GLOBALSCALE GTI-RW610N Evaluation Board User Manual

GLOBALSCALE GTI-RW610N Evaluation Board User Manual

General Description

The GTI-RW610N is a high performance, low-power Wireless module with highly integrated MCU and  Wi Fi6 + Bluetooth Low Energy (LE) 5.2 radios

The GTI-RW610N module has MCU subsystem that includes a 260 MHz Arm® Cortex®-M33 core with TrustZone™-M, 1.2 MB on-chip SRAM, and QSPI interface.

Wi-Fi 6 Radio

• 1×1, 20MHz, IEEE 802.11ax, 2.4GHz/ 5GHz
• Target wake time, dual carrier modulation and extended range
• Integrated Wi-Fi PA, LNA and T/R switch
• WPA3 security
• Matter over Wi-Fi

Bluetooth Low Energy 5.2

• Bluetooth 5.2 certified
• Bluetooth LE 2 Mbit/s high-speed mode, long-range advertising extensions
• Isochronous channels supporting LE Audio
• I2S audio interface
• Integrated PA/ LNA

MCU

• 260 MHz ARM Cortex-M33 with Trust Zone-M
• On-chip 1.2MB PSRAM
• Quad FlexSPIFlash XIP with on-the-fly decryption
• Flexcommconfigurable as SPI/ I2C/ I2S/ UART
• LCD interface

MODULE FUNCTIONS

• 512Mb QSPI Flash memory
• On board dual-band 3D metal antenna
• U.Fl connector for alternative 2.4G Wi-Fi or BLE external antenna
• USB2.0 interface
• LCD_SPI interface
• UART via configurable GPIOs
• JTAG via configurable GPIOs
• PWD via configurable GPIOs
• SDIO via configurable GPIOs
• I2S via configurable GPIOs
• SPI via configurable GPIOs
• I2C via configurable GPIOs
• Size: 37x15x6.2 mm
• Pin type: LGA 8×13 pads

APPLICATIONS

• Industrial
  • Building automation o Smart lighting, security
  • Point of Sale (POS) Terminals
• Smart Home
  • Smart outlet
  • Light switch
  • Security camera
  • Thermostat
  • Sprinkler control
  • Door lock, doorbell, garage door
  • Security system
  • Smart display
• Smart Devices
  • Air purifier
  • Pet monitor
  • Weighing scale
  • Glucometer
  • Blood pressure monitor
  • Fitness equipment
• Smart Appliances
  • Refrigerator
  • Washer
  • Dryer
  • Oven Range
  • Microwave
  • Dishwasher
  • Water heater
  • Air conditioner
  • Robotic vacuum cleaner
• Smart accessories
  • Smart speakers
  • Headset
  • Alarm clock
  • Gaming accessory
• Gateways
  • Multi-radio hub
  • Smart gateway for Internet connectivity

GTI-RW610N Module Apperance

Top side

Bottom side

Module dimensions and LGA pads

Module dimensions

• SIDE VIEW
  

• TOP VIEW
  
  

Module LGA Pads

BACK VIEW 8×13 LGA

Pin Descriptions

xtal
C4| GND| GND|
C5| SPI_CLK| GPIO_34| QSPI Clock/ connected to on board SPI flash
C6| SPI_D1| GPIO_31| QSPI Data 1/ connected to on board SPI flash
C7| NC| | NC
C8| GND| GND|
D1| VIO0| VDDIO_0| Note*1
D2| NC| VBUCK_IN|
D3| GPIO_3| GPIO_3|
D4| XTAL32K_OUT| GPIO_23| 32K oscillator clock out
D5| SPI_D0| GPIO_30| QSPI Data 0/ connected to on board SPI flash
D6| SPI_D2| GPIO_32| QSPI Data 2/ connected to on board SPI flash
D7| NC| VTR_VDD33|
D8| +1.8V_IBUCK| FLY18_O| +1.8V by internal buck regulator

*Note 1
VIO0, VIO1
Extrenal 1.8V or 3.3V VIO power supply for GPIO, VIO_SD and VIO_RF, default is 3.3V Please see also CH 4. GTI-RW610N Module Schematic Block Diagram**

*Note 2**

EXT_GNT
External radio grant output signal (mandatory).

