Fibocom FG360-NA 5G Smart Module User Guide

June 4, 2024
Fibocom

Fibocom FG360-NA 5G Smart Module

Copyright
Copyright © 2021 Fibocom Wireless Inc. All rights reserved.
Without the prior written permission of the copyright holder, any company or individual is prohibited to excerpt, copy any part of or the entire document, or distribute the document in any form.

Notice
The document is subject to update from time to time owing to the product version upgrade or other reasons. Unless otherwise specified, the document only serves as the user guide. All the statements, information and suggestions contained in the document do not constitute any explicit or implicit guarantee.

Trademark

The trademark is registered and owned by Fibocom Wireless Inc.

Foreword

Introduction
The document describes the electrical characteristics, RF performance, dimensions and application environment, etc. of FG360-NA (hereinafter referred to as FG360). With the assistance of the document and other instructions, the developers can quickly understand the hardware functions of FG360 modules and develop products.

Overview

Introduction

The FG360 series module is a 5G module which supports NSA and SA network architectures. The FG360 integrates core devices such as Baseband, Memory, PMU, Transceiver, and PA. It supports 5G NR Sub6, FDD-LTE, and TDD-LTE long- distance communication modes. Supports uplink 2×2 MIMO and downlink 4×4 MIMO multi-antenna configuration in SA mode. It also supports GNSS wireless positioning technology. The FG360 is designed in an LGA package and is suitable for a variety of eMBB scenarios, such as CPE, VR/AR, gateway, TV box, and intelligent monitoring.

Key Features
Table 2-1 Key features

Performance Description

Operating Band

| LTE FDD: B2, B4, B5, B12, B66, B71
LTE TDD: B41, B46
NR: n25, n41, n66, n71
GNSS| Support GPS, GLONASS, Galileo, BDS, QZSS
NR| 3GPP Release 15
LTE| 3GPP Release 15

Feature

| NR:

DL 4×4 MIMO: n25, n41, n66, n71 UL 2×2MIMO: n41

LTE:

DL 4×4MIMO: B2, B4, B41 ,B66, B71

  NSA and SA supported

SRS: n41, Support: 1T2R, 1T4R, 2T4R
HPUE: B41, n41

Data Transmission

| SA 5G/NR Sub-6 Peak| DL 4.43Gbps/UL 1.25Gbps
NSA Peak| DL 3.74Gbps/UL 700Mbps
LTE| DL 1.6Gbps (CAT19)/UL 211Mbps (CAT18)
Power Supply| DC: 3.3~4.4V, typical voltage: 3.8V

Temperature

| Normal operating temperature: -30~75℃1

Extended operating temperature: -40~85℃2 Storage temperature: -40~85℃

Physical characteristics| Dimension: 41 mm×44mm×2.75 mm Package: 430 pin LGA

Weight: about 12.0 g

CPU| ARM Cortex-A55, quad core, up to 2.0 GHz
Memory| 2GB LPDDR4x+32GB eMMC Flash
Interface
USB Interface| USB2.0 high speed (HS) interface, data transmission rate up to 480Mbps

USB3.0 Super-speed (SS) interface, data transmission rate up to 5Gbps

PCIe Interface| PCIe Gen3 2Lane×1, PCIe Gen3 1Lane×2 (PCIe only support RC mode)

SIM Interface

| Dual SIM: 1.8V/3V SIM1: USIM

SIM2: ESIM/USIM

I2C| One set of I2C interface, data transmission rate up to 400Kbit/s
ADCs| A/D conversion channel, Voltage Range: 0~1.45V
Software
Firmware update| USB/PCIe/FOTA
Operating System| Linux/Android/Windows

Note:

  1. When the temperature keeps in the range of -30~75°C, the module can work normally. Module performance meets the 3GPP specifications.
  2. When temperature keeps in the range of -40~85°C, module performance may be slightly out of 3GPP specifications.

Application Framework

The application framework below shows the main hardware functions of the FG360 module:

  • Baseband
  • RF transceiver
  • PMU
  • Memory
  • Peripheral interfaceFibocom FG360-NA 5G Smart Module fig 2

Antenna Configuration

FG360 module supports seven antennas and the configuration is as below table:

PAD| Function

Description

| Band

Configuration(TX)

| Band

Configuration(RX)

| Frequency

Range(MHz)

---|---|---|---|---
130| LB TRX

MHB sec TRX

| B4/5/12/66/71 n25/41/66/71| B2/4/5/12/41/66/71 n25/41/66/71| 617~2690
175| MHB TRX

