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JODY-W1 series
Host-based modules with Wi-Fi and dual-mode Bluetooth
System integration manual
Abstract
This integration manual describes JODY-W1 series modules with 2x2 MIMO 802.11n/ac and dual-
mode Bluetooth® 5. JODY-W1 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. Connection to a host processor is
through PCIe, SDIO, or high speed UART interfaces. It comes in an SMD form-factor, providing a
complete solution for easy integration into the application.
UBX-16012621 - R18
C1-Public
www.u-blox.com
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Table of Contents
Related Manuals for Ublox JODY-W1 Series
Summary of Contents for Ublox JODY-W1 Series
- Page 1 System integration manual Abstract This integration manual describes JODY-W1 series modules with 2x2 MIMO 802.11n/ac and dual- mode Bluetooth® 5. JODY-W1 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.
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Page 2: Document Information
JODY-W1 series - System integration manual Document information Title JODY-W1 series Subtitle Host-based modules with Wi-Fi and dual-mode Bluetooth Document type System integration manual Document number UBX-16012621 Revision and date 23-Aug-2022 Disclosure Restriction C1-Public Document status description Draft For functional testing. Revised and supplementary data will be published later. -
Page 3: Table Of Contents
JODY-W1 series - System integration manual Contents Document information ..........................2 Contents ................................3 System description ..........................6 1.1 Overview and applications ........................6 1.1.1 Module architecture ........................... 7 1.1.2 Radio interfaces ..........................9 1.1.3 Power management ........................... 9 1.2 Pin configuration and function .......................10 1.2.1 Pin attributes .............................10... - Page 4 JODY-W1 series - System integration manual 2.4.3 High-speed UART interface ......................31 2.5 General high speed layout guidelines ....................31 2.5.1 General considerations for schematic design and PCB floor planning .........31 2.5.2 Component placement ........................31 2.5.3 Layout and manufacturing ......................32 2.5.4 Layout considerations to reduce spurious emissions ..............32 2.6 Module footprint and stencil design .....................33...
- Page 5 JODY-W1 series - System integration manual 4.3.1 Cleaning ..............................54 4.3.2 Other notes ............................54 Regulatory compliance ........................56 5.1 General requirements ..........................56 5.2 FCC/ISED End-product regulatory compliance ..................56 5.2.1 Referring to the u-blox FCC/ISED certification ID ..............57 5.2.2 Obtaining own FCC/ISED certification ID ..................58 5.2.3 Antenna requirements ........................58...
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Page 6: System Description
JODY-W1 series - System integration manual System description 1.1 Overview and applications The JODY-W1 series is a range of compact modules based on the Infineon CYW88359/CYW89359 (JODY-W16x) and CYW89459 (JODY-W17x) AEC-Q100 compliant chipsets. The modules enable Wi-Fi, Bluetooth ® , and Bluetooth low energy communication, and is thus ideal for in-vehicle-... -
Page 7: Module Architecture
JODY-W1 series - System integration manual 1.1.1 Module architecture Table 1 shows the available antenna and host interface configurations for JODY-W1 series module variants. Product variant Antenna configuration Host filter interface ANT0 ANT1 ANT2 JODY-W163-04A 2.4 GHz Bluetooth SDIO 2.4/5 GHz Wi-Fi (RSDB... - Page 8 JODY-W1 series - System integration manual Block diagrams of the JODY-W1 series modules are shown in Figure 1 Figure Figure 1: Block diagram of JODY-W163-A, JODY-W164-A, and JODY-W174-A Figure 2: Block diagram of JODY-W167-A UBX-16012621 - R18 System description Page 8 of 72...
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Page 9: Radio Interfaces
• JODY-W167 provides three antenna ports, two for dual band Wi-Fi (2.4 GHz and 5 GHz) and one dedicated for Bluetooth. 1.1.3 Power management The JODY-W1 series modules have different power management states. Guidelines for Wi-Fi and Bluetooth operations in different power states are defined in Table General Status... -
Page 10: Pin Configuration And Function
JODY-W1 series - System integration manual 1.2 Pin configuration and function 1.2.1 Pin attributes 1. Function: Pin function. 2. Pin name: The name of the package pin or terminal. 3. Pin number: Package pin numbers associated with each signals. 4. Power: The voltage domain that powers the pin 5. - Page 11 JODY-W1 series - System integration manual Function Pin name Pin no. Power Type Signal name Remarks Active Power down Power VBAT Module supply input Voltage supply range: 3.2 V – VBAT VBAT VBAT 4.8 V VIO supply Nominal supply range: 1.8 V or 3.3 V...
