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Alinket ALXC29 User Manual

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Highlights
⚫ IEEE 802.11 Key Feature
TX and RX low-density parity check (LDPC) support for improved range and power
efficiency.
802.11 a/b/g/n/ac,Dual-stream spatial multiplexing up to 867 Mbps data rate.
20, 40, 80 MHz channels with optional SGI (256 QAM modulation)
Real simultaneous dual-band
Applications
Health & fitness equipment including heart rate monitors, blood pressure, weight scales,
thermometers
Control, automation, security and Alliance for Wireless Power wireless charging
Consumer: toys, robots, remote controls
Location, proximity detection
And more...
User Manual-Integration Instructions

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Summary of Contents for Alinket ALXC29

  • Page 1 User Manual-Integration Instructions Highlights ⚫ IEEE 802.11 Key Feature  TX and RX low-density parity check (LDPC) support for improved range and power efficiency.  802.11 a/b/g/n/ac,Dual-stream spatial multiplexing up to 867 Mbps data rate.  20, 40, 80 MHz channels with optional SGI (256 QAM modulation) ...

  • Page 2: Table Of Contents

    Contents 1. Introduction ......................3 Overview ........................3 Product Features ...................... 3 2. General Specification ..................... 3 General Specification ....................3 DC Characteristics ....................4 2.2.1 Absolute Maximum Ratings ....................4 2.2.2 Recommended Operating Rating ..................4 3. W i-Fi RF Specification ................... 4 2.4GHz RF Specification ..................

  • Page 3: Introduction

    1. Introduction 1.1 Overview The Alinket ALXC29 is a fully Wi-Fi functionalities module with seamless roaming capabilities and advance security, also it could interact with different vendors’ 802.11a/b/g/n/ac 2x2 Access Points with MIMO standard and can accomplish up to speed of 867Mbps with dual stream in 802.11n to connect the wireless LAN.

  • Page 4: Dc Characteristics

    Note: The optimal RF performance specified in the data sheet, however, is guaranteed only -10 °C to +55 °C and 3.2V < VBAT <3.8V without derating performance. 2.2 DC Characteristics 2.2.1 Absolute Maximum Ratings Symbol Description Min. Max. Unit VBAT Input supply Voltage -0.5 VDDIO...
  • Page 5 16.5 MCS0~2 MCS3 MCS4 MCS5 MCS6 17.5 16.5 16.5 802.11n MCS7 20MHz 15.5 Note: The specifications of RF output power are subject to change to fulfill the safety regulation and requirements in end-user product. Sensitivity, tolerance ± 2 dB CCK modulation PER ≦ 8%、OFDM modulation PER ≦ 10% Data Rate Spec.(dBm) 1Mbps...

  • Page 6: 5Ghz Rf Specification

    3.2 5GHz RF Specification Conditions : VBAT=3.3V ; VDDIO=3.3V ; Temp:25°C Feature Description WLAN Standard IEEE 802.11a/n/ac & Wi-Fi compliant Frequency Range 5.15~5.35GHz、5.47~5.725GHz、5.725~5.85GHz (5GHz UNII Band) 5.15~5.35GHz:Ch36 ~ Ch64 Number of Channels 5.47~5.725GHz:Ch100 ~ Ch140 5.725~5.85GHz:Ch149 ~ Ch165 802.11a : OFDM /64QAM、16QAM、QPSK、BPSK Modulation 802.11n : OFDM /64QAM、16QAM、QPSK、BPSK 802.11ac : OFDM /256QAM、OFDM /64QAM、16QAM、QPSK、BPSK...
  • Page 7 Frequency (MHz) MCS6 MCS7 MCS8 14.5 14.5 5150~5350 14.5 14.5 5470~5720 14.5 14.5 5725~5845 Frequency (MHz) MCS0~2 MCS3 MCS4 MCS5 15.5 15.5 5150~5350 15.5 15.5 5470~5720 15.5 15.5 5725~5845 802.11ac 40MHz Frequency (MHz) MCS6 MCS7 MCS8 MCS9 14.5 14.5 5150~5350 14.5 14.5 5470~5720...
  • Page 8 MCS1 MCS6 MCS2 MCS7 MCS3 MCS8 MCS4 MCS15 Data Rate Spec.(dBm) Data Rate Spec.(dBm) MCS0 MCS4 802.11n_40MHz SISO MCS1 MCS5 MCS2 MCS6 MCS3 MCS7 Data Rate Spec.(dBm) Data Rate Spec.(dBm) MCS0 MCS5 802.11n_40MHz MCS1 MCS6 MIMO MCS2 MCS7 MCS3 MCS8 MCS4 MCS15 Data Rate...

