pin vertical post-terminal strip Reset Button

(SW401) Reset pushbutton RESET_IN Purpose:Hardware reset Generic Button

(SW500) User-defined pushbutton GENERIC_BUTTON

(CF3 GPIO25) Purpose: User-defined button Rev 3 Jun.20 15 41113116 mangOH Yellow Hardware Architecture Guide Table 2-1: mangOH Yellow Hardware Components (Continued) Type and Designatora Power Switch

(SW1002) Battery Connector

(CN1000) Description Signals / Pins Notes Toggle switch Purpose: Controls board power (ON/OFF), regardless of power source. Battery connector PACK+

Purpose: External battery power supply. For behavior details, see Battery on page 27. a. Board designators (e.g. CN311, SW401, etc.) are for reference against the published mangOH Yellow schematic. For component locations on the board, see Figure 2-2 on page 8 and Figure 2-3 on page 9. 2.2.1.1 IoT Expansion Card mangOH Yellow includes one IoT connector (CN601) that connects an IoT Expansion Card to the CF3 modules signals as detailed in Table 2-2. This slot provides full support for the IoT Expansion Card specification. (Figure 2-6 and Figure 2-6 illustrate the pin positions and configuration.) By default, specific signals are enabled when the mangOH Yellow boots. For additional information, including default configuration and how to temporarily change it, see IoT Connector Interfaces on page 34. For detailed specifications, see the Project mangOH IoT Expansion Card Design Specification available at mangoh.io/iot-card-resources-documentation. Important: Do not use the UART connections on both an IoT card and a device via the expansion connector (Expansion Connector on page 28) to the mangOH Yellow at the same time. Table 2-2: IoT Expansion Card Signal Connections CF3 / Other Signal(s) IoT Signals USB

(Pins 2, 3) Signal Mux Notes HSIC

(Pins 14, 15) No Purpose: Data transfer; application control For details, see HSIC (USB/Ethernet) on page 23. SDIO

(Pins 510) SDIO

(Pins 161166) Yes UART

(Pins 1215) SPI

(Pins 1619) UART1

(Pins 36) SPI1

(Pins 5154) ADC

(Pin 20) ADC0

(Pin 25) No No No Purpose: Data transfer For details, see:

MUXing on page 18 SDIO on page 29 Purpose: Data transfer For details, see UART1 on page 30. Purpose: Data transfer For details, see SPI1 on page 30. Purpose: General purpose ADC output to host application (e.g. indicate when a sensor has triggered) For details, see ADC on page 19. Rev 3 Jun.20 16 41113116 Hardware Table 2-2: IoT Expansion Card Signal Connections (Continued) CF3 / Other Signal(s) IoT Signals Signal Mux Notes I2C

(Pins 2223) I2C1

(Pins 1, 66) Hub Purpose: Data transfer (standard mode). Higher speeds possible if supported by host application. For details, see I2C1 on page 23. GPIO_1 (Pin 24) GPIO42 (Pin 109) GPIO_2 (Pin 25) SPI1_SRDY (Pin 44) GPIO_3 (Pin 26) GPIO7 (Pin 40) GPIO_4 (Pin 27) GPIO8 (Pin 41) Purpose: Customer-defined data communication For details, see CF3 GPIOs on page 20. n_CARD_DETECT

(Pin 31) I2C via GPIO Expander I/O_8 Purpose: Indicates an IoT card is inserted in the IoT expansion connector (CN601). For details, see GPIO Expander on page 22. n_RESET

(Pin 32) PCM

(Pins 3336) RESET_IOT0

(via Reset circuitry) Purpose: Reset the IoT card. For details, see Reset Methods on page 36. PCM

(Pins 3336) Purpose: Digital audio interface For details, see Audio (Analog and PCM) on page 19. PPS

(Pin 37) DR_SYNC

(Pin 42) Purpose: Clock signal used to manage timing for sensor nodes (or other devices) that are connected to the expansion card. The signal is a stratum 1 clock input from the host application, where the host application operates as a stratum 1 time source connected to GPS (a stratum 0 source). No No No No No No No Power

(Pins 1 (5V), 11 (1.8V), 28/29 (3.3V)) Ground (4, 21, 30, 38) Power n/a Default configurationReceives three power inputs:

For details, see Power Management on page 37. 5.0V @ 500 mA 3.3V @ 1 A 1.8V @ 200 mA Alternate signal functions (require hardware reconfiguration) GPIO_4 (Pin 27) No Input from light sensor GPIO36 (from light sensor) n_RESET

(Pin 32) PPS

(Pin 37) PPS

(Pin 37) RESET_N (Pin 11) No Purpose: Reset the CF3 module from the IoT card. GPIO40 (Pin 94) No Purpose: Customer-defined data communication For details, see CF3 GPIOs on page 20. ADC3 (Pin 108) No Purpose: General purpose ADC output to host application (e.g. indicate when a sensor has triggered) For details, see ADC on page 19. Rev 3 Jun.20 17 41113116 mangOH Yellow Hardware Architecture Guide Pin 20 Pin 19 Pin 38 Pin 1 Figure 2-5: IoT Expansion Card Edge Connector Pin Locations USB_VBUS VCC_5V0 R600 DNI 0 R601 0 C600 10uF VCC_1V8 IOT#0 R602 47K R608 0 DNI CN601 R607 0 ADC3 (2) GPIO_40 (2) 0 DNI R606

(7)

(7) USB_IOT_D+

USB_IOT_D-

SD_CLK_CARD_IOT SD_CMD_CARD_IOT SD_D3_CARD_IOT SD_D2_CARD_IOT SD_D1_CARD_IOT SD_D0_CARD_IOT

(2,8) UART1_TX

(2,8)

(2) UART1_RX UART1_CTS

(2) UART1_RTS VCC_1V8_ULPM_IOT

(2)

(2)

(2)

(2) SPI1_CLK SPI1_MISO SPI1_MOSI SPI1_MRDY VCC_1V8_ULPM VCC_1V8 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 PCM_CLK_IOT R630 DNI 0 PPS (2) RESET_IN (2,4,10) PCM_SYNC_IOT PCM_OUT_IOT PCM_IN_IOT CARD_DETECT_IOT0 (5) RESET_IOT0 (4) VCC_3V3 R631 0 USB_VBUS R622 0 IOT0_GPIO3 (2) IOT0_GPIO2 (2) IOT0_GPIO4 (2) DNI 0 R632 R604 0 IOT_SCL (5) IOT_SDA (5) ADC0 (2) GPIO_42 (2,3,6) C601 10uF FS1-R38-20A2-00 R614 0 R625 0 DNI GPIO36 (2,5) R605 R612 DNI 0 0 VCC_1V8_ULPM_IOT C602 10uF Figure 2-6: IoT Expansion Card Edge Connector SchematicIoT Expansion Card View 2.3 MUXing Several interfaces use MUXing (simple switches) to associate multiple hardware connectors with a single signal from the CF3 module, or multiple signals with a single hardware connector. The following sections describe these MUX implementations:

MUX

Hubs Audio (Analog and PCM) on page 19 SDIO on page 29 HSIC (USB/Ethernet) on page 23 I2C1 on page 23 Rev 3 Jun.20 18 41113116 Hardware 2.4 CF3 Module Signals This section describes how CF3 module signals connect to the platform hardware components (described in Hardware Component Connections on page 11). Important: CF3 module signal availability depends on the module typesome modules may not implement certain Extension signals from the CF3 specification. 2.4.1 ADC The mangOH Yellow supports four CF3 module ADC (Analog to Digital converter) signal sources (ADC0-ADC3). The ADC signals connect to the following sources, as shown in Figure 2-7:

ADC0IoT Connector 0 (CN1000, slot IOT0), pin 20 ADC1Battery Voltage Monitor (BAT_VOL_MONITOR) ADC2Expansion connector (CN805), pin 9 ADC3IoT Connector 0 (CN1000, slot IOT0), pin 37 (Hardware modification required) ADC1 BAT_VOL_MONITOR Battery Voltage Monitor

(U1003) ADC2 ADC2_1V8 ADC2_3.3V Pin 8 Level Shifter Expansion Connector

(CN805) CF3 ADC0 ADC3 ADC0 (Pin 20) ADC3 (Pin 37) IoT Connector

(CN601)

(R608) Note: Default configuration Solid lines Alternate configuration Dashed lines Figure 2-7: ADC Configuration 2.4.2 Audio (Analog and PCM) 3.5 mm analog audio jack (Default configuration) IoT connector (Alternate configuration) The mangOH Yellow supports the CF3 module PCM (digital) audio signals. The signals connect via a Mux (analog switch) to the following sources, as shown in Figure 2-8:

Rev 3 Jun.20 19 41113116 mangOH Yellow Hardware Architecture Guide The audio interface configuration can be modified as described in Table 2-3. Table 2-3: Audio Interface Configuration Changes Change type Change effect Method Change duration Software Switch audio I/O from audio codec to IoT connector (or switch back) Use the control signal

(PCM_EXP_SEL) to switch between the audio I/O sources. Until device reboots (non-

persistent) Hardware Select microphone type

(digital/analog) Selected configuration used every time device boots up. Populate/depopulate resistors:

Select 3.5mm jack or digital microphone:

R713(Default) Enables Digital microphone R714Enables 3.5 mm jack PCM_EXP_SEL Mux (U602) IoT Connector #0

(CN601, slot IOT0) CF3 PCM Digital-

Analog Codec

(U702)

(R714 Analog Mic ) 3.5mm Jack

(CN701)

