ZigBit™ OEM Modules
Contents
1. p T 9 9 oM i y E 2 rose 00000000000 800000000000000 000000 5 o x00000 Ao 20006009499 60000099 0 7 1 9 1 2 9 8 gt 2 through holes 03 0 a Metallized through holes 00 3 0 4 Recommended step 1 mm O O O O O O O O O O O O 19006000060005000000000000000000 Two capacitors 0402 22pF 5 NPO High Freq Grade Murata GRM1555C1H220JZ0D Area supporting h mponen 2011207 525 Metallization wires gt through holes are unallowed 11 5 a gt Metallization 0000000000000000000000000000 0000000000000 O009900900909000900990099099006 5 nm 0000000000000000000000000000 000000000 000000000000 0000000000000000 E 9 Material FR 4 thickness 1 6 mm 7 Metallization 35 um Coating HASL solder ma2. lop side 60 0 4 gt LO LO 3 000000000000000000000000000 0000000000000000000000000000 3 5 O O O O 9 Bottom side 000099009009000000000000000000000 O 6 6 6 O O 6 O O OO OOO O 6 O O O O O O O O OOO Q0 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 Product Datasheet 2 through holes O3 0 Metallized through holes O0 3 0 4 Recommended step 1 mm Area supporting the components Metallization wires through holes are unallowed Metallization Material FR 4 thickness 1 6 mm Metallization 35 um Coating HASL solder mask All dimensions are in millimeters Normally chip antennas are more tolerant of the board or enclosure materials in ZigBits neighborhood as well However general recommendations given above for the PCB antenna design still apply The board desi
3. 22 Ordering WACHA E E 23 DIS ONA et ee em 24 TA nip c RE m AA 24 Te RAICA 24 Contact IT OR NAC ON P 24 2008 MeshNetics Page 2 of 24 w Meshlletics ZigBit OEM Modules Product Datasheet Summary ZigBit is an ultra compact low power high sensitivity 2 4GHz 802 15 4 ZigBee OEM module from MeshNetics based on the innovative Atmel s mixed signal hardware platform It is designed for wireless sensing control and data acquisition applications ZigBit modules eliminate the need for costly and time consuming RF development and shorten time to market for a wide range of wireless applications Two different versions of ZigBit modules are available ZDM A1281 BO module with balanced RF port for applications where the benefits of PCB or external antenna can be utilized and ZDM A1281 A2 module with dual chip antenna satisfying the needs of size sensitive applications Applications ZigBit module ships with robust 802 15 4 ZigBee stack that supports a self healing self organizing mesh network while optimizing network traffic and minimizing power consumption MeshNetics offers three stack configurations ZigBeeNet SerialNet and OpenMAC ZigBeeNet is a certified ZigBee PR
4. Input RF Level 10 dBm Absolute Maximum Ratings are the values beyond which damage to the device may occur Under circumstances must the absolute maximum ratings given in this table be violated Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device This is a stress rating only Functional operation of the device at these or other conditions beyond those indicated in the operational sections of this specification is not implied Exposure to absolute maximum rating conditions for extended periods may affect device reliability Attention ZigBit is an ESD sensitive device Precaution should be taken when handling the device in order to prevent permanent damage 2008 MeshNetics Page 7 of 24 Meshlletics ZigBit OEM Modules Product Datasheet Physical Environmental Characteristics and Outline Parameter Oo Vawe Size Weight ZDM A1281 A2 Operating Temperature Range 20 to 70 40 C to 85 C operational Operating Relative Humidity Range no more than 80 20 1281 0 Mechanical Drawing 18 8 17 3707 48 13 5702 12 079 44 0 LN 2 09 4 dimensions millimeters ZDM A1281 A2 Mechanical Drawing 24 02 gt 1737 19 13 502 12 002 25 TM 2 2 got All dimensions millimeters 0 Minor degradation of