LAA RX LB RX

| B2/4/41/66

n25/41/66

| B2/4/41/46/66/71

n25/41/66/71

| 617~5925
157| MHB/LAA Rx| Only SRS| B2/4/41/46/66/71 n25/41/66/71| 617~5925
139| LMHB Rx| Only SRS| B2/4/5/12/41/66/71

n25/41/66/71

| 617~2690
148| Reserved|  |  |
193| Reserved|  |  |
199| GNSS|  | GNSS receive|

Warning

Important Notice to OEM integrators

  1. This module is limited to OEM installation ONLY.
  2. This module is limited to installation in fixed applications, according to Part 2.1091(b).
  3. The separate approval is required for all other operating configurations, including portable configurations with respect to Part 2.1093 and different antenna configurations
  4. For FCC Part 15.31 (h) and (k): The host manufacturer is responsible for additional testing to verify compliance as a composite system. When testing the host device for compliance with Part 15 Subpart B, the host manufacturer is required to show compliance with Part 15 Subpart B while the transmitter module(s) are installed and operating. The modules should be transmitting and the evaluation should confirm that the module’s intentional emissions are compliant (i.e. fundamental and out of band emissions). The host manufacturer must verify that there are no additional unintentional emissions other than what is permitted in Part 15 Subpart B or emissions are compliant with the transmitter(s) rule(s). The Grantee will provide guidance to the host manufacturer for Part 15 B requirements if needed.

Important Note
notice that any deviation(s) from the defined parameters of the antenna trace, as described by the instructions, require that the host product manufacturer must notify to Fibocom Wireless Inc. that they wish to change
the antenna trace design. In this case, a Class II permissive change application is required to be filed by the USI, or the host manufacturer can take responsibility through the change in FCC ID (new application) procedure followed by a Class II permissive change application.

End Product Labeling
When the module is installed in the host device, the FCC/IC ID label must be visible through a window on the final device or it must be visible when an access panel, door or cover is easily re-moved. If not, a second label must be placed on the outside of the final device that contains the following text: “Contains FCC ID: ZMOFG360NA05”
The FCC ID can be used only when all FCC mpliance requirements are met.

Antenna Installation

  1. The antenna must be installed such that 20 cm is maintained between the antenna and users,
  2. The transmitter module may not be co-located with any other transmitter or antenna.
  3. Only antennas of the same type and with equal or less gains as shown below may be used with this module. Other types of antennas and/or higher gain antennas may require additional authorization for operation.
  4. The max allowed antenna gain is 3.76dBi for external monopole antenna.
    In the event that these conditions cannot be met (for example certain laptop configurations or co-location with another transmitter), then the FCC authorization is no longer considered valid and the FCC ID/IC ID cannot be used on the final product. In these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a separate FCC/IC authorization.

Manual Information to the End User
The OEM integrator has to be aware not to provide information to the end user regarding how to install or remove this RF module in the user’s manual of the end product which integrates this module. The end user manual shall include all required regulatory information/warning as show in this manual.

FCC Statement

Federal Communication Commission Interference Statement
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.
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 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.

Any changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate this equipment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.

This device is intended only for OEM integrators under the following conditions: (For module device use)

  1. The antenna must be installed such that 20 cm is maintained between the antenna and users, and
  2. The transmitter module may not be co-located with any other transmitter or antenna.

As long as 2 conditions above are met, further transmitter test will not be required. However, the OEM integrator is still responsible for testing their end-product for any additional compliance requirements required with this module installed.

Radiation Exposure Statement

This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20 cm between the radiator & your body.

Pin Definition

The FG360 module applies LGA interface with 430 pins.

Pin MapFibocom FG360-NA 5G Smart Module fig 3

Note: The pin “RESERVED” means that the position pin is reserved and does not need to be connected.

Table of Pin No. and Pin Name
Table 3-1 Table of pin no. and pin name

No.

|

PIN Name

|

No.

|

PIN Name

|

No.

|

PIN Name

|

No.

|

PIN Name

|

No.