EXT_REQ
Request from external radio (mandatory).

*Note 3
EXT_FREQ**

External radio frequency input signal (optional) -muxed with WCI-2_SOUT signal of WCI-2 interface. Frequency overlap
between external radio and Wi-Fi:

• 1: overlap
• 0: non-overlap
  This signal is useful when the external radio is a frequency hopping device.

EXT_PRI
External radio input priority signal (optional)
Priority of the request from the external radio. Can support 1 bit priority (sample once). Can also have Tx/Rx info following the priority info if EXT_STATE is not used.

Pin Description

GPIO Mapping for advanced user

Note: This is only for reference

Strap configuration

**STRAP CONFIG

**

STRAP/CONFIG TABLE

Simple Evaluation Board

EVB

LCD module

Wi-Fi Radio Specifications

– 2.4G Wi-Fi receiver Performace

Receiver sensitivity
Receiver sensitivity 802.11b| 20 MHz 1 Mbps| —| -100| —| dBm
Receiver sensitivity 802.11b| 20 MHz 11 Mbps| —| -91.5| —| dBm
Receiver sensitivity 802.11g| 20 MHz 6 Mbps| —| -94.5| —| dBm
Receiver sensitivity 802.11g| 20 MHz 54 Mbps| —| -78| —| dBm
Receiver sensitivity 802.11n| 20 MHz MCS0 Nss1 BCC| —| -93.75| —| dBm
Receiver sensitivity 802.11n| 20 MHz MCS7 Nss1 BCC| —| -75| —| dBm
Receiver maximum input level (MIL)
Receiver maximum input level DSS| 802.11b DSSS MIL| —| 0| —| dB
Receiver maximum input level OFDM| 802.11b CCK MIL| —| -5| —| dB
Receiver maximum input level OFDM| OFDM MIL| —| -10| —| dB
Receiver adjacent channel interference (ACI)
Receiver ACI 802.11b| 20 MHz 1 Mbps| —| 49| —| dB
Receiver ACI 802.11b| 20 MHz 11 Mbps| —| 43| —| dB
Receiver ACI 802.11g| 20 MHz 6 Mbps| —| 30| —| dB
Receiver ACI 802.11g| 20 MHz 54 Mbps| —| 23| —| dB
Receiver ACI 802.11n| 20 MHz MCS0 Nss1 BCC| —| 29| —| dB
Receiver ACI 802.11n| 20 MHz MCS7 Nss1 BCC| —| 22| —| dB
Receiver alternate adjacent channel interference (AACI)
Receiver AACI 802.11b| 20 MHz 1 Mbps| —| 51| —| dB
Receiver AACI 802.11b| 20 MHz 11 Mbps| —| 44| —| dB
Receiver AACI 802.11g| 20 MHz 6 Mbps| —| 44| —| dB
Receiver AACI 802.11g| 20 MHz 54 Mbps| —| 27| —| dB
Receiver AACI 802.11n| 20 MHz MCS0 Nss1 BCC| —| 43| —| dB
Receiver ACAI 802.11n| 20 MHz MCS7 Nss1 BCC| —| 23| —| dB

5G Wi-Fi receiver Performace

Receiver sensitivity
Receiver sensitivity 802.11a| 20 MHz 6 Mbps| —| -93.5| —| dBm
Receiver sensitivity 802.11a| 20 MHz 54 Mbps| —| -77| —| dBm
Receiver sensitivity 802.11n| 20 MHz MCS0 Nss1 BCC| —| -93.25| —| dBm
Receiver sensitivity 802.11n| 20 MHz MCS7 Nss1 BCC| —| -73.5| —| dBm
Receiver adjacent channel interference (ACI)
Receiver ACI 802.11a| 20 MHz 6 Mbps| —| 24| —| dB
Receiver ACI 802.11a| 20 MHz 54 Mbps| —| 14| —| dB
Receiver ACI 802.11n| 20 MHz MCS0 Nss1 BCC| —| 21| —| dB
Receiver ACI 802.11n| 20 MHz MCS7 Nss1 BCC| —| 9| —| dB
Receiver alternate adjacent channel interference (AACI)
Receiver AACI 802.11a| 20 MHz 6 Mbps| —| 44| —| dB
Receiver AACI 802.11a| 20 MHz 54 Mbps| —| 25| —| dB
Receiver AACI 802.11n| 20 MHz MCS0 Nss1 BCC| —| 43| —| dB
Receiver ACAI 802.11n| 20 MHz MCS7 Nss1 BCC| —| 24| —| dB

