JODY-W2 series Host-based multiradio modules with Wi-Fi and Bluetooth 5 Data sheet Abstract This technical data sheet describes the JODY-W2 series modules with 1x1 802.11n/ac and dual-mode Bluetooth 5. JODY-W2 is ideal for in-vehicle infotainment and telematics applications with simultaneous use cases requiring high data rates, such as in-car hotspots, Wi-Fi display applications such as Apple CarPlay, or video streaming across multiple clients.
JODY-W2 series - Data sheet Document information Title JODY-W2 series Subtitle Host-based multiradio modules with Wi-Fi and Bluetooth 5 Document type Data sheet Document number UBX-18017567 Revision and date R07 Disclosure restriction C1 - Public 28-Jan-2021 Product status Corresponding content status Functional Sample Draft For functional testing. Revised and supplementary data will be published later. In Development / Prototype Objective specification Target values.
JODY-W2 series - Data sheet Contents Document information ................................................................................................................................ 2 Contents .......................................................................................................................................................... 3 1 2 Functional description ......................................................................................................................... 5 1.
JODY-W2 series - Data sheet 7 Approvals................................................................................................................................................ 27 7.1 European Union regulatory compliance ............................................................................................... 27 7.1.1 Radio Equipment Directive (RED) 2014/53/EU ........................................................................... 27 7.1.2 Compliance with the RoHS directive .........
JODY-W2 series - Data sheet 1 Functional description 1.1 Overview The JODY-W2 series are compact modules based on the NXP 88W8987 chipset family. The chipsets used in the automotive grade JODY-W2 modules are AEC-Q100 compliant. They enable Wi-Fi, Bluetooth, and Bluetooth Low Energy (LE) communication, and are ideal for automotive and industrial applications. The JODY-W2 modules can be operated in the following modes: Wi-Fi 1x1 802.11a/b/g/n/ac in 2.
JODY-W2 series - Data sheet 1.3 Block diagram Figure 1 shows the various components and interfaces supported in JODY-W2 series modules. Figure 1: JODY-W263-A block diagram ☞ JODY-W2 variants with a dedicated LTE Coexistence Filter (2.4 GHz BPF) are available on request. Coexistence filters are only needed if LTE bands 7, 38, 40, and 41 are used. The type numbers and corresponding configuration options for JODY-W2 series modules are shown in Table 1.
JODY-W2 series - Data sheet 1.4 Product features Item JODY-W263-A JODY-W263 Grade Automotive Professional Chipset NXP 88W8987A/S NXP 88W8987 Antenna type Two antenna pins for Wi-Fi and Bluetooth Two antenna pins for Wi-Fi and Bluetooth Supported Wi-Fi radio modes IEEE 802.11 a/b/g/n/ac IEEE 802.11 a/b/g/n/ac Supported Wi-Fi bands 2.5 / 5 GHz 2.5 / 5 GHz Max. Wi-Fi output power 19 dBm (at antenna pin) 19 dBm (at antenna pin) Bluetooth version 5.0 5.
JODY-W2 series - Data sheet 1.4.2 Wi-Fi Simultaneous operation modes AP Simultaneous operation o AP + AP - Multi-BSS support (MAX_UAP_BSS = 2) o AP + AP + STA o AP + STA P2P Simultaneous operation o P2P + STA o P2P + AP o P2P + STA + AP ☞ Please note that two or more Wi-Fi interfaces should operate in the same channel. 1.4.
JODY-W2 series - Data sheet 2 Interfaces 2.1 Host interface configuration The JODY-W2 series provides two configuration pins, CONFIG[0] and CONFIG[1], for selecting the host interface configuration and additional configuration pins are used to set parameters following a reset. To set a configuration bit to 0, attach a 100 kΩ resistor to GND. No external pull-up resistor is required to set a configuration bit to 1. Table 4 Table 5 show all strapping options.
JODY-W2 series - Data sheet 2.2.1 Default speed and high speed modes (1.8 V) fPP tWL tWH SDIO_CLK tTHL tTLH tISU tIH INPUT tODLY tODLY (max) (min) OUTPUT Figure 2: SDIO Protocol timing diagram - default speed mode (1.8 V) fPP tWL 50% VCC tWH SDIO_CLK tTHL tTLH tISU tIH INPUT tODLY tOH OUTPUT Figure 3: SDIO Protocol timing diagram – high speed mode (1.8 V) Symbol Parameter Condition Min. Typ. Max.
JODY-W2 series - Data sheet Symbol Parameter Condition Min. Typ. Max. Units tIH Input hold time Normal 5 - - ns High speed 2 - - ns tODLY Output delay time Normal - - 14 ns tODLY Output delay time CL ≤ 40 pF (1 card) High speed - - 14 ns tOH Output hold time High speed 2.5 - - ns Table 7: SDIO timing data – Default speed, High speed modes (1.8 V) 2.2.2 SDR12, SDR25, SDR50 modes (up to 100 MHz, 1.