5. SMA connector frequency range 2 4 2 5 GHz 17010 10 WiMo swivel antenna 1 2 wave antenna with SMA connector frequency range 2 35 2 5 GHz Related Documents 1 2 3 4 5 6 Atmel 8 bit AVR Microcontroller with 64K 128K 256K Bytes In System Programmable Flash 2549F AVR 04 06 Atmel Low Power Transceiver for ZigBee Applications AT86RF230 Target Specification 5131A ZIGB 08 15 05 IEEE Std 802 15 4 2003 IEEE Standard for Information technology Part 15 4 Wireless Medium Access Control MAC and Physical Layer PHY Specifications for Low Rate Wireless Personal Area Networks LR WPANS ZigBee Specification ZigBee Document 053474r17 October 19 2007 ZigBeeNet IEEE802 15 4 ZigBee Software Product Datasheet MeshNetics Doc 252 08 ZigBit Development Kit User s Guide MeshNetics Doc S ZDK 451 2008 MeshNetics Page 22 of 24 Meshlletics ZigBit Modules Product Datasheet Ordering Information Contact MeshNetics for ordering ZigBit modules and or ZigBit Development Kit Please specify the product part number and description when ordering ZigBit modules ZDM A1281 BO 2 4 GHz IEEE802 15 4 ZigBee OEM Module w Balanced RF Port ZDM A1281 A2 2 4 GHz IEEE802 15 4 ZigBee OEM Module with dual chip antenna The ZigBit Development Kit is offered with 2 support packages e ZigBit Development Kit Lite offers access to standard evaluation and development tools and comes with 45 day
6. network configuration and speeds up application prototyping It also enables wireless module configuration during mass production process providing a flexible commissioning protocol for installation and maintenance of ZigBit based devices 2008 MeshNetics llleshlletics ZigBit OEM Modules Product Datasheet ZDM A1281 BO Block Diagram VCC 1 8 3 6V 1281 iy AT86RF230 Micro RF controller Transceiver SPI Bus 20 1281 2 Block Diagram VCC 1 8 3 6V Chip Antenna j L User application C Shared low level services Page 5 of 24 Meshlletics ZigBit Modules Product Datasheet Specifications Test Conditions unless otherwise stated f 2 45 GHz Tamp 25 C Module Operating Conditions Parameters mno Supply Voltage Vec 1 8 to 3 6 Current Consumption RX mode 2224900 Current Consumption TX mode Current Consumption Radio is turned off 1 MCU is active for 50 of the time Current Consumption Power Save mode BEEN NENNEN 19 18 i Note Parameters specified above are measured under the following conditions ZigBeeNet software is running at 4 MHz clock rate DTR line management is turned off all interfaces are set to the default state see Pin Assignment Table output TX power is 0 dBm JTAG is not connected Ve 3 0 V actual current consumption depends on multiple fact
7. O software development platform supporting reliable scalable and secure wireless applications running on MeshNetics ZigBit modules SerialNet allows programming of the module via serial AT command interface OpenMAC is MeshNetics open source implementation of IEEE802 15 4 MAC layer intended for embedded software experts and enthusiasts The applications include but are not limited to e Building automation amp monitoring Water metering Lighting controls e Industrial monitoring e Wireless smoke and CO detectors e Machinery condition and performance monitoring e Structural integrity monitoring e Monitoring of plant system parameters such as monitoring amp control temperature pressure flow tank level humidity Inventory management vibration Environmental monitoring Automated meter reading AMR Security 2008 MeshNetics Page 3 of 24 Meshlletics Key features Ultra compact size 24 x 135 for ZDM A1281 A2 module 18 8 x 13 5 mm for 20 1281 0 module e Innovative patent pending balanced dual chip antenna design with antenna approximately 0 dBi for ZDM A1281 A2 version High RX sensitivity 101 dBm Outperforming link budget 104 dB Up to 3 dBm output power Very low power consumption 6 uA in sleep mode Ample memory resources 128K bytes of flash memory 8K bytes RAM 4K bytes EEPROM Wide range of interfaces both analog and digit
8. Tlesh letirs ZigBit Modules ZDM A1281 Ultra Compact 2 4GHz 802 15 4 ZigBee Modules for Wireless Networking Applications Product Datasheet DOC M 251 01 v 1 15 WWW MESHNETICS COM MARCH 2008 2008 MeshNetics Meshlletics ZigBit Modules Product Datasheet Table of Contents CE 3 APDHCATONS AAA 3 A Aic m 4 27 e 4 ZigBit Module Overview P 4 Wa aaa IONS A E 6 Absolute Maximum RatingS nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnmnnn nnmnnn uds aC 7 Physical Environmental Characteristics and 8 Pin rendi re EAU o o mc 9 Information 13 Sample Antenna Reference in cua Rd dw ai a ER D nu 14 PRC SIAC YC SPI LON Sis IT 20 Related DOCUMEN
