AW-CM358AN IEEE 802.11a/b/g/n/ac WLAN with Bluetooth 5.2 Combo LGA Module with Printed Antenna Datasheet Rev. C DF (For Standard) 1 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
Features pulse radar. Wi-Fi 1 antennas to support 1(Transmit) 1(Receive) technology and Bluetooth Enhanced AGC scheme for DFS channel. 20/40/80Mhz coexistence with middle-packet High speed wireless connection up to detection (GI detection) for enhanced CCA. 433.3Mbps transmit/receive PHY rate using 1 spatial stream STBC reception. 80MHz bandwidth LDPC transmission and reception for both Backward compatibility with legacy 802.11 20MHz bandwidth/ 802.11n and 802.11ac.
Enhanced Power Control (EPC). LE Data Length Extension. Channel Quality Driven Data Rate (CQDDR). 2 Mbps LE Encryption (AES) support. Direction Finding – Connectionless Angle of Supports link layer topology to be master and slave (connects up to 16 links). LE Privacy 1.2 LE Secure Connection. Departure (AoD). Direction Finding – Connection – oriented Angle of Arrival (AoA). 3 FORM NO.
Revision History Document NO: R2-2358AN-DST-01 Version Revision Date DCN NO. Description A 2021/11/18 DCN024751 Initial Version B 2022/02/08 DCN025423 C 2022/10/17 DCN027670 1.3.2 WLAN update 1.3.3 Bluetooth update 1.3.2 WLAN update 1.3.4 Operating Conditions update Initials JM.Pang JM.Pang JM.Pang Approved Chihhao Liao Chihhao Liao Chihhao Liao 4 FORM NO.
Table of Contents Features ........................................................................................................................................... 2 Revision History .............................................................................................................................. 4 Table of Contents ............................................................................................................................ 5 1. Introduction ....................................
1. Introduction 1.1 Product Overview AzureWave Technologies, Inc. introduces the pioneer of the IEEE 802.11 a/b/g/n/ac WIFI with Bluetooth 5.2 combo SDIO and UART LGA Module --- AW-CM358AN. The AW-CM358AN IEEE 802.11 a/b/g/n/ac WIFI with Bluetooth 5.2 combo module is a highly integrated wireless local area network (WLAN) solution to let users enjoy the digital content through the latest wireless technology without using the extra cables and cords. It combines with Bluetooth 4.
1.2 Block Diagram Printed Antenna VBAT VDDIO VDDIO PCM UART SDIO Azurewave AW-CM358 802.11 a/b/g/n/ac 1T1R BT 5.2 WiFi+BT T/Rx RTC CLK AW-CM358AN BLOCK DIAGRAM 7 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
1.3 Specifications Table 1.3.1 General Features Description Product Description IEEE 802.11 a/b/g/n/ac Wi-Fi with Bluetooth 5.2 combo LGA module with Printed Antenna Major Chipset NXP 88W8987 Host Interface Wi-Fi + BT SDIO + UART Dimension 28mm(L) x 18mm(W) x 2.65mm(T) Form Factor LGA module, 110 pins Antenna 1T1R ANT1(Printed Antenna):Wi-Fi/Bluetooth TX/RX Weight TBD 1.3.2 WLAN Features Description WLAN Standard IEEE 802.
Most European Countries – 1 ~ 13 802.11n: USA and Canada – 1 ~ 11 Most European Countries – 1 ~ 13 802.11a: USA – 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165 2.
11ac (VHT20 MCS8) 11ac (VHT40 MCS9) 11ac (VHT80 MCS9) -67 -59 -55 -64 -56 -52 dBm dBm dBm 802.11b: 1, 2, 5.5, 11Mbps 802.11g: 6, 9, 12, 18, 24, 36, 48, 54Mbps 802.11n: MCS0~7 HT20/HT40 Data Rate 802.11a: 6, 9, 12, 18, 24, 36, 48, 54Mbps 802.11ac: MCS0~8 VHT20 802.11ac: MCS0~9 VHT40/VHT80 WPA™- and WPA2™- (Personal) support for powerful encryption and authentication AES and TKIP acceleration hardware for faster data encryption and 802.