|

PIN Name

---|---|---|---|---|---|---|---|---|---
1| PWRKEY| 2| PON_1| 3| CLK_OUT| 4| SYS_RESIN_N| 5| SPI0_MISO
6| SPI0_CSB| 7| SIM1_VDD| 8| SPI0_MOSI| 9| SPI0_CLK| 10| SIM1_DATA
11| SIM2_RST| 12| SIM2_DATA| 13| SIM1_CLK| 14| SIM1_DET| 15| SIM2_CLK
16| SIM1_RST| 17| SGMII_1_TXN| 18| SIM2_VDD| 19| GND| 20| SGMII_1_TXP
21| SGMII_0_TXP| 22| SGMII_1_RXN| 23| RESERVED| 24| SGMII_0_TXN| 25| SGMII_1_RXP
26| PCIE_B_LN0_TXN| 27| EINT17| 28| GBE0_RST| 29| PCIE_B_LN0_TXP| 30| PCIE_B_LN0_RXP
31| GND| 32| RESERVED| 33| PCIE_B_LN0_RXN| 34| PCIE_A_CLKN| 35~36| GND
37| PCIE_A_CLKP| 38| PCIE_D_LN0_TXP| 39| PCIE_D_LN0_TXN| 40| PCIE_A_LN0_TXN| 41| PCIE_D_LN0_RXP
42| GND| 43| PCIE_A_LN0_TXP| 44| PCIE_D_LN0_RXN| 45| SDC_CLK| 46| PCIE_A_LN0_RXN
47| SDC_CMD| 48| RESERVED| 49| PCIE_A_LN0_RXP| 50| GND| 51| SDC_DATA2
52| GND| 53| SDC_DATA1| 54| SDC_DATA3| 55| SSUSB_TXN| 56| SDC_DATA0
57| VBUS_DET| 58| SSUSB_TXP| 59| USB_DM| 60| USB_ID| 61| SSUSB_RXN
62| USB_DP| 63| SSUSB_RXP| 64| AP_URTS1| 65| GBE1_INT| 66| MDC
67| PCIE_B_PEWAKEN| 68| G3BE1_RST| 69| MDIO| 70| PCIE_B_CLKREQN| 71| LSCE0B
72| LSDA| 73| AP_URXD1| 74| LSDI| 75| LSA0| 76| PCIE_B_PERSTN
77| AP_UTXD1| 78| LRSTB| 79| AP_UCTS1| 80| LSCK| 81~83| GND
84~89| VBAT_RF| 90~92| GND| 93| PCM0_SYNC| 94| I2S0_MCK| 95| PCM0_DI
96| PCM0_CLK| 97| PCM0_DO| 98| CDC_RESET_N| 99| PTA_TX| 100| CDC_INT1_N
101| I2S0_BCK| 102| PTA_RX| 103| I2S0_DO| 104| I2S0_DI| 105| I2S0_LRCK
106| NET_STATUS| 107| AUDIO_PWR_EN| 108| STATUS| 109| W_DISABLE| 110| NET_MODE
111| SLEEP_IND| 112| I2C_SCL0| 113| WAKEUP_IN| 114| ISINK1| 115| I2C_SDA0
116| ANTCTL3| 117| IRIG_B| 118~119| GND| 120| GPS_PPS| 121| NC
122| GND| 123| EINT20| 124~125| GND| 126| DBG_UART_RX| 127~128| GND
129| DBG_UART_TX| 130| ANT8_M| 131~134| GND| 135| BT_UTXD| 136~137| GND
138| BT_URXD| 139| ANT7_D| 140| GND| 141| DSI_TE| 142~143| GND
144| EINT16| 145~147| GND| 148| ANT6| 149| GND| 150| BT_PRI_RXD
151~152| GND| 153| BT_ACT_TXD| 154~155| GND| 156| DISP_PWM| 157| ANT5_M2

158

|

GND

|

159

|

USB_DRVBUS

|

160~161

|

GND

|

162

| GPIO78/

PCIE_D_CLKREQN

|

163~164

|

GND

No.

|

PIN Name

|

No.

|

PIN Name

|

No.

|

PIN Name

|

No.

|

PIN Name

|

No.

|

PIN Name

---|---|---|---|---|---|---|---|---|---
165| NC| 166| NC| 167| GND| 168| NC| 169~170| GND
171| NC| 172~173| GND| 174| NC| 175| ANT3_M1| 176| GND
177| NC| 178~179| GND| 180| LCD_PWR_EN2| 181~182| GND| 183| TDI
184| NC| 185| GND| 186| TCK| 187~188| GND| 189| TDO
190~192| GND| 193| ANT1| 194~197| GND| 198| MIPI1_D_SDATA| 199| ANT10_GNSS
200| GND| 201| MIPI1_D_SCLK| 202~203| GND| 204| ANTCTL2| 205| NC

206

|

GND

|

207

|

ANTCTL1

|

208

|

GND

|

209

| GPIO76/

PCIE_D_PERSTN

|

210

|

ANTCTL0

211| SDIO_VDD| 212| EINT15| 213~215| GND| 216| MIPI2_D_SDATA| 217| RESERVED
218| GND| 219| MIPI2_D_SCLK| 220~222| GND| 223| RESERVED| 224| GND
225| VDD_EXT_1V8| 226~228| GND| 229| RESERVED| 230| GND| 231| NC
232~234| GND| 235| RESERVED| 236| GND| 237| RESERVED| 238~239| GND
240~241| RESERVED| 242| GND| 243| RESERVED| 244~245| GND| 246~247| RESERVED
248| GND| 249| ADC0| 250~251| GND| 252| ADC1| 253| RESERVED
254| GND| 255| NC| 256~258| GND| 259| RESERVED| 260| GND
261| VBAT_BB| 262| GND| 263~264| VBAT_BB| 265| PCIE_D_CLKN| 266| GND
267| SIM2_DET| 268| SGMII_0_RXP| 269| SGMII_0_RXN| 270| SGMII_PWR_EN1| 271| PCIE_B_CLKP
272| PCIE_B_CLKN| 273| USB_BOOT| 274| PCIE_A_PEWAKEN| 275| PCIE_A_PERSTN| 276| PCIE_A_CLKREQN
277| GND| 278| GBE0_INT| 279| EINT18| 280| SDC_DET| 281| SD_PWR_EN