- Page 12 JODY-W1 series - System integration manual Function Pin name Pin no. Power Type Signal name Remarks Active Power down an I2S interface for Bluetooth audio. LTE_COEX_TX UART TX LTE coexistence UART Tristate LTE_COEX_RX UART RX LTE coexistence UART Disabled Control...
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Page 13: Supply Interfaces
VBAT rail through internal DC/DC converters. The current drawn by the JODY-W1 series through the VBAT pin can vary by several orders of magnitude depending on the operation mode and state. In connected mode, high-current consumption is expected at a maximum RF power level during Wi-Fi transmission. -
Page 14: Power-Up Sequence
1.4 System function interfaces 1.4.1 Module Power-on The power-on sequence of a JODY-W1 series module can be initiated by applying the respective voltage to VBAT/VIO/VIO_SD supply pins and asserting the two EN signals (logic level ). Firmware download is required each time WL_EN or BT_EN are asserted. External reset is not needed for proper operation due to internal power-up reset logic though it can be used by the host controller through the WL_EN / BT_EN in case of an abnormal module behavior. -
Page 15: Module Power-Off
1.4.4 Host interface configuration A JODY-W1 series module uses the PCIE_EN/SD_DES/SD_VDD_SEL pins as host interface configuration input to set the desired operation mode following a Power on sequence. To configure the pins for a certain module operation mode, you need to provide a 10 kΩ pull down resistor to the ground. -
Page 16: Data Communication Interfaces
VIO_SD domain during both card identification process and data transfer mode. 1.5 Data communication interfaces JODY-W1 series modules use PCI express v3.0, SDIO 3.0 and high-speed UART as host interfaces. The Wi-Fi traffic will always be communicated via the PCI express or the SDIO host interface while the Bluetooth traffic via the UART interface only. -
Page 17: High Speed Uart Interface
The SDIO host interface pins of the module are powered by the VIO_SD voltage domain. 1.5.3 High Speed UART interface The JODY-W1 series modules support a high-speed Universal Asynchronous Receiver/Transmitter (UART) interface with the following features: • Two 1040-byte FIFO for transmit and receive to support BT EDR •... -
Page 18: Pcm/I2S - Audio Interfaces
I2S_DO I2S data out Table 13: PCM digital audio signal description ☞ The PCM pins of JODY-W1 series modules can be configured to either PCM or I2S operation mode through HCI commands. See also PCM/I2S audio interface configuration. The PCM and I2S signals are powered by the VIO voltage domain. -
Page 19: Lte Coexistence Uart
JODY-W1 series - System integration manual 1.5.5 LTE Coexistence UART The module supports an auxiliary UART for coexistence with other mobile radio technologies. Name Description Remarks LTE_COEX_TX WCI-2 UART TX signal Connect to MWS device RX LTE_COEX_RX WCI-2 UART RX signal... -
Page 20: Approved Antenna Designs
1.6.2 Approved antenna designs JODY-W1 series modules come with a pre-certified design that can be used to save costs and time during the certification process. To minimize this effort, the customer is required to implement antenna layout according to u-blox reference designs. Reference design source files can be provided on request by u-blox. -
Page 21: Design-In
Design-in 2.1 Overview For an optimal integration of JODY-W1 series modules in the final application board, it is recommended to follow the design guidelines stated in this chapter. Every application circuit must be properly designed to ensure the correct functionality of the related interface, however a number of points require high attention during the design of the application device. -
Page 22: Rf Transmission Line Design
JODY-W1 series - System integration manual 2.2.1 RF transmission line design RF transmission lines such as the ones from the ANT0, ANT1 and ANT2 pins up to the related antenna connectors must be designed so that the characteristic impedance is as close as possible to 50 ... -
Page 23: Antenna Design
JODY-W1 series - System integration manual • For PCBs using components bigger than 0402 and dielectric thickness below 200 µm, it is recommended to add a keep-out (that is, clearance, a void area) on the ground reference layer below any pin present on the RF transmission lines to reduce parasitic capacitance to ground. - Page 24 JODY-W1 series - System integration manual • Integrated antennas such as patch-like antennas: Internal integrated antennas imply physical restriction to the PCB design: Integrated antenna excites RF currents on its counterpoise, typically the PCB ground plane of the device that becomes part of the antenna; its dimension defines the minimum frequency that can be radiated.
