PAN9026 PAN9026 Wi-Fi Dual Band 2.4 GHz and 5 GHz and Bluetooth Module Product Specification Rev. 1.2 Wireless Modules PAN9026 Wi-Fi/Bluetooth Module * * Overview The PAN9026 is a 2.4 GHz and 5GHz ISM band Wi-Fi and Bluetooth radio module, which includes a wireless radio for easy integration of Wi-Fi and Bluetooth connectivity into various electronic devices. * * Features * Dual band 2.4 GHz and 5GHz 802.11a/b/g/n * * * * * * Coexistence interface for arbitration of colocated WLAN, Bluetooth, or Mobile Wireless System (e.g. LTE) Generic interfaces include SDIO 3.0 and high-speed UART for host processor connection Software Linux driver Characteristics * Surface Mount Type (SMT) Wi-Fi/Bluetooth combined module * Power management with sleep clock 17.5mm x 10.0mm x 2.6mm Supports 802.11i security standards through AES, CCMP, and more security mechanisms * 802.11e Quality of Service is supported for multimedia applications * * IEEE 802.11n-compliant, 1x1 spatial stream with data rates up to MCS7 150Mbps * Bluetooth 5.0, includes Low Energy (LE) * * * Dual simultaneous and independent WLAN and Bluetooth operation Dynamic Rapid Channel Switching (DRCS) for simultaneous operation in 2.4GHz and 5GHz bands * * Indoor location and navigation with IEEE 802.11mc (R) Marvell 88W8977 WLAN 2.4 GHz and 5GHz and Bluetooth single-chip solution inside TX Power 16dBm @ 802.11b RX Sensitivity -98dBm @ 802.11b DSSS 1Mbps IEEE 802.11n 20MHz and 40MHz channel bandwidth Long and Short Guard Interval support Power supply 3.3V, 2.2V, 1.8V Current consumption Wi-Fi typical 400mA @ TX and 70mA @ RX SDIO 1-bit or 4-bit Wide temperature range of -30C to 85C Block Diagram VIO 1.8 V VDD 2.2 V Crystal 26 MHz VDD 1.8 V Crystal 32.768 kHz PAN9026 Wi-Fi & Bluetooth Radio Module IEEE 802.11 a/b/g/n Bluetooth 5.0 (BR, LE & EDR) 32 kHz DISABLE SPI GPIOs BPF PDN Chip Antenna JTAG 88W8977 Radio SoC UART Status LED's VIO SD MCU Ready DPX 50 Ohm COEX SPDT SDIO Interface Factory Reset Wake Up's PCM Interface SPDT CNTL VIO RF 3.3 V RF SW RF Pad V SPDT Product Specification Rev. 1.2 Page 2 PAN9026 Wi-Fi/Bluetooth Module By purchase of any of the products described in this document the customer accepts the document's validity and declares their agreement and understanding of its contents and recommendations. Panasonic reserves the right to make changes as required at any time without notification. Please consult the most recently issued Product Specification before initiating or completing a design. (c) Panasonic Industrial Devices Europe GmbH 2019. This specification sheet is copyrighted. Reproduction of this document is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Do not disclose it to a third party. All rights reserved. This Product Description does not lodge the claim to be complete and free of mistakes. Engineering Samples (ES) If Engineering Samples are delivered to the customer, these samples have the status "Engineering Samples". This means that the design of this product is not yet concluded. Engineering Samples may be partially or fully functional, and they may differ from the published Product Specification. Engineering Samples are not qualified and they are not to be used for reliability testing or series production. Disclaimer The customer acknowledges that samples may deviate from the Product Specification and may bear defects due to their status of development and the lack of qualification mentioned above. Panasonic rejects any liability or product warranty for Engineering Samples. In particular, Panasonic disclaims liability for damages caused by: The use of the Engineering Sample other than for evaluation purposes, particularly the installation or integration in another product to be sold by the customer, Deviation or lapse in function of the Engineering Sample, Improper use of the Engineering Sample. Panasonic Industrial Devices Europe GmbH disclaims any liability for consequential and incidental damages. In case of any queries regarding the Engineering Samples, please contact your local sales partner or the related product manager. Product Specification Rev. 1.2 Page 3 PAN9026 Wi-Fi/Bluetooth Module Table of Contents 1 2 3 4 5 6 About This Document......................................................................................................................... 6 1.1 Purpose and Audience .............................................................................................................. 6 1.2 Revision History ......................................................................................................................... 6 1.3 Use of Symbols ......................................................................................................................... 7 1.4 Related Documents ................................................................................................................... 7 Overview .............................................................................................................................................. 8 2.1 Block Diagram ........................................................................................................................... 9 2.2 Pin Configuration ..................................................................................................................... 10 2.3 Power Management................................................................................................................. 15 2.4 Host Interfaces ........................................................................................................................ 16 2.5 Peripheral Bus Interface .......................................................................................................... 17 2.6 PCM Interface .......................................................................................................................... 17 2.7 Coexistence ............................................................................................................................. 18 2.8 WLAN ...................................................................................................................................... 29 2.9 Bluetooth ................................................................................................................................. 37 Detailed Description ......................................................................................................................... 39 3.1 Dimensions .............................................................................................................................. 39 3.2 Footprint .................................................................................................................................. 40 3.3 Packaging ................................................................................................................................ 41 3.4 Case Marking .......................................................................................................................... 44 Specification ..................................................................................................................................... 45 4.1 Default Test Conditions ........................................................................................................... 45 4.2 Absolute Maximum Ratings ..................................................................................................... 46 4.3 Recommended Operating Conditions ...................................................................................... 47 4.4 RF Electrical Characteristics .................................................................................................... 65 4.5 Reliability Tests ....................................................................................................................... 75 4.6 Recommended Soldering Profile ............................................................................................. 76 Cautions ............................................................................................................................................ 77 5.1 Design Notes ........................................................................................................................... 77 5.2 Installation Notes ..................................................................................................................... 77 5.3 Usage Condition Notes ............................................................................................................ 78 5.4 Storage Notes .......................................................................................................................... 78 5.5 Safety Cautions ....................................................................................................................... 79 5.6 Other Cautions ........................................................................................................................ 79 5.7 Restricted Use ......................................................................................................................... 80 Regulatory and Certification Information ....................................................................................... 81 6.1 Federal Communications Commission (FCC) for US .............................................................. 81 6.2 Innovation, Science, and Economic Development (ISED) for Canada .................................... 85 6.3 European Conformity According to RED (2014/53/EU) ........................................................... 94 6.4 Bluetooth Qualification ............................................................................................................. 97 6.5 RoHS And REACH Declaration ............................................................................................... 97 Product Specification Rev. 1.2 Page 4 7 PAN9026 Wi-Fi/Bluetooth Module Appendix ........................................................................................................................................... 98 7.1 Ordering Information ................................................................................................................ 98 7.2 Contact Details ........................................................................................................................ 99 Product Specification Rev. 1.2 Page 5 PAN9026 Wi-Fi/Bluetooth Module 1 About This Document 1 About This Document 1.1 Purpose and Audience This Product Specification provides details on the functional, operational, and electrical characteristics of the Panasonic PAN9026 modules. It is intended for hardware design, application, and Original Equipment Manufacturers (OEM) engineers. The product is referred to as "the PAN9026" or "the module" within this document. 1.2 Revision History Revision Date Modifications/Remarks 1.0 2017-12-20 Changed to Bluetooth 5.0. Changed PM in chapter "Power Configuration Example with 3.3V Host Operation". Included values in chapter "Current Consumption" and chapter "RF Characteristics". Removed chapter "TDM Interface". Additional models in chapter "Ordering Information". Added section in chapter "Acronyms and Abbreviations". 1.1 2018-07-03 Renamed section in chapter "Restricted Use". Moved section in chapter "Life Support Policy". Added section in chapter "Restricted End Use". Added additional models "Ordering Information". 1.2 2019-06-24 Changed Block Diagram in chapter "Power Configuration Example with 3.3V Host Operation". Added Table in chapter "Channel Tables based on Regulatory Domain/Country". Changed Storage Temperature in chapter "Absolute Maximum Ratings". Changed Power-Up in chapter "Power-up Sequence". Restructure and update chapter "Cautions". Added section in chapter "Regulatory and Certification Information". Added additional models in chapter "Ordering Information". Formal and structure changes. Product Specification Rev. 1.2 Page 6 PAN9026 Wi-Fi/Bluetooth Module 1 About This Document 1.3 Use of Symbols Symbol Description Note Indicates important information for the proper use of the product. Non-observance can lead to errors. Attention Indicates important notes that, if not observed, can put the product's functionality at risk. [chapter number] [chapter title] Cross reference Indicates cross references within the document. Example: Description of the symbols used in this document 1.3 Use of Symbols. 1.4 Related Documents Please refer to the Panasonic website for related documents 7.2.2 Product Information. Product Specification Rev. 1.2 Page 7 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2 Overview The PAN9026 is a dual band 2.4 GHz and 5GHz 802.11a/b/g/n Wi-Fi radio module with integrated Bluetooth BR/EDR/LE, specifically designed for highly integrated and cost-effective applications. The simultaneous and independent operation of the two standards enables high data rates (802.11n) and low-power operation (Bluetooth Low Energy). Integrated power management, a fast dual-core CPU, 802.11i security standard support, and high-speed data interfaces deliver the performance for the speed, reliability, and quality requirements of next generation products. TX power calibration data and Wi-Fi/Bluetooth system parameters are pre-stored on the one-time-programmable memory of the PAN9026 during production at Panasonic. This simplifies passing the certification process for PAN9026 customers. Furthermore, the module reduces design, test, and calibration effort resulting in reduced time-to-market compared to discrete solutions. Integrating Wi-Fi and Bluetooth wireless connectivity allows applications such as Smart Energy and home gateways to manage multiple devices and appliances. The combination of Wi-Fi and Bluetooth provides the highest flexibility for connectivity. Please refer to the Panasonic website for related documents 7.2.2 Product Information. Further information on the variants and versions 7.1 Ordering Information. Product Specification Rev. 1.2 Page 8 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.1 Block Diagram VIO 1.8 V VDD 2.2 V Crystal 26 MHz VDD 1.8 V Crystal 32.768 kHz PAN9026 Wi-Fi & Bluetooth Radio Module IEEE 802.11 a/b/g/n Bluetooth 5.0 (BR, LE & EDR) 32 kHz DISABLE SPI GPIOs BPF PDN Chip Antenna JTAG 88W8977 Radio SoC UART Status LED's VIO SD MCU Ready DPX 50 Ohm COEX SPDT SDIO Interface Factory Reset Wake Up's PCM Interface SPDT CNTL VIO RF 3.3 V RF SW RF Pad V SPDT Product Specification Rev. 1.2 Page 9 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.2 Pin Configuration Pin Assignment G1 G2 G3 G4 G5 G6 G7 G8 G9 F1 F2 F3 F4 F5 F6 F7 F8 F9 E1 E2 E3 E4 D1 D2 D3 D4 C1 C2 C3 C4 B1 B2 B3 B4 B5 B6 B7 B8 B9 A1 A2 A3 A4 A5 A6 A7 A8 A9 E9 EP1 EP2 D9 Ground plane keep out area C9 Chip Antenna 10,00 mm Top View 17,50 mm Pin Functions No. Pin Name Pin Type Description A1 1 PCM_DOUT Output signal PCM data output signal IO5 Digital I/O General Purpose IO: GPIO[5] A2 32KHZ_IN NC Do not connect A3 PDN Input signal Power down (active-low) is derived from VDD1V8, can accept an input signal of 1.8V to 3.6V (external pull-up resistor), it can be driven by the host and must be high for normal operation. A4 VDD1V8 Power 1.7V to 1.9V (typ. 1.8V) power supply connection A5 VDD1V8 Power 1.7V to 1.9V (typ. 1.8V) power supply connection A6 VDD2V2 Power 2.1V to 2.3V (typ. 2.2V) power supply connection A7 RF_SW1 Input signal RF Switch Pin 1: logical voltage level to activate on-board antenna or RF Pad RF-Switch Pins Function A8 GND Ground pin Connect to ground A9 RF_OUT RF port 50 bottom pad to be activated by RF_SW1/RF_SW2 control voltage RF-Switch Pins Function 1 Multi-purpose pins: After the firmware download, the pins (GPIO, Serial Interface, RF control) are programmed in functional mode with dedicated functionality. Product Specification Rev. 1.2 Page 10 PAN9026 Wi-Fi/Bluetooth Module 2 Overview No. Pin Name Pin Type Description B1 1 PCM_CLK Input/output PCM clock signal, output if PCM master, input if PCM slave IO6 Digital I/O General Purpose IO: GPIO[6] PCM_DIN Input signal PCM data input signal IO4 Digital I/O General Purpose IO: GPIO[4] PCM_SYNC 2 Input/output PCM Sync Pulse signal, output if PCM master, input if PCM slave IO7 3 Digital I/O General Purpose IO: GPIO[7] B4 32KHZ_EN Input Signal If using VIO 3.3V disable the internal 32.768kHz crystal oscillator (100 to GND) to use the SoC reference clock with lower accuracy B5 VDD2V2 Power 2.1V to 2.3V (typ. 2.2V) power supply connection B6 VDD2V2 Power 2.1V to 2.3V (typ. 2.2V) power supply connection B7 RF_SW2 Input signal RF Switch Pin 2: logical voltage level to activate on-board antenna or RF Pad RF-Switch Pins Function B8 GND Ground pin Connect to ground B9 GND Ground pin Connect to ground C1 IO2 Digital I/O General Purpose IO: GPIO[2] DVSC[0] Output signal Digital voltage scaling control for PMIC (VOUT 2.2V) 2.3.1 Power Configuration Example with 3.3V Host Operation IO3 Digital I/O General Purpose IO: GPIO[3] DVSC[1] Output signal Digital voltage scaling control for PMIC (VOUT 1.05V) (not used) C3 IO1 Digital I/O General Purpose IO: GPIO[1] C4 COEX_SIN Input signal Serial data input from MWS modem or peripheral device C9 GND Ground pin Connect to ground D1 IO15 Digital I/O General Purpose IO: GPIO[15] D2 IO14 Digital I/O General Purpose IO: GPIO[14] D3 DNC_E3 NC Do not connect D4 COEX_SOUT Output signal Serial data output to MWS modem or peripheral device D9 GND Ground pin Connect to ground E1 SD_CLK Digital I/O For SDIO specific terminals SDIO Pins Function E2 SD_CMD Digital I/O For SDIO specific terminals SDIO Pins Function E3 IO0 Digital I/O General Purpose IO: GPIO[0] E4 DNC_E4 NC Do not connect B2 1 B3 1 C2 2 PCM Mode: After enabling the mode by host command, the pin is used as PCM Audio Interface. 