282

|

BT_URTS

|

283

|

BT_UCTS

|

284

|

GND

|

285

| GPIO77/

PCIE_D_PEWAKEN

|

286

|

WIFI_GPIO1

287| WLAN_ACT| 288| LCM_RST| 289| GND| 290| NC| 291| WIFI_GPIO2
292| NC| 293| RESERVED| 294| NC| 295| TRST_N| 296| TMS
297| SYSRSTB| 298| LCD_PWR_EN1| 299~392| GND| 393| PCIE_C_LN0_RXN| 394| PCIE_C_LN0_RXP
395| PCIE_C_LN0_TXP| 396| PCIE_C_LN0_TXN| 397~398| GND| 399| PCIE_C_CLKP| 400| PCIE_C_CLKN
401| PCIE_C_PERSTN| 402| PCIE_C_CLKREQN| 403| PCIE_C_PEWAKEN| 404| DSI0_D0P| 405| DSI0_D0N
406| DSI0_CKN| 407| DSI0_CKP| 408| DSI0_D1N| 409| DSI0_D1P| 410~425| NC
426| RESERVED| 427| RESERVED| 428| RESERVED| 429| RESERVED| 430| RESERVED

Pin Definition

Table 3-2 IO Parameter definition

Type Description
PI Power Input
PO Power Output
DI Digital Input
DO Digital Output
DIO Digital Input/Output
AI Analog Input
AO Analog Output
AIO Analog Input/Output
OD Open Drain
PU Internal pull up
PD Internal pull down
Hi-Z High impedance

Table 3-3 LGA pin description

Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
Power
VBAT_BB| 261 263, 264| PI| –| –| Baseband   power input
VBAT_RF| 84, 85, 86, 87,

88, 89

| PI| –| –| RF power input
VDD_EXT_1V8| 225| PO| –| –| 1.8V   power output
USB
SSUSB_TXN| 55| AO| –| –| USB super speed transmit

data minus

SSUSB_TXP| 58| AO| –| –| USB super speed transmit

data plus

SSUSB_RXN| 61| AI| –| –| USB super speed receive data

minus

SSUSB_RXP| 63| AI| –| –| USB super speed receive data

plus

USB_DM| 59| AIO| –| –| USB high speed data minus
USB_DP| 62| AIO| –| –| USB high speed data plus
VBUS_DET| 57| DI| –| –| USB VBUS detection
USB_DRVBUS| 159| DO| VDD_EXT_1V8| PD| USB OTG power enable
USB_ID| 60| DI| VDD_EXT_1V8| PD| USB ID
USIM
Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
SIM1_VDD| 7| PO| –| –| SIM1 power supply,3V/1.8V
SIM1_DATA| 10| DIO| SIM1_VDD| PD| SIM1 data input/output
SIM1_CLK| 13| DO| SIM1_VDD| PD| SIM1 clock signal
SIM1_RST| 16| DO| SIM1_VDD| PD| SIM1 reset signal
SIM1_DET| 14| DI| VDD_EXT_1V8| PD| SIM1 detect signal
SIM2_VDD| 18| PO| –| –| SIM2 power supply,3V/1.8V,

Reserved

SIM2_DATA| 12| DIO| SIM2_VDD| PD| SIM2 data input/output,

Reserved

SIM2_CLK| 15| DO| SIM2_VDD| PD| SIM2 clock signal, Reserved
SIM2_RST| 11| DO| SIM2_VDD| PD| SIM2 reset signal, Reserved
SIM2_DET| 267| DI| VDD_EXT_1V8| PD| SIM2 detect, Reserved
GPIO
W_DISABLE| 109| DI| VDD_EXT_1V8| PD| Module airplane mode control

signal

WAKEUP_IN| 113| DI| VDD_EXT_1V8| PD| Module wake up input from

host

NET_STATUS| 106| DO| VDD_EXT_1V8| PD| Module network status

indication

NET_MODE| 110| DO| VDD_EXT_1V8| PD| Module network mode

indication

SLEEP_IND| 111| DO| VDD_EXT_1V8| PD| Module output to wake up

host

STATUS| 108| DO| VDD_EXT_1V8| PD| Module current working status

indication

IRIG_B| 117| DO| VDD_EXT_1V8| PD| B code output
GPS_PPS| 120| DO| VDD_EXT_1V8| PD| PPS signal output
ISINK1| 114| AI| VBAT_BB| HI-Z| LED negative drive signal
ANT
ANT1| 193| AIO| –| –| UCB TRx
NC| 184| AIO| –| –| NC
ANT3_M1| 175| AIO| –| –| 41 TRx + MHB/UCB/LAA Rx
NC| 166| AIO| –| –| NC
ANT5_M2| 157| AIO| –| –| MHB/UCB/LAA Rx
ANT6| 148| AIO| –| –| UCB TRx
ANT7_D| 139| AIO| –| –| LMHB Rx
ANT8_M| 130| AIO| –| –| LMH TRX
NC| 121| AIO| –| –| NC
ANT10_GNSS| 199| AI| –| –| GNSS antenna
NC| 205| AIO| –| –| NC
ANT Tuner Control
MIPI1_D_SDATA| 198| DIO| VDD_EXT_1V8| PD| External Tuner MIPI Control