- Page 25 JODY-W1 series - System integration manual Item Requirements Remarks ECC < 0.1 recommended Envelope Correlation The ECC parameter correlates the far field parameters between Coefficient (ECC) antennas in the same system. A low ECC parameter is ECC < 0.5 acceptable fundamental to improve performance in MIMO-based systems.
- Page 26 JODY-W1 series - System integration manual ☞ A de-facto standard for SMA connectors implies the usage of reverse polarity connectors (RP- SMA) on end user accessible Wi-Fi and Bluetooth interfaces to increase the difficulty to replace the antenna with higher gain versions and exceed regulatory limits.
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Page 27: Supply Interfaces
Table Good connection of the JODY-W1 series module power supply pins with DC supply source is required for accurate RF performance and schematic guidelines are summarized below: • All power supply pins must be connected to an appropriate DC source. - Page 28 JODY-W1 series - System integration manual 2.3.1.1 Guidelines for VCC supply circuit design using a switching regulator It is recommended to use a Switching Mode Power Supply (SMPS) when the difference from the available supply rail to the VBAT rail allows significant power savings. For example, conversion of a 12 V or greater voltage supply to the nominal 3.3 V value for the VBAT supply.
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Page 29: Data Communication Interfaces
2.4.1 PCI express The PCI express bus of JODY-W1 series modules support PCIe v3.0 connectivity at transfer rates up to 2.5 Gbaud. PCIe differential clock and data pairs accommodate a controlled impedance bus. The parameters needed for the track impedance calculation are shown in... - Page 30 JODY-W1 series - System integration manual Figure 9 shows the suggested application schematic for the SDIO bus in JODY-W1 modules, while Table 21 summarizes the electrical requirements of the bus. Figure 9: SDIO application schematic ☞ Pull-up resistors can be provided either externally on the host PCB or internally in the host application processor.
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Page 31: High-Speed Uart Interface
JODY-W1 series - System integration manual 2.4.3 High-speed UART interface The high-speed UART interface for the JODY-W1 complies with the HCI UART Transport layer and uses the settings described in Table UART Settings baud rate default 115200 Baud Data bits... -
Page 32: Layout And Manufacturing
⚠ The heat dissipation during continuous transmission at maximum power can significantly raise the temperature of the application baseboard below the JODY-W1 series modules. Avoid placing temperature sensitive devices close to the module and provide adequate grounding to transfer the generated heat to the PCB. -
Page 33: Module Footprint And Stencil Design
JODY-W1 series - System integration manual 2.6 Module footprint and stencil design Figure 10: Recommended footprint and stencil opening (grey) for JODY-W1 module (dimensions in mm) ⚠ Future variants of JODY-W1 can have more pins in the area enclosed with dotted lines. To ensure compatibility, keep this area free of copper. -
Page 34: Thermal Guidelines
• If SMD design is chosen for inner pads, the land pattern can be flooded on a ground plane beneath the module and vias added around the pads for heat sinking. The suggested stencil layout for the JODY-W1 series module follows exactly the copper outer pad layout as described in Figure 10. -
Page 35: Esd Guidelines
• Power planes and signal traces should not cross the layers beneath the module to maximize heat flow from the module. ☞ For information about the thermal parameters, see also the JODY-W1 series data sheet [2]. The following additional hardware techniques can be used to improve the thermal performance of the module in customer’s applications: •... -
Page 36: Design-In Checklist
JODY-W1 series - System integration manual 2.9 Design-in checklist 2.9.1 Schematic checklist JODY-W1 module pins are properly numbered and designated on the schematic (including thermal pins). Power supply design complies with the specification. The power sequence (including WL_EN and BT_EN signal handling) is properly implemented. -
Page 37: Software
JODY-W1 series - System integration manual Software This chapter provides information on how to set up the JODY-W1 series module on a Linux operating system. It describes the available driver packages and shows how they can be compiled and deployed into the target system. -
Page 38: Software Package Content
JODY-W1 series - System integration manual 3.2 Software package content Separate DHD software releases are available for different chipsets used in JODY-W1 series and PCIe or SDIO Wi-Fi host interfaces. Normally, a software package from Infineon contains the following items: •... -