3 GPIO Mode: After enabling the mode by host command, the pin is used as Multi-Purpose Interface. Product Specification Rev. 1.2 Page 11 PAN9026 Wi-Fi/Bluetooth Module 2 Overview No. Pin Name Pin Type Description E9 GND Ground pin Connect to ground F1 SD_DAT0 Digital I/O For SDIO specific terminals SDIO Pins Function F2 SD_DAT1 Digital I/O For SDIO specific terminals SDIO Pins Function F3 1 UART_SOUT 4 Output Signal Serial data output to peripheral device Digital I/O General Purpose IO: GPIO[8] BT_FREQ 5 Input Signal Information Bluetooth using channel which overlaps WLAN channel or not UART_SIN 4 Input signal Serial data input to peripheral device Digital I/O General Purpose IO: GPIO[9] BT_STATE 5 Input signal Information BT_REQ priority (1-bit or 2-bit) and direction Bluetooth RX/TX UART_RTS 4 Output signal Request-to-Send output to peripheral device Digital I/O General Purpose IO: GPIO[11] BT_REQ 5 Input signal Bluetooth device request access to medium F6 IO12 Digital I/O General Purpose IO: GPIO[12] F7 CNTL1 Output signal Do not connect F8 CNTL0 Input signal Keep open (DNC) if using SDIO interface for Bluetooth or connect with 100k to GND if using UART interface for Bluetooth Control Pin Function F9 GND Ground pin Connect to ground G1 SD_DAT2 Digital I/O For SDIO specific terminals SDIO Pins Function G2 SD_DAT3 Digital I/O For SDIO specific terminals SDIO Pins Function G3 VIOSD Power 1.8V or 3.3V Digital I/O SDIO power supply G4 VIO Power 1.8V or 3.3V power supply for General Purpose IO, if using VIO 3.3V disable the internal 32.768kHz crystal oscillator (Pin No. B4) G5 1 UART_CTS 4 Input signal Clear-to-send input from peripheral device IO10 3 Digital I/O General Purpose IO: GPIO[10] Output signal Indicate permission to transmit, low Bluetooth can transmit IO8 F4 1 IO9 F5 1 3 3 IO11 3 BT_GRANT 5 G6 IO13 Digital I/O General Purpose IO: GPIO[13] G7 VIORF Power 3V to 3.6V (typ. 3.3V) power supply connection G8 DNC NC Do not connect G9 GND Ground pin Connect to ground 4 UART mode: After the dedicated firmware download, the pin is used as Host Controller Interface (HCI) for Bluetooth. 5 Bluetooth External Coexistence Mode: After enabling the mode by host command, the pin is used as Bluetooth external Coexistence Interface. Product Specification Rev. 1.2 Page 12 PAN9026 Wi-Fi/Bluetooth Module 2 Overview No. Pin Name Pin Type Description EP1 EPAD1 Thermal pin Connect to ground EP2 EPAD2 Thermal pin Connect to gorund Product Specification Rev. 1.2 Page 13 PAN9026 Wi-Fi/Bluetooth Module 2 Overview SDIO Pins Function No. Pin Name Pin Type Description 4-Bit Mode 1-Bit Mode E1 SD_CLK Digital I/O Clock Clock E2 SD_CMD Digital I/O Command Line Command Line F1 SD_DAT0 Digital I/O Data Line bit [0] Data Line F2 SD_DAT1 Digital I/O Data Line bit [1] or Interrupt (optional) Interrupt G1 SD_DAT2 Digital I/O Data Line bit [2] or Read Wait (optional) Read Wait (optional) G2 SD_DAT3 Digital I/O Data Line bit [3] Not used RF-Switch Pins Function No. Pin Name Pin Type Logical Level for Activation On-Board Chip Antenna RF OUT Pin A7 RF_SW1 Input signal 3V to 3.6V (typ. 3.3V) GND (0V) B7 RF_SW2 Input signal GND (0V) 3V to 3.6V (typ. 3.3V) Control Pin Function The control pin is used as configuration input to set parameters following a reset. The definition of the pin changes immediately after a reset to its usual function. To set a configuration bit to 0 bit, a 100k resistor must be attached from the pin to ground. No external circuitry is required to set a configuration bit to 0 bit. No. Pin Name F8 CNTL0 Pin Type Input Signal Strap Value WLAN Bluetooth/ Bluetooth LE Firmware Download Number SDIO Functions Type Mode 0 SDIO UART SDIO+UART Parallel/Serial 1 (WLAN) 1 SDIO SDIO SDIO+SDIO Parallel/Serial 2 (WLAN, Bluetooth) The configuration of the control pin is used for the firmware boot option. The software reads and boots accordingly. Product Specification Rev. 1.2 Page 14 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.3 2.3.1 Power Management Power Configuration Example with 3.3V Host Operation PAN9026 VDD 3.3 V 3.3 V VIO RF 3.3 V VIO/VIO SD PMIC 2.2 V VDD 2.2 V VIN 1.8 V VDD 1.8 V VDD 3.3 V or Host GPIO Enable 3.3 V DVSC[0] 88PG823 32KHZ_EN R 100 Ohm 2.3.2 Power Configuration Example with 1.8V Host Operation VDD 1.8 V 1.8 V 1.8 V DC 3.3 V 3.3 V PAN9026 VIO/VIO SD VIO RF DC Step-up 3.3 V DC 2.2 V 2.2 V VDD 2.2 V DC Dual Step-down 2.2 V LDO 1.8 V VDD 1.8 V For further information please refer to 4.3.4 Power-up Sequence. Product Specification Rev. 1.2 Page 15 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.4 Host Interfaces The bus interface connects several host interface bus units to the CPU bus of the device through the internal bus. The connection of each unit is multiplexed with other bus units. The high-speed UART interface is connected to the CPU bus through a separate bus. Type Features High-speed UART interface The device supports a high-speed Universal Asynchronous Receiver/Transmitter (UART) interface, compliant with the industry standard 16550 specification. * * * * SDIO interface FIFO mode permanently selected for transmit and receive operations Two pins for transmit and receive operations Two flow control pins Interrupt triggers for low-power, high throughput operation The device supports an SDIO device interface that conforms to the industry standard SDIO full-speed card specification and allows a host controller using the SDIO bus protocol to access the device. * * * * * Supports SDIO 3.0 Standard 1-bit SDIO or 4-bit SDIO transfer modes with full clock range up to 100MHz On-chip memory used for CIS Special interrupt register for information exchange Allows card to interrupt host For further information please refer to 4.3.5 Host Interface. Product Specification Rev. 1.2 Page 16 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.5 Peripheral Bus Interface The Peripheral Bus Unit (PBU) connects several low speed peripherals to the internal bus of the device. The device consists of the GPIO Interface and the One Time Programmable Memory. Type General Purpose I/O (GPIO) Interface One Time Programmable Memory (OTP) Features * * * * * * User-defined GPIOs (each configured to either input or output) Each GPIO controlled independently Each I/O configurable to output bit from GPIO_OUT Storing device-specific calibration data and hardware information like MAC/BD address, WLAN, and Bluetooth parameter Programmed during production process of device Device performs calibration when it is powered up For further information please refer to 4.3.6 Peripheral Interface. 2.6 PCM Interface The device supports the PCM interface. Type PCM Interface Features * * * * Master or slave mode PCM bit width size of 8bits or 16bits Up to four slots with configurable bit width and start positions Short frame and long frame synchronization For further information please refer to 4.3.7 Audio Interface. Product Specification Rev. 1.2 Page 17 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7 Coexistence The implemented coexistence framework is based on the IEEE 802.15.2 recommended practice Packet Traffic Arbitration (PTA) scheme and the Bluetooth Special Interest Group (Bluetooth SIG) Core Specification Volume 7 (Wireless Coexistence Volume). 2.7.1 WLAN/Bluetooth Channel Information Exchange Since Bluetooth and IEEE 802.11b/g/n WLAN use the same 2.4GHz frequency band, each can cause interference with another. The level of interference depends on the respective frequency channel used by Bluetooth and WLAN (other factors can impact interference, like Tx power and Rx sensitivity of the device). In a system with both Bluetooth and WLAN, the common host receives information about WLAN channel usage and passes the information to the Bluetooth device. For Bluetooth 1.2 devices with Adaptive Frequency Hopping (AFH) enabled, the Bluetooth device can block channel usage that overlaps the WLAN channel in use. When the Bluetooth device avoids all channels used by the WLAN, the impact of interference is reduced, but not completely eliminated. For Bluetooth 1.1 devices, the Bluetooth device cannot block WLAN channel usage. In this case, a Bluetooth Coexistence Arbiter (BCA) scheme at MAC level is required. The BCA scheme can also be used with Bluetooth 1.2 devices to further reduce the impact of interference to a minimum. 2.7.2 External Mobile Wireless System (LTE/ZigBee(R)) and BCA Exchange Based on the Bluetooth SIG Wireless Coexistence Volume, the device supports a Wireless Coexistence Interface 2 (WCI-2) protocol for WLAN and Bluetooth coexistence with an external Mobile Wireless System (MWS), such as a Long Term Evolution (LTE) or ZigBee device. WCI-2 is a 2-wire transport interface. An internal coexistence is used to exchange request/grant with the BCA. Product Specification Rev. 1.2 Page 18 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7.3 System Configuration External MWS Device RF Front End BCA BT CTL WLAN MAC BCA WLAN CTL Bluetooth BCA COEX SIN MWS to BCA COEX SOUT BCA to MWS External LTE Device 88W8977 Radio SoC Host External BCA Device BT REQ BT STATE BCA BCA WLAN CTL WLAN MAC BT FREQ BT GRANTn 88W8977 Radio SoC Product Specification Rev. 1.2 External BCA Device Page 19 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7.4 WCI-2 Interface The coexistence interface includes a Mobile Wireless System (MWS) transport controller to accommodate a 2-wire, UART-based serial transport interface. This interface is a standard full-duplex UART (TXD and RXD) carrying logical signals framed as UART characters. In addition, it allows support of multiple logical channels. Interface Signals Pin No. Signal Name Specification Name Pin Type Description C4 COEX_SIN RXD Input Serial data from external MWS device D4 COEX_SOUT TXD Output Serial data to external MWS device Signal Waveform Format The messaging is based on a standard UART format. The UART signals should be connected like a null-modem. For example, the local TXD connected to the remote RXD and vice versa. Interface Transport Settings Item Range Baudrate Comment 921600 to 4000000 Baud Data Bits 8 LSB first Parity Bits 0 No parity Stop Bit 1 One stop bit Flow Control No No flow control Supported Baud Rates Baud 921600 Product Specification Rev. 1.2 2000000 3000000 4000000 Page 20 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Real-Time Signaling Message The real-time signaling message is used to transport real-time signals over the 2-wire transport interface. The real-time signaling message conveys the real-time signals (Bluetooth Core Specification, Volume 7, Part A) in one message. The time reference point for the real-time signaling message is the end of message bit 5 (transition to stop bit). Defined real-time signaling messages include: * * Coexistence Controller to MWS device MWS device to Coexistence Controller Real-Time Signaling MSG[0] MSG[1] MSG[2] MSG[3] MSG[4] MWS to Coexistence Controller (Signal) FRAME_SYNC MWS_RX MWS_TX PATTERN[0] PATTERN[1] Coexistence Controller to MWS (Message) BT_RX_PRI BT_TX_ON 802_RX_PRI 802_TX_ON RFU Signal Name FRAME_SYNC MWS_RX MWS_TX PATTERN[1,0] BT_RX_PRI BT_TX_ON 802_RX_PRI 802_TX_ON MWS_INACTIVITY_DURATION MWS_SCAN_FREQUENCY_OFFSET Product Specification Rev. 1.2 Page 21 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Transport Control Message The transport control messages can modify the state and request state information of the MWS coexistence interface. Message MSG[0] MSG[1] MSG[2] MSG[3] MSG[4] Transport Control Message RESEND_REA L_TIME RFU RFU RFU RFU Signal Name Description RESEND_REAL_TIME This bit is set if a device wants to get a status update of the real-time signals. The signal is usually used after wake-up from sleep of the transport interface to get an update of the real-time signals. If the receiving device's transport interface is awake it shall send a real-time message with the current status of the real-time signals within four UART character period. If the signal is not transmitted within four UART character periods, the device is considered asleep. If the receiving device's transport interface is not awake it shall not send a real-time message. Bluetooth initiated: If the MWS is currently scanning or has an ongoing inactivity duration, the MWS shall send a frequency scan message or an inactivity duration message after transmitting the real-time message. If the receiving device's transport interface is not awake it shall not send a frequency scan or inactivity duration message. Transparent Data Message The transport control messages can modify the state and request state information of the MWS coexistence interface. Message MSG[0] MSG[1] Transparent Data Message NIBBLE_POS DATA[0]/ ITION DATA[4] Signal Name Description NIBBLE_POSITION 0 = least significant nibble MSG[2] MSG[3] MSG[4] DATA[1]/ DATA[5] DATA[2]/ DATA[6] DATA[3]/ DATA[7] 1 = most significant nibble DATA[n]; n=0 ... 