9. al Ospare GPIO 2 spare IRQ lines lines 1 line for supply voltage control up to 9 lines with JTAG disabled UART with CTS RTS control USART C SPI 1 Wire Up to 30 lines configurable as GPIO e Capability to write own MAC address into the EEPROM e Optional antenna reference designs IEEE 802 15 4 compliant e 2 4 GHz ISM band ZigBeeNet embedded software including UART bootloader and AT command set ZigBit Module Overview ZigBit is a low power high sensitivity IEEE802 15 4 ZigBee compliant OEM module This multi functional device occupies less than a square inch of space which is comparable to a typical size of a single chip Based on a solid combination of Atmels latest AVR Z Link hardware platform 1 the ZigBit offers superior radio performance with exceptional ease of integration ZigBit modules comply with the FCC Part 15 IC and ETSI CE rules applicable to the devices radiating in uncontrolled environment For details see section Agency Certifications below ZigBit fully satisfies the requirements of the Directive 2002 95 EC of the European Parliament and the Council of 27January 2003 on the restriction of the use of certain hazardous substances electrical electronic equipment ROHS MeshNetics provides fully compliant product in all regions where the directive is enforced July 1 2006 2008 MeshNetics ZigBit OEM Modules Product Datasheet Bene
10. attery compartment ZDM A 128 1 0 Symmetric vertical plane X 1802 2709 2008 MeshNetics Page 16 of 24 Meshiletics Product Datasheet PCB Layout with 50 Ohm External Antenna recommended for ZDM A1281 BO Top side 1 7 7 9 4 Balun TDK s HHM1520 2922 e 0 7 Two capacitors 0402 22pF 5 NPO High Freq Grade Murata GRM1555C1H220JZ0D ya Bottom side In case the external unbalanced 50 Ohm antenna is required it can be easily interfaced to ZDM A1281 BO module by using 2 1 balun as shown above This reference design demonstrates how to use SMA connector 2008 MeshNetics SMA Connector 4 through holes O1 9 NER us through holes O0 3 0 4 Recommended step 1 mm Area supporting the components Metallization wires through holes are unallowed Metallization Material FR 4 thickness 1 6 mm Metallization 35 um Coating HASL solder mask Detailed dimensions see datasheets for Balun and SMA Connector All dimensions are in millimeters External Antenna Connector ZDM A1281 BO Nylon leg Battery compartment Page 17 of 24 Meshiletics Layout with Dual Chip Antenna Module recommended for ZDM A1281 A2
11. ay a label referring to the enclosed module This exterior label can use wording such as the following Example of label required for OEM product containing ZDM A1281 A2 module Contains FCC ID U6TZIGBIT A2 The enclosed device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions this device may not cause harmful interference and this device must accept any interference received including interference that may cause undesired operation Example of label required for product containing 20 1281 0 module Contains FCC ID U6TZIGBIT BO The enclosed device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions this device may not cause harmful interference and this device must accept any interference received including interference that may cause undesired operation Any similar wording that expresses the same meaning may be used 2 To be used with the ZDM A1281 BO module the external antennas have been tested and approved which are specified herebelow The ZDM A1281 BO Module may be integrated with other custom design antennas which OEM installer must authorize following the FCC 15 21 requirements WARNING The Original Equipment Manufacturer OEM must ensure that the OEM modular transmitter must be labeled with its own FCC ID number This includes a clearly visible label on the outside of the final product enclos
12. clock stability may occur 2008 MeshNetics Page 8 of 24 Meshlletics Product Datasheet 20 1281 0 Pinout X10 145 OSIW 145 ISON 145 0049 LOld9 cOld9 INO 28280 13534 M10 241 Viva Oel 1uvn 1uvn SLY 1Hvn SLO 1 90149 4049 ZigBit OEM Modules ion t igura Pin Conf GND RFN IO GND st N st 1 18 17 16 15 14 13 12 11109 8 7 6 5 4 3 2 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 e VCC VCC 4 GPIO5 DGND DGND 9 2 80149 101 OLYVSN OLYVSN OLYVSN 1uvn Old9 QNOV V 1 LAdNI LNdNI 2 MOL SNL ZDM A1281 A2 Pinout MTO 148 OSIW 148 ISOW 145 0049 1049 4 INO 80 198599 Oel 1uvn 1 SLY LHYN SLO 1 9049 4049 1 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 18 17 16 15 14 13 12 11 109 8 7 6 5 4 3 2 O O N N N LO N 4 GPIO5 DGND DGND D_VCC D_VCC 9 Oul 2 8049 X101X3 OLYVSN OLYVSN OLYVSN Hld LYN HML Old V 199 L LAdNI OAY 2 LNdNI 2 MOL Ovir OVI SAL 9 of 24 2008 MeshNetic