Page 39: Additional U-Blox Software Deliverables
3.3.1 Wi-Fi driver The Wireless LAN driver for the JODY-W1 series module is a so-called FullMAC driver, as the 802.11 MAC management tasks are handled by the device firmware. Configuration management of the Wi- Fi device is handled by the cfg80211 subsystem of the Linux kernel and user-space configuration is managed through the nl80211 protocol. -
Page 40: Compiling The Software
3.4.1 Prerequisites The Wi-Fi driver for the JODY-W1 series modules is depending on the PCI or MMC/SDIO stack of the Linux kernel; thus this must be enabled in the target system’s kernel configuration. For configuration management, the driver supports the cfg80211 wireless configuration API, which needs to be selected via the CONFIG_CFG80211 option. -
Page 41: Additional Software Requirements
$ modprobe bcmdhd firmware_path=/lib/firmware/brcm/fw_bcmdhd_RSDB.bin nvram_path=/lib/firmware/brcm/<nvram.txt> clm_path=/lib/firmware/brcm/<clm_blob> ☞ nvram.txt file contains basic configuration settings and calibration data for JODY-W1 series modules. If the kernel module is automatically loaded by the kernel or a user-space helper, the options can be modprobe provided in a configuration file, for example: options bcmdhd firmware_path=/lib/firmware/brcm/fw_bcmdhd_RSDB.bin... -
Page 42: Bluetooth Initialization
01:00.0 Network controller: Broadcom Corporation Device 4355 (rev 05) […] The following listing shows an example message from the kernel log, when the JODY-W1 series module is detected in SDIO mode: mmc2: new ultra high speed SDR104 SDIO card at address 0001 When the module is detected on the PCI express or SDIO interface, the driver will automatically download the firmware to it, initialize the hardware, and register the network interfaces. -
Page 43: Usage Examples
6. Run the Bluetooth daemon: Finally, the Bluetooth daemon should be started to enable Bluetooth services. $ bluetoothd 3.8 Usage examples This section provides some typical usage examples for JODY-W1 series modules. The examples use wpa_ supplicant for managing the module in Access Point (AP) and Station (STA) mode. The wpa_supplicant... -
Page 44: Softap + 2G Softap
When creating an AP+AP configuration, the 5 GHz AP should be started first, since Bluetooth is connected to core0 of the JODY-W1 series module. If the 2.4 GHz AP is started first, it will come up on core0 instead and might cause interferences with 2.4 GHz Bluetooth. -
Page 45: Softap + 2G Station
JODY-W1 series - System integration manual Assign an IP address to the AP network interface and run a DHCP server: $ cat udhcpd-bcm1.conf start 192.168.10.8 end 192.168.10.255 interface bcm1 pidfile /var/run/udhcpd-bcm1.pid lease_file /var/lib/misc/udhcpd-bcm1.leases option subnet 255.255.255.0 option lease 864000 # default: 10 days $ ifconfig bcm1 192.168.10.1... -
Page 46: Country Code Selection
JODY-W1 series - System integration manual To configure the IP address through DHCP: $ udhcpc –i wlan0 Listing 14: 2.4 GHz STA IP configuration 3.8.3 Country code selection The country code for the operational region is selected with the command. This enables wl country the regulatory configuration from the CLM for the selected country. -
Page 47: Pcm/I2S Audio Interface Configuration
PCM/I2S audio interface configuration The PCM/I2S interface is configured with the HCI command. For I2S Write_I2SPCM_Interface_Param operation over the PCM interface of JODY-W1 series modules, you need to: 1. Configure SCO routing through PCM using the HCI command Write_SCO_PCM_Int_Param 2. Configure the operation mode of the PCM interface to I2S (set I2S_Enable parameter to 0x1) -
Page 48: Pcm Loopback Mode
JODY-W1 series - System integration manual Command parameters: I2S_Enable Enables or disables I2S mode for the PCM interface. Size: 1 Octet Value Parameter description 0x00 Disable 0x01 Enable Is_Master Select master or slave mode. Size: 1 Octet Value Parameter description... -
Page 49: Set Sleep Mode Parameters
JODY-W1 series - System integration manual Return parameters: Status Error code as specified in Bluetooth Core Specification. Size: 1 Octet Value Parameter description 0x00 Command succeeded 0x01-0xFF Command failed 3.9.4 Set sleep mode parameters Low power sleep mode with out-of-band control signals is configured with the Set_Sleepmode_Param HCI command. - Page 50 JODY-W1 series - System integration manual Command parameters Sleep_Mode Sleep mode algorithm selection. Size: 1 Octet Value Parameter description 0x00 No sleep mode 0x01 UART with out-of-band signals Idle_Threshold_Host Number of firmware loops executed with no ‘activity’ before Host Size: 1 Octet Controller deasserts BT_HOST_WAKE line.