(R713 Digital Mic) Digital Microphone

(U704) Note: Default configuration Solid lines Alternate configuration Dashed lines Figure 2-8: Audio Configuration 2.4.3 CF3 GPIOs The mangOH Yellow supports several CF3 module GPIOs, as shown in Figure 2-9. Note: The mangOH Yellow uses a GPIO expander for additional I/O functions. See GPIO Expander on page 22. Rev 3 Jun.20 20 41113116 GPIO2 GPIO_IOT0_RESET SYSTEM_RESET GPIO37 GPIO_BT_RESET RESET_BT SYSTEM_RESET GPIO22 BT_HOST_WAKEUP BT_HOST_WAKE GPIO6 LOW_POWER_RESET CF3 RESET_IN SYSTEM_RESET GPIO Expander (U503) GPIO32 GPIO_EXP_IN INT Hardware IOT0_GPIO2 IOT0_GPIO3 IOT0_GPIO4 PPS RESET_IOT0 IOT0_GPIO1 IoT Connector #0

(CN601, slot IOT 0) uSIM/uSD (CN602) SW (SD detect) WL_HOST_WAKE BT_RST_N Wi-Fi/BT module

(U300) Light Sensor (U506) LIGHT_SENSOR_INT Accelerometer/Gyrometer (U520) ACC_SENSOR_INT1 ACC_SENSOR_INT2 NFC (U700) NFC_INT0 Expansion connector (CN805) EXP_GPIO1_3V3 EXP_GPIO2_3V3 Generic Button (SW500) GENERIC_BUTTON Stepdown (Buck) Converter

(U900) SPI1_SRDY

(GPIO13) GPIO7 GPIO8 GPIO40 GPIO42 GPIO36 GPIO38 GPIO21 GPIO23 GPIO24 GPIO33 GPIO25 GPIO41 BUCK_CONV_EN Note: Default configuration Solid lines Alternate configuration Dashed lines Figure 2-9: GPIO Configuration Rev 3 Jun.20 21 41113116 mangOH Yellow Hardware Architecture Guide 2.4.4 GPIO Expander The mangOH Yellow includes one SX1509 16-channel GPIO/PWM expander (U503), as detailed in Table 2-4. The expander provides additional GPIOs (carried over the CF3 modules I2C1 interface) that are used for internal I/O functions such as driving LEDs, resetting board components, etc. For detailed specifications, see the mangOH Yellow schematics at mangoh.io/mangoh-yellow-resources-hardware. Table 2-4: GPIO Expander (U503) Signals Pin Signal Name I/O 0 TP500 Purpose Test point I/O 1 WL_REG_ON Turn on/off Wi-Fi+BT modules Wi-Fi radio (U300) I/O 2 TP501 Test point I/O 3 BT_DEV_WAKE Wake BT radio (U300) I/O_4 GENERIC_LED Generic green LED control (D402) I/O_5 PCM_EXP_SEL Connect PCM interface to IoT0 or to PCM codec (audio) via U602 I/O_6 TP502 Test point I/O_7 TRI_LED1 Generic tri-color LED (D500) (BLUE) control I/O_8 CARD_DETECT_IOT0 Indicates whether IoT expansion card is present I/O_9 BATTGAUGE_GPIO Signal from battery fuel gauge I/O_10 TRI_LED3 Generic tri-color LED (D500) (RED) control I/O_11 BAT_VOL_MONITOR Signal from battery voltage monitor I/O_12 CHARGER_INT_N Interrupt from battery charger I/O_13 MAG_DATA_READY Geomagnetic sensor data ready I/O_14 RTC_INT I/O_15 TRI_LED2 Interrupt from real-time clock Generic tri-color LED (D500) (GREEN) control Rev 3 Jun.20 22 41113116 Hardware 2.4.5 HSIC (USB/Ethernet) The mangOH Yellow supports the CF3 modules HSIC signals, which connect through a USB hub controller to the following sources, as shown in Figure 2-10:

IoT Connector 0 (CN601)USB interface

Wi-Fi+BT module (U300)UART interface via USB to UART converter (U803) Expansion Connector (CN805)SPI interface via USB/SPI bridge (U805) USB_IOT _D+

USB_IOT _D-

USB IoT Connector #0

(CN601, slot IOT0) USB DW USB DW USB DW BT _D+

BT _D-

Extension _D+

Extension _D-

USB/UART converter

(U803) USB to SPI bridge

(U805) UART Wi-Fi/BT chipset

(U300) SPI Expansion Connector

(CN805) The mangOH Yellow supports CF3 module I2C1 signals, which connect to the following sources (directly or via an I2C expander), as shown in Figure 2-11:

CF3 HSIC HSIC Up USB3503 Hub

(U703) Figure 2-10: HSIC Configuration 2.4.6 I2C1 Direct connection:

Audio codec (U702) / 3.5 mm jack (CN701) Connection via expander:

Gas/Pressure/Humidity/Temperature sensor (U507) Accelerometer/Gyroscope sensor (U520) Geomagnetic Sensor (U502) Light Sensor (U506) Real Time Clock (U701) / Buzzer (U406) NFC (U700) Battery charger (U1000) Battery gauge (U1002) IoT Connector 0 (CN601) Expansion connector (CN805) GPIO/PWM expander (U503)Used internally on the mangOH Yellow for I/O functions such as driving LEDs, resetting board components, etc. (see GPIO Expander on page 22) For detailed information, refer to mangOH Yellow schematics available at mangoh.io/mangoh-yellow-

resources-hardware.

Connection via USB Hub controller (U703):

Converts between CF3 HSIC signals and USB signals for the IoT card, Wi-Fi/BT module, and Expansion connector. Rev 3 Jun.20 23 41113116

mangOH Yellow Hardware Architecture Guide All signal sources are enabled by default. Note: The mangOH Yellow I2C interface operates in a single-master/multi-slave setup. 3.5mm jack

(CN701) I2C Expander

(U505) Accelerometer/Gyroscope (U520) Gas/Humidity/Pressure/Temperature Sensor (U507) IoT Connector #0

(CN601, slot IOT0) Battery Charger (U1000) Battery Gauge (U1002) Light Sensor (U506) Geomagnetic Sensor (U502) GPIO Expander (U503) NFC (U700) RTC (U701) Expansion Connector (CN805) Buzzer (U406) The mangOH Yellow provides a light sensor (U506) that connects to the CF3 module via I2C, as shown in Figure 2-12 and Figure 2-11 on page 24. I2C Expander

(U505) Light Sensor

(U506) INT CF3 I2C1 HSIC Audio Codec

(U702) USB Hub

(U703) Expansion Wi-Fi/BT IoT Figure 2-11: I2C1 Configuration 2.4.7 Light Sensor GPIO36 CF3 I2C Figure 2-12: Light Sensor Configuration Rev 3 Jun.20 24 41113116 2.4.8 Accelerator/Gyroscope The mangOH Yellow provides an accelerometer/gyroscope (U520) that connects to the CF3 module via I2C, as shown in Figure 2-13 and Figure 2-11 on page 24. Hardware GPIO21 GPIO38 CF3 I2C I2C Expander

(U505) Accelerometer/Gyroscope

(U520) INT INT Figure 2-13: Accelerator/Gyroscope Configuration 2.4.9 Gas/Humidity/Pressure/Temperature Sensor The mangOH Yellow provides a gas/humidity/pressure/temperature sensor (U507) that connects to the CF3 module via I2C, as shown in Figure 2-14 and Figure 2-11 on page 24. CF3 I2C I2C Expander

(U505) Gas/Humidity/Pressure/Temperature Sensor (U507) Figure 2-14: Gas/Humidity/Pressure/Temperature Sensor Configuration Rev 3 Jun.20 25 41113116 mangOH Yellow Hardware Architecture Guide 2.4.10 Geomagnetic Sensor The mangOH Yellow provides a geomagnetic sensor (U502) that connects to the CF3 module via I2C, as shown in Figure 2-15 and Figure 2-11 on page 24. GPIO25 CF3 I2C I2C Expander

(U505) Geomagnetic Sensor

(U502) INT DNI Figure 2-15: Geomagnetic Sensor Configuration 2.4.11 RF The mangOH Yellow provides u.FL antenna connectors and integrated antennas that connect to the CF3 modules RF signals:

RF_MAINCN307 (u.FL); ANT300 (Integrated) RF_GPSCN306 (u.FL); ANT301 (Integrated Wi-Fi/BT + GPS) RF_DIVCN304 (u.FL) Power for these signals can be enabled/disabled as described in Table 2-5.

Table 2-5: CF3 RF Interface Configuration Changes Change type Change effect Method Change duration Software Enable/disable RF power for CF3 module AT command Legato API Hardware Select Main and GPS antennas mangOH Yellow uses the selected antennas until the dipswitch positions are changed. SW403:

Dip 5CELL_ANT_CNTR:

OFFIntegrated (ANT300) ONu.FL (CN307) Dip 7GPS_ANT_CNTR:

OFFIntegrated (ANT301) ONu.FL (CN306)

Rev 3 Jun.20 26 41113116 Hardware Integrated

(ANT300) Integrated

(ANT301) Main u.FL

(CN307) GPS u.FL

(CN306) Diversity

(CN304) CELL_ANT_CNTR GPS_ANT_CNTR CF3 RF_MAIN RF_GPS RF_DIV Figure 2-16: CF3 module RF Connections 2.4.12 NFC The mangOH Yellow provides an integrated NTAG I2C plus passive tag (U700) and antenna (ANT700) that connect to the CF3 module via I2C, as shown in Figure 2-11 on page 24. Note: This is a passive tag. Unlike a reader, it is not an intentional radiator. 2.4.13 Battery The mangOH Yellow can be powered by an external 3.7 V rechargeable Li-Ion/Li-polymer battery. The battery powers the mangOH Yellow if the selected primary power source is not connected (USB or expansion connector), and recharges automatically if the selected primary power source is connected. Battery-related components on the mangOH Yellow include:

External battery connector (CN1000) Integrated battery charger (U1000)

Battery gauge (U1002) that reports the batterys charge level via I2C to the CF3 module Voltage supervisor (U1003) that monitors the batterys voltage and, when the voltage level is out of range