7 Product Specification Rev. 1.2 Data bits of the message octet Page 22 PAN9026 Wi-Fi/Bluetooth Module 2 Overview MWS Inactivity Duration Message The inactivity duration messages is used to send the signal MWS_INACTIVITY_DURATION from the MWS device to the Coexistence Controller. Message MSG[0] MSG[1] MSG[2] MSG[3] MSG[4] MWS Inactivity Duration Message DURATION[0] DURATION[1] DURATION[2] DURATION[3] DURATION[4] The idle duration is encoded in 5bits given by the formula: Inactivity_Duration = DURATION * 5ms Inactivity durarations smaller than 5ms are not communicated. If all bits are set to 1 the inactivity duration is infinite. If all bits are set to 0, signal MWS_RX, or signal MWS_TX are set to 1, the inactivity period ends. MWS Scan Frequency Offset Message The MWS scan frequency offset message is used to send the signal MWS_SCAN_FREQUENCY_ OFFSET from the MWS device to the Coexistence Controller. Message MSG[0] MSG[1] MSG[2] MSG[3] MSG[4] MWS Scan Frequency Offset BAND FREQ[0] FREQ [1] FREQ [2] FREQ [3] The RF scan frequency is encoded in 5bits given by the formula: RF_FREQ_OFFSET = FREQ * 10MHz If BAND is set to o the signal RF_FREQ_OFFSET is the negative value from the lower edge of the ISM band. If BAND is set to 1, signal RF_FREQ_OFFSET is the positive value from the top edge of the ISM band. FREQ set to all 0 indicates the end of the scan period. Product Specification Rev. 1.2 Page 23 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7.5 Bluetooth Coexistence Arbiter Type Features Capability * * * * * * Arbitration * * * AFH Programmable coexistence interface timing, interface modes, and signal polarity to support a variety of external Bluetooth devices Programmable decision policies and transaction lock behavior for various use cases Interface with external or on-chip Bluetooth device Supports Bluetooth 1.1 or Bluetooth 1.2 AFH WLAN-coordinated/Bluetooth-coordinated low-power design Enhanced information sharing between WLAN and Bluetooth for combined systems WLAN/Bluetooth/MWS (LTE/ZigBee) coexistence support Contention resolved by a customizable decision matrix that allows independent grant decision for each device Vectors for the decision matrix: WLAN priority (2-bit) WLAN direction Bluetooth priority (1-bit or 2-bit) Bluetooth direction Bluetooth frequency in/out band MWS priority (2-bit) MWS direction If AFH is enabled in the Bluetooth device, and there is a sufficient guard-band outside the WLAN operating frequency, the Bluetooth device uses the Out-Of-Band (OOB) channel with respect to the WLAN device. Otherwise, the Bluetooth device uses the In-Band (IB) and OOB channels with respect to the WLAN device. The IB and OOB information is either provided by the Bluetooth device through the coexistence interface, or it can be provided through firmware controls in a shared-host system. IB/OOB is a vector in the decision matrix. Product Specification Rev. 1.2 Page 24 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Type Features Decision Policies System configuration is a major consideration when planning decision policies. The configuration governs how RF paths are shared and how much interference will occur. Interference combinations include: WLAN TX and Bluetooth TX WLAN TX and Bluetooth RX WLAN RX and Bluetooth TX WLAN RX and Bluetooth RX Interference combinations where WLAN and Bluetooth share the same antenna: WLAN TX and Bluetooth TX share the same antenna, the decision matrix allows either WLAN or Bluetooth TX (both OOB and IB), based on relative packet priorities. WLAN TX and Bluetooth RX (both OOB and IB) have sizable interference impacts on Bluetooth RX, the decision matrix grants or denies WLAN TX based on relative packet priorities. WLAN RX and Bluetooth TX (both OOB and IB) have sizable interference impacts on WLAN RX, the decision matrix grants or denies Bluetooth TX based on relative packet priorities. WLAN RX and Bluetooth RX (both OOB and IB) have no impact on each other, the decision matrix grants both. Interference combinations where WLAN and Bluetooth have their own antenna: WLAN TX and Bluetooth TX in OOB situation have little interference impact on each other, the decision matrix grants both. WLAN TX and Bluetooth TX in IB have sizable interference impact on each other, the decision matrix allows either WLAN or Bluetooth TX, based on relative packet priorities. WLAN TX and Bluetooth RX in OOB situation have little interference impact on each other, the decision matrix grants both provided there is enough antenna isolation between WLAN and Bluetooth antenna. WLAN TX and Bluetooth RX in IB situation have sizable interference impact on Bluetooth RX, the decision matrix grants or denies WLAN TX based on relative packet priorities. WLAN RX and Bluetooth TX in OOB situation have little interference impact on each other, the decision matrix grants both provided there is enough antenna isolation between WLAN and Bluetooth antenna. WLAN RX and Bluetooth TX in IB situation have sizable interference impact on WLAN RX, the decision matrix grants or denies Bluetooth TX based on relative packet priorities. WLAN RX and Bluetooth RX (both OOB and IB) have no impact on each other, the decision matrix grants both. For the devices running in a basic shared antenna configuration, the linear switching imposes restrictions on simultaneous transfer. Reasonable policies include: WLAN and Bluetooth are never granted at the same time Decision matrix grants a device based on relative packet priorities and direction Priority order: High > Medium High > Medium > Low For equal priority contention, select one device to win, that optimizes the usage case For the devices running in an enhanced shared antenna configuration, the linear switching imposes restrictions on some simultaneous transfers. Product Specification Rev. 1.2 Page 25 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7.6 Type Features Transaction Stopping The arbiter allows control of what transfers can be stopped after an initial grant. If allowed, a transaction can be stopped for higher priority request. A transaction stop decision is a function of the decision policies and transaction stopping control. The transaction stopping control is configurable per device and direction. Bluetooth Capability Type Features Request Schemes The PTA signals are directly controlled by the hardware to meet timing requirements of the Bluetooth radio. The software controls the type of traffic in priority mode. Mechanism enforced for control include: * * * * Timing Control 2.7.7 Selection of certain types of communication always treated as high priority Selection of individual frames marked with high priority Real-time signaling of the next slot marked with high priority Automatic hardware control, based on the grant/denial history of the Bluetooth link The signal timing scheme PTA is fully programmable relative to the Bluetooth packet timing. WLAN Capability Type Features Capability The WLAN device technology uses an internal coexistence interface to exchange request/grant with the BCA. * * * * Packet Classification Queue Classification * * * * * * Product Specification Rev. 1.2 Packet-based request signaling with direction and priority information 1-bit or 2-bit priority signaling to support four priority levels Multiple WLAN RX request trigger sources, including early prediction WLAN TX request cancellation and abort if grant denied or revoked in middle of request 802.11n A-MPDU treated as single packet Programmable mask allows each frame type to be mapped to a priority Default setting puts response frames (ACK), beacons, and QoS frames as high priority WLAN TX and RX have separate priority mask Programmable mask allows each transmit queue to be mapped to a priority Queue-based mapping is optional for software-generated frames only Page 26 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7.8 LTE (MWS) Capability The device supports a Bluetooth SIG WCI-2 MWS coexistence signaling interface. The coexistence logical signaling is designed to enable a standard interface to allow an MWS device and a Coexistence Controller to exchange information and support cooperative coexistence. The WCI-2 signals carry time-critical information such as the start point of an MWS frame. The logical coexistence signaling architecture also includes transparent data messaging and vendor specific data messaging mechanism to enable passing information to and from the collocated MWS device and Coexistence Controller when long latency (tens of milliseconds) cannot be tolerated. For further information please refer to 2.7.4 WCI-2 Interface. Coexistence Signals The logical signals assist in time alignment, protecting MWS from interference and maximizing the usability of the Bluetooth radio. Time-Critical Coexistence Signals Signal Name Direction FRAME_SYNC MWS to Bluetooth BT_RX_PRI Bluetooth to MWS BT_TX_ON Bluetooth to MWS 802_RX_PRI Bluetooth to MWS 802_TX_ON Bluetooth to MWS MWS_PATTERN MWS to Bluetooth MWS_RX MWS to Bluetooth MWS_TX MWS to Bluetooth MWS_INACTIVITY_DURATION MWS to Bluetooth MWS_SCAN_FREQUENCY_OFFSET MWS to Bluetooth MWS_TX_PRIL (MWS TX Priority Level) MWS to Bluetooth MWS_RX_PRIL (MWS RX Priority Level) MWS to Bluetooth Product Specification Rev. 1.2 Page 27 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.7.9 ZigBee (MWS) Coexistence Capability ZigBee is based on the IEEE 802.15.4 standard and it is used by a suite of communication protocols to create Personal Area Networks (PANs) supporting home automation, lighting control, etc. ZigBee radios operate in the 2.4 GHz ISM band worldwide. Unlike Bluetooth, the ZigBee specification does not use AFH. When coexisting with WLAN/Bluetooth in the 2.4 GHz band, it is important to avoid co-channel (IB) operation of these radios. The device re-uses the MWS coexistence interface to support ZigBee coexistence. The coexistence logical signaling is used to allow a ZigBee device and a WLAN/Bluetooth combined device to exchange information and support cooperative coexistence. Coexistence Signals The logical signals used for ZigBee and WLAN/Bluetooth coexistence are a subset of the LTE coexistence signaling. Considering the lower data rate of ZigBee packets, a lower baud rate may be chosen for the 2-wire UART physical interface. The BCA supports 3-way arbitration among ZigBee/WLAN/Bluetooth requests. Coexistence Signals Signal Name Direction MWS_RX MWS to Bluetooth MWS_TX MWS to Bluetooth MWS_PATTERN MWS to Bluetooth MWS_RX_PRI MWS to Bluetooth MWS_TX_PRI MWS to Bluetooth 802_RX_PRI Bluetooth to MWS 802_TX_ON Bluetooth to MWS BT_RX_PRI Bluetooth to MWS BT_TX_ON Bluetooth to MWS Product Specification Rev. 1.2 Page 28 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.8 WLAN Type IEEE 802.11/ Standards WLAN MAC Features * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Product Specification Rev. 1.2 802.11 data rates 1 and 2Mbps (DSSS) 802.11b data rates 5.5 and 11Mbps (CCK) 802.11a/g data rates 6, 9, 12, 18, 24, 36, 48, and 54Mbps (OFDM) 802.11b/g performance enhancements 802.11n with maximum data rates up to 72Mbps (20MHz channel) and 150Mbps (40MHz channel) 802.11e quality of service (QoS) 802.11h transmit power control 802.11h DFS radar pulse detection 802.11i enhanced security (WEP, WPA, WPA2) 802.11k radio resource measurement 802.11mc precise indoor location and navigation 802.11n block acknowledgment extension 802.11r fast hand-off for AP roaming 802.11u Hotspot 2.0 (STA mode only) 802.11v TIM frame transmission/reception 802.11w protected management frames Support clients (stations) implementing IEEE Power Save mode Frame exchange at the MAC level to deliver data Received frame filtering and validation (CRC) Generation of MAC header and trailer information (MPDUs) Fragmentation of data frames (MSDUs) Access mechanism support for fair access to shared wireless medium through: Distributed Coordination Function (DCF) Enhanced Distributed Channel Access (EDCA) A-MPDU aggregation/de-aggregation 20 MHz and 40MHz channel coexistence RIFS burst receive Management information base Radio resource measurement Quality of service Block acknowledgement Dynamic frequency selection TIM frame TX and RX Multiple BSS/Station Transmit rate adaption Transmit power control Page 29 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Type WLAN Baseband Features * * * * * * * * * WLAN Radio * * * * * * * WLAN Encryption * * * * * * * Product Specification Rev. 1.2 802.11n 1x1 SISO (WLAN SoC with SISO RF radio) Backward compatibility with legacy 802.11a/b/g technology WLAN/Bluetooth LNA sharing PHY data rates up to 150Mbps 20MHz bandwidth/channel, 40MHz bandwidth/channel, upper/lower 20MHz bandwidth in 40MHz channel, and 20MHz duplicate legacy bandwidth in 40MHz channel mode operation Modulation and Coding Scheme MCS 0~7 and MCS 32 (duplicate 6Mbps) Dynamic frequency selection (radar detection) - Enhanced radar detection for short and long pulse radar - Enhanced AGC scheme for DFS channel - Japan DFS requirement for W53 and W56 802.11k Radio resource measurement 802.11n optional features: 20MHz and 40MHz coexistence Space-Time-Block-Coding (STBC) one spatial stream reception and transmission Short Guard Interval for both 20MHz and 40MHz operation (TX/RX) RIFS on receive path Beamformer function and hardware acceleration Greenfield TX/RX 802.11mc locationing Power save features Integrated direct-conversion radio 20MHz and 40MHz channel bandwidth Shared WLAN/Bluetooth receive input scheme for 2.4GHz band RX Path On-chip gain selectable LNA with optimized noise figure and power consumpttion High dynamic range AGC function in receive mode TX Path Internal PA with power control Optimized TX gain distribution for linearity and noise performance Local Oscillator with fine channel step WEP 64-bit and 128-bit encryption with hardware TKIP processing (WPA) AES-CCMP hardware implementation as part of 802.11i security standard (WPA2) Enhanced AES engine performance Advanced encryption standard (AES)/Counter-Mode/CBC-MAC Protocol (CCMP) AES-Cipher-Based Message Authentication Code (CMAC) as part of the 802.11w security standard WLAN Authentication and Privacy Infrastructure (WAPI) Page 30 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Operation Modes Parameter Operation Mode Specification Standard Conformance IEEE 802.11/IEEE 802.11b IEEE 802.11a IEEE 802.11g IEEE 802.11n Modulation Physical Layer Data Rates Supported Data Rates IEEE 802.11a OFDM IEEE 802.11b DSSS/CCK IEEE 802.11g OFDM IEEE 802.11n OFDM @ MCS0~7 and MCS32 (duplicate 6Mbps) IEEE 802.11 1, 2Mbps @ DSSS IEEE 802.11b 5.5, 11Mbps @ DSSS/CCK IEEE 802.11g 6, 9, 12, 18, 24, 36, 48, 54Mbps IEEE 802.11a 6, 9, 12, 18, 24, 36, 48, 54Mbps IEEE 802.11n MCS0~7 HT20 HT40 LGI 6.5, 13, 19.5, 26, 39, 52, 58.5, 65Mbps SGI 7.2, 14.4, 21.7, 28.9, 43.3, 57.8, 65, 72.2Mbps LGI 13.5, 27, 40.5, 54, 81, 108, 121.5, 135Mbps SGI 15, 30, 45, 60, 90, 120, 135, 150Mbps Supported Bandwidth IEEE 802.11n 20, 40MHz (BW) Supported Channel Mode Operation IEEE 802.11n 20MHz BW/channel, 40MHz BW/channel, upper/lower 20MHz BW @ 40MHz channel, 20MHz duplicate legacy BW @ 40MHz channel Supported Guard Interval IEEE 802.11n 400ns (SGI), 800ns (LGI) Product Specification Rev. 1.2 Page 31 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Channels and Frequencies (without Regulatory Restrictions) 2.4 GHz IEEE 802.11b/g/n 20 MHz Channels Channel 40 MHz Channels Frequency Unit Channel Frequency Unit 1 2412 MHz 1-5 2422 MHz 2 2417 MHz 2-6 2427 MHz 3 2422 MHz 3-7 2432 MHz 4 2427 MHz 4-8 2437 MHz 5 2432 MHz 5-9 2442 MHz 6 2437 MHz 6-10 2447 MHz 7 2442 MHz 7-11 2452 MHz 8 2447 MHz 9 2452 MHz 10 2457 MHz 11 2462 MHz 12 2467 MHz 13 2472 MHz 5 GHz IEEE 802.11a/n 20 MHz Channels Channel 40 MHz Channels Frequency Unit Channel Frequency Unit 36 5180 MHz 36-40 5190 MHz 40 5200 MHz 44-48 5230 MHz 44 5220 MHz 52-56 5270 MHz 48 5240 MHz 60-64 5310 MHz 52 5260 MHz 56 5280 MHz 60 5300 MHz 64 5320 MHz 100 5500 MHz 100-104 5510 MHz 104 5520 MHz 108-112 5550 MHz 108 5540 MHz 116-120 5590 MHz 112 5560 MHz 124-128 5630 MHz 116 5580 MHz 132-136 5670 MHz 120 5600 MHz 124 5620 MHz 128 5640 MHz 132 5660 MHz 136 5680 MHz 140 5700 MHz Product Specification Rev. 1.2 Page 32 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 5 GHz IEEE 802.11a/n 20 MHz Channels Channel 40 MHz Channels Frequency Unit Channel Frequency Unit 149 5745 MHz 149-153 5755 MHz 153 5765 MHz 157-161 5795 MHz 157 5785 MHz 161 5805 MHz 165 5825 MHz 5 GHz IEEE 802.11a/n (India and additional UNII Channels) 20 MHz Channels Channel 40 MHz Channels Frequency Unit Channel Frequency Unit 144 5720 MHz 68-72 5350 MHz 1696 5845 MHz 76-80 5390 MHz 173 5865 MHz 84-88 5430 MHz 177 5885 MHz 92-96 5470 MHz 181 5905 MHz 140-144 5710 MHz 165-169 5835 MHz 7 5855 MHz 173-177 5875 MHz 169-173 6 India channels that can be used in other countries as well 7 India use only Product Specification Rev. 1.2 Page 33 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Channel Tables based on Regulatory Domain/Country MCS0 - MCS2 MCS3 - MCS4 MCS5 - MCS7 0 = disable 1 = enable Device Mode Unit DFS Passive Scan Master Client MHz 15 15 15 14 14 14 13 - - - dBm 0 0 Y Y 2 2417 MHz 16 16 16 15 15 15 14 - - - dBm 0 0 Y Y Y = Yes/N = No MCS5 - MCS7 40M MCS3 - MCS4 11n MCS0 - MCS2 20M 48M - 54M TX Power (maximum) 2412 US, EU, CA, MR US, CA, MR EU 8 Channel 40M Channel 20M Model Variant 8 11n 24M - 36M 11g Unit 1 Data Rates 6M - 18M Frequenz 802.11 Operation Mode 1M - 11M 11b 2.4 GHz IEEE 802.11b/g/n 3 1-5 2422 MHz 16 16 16 15 15 15 14 13 13 12 dBm 0 0 Y Y 4 2-6 2427 MHz 16 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 3-7 2432 MHz 16 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 6 4-8 2437 MHz 16 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 7 5-9 2442 MHz 16 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 8 6-10 2447 MHz 16 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 9 7-11 2452 MHz 16 16 16 15 15 15 14 13 13 12 dBm 0 0 Y Y 10 - 2457 MHz 16 16 16 15 15 15 14 - - - dBm 0 0 Y Y 11 - 2462 MHz 15 15 15 14 14 14 13 - - - dBm 0 0 Y Y 12 - 2467 MHz - - - - - - - - - - dBm 0 0 N N 13 - 2472 MHz - - - - - - - - - - dBm 0 0 N N 10 8-12 2457 MHz 16 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 11 9-13 2462 MHz 16 16 16 15 15 15 14 13 13 12 dBm 0 0 Y Y 12 - 2467 MHz 16 16 16 15 15 15 14 - - - dBm 0 0 Y Y 13 - 2472 MHz 15 15 15 14 14 14 13 - - - dBm 0 0 Y Y The country related module variants are using a channel table with TX Power, DFS, and Passive Scan settings, which is prestored and