Data Pin

MIPI1_D_SCLK| 201| DO| VDD_EXT_1V8| PD| External Tuner MIPI Control

Clock Pin

MIPI2_D_SDATA| 216| DIO| VDD_EXT_1V8| PD| External Tuner MIPI Control

Data Pin

Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
MIPI2_D_SCLK| 219| DO| VDD_EXT_1V8| PD| External Tuner MIPI Control

Clock Pin

ANTCTL0| 210| DO| 1.8V| PD| Antenna control signal 0
ANTCTL1| 207| DO| 1.8V| PD| Antenna control signal 1
ANTCTL2| 204| DO| 1.8V| PD| Antenna control signal 2
ANTCTL3| 116| DO| 1.8V| PD| Antenna control signal 3
Module Control
PWRKEY| 1| DI| 1.8V| PU| Module power-key control

signal

SYS_RESIN_N| 4| DI| 1.8V| PU| Module reset control signal
PON_1| 2| DI| ≤VBAT_BB| PU| Module power on signal

EINT20

|

123

|

DI

|

VDD_EXT_1V8

|

PD

| MT6890 interruput input signal, used for WPS key

input signal

USB_BOOT| 273| DI| VDD_EXT_1V8| PD| Force into USB download boot

mode

SD
SDC_CMD| 47| DIO| SDIO_VDD| PD| SDC interface command

signal

SDC_DATA1| 53| DIO| SDIO_VDD| PD| SDC interface DATA1 signal
SDC_DATA0| 56| DIO| SDIO_VDD| PD| SDC interface DATA0 signal
SDC_CLK| 45| DO| SDIO_VDD| PD| SDC interface clock signal
SDC_DATA2| 51| DIO| SDIO_VDD| PD| SDC interface DATA2 signal
SDC_DATA3| 54| DIO| SDIO_VDD| PD| SDC interface DATA3 signal
SDC_DET| 280| DI| VDD_EXT_1V8| PD| SD card insert detection
SD_PWR_EN| 281| DO| VDD_EXT_1V8| PD| SD card power supply enable
SDIO_VDD| 211| PO| –| –| SDC interface I/O power

domain

SGMII
SGMII_1_RXN| 22| AIO| AVDD12_SGMI

I

| –| SGMII 1 receive data minus
SGMII_1_RXP| 25| AIO| AVDD12_SGMI

I

| –| SGMII 1 receive data plus
SGMII_1_TXN| 17| AIO| AVDD12_SGMI

I

| –| SGMII 1 transmit data minus
SGMII_1_TXP| 20| AIO| AVDD12_SGMI

I

| –| SGMII 1 transmit data plus
GBE1_INT| 65| DI| VDD_EXT_1V8| PD| SGMII 1 interrupt input signal
GBE1_RST| 68| DO| VDD_EXT_1V8| PD| SGMII 1 reset signal
SGMII_0_RXN| 269| AIO| AVDD12_SGMI