1.3.4 Operating Conditions Features Description Operating Conditions Voltage VBAT: 3.07~3.53V VIO : 1.8V Operating Temperature -30°C ~85°C Operating Humidity less than 85% R.H. Storage Temperature -40°C ~90°C Storage Humidity less than 60% R.H. ESD Protection Human Body Model ±2KV per MIL-STD-883H Method 3015.8 Changed Device Model ±500V per JEDEC EIA/JESD22-C101E 11 FORM NO.
2. Pin Definition 2.1 Pin Map AW-CM358AN Top View Pin Map 12 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
2.2 Pin Table Pin No Definition Basic Description Voltage Type A1 GND Ground. GND A2 SDIO_DATA1 SDIO Data Line 1. VDDIO I/O A3 SDIO_DATA0 SDIO Data Line 0. VDDIO I/O A4 SDIO_DATA_CLK SDIO Clock Input. VDDIO I A5 SDIO_DATA_CMD SDIO Command Input. VDDIO I/O A6 SDIO_DATA3 SDIO Data Line 3. VDDIO I/O A7 SDIO_DATA2 SDIO Data Line 2. VDDIO I/O A8 WL_HOST_WAKE WLAN to wake-up HOST O A9 PDn Power up/ down internal regulators.
C1 VIN_LDO DC-DC convertor to supply AVDD18 of IC 1.8V VCC C2 VIN_LDO DC-DC convertor to supply AVDD18 of IC 1.8V VCC C3 GND Ground. GND C4 GND Ground. GND C5 GND Ground. GND C6 GND Ground. GND C7 GND Ground. GND C8 GND Ground. GND C9 GND Ground. GND C10 GND Ground. GND C11 GND Ground. GND D1 GND Ground. GND D2 GND Ground. GND D3 GND Ground. GND D4 GND Ground. GND D5 GND Ground. GND D6 GND Ground. GND D7 GND Ground.
E5 GND Ground. GND E6 GND Ground. GND E7 GND Ground. GND E8 GND Ground. GND E9 GND Ground. GND E10 GND Ground. GND E11 GND Ground. GND F1 BT_PCM_OUT PCM data out F2 NC Floating Pin, No connect to anything F3 GND Ground. GND F4 GND Ground. GND F5 GND Ground. GND F6 GND Ground. GND F7 GND Ground. GND F8 GND Ground. GND F9 GND Ground. GND F10 GND Ground. GND F11 GND Ground.
G9 GND Ground. GND G10 GND Ground. GND G11 GND Ground. GND H1 BT_PCM_IN PCM data Input H2 GND Ground. GND H3 GND Ground. GND H4 GND Ground. GND H5 GND Ground. GND H6 GND Ground. GND H7 GND Ground. GND H8 GND Ground. GND H9 GND Ground. GND H10 GND Ground. GND H11 GND Ground. GND J1 BT_PCM_SYNC PCM Synchronization control J2 GND Ground.
K2 VDDIO 1.8V VDDIO supply for WLAN and Bluetooth 1.8V VCC K3 NC Floating Pin, No connect to anything K4 HOST_WAKE_BT Host wake-up Bluetooth device K5 NC Floating Pin, No connect to anything K6 UART_RTS_N High-Speed UART RTS O K7 UART_TXD High-Speed UART Data Out O K8 UART_RXD High-Speed UART Data In I K9 UART_CTS_N High-Speed UART CTS I K10 GND Ground. GND K11 GND Ground. GND Floating I Floating 17 FORM NO.
3. Electrical Characteristics 3.1 Absolute Maximum Ratings Symbol VBAT VDDIO Parameter DC supply for the 3.3V input DC supply voltage for digital I/O Minimum Typical Maximum Unit 2.5 3.3 4.0 V 1.8 2.2 V 3.2 Recommended Operating Conditions Symbol Parameter Minimum Typical Maximum Unit VBAT DC supply for the 3.3V input 3.07 3.3 3.53 V VDDIO DC supply voltage for digital I/O 1.67 1.8 1.98 V 18 FORM NO.