13. ct Datasheet Mounting Information ZDM A1281 BO PCB Recommended Layout Top View 19 7 gt 19 14 5 48 25 0 8 All dimensions millimeters ZDM A1281 A2 PCB Recommended Layout Top View 0 5 18 1 0 1 ERREEN 14 5 09 gt EERE 26 43 All dimensions millimeters x The above diagrams show the PCB layout recommended for ZigBit module Neither via holes nor wires are allowed on the PCB upper layer in area occupied by the module As a critical requirement RF GND pins should be grounded via several holes to be located right next to the pins thus minimizing inductance and preventing both mismatch and losses 2008 MeshNetics Page 13 of 24 Meshlletics ZigBit Modules Product Datasheet Sample Antenna Reference Designs This section presents PCB designs which combine ZigBit with different antennas PCB onboard antenna external antenna and dual chip antenna These antenna reference designs are recommended for successful design in PCB Layout Symmetric Dipole Antenna recommended for ZDM A1281 BO Top side 21 0 5 2 gt 25 0 E gt 14 2 6 4 11 5 1 8 4 gt WA Y Aa i
14. fits Less physical space constraints Best in class RF link range Longer battery life Easy prototyping with 2 layer PCB More memory for user software application Mesh networking capability Easy to use low cost Evaluation Kit Single source of support for HW and SW Worldwide license free operation ZigBit contains Atmel s ATmega1281V Microcontroller 1 and AT86RF230 RF Transceiver 2 The module features 128kb flash memory and 8 kb RAM The ZigBit already contains a complete RF MCU related design with all the necessary passive components included The module can be easily mounted on a simple 2 layer PCB Compared to a single chip a module based solution offers considerable savings in development time and NRE cost per unit during the design prototyping and mass production phases of product development Innovative patent pending dual chip antenna design in ZDM A1281 A2 module eliminates the balun achieves good performance over ZigBee frequency band Page 4 of 24 w To jumpstart evaluation and development MeshNetics also offers a complete set of evaluation and development tools The ZigBit Development Kit 6 comes with everything you need to create custom applications around ZigBit module The kit features MeshBean development boards with an easy to access extension connector for attaching third party sensors and other peripherals and a JTAG connector for easy application uploading and debugging The kit also
15. gn should prevent propagation of microwave field inside the board material Electromagnetic waves of high frequency may penetrate the board thus making the edges of the board radiate which may distort the antenna pattern To eliminate this effect metalized and grounded holes must be placed around the board s edges as shown Since the design of dual chip antenna is intended for installation on FR 4 board 1 6 mm thick the antenna performance may only be guaranteed for the particular board type and thickness 2008 MeshNetics Page 18 of 24 Meshlletics ZigBit Modules Product Datasheet ZDM A 128 1 2 Dual Chip Antenna Pattern horizontal plane ZDM A1281 A2 Battery compartment ZDM A 128 1 A2 Dual Chip Antenna Pattern vertical plane 2702 Note The antenna patterns presented above were observed using PCB enhanced with legs made of original nylon 2008 MeshNetics Page 19 of 24 Meshlletics ZigBit Modules Product Datasheet Agency Certifications UNITED STATES FCC This equipment complies with Part 15 of the FCC rules and regulations To fulfill FCC Certification requirements an OEM manufacturer must comply with the following regulations 1 The modular transmitter must be labelled with its own FCC ID number and if the FCC ID is not FC visible when the module is installed inside another device then the outside of the device into which the module is installed must also displ
