PAN9320 Wi-Fi Module
Overview
The PAN9320 is a 2.4 GHz ISM band
Wi-Fi-embedded module which includes a wireless
radio and an MCU for easy integration of
Wi-Fi connectivity into various electronic devices.
Features
• Fully embedded: integrated full-featured network
stack
• Contains all necessary IoT functionality
(Place & Play)
• Integrated webserver with AJAX/JSON for web
applications
• No stack or software implementation needed on a
host MCU
• Simultaneous support of Access-Point & Infra-
structure mode
• Fully automatical IP configuration
• DHCP server offers IP configuration in AP mode
• Access by names (http://yourdevice)
• Integrated TCP/IP network stack: IPv4, ARP, and
AutoIP
• Supports TLS/SSL, https, and Wi-Fi security
(WPA2) for secure data connection
• Over-the-Air firmware update
• Two UART interfaces (command and transparent
data)
Block Diagram
• Integrated QSPI flash memory for customer web
contents and configuration file (externally
extendable with additional 2 MByte)
• Coexistence interface for external co-located
2.4 GHz radios (e. g. Bluetooth)
• Programming via standard JTAG
• Evaluation Kit with pre-installed web application
for quick prototyping available
• Evaluation and development tool WiFigurator for
Windows
• Getting started tutorials, PC tool, quickstart guide
• Wide temperature range of -30 °C to 70 °C
• FCC-/IC-/CE-certified
Characteristics
• Surface Mount Type (SMT)
29.0 mm x 13.5 mm x 2.66 mm
• Marvell® 88W8782 WLAN System-on-Chip
(SoC) and 88MC200 (MCU) inside
• Tx power up to +18 dBm @ IEEE 802.11b
• Rx sensitivity of -98 dBm @ IEEE 802.11b
DSSS 1 Mbps
• 40 MHz channels up to 150 Mbps
• Power supply 3.0 to 3.6 V
• Current consumption 430 mA (Tx @ 11b,
11 Mbps) and 145 mA Rx
• Low power mode available
Vcc 3.3 V
Reset/PD
JTAG
WAKE UP1
UART0 (Cmd)
UART1 (Data)
QSPI (Flash)
Status LEDs
GPIOs
MCU Ready
Factory Reset
QSPI Flash
16 Mbit
88MC200
MCU
Crystal
32 MHz
PAN9320
Fully Embedded Wi-Fi Module
IEEE 802.11 b/g/n
DC/DC
Step-Down
88W8782
Radio SoC
LPF
Chip
Antenna
Crystal
40 MHz
Product Specification Rev. 1.3
Page 2