2.4G Wi-Fi transmitter Performace

Out-of-band noise floor at different operation standard frequency range Transmit 1 Mbps at 18 dBm with 100% duty cycle| —| —| —| dBm/Hz
Return loss| —| —| —| TBD
Transmit carrier suppression| —| —| —| TBD
Transmit frequency error| —| —| —| TBD
Transmit output power control step| —| —| —| TBD
Transmit output power level controlrange| —| —| —| TBD
Transmit general spurs harmonic and subharmonic6 Mbps Tx at 18 dBm with 100% duty cycle| < 1 GHz| —| —| dBm/100kHz
1 GHz to 18 GHz| —| —| dBm/100kHz
Second harmonic| —| —| dBm/1MHz
Third harmonic| —| —| dBm/1MHz
LO leakage| —| —| dBm

5G Wi-Fi transmitter Performace

Out-of-band noise floor at different operation standard frequency range Transmit 1 Mbps at 18 dBm with 100% duty cycle| —| —| —| dBm/Hz
Return loss| —| —| —| TBD
Transmit carrier suppression| —| —| —| TBD
Transmit frequency error| —| —| —| TBD
Transmit output power control step| —| —| —| TBD
Transmit output power level controlrange| —| —| —| TBD
Transmit general spurs harmonic and subharmonic6 Mbps Tx at 18 dBm with 100% duty cycle| < 1 GHz| —| —| dBm/100kHz
1 GHz to 18 GHz| —| —| dBm/100kHz
Second harmonic| —| —| dBm/1MHz
Third harmonic| —| —| dBm/1MHz
LO leakage| —| —| dBm

Bluetooth LE Radio Specifications

Bluetooth LE receiver Performace

Receiver sensitivity
Bluetooth LE 1Mbps| | —| —| dBm
Bluetooth LE 2Mbps| | —| —| dBm
Bluetooth LE 125Kbps| | —| —| dBm
Bluetooth LE 500Kbps| | —| —| dBm
Receiver maximum input level (MIL)
Bluetooth LE 1Mbps| | —| —| dBm
Bluetooth LE 2Mbps| | —| —| dBm
Bluetooth LE 125Kbps| | —| —| dBm
Bluetooth LE 500Kbps| | —| —| dBm
Receiver adjacent channel interference (ACI)CCI performancr
Bluetooth LE 1Mbps| | | |
Receiver ACI @ -5 MHz (image -1)| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ -4 MHz (image)| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ -3 MHz (image +1)| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ -2 MHz| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ -1 MHz| Bluetooth LE 1 Mbps| —| —| dB
Receiver CCI| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ +1 MHz (image -1)| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ +2 MHz (image -1)| Bluetooth LE 1 Mbps| —| —| dB
Receiver ACI @ +3 MHz (image -1)| Bluetooth LE 1 Mbps| —| —| dB
Bluetooth LE 2Mbps| | | |
Receiver ACI @ -6 MHz (image -2)| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ -4 MHz (image)| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ -2 MHz (image +2)| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ -2 MHz| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ -4 MHz| Bluetooth LE 2 Mbps| —| —| dB
Receiver CCI| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ +2MHz| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ +4 MHz| Bluetooth LE 2 Mbps| —| —| dB
Receiver ACI @ +6MHz| Bluetooth LE 2 Mbps| —| —| dB
Receiver adjacent channel interference (ACI)CCI performancr