16. includes sample applications in to speed up application development open source hardware interface layer and reference drivers for the all the module interfaces intuitive development environment from Atmel and comprehensive set of application notes and product tutorials ZigBit modules comes bundled with ZigBeeNet 27 generation embedded software stack from MeshNetics ZigBeeNet is fully compliant with ZigBee PRO and ZigBee standards for wireless sensing and control 3 4 5 and it provides an augmented set of APIs which while maintaining 100 compliance with the standard offer extended functionality designed with developer s convenience and ease of use in mind Depending on end user design requirements ZigBit can operate as a self contained sensor node where it would function as a single MCU or it can be paired with a host processor driving the module over a serial interface In the former case a user application may be used with the ZigBeeNet software allowing customization of embedded applications through ZigBeeNet s C API In the latter case the host processor controls data transmission and manages module peripherals via an extensive set of SerialNet AT commands Thus no firmware customization is required for a successful module design in Additionally third party sensors can be connected directly to the module thus expanding the existing set of peripheral interfaces The over the air control via AT commands eases
17. na Schematics JrAG TMs 26 JTAG TMS 2 SPI MISO 27 JTAG TDI SPI mosi JTAG_TDO 28 3 JTAG x 0 JTAG_TCK 29 1 JTAG x NS GPIO1 30 4 JTAG x 4 ADC INPUT2 35 xH NC x l OSC32K OUT INPUT 1 gt x bid x9 RST 8 RESET BAT 33 6 JTAG_RST 9 DGND 34 x 2 x 101 CPU AGND 32 10 JTAG 11 pc GPlog 361 x 12 DATA UART_DTR 4L x UART TXD lt 13 UART TXD USARTO 38 UART RXD x 14 UART RXD USARTO 29 UART_RTS lt 15 UART UsARTO L x UART CTS x 16 UART CTS 4H x 7 7 42 x 181 Gpio7 43 x 19 RE 44 x 20 qGPlO4 45 GPIOS 5 two capacitors MI 22 47 23 RE 48 vcc 24 D vcc N 7 For ZDM A1281 B0 combined with PCB Antenna 0402 22pF 5 NPO High Freq Grade Murata GRM1555C1H220JZ0D 2008 MeshNetics Balun TDK s HHM1520 4 5 SMA Connector 2 two capacitors 3 6 Not Connected For 1281 0 combined with External Antenna 0402 22 5 NPO High Freq Grade Murata GRM1555C1H220JZ0D Page 12 of 24 Meshlletics ZigBit Modules Produ
18. nsor adaptations and others Access to serial bootloader source code is essential in building custom tools for serial and OTA upgrades 5 Additional sample applications include sources for 1 the embedded portion of WSN Demo featuring the most comprehensive example of a typical data acquisition scenario 2 smaller examples of API use which may be used as application building blocks 3 sample applications featuring integration of ZigBit w 3 rd party sensors SerialNet Extensions allow customer to extend the AT command set with their own commands This software simplifies commissioning eases software design in and allows customers to control 3 rd party sensors of their choice via AT commands 2008 MeshNetics Page 23 of 24 Meshiletics Disclaimer Product Datasheet MeshNetics believes that all information is correct and accurate at the time of issue MeshNetics reserves the right to make changes to this product without prior notice Please visit MeshNetics website for the latest available version MeshNetics does not assume any responsibility for the use of the described product convey any license under its patent rights MeshNetics warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with MeshNetics standard warranty Testing and other quality control techniques are used to the extent MeshNetics deems necessary to support this warranty Except whe