I

| –| SGMII 0 receive data minus
SGMII_0_RXP| 268| AIO| AVDD12_SGMI

I

| –| SGMII 0 receive data plus
SGMII_0_TXN| 24| AIO| AVDD12_SGMI

I

| –| SGMII 0 transmit data minus
SGMII_0_TXP| 21| AIO| AVDD12_SGMI

I

| –| SGMII 0 transmit data plus
Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
GBE0_INT| 278| DI| VDD_EXT_1V8| PD| SGMII 0 interrupt input signal
GBE0_RST| 28| DO| VDD_EXT_1V8| PD| SGMII 0 reset signal
SGMII_PWR_EN1| 270| DO| VDD_EXT_1V8| PD| SGMII power supply enable 1
MDIO| 69| DIO| VDD_EXT_1V8| PD| SGMII MDIO signal
MDC| 66| DO| VDD_EXT_1V8| PD| SGMII MDC signal
PCIE
PCIE_A_CLKN| 34| AIO| AVDD12_PCIE| –| PCIe A reference clock minus
PCIE_A_CLKP| 37| AIO| AVDD12_PCIE| –| PCIe A reference clock plus
PCIE_A_LN0_TXN| 40| AIO| AVDD12_PCIE| –| PCIe A Tx0 minus
PCIE_A_LN0_TXP| 43| AIO| AVDD12_PCIE| –| PCIe A Tx0 plus
PCIE_A_LN0_RXN| 46| AIO| AVDD12_PCIE| –| PCIe A Rx0 minus
PCIE_A_LN0_RXP| 49| AIO| AVDD12_PCIE| –| PCIe A Rx0 plus
PCIE_A_PEWAKEN| 274| DI| VDD_EXT_1V8| PU| PCIe A wake-up signal
PCIE_A_PERSTN| 275| DO| VDD_EXT_1V8| PU| PCIe A reset signal
PCIE_A_CLKREQN| 276| DIO| VDD_EXT_1V8| PU| PCIe A clock request signal
PCIE_B_CLKN| 272| AIO| AVDD12_PCIE| –| PCIe B reference clock minus
PCIE_B_CLKP| 271| AIO| AVDD12_PCIE| –| PCIe B reference clock plus
PCIE_B_LN0_TXN| 26| AIO| AVDD12_PCIE| –| PCIe B Tx0 minus
PCIE_B_LN0_TXP| 29| AIO| AVDD12_PCIE| –| PCIe B Tx0 plus
PCIE_B_LN0_RXN| 33| AIO| AVDD12_PCIE| –| PCIe B Rx0 minus
PCIE_B_LN0_RXP| 30| AIO| AVDD12_PCIE| –| PCIe B Rx0 plus
PCIE_B_PEWAKEN| 67| DI| VDD_EXT_1V8| PU| PCIe B wake-up signal
PCIE_B_PERSTN| 76| DO| VDD_EXT_1V8| PU| PCIe B reset signal
PCIE_B_CLKREQN| 70| DIO| VDD_EXT_1V8| PU| PCIe B clock request signal
PCIE_C_CLKN| 400| AIO| AVDD12_PCIE| –| PCIe C reference clock minus
PCIE_C_CLKP| 399| AIO| AVDD12_PCIE| –| PCIe C reference clock plus
PCIE_C_LN0_TXN| 396| AIO| AVDD12_PCIE| –| PCIe C Tx0 minus
PCIE_C_LN0_TXP| 395| AIO| AVDD12_PCIE| –| PCIe CTx0 plus
PCIE_C_LN0_RXN| 393| AIO| AVDD12_PCIE| –| PCIe C Rx0 minus
PCIE_C_LN0_RXP| 394| AIO| AVDD12_PCIE| –| PCIe C Rx0 plus
PCIE_C_PEWAKEN| 403| DI| VDD_EXT_1V8| PU| PCIe C wake-up signal
PCIE_C_PERSTN| 401| DO| VDD_EXT_1V8| PU| PCIe C reset signal
PCIE_C_CLKREQN| 402| DIO| VDD_EXT_1V8| PU| PCIe C clock request signal
PCIE_D_CLKN| 3| AIO| AVDD12_PCIE| –| PCIe D reference clock minus,

Reserved

PCIE_D_CLKP| 265| AIO| AVDD12_PCIE| –| PCIe D reference clock plus,

Reserved

PCIE_D_LN0_TXN| 39| AIO| AVDD12_PCIE| –| PCIe D Tx0 minus, Reserved
PCIE_D_LN0_TXP| 38| AIO| AVDD12_PCIE| –| PCIe D Tx0 plus, Reserved
PCIE_D_LN0_RXN| 44| AIO| AVDD12_PCIE| –| PCIe D Rx0 minus, Reserved
PCIE_D_LN0_RXP| 41| AIO| AVDD12_PCIE| –| PCIe D Rx0 plus, Reserved

GPIO76/ PCIE_D_PERSTN

|

209

|

DI

|

VDD_EXT_1V8

|

PD

| MT6890 GPIO, used for 2+2+4 and 4+4+4 WIFI/BT

and RF co-exist control

signals

GPIO77/

PCIE_D_PEWAKEN

| 285| DO| VDD_EXT_1V8| PD| MT6890 GPIO, used for

2+2+4 and 4+4+4 WIFI/BT

Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
 |  |  |  |  | and RF co-exist control