locked in the OTP memory of the module and cannot be changed by host driver API. Please find the model variants restricted to a particular regulatory domain at the variant table of Ordering Information. Product Specification Rev. 1.2 Page 34 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 40M MCS5 - MCS7 MCS0 - MCS2 MCS3 - MCS4 MCS5 - MCS7 0 = disable 1 = enable Device Mode Y = Yes/N = No Unit DFS Passive Scan Master Client 11n 20M MCS3 - MCS4 36 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 200 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 220 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 240 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 260 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 280 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 300 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 320 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 260 MHz - - - - - - - - - dBm - - N N 5 280 MHz - - - - - - - - - dBm - - N N 5 300 MHz - - - - - - - - - dBm - - N N 5 320 MHz - - - - - - - - - dBm - - N N 5 500 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 520 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 540 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 560 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 500 MHz - - - - - - - - - dBm - - N N 5 520 MHz - - - - - - - - - dBm - - N N 5 540 MHz - - - - - - - - - dBm - - N N 5 560 MHz - - - - - - - - - dBm - - N N 5 580 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 600 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 620 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 640 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 580 MHz 16 16 15 15 15 14 - - - dBm 1 1 Y Y 5 600 MHz - - - - - - - - - dBm - - N N 5 620 MHz - - - - - - - - - dBm - - N N 5 640 MHz - - - - - - - - - dBm - - N N TX Power (maximum) Unit Frequenz Channel 40M Channel 20M Model Variant US, EU, CA, MR 11n MCS0 - MCS2 5 180 MHz Data Rates 6M - 18M 48M - 54M 802.11 Operation Mode 24M - 36M 11a 5 GHz IEEE 802.11a/n 38 40 44 46 48 US, EU, CA 52 54 56 60 62 64 MR 52 54 56 60 62 64 US, EU, CA 100 102 104 108 110 112 MR 100 102 104 108 110 112 US, EU 116 118 120 124 126 128 CA 116 118 120 124 126 128 Product Specification Rev. 1.2 Page 35 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 40M MCS5 - MCS7 MCS0 - MCS2 MCS3 - MCS4 MCS5 - MCS7 0 = disable 1 = enable Device Mode Y = Yes/N = No Unit DFS Passive Scan Master Client 11n 20M MCS3 - MCS4 - - - - - - - - - dBm - - N N 5 600 MHz - - - - - - - - - dBm - - N N 5 620 MHz - - - - - - - - - dBm - - N N 5 640 MHz - - - - - - - - - dBm - - N N 5 660 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 680 MHz 16 16 15 15 15 14 14 14 13 dBm 1 1 Y Y 5 700 MHz 16 16 15 15 15 14 - - - dBm 1 1 Y Y 5 660 MHz - - - - - - - - - dBm - - N N 5 680 MHz - - - - - - - - - dBm - - N N 5 700 MHz - - - - - - - - - dBm - - N N 5 745 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 765 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 785 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 805 MHz 16 16 15 15 15 14 14 14 13 dBm 0 0 Y Y 5 825 MHz 16 16 15 15 15 14 - - - dBm 0 0 Y Y 5 745 MHz 10 10 9 10 10 9 9 9 8 dBm 0 0 Y Y 5 765 MHz 10 10 9 10 10 9 9 9 8 dBm 0 0 Y Y 5 785 MHz 10 10 9 10 10 9 9 9 8 dBm 0 0 Y Y 5 805 MHz 10 10 9 10 10 9 9 9 8 dBm 0 0 Y Y 5 825 MHz 10 10 9 10 10 9 - - - dBm 0 0 Y Y TX Power (maximum) Unit Frequenz Channel 20M 116 Channel 40M Model Variant MR 11n MCS0 - MCS2 5 580 MHz Data Rates 6M - 18M 48M - 54M 802.11 Operation Mode 24M - 36M 11a 5 GHz IEEE 802.11a/n 118 120 124 126 128 US, CA, EU 132 134 136 140 MR - 132 134 136 140 US, CA - 149 151 153 157 159 161 165 EU, MR - 149 151 153 157 159 161 165 - Product Specification Rev. 1.2 Page 36 PAN9026 Wi-Fi/Bluetooth Module 2 Overview 2.9 Bluetooth Type General Bluetooth Classic (BR/EDR) Features * * * * * * * * * * * * * * * * * * * * * * * * Product Specification Rev. 1.2 Supports Bluetooth 5.0 Shared Tx/Rx path for Bluetooth Digital Audio Interface including PCM interface for voice application Bluetooth and WLAN coexistence WLAN/Bluetooth Coexistence (BCA) protocol support Bluetooth Classic with Bluetooth Class 1 support Baseband and radio Basic Rate (BR) and Enhanced Data Rate (EDR) packet types with 1Mbps (GFSK), 2Mbps (/4-DQPSK) and 3Mbps (8DPSK) Fully functional Bluetooth baseband with: - Adaptive Frequency Hopping (AFH) - Forward error correction - Header error control - Access code correlation - CRC - Encryption bit stream generation - Whitening Adaptive Frequency Hopping (AFH) including Packet Loss Rate (PLR) Interlaced scan for faster connection setup Simultaneous active ACL connection support Automatic ACL packet type selection Full master slave piconet support Scatternet support Standard UART and SDIO HCI transport layer SCO/eSCO links with hardware accelerated audio signal pocessing and hardware supported PPEC algorithm for speech quality improvement All standard SCO/eSCO voice coding All standard pairing, authentication, link key, and encryption operations Standard Bluetooth power saving mechanism (i.e. hold, sniff modes, and sniff-sub rating) Enhanced Power Control (EPC) Channel Quality Driven (CQD) data rate Wideband Speech (WBS) support (1 WBS link) Encryption (AES) support LTE/MWS coexistence Page 37 PAN9026 Wi-Fi/Bluetooth Module 2 Overview Type Bluetooth Low Energy (LE) Features * * * * * * * * * * Product Specification Rev. 1.2 Broadcaster, Observer, Central, and Peripheral roles Supports link layer topology to be master and slave (connects up to 16links) Shared RF with BR/EDR Encryption AES support Hardware support for intelligent Adaptive Frequency Hopping (AFH) LE Privacy 1.2 LE Secure Connection LE Data Length Extension LE Advertising Length Extension Direction Finding, Connection-oriented Angle of Arrival (AoA) Page 38 PAN9026 Wi-Fi/Bluetooth Module 3 Detailed Description 3 Detailed Description 3.1 Dimensions All dimensions are in millimeters. ,5 0 10 2,55 17 No. Item Dimension Tolerance Remark 1 Width 10.00 0.35 2 Length 17.50 0.35 3 Height 2.55 Product Specification Rev. 1.2 0.20 with case Page 39 PAN9026 Wi-Fi/Bluetooth Module 3 Detailed Description 3.2 Footprint The outer dimensions have a tolerance of 0.35mm. Top View G1 G2 G3 1.00 mm 9,20 mm 7,80 mm 6,80 mm 6,40 mm 5,00 mm 3,60 mm 3,20 mm 2,20 mm 0,80 mm 8,80 mm 6,00 mm 2,20 mm 2,20 mm G4 G5 G6 G7 G8 G9 F5 F6 F7 F8 F9 F1 F2 F3 F4 E1 E2 E3 E4 D2 D3 D4 C2 C3 C4 B2 B3 B4 B5 B6 B7 B8 B9 A4 A5 A6 A7 A8 A9 B1 EP2 D9 Ground plane keep out area C9 0,80 mm A1 0,80 mm 2,20 mm 3,60 mm 5,00 mm 6,40 mm 7,80 mm 9,20 mm 10,60 mm 12,00 mm 12,00 mm A2 A3 8.00 mm EP1 4,80 mm 1,40 mm 1.00 mm C1 E9 Chip Antenna D1 0,80 mm 10,00 mm 0,80 mm 17,50 mm Product Specification Rev. 1.2 Page 40 PAN9026 Wi-Fi/Bluetooth Module 3 Detailed Description 3.3 Packaging The product is a mass production status product and will be delivered in the package described below. 3.3.1 Tape Dimensions T 0.30 0.03 P2 2.0 0.15(I) Do + 0.1 1.5 0.0 Po 4.0 0.15(II) E1 1.75 0.1 Y X W Bo So F(III) D1 2.0MIN X Y SECTION Y-Y A P1 0.20 0.05 Ko DETAIL A Ao Bo Ko F P1 SO W 3.3.2 Ao R0.75 SECTION X-X 10.55 +/- 0.15 18.05 +/- 0.15 3.00 +/- 0.15 14.20 +/- 0.15 20.00 +/- 0.15 28.40 +/- 0.15 32.00 +/- 0.3 Measured from centreline of sprocket hole to centreline of pocket. Cumulative tolerance of 10 sprocket holes is 0.20 . (III) Measured from centreline of sprocket hole to centreline of pocket. (IV) Other material available. ALL DIMENSIONS IN MILLIMETRES UNLESS OTHERWISE STATED. (I) (II) Packing in Tape Direction of unreeling (for customer) trailer (empty) 1 x circumference / hub (min 160mm) component packed area standard 1500pcs leader (empty) minimum 10 pitch Top cover tape more than 1 x circumference plus 100mm to avoid fixing of tape end on sealed modules. Empty spaces in the component packed area shall be less than two per reel and those spaces 100730-PAN1720.vsd shall not be consecutive. The top cover tape shall not be found on reel holes and it shall not stick out from the reel. Product Specification Rev. 1.2 Page 41 PAN9026 Wi-Fi/Bluetooth Module 3 Detailed Description 3.3.3 Component Direction 3.3.4 Reel Dimension Product Specification Rev. 1.2 Page 42 PAN9026 Wi-Fi/Bluetooth Module 3 Detailed Description 3.3.5 Package Label Example 3.3.6 (1T) Lot code (1P) Customer order number, if applicable (2P) Order number (9D) Date code (Q) Quantity (HW/SW) Hardware/software version Total Package moisture-sensitive print (already exist on barrier bag) barcode label barrier bag sealed desiccant 1) 2) moisture indicator barcode label 1) quantity of desiccant according to calculation 2) optional: desiccant placed into the corner of the barrier bag inner carton box size 340 x 340 x 41 mm Product Specification Rev. 1.2 Page 43 PAN9026 Wi-Fi/Bluetooth Module 3 Detailed Description 3.4 Case Marking Example for PAN9026 (top view) Product Specification Rev. 1.2 1 Brand name 2 Hardware/Software version 3 Engineering Sample (optional) 4 Model Name/ENW number 5 Lot code 6 Serial number 7 WLAN MAC address 8 BD address 9 Certification grant ID 10 Marking for Pin 1 11 2D barcode, for internal usage only 12 Bluetooth SIG logo Page 44 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4 Specification All specifications are over temperature and process, unless indicated otherwise. 4.1 Default Test Conditions Temperature: Humidity: Supply Voltage: Product Specification Rev. 1.2 25C 10C 40% to 85% RH VDD2V2 = 2.2V VDD1V8 = 1.8V VIORF = 3.3V VIOSD = 3.3V VIO = 1.8V Page 45 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.2 Absolute Maximum Ratings The maximum ratings may not be exceeded under any circumstances, not even momentarily or individually, as permanent damage to the module may result. Symbol Parameter TSTOR Storage Temperature VESD ESD Robustness Condition Min. Typ. Max. -40 All pads, according to human body model (HBM), JEDEC STD 22, method A114 According to charged device model (CDM), JEDEC STD 22, method C101 PRF RF Input Level VDD1V8 Maximum Voltage 85 C 1000 V 500 V 20 dBm 1.8 1.98 V 2.2 2.3 V 1.8 2.2 V 3.3 4 V 1.8 2.2 V 3.3 4 V VIORF 3.3 4 V VRF_SW1/2 3.3 4 V VDD2V2 VIOSD VIO Product Specification Rev. 1.2 Maximum power supply voltage from any pin with respect to VSS (GND) Units Page 46 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3 Recommended Operating Conditions The maximum ratings may not be exceeded under any circumstances, not even momentarily or individually, as permanent damage to the module may result. Symbol Parameter Condition Min. Typ. TA Ambient Operating Temperature Range Extended grade VDD1V8 1V8 Supply 9 Voltage VDD voltage for Baseband and CPU on pins A4, A5 1.71 VDD2V2 2V2 Supply 9 Voltage VDD voltage for VGA on pins A6, B5, B6 VIOSD Digital I/O VIOSD Supply 10 Voltage Units 85 C 1.80 1.89 V 2.09 2.20 2.26 V Pin G3 with 1.8V operation SDIO Pins Function 1.62 1.80 1.98 V Pin G3 with 3.3V operation SDIO Pins Function 2.97 3.30 3.47 V Digital I/O VIO Pin G4 with 1.8V operation Supply Pin G4 with 3.3V operation Voltage 11 Pin B4 connect to GND 1.62 1.80 1.98 V 2.97 3.30 3.47 V VIORF Digital I/O Pin G7 with 3.3V operation VIORF Supply 9 Voltage 2.97 3.30 3.47 V VRF_SW1/2 VRF_SW1/2 Switch 9 Voltage 2.97 3.30 3.60 V VIO 9 Pin A7, B7 with 3.3V logical level switch operation RF-Switch Pins Function -30 Max. The power consumption should not exceed 15Watt 10 1.8V or 3.3V supply voltage possible 11 Connect the 32KHZ_EN pin via a 100 resistor to ground to disable the internal 32.768 kHz crystal oscillator. The low power modes will then use the SoC reference clock, which has lower accuracy. Product Specification Rev. 1.2 Page 47 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.1 Digital Pin Characteristics VIO with 1.8 V Operations12 Symbol Parameter Condition Min. Typ. Max. Units VIH High Level Input Voltage 1.8V operation (VIO = 1.8V) 0.7VIO VIO +0.4 V VIL Low Level Input 1.8V operation (VIO = 1.8V) Voltage -0.4 0.3VIO V VHYS Input Hysteresis 100 VOH High Level Ouput Voltage 1.8V operation (VIO = 1.8V) VHO Low Level Output Voltage 1.8V operation (VIO = 1.8V) mV VIO -0.4 V 0.4 V VIO with 3.3 V Operations12 Symbol Parameter Condition Min. Typ. Max. Units VIH High Level Input Voltage 3.3V operation (VIO = 3.3V) 0.7VIO VIO +0.4 V VIL Low Level Input 3.3V operation (VIO = 3.3V) Voltage -0.4 0.3VIO V VHYS Input Hysteresis 100 VOH High Level Ouput Voltage 3.3V operation (VIO = 3.3V) VHO Low Level Output Voltage 3.3V operation (VIO = 3.3V) mV VIO -0.4 V 0.4 V VIOSD 1.8 V Operation for SDIO I/F12 Symbol Parameter Condition VIH High Level Input Voltage 1.8V operation (VIOSD = 1.8V) Min. Typ. 0.7VIOSD Max. Units VIOSD V +0.4 VIL Low Level Input 1.8V operation (VIOSD = 1.8V) Voltage -0.4 VHYS Input Hysteresis 100 mV VOH High Level Ouput Voltage 1.8V operation (VIOSD = 1.8V) VIOSD V Low Level Output Voltage 1.8V operation (VIOSD = 1.8V) VHO 12 0.3VIOSD V -0.4 0.4 V The capacitive load should not be larger than 50 pF for all I/Os when using the default driver strength settings. Large capacitance loads generally increase the overall current consumption. Product Specification Rev. 1.2 Page 48 PAN9026 Wi-Fi/Bluetooth Module 4 Specification VIOSD 3.3 V Operation for SDIO I/F12 Symbol Parameter Condition Min. Typ. VIH High Level Input Voltage 3.3V operation (VIOSD = 3.3V) 0.7VIO_SD Max. Units VIO_SD V +0.4 VIL Low Level Input 3.3V operation (VIOSD = 3.3V) Voltage -0.4 0.3VIO_SD V VHYS Input Hysteresis 100 mV VOH High Level Ouput Voltage 3.3V operation (VIOSD = 3.3V) VIOSD V VHO Low Level Output Voltage 3.3V operation (VIOSD = 3.3V) -0.4 0.4 V For SDIO 3.0 standard modes SDR12, SDR25, SDR50, and DDR50, a supply voltage of VIOSD = 1.8V should be used. 4.3.2 Current Consumption The current consumption depends on the user scenario, the setup and timing of the power modes. Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V, and Tamb = 25C, if nothing else stated. General Current Consumption Symbol Parameter Condition IVDD1V8 @ PDn Power Down Grounding of PDn pin Min. Typ. IVDD2V2 @ PDn IVDD1V8 @ DeepSleep IVDD2V2 @ DeepSleep IVDD1V8 @ Firmware Init IVDD2V2 @ Firmware Init WLAN/ Bluetooth Deep Sleep Low-power state used in sleep state Firmware Initialization Device Initialization Max. Units 150 A 5 A 600 A 5 A 400 mA 950 mA WLAN Current Consumption Symbol Parameter Condition IVDD1V8 @ TX Active Transmit13 PTX = +15dBm for 5GHz band 802.11a @ 54Mbps 230 mA PTX = +14dBm for 5GHz band 802.11n 20M @ MCS7 240 mA 13 Min. Typ. Max. Units Peak values for specified output power level and data rate with UDP traffic between the AP and Device (STA). Product Specification Rev. 1.2 Page 49 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Symbol IVDD2V2 @ TX Parameter Active Transmit13 Product Specification Rev. 1.2 Condition Min. Typ. Max. Units PTX = +13dBm for 5GHz band 802.11n 40M @ MCS7 250 mA PTX = +16dBm for 2.4GHz band 802.11b @ 11Mbps 175 mA PTX = +15dBm for 2.4GHz band 802.11g @ 54Mbps 180 mA PTX = +14dBm for 2.4GHz band 802.11n 20M @ MCS7 185 mA PTX = +15dBm for 5GHz band 802.11a @ 54Mbps 180 mA PTX = +14dBm for 5GHz band 802.11n 20M @ MCS7 170 mA PTX = +13dBm for 5GHz band 802.11n 40M @ MCS7 160 mA PTX = +16dBm for 2.4GHz band 802.11b @ 11Mbps 240 mA PTX = +15dBm for 2.4GHz band 802.11g @ 54Mbps 190 mA PTX = +14dBm for 2.4GHz band 802.11n 20M @ MCS7 170 mA Page 50 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Symbol Parameter Condition IVDD1V8 @ RX Active Receive14 5GHz band 802.11a @ 54Mbps 85 mA 5GHz band 802.11n 20M @ MCS7 95 mA 5GHz band 802.11n 40M @ MCS7 110 mA 2.4GHz band 802.11b @ 11Mbps 65 mA 2.4GHz band 802.11g @ 54Mbps 70 mA 2.4GHz band 802.11n 20M @ MCS7 75 mA Active Receive14 5GHz band 802.11a/n 20 A 2.4GHz band 802.11b/g/n 20 A IEEE Power Save15 DTIM = 1 with beacon interval 2 mA 20 A IVDD2V2 @ RX IVDD1V8 @ IEEE-PS IVDD2V2 @ IEEE-PS Min. Typ. 16 100ms (Average ) Max. Units Bluetooth Current Consumption Symbol Parameter Condition IVDD1V8 @ TX BT SCO HV3 Peak, PTX = +4 dBm 55 mA BT ACL DH1 Average, PTX = 0 dBm 25 mA BT ACL 3-DH5 Average, PTX = 0 dBm 35 mA LE PTX = 0 dBm 45 mA BT SCO HV3 PTX = +4 dBm 15 A BT ACL DH1 PTX = 0 dBm 15 A BT ACL 3-DH5 PTX = 0 dBm 15 A IVDD2V2 @ TX Min. Typ. Max. Units LE PTX = 0 dBm 15 A IVDD1V8 @ RX LE Peak 30 mA IVDD2V2 @ RX LE 5 A IVDD1V8 @ Page Scan BT Page Scan 2.4 mA 5 A 3.8 mA 5 A 1.5 mA 5 A 1.5 mA 5 A Peak IVDD2V2 @ Page Scan IVDD1V8 @ PI Scan IVDD2V2 @ PI Scan IVDD1V8 @ LE Advertise IVDD2V2 @ LE Advertise IVDD1V8 @ LE Scan IVDD2V2 @ LE Scan BT Page and Inquiry Scan Peak LE Advertise in 1.28s Interval Peak LE Scan with Interval 1.28 s Peak 14 Peak values for specified data rate with UDP traffic between the Device (Client) and AP (Server). The WLAN/Bluetooth combo Firmware is downloaded and Bluetooth is in Deep Sleep. 