19. oduct a submission must be made to a notified body for compliance testing to all required standards IMPORTANT The CE marking must be affixed to a visible location on the OEM product The CE mark shall consist of the initials CE taking the following form C e If the CE marking is reduced or enlarged the proportions given in the above graduated drawing must be respected he CE marking must have a height of at least 5mm except where this is not possible on account of the nature of the apparatus The CE marking must be affixed visibly legibly and indelibly More detailed information about CE marking requirements you can find at DIRECTIVE 1999 5 EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL on 9 March 1999 at section 12 Certification Approved Antennas list is presented in below 2008 MeshNetics Page 21 of 24 w llleshlletics ZigBit OEM Modules Product Datasheet Approved Antenna List ZDM A1281 A2 Module works with integrated dual chip antenna The design of the antenna is fully compliant with all the aforementioned regulation ZDM A1281 BO Module has been tested and approved for use with the antennas listed in the table below ZDM A1281 BO Module may be integrated with other custom design antennas which OEM installer must authorize with respective regulatory agencies Part Number Manufacturer amp Description Min Separation cm 2010B4844 01 Antenova Titanis swivel antenna 1 4 wave antenna with
20. ors including but not limited to the board design and materials extra MCU load by user s application peripherals usage EEPROM reading writing ZigBeeNet settings network activity and so on RF Characteristics Parameters Range Unit Condition Frequency Band 240102485 GHz o Number of Channels Channel Spacing AAA o Hz Hz Transmitter Output Power 17 to 3 dBm Adjusted in 16 steps Bm Receiver Sensitivit PER 196 On Air Data Rate kbps 00000 TX Output Rx Input Nominal Impedance Ohms For balanced output 2008 MeshNetics Page 6 of 24 Sh ZigBit Modules Product Datasheet Parameters Range Umt Condition Flash Memory Size _ On ChipRAMSize bes AA On ChipEEPROMSize CD Operation Freguency Module nterfaces Characteristics Range Unt Condition UART Maximum Baud Rate 334 ADC Resolution Conversion Time 10 200 Bits us Inthe single conversion mode ADC gt ADCReferenceVotage Ve 100103 V ADC Jooo _______ 223 Jee Real Time Oscilator Frequency 9278 Absolute Maximum Ratings Voltage of any Pin except RESET with respect to 0 5 V Vec 0 5 V Ground DC Current I O Pin DC Current and Pins 200mA
21. pins are used for on chip debugging and flash burning They can be used for A D conversion if JTAGEN fuse is disabled 7 The following pins can be configured with the ZigBeeNet software to be general purpose lines GPIOO GPIO1 GPIO2 GPIO3 GPIO4 GPIO5 GPIO6 GPIO7 GPIO8 GPIO 1WR I2C 2 DATA UART TXD UART RXD UART RTS UART CTS ADC INPUT 3 ADC INPUT 2 ADC INPUT 1 BAT UART USARTO RXD USARTO TXD USARTO EXTCLK 7 IRQ Additionally four JTAG lines can be programmed with software as GPIO as well but this requires changing the fuse bits and will disable JTAG debugging 8 With ZigBeeNet CTS pin can be configured to indicate sleep active condition of the module thus providing mechanism for power management of host processor If this function is necessary connection of this pin to external pull down resistor is recommended to prevent the undesirable transients during module reset process 9 Using ferrite bead and 1 uF capacitor located closely to the power supply pin is recommended as shown below 10 Pins 44 through 48 are not designed for the ZDM A1281 A2 module Note these pins are used in ZDM A1281 BO see them in antenna schematics below 2008 MeshNetics Page 11 of 24 CD ZigBit OEM Modules Product Datasheet Typical Anten
22. provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense FCC section 15 105 2008 MeshNetics Page 20 of 24 llleshlletics ZigBit OEM Modules Product Datasheet w CANADA IC Equipment is subject to certification under the applicable RSSs shall be permanently labelled on each item or as an inseparable combination The label must contain the following information for full compliance For ZDM A1281 A2 module Certification Number IC 7036A ZIGBITA2 Manufacturer s Name Trade Name or Brand Name ZIGBIT Model Name ZDM A1281 A2 For 20 1281 0 module Certification Number IC 7036A ZIGBITBO Manufacturer s Name Trade Name or Brand Name ZIGBIT Model Name ZDM A1281 BO IMPORTANT This equipment for which a certificate has been issued is not considered certified if it is not properly labelled The information on the Canadian label can be combined with the manufacturer s other labelling requirements IMPORTANT Operation is subject to the following two conditions 1 this device may no