Bluetooth LR 125Kbps| | | |
Receiver ACI @ -3MHz (image -1)| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ -4 MHz (image)| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ -3 MHz (image +1)| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ -2 MHz| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ -1 MHz| Bluetooth LR 125 Kbps| —| —| dB
Receiver CCI| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ +1 MHz| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ +2 MHz| Bluetooth LR 125 Kbps| —| —| dB
Receiver ACI @ +3 MHz| Bluetooth LR 125 Kbps| —| —| dB
Bluetooth LE 500K bps| | | |
Receiver ACI @ -3MHz (image -1)| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ -4 MHz (image)| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ -3 MHz (image +1)| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ -2 MHz| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ -1 MHz| Bluetooth LR 500 Kbps| —| —| dB
Receiver CCI| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ +1 MHz| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ +2 MHz| Bluetooth LR 500 Kbps| —| —| dB
Receiver ACI @ +3 MHz| Bluetooth LR 500 Kbps| —| —| dB

Bluetooth LE transmitter Performace

Out-of band noise floor at different operation standard frequency rangeTransmit at 15 dBm with 100% duty cycle| —| —| TBD| dBm/Hz
Transmit frequency error| —| TBD| TBD| kHz
Transmit output power accuracy| —| 1.74| 2.22| dBm
Transmit output power control step| —| —| —| dB
Transmit output power level controlrange| —| TBD| TBD| dBm
Transmit general spurs harmonic and subharmonic Transmit at 20 dBm with 100% duty cycle| < 1 GHz| —| —| dBm/100kHz
1 GHz to 18 GHz| —| —| dBm/100kHz
Second harmonic| —| —| dBm/1MHz
Third harmonic| —| —| dBm/1MHz
LO leakage| —| —| dBm

WIFI 2.4GHZ EVM/Power/Frequency Error/Rx table

TBD

Electrical Characteristics

(TBD)

Recommended Reflow Profile

Referred to IPC/JEDEC standard.
PeakTemperature : <250°C
Number of Times : 2 times

Figure 1-Reflow Soldering Profile

Package and order information

(TBD)

FCC Warning

Any Changes or modifications not expressly approved by the party responsible for compliance 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

FCC Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment .This transmitter must not be colocated or operating in conjunction with any other antenna or transmitter. This equipment should be installed and operated with minimum distance 20cm between the radiator &you body.

List of applicable FCC rules

CFR 47 FCC PART 15 SUBPART C and CFR 47 FCC PART 15 SUBPART E has been investigated. It is applicable to the modular.

Specific operational use conditions

This module is stand-alone modular. If the end product will involve the Multiple simultaneously transmitting condition or different operational conditions for a stand-alone modular transmitter in a host, host manufacturer have to consult with module manufacturer for the installation method in end system.

Limited module procedures
Not applicable

Trace antenna designs
Not applicable

RF exposure considerations

To maintain compliance with FCC’s RF Exposure guidelines, This equipment should be installed and operated with minimum distance of 20cm from your body. Additional RF exposure statement: the modular transmitter must comply with any applicable RF exposure requirements (as defined §2.1091 and §2.1093,) in its final configuration, per KDB996369 D03.

Antennas
This radio transmitter FCC ID: YCJ-GTIRW610N has been approved by Federal Communications Commission to operate with the antenna types listed below, with the maximum permissible gain indicated. Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device.

Label and compliance information

The final end product must be labeled in a visible area with the following” Contains FCC ID:

Information on test modes and additional testing requirements

Host manufacturer is strongly recommended to confirm compliance with FCC requirements for the transmitter when the module is installed in the host. The OEM integrator or the host manufacturer is responsible for the overall compliance of the host products, the module grantees to ensure that proper test data for multiple transmitter operations are included in the application filings for the modules.

Additional testing, Part 15 Subpart B disclaimer

Host manufacturer is responsible for compliance of the host system with module installed with all other applicable requirements for the system such as Part 15 B

Contact information

Sales@globalscaletechnologies.com

Globalscale Technologies, Inc.
1200 N. Van Buren Street
Anaheim, CA 92807
U.S.A.

Office (714) 632 9239
Fax (714) 632 7550

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