15 In IEEE Power Save the device automatically wakes up on beacons. If it is a DTIM value of 1 along with a beacon interval of 100ms, the device wakes up every 100ms. 16 The average current is averaged over one cycle which includes sleep time and wake up time. Product Specification Rev. 1.2 Page 51 PAN9026 Wi-Fi/Bluetooth Module 4 Specification RF Control Current Consumption 4.3.3 Symbol Parameter Condition Min. Typ. Max. Units IVIORF RF FE Control Controlled by Firmware 5 A IRF_SW1/2 RF Switch Pin Controlled by VRF_SW1/2 (high level) 5 A Internal Operating Frequencies Symbol Parameter fSYSCLK1 CPU1/System Refers to clock speed of SoC's /Encryption CPU1 Clock Speed 160 MHz fSYSCLK2 CPU2 Refers to clock speed of SoC's CPU2 64 MHz fREFCLK1 Crystal Fundamental Frequency Frequency tolerance < 10ppm over operating temperature and process 26 MHz fSLEEPCLK Sleep Clock Frequency Frequency tolerance < 20ppm over operating temperature, aging and process, CMOS input clock signal type 32.768 kHz Product Specification Rev. 1.2 Condition Min. Typ. Max. Units Page 52 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.4 Power-up Sequence Symbol Parameter VDD2V2 Voltage level of VIOSD 100 % VDD1V8 Voltage level of VDD2V2 90 % PDn Voltage level of VDD2V2 90 % Product Specification Rev. 1.2 Min. Typ. Max. Units Page 53 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.5 Host Interface 4.3.5.1 SDIO Interface The SDIO Interface pins are powered from the VIOSD voltage supply with either 3.3V or 1.8V. The SDIO electrical specifications are identical for the 1-bit and 4-bit SDIO modes. For the DC specification please refer to 4.3.1 Digital Pin Characteristics. SDIO Timing Data: Default and High-Speed Modes (VIOSD 3.3V)17,18 Symbol Parameter Condition fPP Clock Frequency Normal 0 25 MHz High-speed 0 50 MHz TWL Clock Low Time Min. Normal Max. Units 10 ns 7 ns 10 ns High-speed 7 ns Normal 5 ns High-speed 6 ns Normal 5 ns High-speed 2 ns High-speed TWH Typ. Normal Clock High Time TISU Input Setup Time TIH Input Hold Time TODLY TOH Output Delay Time Normal 14 ns CL 40Pf (1 Card) High-speed 14 ns Output Hold Time High-speed 2.5 17 For SDIO 2.0 running at 50MHz clock frequency, a supply voltage VIOSD of 1.8V is recommended. 18 For SDIO 2.0 running at 25MHz clock frequency, either 1.8V or 3.3V can be used. Product Specification Rev. 1.2 ns Page 54 PAN9026 Wi-Fi/Bluetooth Module 4 Specification SDIO Protocol Timing Diagram: Default Speed Mode (VIOSD 3.3V) SDIO Protocol Timing Diagram: High-Speed Mode (VIOSD 3.3V) Product Specification Rev. 1.2 Page 55 PAN9026 Wi-Fi/Bluetooth Module 4 Specification SDIO Timing Data: SDR12, SDR25, SDR50 Modes (VIOSD 1.8V) Symbol Parameter Condition fPP Clock Frequency SDR12/SDR25/ SDR50 25 TIS Input Setup Time SDR12/SDR25/ SDR50 3 ns SDR12/SDR25/ SDR50 0.8 ns 10 TIH Input Hold Time TCLK Clock Time SDR12/SDR25/ SDR50 TCR , TCF Rise Time, Fall Time TCR , TCF < 2ns (max.) at 100MHz CCARD = 10pF TODLY Output Delay Time CL 30pF TOH Output Hold Time CL = 15pF Min. Typ. Max. Units 100 MHz 40 ns SDR12/SDR25/ SDR50 0.2 * TCLK ns SDR12/SDR25/ SDR50 7.5 ns SDR12/SDR25/ SDR50 1.5 ns SDIO Protocol Timing Diagram: SDR12, SDR25, SDR50 Modes (VIOSD 1.8V) SDIO Timing Data: DDR50 Mode (VIOSD 1.8V) Symbol Parameter Condition Clock Time 50MHz (max.) Between Rising Edges DDR50 Min. Typ. Max. Units Clock TCLK Product Specification Rev. 1.2 20 ns Page 56 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Symbol Parameter Condition TCR, TCF Rise Time, Fall Time TCR, TCF < 4.00 ns (max.) at 50MHz, CCARD = 10pF DDR50 Clock Duty Min. Typ. Max. Units 0.2 * TCLK ns 55 % DDR50 45 DDR50 6 ns DDR50 0.8 ns CMD Input (referenced to clock rising edge) TIS Input Setup Time CCARD 10pF (1card) TIH Input Hold Time CCARD 10pF (1card) CMD Output (referenced to clock rising edge) TODLY Output Delay Time During Data Transfer Mode DDR50 13.7 ns CL 30pF (1card) TOHLD Output Hold Time DDR50 1.5 ns DDR50 3 ns DDR50 0.8 ns CL 15pF (1card) DAT[3:0] Input (referenced to clock rising and falling edge) TIS2x Input Setup Time CCARD 10pF (1card) TIH2x Input Hold Time CCARD 10pF (1card) DAT[3:0] Output (referenced to clock rising and falling edge) TODLY2x (max.) Output Delay Time During Data Transfer Mode DDR50 7 ns CL 25pF (1card) TODLY2x (min.) Output Hold Time DDR50 1.5 ns CL 15pF (1card) Product Specification Rev. 1.2 Page 57 PAN9026 Wi-Fi/Bluetooth Module 4 Specification SDIO CMD Timing Diagram: DDR50 Mode (VIOSD 1.8V, 50MHz) SDIO DAT[3:0] Timing Diagram: DDR50 Mode19 (VIOSD 1.8V, 50MHz) 19 In DDR50 mode, DAT[3:0] lines are sampled on both edges of the clock (not applicable for CMD line). Product Specification Rev. 1.2 Page 58 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.5.2 High-Speed UART Interface The High-Speed UART Interface pins are powered from the VIO voltage supply with 1.8V. For the DC specification please refer to 4.3.1 Digital Pin Characteristics. The UART interface operation includes: * Support data input/output operations for peripheral devices connected through a standard UART interface * * * * * * 4-wire data transfer (RXD, TXD, RTS, CTS) Programmable baud rate (1200bps to 4Mbps) Data format (LSB first) Data bit: 5bit to 8bit Parity bit: 0bit to 4bit Stop bit: 1bit to 2bit Interface Signals Pin No. Signal Name Specification Name F3 UART_SOUT TXD F4 UART_SIN RXD F5 UART_RTS RTS G5 UART_CTS CTS Product Specification Rev. 1.2 Type Description Transmit data output Host Controller Interface (HCI) Receive data input Request to send (active low) Clear to send (active low) Page 59 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Interface Transport Settings Item Range Default Comment Baudrate 1200~4000000 Data Bits 5~8 8 LSB first Parity Bits 0~4 0 1/1.5/2 1 Stop Bit 3000000 Baud Supported Baud Rates Baud 1200 2400 4800 230400 460800 500000 9600 19200 38400 57600 76800 115200 921600 1000000 1382400 1500000 1843200 2000000 2100000 2764800 3000000 3250000 3692300 4000000 UART Timing Diagram Product Specification Rev. 1.2 Page 60 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.6 Peripheral Interface The Peripheral Interface pins are powered from the VIO voltage supply with 1.8V. For the DC specification please refer to 4.3.1 Digital Pin Characteristics. 4.3.6.1 GPIO Interface The General-Purpose I/O (GPIO) interface is used to implement user-defined input and output signals to and from the device, such as external interrupts and other user-defined I/Os. Configurable GPIOs Function GPIO Pin Name IO0 IO1 IO2 IO3 IO12 IO13 IO14 IO15 YES YES YES YES YES YES YES YES GPIO OUT YES YES YES YES YES YES YES YES IRQ IN YES YES YES YES YES YES YES GPIO IN YES LED Mode Symbol Parameter Condition IOH Switching Current High Tristate on pin Tristate when driving high (requires pull-up) IOL Switching Current Low Product Specification Rev. 1.2 @ 0.4V Typ. Units mA 10 mA Page 61 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.7 4.3.7.1 Audio Interface PCM Interface Interface Signals Pin No. Signal Name Specification Name Type Description A1 PCM_DOUT DOUT Output PCM data B1 PCM_CLK CLK Input/Output PCM clock signal, output if PCM master, input if PCM slave B1 PCM_MCLK MCLK Output PCM clock signal (optional), optional clock used for some codecs, derived from PCM_CLK B2 PCM_DIN DIN Input PCM data B3 PCM_SYNC SYNC Input/Output PCM Sync pulse signal, output if PCM master, input if PCM slave Modes of Operation The PCM Interface supports two modes of operation: * * PCM master PCM slave When in PCM master mode, the interface generates a 2MHz or a 2.048MHz signal PCM_CLK and a 8kHz signal PCM_SYNC signal. An alternative PCM master mode is available that uses an externally generated signal PCM_CLK, but still generates the 8kHz signal PCM_SYNC. The external signal PCM_CLK must have a frequency that is an integer multiple of 8kHz. Supported frequencies are in the 512kHz to 4MHz range. When in PCM slave mode, the interface has both signal PCM_CLK and signal PCM_SYNC as inputs, thereby letting another unit on the PCM bus generate the signals. The PCM interface consists of up to four PCM slots (time-devided) preceded by a PCM sync signal. Each PCM slot can be either 8bits or 16bits wide. The slots can be separated in time, but they are not required to follow immediately after another. The timing is relative to signal PCM_SYNC. Product Specification Rev. 1.2 Page 62 PAN9026 Wi-Fi/Bluetooth Module 4 Specification PCM Timing Data: Master Mode Symbol Min. Typ. FBCLK Max. Units 2/2.048 Duty CycleBCLK 0.4 TBCLK rise/fall 0.5 MHz 0.6 3 TDO ns 15 ns TDISU 20 ns TDIHO 15 ns TBF 15 ns PCM Timing Diagram: Master Mode TBCLK CLK TTDO DOUT TDISU TDIHO DIN TBF SYNC Product Specification Rev. 1.2 Page 63 PAN9026 Wi-Fi/Bluetooth Module 4 Specification PCM Timing Data: Slave Mode Symbol Min. Typ. FBCLK Max. Units 2/2.048 Duty CycleBCLK 0.4 TBCLK rise/fall 0.5 MHz 0.6 3 TDO ns 30 ns TDISU 15 ns TDIHO 10 ns TBFSU 15 ns TBFHO 10 ns PCM Timing Diagram: Slave Mode TBCLK CLK TTDO DOUT TDISU TDIHO TBFSU TBFHO DIN SYNC Product Specification Rev. 1.2 Page 64 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.3.8 Coexistence Interface The Coexistence Interface pins are powered from the VIO voltage supply with 1.8V. For the DC specification please refer to 4.3.1 Digital Pin Characteristics. 4.4 4.4.1 RF Electrical Characteristics WLAN Radio Specification Receive Mode Parameter Condition Min. Typ. Max. Units RF Frequency Range 2.4GHz: IEEE 802.11b/g/n 2400 2483.5 MHz 5GHz: IEEE 802.11a/n 4900 5925 MHz Transmit Mode 4.4.2 4.4.2.1 Parameter Condition Min. Typ. Max. Units RF Frequency Range 2.4GHz: IEEE 802.11b/g/n 2400 2483.5 MHz 5GHz: IEEE 802.11a/n 4900 5925 MHz WLAN RF Characteristics RF Characteristics for IEEE 802.11b Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter Condition RF Frequency Range Carrier Frequency Tolerance Transmit Output Power Spectrum Mask Max. Units 2400 2483.5 MHz -25 25 ppm dBm fC 11MHz -30 fC 22MHz -50 RF Carrier Suppression Product Specification Rev. 1.2 Typ. 16 Power-on/Power-down Ramp Error Vector Magnitude (EVM) Min. Peak dBr 2 s -15 dB 35 % Page 65 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Parameter Condition Minimum Receive Sensitivity 4.4.2.2 Min. Typ. 1Mbps (DSSS) FER 8% -98 2Mbps (DSSS) FER 8% -93 5.5Mbps (CCK) FER 8% -91 11Mbps (CCK) FER 8% -89 Maximum Input Level FER 8% Adjacent Channel Rejection FER 8% Max. Units dBm -80 dBm dBm -76 dBm -10 dBm 35 dB RF Characteristics for IEEE 802.11g Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter Condition RF Frequency Range Spectrum Mask Typ. 2400 Carrier Frequency Tolerance Transmit Output Power Min. -25 25 ppm +16 dBm 48Mbps to 54Mbps +15 dBm fC 11MHz -20 dBr fC 20MHz -28 dBr fC 30MHz -40 dBr -15 dB 4 dB BPSK, CR 1/2 (6Mbps) -5 dB BPSK, CR 3/4 (9Mbps) -8 dB QPSK, CR 1/2 (12Mbps) -10 dB QPSK, CR 3/4 (18Mbps) -13 dB 16-QAM, CR 1/2 (24Mbps) -16 dB 16-QAM, CR 3/4 (36Mbps) -19 dB 64-QAM, CR 2/3 (48Mbps) -22 dB -4 64-QAM, CR 3/4 (54Mbps) Product Specification Rev. 1.2 MHz 6Mbps to 36Mbps Transmitter Spectral Flatness Minimum Receive Sensitivity Units 2483.5 Transmitter Center Frequency Leakage Constellation Error (EVM) Max. -25 dB BPSK, CR 1/2 (6Mbps) PER 10% -91 -82 dBm BPSK, CR 3/4 (9Mbps) PER 10% -90 -81 dBm QPSK, CR 1/2 (12Mbps) PER 10% -89 -79 dBm QPSK, CR 3/4 (18Mbps) PER 10% -87 -77 dBm 16-QAM, CR 1/2 (24Mbps) PER 10% -84 -74 dBm 16-QAM, CR 3/4 (36Mbps) PER 10% -81 -70 dBm 64-QAM, CR 2/3 (48Mbps) PER 10% -77 -66 dBm Page 66 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Parameter Condition 64-QAM, CR 3/4 (54Mbps) 4.4.2.3 Typ. PER 10% -76 PER 10% Maximum Input Level Adjacent Channel Rejection Min. Max. Units -65 dBm -20 dBm BPSK, CR 1/2 (6Mbps) PER 10% 16 dB 64-QAM, CR 3/4 (54Mbps) PER 10% -1 dB RF Characteristics for IEEE 802.11n (BW 20MHz, 2.4GHz) Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter RF Frequency Range Condition 2.4GHz Carrier Frequency Tolerance Transmit Output Power Spectrum Mask Min. Typ. 2483.5 MHz -25 25 ppm MCS0 to MCS2 +15 dBm MCS3 to MCS4 +15 dBm MCS5 to MCS7 +14 dBm fC 11MHz -20 dBr fC 20MHz -28 dBr fC 30MHz -45 dBr -15 dB 4 dB BPSK, CR 1/2 (MCS0) -5 dB QPSK, CR 1/2 (MCS1) -10 dB QPSK, CR 3/4 (MCS2) -13 dB 16-QAM, CR 1/2 (MCS3) -16 dB 16-QAM, CR 3/4 (MCS4) -19 dB 64-QAM, CR 2/3 (MCS5) -22 dB 64-QAM, CR 3/4 (MCS6) -25 dB Transmitter Spectral Flatness -4 64-QAM, CR 5/6 (MCS7) Minimum Receive Sensitivity20 20 Units 2400 Transmitter Center Frequency Leakage Constellation Error (EVM) Max. -27 dB 6.5Mbps (MCS0) PER 10% -90 -82 dBm 13Mbps (MCS1) PER 10% -88 -79 dBm 19.5Mbps (MCS2) PER 10% -86 -77 dBm 26Mbps (MCS3) PER 10% -83 -74 dBm 39Mbps (MCS4) PER 10% -80 -70 dBm The Minimum Sensitivity levels apply only to non-STBC modes, MCS 0~7, 800ns LGI, and BCC. Product Specification Rev. 1.2 Page 67 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Parameter Condition Typ. Adjacent Channel Rejection Units PER 10% -76 -66 dBm 58.5Mbps (MCS6) PER 10% -74 -65 dBm 65Mbps (MCS7) PER 10% -73 -64 dBm -20 dBm PER 10% 21 Max. 52Mbps (MCS5) Maximum Input Level 21 Min. 65Mbps (MCS7) PER 10% -2 dB The Adjacent Channel Rejection levels apply only to non-STBC modes, MCS 0~7, 800ns LGI, and BCC. Product Specification Rev. 1.2 Page 68 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.4.2.4 RF Characteristics for IEEE 802.11n (BW 40MHz, 2.4GHz) Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter Condition RF Frequency Range 2.4GHz Carrier Frequency Tolerance Transmit Output Power Spectrum Mask Min. Typ. 2483.5 MHz -25 +25 ppm MCS0 to MCS2 +14 dBm MCS3 to MCS4 +14 dBm MCS5 to MCS7 +13 dBm fC 21MHz -20 dBr fC 40MHz -28 dBr fC 60MHz -45 dBr -20 dB Transmitter Spectral Flatness Minimum Receive Sensitivity 20 4 dB BPSK, CR 1/2 (MCS0) -4 -5 dB QPSK, CR 1/2 (MCS1) -10 dB QPSK, CR 3/4 (MCS2) -13 dB 16-QAM, CR 1/2 (MCS3) -16 dB 16-QAM, CR 3/4 (MCS4) -19 dB 64-QAM, CR 2/3 (MCS5) -22 dB 64-QAM, CR 3/4 (MCS6) -25 dB 64-QAM, CR 5/6 (MCS7) -27 dB 13.5Mbps (MCS0) PER 10% -86 -79 dBm 27Mbps (MCS1) PER 10% -85 -76 dBm 40.5Mbps (MCS2) PER 10% -83 -74 dBm 54Mbps (MCS3) PER 10% -80 -71 dBm 81Mbps (MCS4) PER 10% -77 -67 dBm 108Mbps (MCS5) PER 10% -73 -63 dBm 121.5Mbps (MCS6) PER 10% -71 -62 dBm 135Mbps (MCS7) PER 10% -69 -61 dBm -20 dBm PER 10% Maximum Input Level Adjacent Channel Rejection 21 Product Specification Rev. 1.2 Units 2400 Transmitter Center Frequency Leakage Constellation Error (EVM) Max. 135Mbps (MCS7) PER 10% -2 dB Page 69 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.4.2.5 RF Characteristics for IEEE 802.11n (BW 20MHz, 5GHz) Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V, and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter Condition RF Frequency Range Spectrum Mask Typ. 5250 MHz 5GHz U-NII-2A 5250 5350 MHz 5GHz U-NII-2C 5470 5725 MHz 5GHz U-NII-3 5725 5825 MHz -20 20 ppm MCS0 to MCS2 +15 dBm MCS3 to MCS4 +15 dBm MCS5 to MCS7 +14 dBm fC 11MHz -20 dBr fC 20MHz -28 dBr fC 30MHz -40 dBr -15 dB 4 dB BPSK, CR 1/2 (MCS0) -5 dB QPSK, CR 1/2 (MCS1) -10 dB QPSK, CR 3/4 (MCS2) -13 dB 16-QAM, CR 1/2 (MCS3) -16 dB 16-QAM, CR 3/4 (MCS4) -19 dB 64-QAM, CR 2/3 (MCS5) -22 dB 64-QAM, CR 3/4 (MCS6) -25 dB 64-QAM, CR 5/6 (MCS7) -27 dB Transmitter Spectral Flatness Minimum Receive Sensitivity 20 -4 6.5Mbps (MCS0) PER 10% -89 -82 dBm 13Mbps (MCS1) PER 10% -88 -79 dBm 19.5Mbps (MCS2) PER 10% -85 -77 dBm 26Mbps (MCS3) PER 10% -82 -74 dBm 39Mbps (MCS4) PER 10% -79 -70 dBm 52Mbps (MCS5) PER 10% -74 -66 dBm 58.5Mbps (MCS6) PER 10% -73 -65 dBm 65Mbps (MCS7) PER 10% -71 -64 dBm -30 dBm PER 10% Maximum Input Level Adjacent Channel Rejection 21 Product Specification Rev. 1.2 Units 5150 Transmitter Center Frequency Leakage Constellation Error (EVM) Max. 5GHz U-NII-1 Carrier Frequency Tolerance Transmit Output Power Min. 65Mbps (MCS7) PER 10% -2 dB Page 70 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.4.2.6 RF Characteristics for IEEE 802.11n (BW 40MHz, 5GHz) Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V, and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter Condition RF Frequency Range Spectrum Mask Typ. 5250 MHz 5GHz U-NII-2A 5250 5350 