signals

GPIO78/ PCIE_D_CLKREQN

|

162

|

DO

|

VDD_EXT_1V8

|

PD

| MT6890 GPIO, used for 2+2+4 and 4+4+4 WIFI/BT

and RF co-exist control

signals

JTAG
TDI| 183| DI| VDD_EXT_1V8| PD| JTAG TDI,Reserved
TCK| 186| DI| VDD_EXT_1V8| PD| JTAG TCK,Reserved
TDO| 189| DO| VDD_EXT_1V8| PD| JTAG TDO,Reserved
TRST_N| 295| DI| VDD_EXT_1V8| PD| JTAG TRST,Reserved
TMS| 296| DI| VDD_EXT_1V8| PD| JTAG TMS,Reserved
SYSRSTB| 297| DI| VDD_EXT_1V8| PD| System reset,Reserved
I2C
I2C_SDA0| 115| DIO| VDD_EXT_1V8| PU| I2C data
I2C_SCL0| 112| DO| VDD_EXT_1V8| PU| I2C clock
I2S
I2S0_DO| 103| DO| VDD_EXT_1V8| PD| I2S data output signal
I2S0_MCK| 94| DO| VDD_EXT_1V8| PD| I2S clock output signal
I2S0_DI| 104| DI| VDD_EXT_1V8| PD| I2S data input signal
I2S0_BCK| 101| DO| VDD_EXT_1V8| PD| I2S data bit clock signal
I2S0_LRCK| 105| DO| VDD_EXT_1V8| PD| I2S frame clock signal
ADC
ADC0| 249| AI| VDD_EXT_1V8| –| A/D conversion channel 0
ADC1| 252| AI| VDD_EXT_1V8| –| A/D conversion channel 1
Debug UART
DBG_UART_TX| 129| DO| VDD_EXT_1V8| PU| Debug UART data

transmission

DBG_UART_RX| 126| DI| VDD_EXT_1V8| PU| Debug UART data reception
UART
AP_UCTS1| 79| DI| VDD_EXT_1V8| PD| UART receive ready signal
AP_URTS1| 64| DO| VDD_EXT_1V8| PD| UART transmit request signal
AP_UTXD1| 77| DO| VDD_EXT_1V8| PD| UART transmit signal
AP_URXD1| 73| DI| VDD_EXT_1V8| PD| UART receive signal
SPI
SPI0_MISO| 5| DI| VDD_EXT_1V8| PD| SPI interface input signal
SPI0_MOSI| 8| DO| VDD_EXT_1V8| PD| SPI interface output signal
SPI0_CSB| 6| DO| VDD_EXT_1V8| PD| SPI interface chip select

signal

SPI0_CLK| 9| DO| VDD_EXT_1V8| PD| SPI interface clock signal
AUDIO CODEC
CDC_RESET_N| 98| DO| VDD_EXT_1V8| PD| External CODEC reset signal
CDC_INT1_N| 100| DI| VDD_EXT_1V8| PD| External CODEC interrupt

signal

Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
AUDIO_PWR_EN| 107| DO| VDD_EXT_1V8| PD| External CODEC power

enable

LCD

LSCK

|

80

|

DO

|

VDD_EXT_1V8

|

PD

| CLK signal for DBI-C serial 3/4 wire SPI LCD, connect to

LCD CLK signal

LSDA

|

72

|

DO/DI

|

VDD_EXT_1V8

|

PD

| Data signal for DBI-C serial 3/4 wire SPI LCD. For type interface I LCD, is data input/output signal. For type interface II LCD, is data output signal from FG360 module and connect to LCD data in

signal

LSA0

|

75

|

DO

|

VDD_EXT_1V8

|

PD

| RS signal for DBI-C serial 4 wire SPI LCD,    DBI-C serial 3 wire SPI LCD not has this

signal

LSCE0B

|

71

|

DO

|

VDD_EXT_1V8

|

PD

| CS signal for DBI-C serial 3/4

wire SPI LCD, connect to LCD CS signal

LSDI

|

74

|

DI

|

VDD_EXT_1V8

|

PD

| Data signal for DBI-C serial 3/4 wire SPI LCD. For type interface II LCD, is data input signal from FG360 module and connect to LCD data output signal. For type interface I LCD, not has this

signal

LRSTB

|

78

|

DO

|

VDD_EXT_1V8

|

PD

| Reset signal for DBI-C serial

3/4 wire SPI LCD, connect to LCD RST signal

DSI_TE| 141| DI| VDD_EXT_1V8| PD| LCD frame synchronization

signal

DISP_PWM| 156| DO| VDD_EXT_1V8| PD| LCD Backlight control PWM

signal

LCM_RST| 288| DO| VDD_EXT_1V8| PD| DSI LCD reset signal
LCD_PWR_EN1| 298| DO| VDD_EXT_1V8| PD| LCD power supply enable 1
LCD_PWR_EN2| 180| DO| VDD_EXT_1V8| PD| LCD power supply enable 2
DSI0_CKN| 406| AIO| AVDD12_DSI| –| DSI LCD MIPI CLK minus
DSI0_CKP| 407| AIO| AVDD12_DSI| –| DSI LCD MIPI CLK plus
DSI0_D0N| 405| AIO| AVDD12_DSI| –| DSI LCD MIPI lane0 minus
DSI0_D0P| 404| AIO| AVDD12_DSI| –| DSI LCD MIPI lane0 plus
DSI0_D1N| 408| AIO| AVDD12_DSI| –| DSI LCD MIPI lane1 minus
DSI0_D1P| 409| AIO| AVDD12_DSI| –| DSI LCD MIPI lane1 plus
WIFI/BT
BT_UTXD| 135| DO| VDD_EXT_1V8| PD| UART TX signal
BT_URXD| 138| DI| VDD_EXT_1V8| PD| UART RX signal
Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---
BT_URTS| 282| DO| VDD_EXT_1V8| PD| UART RTS signal
BT_UCTS| 283| DI| VDD_EXT_1V8| PD| UART CTS signal
PCM0_DO| 97| DO| VDD_EXT_1V8| PD| PCM data output
PCM0_DI| 95| DI| VDD_EXT_1V8| PD| PCM data input
PCM0_CLK| 96| DO| VDD_EXT_1V8| PD| PCM clock output
PCM0_SYNC| 93| DO| VDD_EXT_1V8| PD| PCM synchronization signal