23. r NS State the list Pin Description after below power on GPIO 1WR 1 Wire Interface 2347 DTR input Data Terminal Ready for 2 3 4 7 UART Active low tri state USARTO RXD UART SPI receive tristate 2 3 4 7 USARTO TXD UART SPI transmit pin O tristate 2 3 4 7 774 exten urson 1 2247 General purpose digital input output 8 tri state KA Kaa 1 msee 2347 ros 1 msee 2347 _ farano 1 The UART TXD is intended for input i e its designation as implies some complex system containing ZigBit as its RF terminal unit while UART RXD pin vice versa is for output 2 Most of pins can be configured for general purpose or for some alternate functions as described in details in the ATmega1281V Datasheet 1 3 GPIO pins can be programmed either for output or for input with without pull up resistors Output pin drivers are strong enough to drive LED displays directly refer to figures on pages 387 388 1 4 All digital pins are provided with protection diodes to D VCC and DGND 5 is strongly recommended to avoid assigning an alternate function for OSC32K OUT pin because it is used by ZigBeeNet However this signal can be used if another peripheral or host processor requires 32 768 kHz clock otherwise this pin can be disconnected 6 Normally JTAG TMS JTAG TDI JTAG TDO JTAG TCK
24. re mandated by government requirements testing of all parameters of each product is not necessarily performed Trademarks MeshNetics ZigBit ZigBeeNet SensiLink LuxLabs Luxoft Labs and MeshNetics Luxoft Labs and ZigBit logos are trademarks of LuxLabs Ltd dba MeshNetics All other product names trade names trademarks logos or service names are the property of their respective Owners Technical Support Technical support is provided by MeshNetics E mail support meshnetics com Please refer to Support Terms and Conditions for full details Contact Information MeshNetics EMEA Office Am Brauhaus 12 01099 Dresden Germany Tel 49 351 8134 228 Office hours 8 00am 5 00pm Central European Time Fax 49 351 8134 200 US Office 5110 N 44th St Suite L200 Phoenix AZ 85018 USA Tel 602 343 8244 Office hours 9 00am 6 00pm Mountain Standard Time Fax 602 343 8245 Russia Office 9 Dmitrovskoye Shosse Moscow 127434 Russia Tel 7 495 725 8125 Office hours 8 00am 5 00pm Central European Time Fax 7 495 725 8116 E mail info meshnetics com www meshnetics com 2008 MeshNetics All rights reserved No part of the contents of this manual may be transmitted or reproduced in any form or by any means without the written permission of MeshNetics 2008 MeshNetics Page 24 of 24
25. s lesh CD ZigBit Modules Product Datasheet Pin Assignment Table Default Notes see Connector yaba State the list Pin ESTEE ICT E after below power on SPI CLK Reserved for stack O fe 7 reset HF clock output When module is in 4 active state 4 MHz signal is present on E this line While module is in the sleeping state clock generation is stopped also aa 9 2547 an ae 1 msee M Axo 9 msee ow oms Ua eme het epe pn General purpose digital input output6 purpose General purpose digital input output6 input output 6 __ _ 9 _ TMS mode aa _ _ means St m A348 _ WT luacs 1 9 Tano mbuta 1 237 _ 9 ADCINPUL ADOrpucumez 1 237 _ ADCINPUT 237 _ ADC input channel 0 Used for battery 2 8 7 33 level measurement This pin level equals tri state to 3 A VREF Output Input reference voltage for ADC WO triste 2008 MeshNetics Page 10 of 24 Meshlletics ZigBit Modules Product Datasheet Default Notes see Connecto
26. s of complimentary support This option is good for product demonstration platform evaluation and quick application prototyping e ZigBit Development Kit Complete comes with 1 year of professional support which provides users with continuous software updates dedicated design in support and RF design assistance ideal for customers engaged in a full cycle of developing prototyping and launching innovative products made possible by MeshNetics ZigBit wireless platform It also features early software release access and additional sample applications including sources for WSN Demo application examples of use and more ZDK Edition Lite Complete Part Number ZDK A1281 LTE ZDK A1281 CPT Duration 45 days 1 year Hardware design support RF design support Software development support Early software release access Access to Gerber Files Access to bootloader source code Additional sample applications SerialNet Extensions Response time 72 h workdays 72 h workdays Support channel E mail E mail Early software release access covers technology previews and demos preliminary datasheets and advance product announcemen MeshBean Gerber files greatly expedite custom PCB design in and accelerate for customer s specific products based on ZigBit modules and peripherals used within MeshBean development platform such as USB extension se
