Zenode.ai Logo
WL1807MODGIMOCR - WL1807MODGIMOCR

WL1807MODGIMOCR

Active
Texas Instruments

WILINK™ 8 INDUSTRIAL DUAL BAND COMBO, 2X2 MIMO WI-FI MODULE 100-QFM -40 TO 85

WL1807MODGIMOCR - WL1807MODGIMOCR

WL1807MODGIMOCR

Active
Texas Instruments

WILINK™ 8 INDUSTRIAL DUAL BAND COMBO, 2X2 MIMO WI-FI MODULE 100-QFM -40 TO 85

Technical Specifications

Parameters and characteristics for this part

SpecificationWL1807MODGIMOCR
Current - Receiving85 mA
Current - Transmitting510 mA
Data Rate (Max) [Max]54 Mbps
Frequency5 GHz, 2.4 GHz
GPIO7
Mounting TypeSurface Mount
Operating Temperature [Max]85 °C
Operating Temperature [Min]-40 °C
Package / Case100-SMD Module
Power - Output18.5 dBm
Protocol802.11a/b/g/n, Bluetooth v4.1
RF Family/StandardWiFi, Bluetooth
Sensitivity-95 dBm
Serial InterfacesUART
Supplier Device Package100-QFM
TypeTxRx + MCU
Voltage - Supply [Max]4.8 V
Voltage - Supply [Min]2.9 V

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

WL1807 Series

WiLink™ 8 industrial dual band combo, 2x2 MIMO Wi-Fi module

PartCurrent - TransmittingTypeVoltage - Supply [Min]Voltage - Supply [Max]Serial InterfacesOperating Temperature [Min]Operating Temperature [Max]Power - OutputCurrent - ReceivingGPIORF Family/StandardData Rate (Max) [Max]Mounting TypeSupplier Device PackageProtocolPackage / CaseFrequencySensitivity
Texas Instruments
WL1807MODGIMOCR
The certified WiLink™ 8 module from TI offers high throughput and extended range along with Wi-Fi ® and Bluetooth ® coexistence (WL1837MOD only) in a power-optimized design. The WL18x7MOD is a Wi-Fi, dual-band, 2.4- and 5-GHz module solution with two antennas supporting industrial temperature grade. The device is FCC, IC, ETSI/CE, and TELEC certified for AP (with DFS support) and client. TI offers drivers for high-level operating systems, such as Linux and Android™. Additional drivers, such as WinCE and RTOS, which includes QNX, Nucleus, ThreadX, and FreeRTOS, are supported through third parties. The certified WiLink™ 8 module from TI offers high throughput and extended range along with Wi-Fi ® and Bluetooth ® coexistence (WL1837MOD only) in a power-optimized design. The WL18x7MOD is a Wi-Fi, dual-band, 2.4- and 5-GHz module solution with two antennas supporting industrial temperature grade. The device is FCC, IC, ETSI/CE, and TELEC certified for AP (with DFS support) and client. TI offers drivers for high-level operating systems, such as Linux and Android™. Additional drivers, such as WinCE and RTOS, which includes QNX, Nucleus, ThreadX, and FreeRTOS, are supported through third parties.
510 mA
TxRx + MCU
2.9 V
4.8 V
UART
-40 °C
85 °C
18.5 dBm
85 mA
7
Bluetooth, WiFi
54 Mbps
Surface Mount
100-QFM
802.11a/b/g/n, Bluetooth v4.1
100-SMD Module
2.4 GHz, 5 GHz
-95 dBm

Description

General part information

WL1807 Series

The certified WiLink™ 8 module from TI offers high throughput and extended range along with Wi-Fi ® and Bluetooth ® coexistence (WL1837MOD only) in a power-optimized design. The WL18x7MOD is a Wi-Fi, dual-band, 2.4- and 5-GHz module solution with two antennas supporting industrial temperature grade. The device is FCC, IC, ETSI/CE, and TELEC certified for AP (with DFS support) and client. TI offers drivers for high-level operating systems, such as Linux and Android™. Additional drivers, such as WinCE and RTOS, which includes QNX, Nucleus, ThreadX, and FreeRTOS, are supported through third parties.

The certified WiLink™ 8 module from TI offers high throughput and extended range along with Wi-Fi ® and Bluetooth ® coexistence (WL1837MOD only) in a power-optimized design. The WL18x7MOD is a Wi-Fi, dual-band, 2.4- and 5-GHz module solution with two antennas supporting industrial temperature grade. The device is FCC, IC, ETSI/CE, and TELEC certified for AP (with DFS support) and client. TI offers drivers for high-level operating systems, such as Linux and Android™. Additional drivers, such as WinCE and RTOS, which includes QNX, Nucleus, ThreadX, and FreeRTOS, are supported through third parties.