(<3.1V or >3.6V), will assert RESET_IN to hold the CF3 module in reset until the battery is sufficiently recharged. The CF3 module interacts via I2C with both the battery charger and the battery gauge, as shown in Figure 2-11 on page 24. 2.4.14 RTC The mangOH Yellow provides a low power consumption CMOS Real-Time Clock (RTC) (U701) that connects to the CF3 module via I2C, as shown in Figure 2-11 on page 24. Rev 3 Jun.20 27 41113116 mangOH Yellow Hardware Architecture Guide The RTC provides basic functionality (provides clock (year, month, day, weekday, hours, minutes, seconds) and calendar), and includes a clock output signal (CLKOUT) that connects to a buzzer (2.4.15 Buzzer) for user-defined purposes. 2.4.15 Buzzer The mangOH Yellow includes an integrated buzzer (U406) for user-defined use. The buzzer is activated by the RTC clock output signal (CLKOUT). 2.4.16 Expansion Connector The mangOH Yellow provides a 15-pin expansion connector (CN805) that can be used to connect an external device to the mangOH Yellow. The expansion connector includes several pins that connect to the CF3 modules signals as detailed in Table 2-6. Note: All signals (pins 214) are 3.3 V. For additional information, including default configuration and how to temporarily change it, see Expansion Connector Interfaces on page 35. Important: Do not use the UART connections on both the IoT card (IoT Expansion Card on page 16) and a device via the expansion connector to the mangOH Yellow at the same time. Expansion Pins Output Power

(Expansion to mangOH Yellow)

(Pin 1) Reset

(Pin 2) SPI

(Pins 36) UART

(Pins 78) ADC

(Pin 9) Table 2-6: Expansion Connector Signal Connections to CF3 Module CF3/Other Signal(s) Signal Mux Notes VIN_CONN n/a Purpose: Connected device provides power to the mangOH Yellow when Power Supply Selector (CN801) jumper is on pins 23. For details, see Power Management on page 37. SYSTEM_RESET via:

LOWPOWER_RESET

(CF3 GPIO6) Reset button (SW401) n/a Purpose: Input from mangOH Yellow to reset the connected device. HSIC

(Pins 1415) No Purpose: Data transfer; application control For details, see HSIC (USB/Ethernet) on page 23. UART1

(Pins 56) ADC2

(Pin 107) Purpose: Data transfer via 2-pin UART interface (Tx/Rx). For details, see UART1 on page 30. Purpose: General purpose ADC output to host application (e.g. indicate when a sensor has triggered) For details, see ADC on page 19. Purpose: Data transfer (standard mode). Higher speeds possible if supported by host application. For details, see I2C1 on page 23. No Hub I2C

(Pins 1011) I2C1

(Pins 1, 66) Rev 3 Jun.20 28 41113116 Hardware Table 2-6: Expansion Connector Signal Connections to CF3 Module (Continued) CF3/Other Signal(s) Signal Mux Notes GPIO_24 (Pin 150) GPIO_33 (Pin 105) Purpose: User-defined GPIOs VCC_3V3 n/a Purpose: Power provided by mangOH Yellow to connected device. Expansion Pins GPIO

(Pins 1213) Input Power

(mangOH Yellow to Expansion)

(Pin 14) Ground

(Pin 15) 2.4.17 SDIO Ground

Wi-Fi+BT module (U300)

microSD card connector (CN602)

IoT card connector (CN601) If SDIO_SEL2 is:

module. The mangOH Yellow supports the CF3 module SDIO signals, which connect via a MUX (controlled by SW403 pin 8 SDIO_SEL2) to the following sources, as shown in Figure 2-17:

OFFIf a microSD card or IoT card is inserted, use that card as the SDIO slave, otherwise use the Wi-Fi/BT

ONUse the microSD card or IoT card as the SDIO slave. The Wi-Fi/BT module will not be used. Important: Only one card can be inserted (either a microSD card or an IoT card). The SDIO interface will not work if both cards are inserted. The SDIO interface configuration can be modified as detailed in Table 2-7. Table 2-7: SDIO Interface Configuration Changes Change type Change effect Method Change duration Hardware As described above. SW403 pin 8 SDIO_SEL2 SDIO slave selection occurs during module boot based on the SDIO_SEL2 switch position. If the switch is changed while booted, reboot the module for the change to take effect. Rev 3 Jun.20 29 41113116 mangOH Yellow Hardware Architecture Guide SDIO_SEL2 Mux (U602)

(SDIO expander) Wi-Fi/BT (U300) uSD Holder

(CN602) IoT Connector

(CN601) CF3 SDIO Figure 2-17: SDIO Configuration 2.4.18 SPI1 Figure 2-18: SPI1 Configuration 2.4.19 UART0 Figure 2-19: UART0 Configuration 2.4.20 UART1 The mangOH Yellow supports the CF3 modules SPI1 signals, which connect to the IoT Connector (CN601) as shown in Figure 2-18. CF3 SPI1 SPI IoT Connector #0

(CN601, slot IOT0) When the mangOH Yellow is in HL78 mode (SW403 pin 1 HL78_MODE_ON selected), UART0 is used to connect to the Console USB connector (CN800) as shown in Figure 2-19. CF3

(HL78xx) UART0

(over UIM2_VCC /

UIM2_DATA) Buffer USB-UART FTDI Console USB The mangOH Yellow supports the CF3 modules UART1 signals, which connect to the IoT Connector (CN601) and Expansion Connector (CN805) as shown in Figure 2-20. Important: Do not use the UART connections on both an IoT card and a device via the expansion connector to the mangOH Yellow at the same time. Rev 3 Jun.20 30 41113116 Hardware

(4 pins )

(2 pins ) UART IoT Connector #0

(CN601 , slot IOT0) UART Expansion Connector

(CN805 ) CF3 UART1 Figure 2-20: UART1 Configuration 2.4.21 UART2 The mangOH Yellow supports the CF3 modules UART2 signals, which connect to the Console USB connector

(CN800), as shown in Figure 2-21. CF3 UART2 Level shifter USB-UART FTDI Console USB Figure 2-21: UART2 Configuration 2.4.22 UIM The mangOH Yellow supports the CF3 modules UIM1 interface, as shown in Figure 2-22. Note: Throughout this document, UIM is used to refer to UIM, USIM, SIM, UICC. CF3 UIM1 SIM Holder

(CN602) Figure 2-22: UIM1 Interface Configuration The CF3 modules UIM1 signals connect to the micro-SIM holder (CN602). Note: The CF3 modules UIM1_DET signal indicates when a SIM is present in the holder. 2.4.23 USB 2.0 The CF3 modules USB signal connects directly to the mangOH Yellows micro-USB connector (CN802) as shown in Figure 2-23, for control by a connected computer. Note: The micro-USB connector also acts as a power source, if selected. See Power Management on page 37. The USB 2.0 interface configuration can be modified as detailed in Table 2-8. Rev 3 Jun.20 31 41113116 mangOH Yellow Hardware Architecture Guide Hardware Table 2-8: USB 2.0 Interface Configuration Methods Change type Change effect Method Change duration

Jumper on CN801 pins 12 Select CF3 Client USB power Jumper on CN801 pins 23 Select Expansion Connector power (or CON USB connector, if resistors have been populated/

depopulated) Position jumper on CN801 to choose Client USB or Expansion Connector to supply power. Note: mangOH Yellow ships with USB power connector selected (jumper on pins closest to USB connector). mangOH Yellow uses the selected power supply until the jumper changes. USB USB2.0 micro-USB Client connector

(CN802) CF3 USB Figure 2-23: USB_2.0 Configuration 2.5 Wi-Fi+BT Module The mangOH Yellow incorporates a Wi-Fi+BT module (USI Wi-Fi+Bluetooth) that provides the following functionality, as show in Figure 2-24:

RF:

Wi-Fi/Bluetooth connections via mangOH Yellow u.FL antenna connector or integrated 2.4 GHz antenna Supports 2.4 GHz Wi-Fi (802.11b/g; 802.11n (HT20 only)) and 2.4 GHz BLE (Bluetooth Low Energy)

Wi-Fi interface SDIO connection to CF3

Wi-Fi and BT interface control signals via CF3 module and GPIO Expander GPIOs

BT UART interface connection to CF3 HSIC interface Note: Wi-Fi/BT operating frequency ranges and output power levels are not user-configurable. Rev 3 Jun.20 32 41113116 Hardware Wi-Fi/BT Module

(U300) WIFI_ANT_CNTR Integrated

(ANT301) Wi-Fi u.FL

(CN308) SDIO Expander I/O_1 I/O_3 GPIO Expander

(U503) CF3 SDIO GPIO42 GPIO22 RF_ANT SDIO WL_HOST_WAKE WL_REG_ON BT_DEV_WAKE BT_HOST_WAKE BT_UART UART_BT UART to USB USB

(BT_D+/D-) USB Hub HSIC Note: Default configuration Solid lines Alternate configuration Dashed lines Figure 2-24: Wi-Fi+BT Module Connections 2.5.1 Wi-Fi RF The mangOH Yellow supports 2.4GHz Wi-Fi (802.11b/g; 802.11n (HT20 only)). For full Wi-Fi 2.4 GHz RF receiver/transmitter specifications, refer to the Cypress CYW43364 datasheet or the WM-BN-CYW-48_REF1_Module Datasheet_V1.1 from USI. (The USI chip is a SIP package that contains the CYW43364 (Wi-Fi) and CYW20719 (Bluetooth) chips.) 2.5.2 Bluetooth RF The mangOH Yellow supports 2.4GHz BLE (Bluetooth Low Energy). For full Bluetooth 2.4 GHz RF receiver/transmitter specifications, refer to the Cypress CYW20719 datasheet or the WM-BN-CYW-48_REF1_Module Datasheet_V1.1 from USI. (The USI chip is a SIP package that contains the CYW43364 (Wi-Fi) and CYW20719 (Bluetooth) chips.). Rev 3 Jun.20 33 41113116 mangOH Yellow Hardware Architecture Guide 2.6 IoT Connector Interfaces The mangOH Yellow provides one IoT Connector (CN601), which supports the signals defined in the Project mangOH IoT Expansion Card Design Specification, as detailed in Table 2-2 on page 16. The default configuration (enabled signals) for the IoT Connector is shown in Figure 2-25. The IoT Connector interface configuration can be modified as detailed in Table 2-9. Table 2-9: IoT Connector Interface Configuration Changes Change type Change effect Method Change duration Software Enable/disable identified signal(s) on a specific IoT Connector. API command Modifies running configuration until device reboots or another change is made. CARD_DETECT_IOT0 Note: Default configuration Solid lines Alternate configuration Dashed lines CF3 HSIC SDIO UART1 SPI1 ADC0 I2C1 GPIO42 SPI1_SRDY GPIO7 GPIO8 GPIO36 N_RESET RESET_N PCM DR_SYNC GPIO40 ADC3 Figure 2-25: IoT Connector Configuration IoT Connector #0