27. sk 000000009 All millimeters O O O O O 00 OO Y 60 0 2008 MeshNetics Page 14 of 24 llleshlletics ZigBit OEM Modules Product Datasheet The symmetric dipole antenna above has been tuned for the particular design The cut and paste approach would not guarantee optimal performance because of multiple factors affecting proper antenna match hence affecting the pattern The particular factors are the board material and thickness shields the material used for enclosure the board neighborhood and other components adjacent to antenna General recommendations e Metal enclosure should not be used Using low profile enclosure might also affect antenna tuning e Placing high profile components next to antenna should be avoided Having holes punched around the periphery of the board eliminates parasitic radiation from the board edges also distorting antenna pattern e ZigBit module should not be placed next to consumer electronics which might interfere with ZigBits RF frequency band 2008 MeshNetics Page 15 of 24 Meshlletics ZigBit Modules Product Datasheet 90 112 5 67 5 ZDM A1281 B0 Symmetric Dipole Antenna Pattern horizontal plane 180 A 202 58 ZDM A1281 BO B
28. t cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation IMPORTANT To reduce potential radio interference to other users the antenna type and its gain should be so chosen that the equivalent isotropically radiated power e i r p is not more than that permitted for successful communication IMPORTANT The installer of this radio equipment must ensure that the antenna is located or pointed such that it does not emit RF field in excess of Health Canada limits for the general population Consult Safety Code 6 obtainable from Health Canada s website www hc sc gc ca rpb EUROPEAN UNION ETSI The ZDM A1281 A2 and ZDM A1281 BO Modules has been certified for use in European Union countries If the ZDM A1281 A2 and ZDM A1281 BO Modules are incorporated into a product the manufacturer must ensure compliance of the final product to the European harmonized and low voltage safety standards A Declaration of Conformity must be issued for each of these standards and kept on file as described in Annex Il of the R amp TTE Directive Furthermore the manufacturer must maintain a copy of the ZDM A1281 A2 and ZDM A1281 BO Modules documentation and ensure the final product does not exceed the specified power ratings antenna specifications and or installation requirements as specified in the user manual If any of these specifications are exceeded in the final pr
29. ure that displays the contents shown below If the FCC ID is not visible when the equipment is installed inside another device then the outside of the device into which the equipment is installed must also display a label referring to the enclosed equipment IMPORTANT This equipment complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 this device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation FCC 15 19 The internal external antenna s used for this mobile transmitter must provide a separation distance of at least 20 cm from all persons and must not be co located or operating in conjunction with any other antenna or transmitter Installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance This device is approved as a mobile device with respect to RF exposure compliance and may only be marketed to OEM installers Use in portable exposure conditions FCC 2 1093 requires separate equipment authorization IMPORTANT Modifications not expressly approved by this company could void the user s authority to operate this equipment FCC section 15 21 IMPORTANT This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to
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