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Page 51: Enable Wide Band Speech
JODY-W1 series - System integration manual Reserved Size: 3 Octets Value Parameter description 0x00-0xFF Pulsed_HOST_WAKE Size: 1 Octet Value Parameter description 0x01 After asserting BT_HOST_WAKE, if HOST does not wake up, deassert BT_HOST_WAKE and retry assertion 0x00 Otherwise Return parameters: Status Error code as specified in Bluetooth Core Specification. -
Page 52: Handling And Soldering
JODY-W1 series - System integration manual Handling and soldering ⚠ JODY-W1 series modules are Electrostatic Sensitive Devices that demand the observance of precautions against electrostatic discharge. Failure to observe precautions can result in severe damage to the product. Standard ESD safety practices must be applied. -
Page 53: Reflow Soldering Process
JODY-W1 series - System integration manual 4.3 Reflow soldering process JODY-W1 series modules are surface mount devices supplied in LGA package. The modules have a multi-layer FR4-type PCB with nickel/gold-plated solder pads and are produced in a lead-free process using lead-free soldering paste. The thickness of solder resist between the host PCB top side and the bottom side of JODY-W1 series modules must be considered for the soldering process. -
Page 54: Cleaning
JODY-W1 series - System integration manual Figure 14: Reflow profile ☞ The lower value of T and slower ramp down rate is advised. 4.3.1 Cleaning Cleaning the modules is not recommended. Residues underneath the modules cannot be easily removed with a washing process. - Page 55 JODY-W1 series - System integration manual • Grounding metal covers: Attempts to improve grounding by soldering ground cables, wick, or other forms of metal strips directly onto the EMI covers is done at the customer’s own risk and voids the module warranty.
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Page 56: Regulatory Compliance
This section contains instructions on the process needed for an integrator when including the JODY-W1 series into an end-product. • Any deviation from the process described may cause the JODY-W1 series module not to comply with the regulatory authorizations of the module and thus void the user’s authority to operate the equipment. -
Page 57: Referring To The U-Blox Fcc/Ised Certification Id
JODY-W1 series - System integration manual The evaluation of the end product shall be performed with the JODY-W1 module installed and operating in a way that reflects the intended use case for the end product. The upper frequency measurement range of the end product evaluation is the 10th harmonic of 5.8 GHz, as described in KDB 996369 D04. -
Page 58: Obtaining Own Fcc/Ised Certification Id
For modules with the FCC ID / ISED certification ID printed on the label, the integrator must replace the module label with one that includes the new FCC/ISED ID. For a description of the labeling requirements, refer to the JODY-W1 series data sheet [2]. ⚠... -
Page 59: Configuration Control And Software Security Of End-Products
JODY-W174-03A, JODY-W174-13A (FCC ID TBD.). As the end-product must comply with the requirements addressed by the OET KDB 594280 [15], the host product integrating the JODY-W1 series must comply with the following requirements: • Upon request from u-blox, the host product manufacturer will provide all of the necessary information and documentation to demonstrate how the requirements listed below are met. -
Page 60: Operating Frequencies
Commission, 7435 Oakland Mills Road, Columbia, MD 21046. Attn: U-NII Coordination, or via Web site at https://www.fcc.gov/labhelp with the subject line: “U-NII-1 Filing”. 5.2.6 End product labeling requirements For an end-product using the JODY-W1 series, there must be a label containing, at least, the following information: This device contains FCC ID: (XYZ)(UPN) IC: (CN)-(UPN) (XYZ) represents the FCC “Grantee Code”, this code may consist of Arabic numerals, capital letters,... -
Page 61: Original Fcc And Ised Grant