(CN601) USB SDIO UART SPI ADC0 I2C GPIO_1 GPIO_2 GPIO_3 GPIO_4 N_RESET PCM PPS Rev 3 Jun.20 34 41113116 Hardware 2.7 Expansion Connector Interfaces The mangOH Yellow provides an expansion connector (CN805), that can be used to connect an external device to the mangOH Yellow. The external device can be powered by the mangOH Yellow, or the mangOH Yellow can be powered by the external device. The default configuration (enabled signals) for the expansion connector is shown in Figure 2-26. The Expansion Connector interface configuration can be modified as detailed in Table 2-10. Table 2-10: Expansion Connector Interface Configuration Changes Change type Change effect Method Change duration Hardware mangOH Yellow uses the selected power supply until the jumper changes. Jumper on CN801 pins 12 Select CF3 Client USB power Jumper on CN801 pins 23 Select Expansion Connector power (or CON USB connector if resistor populated/

depopulatedsee next row for details). Position jumper on CN801 to choose Client USB or Expansion Connector to supply power. Note: mangOH Yellow ships with USB power connector selected (jumper on pins closest to USB connector).

Use CON USB connector for power instead of Expansion Connector. Populate R809, depopulate R800 Permanent VIN_CONN VCC_3V3 CF3

(Power supplied from mangOH Yellow to CN805)

(Power from CN805 supplied to mangOH Yellow) LOWPOWER _RESET GPIO6 Reset button (SW401) SYSTEM _RESET Expansion Connector

(CN805) Input Power Output Power USB Hub

(U703) USB-SPI Bridge I2C Expander HSIC UART1 ADC2 I 2C1 GPIO_24 GPIO_33 Figure 2-26: Expansion Connector Configuration Note: Default configuration Solid lines Alternate configuration Dashed lines Reset SPI2 UART ADC I2C GPIO GPIO Rev 3 Jun.20 35 41113116 mangOH Yellow Hardware Architecture Guide 2.8 Reset Methods The mangOH Yellow supports hardware and software resets of the entire board or certain components of the board, as shown in Figure 2-27:

Table 2-11: Reset Methods Board Components to Reset Reset Method Entire board, including CF3 module (WP or HL) Press Reset button (SW401) to trigger the module signal RESET_IN. Note: RESET_IN can also be triggered by the IoT connector (CN601) if a hardware modification is made to populate resistor R630. Refer to the mangOH Yellow schematic for details. All components except CF3 module Use an API command to trigger the module signal LOWPOWER_RESET. IOT Expansion Card Wi-Fi+BT module Use an API command to trigger the CF3 module signal GPIO_IOT0_RESET. Wi-Fi ResetNot currently supported. BT ResetUse an API command to trigger the CF3 module signal GPIO_BT_RESET. The mangOH Yellow also will switch off automatically if operating under battery power and the battery voltage drops below 3.1V, and will remain off while the battery voltage is < 3.6V. For detailed specifications showing how full or partial resets are enabled, see the mangOH Yellow schematics available at mangoh.io/mangoh-yellow-resources-hardware. Reset Button

(SW401) RESET_IN U402 SYSTEM _RESET I2C Expander (U505) GPIO Expander (U503) USB2.0 Hub Controller (U703) U806 Expansion Connector (CN805) USB-UART Controller (U803) DNI USB-SPI Bridge (U805) U403 RESET_IOT0 IOT Connector (CN601) RESET _IN U404 RESET _BT Wi-Fi/BT Module (U300) Main CF3 RESET _IN_N GPIO6 GPIO2 LOWPOWER _RESET GPIO_IOT0_RESET GPIO37 GPIO _BT_RESET U1000 Battery Charger DNI Figure 2-27: Reset Methods Rev 3 Jun.20 36 41113116 Hardware 2.9 Power Management The mangOH Yellow has two primary power supplies (the micro-USB Client connector and Expansion connector), and a rechargeable backup battery power supply option. The hardware can also be reconfigured to replace the Expansion connector with the micro-USB Console connector as a primary supply. Figure 2-28 illustrates these power supplies, their voltage/current specifications, and how they supply various components on the mangOH Yellow platform. Table 2-12: Power Configuration Changes Change type Change effect Method Change duration Hardware Change VIN source from expansion connector power pin to micro-USB Console connector. Populate R809, depopulate R800 Permanent The power switch is used to turn the mangOH Yellow on/off, regardless of which power supply is being used. Table 2-13: Power Switch Options Primary power connected Battery connected Switch Position

(Toward center ON toward outside OFF) No Yes Yes No No No Yes Yes Any No power to board, switch has no effect. Center (ON) Primary power supplied to board. Result Outside (OFF) Board is off. Center (ON) Primary power supplied to board. Battery recharges automatically. Outside (OFF) Board is off. Center (ON) Battery power supplied to board. Outside (OFF) Board is off. Rev 3 Jun.20 37 41113116 mangOH Yellow Hardware Architecture Guide uUSB Client USB_VBUS Regulator and charger VIN VIN_CONN Expansion Connector uUSB Console DNI DNI Battery Gauge Voltage monitor Li-Ion Battery 3.7V Figure 2-28: Power Management Load Switch BAT _VIN _PRESENT

(control signal ) Battery /

VIN switch

(SW1002 ) EN 5V Boost EN 3.3V / 1.8V Buck ULPM LDO 5V Peripherals 3V3 Peripherals including Wi-Fi/BT module 1V8 Peripherals IOT0 5V 3V3 1V8 CF3 Main Rev 3 Jun.20 38 41113116 3: Signal Name Variations 3 The mangOH Yellow schematic (available at mangoh.io/mangoh-yellow-resources-hardware), describes all interfaces supported by the mangOH Yellow. The following table identifies signal naming differences between the CF3 standard, the mangOH Yellow, and WP7702 modules. Table 3-1: Interface Variations Signal Names Pin CF3 mangOH WP7702a 10 11 16 21 22 23 29 31 38 40 41 42 43 44 46 47 55 56 57 58 59 61 62 63 GPIO2 GPIO_IOT0_RESET GPIO2 RESET_N RESET_IN RESET_IN_N USB_VBUS BAT_RTC VBATT_BB

(alt: USB_VBUS) BAT_RTC

(TP) USB_VBUS Reserved SYSTEM_CLK SYSTEM_CLK SYS_CLK SLEEP_CLK 32K_CLK SLEEP_CLK UIM1_RESET UIM1_RESET UIM1_RESET_N RF_DIV RF_GPS GPIO7 GPIO8 RF_DIV RF_GPS IOT0_GPIO3 IOT0_GPIO4 Reserved RF_GNSS GPIO7 GPIO8 DR_SYNC PPS DR_SYNC EXT_LNA_GPS_EN EXT_LNA_GPS_EN EXT_GPS_LNA_EN GPIO13 IOT0_GPIO2 RESET_OUT_N LowPower_RESET TP1 (BOOT) UIM2_VCC UIM2_DATA TP1_BOOT UART0_RX UART0_TX UIM2_RESET UART0_CTS UIM2_CLK UART0_RTS VBATT_RF1 VBATT_RF2 VBAT_BB1 VBATT_RF VBATT_RF VBATT_BB GPIO13 GPIO6

(alt: RESET_OUT_N) TP1 (Boot pin) Reserved Reserved Reserved Reserved VBAT_RF VBAT_RF VBAT_BB POWER_ON_N POWER_ON POWER_ON_N Rev 3 Jun.20 39 41113116 mangOH Yellow Hardware Architecture Guide Table 3-1: Interface Variations (Continued) Pin CF3 mangOH Signal Names UIM1_DET UIM2_DET TP203 NC I2C1_DATA I2C1_DATA_CF3 I2C1_Data GPIO38 ACC_SENSOR_INT1 64 65 66 92 93 94 95 100 101 103 104 105 106 107 109 147 148 149 150 153 154 155 156 157 158 159 161 162 163 164 GPIO39 GPIO40 GPIO41 GPIO34 GPIO35 GPIO37 GPIO32 GPIO33 LED1_N ADC2 GPIO42 GPIO21 GPIO22 GPIO23 GPIO24 GPIO28 GPIO29 GPIO30 GPIO31 VBATT_RF3 VBATT_BB2 GPIO25 SDCC_CMD SDCC_CLK SDCC_DATA_3 SDCC_DATA_2 NC GPIO_40 BUCK_CONV_EN NC TP GPIO_BT_RESET GPIO_EXP_INT GPIO_33 ADC2_1V8 GPIO_42 ACC_SENSOR_INT2 BT_HOST_WAKEUP NFC_INT0 GPIO_24 ANT_CTL_0 ANT_CTL_1 ANT_CTL_2 ANT_CTL_3 VBATT_RF VBATT_BB SD_CMD SD_CLK SD_D3 SD_D2 GENERIC_BUTTON