MHz 5GHz U-NII-2C 5470 5725 MHz 5GHz U-NII-3 5725 5825 MHz -20 20 ppm MCS0 to MCS2 +14 dBm MCS3 to MCS4 +14 dBm MCS5 to MCS7 +13 dBm fC 21MHz -20 dBr fC 40MHz -28 dBr fC 60MHz -40 dBr -20 dB 4 dB BPSK, CR 1/2 (MCS0) -5 dB QPSK, CR 1/2 (MCS1) -10 dB QPSK, CR 3/4 (MCS2) -13 dB 16-QAM, CR 1/2 (MCS3) -16 dB 16-QAM, CR 3/4 (MCS4) -19 dB 64-QAM, CR 2/3 (MCS5) -22 dB 64-QAM, CR 3/4 (MCS6) -25 dB 64-QAM, CR 5/6 (MCS7) -27 dB Transmitter Spectral Flatness Minimum Receive Sensitivity 20 -4 13.5Mbps (MCS0) PER 10% -86 -79 dBm 27Mbps (MCS1) PER 10% -85 -76 dBm 40.5Mbps (MCS2) PER 10% -82 -74 dBm 54Mbps (MCS3) PER 10% -79 -71 dBm 81Mbps (MCS4) PER 10% -76 -67 dBm 108Mbps (MCS5) PER 10% -72 -63 dBm 121.5Mbps (MCS6) PER 10% -70 -62 dBm 135Mbps (MCS7) PER 10% -69 -61 dBm -30 dBm PER 10% Maximum Input Level Adjacent Channel Rejection 21 Product Specification Rev. 1.2 Units 5150 Transmitter Center Frequency Leakage Constellation Error (EVM) Max. 5GHz U-NII-1 Carrier Frequency Tolerance Transmit Output Power Min. 135Mbps (MCS7) PER 10% -2 dB Page 71 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.4.2.7 RF Characteristics for IEEE 802.11a Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V, and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. Parameter RF Frequency Range Condition Spectrum Mask Typ. 5250 MHz 5GHz U-NII-2A 5250 5350 MHz 5GHz U-NII-2C 5470 5725 MHz 5GHz U-NII-3 5725 5825 MHz -20 20 ppm 6Mbps to 36Mbps +16 dBm 48Mbps to 54Mbps +15 dBm fC 11MHz -20 dBr fC 20MHz -28 dBr fC 30MHz -40 dBr -15 dB 4 dB BPSK, CR 1/2 (6Mbps) -5 dB BPSK, CR 3/4 (9Mbps) -8 dB QPSK, CR 1/2 (12Mbps) -10 dB QPSK, CR 3/4 (18Mbps) -13 dB 16-QAM, CR 1/2 (24Mbps) -16 dB 16-QAM, CR 3/4 (36Mbps) -19 dB 64-QAM, CR 2/3 (48Mbps) -22 dB 64-QAM, CR 3/4 (54Mbps) -25 dB Transmitter Spectral Flatness Minimum Receive Sensitivity -4 BPSK, CR 1/2 (6Mbps) PER 10% -90 -82 dBm BPSK, CR 3/4 (9Mbps) PER 10% -90 -81 dBm QPSK, CR 1/2 (12Mbps) PER 10% -89 -79 dBm QPSK, CR 3/4 (18Mbps) PER 10% -86 -77 dBm 16-QAM, CR 1/2 (24Mbps) PER 10% -84 -74 dBm 16-QAM, CR 3/4 (36Mbps) PER 10% -80 -70 dBm 64-QAM, CR 2/3 (48Mbps) PER 10% -76 -66 dBm 64-QAM, CR 3/4 (54Mbps) PER 10% -75 -65 dBm -30 dBm PER 10% Maximum Input Level Adjacent Channel Rejection Product Specification Rev. 1.2 Units 5150 Transmitter Center Frequency Leakage Constellation Error (EVM) Max. 5GHz U-NII-1 Carrier Frequency Tolerance Transmit Output Power Min. BPSK, CR 1/2 (6Mbps) PER 10% 16 dB 64-QAM, CR 3/4 (54Mbps) PER 10% -1 dB Page 72 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.4.3 Bluetooth RF Characteristics Assume VDD2V2 = 2.2V, VDD1V8 = 1.8V, VIORF = 3.3V, VIOSD = 3.3V, VIO = 1.8V, and Tamb = 25C, if nothing else stated. 50 terminal load connected to the RF connector. 4.4.3.1 Receiver Section RF Characteristics Parameter Condition Min. RF Frequency Range Interference Performance (Basic Rate) C/I Ratio Typ. 2400 GFSK RSL = -67dBm BER 0.1% C/I Ratio /4-DQPSK RSL = -67dBm BER 0.01% RSL = -67dBm BER 0.01% dB C/I (1MHz) 0 dB C/I (2MHz) -30 dB C/I (3MHz) -40 dB C/I (Image) -9 dB -20 dB 13 dB C/I (1MHz) 0 dB C/I (2MHz) -30 dB C/I (3MHz) -40 dB C/I (Image) -7 dB -20 dB 21 dB C/I (1MHz) 5 dB C/I (2MHz) -25 dB C/I (3MHz) -33 dB C/I (Image) 0 dB -13 dB 21 dB C/I (1MHz) 15 dB C/I (2MHz) -17 dB C/I (3MHz) -27 dB C/I (Image) -9 dB -15 dB C/I (Co-channel) C/I (Co-channel) C/I (Image 1MHz) Interference Performance (Low Energy) C/I Ratio GFSK RSL = -67dBm BER 0.1% 1Mbps C/I (Co-channel) C/I (Image 1MHz) Minimum Receive Sensitivity Product Specification Rev. 1.2 MHz 11 C/I (Image 1MHz) 8-DPSK Units 2483.5 C/I (Co-channel) C/I (Image 1 MHz) Interference Performance (Enhanced Data Rate) Max. BR, DH1 BER 0.1% -94 -70 dBm EDR, 2DH1 BER 0.01% -90 -70 dBm LE, GFSK BER 0.1% -90 -70 dBm Page 73 PAN9026 Wi-Fi/Bluetooth Module 4 Specification Parameter Condition Out-of-band Blocking (Basic Rate) GFSK Interfering Signal Power Out-of-band Blocking (Low Energy) Min. RSL = -67dBm BER 0.1% GFSK Interfering Signal Power RSL = -67dBm BER 0.1% RSSI Range Resolution = 1dB Typ. Max. 30MHz: 2000MHz -10 dBm 2GHz: 2.399GHz -27 dBm 2.484GHz: 3GHz -27 dBm 3GHz: 12.75GHz -10 dBm 30MHz: 2000MHz -30 dBm 2.003GHz: 2.399GHz -35 dBm 2.484GHz: 2.997GHz -35 dBm -30 dBm 0 dBm 3GHz: 12.75GHz 4.4.3.2 Units -90 Transmitter Section RF Characteristics Parameter Condition Min. RF Frequency Range Maximum Output Power Gain Range Spurious Emission (EDR) (in-band) Spurious Emission (LE) (in-band) Product Specification Rev. 1.2 Max. 2400 2483.5 Units MHz Basic Rate (BR) +8 dBm Enhanced Data Rate (EDR) +6 dBm Low Energy (LE) +6 dBm 30 dB 0.5 dB Gain control Gain Resolution Spurious Emission (BR) (in-band) Typ. 500kHz -20 dBc 2MHz, |M-N| = 2 -20 dBm 3MHz or greater, |M-N| 3 -40 dBm 1MHz -26 dBc 1.5MHz -20 dBm 2.5MHz -40 dBm 2MHz, |M-N| = 2 -20 dBm 3MHz or greater, |M-N| 3 -30 dBm 1Mbps Page 74 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.5 Reliability Tests The measurement should be done after the test device has been exposed to room temperature and humidity for one hour. No. Item Limit Condition 1 Vibration test Electrical parameter should be in specification Freq.: 10Hz~50Hz; Amplitude: 1.5mm; 20min./cycle, 1h each of XYZ axis 2 Shock test See above Dropped 3 times onto hard wood from a height of 1m 3 Heat cycle test See above -40C for 30min. and 85C for 30min.; each temperature 300cycles 4 Moisture test See above 60C, 90% RH, 300h 5 Low temp. test See above -40C, 300h 6 High temp. test See above 85C, 300h Product Specification Rev. 1.2 Page 75 PAN9026 Wi-Fi/Bluetooth Module 4 Specification 4.6 Recommended Soldering Profile * * * * Reflow permissible cycle: 2 * Soldering profile assumes lead-free soldering Opposite side reflow is prohibited due to module weight More than 75percent of the soldering area shall be coated by solder The soldering profiles should be adhered to in order to prevent electrical or mechanical damage Product Specification Rev. 1.2 Page 76 PAN9026 Wi-Fi/Bluetooth Module 5 Cautions 5 Cautions Failure to follow the guidelines set forth in this document may result in degrading of the module functions and damage to the module. 5.1 Design Notes Radio requires a RF ground plane on the rest of the Printed Circuit Board (PCB) area. This can be located on any layer of the PCB. For best performance, extend the RF ground plane the entire length of your board. Connect all ground pins and do not notch the ground plane around the module. The bottom of the module is grounded. So be careful of vias or conductive traces located under the modules that are not soldered masked to prevent shorting. Keep metallic components, connectors, copper traces, internal layers, and ground planes away from the antenna area in 3D space! 1. Follow the conditions written in this specification, especially the control signals of this module. 2. The supply voltage should abide by the maximum ratings ( 4.2 Absolute Maximum Ratings). 3. The supply voltage must be free of AC ripple voltage (for example from a battery or a low noise regulator output). For noisy supply voltages, provide a decoupling circuit (for example a ferrite in series connection and a bypass capacitor to ground of at least 47F directly at the module). 4. This module should not be mechanically stressed when installed. 5. Keep this module away from heat. Heat is the major cause of decreasing the life time of these modules. 6. Avoid assembly and use of the target equipment in conditions where the module temperature may exceed the maximum tolerance. 7. Keep this module away from other high frequency circuits. 8. Refer to the recommended pattern when designing a board. 5.2 Installation Notes 1. Reflow soldering is possible twice based on the conditions set forth in 4.6 Recommended Soldering Profile. Set up the temperature at the soldering portion of this module according to this reflow profile. 2. Carefully position the module so that the heat will not burn into printed circuit boards or affect other components that are susceptible to heat. 3. Carefully locate the module, to avoid an increased temperature caused by heat generated by neighboring components. Product Specification Rev. 1.2 Page 77 PAN9026 Wi-Fi/Bluetooth Module 5 Cautions 4. If a vinyl-covered wire comes into contact with the module, the wire cover will melt and generate toxic gas, damaging the insulation. Never allow contact between a vinyl cover and these modules to occur. 5. This module should not be mechanically stressed or vibrated when reflowed. 6. To repair the board by hand soldering, follow the conditions set forth in this chapter. 7. Do not wash this product. 8. Pressing on parts of the metal cover or fastening objects to the metal will cause damage to the module. 5.3 Usage Condition Notes 1. Take measures to protect the module against static electricity. If pulses or transient loads (a large load, which is suddenly applied) are applied to the modules, check and evaluate their operation before assembly of the final products. 2. Do not use dropped modules. 3. Do not touch, damage, or soil the pins. 4. Follow the recommended condition ratings about the power supply applied to this module. 5. Electrode peeling strength: Do not apply a force of more than 4.9N in any direction on the soldered module. 6. Pressing on parts of the metal cover or fastening objects to the metal cover will cause damage. 7. These modules are intended for general purpose and standard use in general electronic equipment, such as home appliances, office equipment, information, and communication equipment. 5.4 Storage Notes 1. The module should not be stressed mechanically during storage. 2. Do not store these modules in the following conditions or the performance characteristics of the module, such as RF performance will be adversely affected: - Storage in salty air or in an environment with a high concentration of corrosive gas, such as Cl2, H2S, NH3, SO2, or NOX, - Storage in direct sunlight, - Storage in an environment where the temperature may be outside the range of 5C to 35C, or where the humidity may be outside the 45% to 85% range, - Storage of the modules for more than one year after the date of delivery storage period: Please check the adhesive strength of the embossed tape and soldering after 6 months of storage. 3. Keep this module away from water, poisonous gas, and corrosive gas. 4. This module should not be stressed or shocked when transported. Product Specification Rev. 1.2 Page 78 PAN9026 Wi-Fi/Bluetooth Module 5 Cautions 5. Follow the specification when stacking packed crates (max. 10). 5.5 Safety Cautions These specifications are intended to preserve the quality assurance of products and individual components. Before use, check and evaluate the operation when mounted on your products. Abide by these specifications without deviation when using the products. These products may short-circuit. If electrical shocks, smoke, fire, and/or accidents involving human life are anticipated when a short circuit occurs, provide the following failsafe functions as a minimum: 1. Ensure the safety of the whole system by installing a protection circuit and a protection device. 2. Ensure the safety of the whole system by installing a redundant circuit or another system to prevent a single fault causing an unsafe status. 5.6 Other Cautions 1. Do not use the module for other purposes than those listed in section 5.3 Usage Condition Notes 2. Be sure to provide an appropriate fail-safe function on your product to prevent any additional damage that may be caused by the abnormal function or the failure of the module. 3. This module has been manufactured without any ozone chemical controlled under the Montreal Protocol. 4. These modules are not intended for use under the special conditions shown below. Before using these modules under such special conditions, carefully check their performance and reliability under the said special conditions to determine whether or not they can be used in such a manner: - In liquid, such as water, salt water, oil, alkali, or organic solvent, or in places where liquid may splash, - In direct sunlight, outdoors, or in a dusty environment, - In an environment where condensation occurs, - In an environment with a high concentration of harmful gas (e.g. salty air, HCl, Cl2, SO2, H2S, NH3, and NOX). 5. If an abnormal voltage is applied due to a problem occurring in other components or circuits, replace these modules with new modules, because they may not be able to provide normal performance even if their electronic characteristics and appearances appear satisfactory. Please refer to the Panasonic website for for further information 7.2.2 Product Information. Product Specification Rev. 1.2 Page 79 PAN9026 Wi-Fi/Bluetooth Module 5 Cautions 5.7 5.7.1 Restricted Use Life Support Policy This Panasonic Industrial Devices Europe GmbH product is not designed for use in life support appliances, devices, or systems where malfunction can reasonably be expected to result in a significant personal injury to the user, or as a critical component in any life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. Panasonic customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Panasonic Industrial Devices Europe GmbH for any damages resulting. 5.7.2 Restricted End Use This Panasonic Industrial Devices Europe GmbH product is not designed for any restricted activity that supports the development, production, handling usage, maintenance, storage, inventory or proliferation of any weapons or military use. Transfer, export, re-export, usage or reselling of this product to any destination, end-user or any end-use prohibited by the European Union, United States or any other applicable law is strictly prohibited. Product Specification Rev. 1.2 Page 80 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6 Regulatory and Certification Information 6.1 6.1.1 Federal Communications Commission (FCC) for US FCC Notice The PAN9026, including the ceramic antenna (ENWF9201A1EF and ENWF9208A1EF), and the antennas, which are listed in 6.1.5 Approved Antenna List, complies with Part 15 of the FCC Rules. The device meets the requirements for modular transmitter approval as detailed in FCC public Notice DA00-1407. The transmitter operation is subject to the following two conditions: The device meets the requirements for modular transmitter approval as detailed in FCC public Notice DA00-1407. The transmitter 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. The FCC identifier for ENWF9201A1EF is FCC ID: T7V-9026. The FCC identifier for ENWF9208A1EF is FCC ID: T7V-9026. 6.1.2 Caution The FCC requires the user to be notified that any changes or modifications made to this device that are not expressly approved by Panasonic Industrial Devices Europe GmbH may void the user's authority to operate the equipment. 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. 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. Product Specification Rev. 1.2 Page 81 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information It is recommended to try to correct the interference by one or more of the following measures: 6.1.3 * * * Reorient or relocate the receiving antenna. * Consult the dealer or an experienced radio/TV technician for help. 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. Label Requirements The OEM must ensure that FCC labelling requirements are met. This includes a clearly visible label (laser marking) on the outside of the OEM enclosure specifying the appropriate Panasonic FCC identifier for this product as well as the FCC Notice above. The FCC identifier for model ENWF9201A1EF is FCC ID: T7V-9026. The FCC identifier for model ENWF9208A1EF is FCC ID: T7V-9026. This FCC identifier is valid for the PAN9026. The end product must in any case be labelled on the exterior with: "Contains FCC ID: T7V-9026". 6.1.4 Antenna Warning This antenna warning refers to the test device with the model number ENWF9201A1EF and ENWF9208A1EF in bottom pad mode RF-Switch Pins Function. The device is tested with a standard SMA connector and with the antenna listed below. When integrated into the OEM's product, these fixed antennas require installation preventing end users from replacing them with non-approved antennas. Any antenna not in the following table must be tested to comply with FCC Section 15.203 for unique antenna connectors and with Section 15.247 for emissions. The FCC identifier for the device with the antenna listed in 6.1.5 Approved Antenna List is the same (FCC ID: T7V-9026). 