JODY-W2 series - Data sheet 2.2.3 SDR104 mode (208 MHz, 1.8 V) Figure 5: SDIO protocol timing diagram – SDR104 mode (208 MHz, 1.8 V) Symbol Parameter Condition Min. Typ Max. Units fPP Clock frequency SDR104 0 - 208 MHz TIS Input setup time SDR104 1.4 - - ns TIH Input hold time SDR104 0.8 - - ns TCLK Clock time SDR104 4.8 - - ns tCR, tCF, Rise time, fall time TCR, TCF < 0.96 ns (max) at 208 MHz CCARD = 10 pF SDR104 - 0.
JODY-W2 series - Data sheet Figure 7: SDIO DAT [3:0] timing diagram – DDR50 mode (50 MHz, 1.8 V) Symbol Parameter Condition Min. Typ Max. Units TCLK Clock time 50 MHz (max) between rising edges DDR50 20 - - ns tCR, tCF, Rise time, fall time TCR, TCF < 4.00 ns (max) at 50 MHz CCARD = 10 pF DDR50 - - 0.
JODY-W2 series - Data sheet 2.3 High Speed UART interface JODY-W2 series modules support a high-speed Universal Asynchronous Receiver/Transmitter (UART) interface in compliance with the industry standard 16550 specification.
JODY-W2 series - Data sheet 2.4 PCM Interface JODY-W2 series modules include a Pulse Code Modulation (PCM) interface that supports: Master or Slave mode PCM bit width size of 8 bits or 16 bits Up to 4 slots with configurable bit width and start positions Short frame and long frame synchronization Burst PCM mode In PCM master mode, the interface generates a 2 MHz or a 2.048 MHz PCM_CLK and 8 kHz PCM_SYNC signal.
JODY-W2 series - Data sheet Figure 10: PCM timing specification – Slave mode Symbol Parameter Condition FBCLK PCM clock frequency - Duty CycleBCLK - TBCLK rise/fall - TDO Min. Typ Max. Units - 2/2.048 - MHz 0.4 0.5 0.6 - - - 3 - ns - - - - 30 ns TDISU - - 20 - - ns TDIHO - - 15 - - ns TBF - - - - 15 ns Table 14: PCM timing specification – Slave mode 2.
JODY-W2 series - Data sheet 3 Pin definition 3.
JODY-W2 series - Data sheet Function Pin Name Pin No. Power Type Signal Name Remarks Power VBAT 2 VBAT PWR Module supply input Voltage supply range: 2.8 V – 5.5 V VIO 3 VIO PWR VIO supply Nominal supply range: 1.8 V or 3.3 V 1V8 4 1V8 PWR VIO supply for SDIO Supply for analog part Nominal supply: 1.
JODY-W2 series - Data sheet Function GPIOs Radio Other Pin Name Pin No. Power Type Signal Name Remarks LPO_IN 60 - I Sleep clock input 32.768 kHz clock input.
JODY-W2 series - Data sheet 4 Electrical specification ⚠ Operating JODY-W2 modules above any of the absolute maximum ratings shown in Table 16 can cause permanent damage to the device. Extended exposure to conditions outside of the absolute maximum ratings can also affect the device reliability. 4.1 Absolute maximum ratings Symbol Description Min. Max. Units VBAT Power supply voltage -0.3 7.0 V VIO I/O supply voltage 1.8V/3.3V - 4.0 V 1V8 Analog power supply voltage 1.8V - 1.
JODY-W2 series - Data sheet 4.3 Wi-Fi power consumption Peak current condition Temperature VBAT (3.3 V) [A] 1V8 (1.8 V) [A] Active transmission Room temperature 0.5 0.18 T_max (105° C) 0.8 0.2 Room temperature 0.7 0.2 T_max (105° C) 0.7 0.2 Firmware Initialization Table 18: Peak current consumption VBAT (3.3 V) [mA] 1V8 (1.8 V) [mA] VIO (1.8 V) [µA] 5.97 0.04 7 7.74 0.85 66 IEEE Power Save DTIM 1 and BT deep-sleep 8.71 1.60 63 IEEE Power Save DTIM 2 and BT deep-sleep 8.
JODY-W2 series - Data sheet 4.4 Bluetooth power consumption Bluetooth operation modes VBAT (3.3 V) [mA] 1V8 (1.8 V) [mA] VIO (1.8 V) [µA] BLE advertisement 8.21 1.45 64 BT page scan 7.83 0.98 64 BT page & inquiry scan 7.89 1.13 64 Operating modes Active transmit/receive mode (average over 100ms, measured using HCI commands) BT TX, pattern - DH5, power: 4 dBm, Ch1 13.62 2.00 64 BT TX, pattern - DH5, power: 10 dBm, Ch1 14.34 6.87 64 BT RX pattern - DH5, Ch1 14.08 5.