(dnp: MAG_SENSOR_INT) WP7702a UIM1_DET GPIO4 GPIO38 Reserved GPIO40 GPIO41 Reserved GPIO35 GPIO37 GPIO32 GPIO33 ADC2 GPIO42 GPIO21 GPIO22 GPIO23 GPIO24 ANT_CNTL0 ANT_CNTL1 ANT_CNTL2 ANT_CNTL3 VBAT_RF VBAT_BB GPIO25 SDIO_CMD SDIO_CLK SDIO_DATA_3 SDIO_DATA_2 WWAN_LED_N WWAN_LED_N 152 SAFE_PWR_REMOVE PWR_IND SAFE_POWR_REMOVE Rev 3 Jun.20 40 41113116 Signal Name Variations Table 3-1: Interface Variations (Continued) Signal Names Pin 165 166 CF3 mangOH SDCC_DATA_1 SDCC_DATA_0 SD_D1 SD_D0 WP7702a SDIO_DATA_1 SDIO_DATA_0 a. For detailed information, refer to the modules Product Technical Specification documents at source.sierrawireless.com. Rev 3 Jun.20 41 41113116

Level 0 1 Item NumbPart Type Descriptio Lifecycle PRevision ThumbnailRev ReleaCommodit Sites 5303066 PCA/Asse PCA, MANPreliminar (15) ECO-029943 1710427 Electrical CCONN, 3 PProduction4 MCO-000038 PCA - PCA EMC - CABLE / CONNECTOR Connector4 MCOProductionCONN, 3 P4 CN304,CNCompliant Compliant 0 BOM.ThumBOM.Item BOM.Item BOM.Item BOM.Item BOM.Qua BOM.Ref DBOM.RoH BOM.HaloBOM.Qua BOM.Find BOM.BOMBOM.ConsBOM.ConsBOM.HeigBOM.NoteManufactuManufactuManufactuManufactuManufactuManufacturers.Preferred Status 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1710653 Electrical CCONN, 1 PProduction2 MCO-003663 1710731 Electrical CCONN, USProduction1.0 MCO-002856 2142586 Non QMS SCHEMATPrototype 6 ECO-029449 3001246 Electrical CCAP, 15pFProduction2 MCO-003478 NA - NOT APPLICABLE Misc Elect 2 MCOProductionCONN, 1 P2 EMC - CABLE / CONNECTOR Connector1.0 M ProductionCONN, US2 Schematic21 ECPrototype SCHEMAT1 Capacitor 2 MCOProductionCAP, 15pF1 PAS - PASSIVES CN600,CNUnknown CN800,CNCompliant Compliant 0 0 0 Compliant Compliant Completed0 C319 3001248 Electrical CCAP, 22pFProduction1.2 MCO-003478 PAS - PASSIVES Capacitor 1.2 M ProductionCAP, 22pF3 C309,C71 Compliant Compliant Completed0 3001253 Electrical CCAP, 56pFProduction1.1 MCO-003478 PAS - PASSIVES Capacitor 1.1 M ProductionCAP, 56pF1 C907 Compliant Compliant Completed0 3001280 Electrical CCAP, 47nFProduction2 MCO-003478 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 47nF1 C1000 Compliant Compliant Completed0 3001346 Electrical CCAP, 470nProduction1.1 MCO-003478 PAS - PASSIVES Capacitor 1.1 M ProductionCAP, 470n1 C1011 Compliant Compliant Completed0 3001347 Electrical CCAP, 2.2u Production2 MCO-003478 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 2.2u 1 C715 Compliant Compliant Completed0 3001370 Electrical CCAP, 4.7u Production3 MCO-003478 PAS - PASSIVES Capacitor 3 MCOProductionCAP, 4.7u 2 C606,C10 Compliant Compliant Completed0 3001383 Electrical CCAP, 10nFProduction2 MCO-002936 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 10nF1 C1035 Compliant Compliant Completed0 3001407 Electrical CCAP, 12pFProduction3 MCO-002936 PAS - PASSIVES Capacitor 3 MCOProductionCAP, 12pF2 C200,C20 Compliant Compliant Completed0 3001420 Electrical CCAP, 22pFProduction2 MCO-002936 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 22pF11 C202,C20 Compliant Compliant Completed0 3001567 Electrical CCAP, 1.5p Production2 MCO-002936 3001606 Electrical CCAP, 0.6p Production2 MCO-002936 PAS - PASSIVES PAS - PASSIVES Capacitor 2 MCOProductionCAP, 1.5p 1 Capacitor 2 MCOProductionCAP, 0.6p 1 E320 C382 Compliant Compliant Completed0 Compliant Compliant Completed0 3001607 Electrical CCAP, 0.7p Production2 MCO-002936 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 0.7p 2 C381,C38 Compliant Compliant Completed0 3001747 Electrical CCAP, 10uFProduction2 MCO-002936 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 10uF4 C312,C60 Compliant Compliant Completed0 3001764 Electrical CCAP, 1uF,Production2 MCO-003478 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 1uF,13 C300,C31 Compliant Compliant Completed0 3001909 Electrical CCAP, 22uFProduction2 MCO-002936 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 22uF4 C903,C90 Compliant Compliant Completed0 3012590 Electrical CRES, 0, 0%Production3 MCO-000038 PAS - PASSIVES Resistor 3 MCOProductionRES, 0, 0%2 E301,R80 Compliant Compliant Completed0 3012825 Electrical CRES, 0.01 Production3 MCO-000038 PAS - PASSIVES Resistor 3 MCOProductionRES, 0.01 1 R1007 0 3015015 Electrical CIC, DC/DCPrototype 1 MCO-003093 3015042 Electrical CIC, USB 2 Production1.1 MCO-003093 3015046 Electrical CNUT, SURPrototype 1 MCO-003179 3015143 Electrical CIC, USB/S Prototype 1 MCO-003683 3015145 Electrical CCONN, 38Prototype 1 MCO-002907 3015192 Electrical CIC, 32Kb EPrototype 1 MCO-002796 3015237 Electrical CIC, INERT Prototype 1.1 ECO-025983 3015321 Electrical CCONN, 6 PProduction2 MCO-003061 3016399 Electrical CDIO, SCH Prototype 1 ECO-025437 3016460 Electrical CIC, BATTEPrototype 1 MCO-003114 3016474 Electrical CIC, GEOMPrototype 1 ECO-025973 3016511 Electrical CIC, Li-ION Prototype 1 MCO-003114 3016523 Electrical CIC, LIGHT Prototype 1 MCO-003114 3016524 Electrical CIC, NFC T Prototype 1 ECO-026368 3016527 Electrical CIC, CMOS Prototype 1 ECO-026406 3016535 Electrical CIC, GAS/PPrototype 1 ECO-026476 3016536 Electrical CIC, WIFI/BPrototype 2 MCO-003297 3016537 Electrical CIND, 2.2uHPrototype 1 ECO-026484 3016555 Electrical CIC, LOAD Prototype 1 ECO-026599 3016557 Electrical CIC, TRANSPrototype 1 ECO-026603 3016558 Electrical CDIO, LED, Prototype 1 MCO-004467 3016559 Electrical CXSTR, NPPrototype 1 ECO-026611 3016567 Electrical CANTENNAPrototype 1 ECO-026668 3016572 Electrical CFILTER, MPrototype 1 ECO-026695 3016575 Electrical CANTENNAPrototype 1 ECO-026756 3016604 Electrical CIC, TRANSPrototype 1 ECO-027029 3016615 Electrical CCAP, 10nFProduction2 ECO-028311 3016683 Electrical CIC, INVERPrototype 2 ECO-027931 3016688 Electrical CANTENNAPrototype 1 ECO-028038 3016876 Electrical CIC, OP AMPrototype 1 MCO-004309 3016878 Electrical CSWITCH, Prototype 1 ECO-029102 3016879 Electrical CRES, THEPrototype 1 ECO-029102 3016882 Electrical CXSTR, BJTPrototype 1 ECO-029102 3016885 Electrical CIC, VOLTAPrototype 1 ECO-029102 3016892 Electrical CCONN, 3 PPrototype 1 ECO-029102 3016911 Electrical CIC, LOAD Prototype 1 ECO-029265 3016943 Electrical CFILTER, SPrototype 1 ECO-029423 3016945 Electrical CIC, FEM, GPrototype 1 ECO-029423 3016949 Electrical CIC, MICROPrototype 1 ECO-029423 IC - Regul 1 MCOPrototype IC, DC/DC1 IC - IC IC - IC IC - Microp1.1 M ProductionIC, USB 2 1 FAB - FABRICATED ITEMS Misc Elect 1 MCOPrototype NUT, SUR2 IC - IC IC - Misc 1 MCOPrototype IC, USB/S 1 EMC - CABLE / CONNECTOR Connector1 MCOPrototype CONN, 381 IC - IC IC - Memo1 MCOPrototype IC, 32Kb E1 IC - IC IC - Misc 1.1 ECPrototype IC, INERT 1 EMC - CABLE / CONNECTOR Connector2 MCOProductionCONN, 6 P1 Diode DIS - DISCRETES 1 ECOPrototype DIO, SCH 1 IC - Regul 1 MCOPrototype IC, BATTE1 IC - IC IC - Misc 1 ECOPrototype IC, GEOM1 IC - IC IC - Misc 1 MCOPrototype IC, Li-ION 1 IC - IC IC - Misc 1 MCOPrototype IC, LIGHT 1 IC - IC IC - Misc 1 ECOPrototype IC, NFC T 1 IC - IC IC - Misc 1 ECOPrototype IC, CMOS 1 IC - IC IC - IC IC - Misc 1 ECOPrototype IC, GAS/P1 2 MCOPrototype IC, WIFI/B1 IC - RF RF - RF Inductor 1 ECOPrototype IND, 2.2uH2 PAS - PASSIVES IC - Analo 1 ECOPrototype IC, LOAD 1 IC - IC IC - Misc 1 ECOPrototype IC, TRANS1 IC - IC Diode 1 MCOPrototype DIO, LED, 2 DIS - DISCRETES Transistor 1 ECOPrototype XSTR, NP1 DIS - DISCRETES