EINT16

|

144

|

DO

|

VDD_EXT_1V8

|

PD

| MT6890 GPIO, used for control WIFI RESET signal or

WIFI Power enable signal

EINT17

|

27

|

DO

|

VDD_EXT_1V8

|

PD

| MT6890 GPIO, used for

control WIFI RESET signal or WIFI Power enable signal

EINT18

|

279

|

DO

|

VDD_EXT_1V8

|

PD

| MT6890 GPIO, used for control WIFI RESET signal or

WIFI Power enable signal

EINT15| 212| DI| VDD_EXT_1V8| PD| Interrupt input signal, used as

WLAN_EN

BT_PRI_RXD| 150| DI| VDD_EXT_1V8| PD| WIFI/BT and RF co-exist

control signals

BT_ACT_TXD| 153| DO| VDD_EXT_1V8| PD| WIFI/BT and RF co-exist

control signals

WLAN_ACT| 287| DI| VDD_EXT_1V8| PD| WIFI/BT and RF co-exist

control signals

PTA_TX| 99| DO| VDD_EXT_1V8| PD| WIFI/BT and RF co-exist

control signals

PTA_RX| 102| DI| VDD_EXT_1V8| PD| WIFI/BT and RF co-exist

control signals

WIFI_GPIO1| 286| DIO| VDD_EXT_1V8| PD| WIFI control signal 1,

Reserved

WIFI_GPIO2| 291| DIO| VDD_EXT_1V8| PD| WIFI control signal 2,

Reserved

MMW
NC| 237| –| –| –| Reserved
NC| 223| –| –| –| Reserved
NC| 217| –| –| –| Reserved
NC| 240| –| –| –| Reserved
NC| 235| –| –| –| Reserved
NC| 229| –| –| –| Reserved
NC| 243| –| –| –| Reserved
NC| 247| –| –| –| Reserved
NC| 241| –| –| –| Reserved
NC| 246| –| –| –| Reserved
NC| 259| –| –| –| Reserved
NC| 253| –| –| –| Reserved
Reserved
RESERVED| 23, 32, 48,

293,426~430

| –| –| –| –
NC
Pin Name| Pin No.| Type| Power Domain| Reset Value| Pin Description
---|---|---|---|---|---

NC

| 165,168,171,

174,177,231,

255,290,292,

294,410~425

|

|

|

|

Pin Name Pin No.

GND
 | 19, 31, 35, 36, 42, 50, 52, 81, 82, 83, 90, 91, 92, 118, 119, 122, 124, 125, 127, 128, 131,
 | 132, 133, 134, 136, 137, 140, 142, 143, 145, 146, 147, 149, 151, 152, 154, 155, 158, 160,
 | 161, 163, 164, 167, 169, 170, 172, 173, 176, 178, 179, 181, 182, 185, 187, 188, 190, 191,
 | 192, 194, 195, 196, 197, 200, 202, 203, 206, 208, 213, 214, 215, 218, 220, 221, 222, 224,
 | 226, 227, 228, 230, 232, 233, 234, 236, 238, 239, 242, 244, 245, 248, 250, 251, 254, 256,
GND| 257, 258, 260, 262, 266, 277, 284, 289, 299, 300, 301, 302, 303, 304, 305, 306, 307, 308,

309, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 324, 325, 326,

 | 327, 328, 329, 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, 343, 344,
 | 345, 346, 347, 348, 349, 350, 351, 352, 353, 354, 355, 356, 357, 358, 359, 360, 361, 362,
 | 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, 373, 374, 375, 376, 377, 378, 379, 380,
 | 381, 382, 383, 384, 385, 386, 387, 388, 389, 390, 391, 392, 397,398

Note:

  1. The PWRKEY and SYS_RESIN_N pins have internal pull-up, and the pull-up power supply is in exclusive mode; no external pull-up is required; PON_1 pin module with weak pull-down, maximum input voltage must not exceed VBAT_BB.

Structural Specification

Product Appearance
The appearance of the FG360 module product is as shown:

Dimension of Structure

The structural dimensions of the FG360 module are shown in the figure: Fibocom FG360-NA 5G Smart Module fig 5

Note: Unmarked dimensional tolerances are 0.1mm.

Storage

Refer to the FIBOCOM FG360-NA Series SMT Design Guide.

Packing

Refer to the FIBOCOM FG360-NA Series SMT Design Guide.

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