6.1.5 Approved Antenna List Item Part Number Manufacturer Type Polarization Frequency Band Gain (dBi) Min 1 ANT162442DT- TDK 2001A2 Product Specification Rev. 1.2 Chip Antenna Linear Peak 2.400 - 2.484GHz -36 2.1 5.150 - 5.850GHz -42 1.5 Page 82 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.1.6 RF Exposure To comply with FCC RF Exposure requirements, the OEM must ensure that only antennas from the Approved Antenna List are installed 6.1.5 Approved Antenna List. The preceding statement must be included as a caution statement in manuals for products operating with the approved antennas in the previous table to alert users on FCC RF Exposure compliance. Any notification to the end user of installation or removal instructions about the integrated radio module is not allowed. The radiated output power of the PAN9026 with a mounted ceramic chip antenna (FCC ID: T7V-9026 for model ENWF9201A1EF and ENWF9208A1EF) are fulfilled for mobile configuration. The installation of the module is restricted to mobile host devices. The PAN9026 shall be used in such a manner that the potential for human contact during normal operation is minimized. End users may not be provided with the module installation instructions. OEM integrators and end users must be provided with transmitter operating conditions for satisfying RF exposure compliance. 6.1.7 Integration Instructions This chapter gives integration instructions for host product manufacturers according to KDB 996369 D03 OEM Manual v01. Section Topic and Comment 2.2 List of applicable FCC rules 47 CFR Section Part 15C Frequency Band (MHz) 2 400 to 2 483.5 Systems Digital Transmission Systems operating within the 2 400 - 2 483.5 MHz Band Reference / Requirement 15.247(a)(2), 15.247(b)(1), 15.207, 15.247(d), 15.247(e) Complied Module M/N ENWF9201A1EF, ENWF9208A1EF 47 CFR Section Part 15C Frequency Band (MHz) 2 400 to 2 483.5 Systems Frequency Hopping Systems operating within the 2 400 - 2 483.5 MHz Band Reference / Requirement 15.247(a)(1), 15.247(a)(1)(iii), 15.247(b)(1), 15.207, 15.247(d) Complied Module M/N ENWF9201A1EF, ENWF9208A1EF 47 CFR Section Part 15E Product Specification Rev. 1.2 Page 83 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 2.3 Systems Unlicensed National Information Infrastructure Devices in the 5 GHz Bands Reference Method KDB 905462 D02 v02 Reference / Requirement 15E.407(h)(2) Complied Module M/N ENWF9201A1EF Summarize the specific operational use conditions Please refer to sections 5 Cautions, 5.3 Usage Condition Notes, and 6.1.5 Approved Antenna List. 2.4 Limited module procedures Not applicable, the module has a single-modular transmitter approval. 2.5 Trace antenna designs Not applicable, the module has a ceramic chip antenna. For guidance regarding the PCB layout requirements for module integration refer to the Design Guide 7.2.2 Product Information. 2.6 RF exposure considerations Mobile application, the end customer has to assure that the device has a distance of more than 20cm from the human body under all circumstances. 2.7 Antennas Please refer to sections 6.1.4 Antenna Warning and 6.1.5 Approved Antenna List. 2.8 Label and compliance information Please refer to section 6.1.3 Label Requirements. 2.9 Information on test modes and additional testing requirements The documents for integration guidance and compliance testing are available here 7.2.2 Product Information. 2.10 Additional testing, Part 15 Subpart B disclaimer The single-modular transmitter is FCC authorized for the specific rule parts listed at section List of applicable FCC rules. The host product manufacturer needs to also consider the FCC requirements for certified modular transmitter being used in the host product and maintain documentation on how the host product with the certified modular transmitter complies with the FCC rules. Host product manufacturers are responsible to follow the integration guidance and to perform a limited set of transmitter module verification testing, to ensure the end product is in compliance with the FCC rules. Also host product manufacturers are responsible for all additional equipment authorization and testing for technical requirements not covered by the module grant (e.g., unintentional radiator Part 15 Subpart B requirements, or transmitters used in the host that are not certified modules). Product Specification Rev. 1.2 Page 84 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.2 Innovation, Science, and Economic Development (ISED) for Canada English PAN9026 and versions are licensed to meet the regulatory requirements of ISED. License for M/N: ENWF9203A1EF: IC: 216Q-9026 License for M/N: ENWF9208A1EF: IC: 216Q-9026 Manufacturers of mobile, fixed, or portable devices incorporating this module are advised to clarify any regulatory questions and ensure compliance for SAR and/or RF exposure limits. Users can obtain Canadian information on RF exposure and compliance from www.ic.gc.ca. This device has been designed to operate with the antennas listed in 6.1.5 Approved Antenna List, having a maximum gain of 2.1dBi for 2.4 GHz and 1.5 dBi for 5 GHz. Antennas not included in this list or having a gain greater than 2.1dBi for 2.4 GHz and 1.5 dBi for 5 GHz are strictly prohibited for use with this device. The required antenna impedance is 50. The antenna used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. French PAN9026 (et ses versions) est garanti conforme aux dispositions reglementaires d'Innovation, Sciences et Developpement economique (ISDE). Licence pour M/N: ENWF9203A1EF: IC: 216Q-9026 Licence pour M/N: ENWF9208A1EF: IC: 216Q-9026 Il est recommande aux fabricants d'appareils fixes, mobiles ou portables de consulter la reglementation en vigueur et de verifier la conformite de leurs produits relativement aux limites d'exposition aux rayonnements radiofrequence ainsi qu'au debit d'absorption specifique maximum autorise. Des informations pour les utilisateurs sur la reglementation Canadienne concernant l'exposition aux rayonnements RF sont disponibles sur le site www.ic.gc.ca. Ce produit a ete developpe pour fonctionner specifiquement avec les antennes listees dans le tableau 6.1.5 Approved Antenna List, presentant un gain maximum de 2.1dBi pour 2.4 GHz et 1.5 dBi pour 5 GHz. Des antennes autres que celles listees ici, ou presentant un gain superieur a 2.1dBi pour 2.4 GHz et 1.5 dBi pour 5 GHz ne doivent en aucune circonstance etre utilises en combinaison avec ce produit. L'impedance des antennes compatibles est 50. L'antenne utilisee avec ce produit ne doit ni etre situee a proximite d'une autre antenne ou d'un autre emetteur, ni etre utilisee conjointement avec une autre antenne ou un autre emetteur. Product Specification Rev. 1.2 Page 85 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.2.1 Radio Standards Specification RSS-247 Issue 2 The Radio Standards Specification RSS-247, Issue 2, Digital Transmission Systems (DTSs), Frequency Hopping Systems (FHSs) and License-Exempt Local Area Network (LE-LAN) Devices, replaces RSS-247, Issue 1, dated May 2015. It sets out certification requirements for radio apparatus operating in the bands 2 400MHz to 2 483.5MHz and 5 725MHz to 5 850MHz employing frequency hopping, digital modulation and/or a combination (hybrid) of both techniques. It also includes license exempt local area network (LE-LAN) devices operating in the bands 5 150MHz to 5 250MHz, 5 250MHz to 5 350MHz, 5 470MHz to 5 725MHz and 5 725MHz to 5 850MHz as specified in SP-5 150 MHz. 6.2.1.1 General Equipment covered by the standard RSS-247 is classified as Category I equipment. Either a technical acceptance certificate (TAC) issued by the Certification and Engineering Bureau of Innovation, Science and Economic Development Canada (ISED) or a certificate issued by a certification body (CB) is required. 6.2.1.2 Certification Requirements RSS-247 shall be used in conjunction with RSS-Gen, General Requirements for Compliance of Radio Apparatus, for general specifications and information relevant to the equipment for which this standard applies. Equipment certified under the standard is required to comply with the provisions in RSSGen with respect to emissions falling within restricted frequency bands. These restricted frequency bands are listed in RSSGen. 6.2.1.3 Measurement Method In addition to the requirements in RSS-Gen and the requirements of the standard RSS-247, the method for measuring DTS devices is provided in ANSI C63.10. 6.2.1.4 FHS and DTS operating in the bands 2 400MHz to 2 483.5MHz This section applies to frequency hopping systems (FHSs) in the bands 2 400MHz to 2 483.5MHz and 5 725MHz to 5 850MHz and digital transmission systems (DTSs) in the band 2 400MHz to 2 483.5MHz. Systems in these bands can be frequency hopping, digital transmission and/or a combination (hybrid) of both types. The digital transmission technology of DTSs or hybrid systems operating in the band 5 725 MHz to 5 850MHz shall comply with the requirement in section Technical requirements for license-exempt local area network devices and digital transmission systems operating in the 5GHz band. Product Specification Rev. 1.2 Page 86 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information RSS-247 Section 5.1 Frequency Band (MHz) 2 400 to 2 483.5 Systems Frequency Hopping Systems Systems out of Scope FHS operating in the band 5 725MHz to 5 850MHz Fixed point-to-point systems Requirements The maximum peak conducted output power shall not exceed W if the hopset uses 75 or more hopping channels; the maximum peak conducted output power shall not exceed 0.125 W if the hopset uses less than 75 hopping channels. Complied Module M/N ENWF9203A1EF, ENWF9208A1EF RSS-247 Section 5.2 Frequency Band (MHz) 2 400 to 2 483.5 Systems Digital Transmission Systems Systems out of Scope - Requirements The minimum 6dB bandwidth shall be 500kHz. The transmitter power spectral density conducted from the transmitter to the antenna shall not be greater than 8dBm in any 3kHz band during any time interval of continuous transmission. The maximum peak conducted output power shall not exceed 1W. The e.i.r.p. shall not exceed 4W. Complied Module M/N ENWF9203A1EF, ENWF9208A1EF RSS-247 Section 5.3 Frequency Band (MHz) 2 400 to 2 483.5 Systems Hybrid Systems Systems out of Scope Hybrid devices operating in the band 5 725MHz to 5 850MHz. Requirements With the digital transmission operation of the hybrid system turned off, the frequency hopping operation shall have an average time of occupancy on any frequency not exceeding 0.4 seconds within a duration in seconds equal to the number of hopping frequencies multiplied by 0.4. With the frequency hopping turned off, the digital transmission operation shall comply with the power spectral density requirements for digital modulation systems set out in section "5.2" RSS-247 Section. Complied Module M/N Product Specification Rev. 1.2 ENWF9203A1EF, ENWF9208A1EF Page 87 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information RSS-247 Section 5.4 Frequency Band (MHz) 2 400 to 2 483.5 Systems FHSs operating in the band 2 400 to 2 483.5MHz. DTSs employing digital modulation techniques operating in the band 2 400MHz to 2 483.5MHz. Systems out of Scope FHSs operating in the band 902MHz to 928MHz and 5 725MHz to 5 850MHz. DTSs employing digital modulation techniques operating in the bands 902MHz to 928MHz. Fixed point-to-point systems in the bands 2 400MHz to 2 483.5MHz and 5 725MHz to 5 850MHz. Transmitters operating in the band 2 400MHz to 2 483.5MHz, may employ antenna systems that emit multiple directional beams simultaneously or sequentially. Requirements Transmitter Output Power: The maximum peak conducted output power shall not exceed 1W if the hopset uses 75 or more hopping channels; the maximum peak conducted output power shall not exceed 0.125W if the hopset uses less than 75 hopping channels. The e.i.r.p. shall not exceed 4W. For DTSs employing digital modulation techniques operating in the band 2 400MHz to 2 483.5MHz, the maximum peak conducted output power shall not exceed W. The e.i.r.p. shall not exceed 4W. Complied Module M/N ENWF9203A1EF, ENWF9208A1EF RSS-247 Section 5.5 Frequency Band (MHz) 2 400 to 2 483.5 System In any 100kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated device is operating ... System out of Scope - Requirements Unwanted Emissions: In any 100kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated device is operating, the RF power that is produced shall be at least 20dB below that in the 100kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided that the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of rootmean-square averaging over a time interval the attenuation required shall be 30dB instead of 20dB. Attenuation below the general field strength limits specified in RSS-Gen is not required. Complied Module M/N Product Specification Rev. 1.2 ENWF9203A1EF, ENWF9208A1EF Page 88 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.2.1.5 Requirements for LE-LAN and DTS operating in the 5 GHz Band The section provides standards for Licence-Exempt Local Area Network (LE-LAN) devices operating in the bands: * * * * * * 5 150 to 5 250 MHz, 5 250 to 5 350 MHz, 5 470 to 5 600 MHz, 5 650 to 5 725 MHz, 5 725 to 5 850 MHz For DTSs operating in the band 5 725MHz to 5 850MHz that employ digital modulation technology, but are not designed for LE-LAN operation. Devices with occupied bandwidths which overlap different bands shall comply with all operational requirements for each band. RSS-247 Section 6.2.1 Frequency Band (MHz) 5 150 to 5 250 Device Type LE-LAN devices are restricted to indoor operation only. Devices out of Scope OEM devices installed in vehicles. Power Limits Maximum e.i.r.p. shall not exceed 200 mW or 10+10log10B, dBm, whichever power is less. B is the 99% emission bandwidth in megahertz. The e.i.r.p. spectral density shall not exceed 10 dBm in any 1 MHz band. Unwanted Emission Limits For transmitters with operating frequencies in the band 5 150MHz to 5 250MHz, all emissions outside the band 5 150MHz to 5 350 MHz shall not exceed -27dBm/MHz e.i.r.p. Any unwanted emissions that fall into the band 5 250MHz to 5 350 MHz shall be attenuated below the channel power by at least 26dB, when measured using a resolution bandwidth between 1% and 5% of the occupied bandwidth (i.e. 99% bandwidth), above 5 250MHz. The 26dB bandwidth may fall into the 5 250MHz to 5 350 MHz band; if the occupied bandwidth also falls within the 5 250MHz to 5 350 MHz band, the transmission is considered as intentional and the devices shall comply with all requirements in the band 5 250MHz to 5 350 MHz including implementing dynamic frequency selection (DFS) and TPC, on the portion of the emission that resides in the 5 250MHz to 5 350MHz band. Complied Module M/N ENWF9203A1EF, ENWF9208A1EF Product Specification Rev. 1.2 Page 89 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information RSS-247 Section 6.2.2 Frequency Band (MHz) 5 250 to 5 350 Device Type For devices, other than devices installed in vehicles. Devices out of Scope OEM devices installed in vehicles, Outdoor fixed devices, and other devices having an e.i.r.p. grater than 200 mW. ENWF9208A1EF (frequency band not supported) Channel Tables based on Regulatory Domain/Country Power Limits The maximum conducted output power shall not exceed 250 mW or 11+10log10B, dBm, whichever is less. The power spectral density shall not exceed 11 dBm in any 1 MHz band. Unwanted Emission Limits All emissions outside the band 5 250MHz to 5 350MHz shall not exceed -27dBm/MHz e.i.r.p.; or: All emissions outside the band 5 150MHz to 5 350MHz shall not exceed -27dBm/MHz e.i.r.p. and its power shall comply with the spectral power density for operation within the band 5 150MHz to 5 250MHz. The device shall be labelled or include in the user manual the following text "For indoor use only.". RSS-247 Section 6.2.3 Frequency Band (MHz) 5 470 to 5 600 and 5 650 to 5 725 Device Type Devices shall not be capable of transmitting in the band 5 600MHz to 5 650MHz. This restriction is for the protection of Environment Canada's weather radars operating in this band. Devices out of Scope ENWF9208A1EF (frequency band not supported) Channel Tables based on Regulatory Domain/Country Power Limits The maximum conducted output power shall not exceed 