ANT - ANTENNAS Antenna 1 ECOPrototype ANTENNA1 RFS - SWITCH / FILTER / ISOLRF Filter 1 ECOPrototype FILTER, M1 ANT - ANTENNAS Antenna 1 ECOPrototype ANTENNA1 IC - Misc 1 ECOPrototype IC, TRANS1 IC - IC DIS - DISCRETES Capacitor 2 ECOProductionCAP, 10nF2 IC - Logic 2 ECOPrototype IC, INVER1 IC - IC Antenna 1 ECOPrototype ANTENNA1 ANT - ANTENNAS IC - IC IC - Analo 1 MCOPrototype IC, OP AM1 EMC - CABLE / CONNECTOR Misc Elect 1 ECOPrototype SWITCH, 1 Resistor 1 ECOPrototype RES, THE1 PAS - PASSIVES DIS - DISCRETES Transistor 1 ECOPrototype XSTR, BJT1 IC - IC IC - Misc 1 ECOPrototype IC, VOLTA1 EMC - CABLE / CONNECTOR Connector1 ECOPrototype CONN, 3 P1 IC - IC IC - Analo 1 ECOPrototype IC, LOAD 1 RFS - SWITCH / FILTER / ISOLRF Filter 1 ECOPrototype FILTER, S1 1 ECOPrototype IC, FEM, G1 RFF - FRONT END MODULE / IC - RF IC - IC IC - Misc 1 ECOPrototype IC, MICRO1 U902 U703 CN603,CN604 U805 CN601 U200 U520 CN701 D801 U1000 U502 U1002 U506 U700 U701 U507 U300 0 Compliant Compliant Completed0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 L302,L303 0 U1013 0 U406 0 D401,D500 0 Q400 0 ANT300 0 FIL300 0 ANT301 U400 0 C702,C70 Compliant Compliant Completed0 U407 ANT700 U802 SW1002 RT1000 Q1000 U1003 CN801 U1015 FIL301 U301 U704 0 0 0 0 0 0 0 0 0 0 0 0 No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No 20279-001E-01 IPEX Active HIROSE U.FL-R-SMT-1(80) Active HIROSE U.FL-R-SMT-1(10) Active Active IPEX HIROSE U.FL-R-SMT(10) Active ITT INTERCU-120220-0206 Active HIROSE ZX62RD-AB-5P8(30)Active 20279-001E-03 Obsolete Obsolete Obsolete Obsolete Obsolete TAIYO YUUMK105CG150JV-F Active MURATA GRM1555 EOL (MarcInactive TAIYO YUUMK105CG220JV-F Active MURATA GRM1555 EOL (MarcInactive TAIYO YUUMK105CG560JV-F Active MURATA GRM1555 EOL (MarcInactive MURATA GRM155REOL (MarcInactive TAIYO YULMK105BJWM21265 Active MURATA GRM155REOL (MarcInactive TAIYO YURM JMK105BJ474KVActive MURATA GRM188REOL (MarcInactive TAIYO YUCE JMK10WM13923 Active MURATA GRM188REOL (MarcInactive TAIYO YULMK107BJ475KA-T Active SEMCO (SCL10A475KP8NNNCActive NIC COMPNMC0603X5R475K1Active TAIYO YUEMK063BJ103KP-F Active PANASONECJZEB1AEOL MURATA GRM033R71A103KAActive TAIYO YUTMK063CG120JT-F Active MURATA GRM0335C1E120JAActive MURATA GRM0335 EOL TAIYO YUTMK063CG220JT-F Active MURATA GRM0335C1E220JAActive MURATA GRM0335 EOL MURATA GJM0335C1E1R5CBActive MURATA GRM0335C1ER60BAActive MURATA GRM0335 EOL MURATA GRM0335C1ER70BAActive MURATA GRM0335 EOL TAIYO YUJMK107BJ106MA-T Active MURATA GRM188R60J106MEActive MURATA GRM155REOL (MarcInactive TAIYO YULMK105BJ105KV-F Active MURATA GRM188R60J226MEActive C1608X5R0J226MT Active TDK KOA SPEERK73Z1ETTP Active ROHM MCR01MZPJ000 Active YAGEO RC0402JR0.0 Ohm JActive WALSIN TWW08RR010FTL Active ROHM PMR10EZPFU10L0 Active TEXAS IN TPS61253YFFR Active MICROCHUSB3503AI-1-GL-TRActive Active WURTH E9774030243R SILICON LCP2130-F01-GM Active AMPHENOFS1-R38-20A2-00 Active MICROCH24AA32AF-I/MNY Active Active BOSCH BMI160 Active MMT MACJP036A-Rt3B4AB Active VISHAY B340A-E3/61T Active TEXAS IN BQ25601RTWT Active BOSCH BMM150 Active TEXAS IN BQ27426YZFT TEXAS IN OPT3002DNPT Active NXP SEM NT3H2211W0FHK Active Active NXP SEM PCF85063TP/1Z BOSCH BME680 Active WM-BN-CYW-48 USI Active WM-BN-CYW-48_REActive USI MURATA LQM2MPN2R2NG0LActive TEXAS IN TPS22916CNYFPT Active CUI INC CMT-4023S-SMT-TRActive KINGBRIGAPTF1616SEEZGQBActive Active ROHM UML6NTR FRACTUSFR01-S4-224 Active TDK DEA162450BT-2201 Active TAOGLASGWLA.01 Active TEXAS IN SN74LVC245ARGYRActive YAGEO CC0603JRNPO9BN1Active MURATA GRM1885C1H103JAActive NEXPERIA74AUP2G0604GMH Active Active MURATA FLANCFA-0651 Active TEXAS IN TLV333IDCKR PCM12SMTR C&K Active B57230V2103F260 Active TDK Active NEXPERIAPBSS2515MB MICROCHMIC2778-1YM5 Active Active SAMTEC TSW-103-26-T-S Active TEXAS IN TPS22975DSGT Active TAI-SAW TTA1661A Active TAI-SAW TTN0089A KNOWLESSPK0641HT4H-1 Active 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3017117 Electrical CCONN, 15Preliminary 3017152 Electrical CIND, 12nHPreliminary 3017153 Electrical CCAP, 1.6p Preliminary 3017154 Electrical CCAP, 1.5p Preliminary 3017167 Electrical CCAP, 120pPreliminary 3100044 Electrical CCAP, 100pProduction1 MCO-003478 EMC - CABLE / CONNECTOR / SWITCH PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES Preliminar CONN, 151 Preliminar IND, 12nH1 Preliminar CAP, 1.6p 1 Preliminar CAP, 1.5p 1 Preliminar CAP, 120p1 Capacitor 1 MCOProductionCAP, 100p4 0 CN805 0 E302 0 E303 0 E306 C731 0 C716,C71 Compliant Compliant Completed0 No No No No No 3100236 Electrical CCAP, 220nProduction1 MCO-002936 PAS - PASSIVES Capacitor 1 MCOProductionCAP, 220n3 C807,C80 Compliant Compliant Completed0 3100237 Electrical CCAP, 10uFProduction1 MCO-002936 3100239 Electrical CCAP, 1.5mProduction3 ECO-026471 PAS - PASSIVES PAS - PASSIVES Capacitor 1 MCOProductionCAP, 10uF2 Capacitor 3 ECOProductionCAP, 1.5m1 C1002,C1 Compliant Compliant Completed0 C1018 0 3100251 Electrical CCAP, 4.7u Production1 MCO-002936 PAS - PASSIVES Capacitor 1 MCOProductionCAP, 4.7u 1 C810 0 3100445 Electrical CCAP, 47uFProduction1 MCO-003478 PAS - PASSIVES Capacitor 1 MCOProductionCAP, 47uF5 C902,C10 Compliant Compliant Completed0 3100551 Electrical CCAP, 4.7u Production1 MCO-002936 PAS - PASSIVES Capacitor 1 MCOProductionCAP, 4.7u 20 C302,C30 Compliant Compliant Completed0 3100552 Electrical CCAP, 10uFProduction2 MCO-004109 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 10uF7 C803,C80 Compliant Compliant Completed0 3100556 Electrical CCAP, 1uF,Production1 MCO-003979 PAS - PASSIVES Capacitor 1 MCOProductionCAP, 1uF,2 C1003,C1 Compliant Compliant Completed0 3100595 Electrical CCAP, 1nF,Production2 MCO-002936 PAS - PASSIVES Capacitor 2 MCOProductionCAP, 1nF,4 C303,C36 Compliant Compliant Completed0 3100653 Electrical CCAP, 100nProduction4 ECO-028311 PAS - PASSIVES Capacitor 4 ECOProductionCAP, 100n70 C210,C30 Compliant Compliant Completed0 3200090 Electrical CRES, 4.3KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 4.3K1 R1017 Compliant Compliant Completed0 3200091 Electrical CRES, 4.7KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 4.7K3 R491,R51 Compliant Compliant Completed0 3200095 Electrical CRES, 6.8KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 6.8K1 R1016 Compliant Compliant Completed0 3200099 Electrical CRES, 10K Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 10K 36 R212,R22 Compliant Compliant Completed0 3200101 Electrical CRES, 12K Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 12K 1 R711 Compliant Compliant Completed0 3200115 Electrical CRES, 47K Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 47K 7 R362,R36 Compliant Compliant Completed0 3200117 Electrical CRES, 56K Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 56K 1 R1026 Compliant Compliant Completed0 3200123 Electrical CRES, 100KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 100K1 R1021 Compliant Compliant Completed0 3200130 Electrical CRES, 200KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 200K1 R515 Compliant Compliant Completed0 3200145 Electrical CRES, 820KPrototype A MCO-000038 PAS - PASSIVES Resistor A MC Prototype RES, 820K1 R814 Compliant Compliant Completed0 3200219 Electrical CRES, 27, 1Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 27, 12 