3.3 Digital IO Pin DC Characteristics Symbol Parameter Minimum Typical Maximum Unit Digital I/O pins, VDDIO=1.8V VIH Input high voltage 1.26 - 2.2 V VIL Input low voltage -0.4 - 0.54 V VOH Output high voltage 1.4 - - V VOL Output Low Voltage - - 0.4 V 19 FORM NO.
3.4 Host Interface Power-up Sequence VDDIO/Pdn no specific time requirement, just need to follow up the power on sequence waveform. Power-down Sequence The table is AW-CM358AN module power down sequence, the maximum ramp-down time for PDn from VBAT assertion is 10ms.VBAT must be asserted a minimum of 100 ms to guarantee that PDn are discharged to less than 0.2V for the POR generate properly after VBAT is deasserted. 20 FORM NO.
3.4.1 SDIO Interface The AW-CM358AN supports a SDIO device interface that conforms to the industry SDIO Full-Speed card specification and allows a host controller using the SDIO bus protocol to access the Wireless SoC device. The AW-CM358AN acts as the device on the SDIO bus. The host unit can access registers of the SDIO interface directly and can access shared memory in the frvice through the use of BARs and a DMA engine. Support SDIO 3.0 Standard. On-chip memory used for CIS.
Default Speed, High-Speed Modes SDIO Protocol Timing Diagram – Default Speed Mode SDIO Protocol Timing Diagram – High Speed Mode SDIO Timing Data- Default Speed, High-Speed Modes Symbol Parameter fpp CLK Frequency tWL CLK low Time tWH CLK High Time tISU Input Setup Time tIH Input Hold Time tODLY Output Delay Time TOH Output hold time Condition Normal High Speed Normal High Speed Normal High Speed Normal High Speed Normal High Speed Normal High Speed High Speed Min 0 0 10 7 10 7 5 6 5 2 2.
SDIO Protocol Timing Diagram – SDR12, SDR25, SDR50 Modes (up to 100MHz) (1.8V) SDIO Timing Data- SDR12, SDR25, SDR50 Modes (up to 100MHz) (1.8V) Symbol Parameter Condition Min Typ Max Units fpp CLK Frequency SDR12/25/50 25 - 100 MHz TIS Input setup time SDR12/25/50 3 - - ns TIH Input hold time SDR12/25/50 0.8 - - ns TCLK Clock time SDR12/25/50 10 - 40 ns TCR, TCF Rise time, fall time SDR12/25/50 - - 0.2*TCLK ns TODLY Output delay time SDR12/25/50 - - 7.
SDIO Protocol Timing Diagram – SDR104 Mode (208MHz) SDIO Timing Data- SDR104 Mode (208MHz) Symbol Parameter Condition Min Typ Max Units fpp CLK Frequency SDR104 0 - 208 MHz TIS Input setup time SDR104 1.4 - - ns TIH Input hold time SDR104 0.8 - - ns TCLK Clock time SDR104 4.8 - TCR, TCF Rise time, fall time SDR104 - - 0.2*TCLK ns TODLY Output delay time SDR104 0 - 10 ns TOH Output hold time SDR104 2.
SDIO SAT [3:0] Timing Diagram – SDR50 Mode (50MHz) SDIO Timing Data- DDR50 Mode (50MHz) Symbol Parameter Condition Min Typ Max Units TCLK Clock time DDR50 20 - - ns TCR, TCF Rise time, fall time DDR50 - - 0.2*TCLK Ns DDR50 45 - 55 % Clock Clock Duty CMD Input TIS Input setup time DDR50 6 - - ns TIH Input hold time DDR50 0.8 - - ns TODLY Output delay time during data transfer mode DDR50 - - 13.7 ns TOHLD Output hold time DDR50 1.