250mW or 11+10log10B, dBm, whichever is less. The power spectral density shall not exceed 11dBm in any 1MHz band. Unwanted Emission Limits Emissions outside the band 5 470MHz to 5 725MHz shall not exceed -27dBm/MHz e.i.r.p. Devices with bandwidth overlapping the band edge of 5 725MHz can meet the emission limit of -27dBm/MHz e.i.r.p. at 5 850MHz instead of 5 725MHz. Complied Module M/N ENWF9203A1EF Product Specification Rev. 1.2 Page 90 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information RSS-247 Section 6.2.4 Frequency Band (MHz) 5 725 to 5 850 Device Type For equipment operating in the band 5 725MHz to 5 850MHz Devices out of Scope Fixed point-to-point devices and devices with antenna gain greater than 6dBi. Power Limits The minimum 6dB bandwidth shall be at least 500kHz. The maximum conducted output power shall not exceed 1 W. The output power spectral density shall not exceed 30dBm in any 500kHz band. Unwanted Emission Limits Devices shall have e.i.r.p. of unwanted emissions comply with the following: 27dBm/MHz at frequencies from the band edges decreasing linearly to 15.6dBm/MHz at 5MHz above or below the band edges 15.6dBm/MHz at 5MHz above or below the band edges decreasing linearly to 10dBm/MHz at 25MHz above or below the band edges 10dBm/MHz at 25MHz above or below the band edges decreasing linearly to -27dBm/MHz at 75MHz above or below the band edges -27dBm/MHz at frequencies more than 75MHz above or below the band edges Complied Module M/N ENWF9203A1EF, ENWF9208A1EF For further information about module variants and its supported channel table please refer to Channel Tables based on Regulatory Domain/Country. Product Specification Rev. 1.2 Page 91 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.2.2 IC Notice English The device PAN9026 and versions ( 7.1 Ordering Information), including the antennas ( 6.1.5 Approved Antenna List), comply with Canada RSS-Gen Rules. The device meets the requirements for modular transmitter approval as detailed in RSS-Gen. Operation is subject to the following two conditions: 1. This device may not cause harmful interference, and 2. This device must accept any inference received, including interference that may cause undesired operation. French Le present appareil PAN9026 ( 7.1 Ordering Information), les antennes y compris ( 6.1.5 Approved Antenna List), est conforme aux CNR-Gen d'ISDE applicables aux appareils radio exempts de licence. L'exploitation est autorisee aux deux conditions suivantes: 1. L'appareil ne doit pas produire de brouillage, et 2. L'utilisateur de l'appareil doit accepter tout brouillage radioelectrique subi, meme si le brouillage est susceptible d'en compromettre le fonctionnement. Product Specification Rev. 1.2 Page 92 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.2.3 Labeling Requirements English Labeling Requirements The OEM must ensure that IC labelling requirements are met. This includes a clearly visible label on the outside of the OEM enclosure specifying the appropriate Panasonic IC identifier for this product as well as the IC Notice above. The IC identifiers are: IC: 216Q-9026 (for M/N: ENWF9203A1EF) IC: 216Q-9026 (for M/N: ENWF9208A1EF) These IC identifiers are valid for all PAN9026 modules 7.1 Ordering Information. In any case, the end product must be labelled on the exterior with: "Contains IC: 216Q-9026". French Obligations d'etiquetage Les fabricants d'equipements d'origine (FEO) - en anglais Original Equipment Manufacturer (OEM) - doivent s'assurer que les obligations d'etiquetage IC du produit final sont remplies. Ces obligations incluent une etiquette clairement visible a l'exterieur de l'emballage externe, comportant l'identifiant IC du module Panasonic inclus, ainsi que la notification ci-dessus. L' identifiant IC est: IC: 216Q-9026 (pour M/N: ENWF9203A1EF) IC: 216Q-9026 (pour M/N: ENWF9208A1EF) Cet identifiant est valide pour tous les modules PAN9026 7.1 Ordering Information. Dans tous les cas les produits finaux doivent indiquer sur leur emballage externe la mention suivante: "Contient IC: 216Q-9026". Product Specification Rev. 1.2 Page 93 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.3 European Conformity According to RED (2014/53/EU) The PAN9026 modules with model number ENWF9202A1EF and ENWF9208A1EF comply with the standards according to the following LVD (2014/35/EU), EMC-D (2014/30/EU) together with RED (2014/53/EU) articles: 3.1a Safety/Health: EN 62368-1:2014 EN 62311:2008 3.1b EMC: EN 301 489-1 V2.1.1:2017-02 EN 301 489-17 V3.1.1:2017-02 3.2 Radio: EN 300 328 V2.1.1:2016-11 EN 301 893 V2.1.1:2017-04 EN 300 440 V2.1.1:2017-03 As a result of the conformity assessment procedure described in 2014/53/EU Directive, the end customer equipment should be labelled as follows: The end customer has to assure that the device has a distance of more than 20cm from the human body under all circumstances. The end customer equipment must meet the actual Safety/Health requirements according to RED. PAN9026 and its model versions in the specified reference design can be used in all countries of the European Economic Area (Member States of the EU, European Free Trade Association States [Iceland, Liechtenstein, and Norway]), Monaco, San Marino, Andorra, and Turkey. 6.3.1 Radio Equipment Directive The Radio Equipment Directive 2014/53/EU (RED) establishes a regulatory framework for placing radio equipment on the market. It ensures a Single Market for radio equipment by setting essential requirements for safety and health, electromagnetic compatibility, and the efficient use of the radio spectrum. The RED aligned the previous Directive, the Radio and Telecommunication Terminal Equipment Directive 1999/5/EC (R&TTED), with the new legislative framework for the marketing of products. The RED is applicable as of 2016-06-13. It included a one-year transitional period, which ended on 2017-06-12 (Article 48). On 2017-06-20, the Commission Implementing Product Specification Rev. 1.2 Page 94 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information Regulation (EU) 2017/1354 was adopted. This specifies how to present the information provided for in Article 10(10) of Directive 2014/53/EU. Article 10(10) RED In cases of restrictions on putting into service or of requirements for authorisation of use, information available on the packaging shall allow the identification of the Member States or the geographical area within a Member State where restrictions on putting into service or requirements for authorisation of use exist. Such information shall be completed in the instructions accompanying the radio equipment. The Commission may adopt implementing acts specifying how to present that information. Those implementing acts shall be adopted in accordance with the advisory procedure referred to in Article 45(2). * Class 1: Radio equipment that can be operated without any restriction in EU, EEA, and EFTA. According to Article 8(1)b of the RED, it is clarified that no national radio interfaces specifications are required to be notified under RED; * Class 2: Radio equipment subject to restrictions in one or more EU, EEA and EFTA countries where: - The technical parameters are not harmonised through EU, EEA, and EFTA; - The technical parameters are harmonised through EU, EEA and EFTA, and do not fall in above class 1 definition. Radio equipment class means a class identifying particular categories of radio equipment which, under this Directive, are considered similar and those radio interfaces for which the radio equipment is designed. Article 8 RED Notification of radio interface specifications and assignment of radio equipment classes 1: 1) Member States shall notify, in accordance with the procedure set out in Directive 98/34/EC, the radio interfaces which they intend to regulate except: a) The radio interfaces which fully and without any deviation comply with the Commission decisions on the harmonised use of radio spectrum adopted pursuant to Decision No. 676/2002/EC; and b) The radio interfaces which, in accordance with implementing acts adopted pursuant to paragraph 2 of this Article, correspond to radio equipment which can be put into service and used without restrictions within the Union. 2) The Commission shall adopt implementing acts establishing the equivalence between notified radio interfaces and assigning a radio equipment class, details of which shall be published in the Official Journal of the European Union. Those implementing acts shall be adopted in accordance with the examination procedure referred to in Article 45(3). The Radio Interface Specifications Templates are provided for information in the EFIS database for applications which use is in harmonised radio spectrum, however with restrictions. Product Specification Rev. 1.2 Page 95 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.3.2 Equipment Classes The PAN9026 is a radio module classified as class-1 or class-2 radio equipment depending on the frequency band in which it can operate. This equipment class is passed on the end-product which integrates the module. Class 1 Class 1 radio equipment can be placed on the market and put into service without restrictions according to Article 1(3) of Commission Decision 2000/299/EC (Version 2018-01). This radio module is defined as Class 1 radio equipment when it is restricted to operate in the following frequency bands: Sub-class of Class 1 Application/Reference Frequency Band Transmit Power/Power Density (MHz) 22 Wideband Data Transmission Systems 2 400 to 2 483.5 EN 300 328 54 Wireless Access Systems 5 470 to 5 725 including Radio Local Area Networks (WAS/RLANs) 100mW e.i.r.p and 100mW/100kHz e.i.r.p. density applies when frequency hopping modulation is used, 10mW/MHz e.i.r.p. density applies when other types of modulation are used. 1W mean e.i.r.p., 50mW/MHz mean e.i.r.p. density in any 1MHz band. EN 301 893 43 Non-Specific Short Range Devices 5 725 to 5 875 25mW e.i.r.p. EN 300 440 Class 2 Class 2 radio equipment are restricted in accordance with Article 1(3) of Commission Decision 2000/299/EC1 if the equipment falls within the scope of Class 2. This radio module is also defined as Class 2 radio equipment when it is restricted to operate in the following frequency bands: Sub-class of Class 2 Application/Reference Frequency Band Transmit Power/Power Density (MHz) H01 Wireless Access Systems 5 150 to 5350 including Radio Local Area Networks (WAS/RLANs) Max. 200mW mean e.i.r.p. and max. 10mW/MHz mean e.i.r.p. density in any 1MHz band. Restricted to indoor use EN 301 893 The usage of PAN9026 module in a vehicular environment cannot be considered as indoor use. Product Specification Rev. 1.2 Page 96 PAN9026 Wi-Fi/Bluetooth Module 6 Regulatory and Certification Information 6.4 Bluetooth Qualification The PAN9026 series modules are Bluetooth qualified as "Controller Subsystem". Following the qualified design ID's listed for the module: Bluetooth Project Power Class Product Name BR/EDR LE Controller PAN9026 Class I 1 PAN9026 Class II 2 Model 1.5 ENWF920xA1EF Declaration ID QDID D044188 128779 D044187 129672 Subsystem 2 If the module is combined with a host stack that is Bluetooth qualified as "Host Subsystem" it is possible to list an "End Product" without any further qualification tests. The OpenSynergy Bluetooth software is commercially available and is delivered in source code format. Applications that are built using the Blue SDK are executed in Linux user space making development easy. The stack software and profiles are qualified components and are listed on the Bluetooth SIG website. * * Blue SDK v6.x and Low Energy SDK v3.x: QDID 120439 Bluetooth traditional profiles: QDID 117748 Bluetooth Marks According to the Bluetooth SIG, the PAN9026 fulfills the criteria to label your product as a Bluetooth device: For further information please refer to the Bluetooth website www.bluetooth.com. 6.5 RoHS And REACH Declaration The latest declaration of environmental compatibility (RoHS and REACH) for supplied products can be found on the Panasonic website in the "Downloads" section of the respective product 7.2.2 Product Information. Product Specification Rev. 1.2 Page 97 PAN9026 Wi-Fi/Bluetooth Module 7 Appendix 7 Appendix 7.1 Ordering Information Variants and Versions 22 Order Number Brand (Version) Description MOQ ENWF9201A1EF PAN9026 (US) Wi-Fi/Bluetooth radio module IEEE 802.11a/b/g/n Bluetooth /LE 5.0 with a ceramic chip-antenna, US version23 1000 ENWF9202A1EF PAN9026 (EU) Wi-Fi/Bluetooth radio module IEEE 802.11a/b/g/n Bluetooth /LE 5.0 with a ceramic chip-antenna, EU version24 1000 ENWF9203A1EF PAN9026 (CA) Wi-Fi/Bluetooth radio module IEEE 802.11a/b/g/n Bluetooth /LE 5.0 with a ceramic chip-antenna, CA version25 1000 ENWF9208A1EF PAN9026 (MR) Wi-Fi/Bluetooth radio module IEEE 802.11a/b/g/n Bluetooth /LE 5.0 with a ceramic chip-antenna, Multi-region version certified for US, EU, and CA26 1000 ENWF9209A1EF PAN9026 (WW) Wi-Fi/Bluetooth radio module IEEE 802.11a/b/g/n Bluetooth /LE 5.0 with a ceramic chip-antenna, noncertifified world-wide version27 1000 ENWF9201AZEF PAN9026-ETU PAN9026 SDIO Adapter with module ENWF9201A1EF 1 ENWF9201AYEF PAN9026-KIT PAN9026 Kit: 2x PAN9026 SDIO Adapter with module ENWF9201A1EF and 1x Case 1 ENWF9201AXEF PAN9026-IMX i.MX6+PAN9026 Development Kit: 1x PAN9026 MicroSD Adapter, 1x Wandboard WBIMX6U, 1x MicroSD Card, 1x Adapter cable USB-A to DC 5.5/2.5mm plug 1 ENWF9201AWEF PAN9026-MSD PAN9026 MicroSD Adapter with module ENWF9201A1EF 1 For further information please refer to our product documentation 7.2.2 Product Information. 22 Abbreviation for Minimum Order Quantity (MOQ). The standard MOQ for mass production is 1 000pieces, fewer only on customer demand. Samples for evaluation can be delivered at any quantity via the distribution channels. 23 The US version is restricted to FCC regulatory domain with blocked country code and Tx power table. The device does not support the channels 12 to 13 in the 2.4GHz band and any non-US channels. TPC, DFS, and passive scanning mechanism are set by the regulatory domain's channel table, which is stored on the OTP memory of device. 24 The EU version is restricted to European regulatory domain ETSI with blocked country code and Tx power table. TPC, DFS, and passive scanning mechanism are set by the regulatory domain's channel table, which is stored on the OTP memory of device. 25 The CA version is restricted to Canadian regulatory domain ISED with blocked country code and Tx power table. The device does not support the channels 12 to13 in the 2.4GHz band and any non-CA channels. TPC, DFS, and passive scanning mechanism are set by the regulatory domain's channel table, which is stored on the OTP memory of device. 26 The multi-region version is restricted to FCC, European ETSI, and Canadian ISED regulatory domain with blocked Tx power table, which is stored on the OTP memory of device. The device does not support the channels 12 to13 in the 2.4GHz band. DFS and passive scanning mechanism are not necessary as only the non-DFS channels in the 5 GHz band are supported. 27 The world-wide version is a non-certified variant. Regulatory domain based settings like country code, Tx power, non-usable channels, TPC, DFS, and passive scanning are controlled by the CRDA application on host system. It is necessary to implement a Geo-location mechanism on host platform. Product Specification Rev. 1.2 Page 98 PAN9026 Wi-Fi/Bluetooth Module 7 Appendix 7.2 7.2.1 Contact Details Contact Us Please contact your local Panasonic Sales office for details on additional product options and services: For Panasonic Sales assistance in the EU, visit https://eu.industrial.panasonic.com/about-us/contact-us Email: wireless@eu.panasonic.com For Panasonic Sales assistance in North America, visit the Panasonic Sales & Support Tool to find assistance near you at https://na.industrial.panasonic.com/distributors Please visit the Panasonic Wireless Technical Forum to submit a question at https://forum.na.industrial.panasonic.com 7.2.2 Product Information Please refer to the Panasonic Wireless Connectivity website for further information on our products and related documents: For complete Panasonic product details in the EU, visit http://pideu.panasonic.de/products/wireless-modules.html For complete Panasonic product details in North America, visit http://www.panasonic.com/rfmodules Product Specification Rev. 1.2 Page 99