R815,R81 Compliant Compliant Completed0 3200501 Electrical CRES, 12.4 Prototype A MCO-000038 PAS - PASSIVES Resistor A MC Prototype RES, 12.4 1 R819 Compliant Compliant Completed0 3200505 Electrical CRES, 14K Prototype A MCO-000038 PAS - PASSIVES Resistor A MC Prototype RES, 14K 1 R820 Compliant Compliant Completed0 3200630 Electrical CRES, 340KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 340K1 R1027 Compliant Compliant Completed0 3200654 Electrical CRES, 604KProduction1 ECO-027476 PAS - PASSIVES Resistor 1 ECOProductionRES, 604K1 R1025 Compliant Compliant Completed0 3200808 Electrical CRES, 1K, 5Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 1K, 51 R490 Compliant Compliant Completed0 3200880 Electrical CRES, 1M, Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 1M, 2 R1014,R1 Compliant Compliant Completed0 3200985 Electrical CRES, 330, Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 330, 2 R414,R41 Compliant Compliant Completed0 3201008 Electrical CRES, 2.2KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 2.2K1 R706 Compliant Compliant Completed0 3201074 Electrical CRES, 180, Prototype A MCO-000038 PAS - PASSIVES Resistor A MC Prototype RES, 180, 1 R417 Compliant Compliant Completed0 3201147 Electrical CRES, 1K, Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 1K, 4 R427,R42 Compliant Compliant Completed0 3201209 Electrical CRES, 4.7KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 4.7K8 R508,R50 Compliant Compliant Completed0 3201215 Electrical CRES, 5.23 Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 5.23 1 R1008 Compliant Compliant Completed0 C0603X5RNot RecomInactive MOLEX 5055671571 Active MURATA LQW15ANSMD INDUActive MURATA GJM1555C1H1R6W Active MURATA GJM1555C1H1R5W Active MURATA GRM1885C2A121JAActive MURATA GRM1555 EOL (MarcInactive TAIYO YUUMK105CG101JV-F Active MURATA GCM188R71H224MAActive TAIYO YUUMK107B7224MA-T Active TAIYO YUTMK316ABJ106MD- Active AVX (KYOF720J158MMC Active VISHAY 592D158X06R3R2T2Active TAIYO YUEMK107ABJ475KA-TActive MURATA GRM188R61C475KAActive TAIYO YULMK316BJ476ML-T Active MURATA GRM31CREOL (MarcInactive MURATA GRM155R60J475MEActive TAIYO YUJMK105BBJ475MV-FActive MURATA GRM188R61A106MEActive MURATA GRT188R Not RecomInactive YAGEO CC0603KRX7R9BB1Active TAIYO YUUMK107AB7105KA-TActive TAIYO YUTMK063B7102KP-F Active MURATA GCM033R71E102KAActive TAIYO YUTMK063ABJ104KP-FActive MURATA GRM033R61E104KEActive TDK YAGEO RC0201FR-074K3L Active KOA SPEERK73H1HTTC4301F Active ROHM MCR006YZPF4301 Active YAGEO RC0201FR-074K7L Active ROHM MCR006YZPF4701 Active KOA SPEERK73H1HTTC4701F Active ROHM MCR006YZPF6801 Active YAGEO RC0201FR-076K8L Active KOA SPEERK73H1HTTC6801F Active KOA SPEERK73H1HTTC1002F Active ROHM MCR006YZPF1002 Active YAGEO RC0201FRWM17896 Active KOA SPEERK73H1HTTC1202F Active ROHM MCR006YZPF1202 Active YAGEO RC0201FR-0712KL Active KOA SPEERK73H1HTTC4702F Active ROHM MCR006YZPF4702 Active YAGEO RC0201FRWM15589 Active KOA SPEERK73H1HTTC5602F Active YAGEO RC0201FR-0756KL Active ROHM MCR006YZPF5602 Active KOA SPEERK73H1HTTC1003F Active ROHM MCR006YZPF1003 Active YAGEO RC0201FR-07100KLActive ROHM MCR006YZPF2003 Active YAGEO RC0201FR-07200KLActive KOA SPEERK73H1HTTC2003F Active YAGEO RC0201FR-07820KLActive ROHM MCR006YZPF8203 Active KOA SPEERK73H1HTTC8203F Active ROHM MCR006YZPF27R0 Active KOA SPEERK73H1HTTC27R0FActive YAGEO RC0201FR-0727RL Active YAGEO RC0201FR-0712K4LActive KOA SPEERK73H1HTTC1242F Active YAGEO RC0201FR-0714KL Active KOA SPEERK73H1HTTC1402F Active KOA SPEERK73H1HTTC3403F Active YAGEO RC0201FR-07340KLActive KOA SPEERK73H1HTTC6043F Active YAGEO RC0201FR-07604KLActive ROHM MCR006YZPJ102 Active YAGEO RC0201JR-071KL Active KOA SPEERK73B1HTTC102J Active ROHM MCR006YZPJ105 Active KOA SPEERK73B1HTTC105J Active YAGEO RC0201JR-071ML Active KOA SPEERK73H1ETTP3300F Active YAGEO RC0402FR-07330RLActive ROHM MCR01MZPF3300 Active YAGEO RC0402FR-072K2L Active ROHM MCR01MZPF2201 Active KOA SPEERK73H1ETTP2201F Active YAGEO RC0402FR-07180RLActive KOA SPEERK73H1ETTP1800F Active ROHM MCR01MZPF1800 Active YAGEO RC0402FR-071KL Active KOA SPEERK73H1ETTP1001F Active ROHM MCR01MZPF1001 Active YAGEO RC0402FR-074K7L Active ROHM MCR01MZPF4701 Active KOA SPEERK73H1ETTP4701F Active KOA SPEERK73H1ETTP5231F Active ROHM MCR01MZPF5231 Active YAGEO RC0402FR-075K23LActive 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3201279 Electrical CRES, 20K Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 20K 1 R704 Compliant Compliant Completed0 3201300 Electrical CRES, 30.1 Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 30.1 1 R1009 Compliant Compliant Completed0 3201388 Electrical CRES, 180KProduction1 ECO-020162 PAS - PASSIVES Resistor 1 ECOProductionRES, 180K2 R902,R90 Compliant Compliant Completed0 3201423 Electrical CRES, 360KPrototype A MCO-000038 PAS - PASSIVES Resistor A MC Prototype RES, 360K1 R900 Compliant Compliant Completed0 3201465 Electrical CRES, 820KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 820K1 R905 Compliant Compliant Completed0 3201602 Electrical CRES, 33, 5Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 33, 51 R621 Compliant Compliant Completed0 3201614 Electrical CRES, 100, Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 100, 2 R426,R51 Compliant Compliant Completed0 3201648 Electrical CRES, 2.7KProduction1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 2.7K2 R428,R53 Compliant Compliant Completed0 3201679 Electrical CRES, 51K Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 51K 1 R903 Compliant Compliant Completed0 3201738 Electrical CRES, 0, 0%Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 0, 0%55 R200,R20 Compliant Compliant Completed0 3201741 Electrical CRES, 0, 0%Production1 MCO-000038 PAS - PASSIVES Resistor 1 MCOProductionRES, 0, 0%2 R1012,R1 Compliant Compliant Completed0 3300010 Electrical CFERRITE Production1 MCO-002168 3300304 Electrical CIND, 15nHProduction1.0 ECO-017439 PAS - PASSIVES PAS - PASSIVES Inductor 1 MCOProductionFERRITE 2 Inductor 1.0 ECProductionIND, 15nH1 L701,L704Compliant Compliant Completed0 E321 Compliant Compliant Completed0 3300404 Electrical CIND, 3.8nHPrototype A MCO-000038 3300409 Electrical CIND, 4.3nHProduction1 MCO-000038 3300421 Electrical CIND, 13nHProduction3 ECO-029423 PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES Inductor A MC Prototype IND, 3.8nH1 Inductor 1 MCOProductionIND, 4.3nH1 Inductor 3 ECOProductionIND, 13nH1 L307 E308 L311 Compliant Compliant Completed0 Compliant Compliant Completed0 Compliant Compliant Completed0 3300498 Electrical CIND, 2.2uHProduction1 MCO-000038 3300531 Electrical CFERRITE Production1 MCO-002554 3300538 Electrical CIND, 3.3 u Production1 MCO-000038 3300540 Electrical CFERRITE Production1 MCO-000038 3300601 Electrical CIND, 1uH, Production2 MCO-001758 3400143 Electrical CIC, BI-DIR Prototype B MCO-000038 3400217 Electrical CIC, AUDIOProduction2 MCO-003050 3400230 Electrical CIC, LDO, 2Production1 MCO-004118 3400331 Electrical CIC, 1-BIT VProduction1 MCO-003046 3400486 Electrical CIC, 8-BIT DProduction3 MCO-004328 3400745 Electrical CIC, I2C/SMPrototype 3 ECO-026260 3400746 Electrical CIC, ANALOProduction1 MCO-000038 3400747 Electrical CIC, SDIO EProduction2 ECO-026260 3400751 Electrical CIC, GPIO EProduction3 MCO-000038 