  • Page 9: Pin Definition

    MCS2,NSS=1 MCS8,NSS=1 MCS3,NSS=1 MCS9,NSS=1 MCS4,NSS=1 MCS0,NSS=2 MCS5,NSS=1 MCS9,NSS=2 Data Rate Spec.(dBm) Data Rate Spec.(dBm) MCS0 MCS5 802.11ac_80MHz MCS1 MCS6 SISO MCS2 MCS7 MCS3 MCS8 MCS4 MCS9 Data Rate Spec.(dBm) Data Rate Spec.(dBm) MCS0,NSS=1 MCS6,NSS=1 MCS1,NSS=1 MCS7,NSS=1 802.11ac_80MHz MCS2,NSS=1 MCS8,NSS=1 MIMO MCS3,NSS=1 MCS9,NSS=1 MCS4,NSS=1...

  • Page 10: Pin Assignment

    4.2 Pin Assignment Name Type Description - Ground connections WL_ANT0 RF(WIFI) I/O port0 - Ground connections - Ground connections - Ground connections - Ground connections - Ground connections - Ground connections WL_ANT1 RF(WIFI) I/O port1 - Ground connections - Ground connections -...
  • Page 11 - Floating (Don’t connected to ground) VDDIO I/O Voltage supply input - Floating (Don’t connected to ground) VBAT Main power voltage source input - Floating (Don’t connected to ground) - Ground connections - - - - - - - - Ground connections -...

  • Page 12: Dimensions

    5. Dimensions 5.1 Module Dimensions 5.2 Recommended footprint Solder paste layer design is generally the same as recommended footprint. If soldering quality with good wetting on upright side is essential for PQC, how to optimize the...

  • Page 13: External Clock Reference

    In addition, a kind of stencil design with stepped thickness in partial area would be considered if the thickness of stencil is about 0.1mm or thinner. Please optimize the stencil design by manufacture engineer or contact Alinket FAE for assistance. 6. External clock reference...
  • Page 14 The module has signals that allow the host to control power consumption by enabling or disabling WLAN and internal regulator blocks. These signals are described below. Additionally, diagrams are provided to indicate proper sequencing of the signals for carious operating states. The timing value indicated are minimum required values: longer delays are also acceptable.

  • Page 15: Sdio Interface Description

    7.2 SDIO Interface Description The module supports SDIO version 3.0 for all 1.8V 4-bit UHSI speeds: SDR50(100 Mbps), SDR104(208MHz) and DDR50(50MHz, dual rates) in addition to the 3.3V default speed(25MHz) and high speed (50 MHz). It has the ability to stop the SDIO clock and map the interrupt signal into a GPIO pin.

  • Page 17: Sdio High Speed Mode Timing Diagram

    7.4 SDIO High Speed Mode Timing Diagram 7.5 SDIO Bus Timing Specifications in SDR Modes Clock timing(SDR Modes)
  • Page 18 SDIO Bus Input timing (SDR Modes) SDIO Bus output timing (SDR Modes up to 100MHz)
  • Page 19 Card output timing (SDR Modes 100MHz to 208MHz)

  • Page 20: Sdio Bus Timing Specifications In Ddr50 Mode

    7.6 SDIO Bus Timing Specifications in DDR50 Mode...
  • Page 21 Data Timing...

  • Page 22: Recommended Reflow Profile

    8. Recommended Reflow Profile Temperature <260°C 3°C /sec max. 217°C 3°C /sec max. 200°C 60~90s typically 150°C 60~120s typically 3°C /sec max. Time Soak Reflow Ramp up Cool down...
  • Page 23 1. Referred to IPC/JEDEC standard 2. Peak Temperature : <260°C 3. Cycle of Reflow : 2 times max. 4. Adding Nitrogen (N2) to implement 2000ppm or less of oxygen concentration during reflow process is recommended. 5. If the shelf time is exceeded, be sure baking step to remove the moisture from the component...
  • Page 24 This exterior label can use wording such as the following: “Contains Transmitter Module FCC ID: ZLZ-ALXC29” When the module is installed inside another device, the user manual of this device must contain below warning...

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