3.4.2 UART Interface High-Speed UART interface The AW-CM358AN supports a high-speed Universal Asynchronous Receiver/ Transmitter (UART) interface, compliant to the industry standard 16550 specification. FIFO mode permanently selected for transmit and receive operations. 2 pins for transmit and receive operations. 2 flow control pins. Interrupt triggers for low-power, internal CPU (for debug purposes). Support diagnostic tests.
The UART Tx and Rx pins are powered from the VDDIO voltage supply. UART Timing Diagram UART Timing Data Symbol Parameter Condition Min Typ Max Units TBAUD 38.4MHz input clock 250 - - ns Baud rate 27 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
3.5 Power up Timing Sequence Power-up Sequence VDDIO/Pdn no specific time requirement, just need to follow up the power on sequence waveform. Power-down Sequence The table is AW-CM358AN module power down sequence, the maximum ramp-down time for PDn from VBAT assertion is 10ms.VBAT must be asserted a minimum of 100 ms to guarantee that PDn are discharged to less than 0.2V for the POR generate properly after VBAT is deasserted. 28 FORM NO.
3.6 Power Consumption* 3.6.1 WLAN TBD * The power consumption is based on Azurewave test environment, these data for reference only. 3.6.2 Bluetooth TBD * The power consumption is based on Azurewave test environment, these data for reference only. 29 FORM NO.
4. Mechanical Information 4.1 Mechanical Drawing 30 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
5. Packaging Information 1. One Tape reel = 1 Box = 750 pcs Carton = 3 Boxes = 2,250 pcs 2. One production label is pasted on the reel, one desiccant and one humidity indicator card are put on the reel One desiccant One production label One humidity indicator card 3. One reel is put into the anti-static moisture barrier bag, and then one label is pasted on the bag One production label 4. A bag is put into the anti-static pink bubble wrap 31 FORM NO.
One anti-static pink bubble wrap 5. A bubble wrap is put into the inner box and then one label is pasted on the inner box One production label 生產標籤 Production label 6. 3 inner boxes could be put into one carton Production label 7. Sealing the carton by tape 32 FORM NO.
8. One carton label and one box label are pasted on the carton. If one carton is not full, one balance label pasted on the carton One carton label One production label One box label 33 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
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.
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. 35 FORM NO.: FR2-015_ A Responsible Department:WBU Expiry Date: Forever The information contained herein is the exclusive property of AzureWave and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of AzureWave.
This module is intended for OEM integrators only. Per FCC KDB 996369 D03 OEM Manual v01 guidance, the following conditions must be strictly followed when using this certified module: KDB 996369 D03 OEM Manual v01 rule sections: 2.2 List of applicable FCC rules This module has been tested for compliance to FCC Part 15 2.3 Summarize the specific operational use conditions The module is tested for standalone mobile RF exposure use condition.
This transmitter is tested in a standalone mobile RF exposure condition and any co-located or simultaneous transmission with other transmitter(s) or portable use will require a separate class II permissive change re-evaluation or new certification. 2.10 Additional testing, Part 15 Subpart B disclaimer This transmitter module is tested as a subsystem and its certification does not cover the FCC Part 15 Subpart B (unintentional radiator) rule requirement applicable to the final host.
Industry Canada statement: This device complies with ISED’s licence-exempt RSSs. 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. Le présent appareil est conforme aux CNR d’ ISED applicables aux appareils radio exempts de licence.
This device is intended only for OEM integrators under the following conditions: (For module device use) 1) The antenna must be installed and operated with greater than 20cm 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.
IMPORTANT NOTE: In the event that these conditions can not be met (for example certain laptop configurations or colocation with another transmitter), then the Canada authorization is no longer considered valid and the IC ID can not 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 Canada authorization.
(ii) for devices with detachable antenna(s), the maximum antenna gain permitted for devices in the bands 5250-5350 MHz and 5470-5725 MHz shall be such that the equipment still complies with the e.i.r.p. limit; (iii) for devices with detachable antenna(s), the maximum antenna gain permitted for devices in the band 5725-5850 MHz shall be such that the equipment still complies with the e.i.r.p.