3400885 Electrical CIC, USB/UProduction1 MCO-000038 3401186 Electrical CIC, RF SWProduction3 ECO-024811 PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES PAS - PASSIVES IC - IC IC - IC IC - IC IC - IC IC - IC IC - IC IC - IC IC - IC IC - IC IC - IC RFS - SWITCH / FILTER / ISOLIC - RF Inductor 1 MCOProductionIND, 2.2uH2 Inductor 1 MCOProductionFERRITE 7 Inductor 1 MCOProductionIND, 3.3 u 1 Inductor 1 MCOProductionFERRITE 1 Inductor 2 MCOProductionIND, 1uH, 1 IC - Misc B MC Prototype IC, BI-DIR 1 IC - Misc 2 MCOProductionIC, AUDIO1 IC - Regul 1 MCOProductionIC, LDO, 21 IC - Misc 1 MCOProductionIC, 1-BIT V2 IC - Misc 3 MCOProductionIC, 8-BIT D1 IC - Misc 3 ECOPrototype IC, I2C/SM1 IC - Analo 1 MCOProductionIC, ANALO1 IC - Misc 2 ECOProductionIC, SDIO E1 IC - Misc 3 MCOProductionIC, GPIO E1 IC - Misc 1 MCOProductionIC, USB/U2 3 ECOProductionIC, RF SW3 L902,L903Compliant Compliant Completed0 L301,L304Compliant Compliant Completed0 0 L1000 Compliant Compliant Compliant L803 0 Compliant Compliant Completed0 L905 U500 0 Compliant Compliant Completed0 U702 U600 Compliant Compliant Completed0 0 U405,U80 Compliant Compliant 0 U801 Compliant Compliant U505 0 Compliant Compliant Completed0 U602 Compliant Compliant Completed0 U601 Compliant Compliant Completed0 U503 U800,U803 0 U302,U30 Compliant Compliant Completed0 3500014 Electrical CXSTR, DUProduction1 MCO-002907 3500017 Electrical CXSTR, NPProduction2 ECO-023160 3600034 Electrical CDIO, ESD Production1 MCO-002168 3600035 Electrical CDIO, ESD Production1 MCO-002168 3800065 Electrical CXTAL, 32. Production2 MCO-000281 Transistor 1 MCOProductionXSTR, DU1 DIS - DISCRETES Transistor 2 ECOProductionXSTR, NP1 DIS - DISCRETES 1 MCOProductionDIO, ESD 2 Diode DIS - DISCRETES DIS - DISCRETES Diode 1 MCOProductionDIO, ESD 1 C&O - CRYSTALS & OSCILLATOscillator 2 MCOProductionXTAL, 32. 1 Compliant Compliant Completed0 Q401 Q801 Compliant Compliant Completed0 D800,L801Compliant Compliant Completed0 Compliant Compliant Completed0 D601 Y700 Compliant with exem Completed0 3800100 Electrical COSC, 26MPrototype 2 MCO-003297 C&O - CRYSTALS & OSCILLATOscillator 2 MCOPrototype OSC, 26M1 OSC700 3900166 General CONN, 2 PProduction1 MCO-000038 3900197 Electrical CCONN, SNProduction2 MCO-003047 3900246 Electrical CCONN, 25Production2 ECO-026481 3900294 Electrical CCONN, 2 PProduction1 MCO-003009 5001006 Electrical CIC, AND GProduction4 MCO-002920 EMC - CABLE / CONNECTOR Misc - Oth 1 MCOProductionCONN, 2 P1 EMC - CABLE / CONNECTOR Connector2 MCOProductionCONN, SN1 EMC - CABLE / CONNECTOR Connector2 ECOProductionCONN, 251 EMC - CABLE / CONNECTOR Connector1 MCOProductionCONN, 2 P1 IC - IC IC - Logic 4 MCOProductionIC, AND G3 0 SHUNT 0 J201 0 CN602 CN1000 0 U402,U40 Compliant Compliant Completed0 5001244 Electrical CIC, LDO, 1Production2 MCO-002168 5001316 Electrical CIC, DUAL Production3 MCO-003114 5030600 Electrical CIND, 22nHProduction2 MCO-002901 IC - IC IC - IC PAS - PASSIVES IC - Regul 2 MCOProductionIC, LDO, 11 IC - Regul 3 MCOProductionIC, DUAL 1 Inductor 2 MCOProductionIND, 22nH2 0 U901 U900 Compliant Compliant Completed0 L702,L703Compliant Compliant Completed0 5030606 Electrical CIND, 47nHProduction1 ECO-026471 PAS - PASSIVES Inductor 1 ECOProductionIND, 47nH1 L300 Compliant Compliant Completed0 5030691 Electrical CFERRITE Production2 MCO-000038 5030746 Electrical CCHOKE, CProduction2 MCO-002856 PAS - PASSIVES PAS - PASSIVES Inductor 2 MCOProductionFERRITE 5 Inductor 2 MCOProductionCHOKE, C1 L700,L900Compliant Compliant Completed0 L802 0 Compliant Compliant 5031021 Electrical CIND, 5.6nHPrototype C MCO-001928 PAS - PASSIVES Inductor C MC Prototype IND, 5.6nH1 L310 5031113 Electrical CIND, 2.2nHProduction2 ECO-029905 PAS - PASSIVES Misc Elect 2 ECOProductionIND, 2.2nH1 E305 5040175 Electrical CLED, GREProduction4 MCO-002920 5040240 Electrical CDIO, ESD Production5.0 MCO-002856 5040277 Electrical CDIO, ESD Production2 MCO-003369 5200114 Electrical CSWITCH, Production2 MCO-003663 DIS - DISCRETES PAS - PASSIVES PAS - PASSIVES NA - NOT APPLICABLE 4 MCOProductionLED, GRE1 Diode 5.0 M ProductionDIO, ESD 1 Diode Diode 2 MCOProductionDIO, ESD 7 Misc Elect 2 MCOProductionSWITCH, 1 Compliant 0 D402 D602 Compliant Compliant Completed0 D303,D30 Compliant Compliant Completed0 SW403 0 0 0 0 MLG0603P13NJT MIPF2016D2R2 ROHM MCR01MZPF2002 Active YAGEO RC0402FRSMD RES Active KOA SPEERK73H1ETTP2002F Active ROHM MCR01MZPF3012 Active KOA SPEERK73H1ETTP3012F Active YAGEO RC0402FR-0730K1LActive KOA SPEERK73H1ETTP1803F Active ROHM MCR01MZPF1803 Active YAGEO RC0402FRWM18212 Active ROHM MCR01MZPF3603 Active KOA SPEERK73H1ETTP3603F Active YAGEO RC0402FR-07360KLActive YAGEO RC0402FR-07820KLActive KOA SPEERK73H1ETTP8203F Active ROHM MCR01MZWM11125 Active KOA SPEERK73B1ETTP330J Active YAGEO RC0402JR-0733RL Active Active ROHM MCR01MZPJ330 ROHM MCR01MZPJ101 Active KOA SPEERK73B1ETTP101J Active YAGEO RC0402JRWM11175 Active YAGEO RC0402JRWM11000 Active KOA SPEERK73B1ETTP272J Active ROHM MCR01MZWM11002 Active ROHM MCR01MZPJ513 Active YAGEO RC0402JR-0751KL Active KOA SPEERK73B1ETTP513J Active KOA SPEERK73Z1HTTC Active YAGEO RC0201JRWM14708 Active ROHM MCR006YZPJ000 Active ROHM MCR03EZWM11423 Active Active KOA SPEERK73Z1JTTD Active TAIYO YUBK1005HS601-T TAIYO YUHK060315NJ-T Active MURATA LQP03TN15NJ02D Active MLG0603P3N8CT Active TDK TDK MLG0603P4N3JT Active MURATA LQP03TN13NJZ2D Active Active TDK FDK Active TAIYO YUBKP1608HS121-T Active COILCRA XAL4030-332MEC Active WURTH E74279252 Active MURATA DFE201210S-1R0M=Active Active TEXAS IN PCA9306DQER Cirrus LogWM8944BECS/R Active TOREX SEXC6223H29B9R-G Active Active NXP SEM NTB0101GW Active ON SEMICFXMA108BQX Active TEXAS IN TCA9546APWR Active TEXAS IN TS3A5018RSVR Active TEXAS IN TXS02612ZQSR Active SEMTECHSX1509BIULTRT FUTURE TFT230XQ-R Active MURATA XMSSJR6G0BA-093 Active MURATA XMSSJR6Sample M Active ON SEMICNSBC114YDP6T5G Active Active NEXPERIAPDTC115EM Active TEXAS IN TPD4S012DRYR TEXAS IN TPD6E004RSER Active EPSON FC-135 32.7680KA-AActive EPSON Q13FC135XTAL, 32. Active NDK Active ABRACONASEMB-26.000MHZ-Active ASSMANNAKSPT/G BLACK Active CLE9257-1601ESZ Active SMK MOLEX 104168-1620 Active B2B-PH-K-S(LF)(SN Active JST Active NEXPERIA74AUP1G08GM Obsolete ON SEMICNC7SP08 EOL Active ON SEMICNC7SP08L6X Active TOREX SEXC6221A182MR TEXAS IN TPS62420DRCT Active TAIYO YULG HK 1005 22NJ-T Active MURATA LQG15HN22NJ02D Active MURATA LQG15HN47NJ02D Active TAIYO YULG HK 1005 47NJ-T Active MPZ1608S221ATA00Active TDK Obsolete TDK TCM1210-EOL Active PANASONEXC24CG900U Obsolete TCM1210GEOL TDK Active TDK MCZ1210AH900T Active TAIYO YUAQ1055N6S-T TDK GLQ1005T5N6S00 Active MURATA LQW15ANSMD INDUActive TAIYO YUAQ1052N2S-T Active MURATA LQW15ANWM19358 Active TDK GLQ1005T2N2S00 Active ROHM SML-310MNot RecomActive SEMTECHRCLAMP0503N.TCTActive Active EATON 0402ESDA-MLP1 TE CONN 1-1571983-1 Active ENE3687A 1 1 1 5200134 Electrical CSWITCH, Production1.0 MCO-003000 5200146 Electrical CSWITCH, Prototype 1 MCO-002907 5303064 General PCB, MANPrototype 8 MCO-004535 NA - NOT APPLICABLE MIS - OTHERS PCB - PCB Misc Elect 1.0 M ProductionSWITCH, 1 Misc Elect 1 MCOPrototype SWITCH, 1 PCB 11 MCPrototype PCB, MAN1 SW500 SW401 PCB 0 0 0 C&K ALPS WUS PTS810 SJK 250 SMActive SKTDLDE010 Active sierra wireless 53030Active