JODY-W2 series - Data sheet 4.6.2 Wi-Fi JODY-W2 series modules support dual-band Wi-Fi with 802.11a/b/g/n/ac operation in the 2.4 GHz and 5 GHz radio bands. Parameter RF Frequency range Modulation Supported data rates Supported channel bandwidth Supported guard interval (GI) Operation mode Specification 802.11b/g/n 2.400 – 2.500 GHz 802.11a/n/ac 4.900 – 5.925 GHz 802.11b CCK and DSSS 802.11a/g/n/ac OFDM 802.11b 1, 2, 5.5, 11 Mbps 802.11a/g 6, 9, 12, 18, 24, 36, 48, 54 Mbps 802.
JODY-W2 series - Data sheet Band Operating mode Data rate Bandwidth MCS2/MCS3 5 GHz 802.11a 802.
JODY-W2 series - Data sheet 5 Host drivers and firmware 5.1 General principle JODY-W2 series modules do not contain any persistent software. A firmware binary is downloaded by the host operating system driver at start-up. 5.2 Supported operating systems 5.2.1 Linux The reference driver, developed by NXP and distributed by u-blox, is only made available to customers that have signed a limited use license agreement (LULA) [4] with u-blox.
JODY-W2 series - Data sheet 6 Mechanical specifications * Figure 12: JODY-W2 series dimensions (bottom view) Parameter Description Typical Tolerance A Module length [mm] 19.8 (779.5 mil) +0.35/-0.1 (+13.8/-3.9 mil) B Module width [mm] 13.8 (543.3 mil) +0.1/-0.1 (+3.9/-3.9 mil) C Module thickness [mm] 2.5 (98.4 mil) +0.2/-0.2 (+7.9/-7.9 mil) ccc Seating plane coplanarity [mm] <0.1 (3.94 mil) D PCB edge-to-pin Edge [mm] 0.3 (11.8 mil) +0.20/-0.20 (+7.9/-7.
JODY-W2 series - Data sheet 7 Approvals JODY-W2 series modules comply with the regulatory demands of Radio Equipment Directive (RED), Federal Communications Commission (FCC), Innovation Science and Economic Development (ISED)6. ⚠ All approvals are pending. ☞ See JODY-W2 series System Integration Manual [2] for detailed information about regulatory compliance requirements of end products that use JODY-W2 series modules. 7.
JODY-W2 series - Data sheet Below is the list of the FCC IDs allocated to JODY-W2 series modules. Model7 FCC ID JODY-W263-00A, JODY-W263-01A, JODY-W263-00B XPYJODYW263 Table 27: FCC and ISED IDs for different variants of JODY-W2 series modules 7.2.1 FCC compliance statement The JODY-W2 series modules have modular approval and comply with Part 15 of the FCC Rules. Operation is subject to the following two conditions: 1. This device may not cause harmful interference, and 2.
JODY-W2 series - Data sheet JODY-W2 series module are certified for use in accordance with the Canada Innovation, Science and Economic Development Canada (ISED) Radio Standards Specification (RSS) RSS-247 Issue 2 and RSSGen. Below is the list of the ISED IDs allocated to JODY-W2 series modules.
JODY-W2 series - Data sheet 7.3.1 ISED compliance statement The JODY-W2 series module complies with ISED (Innovation, Science and Economic Development Canada)8 license-exempt RSSs. Operation is subject to the following two conditions: (1) This device may not cause interference, and (2) This device must accept any interference, including interference that may cause undesired operation of the device.
JODY-W2 series - Data sheet MHz et 5650-5850 MHz et que ces radars pourraient causer des interférences et / ou des dommages à dispositifs LAN-EL. L’étiquette d’homologation d’ISED d’un module donné doit être posée sur l’appareil hôte à un endroit bien en vue en tout temps.
JODY-W2 series - Data sheet 8 Product handling 8.1 Packaging For efficient production, production lot set-up and tear-down, JODY-W2 series modules are delivered as hermetically sealed devices on tape and reel. For more information about packaging, see the u-blox package Information Guide Error! Reference source not found.. 8.1.1 Reels JODY-W2 series modules are deliverable in quantities of 500 pieces on a reel.
JODY-W2 series - Data sheet 8.2.2 Mounting process and soldering recommendations Reflow profiles are to be selected according to u-blox recommendations. See JODY-W2 series System integration manual [2] for more information. 8.2.3 ESD handling precautions ⚠ JODY-W2 series modules are Electrostatic Sensitive Devices (ESD).