FCC/ISED ID and/or this statement, the FCC/ISED ID and the statement shall also be included in the end-product manual. 5.2.7 Original FCC and ISED grant The original grant and the FCC/ISED IDs of the JODY-W1 series module can be found in the JODY-W1 series data sheet [2]. UBX-16012621 - R18 Regulatory compliance... -
Page 62: Ce End-Product Regulatory Compliance
Guidance on end product marking, according to the RED can be found at: http://ec.europa.eu/ ☞ The restrictions for operating JODY-W1 series modules in Wi-Fi mode in European countries are described in the “European Union regulatory compliance” section of the data sheet [2]. -
Page 63: Overview Of The Regulatory Clm Process
7. A new CLM will be released if changes to the power levels are needed or the country list is updated. ☞ For further information about the regulatory approval process with the JODY-W1 series modules, contact your local u-blox support team. -
Page 64: Product Testing
JODY-W1 series - System integration manual Product testing 6.1 u-blox in-line production testing As part of our focus on high quality products, u-blox maintain stringent quality controls throughout the production process. This means that all units in our manufacturing facilities are fully tested and that any identified defects are carefully analyzed to improve future production quality. -
Page 65: Oem Manufacturer Production Test
JODY-W1 series - System integration manual 6.2 OEM manufacturer production test As all u-blox products undergo thorough in-line production testing prior to delivery, OEM manufacturers do not need to repeat any firmware tests or measurements that might otherwise be necessary to confirm RF performance. Testing over analog and digital interfaces is also unnecessary during an OEM production test. -
Page 66: Appendix
JODY-W1 series - System integration manual Appendix A Regulatory transmit output power limits A.1 FCC/IC Table 30 lists the maximum allowable conducted output power limits for operation in the FCC/IC regulatory domains. The output power limits are applicable with an external antenna gain of 2 dBi. -
Page 67: Etsi
JODY-W1 series - System integration manual A.2 ETSI Table 31 lists the maximum allowable conducted output power limits for operation in the ETSI regulatory domain. The output power limits are applicable with an external antenna gain of 0 dBi. Channel... -
Page 68: B Glossary
JODY-W1 series - System integration manual B Glossary Abbreviation Definition Automotive Electronics Council Access Point Application Programming Interface Automatic Test Equipment Bluetooth Charged Device Model European Conformity Clear to Send Direct Current Double Data Rate Dynamic Frequency Selection DHCP Dynamic Host Configuration Interface... - Page 69 JODY-W1 series - System integration manual Abbreviation Definition Power Management Unit Radio Frequency RSDB Real Simultaneous Dual Band Request to Send SDIO Secure Digital Input Output Solder Mask Defined SMPS Switching Mode Power Supply Surface-Mount Technology SSID Service Set Identifier...
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Page 70: Related Documents
JODY-W1 series - System integration manual Related documents Product packaging guide, UBX-14001652 JODY-W1 series data sheet, UBX-16013635 IEC EN 61000-4-2 – Electromagnetic compatibility (EMC) – Part 4-2: Testing and measurement techniques – Electrostatic discharge immunity test ETSI EN 301 489-1 – Electromagnetic compatibility and Radio spectrum Matters (ERM);... -
Page 71: Revision History
JODY-W1 series - System integration manual Revision history Revision Date Name Comments 22-July-2016 sbia Initial release. 3-Nov-2016 sbia, ishe, Added section 3. Removed USB support. Modified the block diagram for mzes, ddie, JODY-W165, features definition (Table Changed kgom configuration pin settings in section 1.4.4. Updated SDIO requirements in section 2.4.2. -
Page 72: Contact
JODY-W1 series - System integration manual Revision Date Name Comments 28-May-2021 mzes Updated product status described in document information. Removed references to JODY-W163-05A, JODY-W164-04A, and JODY-W164-05A product variants as these have now reached End of Life. Updated FMAC driver link in Available software packages .Revised the description of...