JODY-W2 series - Data sheet 9 Labeling and ordering information 9.1 Product labeling The labels of JODY-W2 series include important product information as described in this section. The data matrix code for automotive and professional grade variants of JODY-W2 series includes a serial number. Figure 14 illustrates the sample label of the JODY-W2 series and includes: the u-blox logo, product name (model), type number, FCC and IC certification number and date of unit production encoded YY/WW (year/week).
JODY-W2 series - Data sheet 9.2 Explanation of codes Two different product code formats are used. The Product name is used to identify the module in all related documentation. An appropriate name is given for all u-blox products – regardless of the packaging and quality grade. The Ordering code includes options and quality, while the Type Number includes the hardware and firmware versions. Table 32 describes these three different code formats.
Appendix A.1 Antenna reference design A.1.1 Scope This appendix defines the essential specifications necessary to implement the JODY-W2 antenna reference designs as used in certification. It is part of the equipment certification application issued to FCC and ISED. The information contained herein and its references should be sufficient to guide a skilled person to implement the design on a host carrier. It will provide the designer with PCB layout details and expected performance specifications.
Item Requirements Remarks Isolation (in-band) S21 > 25 dB recommended S21 > 20 dB acceptable The antenna to antenna isolation is the S21 parameter between the two antennas in the band of operation.
Figure 16. Test set-up. A.1.4 RF trace PCB routing The PCB routing connecting the module’s antenna pins to module board U.FL connectors are designed with coplanar microstrips. Coplanar microstrips are also used on the carrier board connecting the U.FL connectors with the SMA connectors to which the external antennas or test equipment are connected. Figure 17 and Table 37 shows the design stack-up including dimensions of the 50 Ω coplanar microstrips implemented.
The antenna ports shown in Figure 18 on the right hand side are from top to bottom: ANT1, ANT0, and ANT2. ANT2 is not used and shall be left unconnected. Figure 18. Module board Antenna micro strip implementation. Figure 19. Component selection for RF matching network on module board using 0 ohm series resistor.
The carrier board RF traces includes pi network matching components and are routed as coplanar microstrips. Here 10 pF capacitors in series are implemented. Figure 20. Carrier board Antenna micro strip implementation. Figure 21. Component selection for RF matching network on carrier board using 10 pF series capacitors.
A.1.5 Parts Part Description Outline Evaluation board (EVB) Evaluation board for JODY-W263 series modules. The board includes SMA antenna connectors that connect to external antennas for Wi-Fi and Bluetooth. It has two internal dual-band WiFi/Bluetooth antennas.
B Glossary Abbreviation Definition AC Alternating Current CMD Command DC Direct Current DDR Double Data Rate ESD Electrostatic Sensitive Devices FCC Federal Communications Commission FIFO First In, First Out GI Guard interval GND Ground GPIO General-purpose input/output HD High Definition HCI Host Controller Interface ISED Innovation, Science and Economic Development Canada ISM Industrial, scientific and medical LE Bluetooth Low Energy LTE Long Term Evolution LULA Limited
Abbreviation Definition SDIO Secure Digital Input Output SDR Single Data Rate SISO Single-input single-output SMD Surface-mount Device STA Station TBD To be defined USB Universal Serial Bus UART Universal Asynchronous Receiver/Transmitter VSDB Virtual Simultaneous Dual Band WAPI WLAN Authentication and Privacy Infrastructure WLAN Wireless Local Area Network Table 38: Explanation of the abbreviations and terms used UBX-18017567 - R07 C1 - Public Appendix Page 43 of 46
Related documents [1] [2] [3] [4] [5] [6] [7] [8] [9] u-blox package information guide, UBX-14001652 JODY-W2 series, system integration manual, UBX-18068879 Radio Equipment Directive (RED); https://ec.europa.eu/growth/sectors/electrical-engineering/red-directive; July 2017a u-blox Limited Use License Agreement (LULA-M) Android integration, application note, UBX-19035432 ANT-DB1-RAF-XXX Data sheet, Linx, https://linxtechnologies.com/wp/wpcontent/uploads/ant-db1-raf-fff.pdf GW.40.
Revision history Revision Date Name Comments R01 20-Nov-2018 shoe, mhei, kgom Initial release. R02 09-Apr-2019 vbak Updated Error! Reference source not found. (Pin name “BT_DEV_WAKE”). Changed the power domain for SDIO lines (Table 15). R03 02-May-2019 kgom Changed product status for JODY-W263-01A-00 to Prototype. R04 25-Apr-2020 vbak, aheg Corrected pin 59 description and Wi-Fi/Bluetooth output power (Table 22 and Error! Reference source not found.).
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